CA2185902A1 - Cleaved amplified rflp detection methods - Google Patents

Abstract

The invention features methods for generating and detecting polymorphic restriction sites in nucleic acids, and kits for carrying out these methods.

Description

W095/25538 2 1 8 5 9 0 2 PCT~S95/03419 CLEAVED AMPLIFIED RFLP DETECTION METHODS
Backqround of the Invention This invention relates to the generation and detection of genetic polymorphisms.
Genetic maps consisting primarily of restriction fragment length polymorphic (RFLP) markers are being constructed for many organisms, including man.
10 Traditional approaches for detecting RFLPs involve Southern blot hybridization. Recently, t~chniques based on the polymerase chain reaction (PCR; Mullis et al., Methods Enzymol. 155:350-355, 1987) have been used in addition to, or in place of, traditional RFLP markers in 15 genetic analysis (Cox et al., BioEssays 13:193-198, 1991). In contrast to traditional RFLP markers, PCR-generated markers can be scored using a small sample of DNA, without the use of radioactivity, and without the need for time-consuming DNA blotting procedures.
One widely used PCR-based approach involves the use of single short PCR primers of arbitrary sequence called RAPD primers (for Eandom _mplified ~olymorphic DNA; Reiter et al., Proc. Natl. Acad. Sci. USA 89:1477-1481, 1992; Williams et al., Theoret. Appl. Genet.
25 82:489-498, 1991). A second category of PCR-based markers are called SSLPs (for simple sequence length ~olymorphism). The method employing SSLPs is based on amplification across tandem repeats of one or a few nucleotides known as "microsatellites." Microsatellites 30 occur frequently and randomly in most eukaryotic genomes and display a high degree of polymorphism due to variation in the numbers of repeated units.
A third category of PCR-based markers are called AFLPs (for _mplified fragment length polymorphisms). In 35 the method employing these markers, DNA from two W095125538 2 ~ 8 5 9 0 2 PCT~S95/03419 polymorphic strains are cleaved with one or two restriction endonucleases, and adapters are ligated to the ends of the cleaved fragments. The fragments are then amplified using primers complementary to the 5 adapter(s). The primers contain short stretches of random nucleotides at their 3' ends, which result in limiting the number of amplified fragments generated.

Summary of the Invention We have developed novel PCR-based methods for lO detecting the presence or absence of a polymorphic restriction site in a nucleic acid involving the use of differentially labeled PCR primers and oligonucleotides.

Accordingly, in one aspect, the invention features a method for detecting the presence or absence of a 15 polymorphic restriction site in a nucleic acid, involving the steps of (a) amplifying the nucleic acid by PCR using a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with the first member of a specific binding pair, the second 20 primer being tagged with a detectable label; (b) digesting the PCR product of step (a) with the restriction endonuclease corresponding to the polymorphic restriction site; (c) contacting the reaction product of step (b) with the second member of the specific binding 25 pair, immobilized on a solid support; and (d) measuring the level of the detectable label bound to the solid support, the presence of the detectable label bound to the solid ~u~o~L being an indication of the absence of the polymorphic restriction site in the nucleic acid.
In a second aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR

