Abstract
Although much research has been conducted to characterize microsatellites and develop markers, the distribution of microsatellites remains ambiguous and the use of microsatellite markers in genomic studies and marker-assisted selection is limited. To identify microsatellites for cotton research, we mined 100,290, 83,160, and 56,937 microsatellites with frequencies of 41.2, 49.1, and 74.8 microsatellites per Mb in the recently sequenced Gossypium species: G. hirsutum, G. arboreum, and G. raimondii, respectively. The distributions of microsatellites in their genomes were non-random and were positively and negatively correlated with genes and transposable elements, respectively. Of the 77,996 developed microsatellite markers, 65,498 were physically anchored to the 26 chromosomes of G. hirsutum with an average marker density of 34 markers per Mb. We confirmed 67,880 (87%) universal and 7,705 (9.9%) new genic microsatellite markers. The polymorphism was estimated in above three species by in silico PCR and validated with 505 markers in G. hirsutum. We further predicted 8,825 polymorphic microsatellite markers within G. hirsutum acc. TM-1 and G. barbadense cv. Hai7124. In our study, genome-wide mining and characterization of microsatellites, and marker development were very useful for the saturation of the allotetraploid genetic linkage map, genome evolution studies and comparative genome mapping.
Highlights
Microsatellites, which consist of a variable number of tandem repeats, are known as simple sequence repeats (SSRs, defined as 1-6 bp) and are characterized by their high frequency, distribution, co-dominance, reproducibility, and high polymorphism[1,2]
A very-high-density whole genome marker map (WGMM) has been constructed for cotton based on the D genome, which has a total of 48,959 loci, about six times the number characterized in the most richly populated of the integrated maps published previously[20,29], the pattern of microsatellite distribution and the physical position or product of publicly available cotton SSRs in G. hirsutum remained ambiguous
The determination of the genomic distribution of 100,290 microsatellites revealed 81,898 microsatellites mapped to the 26 chromosomes of G. hirsutum with an average density of 42.33 per Mb
Summary
Qiong Wang*, Lei Fang*, Jiedan Chen, Yan Hu, Zhanfeng Si, Sen Wang, Lijing Chang, Wangzhen Guo & Tianzhen Zhang. To identify microsatellites for cotton research, we mined 100,290, 83,160, and 56,937 microsatellites with frequencies of 41.2, 49.1, and 74.8 microsatellites per Mb in the recently sequenced Gossypium species: G. hirsutum, G. arboreum, and G. raimondii, respectively. Genome-wide mining and characterization of microsatellites, and marker development were very useful for the saturation of the allotetraploid genetic linkage map, genome evolution studies and comparative genome mapping. A very-high-density whole genome marker map (WGMM) has been constructed for cotton based on the D genome, which has a total of 48,959 loci, about six times the number characterized in the most richly populated of the integrated maps published previously[20,29], the pattern of microsatellite distribution and the physical position or product of publicly available cotton SSRs in G. hirsutum remained ambiguous
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