Zhou Y, Bui T, Auckland L D, Williams C G
Genetics Program and Department of Forest Science, Texas A&M University, College Station 77843-2135, USA.
Genome. 2002 Feb;45(1):91-9. doi: 10.1139/g01-119.
Developing microsatellites from the large, highly duplicated conifer genome requires special tools. To improve the efficiency of developing Pinus taeda L. microsatellites, undermethylated (UM) DNA fragments were used to construct a microsatellite-enriched copy library. A methylation-sensitive restriction enzyme, McrBC, was used to enrich for UM DNA before library construction. Digested DNA fragments larger than 9 kb were then excised and digested with RsaI and used to construct nine dinucleotide and trinucleotide libraries. A total of 1016 microsatellite-positive clones were detected among 11 904 clones and 620 of these were unique. Of 245 primer sets that produced a PCR product, 113 could be developed as UM microsatellite markers and 70 were polymorphic. Inheritance and marker informativeness were tested for a random sample of 36 polymorphic markers using a three-generation outbred pedigree. Thirty-one microsatellites (86%) had single-locus inheritance despite the highly duplicated nature of the P. taeda genome. Nineteen UM microsatellites had highly informative intercross mating type configurations. Allele number and frequency were estimated for eleven UM microsatellites using a population survey. Allele numbers for these UM microsatellites ranged from 3 to 12 with an average of 5.7 alleles/locus. Frequencies for the 63 alleles were mostly in the low-common range; only 14 of the 63 were in the rare allele (q < 0.05) class. Enriching for UM DNA was an efficient method for developing polymorphic microsatellites from a large plant genome.
从庞大且高度重复的针叶树基因组中开发微卫星需要特殊工具。为提高火炬松微卫星的开发效率,使用了低甲基化(UM)DNA片段构建富含微卫星的文库。在文库构建前,使用甲基化敏感限制酶McrBC富集UM DNA。然后切下大于9 kb的消化DNA片段,用RsaI消化,并用于构建9个二核苷酸和三核苷酸文库。在11904个克隆中总共检测到1016个微卫星阳性克隆,其中620个是独特的。在产生PCR产物的245个引物组中,113个可以开发为UM微卫星标记,70个具有多态性。使用三代远交系谱对36个多态性标记的随机样本进行遗传和标记信息性测试。尽管火炬松基因组具有高度重复性,但31个微卫星(86%)具有单基因座遗传。19个UM微卫星具有高度信息丰富的杂交交配型配置。使用群体调查估计了11个UM微卫星的等位基因数量和频率。这些UM微卫星的等位基因数量范围为3至12,平均每个基因座5.7个等位基因。63个等位基因的频率大多处于低常见范围;63个中只有14个属于稀有等位基因(q < 0.05)类别。富集UM DNA是从大型植物基因组中开发多态性微卫星的有效方法。
