Genome Analysis Laboratory, Rubber Research Institute of India, Rubber Board P O, Kottayam, Kerala, 686009, India.
Department of Plant Breeding and Genetics, Regional Agricultural Research Station, Kerala Agricultural University, Kumarakom, Kerala, 685583, India.
Biochem Genet. 2022 Dec;60(6):2171-2199. doi: 10.1007/s10528-022-10211-w. Epub 2022 Mar 16.
Scarcity of functional genetic markers associated with candidate genes (CGs) is a serious constraint for marker-assisted selection in the natural rubber producing tree, Hevea brasiliensis. In order to develop markers associated with rubber yield, five CGs involved in latex biosynthesis were characterized from 16 popular Hevea varieties. Novel SNPs and indels were identified and developed into markers using simple genotyping techniques like allele-specific PCR, CAPS, etc. A progeny population was genotyped using these markers to validate them, to understand their segregation pattern and to map them to a genetic linkage map. Parent-specific maps were constructed using pseudo-test cross strategy with the help of additional markers. The sequence structure information generated will be useful for future studies on gene mapping, functional relevance of coding SNPs and evolution of rubber biosynthesis genes in Hevea. Concurrently, the markers developed may serve as powerful tools for yield-based selection and for genetic diversity and pedigree studies in Hevea. Above all, the marker assays designed for genotyping could be economically carried out in any laboratory having basic molecular biology infrastructure and expertise.
功能遗传标记与候选基因 (CGs) 的稀缺性是天然橡胶生产树巴西橡胶树标记辅助选择的严重制约因素。为了开发与橡胶产量相关的标记,从 16 个流行的巴西橡胶品种中鉴定了 5 个涉及乳胶生物合成的 CG。通过等位基因特异性 PCR、CAPS 等简单的基因分型技术,鉴定并开发了新的 SNP 和 indels 标记。利用这些标记对后代群体进行基因型分析,以验证其有效性,了解其分离模式,并将其映射到遗传连锁图谱上。利用附加标记,通过拟测交策略构建了双亲特异性图谱。生成的序列结构信息将有助于未来对基因定位、编码 SNP 的功能相关性和巴西橡胶生物合成基因进化的研究。同时,开发的标记可以作为基于产量的选择以及巴西橡胶遗传多样性和系谱研究的有力工具。最重要的是,为基因分型设计的标记检测可以在任何具有基本分子生物学基础设施和专业知识的实验室经济地进行。