Woss/2ss38 2 1 8 5 9 0 2 PCT~SsS/03419 using a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with the first member of a specific binding pair, the second primer being tagged with a first detectable 5 label; (b) digesting the PCR product of step (a) with the restriction endonuclease corresponding to the polymorphic restriction site; (c) annealing and ligating to the single-stranded ends generated in the reaction of step (b) an oligonucleotide tagged with a second detectable lO label; (d) contacting the reaction product of step (c) with the second member of the specific binding pair, immobilized on a solid support; and (e) determining the levels of the first and second detectable labels bound to the solid support, the presence of only the first 15 detectable label bound to the solid support being an indication of a homozygote lacking the polymorphic restriction site, the presence of only the second detectable label bound to the solid support being an indication of a homozygote containing the polymorphic 20 restriction site, and the presence of both the first and second detectable labels bound to the solid support being an indication of a heterozygote.
In a third aspect, the invention features a method for detecting the preCDnce or Ahs~nce of a polymorphic 25 restriction site in a nucleic acid, the method involving the steps of: (a) amplifying the nucleic acid by PCR
using a first and a second primer flAnk;ng the polymorphic restriction site, the first primer being tagged with a detectable label, the second primer being 30 unlabeled; (b) digesting a portion of the reaction of step (a) with the restriction endonuclease corresponding to the polymorphic restriction site, while leaving another portion of the reaction of step (a) undigested;
(c) denaturing the digested and undigested portions from 35 step (b); (d) contacting the product of step (c) with an woss/2ss38 2 1 8 5 9 0 2 PCT~S95/03419 oligonucleotide complementary to a sequence in the strand of the product of step (c) contA;n;ng the detectable label, the sequence being between the polymorphic restriction and the sequence complementary to the second 5 primer, the oligonucleotide being tagged with a first member of a specific binding pair; (e) contacting the reaction product of step (d) with the second member of the specific binding pair, immobilized on a solid support; and (f) determining the ratio of the levels of lO the detectable label bound to the solid support between undigested and digested samples, a ratio of l:0 between equivalent portions of the undigested and digested samples being an indication of a homozygote containing the polymorphic restriction site, a ratio of l:l between 15 equivalent portions of the undigested and digested samples being an indication of a homozygote lacking the polymorphic restriction site, and a ratio of 2:l between equivalent portions of the undigested and digested samples being an indication of a heterozygote.
In a fourth aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
using a first and a second primer flanking the 25 polymorphic restriction site, the first primer being tagged with a first detectable label, the second primer being tagged with a second detectable label; (b) digesting the reaction product of step (a) with the restriction endonuclease correspon~;ng to the polymorphic 30 restriction site; (c) denaturing the reaction product of step (b); (d) contacting the product of step (c) with a first and a second oligonucleotide, the first oligonucleotide being complementary to a first sequence in the strand of the product of step (c) contA;n;ng the 35 first detectable label, the first sequence being between W095/25538 2 1 8 5 q 0~ PCT~S95/03419 the polymorphic restriction site and the sequence corresponding to the first primer, the first oligonucleotide being tagged with the first member of a first specific binding pair, the second oligonucleotide 5 being complementary to a second sequence in the strand of the product of step (c) containing the second detectable label, the second sequence being on the same side of the polymorphic restriction site as the first sequence, the second sequence not being contained within or being lO complementary to either of the first or second primers, the second oligonucleotide being tagged with the first member of a second specific binding pair; (e) contacting a first portion of the reaction product of step (d) with the second member of the first specific binding pair, 15 immobilized on a first solid support; (f) contacting a second portion of the reaction product of step (d) with the second member of the second specific binding pair, immobilized on a second solid SU~pOl L; and (g) determining the ratio of the levels of the first and 20 second detectable labels bound to the first and second solid supports, a ratio of l:0 between equivalent amounts of the first and second portions being an indication of a homozygote cont~;n;ng the polymorphic restriction site, a ratio of l:l between equivalent amounts of the first and 25 second portions being an indication of a homozygote lacking the polymorphic restriction site, and a ratio of 2:l between equivalent amounts of the first and second portions being an indication of a heterozygote.
In a fifth aspect, the invention features a method 30 for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR using a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with a first 35 detectable label, the second primer being tagged with a W095/25538 2 1 8 5 9 0 2 PCT~S95103419 second detectable label; (b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to the polymorphic restriction site; (c) denaturing the reaction product of step (b); (d) 5 contacting the product of step (c) with a first and a second oligonucleotide, the first oligonucleotide being complementary to a first sequence in the strand of the product of step (c) containing the first detectable label, the first sequence being between the polymorphic lo restriction site and the sequence complementary to the second primer, the first oligonucleotide being tagged with the first member of a first specific binding pair, the second oligonucleotide being complementary to a second sequence in the strand of the product of step (c) 15 containing the second detectable label, the second sequence being on the same side of the polymorphic restriction site as the first sequence, the second sequence not being contained within or being complementary to either of the first or second primers, 20 the second oligonucleotide being tagged with the first member of a second specific binding pair; (e) contacting a first portion of the reaction product of step (d) with the second member of the first specific binding pair, immobilized on a first solid ~po~L; (f) contacting a 25 second portion of the reaction product of step (d) with the second member of the second specific binding pair, immobilized on a second solid SU~pG~ L; and (g) determining the ratio of the levels of the first and second detectable labels bound to the first and second 30 solid supports, a ratio of 0:1 between equivalent amounts of the first and second portions being an indication of a homozygote containing the polymorphic restriction site, a ratio of 1:1 between equivalent amounts of the first and second portions being an indication of a homozygote 35 lacking the polymorphic restriction site, and a ratio of woss/2ss38 2 1 8 5 9 0 2 PCT~S95/03419 l:2 between equivalent amounts of the first and second portions being an indication of a heterozygote.
In a sixth aspect, the invention method for detecting the presence or absence of a polymorphic 5 restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR using a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with a first detectable label, the second primer being tagged with a lO second detectable label; (b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to the polymorphic restriction site; (c) denaturing the reaction product of step (b); (d) contacting the product of step (c) with a first and a lS second oligonucleotide, the first oligonucleotide being complementary to a first sequence in the strand of the product of step (c) contAin;ng the first detectable label, the first sequence being between the polymorphic restriction site and the sequence corresponding to the 20 first primer, the first oligonucleotide being tagged with the first member of a specific binding pair, the second oligonucleotide being complementary to a second sequence in the strand of the product of step (c) containing the second detectable label, the second sequence being on the 25 same side of the polymorphic restriction site as the first sequence, the second sequence not being contained within or being complementary to either of the first or second primers, the second oligonucleotide being tagged with the first member of the specific binding pair; (e) 30 contacting the reaction product of step (d) with the second member of the specific binding pair, immobilized on a solid support; and (f) determining the ratio of the levels of the first and second detectable labels bound to - the solid support, a ratio of l:0 being an indication of 35 a homozygote containing the polymorphic restriction site, woss/25538 2 1 8 5 9 0 2 PCT~S95/03419 a ratio of l:l being an indication of a homozygote lacking the polymorphic restriction site, and a ratio of 2:l being an indication of a heterozygote.
In a seventh aspect, the invention features a 5 method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
using a first and a second primer flanking the polymorphic restriction site, the first primer being lO tagged with a first detectable label, the second primer being tagged with a second detectable label; (b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to the polymorphic restriction site; (c) denaturing the reaction product of 15 step (b); (d) contacting the product of step (c) with a first and a second oligonucleotide, the first oligonucleotide being complementary to a first sequence in the strand of the product of step (c) containing the first detectable label, the first sequence being between 20 the polymorphic restriction site and the sequence complementary to the second primer, the first oligonucleotide being tagged with the first member of a specific binding pair, the second oligonucleotide being complementary to a second sequence in the strand of the 25 product of step (c) cont~; ni ng the second detectable label, the second sequence being on the same side of the polymorphic restriction site as the first sequence, the second sequence not being contained within or being complementary to either of the first or second primers, 30 the second oligonucleotide being tagged with the first member of the specific binding pair; (e) contacting the reaction product of step (d) with the second member of the specific binding pair, immobilized on a solid support; and (f) determining the ratio of the levels of 35 the first and second detectable labels bound to the solid woss/25538 2 1 8 5 ~ 0 2 PCT~S95/03419 support, a ratio of O:l being an indication of a homozygote contA; n; ng the polymorphic restriction site, a ratio of l:l being an indication of a homozygote lacking the polymorphic restriction site, and a ratio of l:2 5 being an indication of a heterozygote.
In an eighth aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
lO using a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with the first member of a first specific binding pair, the second primer being tagged with a detectable label; (b) digesting the reaction product of step (a) 15 with the restriction endonuclease corresponding to the polymorphic restriction site; (c) contacting the reaction product of step (b) with the second member of the first specific binding pair, immobilized on a first solid 5~0~ L; (d) denaturing the reaction product of step (c) 20 not bound to the first solid support; (e) contacting the product of step (d) with an oligonucleotide complementary to a sequence in the strand of the product of step (d) containing the detectable label, the sequence being between the polymorphic restriction site and the sequence 25 corresponding to the second primer, the oligonucleotide being tagged with the first member of a second specific binding pair; (f) contacting the reaction product of step (e) with the second member of the second specific binding pair, immobilized on a second solid su~o~L; and (g) 30 determining the ratio of the level of the detectable label bound to the first solid support to the level of the detectable label bound to the second solid support, a ratio of O:l being an indication of a homozygote - cont~;n;ng the polymorphic restriction site, in a case 35 where the total amount of the reaction product from step W095t2s538 2 1 3 5 9 0 2 PCT~S95/034l9 (c) not bound to the first solid support was used in steps (d), (e), and (f); a ra*io of 1:0 being an indication of a homozygote lacking the polymorphic restriction site, in a case where the total amount of the 5 reaction product from step (c) not bound to the first solid support was used in steps (d), (e), and (f); and a ratio of 1:1 being an indication of a heterozygote, in a case where the total amount of the reaction product from step (c) not bound to the first solid support was used in 10 steps (d), (e), and (f). In a ninth aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR using a first and a second primer flanking 15 the polymorphic restriction site, the first primer being tagged with a detectable label, the second primer being unlabeled; (b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to the polymorphic restriction site; (c) annealing and ligating 20 to the single-stranded ends generated in the reaction of step (b) a first oligonucleotide tagged with the first member of a first specific binding pair; (d) contacting the reaction product of step (c) with the second member of the first specific b; nA; ng pair, immobilized on a 25 first solid ~ G~ ~; (e) denaturing the reaction product of step (d) not bound to the first solid ~pG~ L; (f) contacting the product of step (e) with a cecon~
oligonucleotide complementary to a sequence in the strand of the product of step (e) cont~;n;ng the detectable 30 label, the sequence being between the polymorphic restriction site and either the sequence corresponding to the first primer or the sequence complementary to the second primer, the second oligonucleotide being tagged with the first member of a second specific binding pair;
(g) contacting the reaction product of step (f) with the Woss/25538 2 1 8 5 9 ~ 2 PCT~S95103419 second member of the second specific binding pair, immobilized on a second solid support; and (h) determining the ratio of the level of the detectable label bound to the first solid support to the level of 5 the detectable label bound to the second solid support, a ratio of l:0 being an indication of a homozygote containing the polymorphic restriction site, in a case where the total amount of the reaction product from step (d) not bound to the first solid support was used in lO steps (e), (f), and (g); a ratio of O:l being an indication of a homozygote lacking the polymorphic restriction site, in a case where the total amount of the reaction product from step (d) not bound to the first solid support was used in steps (e), (f), and (g); and a 15 ratio of l:l being an indication of a heterozygote; in a case where the total amount of the reaction product from step (d) not bound to the first solid support was used in steps (e), (f), and (g).
In a tenth aspect, the invention features a method 20 for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR using a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with the first member 25 of a first specific binding pair, the second primer being tagged with a detectable label; (b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to the polymorphic restriction site; (c) contacting the reaction product of step (b) 30 with the second member of the first specific binding pair, immobilized on a first solid support; (d) denaturing the reaction product from step (c) not bound to the first solid support; (e) contacting the product of - step (d) with an oligonucleotide complementary to a 35 sequence in the strand of the product of step (d) w095/25538 2 1 8 5 9 ~ ~ PcT~ssslo34l9 containing the detectable label, the sequence being between the polymorphic restriction site and the sequence corresponding to the second primer, the oligonucleotide being immobilized on a second solid support; and (f) 5 determining the ratio of the level of the detectable label bound to the first solid support to the level of the detectable label bound to the second solid support, a ratio of O:l being an indication of a homozygote cont~ining the polymorphic restriction site, in a case lO where the total amount of the reaction product from step (c) not bound to the first solid support was used in steps (d) and (e); a ratio of l:0 being an indication of a homozygote lacking the polymorphic restriction site, in a case where the total amount of the reaction product 15 from step (c) not bound to the first solid support was used in steps (d) and (e); and a ratio of l:l being an indication of a heterozygote, in a case where the total amount of the reaction product from step (c) not bound to the first solid support was used in steps (d) and (e).
In an eleventh aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
using a first and a second primer flanking the 25 polymorphic restriction site, the first primer being tagged with a detectable label, the C~con~ primer being unlabeled; (b) digesting the reaction product of step (a) with the restriction endonuclease correspQn~ing to the polymorphic restriction site; (c) annealing and ligating 30 to the single-stranded ends generated in the reaction of step (b) a first oligonucleotide tagged with the first member of a first specific binding pair; (d) contacting the reaction product of step (c) with the second member of the first specific binding pair, immobilized on a 35 first solid su~o~; (e) denaturing the reaction product Wos5/2s538 PCT~S95/03419 2 1 85qO2 of step (d) not bound to the first solid support; (f) contacting the product of step (e) with a second oligonucleotide complementary to a sequence in the strand of the product of step (e) cont~;n;ng the detectable 5 label, the sequence being between the polymorphic restriction site and either the sequence corresponding to the first primer or the sequence complementary to the second primer, the second oligonucleotide being immobilized on a second solid support; and (g) 10 determining the ratio of the level of the detectable label bound to the first solid support to the level of the detectable label bound to the second solid support, a ratio of l:0 being an indication of a homozygote containing the polymorphic restriction site, in a case 15 where the total amount of the reaction product from step (d) not bound to the first solid support was used in steps (e) and (f); a ratio of 0:1 being an indication of a homozygote lacking the polymorphic restriction site, in a case where the total amount of the reaction product 20 from step (d) not bound to the first solid support was used in steps (e) and (f); and a ratio of 1:1 being an indication of a heterozygote, in a case where the total amount of the reaction product from step (d) not bound to the first solid support was used in steps (e) and (f).
In a twelfth aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
using a first and a C~con~ primer flanking the 30 polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the nucleic acid, the second primer containing a second sequence not complementary to or present in the nucleic acid; (b) amplifying the product of step (a) by PCR using 35 a third and a fourth primer, the third primer cont~;n;ng Woss/2ss38 2 1 8 5 9 0 2 PCT~S95103419 the first seq~ence or a sequence complementary to the first sequence, the third primer being tagged with the first member of a specific binding pair, the fourth primer containing the second sequence or a sequence 5 complementary to the second sequence, the fourth primer being tagged with a detectable label; (c) digesting the product of step (b) with the restriction endonuclease corresponding to the polymorphic restriction site; (d) contacting the reaction product of step (c) with the lO second member of the specific binding pair, immobilized on a solid support; and (e) measuring the level of the detectable label bound to the solid support, the presence of the detectable label bound to the solid support being an indication of the absence of the polymorphic 15 restriction site in the nucleic acid.
In a thirteenth aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
20 using a first and a second primer flanking the polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the nucleic acid, the second primer cont~;n;ng a second sequence not complementary to or present in the nucleic 25 acid; (b) amplifying the product of step (a) by PCR using a third and a fourth primer, the third primer containing the first sequence or a sequence complementary to the first sequence, the third primer being tagged with the first member of a specific binding pair, the fourth 30 primer cont~;n;ng the second sequence or a sequence complementary to the second sequence, the fourth primer being tagged with a detectable label; (c) digesting the PCR product of step (b) with the restriction endonuclease corresponding to the polymorphic restriction site; (d) 35 annealing and ligating to the single-stranded ends wossl2ss38 PCT~S95103419 generated in the reaction of step (c) an oligonucleotide tagged with a second detectable label; (e) contacting the reaction product of step (d) with the second member of the specific binding pair, immobilized on a solid 5 support; and (f) determining the levels of the first and second detectable labels bound to the solid su~o~, the presence of only the first detectable label bound to the solid support being an indication of a homozygote lacking the polymorphic restriction site, the presence of only lO the second detectable label bound to the solid support being an indication of a homozygote containing the polymorphic restriction site, and the presence of both the first and second detectable labels bound to the solid support being an indication of a heterozygote.
In a fourteenth aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
using a first and a second primer flanking the 20 polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the nucleic acid; (b) amplifying the product of step (a) by PCR using a third primer and the R con~ primer, the third primer cont~;ning the first sequence, the third primer 25 being tagged with a detectable label; (c) digesting a portion of the reaction of step (b) with the restriction endonuclease corresponding to the polymorphic restriction site, while leaving another portion of the reaction of step (b) undigested; (d) denaturing the digested and 30 undigested portions from step (c); (e) contacting the product of step (d) with an oligonucleotide complementary to a second sequence in the strand of the product of step (d) containing the detectable label, the second sequence being between the polymorphic restriction site and the 35 sequence complementary to the second primer, the -W095/25538 2 1 8 5 9 0 2 pcT~ss5lo34l9 oligonucleotide being tagged with a first member of a specific binding pair; (f) contacting the reaction product of step (e) with the second member of the specific binding pair, immobilized on a solid support;
5 and (g) determining the ratio of the levels of the detectable label bound to the solid support between undigested and digested samples, a ratio of l:o between equivalent portions of the undigested and digested samples being an indication of a homozygote contAin;ng lO the polymorphic restriction site, a ratio of l:l between equivalent portions of the undigested and digested samples being an indication of a homozygote lacking the polymorphic restriction site, and a ratio of 2:l between equivalent portions of the undigested and digested 15 samples being an indication of a heterozygote.
In a fifteenth aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
~o using a first and a second primer flanking the polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the nucleic acid, the second primer containing a second sequence not complementary to or present in the nucleic 25 acid; (b) amplifying the product of step (a3 by PCR using a third and a fourth primer, the third primer contAi n; ng the first sequence or a sequence complementary to the first sequence, the third primer being tagged with a first detectable label, the fourth primer containing the 30 second sequence or a sequence complementary to the second sequence, the fourth primer being tagged with a C~con~
detectable label; (c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to the polymorphic restriction site; (d) denaturing the 35 reaction product of step (c); (e) contacting the product woss/25s38 2 1 8 5 9 0 2 PCT~S95/0341s of step (d) with a first and a second oligonucleotide, the first oligonucleotide being complementary to a third sequence in the strand of the product of step (d) containing the first detectable label, the third sequence 5 being between the polymorphic restriction site and the sequence corresponding to or complementary to the first primer, the first oligonucleotide being tagged with the first member of a first specific binding pair, the second oligonucleotide being complementary to a fourth sequence lO in the strand of the product of step (d) containing the second detectable label, the fourth sequence being on the same side of the polymorphic restriction site as the third sequence, the fourth sequence not being contained within or being complementary to any of the primers, the 15 second oligonucleotide being tagged with the first member of a second specific binding pair; (f) contacting a first portion of the reaction product of step (e) with the second member of the first specific binding pair, immobilized on a first solid support; (g) contacting a 20 second portion of the reaction product of step (e) with the second member of the second specific binding pair, immobilized on a second solid support; and (h) determining the ratio of the levels of the first and second detectable labels bound to the first and second 25 solid supports, a ratio of l:0 between equivalent amounts of the first and second portions being an indication of a homozygote contAin;ng the polymorphic restriction site, a ratio of l:l between equivalent amounts of the first and second portions being an indication of a homozygote 30 lacking the polymorphic restriction site, and a ratio of 2:l between equivalent amounts of the first and second portions being an indication of a heterozygote.
In a sixteenth aspect, the invention features a method for detecting the presence or absence of a 35 polymorphic restriction site in a nucleic acid, involving W095/25538 2 1 8 5 9 0 2 PCT~S95/03419 the steps of: (a) amplifying the nucleic acid by PCR
using a first and a second primer flanking the polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the 5 nucleic acid, the second primer containing a second sequence not complementary to or present in the nucleic acid; (b) amplifying the product of step (a) by PCR using a third and a fourth primer, the third primer cont~in;ng the first sequence or a sequence complementary to the 10 first sequence, the third primer being tagged with a first detectable label, the fourth primer cont~;n;ng the second sequence or a sequence complementary to the second sequence, the fourth primer being tagged with a second detectable label; (c) digesting the reaction product of 15 step (b) with the restriction endonuclease corresponding to the polymorphic restriction site; (d) denaturing the reaction product of step (c); (e) contacting the product of step (d) with a first and a second oligonucleotide, the first oligonucleotide being complementary to a third 20 sequence in the strand of the product of step (d) containing the first detectable label, the third sequence being between the polymorphic restriction site and the sequence corresponding to or complementary to the second primer, the first oligonucleotide being tagged with the 25 first member of a first specific binA;ng pair, the secQ~A
oligonucleotide being complementary to a fourth sequence in the strand of the product of ætep (d) containing the second detectable label, the fourth sequence being on the same side of the polymorphic restriction site as the 30 third sequence, the fourth sequence not being contained within or being complementary to any of the primers, the second oligonucleotide being tagged with the first member of a second specific binding pair; (f) contacting a first portion of the reaction product of step (e) with the 35 second member of the first specific binding pair, woss/2ss38 2 ~ 8 5 ~ 0 2 pcT~ssslo34l9 immobilized on a first solid support; (g) contacting a second portion of the reactian product of step (e) with the second member of the second specific binding pair, immobilized on a second solid support; and (h) 5 determining the ratio of the levels of the first and second detectable labels bound to the first and second solid supports, a ratio of o:l between equivalent amounts of the first and second portions being an indication of a homozygote containing the polymorphic restriction site, a 10 ratio of 1:1 between equivalent amounts of the first and second portions being an indication of a homozygote lacking the polymorphic restriction site, and a ratio of 1:2 between equivalent amounts of the first and second portions being an indication of a heterozygote.
In a seventeenth aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
using a first and a second primer flanking the 20 polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the nucleic acid, the second primer containing a second sequence not complementary to or present in the nucleic acid; (b) amplifying the product of step (a) by PCR using 25 a third and a fourth primer, the third primer containing the first sequence or a sequence complementary to the first sequence, the third primer being tagged with a first detectable label, the fourth primer containing the second sequence or a sequence complementary to the second 30 sequence, the fourth primer being tagged with a second detectable label; (c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to the polymorphic restriction site; (d) denaturing the reaction product of step (c); (e) contacting the product 35 of step (d) with a first and a second oligonucleotide, wossl2ss38 PCT~S95103419 2 1 85~02 the first oligonucleotide being complementary to a third sequence in the strand of the product of step (d) containing the first detectable label, the third sequence being between the polymorphic restriction site and the 5 sequence corresponding to or complementary to the first primer, the first oligonucleotide being tagged with the first member of a specific binding pair, the second oligonucleotide being complementary to a fourth sequence in the strand of the product of step (d) containing the lO second detectable label, the fourth sequence being on the same side of the polymorphic restriction site as the third sequence, the fourth sequence not being contained within or being complementary to any of the primers, the second oligonucleotide being tagged with the first member 15 of the specific binding pair; (f) contacting the reaction product of step (e) with the second member of the specific binding pair, immobilized on a solid support;
and (g) determining the ratio of the levels of the first and second detectable labels bound to the solid ~y~O-L, 20 a ratio of l:0 being an indication of a homozygote containing the polymorphic restriction site, a ratio of l:l being an indication of a homozygote lacking the polymorphic restriction site, and a ratio of 2:l being an indication of a heterozygote.
In an eighteenth aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving (a) amplifying the nucleic acid by PCR using a first and second primer flanking the polymorphic restriction site, 30 the first primer cont~;n;ng a first sequence not complementary to or present in the nucleic acid, the second primer containing a second sequence not complementary to or present in the nucleic acid; (b) amplifying the product of step (a) by PCR using a third 35 and a fourth primer, the third primer containing the wo9s/2ss38 PCT~S95/03419 first sequence or a sequence complementary to the first sequence, the third primer being tagged with a first detectable label, the fourth primer containing the second sequence or a sequence complementary to the second 5 sequence, the fourth primer being tagged with a second detectable label; (c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to the polymorphic restriction site; (d) denaturing the reaction product of step (c); (e) contacting the product lo of step (d) with a first and a second oligonucleotide, the first oligonucleotide being complementary to a third sequence in the strand of the product of step (d) containing the first detectable label, the third sequence being between the polymorphic restriction site and the 15 sequence corresponding to or complementary to the second primer, the first oligonucleotide being tagged with the first member of a specific binding pair, the second oligonucleotide being complementary to a fourth sequence in the strand of the product of step (d) containing the 20 second detectable label, the fourth sequence being on the same side of the polymorphic restriction site as the third sequence, the fourth sequence not being contained within or being complementary to any of the primers, the second oligonucleotide being tagged with the first member 25 of the specific binding pair; (f) contacting the reaction product of step (e) with the second member of the specific binding pair, immobilized on a solid support;
and (g) determining the ratio of the levels of the first and second detectable labels bound to the solid ~u~o~L, 30 a ratio of 0:1 being an indication of a homozygote containing the polymorphic restriction site, a ratio of 1:1 being an indication of a homozygote lacking the polymorphic restriction site, and a ratio of 1:2 being an indication of a heterozygote.

