学术探索
学术期刊
学术作者
新闻热点
数据分析
智能评审

Mechanism of Auxin-Regulated Gene Expression in Plants

被引:538
作者
Chapman, Elisabeth J. [1 ]
Estelle, Mark [1 ]
机构
[1] Univ Calif San Diego, Div Biol, La Jolla, CA 92093 USA
来源
ANNUAL REVIEW OF GENETICS | 2009年 / 43卷
基金
美国国家科学基金会;
关键词
hormone response element; AFF; SCF(TIR1); evolution of auxin signaling; LATERAL ROOT INITIATION; ARABIDOPSIS HYPOCOTYL ELONGATION; DIFFERENTIAL GROWTH-RESPONSES; MOSS PHYSCOMITRELLA-PATENS; AUX/IAA PROTEIN FAMILY; OF-FUNCTION MUTATION; ACID-INDUCIBLE GENE; TRANSCRIPTIONAL REPRESSION; VASCULAR DEVELOPMENT; NEGATIVE REGULATOR;
D O I
10.1146/annurev-genet-102108-134148
中图分类号
Q3 [遗传学];
学科分类号
071007 [遗传学];
摘要
Plant hormones control most aspects of the plant life cycle by regulating genome expression. Expression of auxin-responsive genes involves interactions among auxin-responsive DNA sequence elements, transcription factors and trans-acting transcriptional repressors. Transcriptional output from these auxin signaling complexes is regulated by proteasome-mediated degradation that is triggered by interaction with auxin receptor-E3 ubiquitin ligases such SCF(TIR1). Auxin signaling components are conserved throughout land plant evolution and have proliferated and specialized to control specific developmental processes.
引用
收藏
页码:265 / 285
页数:21
相关论文
共 144 条
[1]
Early genes and auxin action [J].
Abel, S ;
Theologis, A .
PLANT PHYSIOLOGY, 1996, 111 (01) :9-17
[2]
ASC4, A PRIMARY INDOLEACETIC ACID-RESPONSIVE GENE ENCODING 1-AMINOCYCLOPROPANE-1-CARBOXYLATE SYNTHASE IN ARABIDOPSIS-THALIANA - STRUCTURAL CHARACTERIZATION, EXPRESSION IN ESCHERICHIA-COLI, AND EXPRESSION CHARACTERISTICS IN RESPONSE TO AUXIN [J].
ABEL, S ;
NGUYEN, MD ;
CHOW, W ;
THEOLOGIS, A .
JOURNAL OF BIOLOGICAL CHEMISTRY, 1995, 270 (32) :19093-19099
[3]
DNA elements responsive to auxin [J].
Abel, S ;
Ballas, N ;
Wong, LM ;
Theologis, A .
BIOESSAYS, 1996, 18 (08) :647-654
[4]
The PLETHORA genes mediate patterning of the Arabidopsis root stem cell niche [J].
Aida, M ;
Beis, D ;
Heidstra, R ;
Willemsen, V ;
Blilou, I ;
Galinha, C ;
Nussaume, L ;
Noh, YS ;
Amasino, R ;
Scheres, B .
CELL, 2004, 119 (01) :109-+
[5]
EIN2, a bifunctional transducer of ethylene and stress responses in Arabidopsis [J].
Alonso, JM ;
Hirayama, T ;
Roman, G ;
Nourizadeh, S ;
Ecker, JR .
SCIENCE, 1999, 284 (5423) :2148-2152
[6]
Gene Ontology: tool for the unification of biology [J].
Ashburner, M ;
Ball, CA ;
Blake, JA ;
Botstein, D ;
Butler, H ;
Cherry, JM ;
Davis, AP ;
Dolinski, K ;
Dwight, SS ;
Eppig, JT ;
Harris, MA ;
Hill, DP ;
Issel-Tarver, L ;
Kasarskis, A ;
Lewis, S ;
Matese, JC ;
Richardson, JE ;
Ringwald, M ;
Rubin, GM ;
Sherlock, G .
NATURE GENETICS, 2000, 25 (01) :25-29
[7]
2 AUXIN-RESPONSIVE DOMAINS INTERACT POSITIVELY TO INDUCE EXPRESSION OF THE EARLY INDOLEACETIC ACID-INDUCIBLE GENE PS-IAA4/5 [J].
BALLAS, N ;
WONG, LM ;
KE, M ;
THEOLOGIS, A .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1995, 92 (08) :3483-3487
[8]
IDENTIFICATION OF THE AUXIN-RESPONSIVE ELEMENT, AUXRE, IN THE PRIMARY INDOLEACETIC ACID-INDUCIBLE GENE, PS-IAA4/5, OF PEA (PISUM-SATIVUM) [J].
BALLAS, N ;
WONG, LM ;
THEOLOGIS, A .
JOURNAL OF MOLECULAR BIOLOGY, 1993, 233 (04) :580-596
[9]
Auxin: The looping star in plant development [J].
Benjamins, Rene ;
Scheres, Ben .
ANNUAL REVIEW OF PLANT BIOLOGY, 2008, 59 :443-465
[10]
Local, efflux-dependent auxin gradients as a common module for plant organ formation [J].
Benková, E ;
Michniewicz, M ;
Sauer, M ;
Teichmann, T ;
Seifertová, D ;
Jürgens, G ;
Friml, J .
CELL, 2003, 115 (05) :591-602
12345678910