利用Meta-QTL分析鉴定的用于提高鹰嘴豆耐热性的高置信度QTL和关键基因。

High confidence QTLs and key genes identified using Meta-QTL analysis for enhancing heat tolerance in chickpea ( L.).

作者信息

Kumar Raj, Sharma Vinay Kumar, Rangari Sagar Krushnaji, Jha Uday Chand, Sahu Aakash, Paul Pronob J, Gupta Shreshth, Gangurde Sunil S, Kudapa Himabindu, Mir Reyazul Rouf, Gaur Pooran M, Varshney Rajeev K, Elango Dinakaran, Thudi Mahendar

机构信息

Department of Agricultural Biotechnology and Molecular Biology, Dr. Rajendra Prasad Central Agricultural University (RPCAU), Pusa, Bihar, India.

Research Program-Accelerated Crop Improvement, International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), Patancheru, Telangana, India.

出版信息

Front Plant Sci. 2023 Oct 20;14:1274759. doi: 10.3389/fpls.2023.1274759. eCollection 2023.

DOI:10.3389/fpls.2023.1274759

PMID:37929162

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10623133/

Abstract

The rising global temperatures seriously threaten sustainable crop production, particularly the productivity and production of heat-sensitive crops like chickpeas. Multiple QTLs have been identified to enhance the heat stress tolerance in chickpeas, but their successful use in breeding programs remains limited. Towards this direction, we constructed a high-density genetic map spanning 2233.5 cM with 1069 markers. Using 138 QTLs reported earlier, we identified six Meta-QTL regions for heat tolerance whose confidence interval was reduced by 2.7-folds compared to the reported QTLs. Meta-QTLs identified on CaLG01 and CaLG06 harbor QTLs for important traits, including days to 50% flowering, days to maturity, days to flower initiation, days to pod initiation, number of filled pods, visual score, seed yield per plant, biological yield per plant, chlorophyll content, and harvest index. In addition, key genes identified in Meta-QTL regions like , and play an important role in regulating the flowering time, pollen germination, and growth. The consensus genomic regions, and the key genes reported in this study can be used in genomics-assisted breeding for enhancing heat tolerance and developing heat-resilient chickpea cultivars.

摘要

全球气温上升严重威胁着作物的可持续生产，尤其是对像鹰嘴豆这样的热敏作物的生产力和产量。已鉴定出多个数量性状基因座（QTL）来提高鹰嘴豆的热胁迫耐受性，但它们在育种计划中的成功应用仍然有限。朝着这个方向，我们构建了一个包含1069个标记、跨度为2233.5厘摩（cM）的高密度遗传图谱。利用先前报道的138个QTL，我们鉴定出六个耐热性的元QTL区域，其置信区间与报道的QTL相比缩小了2.7倍。在CaLG01和CaLG06上鉴定出的元QTL包含重要性状的QTL，包括50%开花天数、成熟天数、始花天数、始荚天数、饱满荚数、视觉评分、单株种子产量、单株生物产量、叶绿素含量和收获指数。此外，在元QTL区域中鉴定出的关键基因，如、和，在调节开花时间、花粉萌发和生长方面发挥着重要作用。本研究报道的共有的基因组区域和关键基因可用于基因组辅助育种，以提高耐热性并培育抗热鹰嘴豆品种。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1ebf/10623133/2a69ece3d3e7/fpls-14-1274759-g001.jpg

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利用Meta-QTL分析鉴定的用于提高鹰嘴豆耐热性的高置信度QTL和关键基因。

High confidence QTLs and key genes identified using Meta-QTL analysis for enhancing heat tolerance in chickpea ( L.).

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