Expanding the gene pool for soybean improvement with its wild relatives

IF 4.6 4区 农林科学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Yongbin Zhuang, Xiaoming Li, Junmei Hu, Ran Xu, Dajian Zhang
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引用次数: 6

Abstract

Genetic diversity is a cornerstone of crop improvement, However, cultivated soybean (Glycine max) has undergone several genetic bottlenecks, including domestication in China, the introduction of landraces to other areas of the world and, latterly, selective breeding, leading to low genetic diversity the poses a major obstacle to soybean improvement. By contrast, there remains a relatively high level of genetic diversity in soybean’s wild relatives, especially the perennial soybeans (Glycine subgenus Glycine), which could serve as potential gene pools for improving soybean cultivars. Wild soybeans are phylogenetically diversified and adapted to various habitats, harboring resistance to various biotic and abiotic stresses. Advances in genome and transcriptome sequencing enable alleles associated with desirable traits that were lost during domestication of soybean to be discovered in wild soybean. The collection and conservation of soybean wild relatives and the dissection of their genomic features will accelerate soybean breeding and facilitate sustainable agriculture and food production.

Abstract Image

Abstract Image

扩大大豆及其野生亲缘改良的基因库
遗传多样性是作物改良的基石。然而,栽培大豆(Glycine max)经历了几个遗传瓶颈,包括在中国的驯化、将地方品种引入世界其他地区,以及最近的选择性育种,导致遗传多样性低,这是大豆改良的主要障碍。相比之下,大豆的野生亲缘关系,特别是多年生大豆(甘氨酸亚属甘氨酸),仍然具有相对较高的遗传多样性,这可能是改进大豆品种的潜在基因库。野生大豆在系统发育上是多样化的,适应各种生境,对各种生物和非生物胁迫具有抗性。基因组和转录组测序的进展使得在野生大豆中发现了与大豆驯化过程中丢失的理想性状相关的等位基因。大豆野生亲缘关系的收集和保护及其基因组特征的解剖将加速大豆育种,促进可持续农业和粮食生产。
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CiteScore
7.70
自引率
2.80%
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