W095/25538 2 1 8 5 ~ 0 2 PCT~S95/03419 In a nineteenth aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of (a) amplifying the nucleic acid by PCR using 5 a first and a second primer flanking the polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the nucleic acid, the second primer containing a second sequence not complementary to or present in the nucleic acid; (b) lO amplifying the product of step (a) by PCR using a third and a fourth primer, the third primer containing the first sequence or a sequence complementary to the first sequence, the third primer being tagged with the first member of a first specific binding pair, the fourth 15 primer containing the second sequence or a sequence complementary to the second sequence, the fourth primer being tagged with a detectable label; (c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to the polymorphic restriction 20 site; (d) contacting the reaction product of step (c) with the second member of the first specific binding pair, immobilized on a first solid SU~Ol L; (e) denaturing the reaction product of step (d) not bound to the first solid support; (f) contacting the product of 25 step (e) with an oligonucleotide complementary to a third sequence in the strand of the product of step (e) containing the detectable label, the third sequence being between the polymorphic restriction site and the sequence corresponding to or complementary to the second primer, 30 the oligonucleotide being tagged with the first member of a second specific binding pair; (g) contacting the reaction product of step (f) with the second member of the second specific binding pair, immobilized on a second solid support; and (h) determining the ratio of the level 35 of the detectable label bound to the first solid ~u~u~ L

w095/25538 2 1 8 5 9 0 2 PCT~S95/03419 to the level of the detectable label bound to the second solid support, a ratio of O:l being an indication of a homozygote contAining the polymorphic restriction site, in a case where the total amount of the reaction product 5 from step (d) not bound to the first solid support was used in steps (e), (f), and (g); a ratio of l:0 being an indication of a homozygote lacking the polymorphic restriction site, in a case where the total amount of the reaction product from step (d) not bound to the first lO solid support was used in steps (e), (f), and (g); and a ratio of l:l being an indication of a heterozygote, in a case where the total amount of the reaction product from step (d) not bound to the first solid support was used in steps (e), (f), and (g).
In a twentieth aspect the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
using a first and a second primer flanking the 20 polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the nucleic acid; (b) amplifying the product of step (a) by PCR using a third primer and the second primer, the third primer containing the first sequence, the third primer 25 being tagged with a detectable label; (c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to the polymorphic restriction site; (d) annealing and ligating to the single-stranded ends generated in the reaction of step (c) a first 30 oligonucleotide tagged with the first member of a first specific binding pair; (e) contacting the reaction product of step (d) with the second member of the first specific binding pair, immobilized on a first solid support; (f) denaturing the reaction product of step (e) 35 not bound to the first solid support; (g) contacting the woss/25s38 2 1 8 5 9 02 PCT~S95103419 product of step (f) with a second oligonucleotide complementary to a second sequence in the strand of the product of step (f) containing the detectable label, the second sequence being between the polymorphic restriction 5 site and either the sequence corresponding to or complementary to the second primer or the sequence corresponding to or complementary to the first primer, the second oligonucleotide being tagged with the first member of a second specific binding pair; (h) contacting lO the reaction product of step (g) with the second member of the second specific binding pair, immobilized on a second solid support; and (i) determining the ratio of the level of the detectable label bound to the first solid support to the level of the detectable label bound 15 to the second solid support, a ratio of l:0 being an indication of a homozygote containing the polymorphic restriction site, in a case where the total amount of the reaction product from step (e) not bound to the first solid support was used in steps (f), (g), and (h); a 20 ratio of O:l being an indication of a homozygote lacking the polymorphic restriction site, in a case where the total amount of the reaction product from step (e) not bound to the first solid support was used in steps (f), (g), and (h); and a ratio of l:l being an indication of a 25 heterozygote; in a case where the total amount of the reaction product from step (e) not bound to the first solid support was used in steps (f), (g), and (h).
In a twenty-first aspect, the invention features a method for detecting the presence or absence of a 30 polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
using a first and a s~con~ primer flanking the polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the 35 nucleic acid, the second primer cont~ining a second w095/25538 2 1 8 5 ~ ~ 2 PCT~S95103419 sequence not complementary to or present in the nucleic acid; (b) amplifying the product of step (a) by PCR using a third and a fourth primer, the third primer containing the first sequence or a sequence complementary to the 5 first sequence, the third primer being tagged with the first member of a first specific binding pair, the fourth primer contA;n;ng the second sequence or a sequence complementary to the second sequence, the fourth primer being tagged with a detectable label; (c) digesting the lo reaction product of step (b) with the restriction endonuclease corresponding to the polymorphic restriction - site; (d) contacting the reaction product of step (c) with the second member of the first specific binding pair, immobilized on a first solid support; (e) 15 denaturing the reaction product from step (d) not bound to the first solid support; (f) contacting the product of step (e) with an oligonucleotide complementary to a third sequence in the strand of the product of step (e) containing the detectable label, the third sequence being 20 between the polymorphic restriction site and the sequence corresponding to or complementary to the second primer, the oligonucleotide being immobilized on a second solid support; and (g) determining the ratio of the level of the detectable label bound to the first solid ~po~ to 25 the level of the detectable label bound to the second solid support, a ratio of 0:1 being an indication of a homozygote contA;n;ng the polymorphic restriction site, in a case where the total amount of the reaction product from step (d) not bound to the first solid ~u~o~ was 30 used in steps (e) and (f); a ratio of 1:0 being an indication of a homozygote lacking the polymorphic restriction site, in a case where the total amount of the reaction product from step (d) not bound to the first solid support was used in steps (e) and (f); and a ratio 35 of 1:1 being an indication of a heterozygote, in a case W095/25538 2 1 8 5 9 0 2 PCT~S95/03419 where the total amount of the reaction product from step (d) not bound to the first solid support was used in steps (e) and (f).
In a twenty-second aspect, the invention features 5 a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the method involving the steps of: (a) amplifying the nucleic acid by PCR using a first and a second primer flanking the polymorphic restriction site, the first primer lO cont~;n;ng a first sequence not complementary to or present in the nucleic acid; (b) amplifying the product of step (a) by PCR using a third primer and the second primer, the third primer containing the first sequence, the third primer being tagged with a detectable label;
(c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to the polymorphic restriction site; (d) annealing and ligating to the single-stranded ends generated in the reaction of step (c) a first oligonucleotide tagged with the first member 20 of a first specific binding pair; (e) contacting the reaction product of step (d) with the second member of the first specific binding pair, immobilized on a first solid support; (f) denaturing the reaction product of step (e) not bound to the first solid ~u~o~L; (g) 25 contacting the product of step (f) with a second oligonucleotide complementary to a second sequence in the strand of the product of step (f) containing the detectable label, the second sequence being between the polymorphic restriction site and either the sequence 30 corresponding to or complementary to the second primer or the sequence corresponding to or complementary to the first primer, the second oligonucleotide being immobilized on a second solid support; and (h) determining the ratio of the level of the detectable 35 label bound to the first solid support to the level of W095/25538 2 1 8 ~ ~ 0 2 PCT~S95/03419 the detectable label bound to the second solid support, a ratio of l:0 being an indication of a homozygote containing the polymorphic restriction site, in a case where the total amount of the reaction product from step (e) not bound to the first solid support was used in steps (f) and (g); a ratio of O:l being an indication of a homozygote lacking the polymorphic restriction site, in a case where the total amount of the reaction product from step (e) not bound to the first solid support was lO used in steps (f) and (g); and a ratio of l:l being an indication of a heterozygote, in a case where the total amount of the reaction product from step (e) not bound to the first solid support was used in steps (f) and (g).
In a twenty-third aspect, the invention features a 15 kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit containing one or more sets of a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with the first member of a 20 specific binding pair, the second primer being tagged with a detectable label. In a preferred embodiment, the kit further contains the second member of the specific binding pair, immobilized on a solid support. In another preferred embodiment, the kit further contains an 25 oligonucleotide complementary to the single-stranded ends generated in the nucleic acid upon digestion of the nucleic acid with the restriction enzyme corresponding to the polymorphic restriction site, the oligonucleotide being tagged with a second detectable label.
In a twenty-fourth aspect, the invention features a kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit containing: (a) a first and a second primer flanking the polymorphic restriction site, the first primer being 35 tagged with a detectable label, the second primer being woss/2ss38 2 1 8~9D? PCT~S95/03419 unlabeled; (b) an oligonucleotide complementary to a sequence in the strand of the nucleic acid complementary to the second primer, the sequence being between the polymorphic restriction site and the sequence 5 complementary to the second primer, the oligonucleotide being tagged with a first member of a specific binding pair; and (c) the second member of the specific binding pair, immobilized on a solid ~o~.
In a twenty-fifth aspect, the invention features a lO kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit containing: (a) a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with a first detectable label, the second primer 15 being tagged with a second detectable label; (b) a first oligonucleotide, the first oligonucleotide being complementary to a first sequence in the strand of the nucleic acid complementary to the second primer, the first sequence being between the polymorphic restriction 20 site and either the sequence corresponding to the first primer or the sequence complementary to the second primer, the first oligonucleotide being tagged with the first member of a first specific binding pair; (c) a second oligonucleotide, the second oligonucleotide being 25 complementary to a second sequence in the strand of the nucleic acid complementary to the first primer, the second sequence being on the same side of the polymorphic restriction site as the first sequence, the seco~
sequence not being contained within or being 30 complementary to either of the first or second primers, the second oligonucleotide being tagged with the first member of a second specific binding pair; (d) the second member of the first specific binding pair, immobilized on a first solid support; and (e) the second member of the 35 second specific binding pair, immobilized on a second -WO 95/25538 2 1 8 5 ~ 0 2 PCT/US95/03419 solid s~pport. In a preferred embodiment, the first and the second specific binding pairs are identical, and the first and the second solid supports are identical.
In a twenty-sixth aspect, the invention features a S kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit cont~;ning: (a) a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with the first member of a first specific binding 10 pair, the second primer being tagged with a detectable label; (b) the second member of the first specific binding pair, immobilized on a first solid support; (c) an oligonucleotide complementary to a first sequence in the strand of the nucleic acid containing the sequence 15 corresponding to the second primer, the first sequence being between the polymorphic restriction site and the sequence corresponding to the second primer, the oligonucleotide being tagged with the first member of a second specific binding pair; and (d) the second member 20 of the second specific binding pair, immobilized on a second solid support.
In a twenty-seventh aspect, the invention features a kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit 25 containing: (a) a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with a detectable label, the second primer being unlabeled; (b) a first oligonucleotide complementary to the single-stranded ends generated in the nucleic acid 30 upon digestion of the nucleic acid with the restriction enzyme corresponding to the polymorphic restriction site, the oligonucleotide being tagged with the first member of a first specific binding pair; (c) the second member of the first specific binding pair, immobilized on a first 35 solid support; (d) a second oligonucleotide complementary wo9sl2ss38 PCT~S9S/03419 to a sequence in the strand of the nucleic acid complementary to the second primer, the sequence being between the polymorphic restriction site and either the sequence corresponding to the first primer or the 5 sequence complementary to the second primer, the second oligonucleotide being tagged with the first member of a second specific binding pair; and (e) the second member of the second specific binding pair, immobilized on a second solid support.
In a twenty-eighth aspect, the invention features a kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit containing: (a) a first and a second primer flanking the polymorphic restriction site, the first primer being 15 tagged with the first member of a first specific binding pair, the second primer being tagged with a detectable label; (b) the second member of the first specific binding pair, immobilized on a first solid support; and (c) an oligonucleotide complementary to a first sequence 20 in the strand of the nucleic acid containing the sequence corresponding to the second primer, the first sequence being between the polymorphic restriction site and the sequence corresponding to the second primer, the oligonucleotide being immobilized on a second solid 25 ~u~o~L.
In a twenty-ninth aspect, the invention features a kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit containing: (a) a first and a second primer fl~nk;nq 30 the polymorphic restriction site, the first primer being tagged with a detectable label, the second primer being unlabeled; (b) a first oligonucleotide complementary to the single-stranded ends generated in the nucleic acid upon digestion of the nucleic acid with the restriction 35 enzyme corresponding to the polymorphic restriction site, - -w095/25s38 2 1 8 5 9 ~ ~ ~CT~S95/03419 the oligonucleotide being tagged with the first member of a first specific binding pair; (c) the second member of the first specific binding pair, immobilized on a first solid support; and (d) a second oligonucleotide 5 complementary to a sequence in the strand of the nucleic acid complementary to the second primer, the sequence being between the polymorphic restriction site and either the sequence corresponding to the first primer or the sequence complementary to the second primer, the second 10 oligonucleotide being immobilized on a second solid support.
In a thirtieth aspect, the invention features a kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit 15 containing: (a) a first and a second primer flanking the polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the nucleic acid, the second primer containing a second sequence not complementary to or present in the 20 nucleic acid; (b) a third and a fourth primer, the third primer containing the first sequence or a sequence complementary to the first sequence, the third primer being tagged with the first member of a specific binding pair, the fourth primer containing the second sequence or 25 a sequence complementary to the second sequence, the fourth primer being tagged with a detectable label. In a preferred embodiment, the kit further contains the second member of the specific binding pair, immobilized on a solid support. In another preferred embodiment, the kit 30 further contains an oligonucleotide complementary to the single-stranded ends generated in the nucleic acid upon digestion of the nucleic acid with the restriction enzyme corresponding to the polymorphic restriction site, the oligonucleotide being tagged with a second detectable 35 label. In a thirty-first aspect, the invention W095/25538 2 1 8 5 9 0 2 PCT~S95/03419 features a kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit containing: (a) a first and a second primer flanking the polymorphic restriction site, the first primer 5 containing a first sequence not complementary to or present in the nucleic acid; (b) a third primer containing the first sequence, the third primer being tagged with a detectable label; (c) an oligonucleotide complementary to a second sequence in the strand of the 10 nucleic acid cont~in;ng the sequence complementary to the second primer, the second sequence being between the polymorphic restriction site and the sequence complementary to the second primer, the oligonucleotide being tagged with a first member of a specific binding 15 pair; and (d) the second member of the specific binding pair, immobilized on a solid support.
In a thirty-second aspect, the invention features a kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit 20 containing: (a) a first and a second primer flanking the polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the nucleic acid, the second primer contAin;ng a second sequence not complementary to or present in the nucleic 25 acid; (b) a third and a fourth primer, the third primer containing the first sequence or a sequence complementary to the first sequence, the third primer being tagged with a first detectable label, the fourth primer cont~;n;ng the second sequence or a sequence complementary to the 30 second sequence, the fourth primer being tagged with a second detectable label; (c) a first oligonucleotide, the first oligonucleotide being complementary to a third sequence in the strand of the nucleic acid complementary to the second primer, the third sequence being between 35 the polymorphic restriction site and either the sequence Wogs/2ss38 PCT~S95/03419 21 859a2 complementary to the second primer or the sequence corresponding to the first primer, the first oligonucleotide being tagged with the first member of a first specific binding pair, (d) a second 5 oligonucleotide, the second oligonucleotide being complementary to a fourth sequence in the strand of the nucleic acid complementary to the first primer, the fourth sequence being on the same side of the polymorphic restriction site as the third sequence, the fourth 10 sequence not being contained within or being complementary to any of the primers, the second oligonucleotide being tagged with the first member of a second specific binding pair; (e) the second member of the first specific binding pair, immobilized on a first 15 solid support; and (f) the second member of the second specific binding pair, immobilized on a second solid support. In a preferred embodiment, the first and the second specific binding pairs are identical, and the first and the second solid supports are identical.
In a thirty-third aspect, the invention features a kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit containing: (a) a first and a secon~ primer flanking the polymorphic restriction site, the first primer 25 contA; n; ng a first sequence not complementary to or present in the nucleic acid, the second primer containing a cecon~ sequence not complementary to or present in the nucleic acid; (b) a third and a fourth primer, the third primer containing the first sequence or a sequence 30 complementary to the first sequence, the third primer being tagged with the first member of a first specific binding pair, the fourth primer containing the second sequence or a sequence complementary to the second sequence, the fourth primer being tagged with a 35 detectable label; (c) the second member of the first W095/25538 2 1 ~ 5 9 0 2 PCT~S95/03419 specific binding pair, immobilized on a ~irst solid support; (d) an oligonucleotide complementary to a third sequence in the strand of the nucleic acid corresponding to the second primer, the sequence being between the 5 polymorphic restriction site and the sequence corresponding to the second primer, the oligonucleotide being tagged with the first member of a second specific binding pair; and (e) the second member of the second specific binding pair, immobilized on a second solid lO support.
In a thirty-fourth aspect, the invention features a kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit containing: (a) a first and a second primer flanking 15 the polymorphic restriction site, the first primer contA;n;ng a first sequence not complementary to or present in the nucleic acid; (b) a third primer containing the first sequence, the third primer being tagged with a detectable label; (c) a first 20 oligonucleotide complementary to the single-stranded ends generated in the nucleic acid upon digestion of the nucleic acid with the restriction enzyme corresponding to the polymorphic restriction site, the oligonucleotide being tagged with the first member of a first specific 25 binding pair; (d) the second member of the first specific b;n~;ng pair, immobilized on a first solid s~o~L; (e) a second oligonucleotide complementary to a second sequence in the strand of the nucleic acid corresponding to the first primer, the second sequence being between the 30 polymorphic restriction site and either the sequence complementary to the second primer or the sequence corresponding to the first primer, the second oligonucleotide being tagged with the first member of a second specific binding pair; and (f) the second member Woss/2~538 2 1 8 5 9 0 2 PCT~SsS/03419 of the second specific binding pair, immobilized on a second solid support.
In a thirty-fifth aspect, the invention features a kit for detecting the presence or absence of a 5 polymorphic restriction site in a nucleic acid, the kit containing: (a) a first and a second primer flanking the polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the nucleic acid, the second primer containing lO a second sequence not complementary to or present in the nucleic acid; (b) a third and a fourth primer, the third primer containing the first sequence or a sequence complementary to the first sequence, the third primer being tagged with the first member of a first specific 15 binding pair, the fourth primer containing the second sequence or a sequence complementary to the second sequence, the fourth primer being tagged with a detectable label; (c) the second member of the first specific binding pair, immobilized on a first solid 20 support; and (d) an oligonucleotide complementary to a third sequence in the strand of the nucleic acid corresponding to the second primer, the third sequence being between the polymorphic restriction site and the sequence corresponding to the second primer, the 25 oligonucleotide being immobilized on a second solid au~u~
In a thirty-sixth aspect, the invention features a kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit 30 cont~;ning: (a) a first and a second primer flanking the polymorphic restriction site, the first primer containing a first sequence not complementary to or present in the nucleic acid; (b) a third primer cont~;ning the first sequence, the third primer being 35 tagged with a detectable label; (c) a first WosS/25s38 2 l 8 5 q 0 2 PCT~S95103419 oligonucleotide complementary to the single-stranded ends generated in the nucleic acid upon digestion of the nucleic acid with the restriction enzyme corresponding to the polymorphic restriction site, the oligonucleotide 5 being tagged with the first member of a first specific binding pair; (d) the second member of the first specific binding pair, immobilized on a first solid support; and (e) a second oligonucleotide complementary to a second sequence in the strand of the nucleic acid corresponding lO to the first primer, the sequence being between the polymorphic restriction site and either the sequence corresponding to or complementary to the second primer or the sequence corresponding to or complementary to the first primer, the second oligonucleotide being 15 immobilized on a second solid support.
In a thirty-seventh aspect, the invention features a method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, involving the steps of: (a) amplifying the nucleic acid by PCR
20 using a first and a second primer flanking the polymorphic restriction site, whereby the resultant PCR
product is of a defined size readily resolved by gel electrophoresis; (b) digesting the PCR product of step (a) with the restriction endonuclease corresponding to 25 the polymorphic restriction site, the digestion products being differentially sized; (c) separating the reaction products of step (b) by gel electrophoresis; and (d) detecting the separated reaction products, the presence of only uncleaved products being an indication 30 of a homozygote lacking the polymorphic restriction site, the presence of only cleaved products being an indication of a homozygote containing the polymorphic restriction site, and the presence of both cleaved and uncleaved products being an indication of a heterozygote. In a 35 preferred embodiment, one or both of the first and second W095/25538 2 ~ 8 5 9 0 2 PCT~S95/03419 primers are tagged with a detectable label. In another preferred emho~iment, the PCR product is lO0-lO00 base pairs in length.
In a thirty-eighth aspect, the invention features 5 a kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, the kit containing: a first and a second primer flanking the polymorphic restriction site and capable of generating a PCR product of a defined size that is readily resolved by lO gel electrophoresis. In a preferred embodiment, the first and/or the second primers are detectably labeled.
In another preferred embodiment, the PCR product generated is between lO0 and lO00 base pairs in length.
In a thirty-ninth aspect, the invention features a 15 method for identifying a polymorphic restriction site in a nucleic acid, involving the steps of: (a) digesting DNA
isolated from a first sample with a first restriction endonuclease; (b) ligating to each of the ends of the reaction products of step (a) a first adaptor; (c) 20 digesting the products of step (b) with a second restriction endonuclease; (d) ligating to each of the ends of the reaction products generated in step (c) a second adaptor; (e) amplifying the reaction products of step (d) by PCR using a first primer complementary to the 25 first adaptor and a second primer complementary to the second adaptor, the second primer being tagged with a first member of a specific binding pair (preferably, biotin); (f) in a separate set of reactions, digesting DNA isolated from a second sample with the first 30 restriction endonuclease; (g) ligating to each of the ends of the reaction products of step (f) a third adaptor; (h) digesting the products of step (g) with the second restriction endonuclease; (i) denaturing the products of step (e) and the products of step (h); (j) 3S combining the denatured products of step (i) under W095/25538 2 1 8 5 q 0 2 PCT~S95/03419 conditions allowing hybridization; (k) contacting the hybridization products of step (j) with the second member of the specific binding pair (preferably, avidin), the second member being immobilized on a solid support; (l) 5 recovering the hybridization products captured on the solid support; and (m) amplifying the products obtained in step (l) by PCR using a primer complementary to the third adaptor, an amplified product being an indication of a polymorphic restriction site corresponding to the lO second restriction endonuclease.
In a related aspect, the invention features a kit for identifying a polymorphic restriction site in a nucleic acid, the kit comprising: (a) a first DNA
adaptor, a second DNA adaptor, and a third DNA adaptor, 15 the first and third DNA adaptors having regions complementary to the ends generated by a first restriction endonuclease ends but differing in overall sequence and the second DNA adaptor having a region complementary to the ends generated by a second 20 restriction endonuclease, the second restriction endonuclease site corresponding to the polymorphic restriction site; and (b) a first primer, a second primer, and a third primer, the first primer being complementary to the first DNA adaptor, the second primer 25 being complementary to the second DNA adaptor and being tagged with a first member of a specific b; n~; ~g pair, and the third primer being complementary to the third DNA
adaptor. This kit may further comprises the ceco~
member of the specific binding pair immobilized on a 30 solid support.
In a preferred embodiment of various of the above aspects, multiple polymorphic restriction sites are detected by the method or kit. In preferred emho~;ments of various of the above aspects, the detectable label is 35 selected from the group consisting of digoxigenin, -wossl2ss38 PCT~S95103419 21 8590~

