Transcriptional regulation of the paper mulberry under cold stress as revealed by a comprehensive analysis of transcription factors

doi:10.1186/s12870-015-0489-2

CORC > 植物研究所 > 中国科学院植物研究所 > 中科院北方资源植物重点实验室

	Transcriptional regulation of the paper mulberry under cold stress as revealed by a comprehensive analysis of transcription factors
	Peng, Xianjun ; Wu, Qingqing 2; Teng, Linhong ; Tang, Feng ; Pi, Zhi ; Shen, Shihua
刊名	BMC PLANT BIOLOGY
	2015
卷号	15
关键词	Cold stress Plant development Signaling crosstalk Transcription factor
ISSN号	1471-2229
DOI	10.1186/s12870-015-0489-2
文献子类	Article
英文摘要	Background: Several studies have focused on cold tolerance in multiple regulated levels. However, a genome-scale molecular analysis of the regulated network under the control of transcription factors (TFs) is still lacking, especially for trees. To comprehensively identify the TFs that regulate cold stress response in the paper mulberry and understand their regulatory interactions, transcriptomic data was used to assess changes in gene expression induced by exposure to cold. Results: Results indicated that 794 TFs, belonging to 47 families and comprising more than 59% of the total TFs of this plant, were involved in the cold stress response. They were clustered into three groups, namely early, intermediate and late responsive groups which contained 95, 550 and 149 TFs, respectively. Among of these differentially expressed TFs, one bHLH, two ERFs and three CAMTAs were considered to be the key TFs functioning in the primary signal transduction. After that, at the intermediate stage of cold stress, there were mainly two biological processes that were regulated by TFs, namely cold stress resistance (including 5 bHLH, 14 ERFs, one HSF, 4 MYBs, 3 NACs, 11 WRKYs and so on) and growth and development of lateral organ or apical meristem (including ARR-B, B3, 5 bHLHs, 2 C2H2, 4 CO-like, 2 ERF, 3 HD-ZIP, 3 YABBYs, G2-like, GATA, GRAS and TCP). In late responsive group, 3 ARR-B, C3H, 6 CO-like, 2 G2-like, 2 HSFs, 2 NACs and TCP. Most of them presented the up-regulated expression at 12 or 24 hours after cold stress implied their important roles for the new growth homeostasis under cold stress. Conclusions: Our study identified the key TFs that function in the regulatory cascades mediating the activation of downstream genes during cold tress tolerance in the paper mulberry. Based on the analysis, we found that the AP2/ERF, bHLH, MYB, NAC and WRKY families might play the central and significant roles during cold stress response in the paper mulberry just as in other species. Meanwhile, many other TF families previously reported as involving in regulation of growth and development, including ARF, DBB, G2-like, GRF, GRAS, LBD, WOX and YAABY exhibited their important potential function in growth regulation under cold stress.
学科主题	Plant Sciences
出版地	LONDON
WOS关键词	GENE-EXPRESSION ; SALT TOLERANCE ; BROUSSONETIA-PAPYRIFERA ; FACTOR SUPERFAMILY ; CBF GENES ; ARABIDOPSIS ; PLANT ; FAMILY ; RICE ; DROUGHT
WOS研究方向	Science Citation Index Expanded (SCI-EXPANDED)
语种	英语
出版者	BMC
WOS记录号	WOS:000354426700001
资助机构	National Natural Science Foundation of China [31270653] ; Beijing Municipal Science and Technology Project, Science and Technology Service Network Initiative (STS) [KFJ-EW-STS-061-5]
内容类型	期刊论文
源URL	[http://ir.ibcas.ac.cn/handle/2S10CLM1/25949]
专题	中科院北方资源植物重点实验室
作者单位	1.Univ Chinese Acad Sci, Beijing, Peoples R China 2.Chinese Acad Sci, Inst Bot, Key Lab Plant Resources, Beijing 100093, Peoples R China
推荐引用方式 GB/T 7714	Peng, Xianjun,Wu, Qingqing,Teng, Linhong,et al. Transcriptional regulation of the paper mulberry under cold stress as revealed by a comprehensive analysis of transcription factors[J]. BMC PLANT BIOLOGY,2015,15.
APA	Peng, Xianjun,Wu, Qingqing,Teng, Linhong,Tang, Feng,Pi, Zhi,&Shen, Shihua.(2015).Transcriptional regulation of the paper mulberry under cold stress as revealed by a comprehensive analysis of transcription factors.BMC PLANT BIOLOGY,15.
MLA	Peng, Xianjun,et al."Transcriptional regulation of the paper mulberry under cold stress as revealed by a comprehensive analysis of transcription factors".BMC PLANT BIOLOGY 15(2015).