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Identification and analysis of a differentially expressed wheat RING-type E3 ligase in spike primordia development during post-vernalization

Authors
Kim, Jae HoKhan, Irfan UllahLee, Cheol WonKim, Dae YeonJang, Cheol SeongLim, Sung DonPark, Yong ChanKim, Ju HeeSeo, Yong Weon
Issue Date
3월-2021
Publisher
SPRINGER
Keywords
Wheat (triticum aestivum); RING-type E3 ligase; Vernalization; Primordia development; Waddington scale
Citation
PLANT CELL REPORTS, v.40, no.3, pp.543 - 558
Indexed
SCIE
SCOPUS
Journal Title
PLANT CELL REPORTS
Volume
40
Number
3
Start Page
543
End Page
558
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/49506
DOI
10.1007/s00299-020-02651-8
ISSN
0721-7714
Abstract
Key message We identified a RING-type E3 ligase (TaBAH1) protein in winter wheat that targets TaSAHH1 for degradation and might be involved in primordia development by regulating targeted protein degradation. Grain yield per spike in wheat (Triticum aestivum), is mainly determined prior to flowering during mature primordia development; however, the genes involved in primordia development have yet to be characterized. In this study, we demonstrated that, after vernalization for 50 days at 4 degrees C, there was a rapid acceleration in primordia development to the mature stages in the winter wheat cultivars Keumgang and Yeongkwang compared with the Chinese Spring cultivar. Although Yeongkwang flowers later than Keumgang under normal condition, it has the same heading time and reaches the WS9 stage of floral development after vernalization for 50 days. Using RNA sequencing, we identified candidate genes associated with primordia development in cvs. Keumgang and Yeongkwang, that are differentially expressed during wheat reproductive stages. Among these, the RING-type E3 ligase TaBAH1 (TraesCS5B01G373000) was transcriptionally upregulated between the double-ridge (WS2.5) stage and later stages of floret primordia development (WS10) after vernalization. Transient expression analysis indicated that TaBAH1 was localized to the plasma membrane and nucleus and was characterized by self-ubiquitination activity. Furthermore, we found that TaBAH1 interacts with TaSAHH1 to mediate its polyubiquitination and degradation through a 26S proteasomal pathway. Collectively, the findings of this study indicate that TaBAH1 might play a prominent role in post-vernalization floret primordia development.
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