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引用次数: 0
摘要
棉花提供天然纤维,对纺织业的发展和人类生活的改善起着至关重要的作用。在我们的研究中,我们通过杂交 Gossypium hirsutum 和 Gossypium barbadense,建立重组近交系(RIL)群体,探索了棉花结构、纤维产量和质量的遗传决定因素。利用 SNP 标记,我们构建了一个广泛的遗传图谱,包括 2,784.2 cM 上的 7,730 个标记。我们评估了六种环境中的两个建筑性状和七个纤维性状,确定了 58 个 QTLs,其中 49 个在这些环境中表现出稳定性。这些QTL包括皮棉百分比(LP)、棉铃重(BW)、纤维强度(STRENGTH)、籽粒指数(SI)和微米值(MIC)等性状,主要位于染色体chr-A07、chr-D06和chr-D07上。值得注意的是,chr-D07 上有一个影响 SI 的 QTL 区域,这已被多项研究证实。在这一区域中,BZIP043 和 SEP2 被确定为关键基因,其中 SEP2 在发育中的胚珠中的表达尤其增强。这些发现极大地促进了标记辅助选择,有可能提高棉花纤维生产的产量和质量。这些发现为标记辅助育种策略提供了宝贵的见解,为提高棉花生产中的纤维产量和质量提供了关键信息。
Genetic Analysis of Cotton Fiber Traits in Gossypium Hybrid Lines.
Cotton plays a crucial role in the progress of the textile industry and the betterment of human life by providing natural fibers. In our study, we explored the genetic determinants of cotton architecture and fiber yield and quality by crossbreeding Gossypium hirsutum and Gossypium barbadense, creating a recombinant inbred line (RIL) population. Utilizing SNP markers, we constructed an extensive genetic map encompassing 7,730 markers over 2,784.2 cM. We appraised two architectural and seven fiber traits within six environments, identifying 58 QTLs, of which 49 demonstrated stability across these environments. These encompassed QTLs for traits such as lint percentage (LP), boll weight (BW), fiber strength (STRENGTH), seed index (SI), and micronaire (MIC), primarily located on chromosomes chr-A07, chr-D06, and chr-D07. Notably, chr-D07 houses a QTL region affecting SI, corroborated by multiple studies. Within this region, the genes BZIP043 and SEP2 were identified as pivotal, with SEP2 particularly showing augmented expression in developing ovules. These discoveries contribute significantly to marker-assisted selection, potentially elevating both the yield and quality of cotton fiber production. These findings provide valuable insights into marker-assisted breeding strategies, offering crucial information to enhance fiber yield and quality in cotton production.
期刊介绍:
Physiologia Plantarum is an international journal committed to publishing the best full-length original research papers that advance our understanding of primary mechanisms of plant development, growth and productivity as well as plant interactions with the biotic and abiotic environment. All organisational levels of experimental plant biology – from molecular and cell biology, biochemistry and biophysics to ecophysiology and global change biology – fall within the scope of the journal. The content is distributed between 5 main subject areas supervised by Subject Editors specialised in the respective domain: (1) biochemistry and metabolism, (2) ecophysiology, stress and adaptation, (3) uptake, transport and assimilation, (4) development, growth and differentiation, (5) photobiology and photosynthesis.
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