<i>FvWRKY50</i> is an important gene that regulates both vegetative growth and reproductive growth in strawberry-Reference-Cited by-同舟云学术

FvWRKY50 is an important gene that regulates both vegetative growth and reproductive growth in strawberry

Published:2023-05-31 Issue:7 Volume:10 Page:
ISSN:2052-7276
Container-title:Horticulture Research
language:en
Short-container-title:

Author:

Chen Yating¹,Liu Liping¹,Feng Qianqian¹,Liu Chuang¹,Bao Yujuan¹,Zhang Nan¹,Sun Ronghui¹,Yin Zhaonan¹,Zhong Chuanfei²,Wang Yuanhua³⁴,Li Qian¹,Li Bingbing¹

Affiliation:

1. China Agricultural University Department of Pomology, College of Horticulture, , Beijing, 10093, China

2. Beijing Academy of Agriculture and Forestry Sciences Beijing Engineering Research Center for Strawberry, Institute of Forestry and Pomology, , Beijing, 100093, China

3. Jiangsu Vocational College of Agriculture and Forestry Department of Agronomy and Horticulture, , Jiangsu, 212400, China

4. Engineering and Technical Center for Modern Horticulture , Jiangsu, 212400, China

Abstract

Abstract The WRKY transcription factors play important roles in plant growth and resistance, but only a few members have been identified in strawberry. Here we identified a WRKY transcription factor, FvWRKY50, in diploid strawberry which played essential roles in strawberry vegetative growth, and reproductive growth. Knocking out FvWRKY50 by genome editing accelerated flowering time and leaf senescence but delayed anthocyanin accumulation in fruit. Further analysis showed that FvWRKY50 acted as a transcriptional repressor to negatively regulate the expression of flowering- and leaf senescence-related genes, including FvFT2, FvCO, FvFT3, and FvSAUR36. Notably, FvWRKY50 directly upregulated the expression of FvCHI and FvDFR by binding their promoter under normal conditions, but at low temperature FvWRKY50 was phosphorylated by FvMAPK3 and then induced protein degradation by ubiquitination, delaying anthocyanin accumulation. In addition, the homozygous mutant of FvWRKY50 was smaller while the biallelic mutant showed normal size. These new findings provide important clues for us to further reveal the regulatory mechanisms of strawberry growth and fruit ripening

Publisher

Oxford University Press (OUP)

Subject

Horticulture,Plant Science,Genetics,Biochemistry,Biotechnology

Link

https://academic.oup.com/hr/advance-article-pdf/doi/10.1093/hr/uhad115/50497286/uhad115.pdf

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