Use of PCR-RFLP assays to detect genetic variation at single-copy nuclear loci in striped bass (Morone saxatilis).

Molecular marine biology and biotechnology Pub Date : 1996-06-01

G M Leclerc, M Diaz, B Ely

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Abstract

We developed three assays that detect genetic variation at single-copy nuclear loci in striped bass (Morone saxatilis). Because these assays are based on restriction enzyme digests of DNA amplified by the polymerase chain reaction (PCR-RFLP), they are easy to perform on large numbers of samples. Breeding trials demonstrated that the alleles identified in each of the three assays are inherited in a Mendelian fashion as codominant alleles at single-copy loci. To demonstrate the utility of these PCR-RFLP assays, we compared the genetic composition of striped bass populations from the Congaree River in South Carolina and from the Choptank River in Maryland. Allele frequencies were significantly different at the SB14 locus, suggesting that the two populations may be genetically distinct. Furthermore, during the development of the PCR-RFLP assays, we demonstrated that the GT(n) microsatellite-associated DNA regions (MSA regions) contained RFLPs at a frequency 9-fold higher than that observed for randomly chosen segments of DNA. If MSA regions proved to be variable in other organisms as well, they could provide a valuable source of intraspecific variation.

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应用PCR-RFLP检测条纹鲈鱼(Morone saxatilis)单拷贝核位点的遗传变异。

我们建立了三种检测条纹鲈鱼(Morone saxatilis)单拷贝核位点遗传变异的方法。由于这些检测是基于聚合酶链反应(PCR-RFLP)扩增DNA的限制性内切酶酶切，因此它们易于在大量样品上执行。育种试验表明，在三种测定中鉴定的等位基因在单拷贝位点上作为共显性等位基因以孟德尔方式遗传。为了证明这些PCR-RFLP分析的实用性，我们比较了来自南卡罗来纳州康加里河和马里兰州Choptank河的条纹鲈鱼种群的遗传组成。等位基因频率在SB14位点上有显著差异，表明这两个群体可能存在遗传差异。此外，在PCR-RFLP检测的开发过程中，我们证明了GT(n)微卫星相关DNA区域(MSA区域)含有RFLPs的频率比随机选择的DNA片段高9倍。如果MSA区域在其他生物体中也被证明是可变的，那么它们可能为种内变异提供有价值的来源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Molecular marine biology and biotechnology

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