fluorescent labels (e.g., fluorescein and rhodamine), enzymes (e.g., horseradish pe~oxidase and alkaline phosphatase), biotin (which can be detected by anti-biotin specific antibodies or enzyme-conjugated avidin 5 derivatives), radioactive labels (e.g., 32p and l25I), colorimetric reagents, and chemiluminescent reagents.
In other preferred embodiments of various of the above aspects, the specific binding pairs are selected from the group consisting of avidin-biotin, streptavidin-lO biotin, hybridizing nucleic acid pairs, interactingprotein pairs, antibody-antigen pairs, reagents containing chemically reactive groups (e.g., reactive amino groups), and nucleic acid sequence-nucleic acid binding protein pairs. In related preferred embodiments 15 of various of the above aspects, the solid supports used in the methods of the invention are selected from the group consisting of agarose, acrylamide, or polystyrene beads; polystyrene microtiter plates (for use in, e.g., ELISA); and nylon and nitrocellulose membranes (for use 20 in, e.g., dot or slot blot assays).
The term "heterozygote," as used herein, refers to an individual with different alleles at corresponding loci on homologous chromosomes. Accordingly, the term "heterozygous," as used herein, describes an individual 25 or strain having different allelic genes at one or more paired loci on homologous chromosomes.
The term "homozygote," as used herein, refers to an individual with the same allele at corresponding loci on homologous chromosomes. Accordingly, the term 30 "homozygous," as used herein, describes an individual or a strain having identical allelic genes at one or more paired loci on homologous chromosomes.
The term "corresponding" as used herein to describe a nucleic acid strand, e.g., a nucleic acid 35 strand corresponding to a particular PCR primer, is meant W095/25538 2 1 a 5 9 0 2 PCT~S95/03419 to indicate that the strand contains the sequence of the particular PCR primer. When used to compare a polymorphic restriction site to a restriction endonuclease site, the term again indicates that the two 5 sequences are identical.
An advantage of certain detection methods of the present invention over many other methods used to detect genetic polymorphisms is that gel electrophoresis is not required in the analysis. Thus, the methods of the lO present invention are readily adaptable for automation, allowing large numbers of samples to be processed in relatively short periods of time, at lower costs. In addition, in several variations of the methods of the invention (see, e.g., Examples III and IV below), 15 internal controls are provided, thus controlling for variability detected by different practitioners.
Furthermore, in several of the variations of the methods of the invention (see Examples III - VIII below), an oligonucleotide probe hybridizing to a sequence in the 20 PCR product internal to the primers is used to purify the products, thus allowing a reduction in background problems associated with PCR amplification.
Those detection methods of the invention utilizing gel electrophoresis are also advantageous because they 25 provide a rapid and inPYpe~cive approach to the identification of large numbers of PCR-based genetic and RFLP markers.
The method of the invention useful for cloning genetic polymorphisms also represents an im~o~ement over 30 current methods. Because the process of selecting out a tagged (e.g., biotinylated) DNA having a polymorphism involves a specific hybridization step, candidate DNA
from any source may be utilized. For example, DNA from random clones, cDNA libraries, YAC libraries, or any 35 other DNA collection may be screened; pure preparations woss/25538 2 ~ 8 5 9 ~0 2 PCT~S95/03419 of genomic DNAs are not required. Moreover, like other methods of the invention, this cloning procedure is rapid and inexpensive.
All methods of the invention are useful in 5 clinical diagnostic testing, genomic mapping, positional cloning of genes defined by mutation (such as those that cause inherited disease in humans or resistance to pathogens in crop plants), DNA fingerprinting (e.g., for forensic analysis and paternity testing), crop and lO livestock breeding programs, and other related applications.
In one particular example, the detection methods of the invention are useful for bacterial typing utilizing known conserved polymorphic sequences 15 diagnostic of the bacterium. In one application, this approach is useful for distinguishing one bacterium from another (e.g., for the identification of Salmonella in a food sample); polymorphism-containing sequences preferred for this approach include those present in conserved 20 ribosomal RNA genes. In another application, this approach is useful for screening bacteria (e.g., clinical isolates) for antibiotic resistance; in this case, known polymorphic restriction sites within the antibiotic resistance marker are utilized. The instant methods of 25 bacterial typing decrease false positive results frequently obt~; n~A using current PCR-based techniques.

Detailed Descri~tion The drawings are first described.
Drawings Fig. l is a schematic of a RFLP detection method involving the use of a first PCR primer tagged with a detectable label (X) and a second PCR primer tagged with the first member of a specific binding pair (Y). After amplification by PCR, the products are digested with the W095/25538 2 ~ 8 ~ 9 ~ ~ PCT~S95/03419 restriction endonuclease (R) corresponding to the polymorphic restriction site, contacted with the second member of the specific binding pair immobilized on a solid support, and the level of the detectable label (X) 5 bound to the solid support is determined.
Fig. 2 is a schematic of a RFLP detection method involving the use of a first PCR primer tagged with a first detectable label (X) and a second PCR primer tagged with the first member of a specific binding pair (Y).
10 After amplification by PCR, the products are digested with the restriction endonuclease (R) corresp~n~;ng to the polymorphic restriction site, and an oligonucleotide tagged with a second detectable label (Z) is annealed and ligated to the single-stranded ends generated in the 15 digestion. The reaction is then contacted with the second member of the specific binding pair bound to a solid support, and the levels of the first and second detectable labels (X and Z) bound to the solid support are determined.
Fig. 3 is a schematic of a RFLP detection method involving the use of a first PCR primer tagged with a detectable label (P1) and a second unlabeled PCR primer (P2). After amplification by PCR, half of the reaction (or one of the identical reactions if carried out in 25 duplicate) is digested with the restriction endonuclease (R) corresponding to the polymorphic restriction site.
Both digested and undigested reactions are then denatured and contacted with an oligonucleotide tagged with the first member of a specific binding pair, the 30 oligonucleotide being complementary to the Pl strand and located to the right of the restriction site (R) near to, but not overlapping, primer P2. The reactions are then contacted with the second member of the specific binding pair immobilized on a solid support, and the levels of P1 35 in digested versus undigested reactions are compared.

W095/25s38 2 ~ 8 5 ~ ~ ~ pcT~s9slo34ls Fig. 4 is a schematic of a RFLP detection method involving the use of a first PCR primer tagged with a first detectable label (P1) and a second PCR primer tagged with a second detectable label (P2). After 5 amplification by PCR, the products are digested with the restriction endonuclease (R) corresponding to the polymorphic restriction site, denatured, and contacted with a first oligonucleotide complementary to the P1 strand and located to the right of the restriction site (R) near to, but not overlapping primer P2, and a second oligonucleotide complementary to the P2 strand and located to the right of the restriction site (R) near to, but not overlapping the sequence complementary to primer P2. Both the first and second oligonucleotides are 15 tagged with the first member of a specific binding pair (Y). The reactions are then contacted with the second member of the specific binding pair immobilized on a solid support, and the ratio of P1 to P2 bound to the solid support is determined.
Fig. 5 is a schematic of a RFLP detection method involving the use of a first PCR primer tagged with a detectable label (X) and a second PCR primer tagged with the first member of a first specific b; n~; ng pair (Y).
After amplification by PCR, the products are digested 25 with the restriction enzyme (R) corresponding to the polymorphic restriction site, and are contacted with the second member of the first specific binding pair immobilized on a first solid support. The filtrate is then bound to a solid support with the anchor sequence (or contacted with an oligonucleotide complementary to the X strand between the restriction site (R) and the label (X), the oligonucleotide being tagged with the first member of a second specific binding pair, and then contacted with the second member of the second specific 35 binding pair immobilized on a second solid support), and wossl2ss38 2 1 8 5 ~ 0 2 PCT~S95/03419 the levels of the detectable label bound to the first solid support and the anchor sequence (or second solid support) are determined.
Fig. 6 is a schematic of a RFLP detection method 5 involving the use of a first unlabeled PCR primer and a second PCR primer tagged with a detectable label (X).
After amplification by PCR, the products are digested with the restriction enzyme (R) corresponding to the polymorphic restriction site, and contacted with an lO oligonucleotide complementary to the single-stranded ends generated in the digestion, the oligonucleotide being tagged with the first member of a specific binding pair.
The products are then contacted with the second member of the first specific binding pair, bound to a first solid 15 support. The filtrate is then bound to a solid support with the anchor sequence (or contacted with an oligonucleotide complementary to the X strand, the oligonucleotide being tagged with the first member of a second specific binding pair, and then contacted with the 20 second member of the second specific binding pair immobilized on a second solid support), and the levels of the detectable label bound to the first solid support and the anchor sequence (or second solid ~u~o~L) are determined.
Fig. 7 is a schematic of a RFLP detection method involving the use of PCR primers flanking the polymorphic restriction site (the "Alu I" site). Following PCR
amplification, the reaction products are digested with the restriction endonuclease corresponding to the 30 polymorphic restriction site (Alu I), and the fragments are run on an agarose gel. The separated fragments are detected as an indication of the presence or absence of the polymorphic marker.
Fig. 8 is a schematic of a typical gel analysis 35 according the method described in Fig. 7.

