期刊
PLANT JOURNAL
卷 81, 期 6, 页码 871-883出版社
WILEY
DOI: 10.1111/tpj.12773
关键词
Alfin1; plant homeodomain; Arabidopsis; abiotic stress; ChIP-Seq; transcriptional repressor
资金
- National Basic Research Program of China [2012CB114202, 2015CB755702]
- National Natural Science Foundation of China [91317306]
- National Transgenic Research Projects [2014ZX0800926B, 2015ZX08009-004, 2015ZX08009-003, 2015ZX08004-002-003]
- State Key Laboratory of Plant Genomics
Plant homeodomain (PHD) finger proteins affect processes of growth and development by changing transcription and reading epigenetic histone modifications, but their functions in abiotic stress responses remain largely unclear. Here we characterized seven Arabidopsis thaliana Alfin1-like PHD finger proteins (ALs) in terms of the responses to abiotic stresses. ALs localized to the nucleus and repressed transcription. Except AL6, all the ALs bound to G-rich elements. Mutations of the amino acids at positions 34 and 35 in AL6 caused loss of ability to bind to G-rich elements. Expression of the AL genes responded differentially to osmotic stress, salt, cold and abscisic acid treatments. AL5-over-expressing plants showed higher tolerance to salt, drought and freezing stress than Col-0. Consistently, al5 mutants showed reduced stress tolerance. We used ChIP-Seq assays to identify eight direct targets of AL5, and found that AL5 binds to the promoter regions of these genes. Knockout mutants of five of these target genes exhibited varying tolerances to stresses. These results indicate that AL5 inhibits multiple signaling pathways to confer stress tolerance. Our study sheds light on mechanisms of AL5-mediated signaling in abiotic stress responses, and provides tools for improvement of stress tolerance in crop plants. Significance Statement This paper reveals that transcription repressor AL5 (Alfin-like) confers abiotic stress tolerance through binding to the promoter and inhibiting expression of genes with stress-sensitive effects. Our study provides insights into improvement of stress tolerance in crops.
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