Plant protein serine threonine kinases: Classification and functions

被引:251
作者
Hardie, DG [1 ]
机构
[1] Univ Dundee, Dept Biochem, Dundee DD1 5EH, Scotland
来源
ANNUAL REVIEW OF PLANT PHYSIOLOGY AND PLANT MOLECULAR BIOLOGY | 1999年 / 50卷
关键词
protein kinases; higher plants; sequence families; signal transduction; cellular signaling;
D O I
10.1146/annurev.arplant.50.1.97
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
The first plant protein kinase sequences were reported as recently as 1989, but by mid-1998 there were more than 500, including 175 in Arabidopsis thaliana alone. Despite this impressive pace of discovery, progress in understanding the detailed functions of protein kinases in plants has been slower. Protein serine/threonine kinases from A. thaliana can be divided into around a dozen major groups based on their sequence relationships. For each of these groups, studies on animal and fungal homologs are briefly reviewed, and direct studies of their physiological functions in plants are then discussed in more detail. The network of protein-serine/threonine kinases in plant cells appears to act as a "central processor unit" (cpu), accepting input information from receptors that sense environmental conditions, phytohormones, and other external factors, and converting it into appropriate outputs such as changes in metabolism, gene expression, and cell growth and division.
引用
收藏
页码:97 / 131
页数:35
相关论文
共 178 条
  • [71] Threonine 1342 in human topoisomerase II alpha is phosphorylated throughout the cell cycle
    Ishida, R
    Iwai, M
    Marsh, KL
    Austin, CA
    Yano, T
    Shibata, M
    Nozaki, N
    Hara, A
    [J]. JOURNAL OF BIOLOGICAL CHEMISTRY, 1996, 271 (47) : 30077 - 30082
  • [72] A serine/threonine protein kinase gene isolated by an in vivo binding procedure using the Arabidopsis floral homeotic gene product, AGAMOUS
    Ito, T
    Takahashi, N
    Shimura, Y
    Okada, K
    [J]. PLANT AND CELL PHYSIOLOGY, 1997, 38 (03) : 248 - 258
  • [73] SUGAR SENSING IN HIGHER-PLANTS
    JANG, JC
    SHEEN, J
    [J]. PLANT CELL, 1994, 6 (11) : 1665 - 1679
  • [74] MECHANISM OF CDK ACTIVATION REVEALED BY THE STRUCTURE OF A CYCLINA-CDK2 COMPLEX
    JEFFREY, PD
    RUSO, AA
    POLYAK, K
    GIBBS, E
    HURWITZ, J
    MASSAGUE, J
    PAVLETICH, NP
    [J]. NATURE, 1995, 376 (6538) : 313 - 320
  • [75] TESTIS-SPECIFIC MAK PROTEIN-KINASE IS EXPRESSED SPECIFICALLY IN THE MEIOTIC PHASE IN SPERMATOGENESIS AND IS ASSOCIATED WITH A 210-KILODALTON CELLULAR PHOSPHOPROTEIN
    JINNO, A
    TANAKA, K
    MATSUSHIME, H
    HANEJI, T
    SHIBUYA, M
    [J]. MOLECULAR AND CELLULAR BIOLOGY, 1993, 13 (07) : 4146 - 4156
  • [76] TONOPLAST-BOUND PROTEIN-KINASE PHOSPHORYLATES TONOPLAST INTRINSIC PROTEIN
    JOHNSON, KD
    CHRISPEELS, MJ
    [J]. PLANT PHYSIOLOGY, 1992, 100 (04) : 1787 - 1795
  • [77] Active and inactive protein kinases: Structural basis for regulation
    Johnson, LN
    Noble, MEM
    Owen, DJ
    [J]. CELL, 1996, 85 (02) : 149 - 158
  • [78] Stress signaling in plants: A mitogen-activated protein kinase pathway is activated by cold and drought
    Jonak, C
    Kiegerl, S
    Ligterink, W
    Barker, PJ
    Huskisson, NS
    Hirt, H
    [J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1996, 93 (20) : 11274 - 11279
  • [79] MMK2, A NOVEL ALFALFA MAP KINASE, SPECIFICALLY COMPLEMENTS THE YEAST MPK1 FUNCTION
    JONAK, C
    KIEGERL, S
    LLOYD, C
    CHAN, J
    HIRT, H
    [J]. MOLECULAR AND GENERAL GENETICS, 1995, 248 (06): : 686 - 694
  • [80] INFLORESCENCE-SPECIFIC EXPRESSION OF ATK-1, A NOVEL ARABIDOPSIS-THALIANA HOMOLOG OF SHAGGY GLYCOGEN-SYNTHASE KINASE-3
    JONAK, C
    HEBERLEBORS, E
    HIRT, H
    [J]. PLANT MOLECULAR BIOLOGY, 1995, 27 (01) : 217 - 221