2019
DOI: 10.1007/s00122-019-03333-0
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Dissection of the genetic variation and candidate genes of lint percentage by a genome-wide association study in upland cotton

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Cited by 42 publications
(65 citation statements)
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“…It is notable that, congruent with other QTL analyses, we find important fiber related QTL on the subgenome derived from the parent with the much shorter, inferior fiber (D genome). The involvement of the D-genome in the evolution of transgressive fiber phenotypes has been noted in multiple analyses, including for QTL (Jiang et al 1998;Lacape et al 2005;Han et al 2006;Rong et al 2007;Qin et al 2008;Said et al 2015b), expression (Hovav et al 2008a;Yoo and Wendel 2014;Zhang et al 2015;Fang et al 2017b), and in selective genomic sweeps (Fang et al 2017a(Fang et al , 2017cSong et al 2019), yet the underlying genetic basis for this phenomenon remains unclear. Further work using advanced populations in which individual QTL have been isolated in isogenic backgrounds, combined with a multi-omics or systems biology perspective, is one promising approach for developing a fuller understanding of cotton biology as well as the domestication process.…”
Section: Discussionmentioning
confidence: 99%
“…It is notable that, congruent with other QTL analyses, we find important fiber related QTL on the subgenome derived from the parent with the much shorter, inferior fiber (D genome). The involvement of the D-genome in the evolution of transgressive fiber phenotypes has been noted in multiple analyses, including for QTL (Jiang et al 1998;Lacape et al 2005;Han et al 2006;Rong et al 2007;Qin et al 2008;Said et al 2015b), expression (Hovav et al 2008a;Yoo and Wendel 2014;Zhang et al 2015;Fang et al 2017b), and in selective genomic sweeps (Fang et al 2017a(Fang et al , 2017cSong et al 2019), yet the underlying genetic basis for this phenomenon remains unclear. Further work using advanced populations in which individual QTL have been isolated in isogenic backgrounds, combined with a multi-omics or systems biology perspective, is one promising approach for developing a fuller understanding of cotton biology as well as the domestication process.…”
Section: Discussionmentioning
confidence: 99%
“…Many candidate genes that underlie traits such as cotton fiber yield and quality [11][12][13][14], and seed oil composition and protein content [15], have been revealed. In addition, several studies on stress tolerance have been carried out in cotton.…”
mentioning
confidence: 99%
“…In total, 854 QTNs on 26 chromosomes were identified as significantly associated with the three traits (Additional file 8: Table S6). Following the linkage disequilibrium (LD) value [17] and referring the method reported by Song et al (2019) [19], the 200-kb upstream and downstream of QTNs were defined as one QTL. In total, 600 QTLs including 151 of SBW, 417 of LP and 112 of BNPP, were detected with 1446 times under different environments and BLUPs by six multi-loci MLM models (Table 1).…”
Section: Gwas Of the Lint Yield Related Traitsmentioning
confidence: 99%
“…Following the LD value [17] and referring the method reported by Song et al (2019) [19], the 200 kb upstream and downstream of QTNs were defined as QTLs. The distance of two QTNs less than 200 kb will be merged into a single QTL.…”
Section: Qtls and Candidate Genes Identificationmentioning
confidence: 99%