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SUB1A-1 anchors a regulatory cascade for epigenetic and transcriptional controls of submergence tolerance in rice
by
Lin, Ting-Jhen
, Shih, Ming-Che
, Ho, Meng-Chiao
, Zeng, Cyong-Yu
, Lee, Wan-Jia
, Lin, Choun-Sea
, Lin, Chih-Cheng
, Chou, Mei-Yi
in
Alleles
/ Amino acid substitution
/ Amino acids
/ Biological, Health, and Medical Sciences
/ Chromatin
/ Cultivars
/ Environmental aspects
/ Epigenetic inheritance
/ Epigenetics
/ Ethylene
/ Gene expression
/ Genetic aspects
/ Genetic regulation
/ Genetic transcription
/ Hardiness
/ Histone acetyltransferase
/ Histones
/ Phosphorylation
/ Physiological aspects
/ Plants
/ Rice
/ Serine
/ Submergence
2023
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SUB1A-1 anchors a regulatory cascade for epigenetic and transcriptional controls of submergence tolerance in rice
by
Lin, Ting-Jhen
, Shih, Ming-Che
, Ho, Meng-Chiao
, Zeng, Cyong-Yu
, Lee, Wan-Jia
, Lin, Choun-Sea
, Lin, Chih-Cheng
, Chou, Mei-Yi
in
Alleles
/ Amino acid substitution
/ Amino acids
/ Biological, Health, and Medical Sciences
/ Chromatin
/ Cultivars
/ Environmental aspects
/ Epigenetic inheritance
/ Epigenetics
/ Ethylene
/ Gene expression
/ Genetic aspects
/ Genetic regulation
/ Genetic transcription
/ Hardiness
/ Histone acetyltransferase
/ Histones
/ Phosphorylation
/ Physiological aspects
/ Plants
/ Rice
/ Serine
/ Submergence
2023
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SUB1A-1 anchors a regulatory cascade for epigenetic and transcriptional controls of submergence tolerance in rice
by
Lin, Ting-Jhen
, Shih, Ming-Che
, Ho, Meng-Chiao
, Zeng, Cyong-Yu
, Lee, Wan-Jia
, Lin, Choun-Sea
, Lin, Chih-Cheng
, Chou, Mei-Yi
in
Alleles
/ Amino acid substitution
/ Amino acids
/ Biological, Health, and Medical Sciences
/ Chromatin
/ Cultivars
/ Environmental aspects
/ Epigenetic inheritance
/ Epigenetics
/ Ethylene
/ Gene expression
/ Genetic aspects
/ Genetic regulation
/ Genetic transcription
/ Hardiness
/ Histone acetyltransferase
/ Histones
/ Phosphorylation
/ Physiological aspects
/ Plants
/ Rice
/ Serine
/ Submergence
2023
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SUB1A-1 anchors a regulatory cascade for epigenetic and transcriptional controls of submergence tolerance in rice
Journal Article
SUB1A-1 anchors a regulatory cascade for epigenetic and transcriptional controls of submergence tolerance in rice
2023
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Overview
Abstract
Most rice (Oryza sativa) cultivars cannot survive under prolonged submergence. However, some O. sativa ssp. indica cultivars, such as FR13A, are highly tolerant owing to the SUBMERGENCE 1A-1 (SUB1A-1) allele, which encodes a Group VII ethylene-responsive factor (ERFVII) protein; other submergence-intolerant cultivars contain a SUB1A-2 allele. The two alleles differ only by a single substitution at the 186th amino acid position from serine in SUB1A-1 to proline in SUB1A-2 resulting in only SUB1A-1 being able to be phosphorylated. Two other ERFVIIs, ERF66 and ERF67, function downstream of SUB1A-1 to form a regulatory cascade in response to submergence stress. Here, we show that SUB1A-1, but not SUB1A-2, interacts with ADA2b of the ADA2b-GCN5 acetyltransferase complex, in which GCN5 functions as a histone acetyltransferase. Phosphorylation of SUB1A-1 at serine 186 enhances the interaction of SUB1A-1 with ADA2b. ADA2b and GCN5 expression was induced under submergence, suggesting that these two genes might play roles in response to submergence stress. In transient assays, binding of SUB1A-1 to the ERF67 promoter and ERF67 transcription were highly induced when SUB1A-1 was expressed together with the ADA2b-GCN5 acetyltransferase complex. Taken together, these results suggest that phospho-SUB1A-1 recruits the ADA2-GCN5 acetyltransferase complex to modify the chromatin structure of the ERF66/ERF67 promoter regions and activate gene expression, which in turn enhances rice submergence tolerance.
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