Negative regulation of defence and stress genes by EAR-motif-containing repressors

被引：232

作者：

Kazan, K ^{[1
]}

机构：

[1] CSIRO, Plant Ind, St Lucia, Qld 4067, Australia

来源：

TRENDS IN PLANT SCIENCE | 2006年 / 11卷 / 03期

关键词：

D O I：

10.1016/j.tplants.2006.01.004

中图分类号：

Q94 [植物学];

学科分类号：

071001 ;

摘要：

Although positive control or activation mechanism(s) involved in plant defence- and stress-related gene expression is relatively well studied, little is known about what keeps defensive armoury under control when not needed. Recent reports suggest that transcriptional repression of gene expression by EAR-motif-containing repressor proteins plays a key role in modulating plant defence and stress responses.

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页码：109 / 112

页数：4

相关论文

共 24 条

[1] Rice NRR, a negative regulator of disease resistance, interacts with Arabidopsis NPR1 and rice NH1 [J].

Chern, M ;

Canlas, PE ;

Fitzgerald, HA ;

Ronald, PC .

PLANT JOURNAL, 2005, 43 (05) :623-635

[2] The zinc-finger protein Zat12 plays a central role in reactive oxygen and abiotic stress signaling in Arabidopsis [J].

Davletova, S ;

Schlauch, K ;

Coutu, J ;

Mittler, R .

PLANT PHYSIOLOGY, 2005, 139 (02) :847-856

[3] Dominant repression of target genes by chimeric repressors that include the EAR motif, a repression domain, in Arabidopsis [J].

Hiratsu, K ;

Matsui, K ;

Koyama, T ;

Ohme-Takagi, M .

PLANT JOURNAL, 2003, 34 (05) :733-739

[4] The SUPERMAN protein is an active repressor whose carboxy-terminal repression domain is required for the development of normal flowers [J].

Hiratsu, K ;

Ohta, M ;

Matsui, K ;

Ohme-Takagi, M .

FEBS LETTERS, 2002, 514 (2-3) :351-354

[5] Degradation of negative regulators: a common theme in hormone and light signaling networks? [J].

Huq, E .

TRENDS IN PLANT SCIENCE, 2006, 11 (01) :4-7

[6] Transcriptional repression by AtMYB4 controls production of UV-protecting sunscreens in Arabidopsis [J].

Jin, HL ;

Cominelli, E ;

Bailey, P ;

Parr, A ;

Mehrtens, F ;

Jones, J ;

Tonelli, C ;

Weisshaar, B ;

Martin, C .

EMBO JOURNAL, 2000, 19 (22) :6150-6161

[7] Isolation of tobacco ubiquitin-conjugating enzyme cDNA in a yeast two-hybrid system with tobacco ERF3 as bait and its characterization of specific interaction [J].

Koyama, T ;

Okada, T ;

Kitajima, S ;

Ohme-Takagi, M ;

Shinshi, H ;

Sato, F .

JOURNAL OF EXPERIMENTAL BOTANY, 2003, 54 (385) :1175-1181

[8] Repressor- and activator-type ethylene response factors functioning in jasmonate signaling and disease resistance identified via a genome-wide screen of Arabidopsis transcription factor gene expression [J].

McGrath, KC ;

Dombrecht, B ;

Manners, JM ;

Schenk, PM ;

Edgar, CI ;

Maclean, DJ ;

Scheible, WR ;

Udvardi, MK ;

Kazan, K .

PLANT PHYSIOLOGY, 2005, 139 (02) :949-959

[9] High-throughput in planta expression screening identifies a class II ethylene-responsive element binding factor-like protein that regulates plant cell death and non-host resistance [J].

Nasir, KHB ;

Takahashi, Y ;

Ito, A ;

Saitoh, H ;

Matsumura, H ;

Kanzaki, H ;

Shimizu, T ;

Ito, M ;

Fujisawa, S ;

Sharma, PC ;

Ohme-Takagi, M ;

Kamoun, S ;

Terauchi, R .

PLANT JOURNAL, 2005, 43 (04) :491-505

[10] Rapid and transient activation of transcription of the ERF3 gene by wounding in tobacco leaves -: Possible involvement of NtWRKYs and autorepression [J].

Nishiuchi, T ;

Shinshi, H ;

Suzuki, K .

JOURNAL OF BIOLOGICAL CHEMISTRY, 2004, 279 (53) :55355-55361