Literature DB >> 24874231

LlHSFA1, a novel heat stress transcription factor in lily (Lilium longiflorum), can interact with LlHSFA2 and enhance the thermotolerance of transgenic Arabidopsis thaliana.

Benhe Gong1, Jin Yi, Jian Wu, Juanjuan Sui, Muhammad Ali Khan, Ze Wu, Xionghui Zhong, Shanshan Seng, Junna He, Mingfang Yi.   

Abstract

KEY MESSAGE: A heat stress transcription factor LlHSFA1 in lily and its relationship with LlHSFA2 was investigated, and its function in enhancing thermotolerance was confirmed by analyzing transgenic Arabidopsis thaliana overexpressed LlHSFA1. A large family of heat stress transcription factors that are involved in the heat stress response in plants can induce the expression of multiple genes related to thermotolerance including heat-shock proteins. In this study, a novel class A1 HSF named LlHSFA1 was isolated from leaves of lily (Lilium longiflorum cv. 'White Heaven') using the rapid amplification of cDNA ends technique. Analysis of the deduced amino acid sequence and construction of a phylogenetic tree showed that LlHSFA1 contained five critical domains and motifs and belonged to the A1 family of HSFs. Following the heat treatment of lily leaves, transcription of LlHSFA1 was induced to a varying extent, related to the time of measurement. The induced expression peak of LlHSFA1 occurred prior to that of LlHSFA2, during the early phase of heat stress. Following transient expression of LlHSFA1 in Nicotiana benthamiana, LlHSFA1 was found to be localized in both the nucleus and the cytoplasm. Analysis using bimolecular fluorescence complementation and a yeast two-hybrid assay demonstrated that LlHSFA1 could interact with LlHSFA2. Use of a yeast one-hybrid assay confirmed that LlHSFA1 had transcriptional activation activity. In transgenic Arabidopsis lines overexpressing LlHSFA1 under unstressed conditions, the expression of some putative target genes was up-regulated, in comparison with expression in wild-type plants, and furthermore, the thermotolerance of the transgenic lines was enhanced. Overall, LlHSFA1 was demonstrated to play an important role in the heat stress response of lily and to be a novel candidate gene for application in lily breeding, using genetic modification approaches.

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Year:  2014        PMID: 24874231     DOI: 10.1007/s00299-014-1635-2

Source DB:  PubMed          Journal:  Plant Cell Rep        ISSN: 0721-7714            Impact factor:   4.570


  54 in total

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Authors:  H Batoko; H Q Zheng; C Hawes; I Moore
Journal:  Plant Cell       Date:  2000-11       Impact factor: 11.277

2.  Cloning and characterization of HsfA2 from Lily (Lilium longiflorum).

Authors:  Haibo Xin; Hua Zhang; Li Chen; Xiaoxin Li; Qinglong Lian; Xue Yuan; Xiaoyan Hu; Li Cao; Xiuli He; Mingfang Yi
Journal:  Plant Cell Rep       Date:  2010-05-25       Impact factor: 4.570

3.  Core genome responses involved in acclimation to high temperature.

Authors:  Jane Larkindale; Elizabeth Vierling
Journal:  Plant Physiol       Date:  2007-11-30       Impact factor: 8.340

4.  A cascade of transcription factor DREB2A and heat stress transcription factor HsfA3 regulates the heat stress response of Arabidopsis.

Authors:  Franziska Schramm; Jane Larkindale; Elke Kiehlmann; Arnab Ganguli; Gisela Englich; Elizabeth Vierling; Pascal von Koskull-Döring
Journal:  Plant J       Date:  2007-11-12       Impact factor: 6.417

Review 5.  Two-hybrid technologies in proteomics research.

Authors:  Bernhard Suter; Saranya Kittanakom; Igor Stagljar
Journal:  Curr Opin Biotechnol       Date:  2008-07-23       Impact factor: 9.740

6.  Intracellular distribution and identification of the nuclear localization signals of two plant heat-stress transcription factors.

Authors:  R Lyck; U Harmening; I Höhfeld; E Treuter; K D Scharf; L Nover
Journal:  Planta       Date:  1997       Impact factor: 4.116

7.  Heat shock factors in rice (Oryza sativa L.): genome-wide expression analysis during reproductive development and abiotic stress.

Authors:  Harsh Chauhan; Neetika Khurana; Pinky Agarwal; Paramjit Khurana
Journal:  Mol Genet Genomics       Date:  2011-07-21       Impact factor: 3.291

8.  Ectopic over-expression of BhHsf1, a heat shock factor from the resurrection plant Boea hygrometrica, leads to increased thermotolerance and retarded growth in transgenic Arabidopsis and tobacco.

Authors:  Yan Zhu; Zhi Wang; Yanjun Jing; Lili Wang; Xia Liu; Yongxiu Liu; Xin Deng
Journal:  Plant Mol Biol       Date:  2009-08-23       Impact factor: 4.076

9.  MAPMAN: a user-driven tool to display genomics data sets onto diagrams of metabolic pathways and other biological processes.

