Accelerated development of MTL and DMP gene-based subtropically-adapted maternal haploid inducer lines in maize using molecular breeding.

IF 3.8 3区生物学 Q1 PLANT SCIENCES

Planta Pub Date : 2025-08-25 DOI:10.1007/s00425-025-04789-9

Nisrita Gain, Vignesh Muthusamy, Rashmi Chhabra, Amitkumar D Kyada, Suman Dutta, Gulab Chand, Ravindra K Kasana, Konsam Sarika, Elangbam L Devi, Jayanthi Madhavan, Rajkumar Subramani, Rajkumar U Zunjare, Aruna Kumar, Devendra K Yadava, Firoz Hossain

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引用次数: 0

Abstract

Doubled haploid (DH) technology has accelerated the development of inbreds in maize. Worldwide, breeding efforts have led to the development of diverse maternal haploid inducer (HI) lines adapted to temperate and tropical conditions. So far, no HI line adapted to subtropical conditions has been developed. Here, we crossed a temperate HI line used as a donor with a set of subtropical inbreds. The wild-type alleles of Matrilineal (MTL) and Domain membrane protein (DMP) genes were present among subtropically-adapted inbreds. While, the donor HI line possessed mutant mtl and dmp genes governing in vivo haploid induction in maize. Eight F₂ populations were genotyped for MTL and DMP genes using gene-based markers, MTL_4InDel and DMP_SNP_TC, respectively. Severe segregation-distortion (SD) was observed for both mtl and dmp genes. Significant effect of 'inducer-type', 'environments', 'source of haploids', and 'inducer-type × source of haploids' was observed for haploid induction rate (HIR). HIR among mtlmtl-based inducers was 3.61%, while the same for dmpdmp was 0.52%. Significantly higher HIR (8.88%) was observed for mtlmtl/dmpdmp-based HI lines. Pusa-HI-MD5 and Pusa-HI-MD6 were the most promising HI lines with HIR of 10.61 and 11.11%, respectively. Among source-germplasm, 'Pusa Vivek QPM9 Improved' produced more haploids (5.38%) over 'Pusa HM8 Improved' (4.40%). Further, HIR was more during rainy season (HIR: 5.16%) over spring season (HIR: 4.62%). The newly developed HI lines possessed superior-agronomic traits over temperate donor. This is the first report of development of HI lines adapted to subtropical conditions.

查看原文本刊更多论文

利用分子育种加速培育MTL和DMP基因为基础的玉米亚热带适应母系单倍体诱导系。

双单倍体技术加速了玉米近交系的发展。在世界范围内，育种努力已经导致了适应温带和热带条件的多种母体单倍体诱导剂（HI）系的发展。到目前为止，还没有开发出适合亚热带条件的HI线。在这里，我们将一个温带HI系作为供体与一组亚热带近交系杂交。在亚热带适应性自交系中，存在母系（MTL）基因和域膜蛋白（DMP）基因的野生型等位基因。而供体HI系具有控制玉米体内单倍体诱导的mtl和dmp基因突变体。利用基因标记MTL_4InDel和DMP_SNP_TC分别对8个F2群体进行MTL和DMP基因分型。mtl和dmp基因均存在严重的分离畸变（SD）。‘诱导剂型’、‘环境’、‘单倍体来源’和‘诱导剂型×单倍体来源’对单倍体诱导率（HIR）有显著影响。mtlmtl诱导剂的HIR为3.61%，dmpdmp诱导剂的HIR为0.52%。以mtmtl /dmpdmp为基础的HI系的HIR显著提高（8.88%）。Pusa-HI-MD5和Pusa-HI-MD6是最有希望的HI系，HIR分别为10.61和11.11%。在源种质中，“Pusa Vivek QPM9改良”单倍体产量（5.38%）高于“Pusa HM8改良”（4.40%）。雨季HIR（5.16%）高于春季HIR（4.62%）。新开发的HI系在农艺性状上优于温带供体。这是发展适应亚热带条件的HI系的第一份报告。

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来源期刊

Planta 生物-植物科学

CiteScore

7.20

自引率

2.30%

发文量

217

审稿时长

2.3 months

期刊介绍： Planta publishes timely and substantial articles on all aspects of plant biology. We welcome original research papers on any plant species. Areas of interest include biochemistry, bioenergy, biotechnology, cell biology, development, ecological and environmental physiology, growth, metabolism, morphogenesis, molecular biology, new methods, physiology, plant-microbe interactions, structural biology, and systems biology.