Rice phytochrome-interacting factor protein OsPIF14 represses OsDREB1B gene expression through an extended N-box and interacts preferentially with the active form of phytochrome B

DREB1/CBF genes, known as major regulators of plant stress responses, are rapidly and transiently induced by low temperatures. Using a yeast one-hybrid screening, we identified a putative Phytochrome-Interacting bHLH Factor (OsPIF14), as binding to the OsDREB1B promoter. bHLH proteins are able to bi...

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Published in:	Biochimica et biophysica acta Vol. 1859; no. 2; pp. 393 - 404
Main Authors:	Cordeiro, André M., Figueiredo, Duarte D., Tepperman, James, Borba, Ana Rita, Lourenço, Tiago, Abreu, Isabel A., Ouwerkerk, Pieter B.F., Quail, Peter H., Margarida Oliveira, M., Saibo, Nelson J.M.
Format:	Journal Article
Language:	English
Published:	Netherlands Elsevier B.V 01-02-2016
Subjects:	Alternative splicing Amino Acid Sequence - genetics Arabidopsis Arabidopsis Proteins - genetics Arabidopsis Proteins - metabolism Cold stress Cold Temperature DNA-Binding Proteins - genetics Droughts Gene Expression Regulation, Plant Light regulation Oryza - genetics Oryza - physiology OsDREB1B Phytochrome B - genetics Phytochrome B - metabolism Plant Proteins - genetics Plants, Genetically Modified Promoter Regions, Genetic Protein–DNA interaction Rice phytochrome-interacting factor 14 (OsPIF14) Stress, Physiological - genetics Transcription Factors - genetics Transcription Factors - metabolism Alternative splicing Light regulation Cold stress OsDREB1B Protein–DNA interaction Rice phytochrome-interacting factor 14 (OsPIF14)
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Summary:	DREB1/CBF genes, known as major regulators of plant stress responses, are rapidly and transiently induced by low temperatures. Using a yeast one-hybrid screening, we identified a putative Phytochrome-Interacting bHLH Factor (OsPIF14), as binding to the OsDREB1B promoter. bHLH proteins are able to bind to hexameric E-box (CANNTG) or N-box (CACG(A/C)G) motifs, depending on transcriptional activity. We have shown that OsPIF14 binds to the OsDREB1B promoter through two N-boxes and that the flanking regions of the hexameric core are essential for protein–DNA interaction and stability. We also showed that OsPIF14 down-regulates OsDREB1B gene expression in rice protoplasts, corroborating the OsPIF14 repressor activity observed in the transactivation assays using Arabidopsis protoplasts. In addition, we showed that OsPIF14 is indeed a phytochrome interacting factor, which preferentially binds to the active form (Pfr) of rice phytochrome B. This raises the possibility that OsPIF14 activity might be modulated by light. However, we did not observe any regulation of the OsDREB1B gene expression by light under control conditions. Moreover, OsPIF14 gene expression was shown to be modulated by different treatments, such as drought, salt, cold and ABA. Interestingly, OsPIF14 showed also a specific cold-induced alternative splicing. All together, these results suggest the possibility that OsPIF14 is involved in cross-talk between light and stress signaling through interaction with the OsDREB1B promoter. Although in the absence of stress, OsDREB1B gene expression was not regulated by light, given previous reports, it remains possible that OsPIF14 has a role in light modulation of stress responses. •OsPIF14 binds to the OsDREB1B promoter through an extended N-box.•OsPIF14 acts as a repressor of OsDREB1B gene expression•OsPIF14 interacts preferentially with the active form of phytochrome B•OsPIF14 gene expression is modulated by different abiotic stresses, particularly by low temperature•OsPIF14 is possibly involved in the cross-talk between light and stress signaling to modulate OsDREB1B gene expression
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
ISSN:	1874-9399 0006-3002 1876-4320
DOI:	10.1016/j.bbagrm.2015.12.008