W095/25538 2 1 8 5 9 0 2 PCT~S95/03419 Fig. 9 is a schematic of a method for cloning polymorphic restriction fragments.

Methods for qeneratinq and detectinq genetic polYmorPhisms The present invention provides several methods for detecting Cleaved Amplified Polymorphic Sequences (CAPS;
Konieczny et al., The Plant Journal 4(2):403-410, 1993).
In the CAPS method, a nucleic acid containing a polymorphic restriction site is amplified using primers 10 flanking the restriction site. The resulting PCR product is digested with the restriction endonuclease corresponding to the polymorphic restriction site, and the digested products are analyzed by gel electrophoresis.
The detection methods of the present invention vary greatly from one another in detail, however they share three central features: (1) the nucleic acid containing the polymorphic restriction site is amplified by PCR using differently labeled primers flanking the 20 polymorphic restriction site, (2) the resulting PCR
product is digested with the restriction endonuclease corresponding to the polymorphic restriction site (which will cleave the DNA of some individuals but not cleave the DNA of others, depen~;ng on the preC~nce of the 25 polymorphism), and (3) the resulting digestion products are analyzed by detection of the labels they contain, and/or labels attached to oligonucleotides complementary to the digestion products, in order to determine the identity of the polymorphic restriction site. The 30 methods of the invention allow rapid and efficient analyses of a large number of samples.
The nucleic acid sample containing the polymorphic restriction site being analyzed can be obtained from any source, e.g., a tissue homogenate, blood, amniotic fluid, W095/25538 2 1 8 5 9 0 2 pcT~ss5lo34l9 and chorionic villus samples; and can be obtained from these sources using stAn~Ard ~ethods. Only a minute quantity of nucleic acid is required, and can be DNA or RNA (in the case of RNA, a reverse transcription step is 5 required before the PCR step). The polymerase chain reactions (PCR) used in the methods of the present invention are carried out using standard methods (see, e.g., Ausubel et al., Current Protocols in Molecular Biology, John Wiley and Sons, New York, 1989; Erlich, PCR
10 Technology, Stockton Press, New York, 1989; Innis et al., PCR Protocols: A Guide to Methods and Applications, Academic Press, Harcourt Brace Javanovich, New York, 1990; Sambrook et al., Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Laboratory Press, Cold Spring 15 Harbor, New York, 1989). Restriction enzyme digestion is also carried out by standard methods using any of a number of available restriction endonucleases (see, e.g., Ausubel et al., supra ; New England Biolabs, Beverly, MA).

The primers and oligonucleotides used in the 20 methods of the present invention are preferably DNA, and can be synthesized using stAn~Ard te~hn;ques and, when appropriate, detectably labeled using st~n~rd methods (Alls~lhel et al., Current Protocols in Molecular Biology, John Wiley and Sons, New York, 1989). Detectable labels 25 that can be used to tag the primers and oligonucleotides used in the methods of the invention include, but are not limited to, digoxigenin, fluorescent labels (e.g., fluorescein and rhodamine), enzymes (e.g., horseradish peroxidase and alkaline phosphatase), biotin (which can 30 be detected by anti-biotin specific ant;hoA;es or enzyme-conjugated avidin derivatives), radioactive labels (e.g., 32p and 125I), colorimetric reagents, and chemiluminescent reagents. The labels used in the methods of the invention are detected using stA~rd methods.

Woss/25538 2 ~ 8 5 9 0 2 PCT~S95/03419 The specific binding pairs useful in the methods of the invention include, but are not limited to, avidin-biotin, streptavidin-biotin, hybridizing nucleic acid pairs, interacting protein pairs, antibody-antigen pairs, 5 reagents containing chemically reactive groups (e.g., reactive amino groups), and nucleic acid sequence-nucleic acid binding protein pairs.
The solid supports useful in the methods of the invention include, but are not limited to, agarose, lO acrylamide, or polystyrene beads; polystyrene microtiter plates (for use in, e.g., ELISA); and nylon and nitrocellulose membranes (for use in, e.g., dot or slot blot assays).
The methods of the invention can be facilitated by 15 the use of kits which contain the reagents required for carrying out the assays. The kits can contain reagents for carrying out the generation or analysis of a single polymorphic restriction site (for use in, e.g., diagnostic methods), or multiple polymorphic restriction 20 sites (for use in, e.g., genomic mapping). When multiple samples are analyzed, multiple sets of the appropriate primers and oligonucleotides are provided in the kit. In addition to the primers and oligonucleotides required for carrying out the various methods, the kits may contain 25 the enzymes used in the methods, and the reagents for detecting the labels, e.g., the substrates for enzyme labels, etc.
As discussed above, the invention provides methods and kits for generating and detecting the pre~se or 30 absence of a polymorphic restriction site in a nucleic acid. Examples I-IX describe eight variations of the methods of the invention. Example X describes a preferred use for the methods of the invention. Example XI describes a preferred method for cloning polymorphic 35 restriction fragments. The following examples are meant woss/2ss38 2 1 8 5 q 0 2 PCT~S95/03419 to illustrate, but not limit, tne methods of the present invention. Other suitable modifications and adaptations of the variety of conditions and parameters of molecular biology which are obvious to those skilled in the art are S within the spirit and scope of the present invention.

EXANPLE~
Example I.
In this method, the nucleic acid containing the polymorphism is amplified by PCR using a first and a l0 second primer flanking the polymorphic restriction site, the first primer being tagged with the first member of a specific binding pair, the second primer being tagged with a detectable label. The resulting PCR product is digested with the restriction endonuclease corresponding 15 to the polymorphic restriction site and the digested products are contacted with the second member of the specific binding pair, immobilized on a solid support.
The level of the detectable label bound to the solid support is then measured. The presence of the detectable 20 label bound to the solid support is an indication of the absence of the polymorphic restriction site in the nucleic acid, while the absence of the detectable label bound to the solid support is an indication of the presence of the polymorphic restriction site in the 25 nucleic acid. An embodiment of this method is shown in Fig. l.

Ex~mDle II.
This method is identical to that described in Example I, with the added step of annealing and ligating 30 to the single-stranded ends generated in the digestion reaction, an oligonucleotide tagged with a second detectable label. After applying the reaction to the second member of the specific binding pair, the levels of woss/2s538 2 1 8 5 9 0 2 PCT~S95/03419 both the first and the second detectable labels bound to the solid support are determined. The presence of only the first detectable label bound to the solid support is an indication of a homozygote lacking the polymorphic 5 restriction site, the presence of only the second detectable label bound to the solid support is an indication of a homozygote containing the polymorphic restriction site, and the presence of both the first and the second detectable labels bound to the solid support lO is an indication of a heterozygote. An embodiment of this method is shown in Fig. 2.

ExamDle III.
In this method, the nucleic acid is amplified using a first and a second primer flanking the 15 polymorphic restriction site, the first primer being tagged with a detectable label, the second primer being unlabeled. A portion of the PCR reaction is digested with the restriction endonuclease corresponding to the polymorphic restriction site, while another portion is 20 left undigested. Both the digested and undigested portions are then denatured, and contacted with an oligonucleotide tagged with the first member of a specific binding pair. The oligonucleotide is complementary to a sequence in the strand of the PCR
25 product contA;n;ng the detectable label, the sequence being between the polymorphic restriction site and the sequence complementary to the second primer.
The reaction is then contacted with the second member of the specific binding pair, immobilized on a 30 solid support, and the ratio of the levels of the detectable label bound to the solid support between undigested and digested samples is determined. A ratio of l:0 between equivalent portions of undigested and digested samples is an indication of a homozygote W095/25538 2 1 8 5 9 ~ ~ PCT~S95/03419 cont~;n;ng the polymorphic restriction site-, a ratio of l:l between equivalent portions of undigested and digested samples is an indication of a homozygote lacking the polymorphic restriction site, and a ratio of 2:l 5 between equivalent portions of undigested and digested samples is an indication of a heterozygote. While the sample volumes used for detection and comparison need not be equivalent, the appropriate calculations must be carried out to account for this adjustment prior to lO determining the ratio of detectable label in digested and undigested samples. An embodiment of this method is shown in Fig. 3.

~x~mple IV.
In this method, the nucleic acid is amplified by 15 PCR using a first primer and a second primer flanking the polymorphic restriction site, the first primer being tagged with a first detectable label, and the second primer being tagged with a second detectable label.
The PCR product is digested with the restriction 20 endonuclease corresponding to the polymorphic restriction site, denatured, and contacting with a first and a second oligonucleotide. The first oligonucleotide is complementary to a first sequence in the strand of the PCR product containing the first detectable label, the 25 first sequence being between the polymorphic restriction site and the sequence corresponding to the first primer.
The first oligonucleotide is tagged with the first member of a first specific binding pair. The second oligonucleotide is complementary to a second sequence in 30 the strand of the PCR product containing the second detectable label. The second sequence is on the same side of the polymorphic restriction site as the first sequence, and is not contained within, or complementary to, either the first or the second primer. The second W095/25538 2 1 8 5 9 0 2 PCT~S95/03419 oligonucleotide is tagged with the first member of a second specific binding pair.
A first portion of the reaction is then contacted with the second member of the first specific binding 5 pair, immobilized on a first solid support, while a second portion of the reaction is contacted with the second member of the second specific binding pair, immobilized on a second solid ~u~o~L. The ratio of the levels of the first and second detectable labels bound to lO the first and second solid supports is then determined.
A ratio of l:O between equivalent amounts of the first and second portions is an indication of a homozygote containing the polymorphic restriction site, a ratio of l:l between equivalent amounts of the first and second 15 portions is an indication of a homozygote lacking the polymorphic restriction site, and a ratio of 2:l between equivalent amounts of the first and second portions is an indication of a heterozygote.
In the case where the first sequence (to which the 20 first oligonucleotide is complementary) in the strand cont~ining the first detectable label is between the polymorphic restriction site and the sequence complementary to the second primer, the ratios differ, as follows. The ratio of the levels of the first and second 2S detectable labels bound to the first and second solid ~u~G~ Ls is O:l between equivalent amounts of the first and second portions in the case of a homozygote cont~;ning the polymorphic restriction site. The ratio is l:l between equivalent amounts of the first and second 30 portions in the case of a homozygote lacking the polymorphic restriction site, and the ratio is l:2 between equivalent amounts of the first and second portions in the case of a heterozygote. An embodiment of this method is shown in Fig. 4.

-woss/25s38 2 1 8 ~ 9 ~ ~ PCT~S95/03419 Ex~mple V.
In this method, the nucleic acid is amplified by PCR using a first and a second primer flanking the polymorphic restriction site, the first primer being 5 tagged with the first member of a first specific binding pair, the second primer being tagged with a detectable label. The PCR product is digested with the restriction endonuclease corresponding to the polymorphic restriction site, and the reaction is then contacted with the second lO member of the first specific binding pair, immobilized on a first solid support.
The material not bound to the first solid support is denatured and contacted with an oligonucleotide complementary to a sequence in the strand of the PCR
15 product containing the detectable label. The sequence is between the polymorphic restriction site and the sequence corresponding to the second primer, and the oligonucleotide is tagged with the first member of a second specific binding pair. The reaction is then 20 contacted with the second member of the second specific binding pair, immobilized on a second solid su~o~L, and the ratio of the level of the detectable label bound to the first solid support compared to the level of the detectable label bound to the second solid support is 25 determined. A ratio of O:l is an indication of a homozygote contA;n;ng the polymorphic restriction site, a ratio of l:0 is an indication of a homozygote lacking the polymorphic restriction site, and a ratio of l:l is an indication of a heterozygote. These ratios are correct 30 in cases where the total amount of the material not bound to the first solid support is used in the following steps, and should be adjusted accordingly, if a different amount of the material is used. An embodiment of this method is shown in Fig. 5.

woss/2ss38 2 i 8 5 9 0 2 PCT~S95/03419 Example VI.
In this method, the n~cleic acid is amplified by PCR using a first and a second primer flanking the polymorphic restriction site, the first primer being 5 tagged with a detectable label, the second primer being unlabeled. The PCR product is digested with the restriction endonuclease corresponding to the polymorphic restriction site, and a first oligonucleotide tagged with the first member of a first specific binding pair is lO annealed and ligated to the single-stranded ends generated in the digestion reaction.
The reaction is then contacted with the second member of the first specific binding pair, immobilized on a first solid support.
The material not bound to the first solid support is denatured, and contacted with a second oligonucleotide complementary to a sequence in the strand of the PCR
product cont~;n;ng the detectable label, the sequence being between the polymorphic restriction site and either 20 the sequence corresponding to the first primer or the sequence complementary to the second primer. The second oligonucleotide is tagged with the first member of a second specific binding pair. The reaction is then contacted with the second member of the second specific 25 binding pair, immobilized on a second solid ~U~OLI ~ and the ratio of the level of the detectable label bound to the first solid support compared to the level of the detectable label bound to the second solid support is determined. A ratio of l:0 is an indication of a 30 homozygote containing the polymorphic restriction site, a ratio of O:l is an indication of a homozygote lacking the polymorphic restriction site, and a ratio of l:l is an indication of a heterozygote. These ratios are correct in cases where the total amount of the material not bound 35 to the first solid support is used in the following wo95l2ss38 PCT~S95/034l9 2 1 8~9~

steps, and should be adjusted accordingly, if a different amount of the material is used. An embodiment of this method is shown in Fig. 6.

Ex~mDle VII.
In this method, the nucleic acid is amplified by PCR using a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with the first member of a first specific binding pair, the second primer being tagged with a detectable 10 label. The PCR product is digested with the restriction endonuclease corresponding to the polymorphic restriction site, and contacted with the second member of the first specific binding pair, immobilized on a first solid support.
The material not bound to the first solid support is denatured and contacted with an oligonucleotide complementary to a sequence in the strand of the PCR
product cont~i n; ng the detectable label. The sequence is between the polymorphic restriction site and the sequence 20 corresponding to the second primer, and the oligonucleotide is immobilized on a second solid support (e.g., a nylon or nitrocellulose membrane).
The ratio of the level of detectable label bound to the first solid ~u~o~L to the level of detectable 25 label bound to the second solid au~O~ L is then determined. A ratio of 0:1 is an indication of a homozygote containing the polymorphic restriction site, a ratio of 1:0 is an indication of a homozygote lacking the polymorphic restriction site, and a ratio of 1:1 is an 30 indication of a heterozygote. These ratios are correct in cases where the total amount of the material not bound to the first solid ~u~o-L is used in the following steps, and should be adjusted accordingly, if a different W095/25538 2 1 8 5 9 0 2 PCT~S95/03419 amount of the material is used. An embodiment of this method is shown in Fig. 5.