Authors:  Oliver Thimm; Oliver Bläsing; Yves Gibon; Axel Nagel; Svenja Meyer; Peter Krüger; Joachim Selbig; Lukas A Müller; Seung Y Rhee; Mark Stitt
Journal:  Plant J       Date:  2004-03       Impact factor: 6.417

10.  A seed preferential heat shock transcription factor from wheat provides abiotic stress tolerance and yield enhancement in transgenic Arabidopsis under heat stress environment.

Authors:  Harsh Chauhan; Neetika Khurana; Preeti Agarwal; Jitendra P Khurana; Paramjit Khurana
Journal:  PLoS One       Date:  2013-11-12       Impact factor: 3.240
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  19 in total

1.  PuHSFA4a Enhances Tolerance To Excess Zinc by Regulating Reactive Oxygen Species Production and Root Development in Populus.

Authors:  Haizhen Zhang; Jingli Yang; Wenlong Li; Yingxi Chen; Han Lu; Shicheng Zhao; Dandan Li; Ming Wei; Chenghao Li
Journal:  Plant Physiol       Date:  2019-06-20       Impact factor: 8.340

2.  Heat shock factors in carrot: genome-wide identification, classification, and expression profiles response to abiotic stress.

Authors:  Ying Huang; Meng-Yao Li; Feng Wang; Zhi-Sheng Xu; Wei Huang; Guang-Long Wang; Jing Ma; Ai-Sheng Xiong
Journal:  Mol Biol Rep       Date:  2014-11-19       Impact factor: 2.316

3.  Alternative Splicing Provides a Mechanism to Regulate LlHSFA3 Function in Response to Heat Stress in Lily.

Authors:  Ze Wu; Jiahui Liang; Chengpeng Wang; Liping Ding; Xin Zhao; Xing Cao; Sujuan Xu; Nianjun Teng; Mingfang Yi
Journal:  Plant Physiol       Date:  2019-10-14       Impact factor: 8.340

4.  Transcriptional and metabolite analysis reveal a shift in fruit quality in response to calcium chloride treatment on "Kyoho" grapevine.

Authors:  Weihong Fu; Mengwei Zhang; Peian Zhang; Zhongjie Liu; Tianyu Dong; Saihang Zhang; Yanhua Ren; Haifeng Jia; Jinggui Fang
Journal:  J Food Sci Technol       Date:  2020-08-19       Impact factor: 3.117

Review 5.  The Plant Heat Stress Transcription Factors (HSFs): Structure, Regulation, and Function in Response to Abiotic Stresses.

Authors:  Meng Guo; Jin-Hong Liu; Xiao Ma; De-Xu Luo; Zhen-Hui Gong; Ming-Hui Lu
Journal:  Front Plant Sci       Date:  2016-02-09       Impact factor: 5.753

6.  A Canonical DREB2-Type Transcription Factor in Lily Is Post-translationally Regulated and Mediates Heat Stress Response.

Authors:  Ze Wu; Jiahui Liang; Shuai Zhang; Bing Zhang; Qingcui Zhao; Guoqing Li; Xi Yang; Chengpeng Wang; Junna He; Mingfang Yi
Journal:  Front Plant Sci       Date:  2018-03-08       Impact factor: 5.753

7.  Chrysanthemum CmHSFA4 gene positively regulates salt stress tolerance in transgenic chrysanthemum.

Authors:  Fei Li; Huanru Zhang; Husheng Zhao; Tianwei Gao; Aiping Song; Jiafu Jiang; Fadi Chen; Sumei Chen
Journal:  Plant Biotechnol J       Date:  2018-01-22       Impact factor: 9.803

8.  Analysis of Pollen Allergens in Lily by Transcriptome and Proteome Data.

Authors:  Jingxian Feng; Ze Wu; Xueqian Wang; Yaming Zhang; Nianjun Teng
Journal:  Int J Mol Sci       Date:  2019-11-24       Impact factor: 5.923

9.  Validation of Reference Genes for Accurate Normalization of Gene Expression in Lilium davidii var. unicolor for Real Time Quantitative PCR.

Authors:  XueYan Li; JinYun Cheng; Jing Zhang; Jaime A Teixeira da Silva; ChunXia Wang; HongMei Sun
Journal:  PLoS One       Date:  2015-10-28       Impact factor: 3.240

10.  Overexpression of lily HsfA3s in Arabidopsis confers increased thermotolerance and salt sensitivity via alterations in proline catabolism.

Authors:  Ze Wu; Jiahui Liang; Chengpeng Wang; Xin Zhao; Xionghui Zhong; Xing Cao; Guoqing Li; Junna He; Mingfang Yi
Journal:  J Exp Bot       Date:  2018-04-09       Impact factor: 6.992
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