Abstract
This paper outlines a PCR-based approach for population genetics that offers several advantages over conventional Southern blotting methods for revealing restriction-fragment-length polymorphisms (RFLPs) in nuclear DNA. Primers are constructed from clones isolated from a nuclear DNA library, and these primers subsequently are employed in in vitro syntheses of homologous regions. Amplified products are then screened directly for RFLPs by using gel-staining procedures. Population applications for this PCR-based approach, including potential strengths and weaknesses, are exemplified by two RFLP data sets generated to estimate (a) male-mediated gene flow in the green turtle (Chelonia mydas) and (b) geographic population genetic structure in the American oyster (Crassostrea virginica). Restriction assays of amplified products from 14 or 15 independent primer pairs in each species revealed polymorphisms at several loci that proved highly informative in the population genetic analyses. In general, the Mendelian polymorphisms produced by this PCR-based approach will provide useful genetic markers for population studies, particularly in situations where simpler and less expensive allozyme methods have failed, for whatever reason, to provide adequate information.
Highlights
IntroductionEstimates of genetic parameters in natural populations often require molecular polymorphisms (preferably neutral) from multiple independent loci
Estimates of genetic parameters in natural populations often require molecular polymorphisms from multiple independent loci
We will focus on previously unpublished aspects of these genetic surveys, to illustrate methodological nuances that to a considerable degree determine strengths and weaknesses of the PCR methodology for generating scnRFLPs
Summary
Estimates of genetic parameters in natural populations often require molecular polymorphisms (preferably neutral) from multiple independent loci. Hubby 1966), thousands of studies have utilized protein polymorphisms to address such issues as population variability, genetic parentage, gene flow, and species phylogeny. Variation at the level of DNA has been assayed more directly as restriction-fragment-length polymorphisms ( RFLPs) in Southern blots, using cloned single-copy nuclear (scn) DNAs as probes ( Southern 1975 ). These approaches alleviate some of the concerns associated with allozyme studies: (a) many of the nucleotide changes underlying scnRFLPs probably reflect silent substitutions or other genetic.
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