Identification and functional validation of a new gene conferring resistance to Soybean Mosaic Virus strains SC4 and SC20 in soybean.

IF 4.1 2区生物学 Q1 PLANT SCIENCES Frontiers in Plant Science Pub Date : 2025-01-27 eCollection Date: 2024-01-01 DOI:10.3389/fpls.2024.1518829

Muhammad Muzzafar Raza, Huiying Jia, Muhammad Khuram Razzaq, Bowen Li, Kai Li, Junyi Gai

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Abstract

Soybean Mosaic Virus (SMV) poses a serious threat to soybean production, often resulting in considerable yield losses or complete crop failure, particularly if infection occurs during early growth stages. While several SMV resistance genes have been identified, the genetic basis of resistance to certain strains remains poorly understood. Among the 22 SMV strains, SC4 and SC20 are considered pathogenic in Central China. Dominant genes resistant to SC4 (Rsc4) on Chr.14 in Dabaima and to SC20 (Rsc20) on Chr.13 in Qihuang-1 have been identified. Kefeng-1 is resistant to SC4 and SC20. This study aimed to determine whether the resistance to SC4 and SC20 in Kefeng-1 was identical and whether Rsc4 and Rsc20 in Dabaima and Qihuang-1 are also present in Kefeng-1 due to translocation. Mendelian experiments using F₁, F_2, and recombinant inbred lines (RIL_3:8) of Kefeng-1 (resistant) and NN1138-2 (susceptible) indicated a single dominant gene inheritance pattern in SC4 and SC20, respectively. Linkage mapping showed two loci for SC4 and SC20 in neighboring single nucleotide polymorphism linkage disequilibrium blocks (SNPLDB) marker regions of 253 kb and 375 kb, respectively, in Kefeng-1. Association between SNPs in possible gene regions of Kefeng-1 and resistance data showed SNP11692903 jointly as the most significant SNP, exhibiting the highest χ² value. By comparing SNP11692903 to possible gene sequences in the coding region, Glyma02g13380 was identified as a joint candidate gene. The results were validated using qRT-PCR, virus induced gene silencing (VIGS), and gene-sequence. Therefore, the two Mendelian genes on chromosome 2 in Kefeng-1 responsible for SC4 and SC20 resistance are unique genes, different from Rsc4 in Dabaima and Rsc20 in Qihuang-1. Hence, one gene is involved in resistance toward two SMV strains resistance. This result challenged our previous hypothesis of a single dominant gene responsible for resistance against a single strain and underscored the potential for using multiple resistance sources aimed at enhancing SMV resistance in breeding practices.

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大豆抗大豆花叶病毒SC4和SC20新基因的鉴定及功能验证

大豆花叶病毒（SMV）对大豆生产构成严重威胁，往往造成相当大的产量损失或作物完全歉收，特别是如果感染发生在生长早期。虽然已经确定了几种SMV抗性基因，但对某些菌株抗性的遗传基础仍然知之甚少。在22株SMV毒株中，SC4和SC20被认为在华中地区具有致病性。大白马chr14上的SC4抗性显性基因（Rsc4）和祁黄-1 chr13上的SC20抗性显性基因（Rsc20）已被鉴定。可风-1对SC4和SC20具有抗性。本研究旨在确定科风1号对SC4和SC20的抗性是否相同，以及大白马和祁黄1号中的Rsc4和Rsc20是否也因易位而存在于科风1号中。孟德尔实验显示，抗性品种“可风”1号和易感品种“NN1138-2”的F1、F2和重组自交系（RIL3:8）在SC4和SC20上分别呈现单显性遗传模式。连锁图谱显示，在相邻的单核苷酸多态性连锁不平衡块（SNPLDB）标记区域中，SC4和SC20分别有2个位点，分别为253 kb和375 kb。可风1号可能基因区域SNP与耐药数据的关联显示，SNP11692903共同为最显著SNP， χ2值最高。通过将SNP11692903与编码区可能的基因序列进行比较，确定Glyma02g13380为联合候选基因。结果通过qRT-PCR、病毒诱导基因沉默（VIGS）和基因序列验证。因此，可丰1号染色体2号上的两个孟德尔基因与大白马的Rsc4和祁黄1号的Rsc20抗性不同，是独特的基因。因此，一个基因参与了对两种SMV菌株的抗性。这一结果挑战了我们之前的假设，即单一显性基因负责对单一菌株的抗性，并强调了在育种实践中利用多种抗性来源以增强SMV抗性的潜力。

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来源期刊

Frontiers in Plant Science PLANT SCIENCES-

CiteScore

7.30

自引率

14.30%

发文量

4844

审稿时长

14 weeks

期刊介绍： In an ever changing world, plant science is of the utmost importance for securing the future well-being of humankind. Plants provide oxygen, food, feed, fibers, and building materials. In addition, they are a diverse source of industrial and pharmaceutical chemicals. Plants are centrally important to the health of ecosystems, and their understanding is critical for learning how to manage and maintain a sustainable biosphere. Plant science is extremely interdisciplinary, reaching from agricultural science to paleobotany, and molecular physiology to ecology. It uses the latest developments in computer science, optics, molecular biology and genomics to address challenges in model systems, agricultural crops, and ecosystems. Plant science research inquires into the form, function, development, diversity, reproduction, evolution and uses of both higher and lower plants and their interactions with other organisms throughout the biosphere. Frontiers in Plant Science welcomes outstanding contributions in any field of plant science from basic to applied research, from organismal to molecular studies, from single plant analysis to studies of populations and whole ecosystems, and from molecular to biophysical to computational approaches. Frontiers in Plant Science publishes articles on the most outstanding discoveries across a wide research spectrum of Plant Science. The mission of Frontiers in Plant Science is to bring all relevant Plant Science areas together on a single platform.