~x~mple VIII.
In this method, the nucleic acid is amplified by 5 PCR using a first and a second primer flanking the polymorphic restriction site, the first primer being tagged with a detectable label, the second primer being unlabeled. The PCR product is digested with the restriction endonuclease corresponding to the polymorphic lO restriction site, and a first oligonucleotide tagged with the first member of a first specific binding pair is annealed and ligated to the single-stranded ends generated in the digestion reaction. The reaction is contacted with the second member of the first specific 15 binding pair, immobilized on a first solid support. The material not bound to the first solid support is denatured, and contacted with a second oligonucleotide complementary to a sequence in the strand of the PCR
product containing the detectable label. The sequence is 20 between the polymorphic restriction site and either the sequence corresponding to the first primer or the sequence complementary to the second primer, and the second oligonucleotide is immobilized on a ~?con~ solid support (e.g., a nylon or nitrocellulose membrane).
The ratio of the level of the detectable label bound to the first solid support to the level of the detectable label bound to the second solid support is then determined. A ratio of l:0 is an indication of a homozygote containing the polymorphic restriction site, a 30 ratio of O:l is an indication of a homozygote lacking the polymorphic restriction site, and a ratio of l:l is an indication of a heterozygote. These ratios are correct in cases where the total amount of the material not bound to the first solid support is used in the following ~ .
w095/2s538 2 1 8 5 q 0 2 PCT~S95/03419 steps, and should be adjusted accordingly, if a different amount of the material is used. An embodiment of this method is shown in Fig. 6.

PCR primers containing nucleic acid tags on their 5 5' ends can also be used in the methods of the invention.
These primers can be used in pairs, or in combination with un-tagged primers, in the initial cycles of PCR, followed by the addition of a "universal primer(s)"
complementary to the nucleic acid tags in the first lO primers, and contain detectable labels (e.g., biotin, fluorescent, or ELISA tags). The use of nucleic acid tagged primers in the early rounds of PCR is a cost-effective measure, as only one set of primers, the universal primers, which can be used in the analysis of 15 many different polymorphic sites, need to be detectably labeled. The sets of primers specific for individual polymorphic restriction sites do not have to be tagged with detectable labels, but rather need only to be complementary to the universal primers in their 5' ends.

20 ExamDle IX.
In another method of the invention, the nucleic acid is amplified by PCR using a first and a second primer flanking the polymorphic restriction site. The PCR product is digested with the restriction endonuclease 25 corresponding to the polymorphic restriction site, and, as shown in Fig. 7, the digestion products are run on a gel (preferably an agarose gel). To simplify the gel reading, the first and second primers are preferably designed to generate a PCR product that is easily 30 resolvable on an agarose gel (that is, preferably larger than lO0 base pairs and smaller than lO00 base pairs), and the polymorphic restriction site is preferably woss/2ss38 2l8 5 9a2 PcT~sss/o34l9 located at an asymmetric position within the amplified fragment. Using this technique, short gel runs can be used for analysis, and the cleaved products easily detected. In the particular example shown in Fig. 8, 5 primers are designed to produce PCR amplified products of 300 base pairs, and cleavage at the RFLP site yields products of 200 base pairs and lO0 base pairs.
In a preferred method of carrying out this method, sets of primer pairs are provided which detect a number lO of RFLP markers. Each set of primers, for example, may be provided in one of the wells of a 96-well microtiter plate, and PCR reactions run independently. Following restriction digestion, the reaction products are transferred to an agarose gel and separated by 15 electrophoresis. A typical result of this method is shown in Fig. 8.
Detection of the amplified and cleaved products after electrophoretic separation may be carried out by st~n~rd methods of DNA staining (e.g., ethidium bromide 20 staining) or blotting (e.g., Southern blotting).
Alternatively, one or both of the PCR primers may be detectably labeled, and the labels detected as described above.

E~X~D1~ ~.
A preferred use of the methods of the invention is in conjunction with a method called RFLP subtraction.
RFLP subtraction provides a large number of polymorphic genetic markers, while the methods of the present invention provide efficient methods for their analysis.
Carrying out RFLP subtraction results in the purification of fragments that are present in one population (the tracer) but absent in another (the driver). Purification is achieved by removing all of the fragments in the tracer DNA that have counterparts in the Woss/25538 2 1 8 5 9 0 2 PCT~S95/03419 driver DNA using subtractive hybridization (Innis et al., PCR Protocols: A Guide to Methods and Applications, Academic Press, Harcourt Brace Javanovich, New York, 1990). In RFLP subtraction, the tracer is a size 5 fraction of digested DNA from one strain and the driver is the same size fraction from a polymorphic strain. The products obtained after removing the common sequences are RFLPs; they are sized tracer fragments whose driver counterparts are not found in the same size fraction.
There are three steps in RFLP subtraction:
preparation of the driver and tracer, subtractive hybridization, and removal of non-hybridizing sequences from the tracer. To prepare the driver and tracer DNA, genomic DNA from two different strains is digested with a 15 restriction endonuclease, and the ends of the restriction fragments from each strain are capped with different oligonucleotide adapters. The low molecular weight fragments are then purified from a slice of an agarose gel and amplified using one of the adapter strands as a 20 PCR primer. A biotinylated primer can be used to amplify the driver so that driver DNA can be removed following the subtractive hybridizations by binding to avidin coated beads.
Three rounds of subtractive hybridization are 25 performed to remove tracer sequences that also occur in the driver. A small amount of tracer is mixed with an excess of biotinylated driver, the mixture is denatured and allowed to re-anneal. Most tracer sequences will hybridize to complementary biotinylated driver strands.
30 Some tracer sequences, however, are not represented in the driver because they reside on large restriction fragments (i.e., they are RFLPs) or are missing from the driver genome. These fragments will have no complementary biotinylated strands with which to anneal.
35 The biotinylated driver DNA, and any tracer that has W095/25538 2 1 8 5 9 0 2 PCT~Ss~/03419 annealed to it, is then removed using avidin-coated beads. The unbound fraction is then subjected to two more rounds of subtractive hybridization, tracer DNA
remaining after the third round is amplified, and poorly 5 hybridizing sequences are removed.

~x~mPle SI.
Figure 9 shows a preferred method for cloning polymorphic restriction fragments. The object of this method is to clone restriction fragments from organism B
(generated by restriction endonuclease A) that do not contain cleavage sites for restriction endonuclease B, and which correspond to restriction fragments in organism A (generated by restriction endonuclease A) that do contain at least one restriction site for restriction 15 endonuclease B. These polymorphic restriction fragments are useful as CAPS markers for the detection methods described above.
Referring to the method outlined in Fig. 9, in step A, genomic DNA isolated from polymorphic individuals 20 A and B is separately digested with restriction enzyme A, which preferably leaves so-called sticky ends. An oligonucleotide adaptor (#l), with complementary sticky ends, is ligated to the restriction fragments from individual A. A different oligonucleotide adaptor (#3) 25 is ligated to the restriction fragments from individual B.
In step B, the restriction fragments from step A
are cleaved with restriction endonuclease B, which again preferably leaves sticky ends. In the case of the DNA
30 fragments from individual A, an oligonucleotide adaptor (#2), with complementary sticky ends for enzyme B, is ligated to the restriction fragments generated by cleavage with enzyme B.

W095/25538 2 1 8 5 9 0 2 PCT~S95/0341s In step C, the DNA fragments from individual A are amplified using the polymerase chain reaction (PCR) with an oligonucleotide primer complementary to adaptor #l and with a biotinylated oligonucleotide primer complementary 5 to adaptor #2.
In step D, the amplified products originating from individual A are mixed with the non-amplified fragments of step B from individual B. The mixed DNA fragments are then heat denatured, annealed, and adsorbed onto an l0 avidin-coated solid support (e.g., beads). The avidin coated support containing the adsorbed fragments is - thoroughly washed. If desired, the adsorbed fragments may be eluted, re-amplified with the same primers as above, adsorbed onto a fresh avidin-containing ~u~polL, 15 and thoroughly washed. This step can be repeated as many times as is nec~cs~ry or desired.
In step E, the fragments adsorbed to the avidin-coated beads are eluted and amplified using PCR with primers complementary to adaptor #3. The amplified 20 products should correspond to the desired restriction fragments described above. These amplified fragments are cloned and then tested individually using the Southern DNA blot hybridization method for their ability to display the desired RFLP.

Other Embodiments The above examples are, therefore, to be construed as merely illustrative, and not limitative of the remainder of the disclosure in any way whatsoever.
From the above description, one skilled in the art 30 can easily ascertain the essential characteristics of the present invention, and without departing form the spirit and scope thereof, can make various changes and modifications of the invention to adapt it to various usages and conditions. All publications cited herein are W O 95/25538 2 ~ 8 5 9 3 2 PCTAUS95/03419 fully incorporated by reference herein in their entirety.
Other embodiments are in the claims set forth below.

Claims (53)

Claims

1. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with the first member of a specific binding pair, said second primer being tagged with a detectable label;
(b) digesting the PCR product of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site;
(c) contacting the reaction product of step (b) with the second member of said specific binding pair, immobilized on a solid support; and (d) measuring the level of said detectable label bound to said solid support, the presence of said detectable label bound to said solid support being an indication of the absence of said polymorphic restriction site in said nucleic acid.

2. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with the first member of a specific binding pair, said second primer being tagged with a first detectable label;
(b) digesting the PCR product of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site;
(c) annealing and ligating to the single-stranded ends generated in the reaction of step (b) an oligonucleotide tagged with a second detectable label;

(d) contacting the reaction product of step (c) with the second member of said specific binding pair, immobilized on a solid support; and (e) determining the levels of said first and second detectable labels bound to said solid support, the presence of only said first detectable label bound to said solid support being an indication of a homozygote lacking said polymorphic restriction site, the presence of only said second detectable label bound to said solid support being an indication of a homozygote containing said polymorphic restriction site, and the presence of both said first and second detectable labels bound to said solid support being an indication of a heterozygote.

3. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with a detectable label, said second primer being unlabeled;
(b) digesting a portion of the reaction of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site, while leaving another portion of said reaction of step (a) undigested;
(c) denaturing said digested and undigested portions from step (b);
(d) contacting the product of step (c) with an oligonucleotide complementary to a sequence in the strand of said product of step (c) containing said detectable label, said sequence being between said polymorphic restriction and the sequence complementary to said second primer, said oligonucleotide being tagged with a first member of a specific binding pair;

(e) contacting the reaction product of step (d) with the second member of said specific binding pair, immobilized on a solid support; and (f) determining the ratio of the levels of said detectable label bound to said solid support between undigested and digested samples, a ratio of 1:0 between equivalent portions of said undigested and digested samples being an indication of a homozygote containing said polymorphic restriction site, a ratio of 1:1 between equivalent portions of said undigested and digested samples being an indication of a homozygote lacking said polymorphic restriction site, and a ratio of 2:1 between equivalent portions of said undigested and digested samples being an indication of a heterozygote.

4. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with a first detectable label, said second primer being tagged with a second detectable label;
(b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site;
(c) denaturing the reaction product of step (b);
(d) contacting the product of step (c) with a first and a second oligonucleotide, said first oligonucleotide being complementary to a first sequence in the strand of said product of step (c) containing said first detectable label, said first sequence being between said polymorphic restriction site and the sequence corresponding to said first primer, said first oligonucleotide being tagged with the first member of a first specific binding pair, said second oligonucleotide being complementary to a second sequence in the strand of said product of step (c) containing said second detectable label, said second sequence being on the same side of said polymorphic restriction site as said first sequence, said second sequence not being contained within or being complementary to either of said first or second primers, said second oligonucleotide being tagged with the first member of a second specific binding pair;
(e) contacting a first portion of the reaction product of step (d) with the second member of said first specific binding pair, immobilized on a first solid support;
(f) contacting a second portion of the reaction product of step (d) with the second member of said second specific binding pair, immobilized on a second solid support; and (g) determining the ratio of the levels of said first and second detectable labels bound to said first and second solid supports, a ratio of 1:0 between equivalent amounts of said first and second portions being an indication of a homozygote containing said polymorphic restriction site, a ratio of 1:1 between equivalent amounts of said first and second portions being an indication of a homozygote lacking said polymorphic restriction site, and a ratio of 2:1 between equivalent amounts of said first and second portions being an indication of a heterozygote.

5. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with a first detectable label, said second primer being tagged with a second detectable label;
(b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site;
(c) denaturing the reaction product of step (b);
(d) contacting the product of step (c) with a first and a second oligonucleotide, said first oligonucleotide being complementary to a first sequence in the strand of said product of step (c) containing said first detectable label, said first sequence being between said polymorphic restriction site and the sequence complementary to said second primer, said first oligonucleotide being tagged with the first member of a first specific binding pair, said second oligonucleotide being complementary to a second sequence in the strand of said product of step (c) containing said second detectable label, said second sequence being on the same side of said polymorphic restriction site as said first sequence, said second sequence not being contained within or being complementary to either of said first or second primers, said second oligonucleotide being tagged with the first member of a second specific binding pair;
(e) contacting a first portion of the reaction product of step (d) with the second member of said first specific binding pair, immobilized on a first solid support;
(f) contacting a second portion of the reaction product of step (d) with the second member of said second specific binding pair, immobilized on a second solid support; and (g) determining the ratio of the levels of said first and second detectable labels bound to said first and second solid supports, a ratio of 0:1 between equivalent amounts of said first and second portions being an indication of a homozygote containing said polymorphic restriction site, a ratio of 1:1 between equivalent amounts of said first and second portions being an indication of a homozygote lacking said polymorphic restriction site, and a ratio of 1: 2 between equivalent amounts of said first and second portions being an indication of a heterozygote.

6. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with a first detectable label, said second primer being tagged with a second detectable label;
(b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site;
(c) denaturing the reaction product of step (b);
(d) contacting the product of step (c) with a first and a second oligonucleotide, said first oligonucleotide being complementary to a first sequence in the strand of said product of step (c) containing said first detectable label, said first sequence being between said polymorphic restriction site and the sequence corresponding to said first primer, said first oligonucleotide being tagged with the first member of a specific binding pair, said second oligonucleotide being complementary to a second sequence in the strand of said product of step (c) containing said second detectable label, said second sequence being on the same side of said polymorphic restriction site as said first sequence, said second sequence not being contained within or being complementary to either of said first or second primers, said second oligonucleotide being tagged with said first member of said specific binding pair;
(e) contacting the reaction product of step (d) with the second member of said specific binding pair, immobilized on a solid support; and (f) determining the ratio of the levels of said first and second detectable labels bound to said solid support, a ratio of 1:0 being an indication of a homozygote containing said polymorphic restriction site, a ratio of 1:1 being an indication of a homozygote lacking said polymorphic restriction site, and a ratio of 2:1 being an indication of a heterozygote.

7. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with a first detectable label, said second primer being tagged with a second detectable label;
(b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site;
(c) denaturing the reaction product of step (b);
(d) contacting the product of step (c) with a first and a second oligonucleotide, said first oligonucleotide being complementary to a first sequence in the strand of said product of step (c) containing said first detectable label, said first sequence being between said polymorphic restriction site and the sequence complementary to said second primer, said first oligonucleotide being tagged with the first member of a specific binding pair, said second oligonucleotide being complementary to a second sequence in the strand of said product of step (c) containing said second detectable label, said second sequence being on the same side of said polymorphic restriction site as said first sequence, said second sequence not being contained within or being complementary to either of said first or second primers, said second oligonucleotide being tagged with said first member of said specific binding pair;
(e) contacting the reaction product of step (d) with the second member of said specific binding pair, immobilized on a solid support; and (f) determining the ratio of the levels of said first and second detectable labels bound to said solid support, a ratio of 0:1 being an indication of a homozygote containing said polymorphic restriction site, a ratio of 1:1 being an indication of a homozygote lacking said polymorphic restriction site, and a ratio of 1:2 being an indication of a heterozygote.

8. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with the first member of a first specific binding pair, said second primer being tagged with a detectable label;
(b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site;
(c) contacting the reaction product of step (b) with the second member of said first specific binding pair, immobilized on a first solid support;
(d) denaturing the reaction product of step (c) not bound to said first solid support;

(e) contacting the product of step (d) with an oligonucleotide complementary to a sequence in the strand of said product of step (d) containing said detectable label, said sequence being between said polymorphic restriction site and the sequence corresponding to said second primer, said oligonucleotide being tagged with the first member of a second specific binding pair;
(f) contacting the reaction product of step (e) with the second member of said second specific binding pair, immobilized on a second solid support; and (g) determining the ratio of the level of said detectable label bound to said first solid support to the level of said detectable label bound to said second solid support, a ratio of 0:1 being an indication of a homozygote containing said polymorphic restriction site, in a case where the total amount of said reaction product from step (c) not bound to said first solid support was used in steps (d), (e), and (f); a ratio of 1:0 being an indication of a homozygote lacking said polymorphic restriction site, in a case where the total amount of said reaction product from step (c) not bound to said first solid support was used in steps (d), (e), and (f);
and a ratio of 1:1 being an indication of a heterozygote, in a case where the total amount of said reaction product from step (c) not bound to said first solid support was used in steps (d), (e), and (f).

9. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with a detectable label, said second primer being unlabeled;

(b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site;
(c) annealing and ligating to the single-stranded ends generated in the reaction of step (b) a first oligonucleotide tagged with the first member of a first specific binding pair;
(d) contacting the reaction product of step (c) with the second member of said first specific binding pair, immobilized on a first solid support;
(e) denaturing the reaction product of step (d) not bound to said first solid support;
(f) contacting the product of step (e) with a second oligonucleotide complementary to a sequence in the strand of said product of step (e) containing said detectable label, said sequence being between said polymorphic restriction site and either the sequence corresponding to said first primer or the sequence complementary to said second primer, said second oligonucleotide being tagged with the first member of a second specific binding pair;
(g) contacting the reaction product of step (f) with the second member of said second specific binding pair, immobilized on a second solid support; and (h) determining the ratio of the level of said detectable label bound to said first solid support to the level of said detectable label bound to said second solid support, a ratio of 1:0 being an indication of a homozygote containing said polymorphic restriction site, in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e), (f), and (g); a ratio of 0:1 being an indication of a homozygote lacking said polymorphic restriction site, in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e), (f), and (g);
and a ratio of 1:1 being an indication of a heterozygote;
in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e), (f), and (g).

10. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with the first member of a first specific binding pair, said second primer being tagged with a detectable label;
(b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site;
(c) contacting the reaction product of step (b) with the second member of said first specific binding pair, immobilized on a first solid support;
(d) denaturing the reaction product from step (c) not bound to said first solid support;
(e) contacting the product of step (d) with an oligonucleotide complementary to a sequence in the strand of said product of step (d) containing said detectable label, said sequence being between said polymorphic restriction site and the sequence corresponding to said second primer, said oligonucleotide being immobilized on a second solid support; and (f) determining the ratio of the level of said detectable label bound to said first solid support to the level of said detectable label bound to said second solid support, a ratio of 0:1 being an indication of a homozygote containing said polymorphic restriction site, in a case where the total amount of said reaction product from step (c) not bound to said first solid support was used in steps (d) and (e); a ratio of 1:0 being an indication of a homozygote lacking said polymorphic restriction site, in a case where the total amount of said reaction product from step (c) not bound to said first solid support was used in steps (d) and (e); and a ratio of 1:1 being an indication of a heterozygote, in a case where the total amount of said reaction product from step (c) not bound to said first solid support was used in steps (d) and (e).

11. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with a detectable label, said second primer being unlabeled;
(b) digesting the reaction product of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site;
(c) annealing and ligating to the single-stranded ends generated in the reaction of step (b) a first oligonucleotide tagged with the first member of a first specific binding pair;
(d) contacting the reaction product of step (c) with the second member of said first specific binding pair, immobilized on a first solid support;
(e) denaturing the reaction product of step (d) not bound to said first solid support;
(f) contacting the product of step (e) with a second oligonucleotide complementary to a sequence in the strand of said product of step (e) containing said detectable label, said sequence being between said polymorphic restriction site and either the sequence corresponding to said first primer or the sequence complementary to said second primer, said second oligonucleotide being immobilized on a second solid support; and (g) determining the ratio of the level of said detectable label bound to said first solid support to the level of said detectable label bound to said second solid support, a ratio of 1:0 being an indication of a homozygote containing said polymorphic restriction site, in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e) and (f); a ratio of 0:1 being an indication of a homozygote lacking said polymorphic restriction site, in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e) and (f); and a ratio of 1:1 being an indication of a heterozygote, in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e) and (f).

12. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid;
(b) amplifying the product of step (a) by PCR
using a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with the first member of a specific binding pair, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a detectable label;
(c) digesting the product of step (b) with the restriction endonuclease corresponding to said polymorphic restriction site;
(d) contacting the reaction product of step (c) with the second member of said specific binding pair, immobilized on a solid support; and (e) measuring the level of said detectable label bound to said solid support, the presence of said detectable label bound to said solid support being an indication of the absence of said polymorphic restriction site in said nucleic acid.

13. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid;
(b) amplifying the product of step (a) by PCR
using a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with the first member of a specific binding pair, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a detectable label;
(c) digesting the PCR product of step (b) with the restriction endonuclease corresponding to said polymorphic restriction site;

(d) annealing and ligating to the single-stranded ends generated in the reaction of step (c) an oligonucleotide tagged with a second detectable label;
(e) contacting the reaction product of step (d) with the second member of said specific binding pair, immobilized on a solid support; and (f) determining the levels of said first and second detectable labels bound to said solid support, the presence of only said first detectable label bound to said solid support being an indication of a homozygote lacking said polymorphic restriction site, the presence of only said second detectable label bound to said solid support being an indication of a homozygote containing said polymorphic restriction site, and the presence of both said first and second detectable labels bound to said solid support being an indication of a heterozygote.

14. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid;
(b) amplifying the product of step (a) by PCR
using a third primer and said second primer, said third primer containing said first sequence, said third primer being tagged with a detectable label;
(c) digesting a portion of the reaction of step (b) with the restriction endonuclease corresponding to said polymorphic restriction site, while leaving another portion of said reaction of step (b) undigested;
(d) denaturing said digested and undigested portions from step (c);

(e) contacting the product of step (d) with an oligonucleotide complementary to a second sequence in the strand of said product of step (d) containing said detectable label, said second sequence being between said polymorphic restriction site and the sequence complementary to said second primer, said oligonucleotide being tagged with a first member of a specific binding pair;
(f) contacting the reaction product of step (e) with the second member of said specific binding pair, immobilized on a solid support; and (g) determining the ratio of the levels of said detectable label bound to said solid support between undigested and digested samples, a ratio of 1:0 between equivalent portions of said undigested and digested samples being an indication of a homozygote containing said polymorphic restriction site, a ratio of 1:1 between equivalent portions of said undigested and digested samples being an indication of a homozygote lacking said polymorphic restriction site, and a ratio of 2:1 between equivalent portions of said undigested and digested samples being an indication of a heterozygote.

15. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid;
(b) amplifying the product of step (a) by PCR
using a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with a first detectable label, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a second detectable label;
(c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to said polymorphic restriction site;
(d) denaturing the reaction product of step (c);
(e) contacting the product of step (d) with a first and a second oligonucleotide, said first oligonucleotide being complementary to a third sequence in the strand of said product of step (d) containing said first detectable label, said third sequence being between said polymorphic restriction site and the sequence corresponding to or complementary to said first primer, said first oligonucleotide being tagged with the first member of a first specific binding pair, said second oligonucleotide being complementary to a fourth sequence in the strand of said product of step (d) containing said second detectable label, said fourth sequence being on the same side of said polymorphic restriction site as said third sequence, said fourth sequence not being contained within or being complementary to any of said primers, said second oligonucleotide being tagged with the first member of a second specific binding pair;
(f) contacting a first portion of the reaction product of step (e) with the second member of said first specific binding pair, immobilized on a first solid support;
(g) contacting a second portion of the reaction product of step (e) with the second member of said second specific binding pair, immobilized on a second solid support; and (h) determining the ratio of the levels of said first and second detectable labels bound to said first and second solid supports, a ratio of 1:0 between equivalent amounts of said first and second portions being an indication of a homozygote containing said polymorphic restriction site, a ratio of 1:1 between equivalent amounts of said first and second portions being an indication of a homozygote lacking said polymorphic restriction site, and a ratio of 2:1 between equivalent amounts of said first and second portions being an indication of a heterozygote.

16. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid;
(b) amplifying the product of step (a) by PCR
using a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with a first detectable label, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a second detectable label;
(c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to said polymorphic restriction site;
(d) denaturing the reaction product of step (c);
(e) contacting the product of step (d) with a first and a second oligonucleotide, said first oligonucleotide being complementary to a third sequence in the strand of said product of step (d) containing said first detectable label, said third sequence being between said polymorphic restriction site and the sequence corresponding to or complementary to said second primer, said first oligonucleotide being tagged with the first member of a first specific binding pair, said second oligonucleotide being complementary to a fourth sequence in the strand of said product of step (d) containing said second detectable label, said fourth sequence being on the same side of said polymorphic restriction site as said third sequence, said fourth sequence not being contained within or being complementary to any of said primers, said second oligonucleotide being tagged with the first member of a second specific binding pair;
(f) contacting a first portion of the reaction product of step (e) with the second member of said first specific binding pair, immobilized on a first solid support;
(g) contacting a second portion of the reaction product of step (e) with the second member of said second specific binding pair, immobilized on a second solid support; and (h) determining the ratio of the levels of said first and second detectable labels bound to said first and second solid supports, a ratio of 0:1 between equivalent amounts of said first and second portions being an indication of a homozygote containing said polymorphic restriction site, a ratio of 1:1 between equivalent amounts of said first and second portions being an indication of a homozygote lacking said polymorphic restriction site, and a ratio of 1:2 between equivalent amounts of said first and second portions being an indication of a heterozygote.

17. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid;
(b) amplifying the product of step (a) by PCR
using a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with a first detectable label, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a second detectable label;
(c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to said polymorphic restriction site;
(d) denaturing the reaction product of step (c);
(e) contacting the product of step (d) with a first and a second oligonucleotide, said first oligonucleotide being complementary to a third sequence in the strand of said product of step (d) containing said first detectable label, said third sequence being between said polymorphic restriction site and the sequence corresponding to or complementary to said first primer, said first oligonucleotide being tagged with the first member of a specific binding pair, said second oligonucleotide being complementary to a fourth sequence in the strand of said product of step (d) containing said second detectable label, said fourth sequence being on the same side of said polymorphic restriction site as said third sequence, said fourth sequence not being contained within or being complementary to any of said primers, said second oligonucleotide being tagged with said first member of said specific binding pair;
(f) contacting the reaction product of step (e) with the second member of said specific binding pair, immobilized on a solid support; and (g) determining the ratio of the levels of said first and second detectable labels bound to said solid support, a ratio of 1:0 being an indication of a homozygote containing said polymorphic restriction site, a ratio of 1:1 being an indication of a homozygote lacking said polymorphic restriction site, and a ratio of 2:1 being an indication of a heterozygote.

18. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid;
(b) amplifying the product of step (a) by PCR
using a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with a first detectable label, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a second detectable label;
(c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to said polymorphic restriction site;
(d) denaturing the reaction product of step (c);

(e) contacting the product of step (d) with a first and a second oligonucleotide, said first oligonucleotide being complementary to a third sequence in the strand of said product of step (d) containing said first detectable label, said third sequence being between said polymorphic restriction site and the sequence corresponding to or complementary to said second primer, said first oligonucleotide being tagged with the first member of a specific binding pair, said second oligonucleotide being complementary to a fourth sequence in the strand of said product of step (d) containing said second detectable label, said fourth sequence being on the same side of said polymorphic restriction site as said third sequence, said fourth sequence not being contained within or being complementary to any of said primers, said second oligonucleotide being tagged with said first member of said specific binding pair;
(f) contacting the reaction product of step (e) with the second member of said specific binding pair, immobilized on a solid support; and (g) determining the ratio of the levels of said first and second detectable labels bound to said solid support, a ratio of 0:1 being an indication of a homozygote containing said polymorphic restriction site, a ratio of 1:1 being an indication of a homozygote lacking said polymorphic restriction site, and a ratio of 1:2 being an indication of a heterozygote.

19. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid;
(b) amplifying the product of step (a) by PCR
using a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with the first member of a first specific binding pair, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a detectable label;
(c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to said polymorphic restriction site;
(d) contacting the reaction product of step (c) with the second member of said first specific binding pair, immobilized on a first solid support;
(e) denaturing the reaction product of step (d) not bound to said first solid support;
(f) contacting the product of step (e) with an oligonucleotide complementary to a third sequence in the strand of said product of step (e) containing said detectable label, said third sequence being between said polymorphic restriction site and the sequence corresponding to or complementary to said second primer, said oligonucleotide being tagged with the first member of a second specific binding pair;
(g) contacting the reaction product of step (f) with the second member of said second specific binding pair, immobilized on a second solid support; and (h) determining the ratio of the level of said detectable label bound to said first solid support to the level of said detectable label bound to said second solid support, a ratio of 0:1 being an indication of a homozygote containing said polymorphic restriction site, in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e), (f), and (g); a ratio of 1:0 being an indication of a homozygote lacking said polymorphic restriction site, in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e), (f), and (g);
and a ratio of 1:1 being an indication of a heterozygote, in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e), (f), and (g).

20. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid;
(b) amplifying the product of step (a) by PCR
using a third primer and said second primer, said third primer containing said first sequence, said third primer being tagged with a detectable label;
(c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to said polymorphic restriction site;
(d) annealing and ligating to the single-stranded ends generated in the reaction of step (c) a first oligonucleotide tagged with the first member of a first specific binding pair;
(e) contacting the reaction product of step (d) with the second member of said first specific binding pair, immobilized on a first solid support;

(f) denaturing the reaction product of step (e) not bound to said first solid support;
(g) contacting the product of step (f) with a second oligonucleotide complementary to a second sequence in the strand of said product of step (f) containing said detectable label, said second sequence being between said polymorphic restriction site and either the sequence corresponding to or complementary to said second primer or the sequence corresponding to or complementary to said first primer, said second oligonucleotide being tagged with the first member of a second specific binding pair;
(h) contacting the reaction product of step (g) with the second member of said second specific binding pair, immobilized on a second solid support; and (i) determining the ratio of the level of said detectable label bound to said first solid support to the level of said detectable label bound to said second solid support, a ratio of 1:0 being an indication of a homozygote containing said polymorphic restriction site, in a case where the total amount of said reaction product from step (e) not bound to said first solid support was used in steps (f), (g), and (h); a ratio of 0:1 being an indication of a homozygote lacking said polymorphic restriction site, in a case where the total amount of said reaction product from step (e) not bound to said first solid support was used in steps (f), (g), and (h);
and a ratio of 1:1 being an indication of a heterozygote;
in a case where the total amount of said reaction product from step (e) not bound to said first solid support was used in steps (f), (g), and (h).

21. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:

(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid;
(b) amplifying the product of step (a) by PCR
using a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with the first member of a first specific binding pair, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a detectable label;
(c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to said polymorphic restriction site;
(d) contacting the reaction product of step (c) with the second member of said first specific binding pair, immobilized on a first solid support;
(e) denaturing the reaction product from step (d) not bound to said first solid support;
(f) contacting the product of step (e) with an oligonucleotide complementary to a third sequence in the strand of said product of step (e) containing said detectable label, said third sequence being between said polymorphic restriction site and the sequence corresponding to or complementary to said second primer, said oligonucleotide being immobilized on a second solid support; and (g) determining the ratio of the level of said detectable label bound to said first solid support to the level of said detectable label bound to said second solid support, a ratio of 0:1 being an indication of a homozygote containing said polymorphic restriction site, in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e) and (f); a ratio of 1:0 being an indication of a homozygote lacking said polymorphic restriction site, in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e) and (f); and a ratio of 1:1 being an indication of a heterozygote, in a case where the total amount of said reaction product from step (d) not bound to said first solid support was used in steps (e) and (f).

22. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid;
(b) amplifying the product of step (a) by PCR
using a third primer and said second primer, said third primer containing said first sequence, said third primer being tagged with a detectable label;
(c) digesting the reaction product of step (b) with the restriction endonuclease corresponding to said polymorphic restriction site;
(d) annealing and ligating to the single-stranded ends generated in the reaction of step (c) a first oligonucleotide tagged with the first member of a first specific binding pair;
(e) contacting the reaction product of step (d) with the second member of said first specific binding pair, immobilized on a first solid support;

(f) denaturing the reaction product of step (e) not bound to said first solid support;
(g) contacting the product of step (f) with a second oligonucleotide complementary to a second sequence in the strand of said product of step (f) containing said detectable label, said second sequence being between said polymorphic restriction site and either the sequence corresponding to or complementary to said second primer or the sequence corresponding to or complementary to said first primer, said second oligonucleotide being immobilized on a second solid support; and (h) determining the ratio of the level of said detectable label bound to said first solid support to the level of said detectable label bound to said second solid support, a ratio of 1:0 being an indication of a homozygote containing said polymorphic restriction site, in a case where the total amount of said reaction product from step (e) not bound to said first solid support was used in steps (f) and (g); a ratio of 0:1 being an indication of a homozygote lacking said polymorphic restriction site, in a case where the total amount of said reaction product from step (e) not bound to said first solid support was used in steps (f) and (g); and a ratio of 1: 1 being an indication of a heterozygote, in a case where the total amount of said reaction product from step (e) not bound to said first solid support was used in steps (f) and (g).

23. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising one or more sets of a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with the first member of a specific binding pair, said second primer being tagged with a detectable label.

24. The kit of claim 23, wherein said kit further comprises the second member of said specific binding pair, immobilized on a solid support.

25. The kit of claim 23, wherein said kit further comprises an oligonucleotide complementary to the single-stranded ends generated in said nucleic acid upon digestion of said nucleic acid with the restriction enzyme corresponding to said polymorphic restriction site, said oligonucleotide being tagged with a second detectable label.

26. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with a detectable label, said second primer being unlabeled;
(b) an oligonucleotide complementary to a sequence in the strand of said nucleic acid complementary to said second primer, said sequence being between said polymorphic restriction site and the sequence complementary to said second primer, said oligonucleotide being tagged with a first member of a specific binding pair; and (c) the second member of said specific binding pair, immobilized on a solid support.

27. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with a first detectable label, said second primer being tagged with a second detectable label;
(b) a first oligonucleotide, said first oligonucleotide being complementary to a first sequence in the strand of said nucleic acid complementary to said second primer, said first sequence being between said polymorphic restriction site and either the sequence corresponding to said first primer or the sequence complementary to said second primer, said first oligonucleotide being tagged with the first member of a first specific binding pair;
(c) a second oligonucleotide, said second oligonucleotide being complementary to a second sequence in the strand of said nucleic acid complementary to said first primer, said second sequence being on the same side of said polymorphic restriction site as said first sequence, said second sequence not being contained within or being complementary to either of said first or second primers, said second oligonucleotide being tagged with the first member of a second specific binding pair;
(d) the second member of said first specific binding pair, immobilized on a first solid support; and (e) the second member of said second specific binding pair, immobilized on a second solid support.

28. The kit of claim 27, wherein said first and said second specific binding pairs are identical, and said first and said second solid supports are identical.

29. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with the first member of a first specific binding pair, said second primer being tagged with a detectable label;
(b) the second member of said first specific binding pair, immobilized on a first solid support;
(c) an oligonucleotide complementary to a first sequence in the strand of said nucleic acid containing the sequence corresponding to said second primer, said first sequence being between said polymorphic restriction site and said sequence corresponding to said second primer, said oligonucleotide being tagged with the first member of a second specific binding pair; and (d) the second member of said second specific binding pair, immobilized on a second solid support.

30. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with a detectable label, said second primer being unlabeled; (b) a first oligonucleotide complementary to the single-stranded ends generated in said nucleic acid upon digestion of said nucleic acid with the restriction enzyme corresponding to said polymorphic restriction site, said oligonucleotide being tagged with the first member of a first specific binding pair;
(c) the second member of said first specific binding pair, immobilized on a first solid support;
(d) a second oligonucleotide complementary to a sequence in the strand of said nucleic acid complementary to said second primer, said sequence being between said polymorphic restriction site and either the sequence corresponding to said first primer or the sequence complementary to said second primer, said second oligonucleotide being tagged with the first member of a second specific binding pair, and (e) the second member of said second specific binding pair, immobilized on a second solid support.

31. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with the first member of a first specific binding pair, said second primer being tagged with a detectable label;
(b) the second member of said first specific binding pair, immobilized on a first solid support; and (c) an oligonucleotide complementary to a first sequence in the strand of said nucleic acid containing the sequence corresponding to said second primer, said first sequence being between said polymorphic restriction site and said sequence corresponding to said second primer, said oligonucleotide being immobilized on a second solid support.

32. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer being tagged with a detectable label, said second primer being unlabeled;
(b) a first oligonucleotide complementary to the single-stranded ends generated in said nucleic acid upon digestion of said nucleic acid with the restriction enzyme corresponding to said polymorphic restriction site, said oligonucleotide being tagged with the first member of a first specific binding pair;
(c) the second member of said first specific binding pair, immobilized on a first solid support; and (d) a second oligonucleotide complementary to a sequence in the strand of said nucleic acid complementary to said second primer, said sequence being between said polymorphic restriction site and either the sequence corresponding to said first primer or the sequence complementary to said second primer, said second oligonucleotide being immobilized on a second solid support.

33. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid;
(b) a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with the first member of a specific binding pair, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a detectable label.

34. The kit of claim 33, wherein said kit further comprises the second member of said specific binding pair, immobilized on a solid support.

35. The kit of claim 33, wherein said kit further comprises an oligonucleotide complementary to the single-stranded ends generated in said nucleic acid upon digestion of said nucleic acid with the restriction enzyme corresponding to said polymorphic restriction site, said oligonucleotide being tagged with a second detectable label.

36. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid;
(b) a third primer containing said first sequence, said third primer being tagged with a detectable label;
(c) an oligonucleotide complementary to a second sequence in the strand of said nucleic acid containing the sequence complementary to said second primer, said second sequence being between said polymorphic restriction site and said sequence complementary to said second primer, said oligonucleotide being tagged with a first member of a specific binding pair; and (d) the second member of said specific binding pair, immobilized on a solid support.

37. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid, (b) a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with a first detectable label, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a second detectable label;
(c) a first oligonucleotide, said first oligonucleotide being complementary to a third sequence in the strand of said nucleic acid complementary to said second primer, said third sequence being between said polymorphic restriction site and either the sequence complementary to said second primer or the sequence corresponding to said first primer, said first oligonucleotide being tagged with the first member of a first specific binding pair, (d) a second oligonucleotide, said second oligonucleotide being complementary to a fourth sequence in the strand of said nucleic acid complementary to said first primer, said fourth sequence being on the same side of said polymorphic restriction site as said third sequence, said fourth sequence not being contained within or being complementary to any of said primers, said second oligonucleotide being tagged with the first member of a second specific binding pair;
(e) the second member of said first specific binding pair, immobilized on a first solid support; and (f) the second member of said second specific binding pair, immobilized on a second solid support.

38. The kit of claim 32, wherein said first and said second specific binding pairs are identical, and said first and said second solid supports are identical.

39. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid;
(b) a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with the first member of a first specific binding pair, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a detectable label;
(c) the second member of said first specific binding pair, immobilized on a first solid support;
(d) an oligonucleotide complementary to a third sequence in the strand of said nucleic acid corresponding to said second primer, said sequence being between said polymorphic restriction site and the sequence corresponding to said second primer, said oligonucleotide being tagged with the first member of a second specific binding pair; and (e) the second member of said second specific binding pair, immobilized on a second solid support.

40. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid;
(b) a third primer containing said first sequence, said third primer being tagged with a detectable label;
(c) a first oligonucleotide complementary to the single-stranded ends generated in said nucleic acid upon digestion of said nucleic acid with the restriction enzyme corresponding to said polymorphic restriction site, said oligonucleotide being tagged with the first member of a first specific binding pair;
(d) the second member of said first specific binding pair, immobilized on a first solid support;
(e) a second oligonucleotide complementary to a second sequence in the strand of said nucleic acid corresponding to said first primer, said second sequence being between said polymorphic restriction site and either the sequence complementary to said second primer or the sequence corresponding to said first primer, said second oligonucleotide being tagged with the first member of a second specific binding pair; and (f) the second member of said second specific binding pair, immobilized on a second solid support.

41. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid, said second primer containing a second sequence not complementary to or present in said nucleic acid;
(b) a third and a fourth primer, said third primer containing said first sequence or a sequence complementary to said first sequence, said third primer being tagged with the first member of a first specific binding pair, said fourth primer containing said second sequence or a sequence complementary to said second sequence, said fourth primer being tagged with a detectable label;
(c) the second member of said first specific binding pair, immobilized on a first solid support; and (d) an oligonucleotide complementary to a third sequence in the strand of said nucleic acid corresponding to said second primer, said third sequence being between said polymorphic restriction site and the sequence corresponding to said second primer, said oligonucleotide being immobilized on a second solid support.

42. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first and a second primer flanking said polymorphic restriction site, said first primer containing a first sequence not complementary to or present in said nucleic acid;
(b) a third primer containing said first sequence, said third primer being tagged with a detectable label;
(c) a first oligonucleotide complementary to the single-stranded ends generated in said nucleic acid upon digestion of said nucleic acid with the restriction enzyme corresponding to said polymorphic restriction site, said oligonucleotide being tagged with the first member of a first specific binding pair;
(d) the second member of said first specific binding pair, immobilized on a first solid support; and (e) a second oligonucleotide complementary to a second sequence in the strand of said nucleic acid corresponding to said first primer, said sequence being between said polymorphic restriction site and either the sequence corresponding to or complementary to said second primer or the sequence corresponding to or complementary to said first primer, said second oligonucleotide being immobilized on a second solid support.

43. A method for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) amplifying said nucleic acid by PCR using a first and a second primer flanking said polymorphic restriction site, whereby the resultant PCR product is of a defined size readily resolved by gel electrophoresis;
(b) digesting the PCR product of step (a) with the restriction endonuclease corresponding to said polymorphic restriction site, said digestion products being differentially sized;
(c) separating the reaction products of step (b) by gel electrophoresis; and (d) detecting said separated reaction products, the presence of only uncleaved products being an indication of a homozygote lacking said polymorphic restriction site, the presence of only cleaved products being an indication of a homozygote containing said polymorphic restriction site, and the presence of both cleaved and uncleaved products being an indication of a heterozygote.

44. The method of claim 43, wherein one or both of said first and second primers are tagged with a detectable label.

45. The method of claim 44, wherein said PCR
product is 100-1000 base pairs in length.

46. A kit for detecting the presence or absence of a polymorphic restriction site in a nucleic acid, said kit comprising: a first and a second primer flanking said polymorphic restriction site and capable of generating a PCR product of a defined size that is readily resolved by gel electrophoresis.

47. The kit of claim 46, wherein said first and/or said second primers are detectably labeled.

48. The kit of claim 46, wherein said PCR product generated is between 100 and 1000 base pairs in length.

49. The kit of claims 23, 26-27, 29-33, 36-37, 39-42, and 46, wherein multiple polymorphic restriction sites are detected.

50. A method for identifying a polymorphic restriction site in a nucleic acid, said method comprising the steps of:
(a) digesting DNA isolated from a first sample with a first restriction endonuclease;
(b) ligating to each of the ends of the reaction products of step (a) a first adaptor;
(c) digesting the products of step (b) with a second restriction endonuclease;
(d) ligating to each of the ends of the reaction products generated in step (c) a second adaptor;
(e) amplifying said reaction products of step (d) by PCR using a first primer complementary to said first adaptor and a second primer complementary to said second adaptor, said second primer being tagged with a first member of a specific binding pair;

(f) in a separate set of reactions, digesting DNA
isolated from a second sample with said first restriction endonuclease;
(g) ligating to each of the ends of the reaction products of step (f) a third adaptor;
(h) digesting the products of step (g) with said second restriction endonuclease;
(i) denaturing the products of step (e) and the products of step (h);
(j) combining the denatured products of step (i) under conditions allowing hybridization;
(k) contacting the hybridization products of step (j) with the second member of said specific binding pair, said second member being immobilized on a solid support;
(l) recovering said hybridization products captured on said solid support; and (m) amplifying said products obtained in step (l) by PCR using a primer complementary to said third adaptor, an amplified product being an indication of a polymorphic restriction site corresponding to said second restriction endonuclease.

51. The method of claim 50, wherein said specific binding pair is avidin and biotin.

52. A kit for identifying a polymorphic restriction site in a nucleic acid, said kit comprising:
(a) a first DNA adaptor, a second DNA adaptor, and a third DNA adaptor, said first and third DNA
adaptors having regions complementary to the ends generated by a first restriction endonuclease ends but differing in overall sequence and said second DNA adaptor having a region complementary to the ends generated by a second restriction endonuclease, said second restriction endonuclease site corresponding to said polymorphic restriction site; and (b) a first primer, a second primer, and a third primer, said first primer being complementary to said first DNA adaptor, said second primer being complementary to said second DNA adaptor and being tagged with a first member of a specific binding pair, and said third primer being complementary to said third DNA adaptor.

53. The kit of claim 52, wherein said kit further comprises the second member of said specific binding pair immobilized on a solid support.