Non-escaping frost tolerant QTL linked genetic loci at reproductive stage in six wheat DH populations

Article

Zhang, Jingjuan, Islam, Md Shahidul, Zhao, Yun, Anwar, Masood, Alhabbar, Zaid, She, Maoyun, Yang, Rongchang, Juhasz, Angela, Tang, Guixiang, Chen, Jiansheng, Liu, Hang, Jiang, Yanjie, Zhai, Shengnan, Hu, Xin, Rong, Junkang, Zhang, Yingquan, Qin, Yebo, Liu, Qier, Yu, Zitong, ..., Ma, Wujun. 2022. "Non-escaping frost tolerant QTL linked genetic loci at reproductive stage in six wheat DH populations." The Crop Journal. 10 (1), pp. 147-165. https://doi.org/10.1016/j.cj.2021.02.015
Article Title

Non-escaping frost tolerant QTL linked genetic loci at reproductive stage in six wheat DH populations

ERA Journal ID211422
Article CategoryArticle
AuthorsZhang, Jingjuan, Islam, Md Shahidul, Zhao, Yun, Anwar, Masood, Alhabbar, Zaid, She, Maoyun, Yang, Rongchang, Juhasz, Angela, Tang, Guixiang, Chen, Jiansheng, Liu, Hang, Jiang, Yanjie, Zhai, Shengnan, Hu, Xin, Rong, Junkang, Zhang, Yingquan, Qin, Yebo, Liu, Qier, Yu, Zitong, Zhang, Yujuan, Balotf, Sadegh, Dowla, Mirza, Afrin, Sonia, Roy, Nandita, Mallik, Md Resa, Saieed, Md Atik Us, Rahman, Shanjida, Sultana, Nigarin, Ahmed, Sarah Al-Sheikh, Florides, Chris, Chen, Kefei, Sharma, Darshan, Height, Nathan, Biddulph, Ben, Lu, Meiqin, Mayer, Jorge E. and Ma, Wujun
Journal TitleThe Crop Journal
Journal Citation10 (1), pp. 147-165
Number of Pages19
Year2022
PublisherElsevier
KeAi Publishing Communications Ltd.
Place of PublicationChina
ISSN2095-5421
2214-5141
Digital Object Identifier (DOI)https://doi.org/10.1016/j.cj.2021.02.015
Web Address (URL)https://www.sciencedirect.com/science/article/pii/S2214514121001033
Abstract

Reproductive stage frost poses a major constraint for wheat production in countries such as Australia. However, little progress has been made in identifying key genes to overcome the constraint. In the present study, a severe frost event hit two large-scale field trials consisting of six doubled haploid (DH) wheat populations at reproductive stage (young microspore stage) in Western Australia, leading to the identification of 30 robust frost QTL on 17 chromosomes. The major 18 QTL with the phenotype variation over 9.5% were located on 13 chromosomes including 2A, 2B, 2D, 3A, 4A, 4B, 4D, 5A, 5D, 6D, 7A, 7B and 7D. Most frost QTL were closely linked to the QTL of anthesis, maturity, Zadok stages as well as linked to anthesis related genes. Out of those, six QTL were repetitively detected on the homologous regions on 2B, 4B, 4D, 5A, 5D, 7A in more than two populations. Results showed that the frost damage is associated with alleles of Vrn-A1a, Vrn-D1a, Rht-B1b, Rht-D1b, and the high copy number of Ppd-B1. However, anthesis QTL and anthesis related genes of Vrn-B1a and TaFT3-1B on chromosomes 5B and 1B did not lead to frost damage, indicating that these early-flowering phenotype related genes are compatible with frost tolerance and thus can be utilised in breeding. Our results also indicate that wild-type alleles Rht-B1a and Rht-D1a can be used when breeding for frost-tolerant varieties without delaying flowering time.

KeywordsAnthesis-related genes; Wheat DH populations; Reproductive stage; Non-escaping frost tolerance; QTL
Article Publishing Charge (APC) FundingProject Funding
Contains Sensitive ContentDoes not contain sensitive content
ANZSRC Field of Research 20203001. Agricultural biotechnology
Byline AffiliationsMurdoch University
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