Parida Swarup Kumar, Dalal Vivek, Singh Ashok Kumar, Singh Nagendra Kumar, Mohapatra Trilochan
National Research Centre on Plant Biotechnology, Indian Agricultural Research Institute, New Delhi, India.
BMC Genomics. 2009 Mar 31;10:140. doi: 10.1186/1471-2164-10-140.
Completely sequenced plant genomes provide scope for designing a large number of microsatellite markers, which are useful in various aspects of crop breeding and genetic analysis. With the objective of developing genic but non-coding microsatellite (GNMS) markers for the rice (Oryza sativa L.) genome, we characterized the frequency and relative distribution of microsatellite repeat-motifs in 18,935 predicted protein coding genes including 14,308 putative promoter sequences.
We identified 19,555 perfect GNMS repeats with densities ranging from 306.7/Mb in chromosome 1 to 450/Mb in chromosome 12 with an average of 357.5 GNMS per Mb. The average microsatellite density was maximum in the 5' untranslated regions (UTRs) followed by those in introns, promoters, 3'UTRs and minimum in the coding sequences (CDS). Primers were designed for 17,966 (92%) GNMS repeats, including 4,288 (94%) hypervariable class I types, which were bin-mapped on the rice genome. The GNMS markers were most polymorphic in the intronic region (73.3%) followed by markers in the promoter region (53.3%) and least in the CDS (26.6%). The robust polymerase chain reaction (PCR) amplification efficiency and high polymorphic potential of GNMS markers over genic coding and random genomic microsatellite markers suggest their immediate use in efficient genotyping applications in rice. A set of these markers could assess genetic diversity and establish phylogenetic relationships among domesticated rice cultivar groups. We also demonstrated the usefulness of orthologous and paralogous conserved non-coding microsatellite (CNMS) markers, identified in the putative rice promoter sequences, for comparative physical mapping and understanding of evolutionary and gene regulatory complexities among rice and other members of the grass family. The divergence between long-grained aromatics and subspecies japonica was estimated to be more recent (0.004 Mya) compared to short-grained aromatics from japonica (0.006 Mya) and long-grained aromatics from subspecies indica (0.014 Mya).
Our analyses showed that GNMS markers with their high polymorphic potential would be preferred candidate functional markers in various marker-based applications in rice genetics, genomics and breeding. The CNMS markers provided encouraging implications for their use in comparative genome mapping and understanding of evolutionary complexities in rice and other members of grass family.
完全测序的植物基因组为设计大量微卫星标记提供了可能,这些标记在作物育种和遗传分析的各个方面都很有用。为了开发水稻(Oryza sativa L.)基因组的基因非编码微卫星(GNMS)标记,我们对18935个预测的蛋白质编码基因(包括14308个推定的启动子序列)中微卫星重复基序的频率和相对分布进行了表征。
我们鉴定出19555个完美的GNMS重复序列,密度范围从第1号染色体上的306.7个/Mb到第12号染色体上的450个/Mb,平均每兆碱基有357.5个GNMS。平均微卫星密度在5'非翻译区(UTR)中最高,其次是内含子、启动子、3'UTR中的密度,在编码序列(CDS)中最低。为17966个(92%)GNMS重复序列设计了引物,包括4288个(94%)高变I类类型,这些引物被双定位到水稻基因组上。GNMS标记在内含子区域的多态性最高(73.3%),其次是启动子区域的标记(53.3%),在CDS中的多态性最低(26.6%)。与基因编码微卫星标记和随机基因组微卫星标记相比,GNMS标记具有强大的聚合酶链反应(PCR)扩增效率和高多态性潜力,表明它们可立即用于水稻的高效基因分型应用。一组这样的标记可以评估遗传多样性,并建立驯化水稻品种组之间的系统发育关系。我们还证明了在推定的水稻启动子序列中鉴定出的直系同源和旁系同源保守非编码微卫星(CNMS)标记在比较物理图谱绘制以及理解水稻和禾本科其他成员之间的进化和基因调控复杂性方面的有用性。与粳稻的短粒香型(0.006百万年)和籼稻的长粒香型(0.014百万年)相比,长粒香型与粳稻亚种之间的分化估计更近(0.004百万年)。
我们的分析表明,具有高多态性潜力的GNMS标记将是水稻遗传学、基因组学和育种中各种基于标记的应用中首选的候选功能标记。CNMS标记为其在比较基因组图谱绘制以及理解水稻和禾本科其他成员的进化复杂性方面的应用提供了令人鼓舞的启示。
