| Literature DB >> 35937537 |
Reika Hasegawa1, Tomoki Arakawa1, Kenjiro Fujita2, Yuichiro Tanaka2, Zen Ookawa3, Shingo Sakamoto3, Hironori Takasaki1, Miho Ikeda1, Ayumi Yamagami4, Nobutaka Mitsuda3, Takeshi Nakano4, Masaru Ohme-Takagi1,5.
Abstract
Brassinosteroid (BR) is a phytohormone that acts as important regulator of plant growth. To identify novel transcription factors that may be involved in unknown mechanisms of BR signaling, we screened the chimeric repressor expressing plants (CRES-T), in which transcription factors were converted into chimeric repressors by the fusion of SRDX plant-specific repression domain, to identify those that affect the expression of BR inducible genes. Here, we identified a homeobox-leucine zipper type transcription factor, BRASSINOSTEROID-RELATED-HOMEOBOX 3 (BHB3), of which a chimeric repressor expressing plants (BHB3-sx) significantly downregulated the expression of BAS1 and SAUR-AC1 that are BR inducible genes. Interestingly, ectopic expression of BHB3 (BHB3-ox) also repressed the BR inducible genes and shorten hypocotyl that would be similar to a BR-deficient phenotype. Interestingly, both BHB3-sx and BHB3-ox showed pale green phenotype, in which the expression of genes related photosynthesis and chlorophyll contents were significantly decreased. We found that BHB3 contains three motifs similar to the conserved EAR-repression domain, suggesting that BHB3 may act as a transcriptional repressor. These results indicate that BHB3 might play an important role not only to the BR signaling but also the regulation of greenings.Entities:
Keywords: brassinosteroid; chimeric repressor gene silencing technology; leaf greenness; phytohormone; transcriptional regulation
Year: 2022 PMID: 35937537 PMCID: PMC9300418 DOI: 10.5511/plantbiotechnology.22.0128a
Source DB: PubMed Journal: Plant Biotechnol (Tokyo) ISSN: 1342-4580 Impact factor: 1.308