Engineering Research Centre of Cotton, Ministry of Education, College of Agriculture, Xinjiang Agricultural University, 311 Nongda East Road, Urumqi, 830052, China.
State Key Laboratory of Cotton Biology, Institute of Cotton Research, Chinese Academy of Agricultural Sciences, Anyang, 455000, China.
Theor Appl Genet. 2023 Mar 13;136(3):48. doi: 10.1007/s00122-023-04247-8.
The fiber length-related qFL-A12-5 identified in CSSLs introgressed from Gossypium barbadense into Gossypium hirsutum was fine-mapped to an 18.8 kb region on chromosome A12, leading to the identification of the GhTPR gene as a potential regulator of cotton fiber length. Fiber length is a key determinant of fiber quality in cotton, and it is a key target of artificial selection for breeding and domestication. Although many fiber length-related quantitative trait loci have been identified, there are few reports on their fine mapping or candidate gene validation, thus hampering efforts to understand the mechanistic basis of cotton fiber development. Our previous study identified the qFL-A12-5 associated with superior fiber quality on chromosome A12 in the chromosome segment substitution line (CSSL) MBI7747 (BCF). A single segment substitution line (CSSL-106) screened from BCF was backcrossed to construct a larger segregation population with its recurrent parent CCRI45, thus enabling the fine mapping of 2852 BCF individuals using denser simple sequence repeat markers to narrow the qFL-A12-5 to an 18.8 kb region of the genome, in which six annotated genes were identified in Gossypium hirsutum. Quantitative real-time PCR and comparative analyses led to the identification of GH_A12G2192 (GhTPR) encoding a tetratricopeptide repeat-like superfamily protein as a promising candidate gene for qFL-A12-5. A comparative analysis of the protein-coding regions of GhTPR among Hai1, MBI7747, and CCRI45 revealed two non-synonymous mutations. The overexpression of GhTPR resulted in longer roots in Arabidopsis, suggesting that GhTPR may regulate cotton fiber development. These results provide a foundation for future efforts to improve cotton fiber length.
纤维长度相关的 qFL-A12-5 是由海岛棉导入到陆地棉的 CSSLs 中鉴定的,精细定位到染色体 A12 上的 18.8 kb 区域,导致 GhTPR 基因被鉴定为潜在的棉花纤维长度调控因子。纤维长度是棉花纤维品质的关键决定因素,也是棉花人工选择育种和驯化的关键目标。尽管已经鉴定出许多与纤维长度相关的数量性状位点,但很少有关于它们的精细定位或候选基因验证的报道,从而阻碍了对棉花纤维发育机制基础的理解。我们之前的研究在染色体片段代换系(CSSL)MBI7747(BCF)的第 A12 号染色体上鉴定出与优良纤维品质相关的 qFL-A12-5。从 BCF 中筛选出的一个单片段代换系(CSSL-106)回交构建了一个更大的分离群体,其轮回亲本为 CCRI45,从而能够使用更密集的简单重复序列标记对 2852 个 BCF 个体进行精细定位,将 qFL-A12-5 缩小到基因组的 18.8 kb 区域,在该区域中鉴定出 6 个在陆地棉中注释的基因。定量实时 PCR 和比较分析导致 GH_A12G2192(GhTPR)被鉴定为一个编码四肽重复样超家族蛋白的有希望的候选基因,用于 qFL-A12-5。对 Hai1、MBI7747 和 CCRI45 中 GhTPR 的蛋白质编码区进行比较分析,发现了两个非同义突变。在拟南芥中过表达 GhTPR 导致根变长,表明 GhTPR 可能调控棉花纤维发育。这些结果为未来提高棉花纤维长度的努力提供了基础。
