茉莉酸
拟南芥
生物
逆行信号
生长素
脱落酸
信号转导
基因
细胞生物学
植物激素
非生物胁迫
生物逆境
基因表达
遗传学
突变体
作者
Yong Hwa Cheong,Hur‐Song Chang,Rajeev Gupta,Xun Wang,Tong Zhu,Sheng Luan
出处
期刊:Plant Physiology
[Oxford University Press]
日期:2002-06-01
卷期号:129 (2): 661-677
被引量:876
摘要
Abstract Mechanical wounding not only damages plant tissues, but also provides pathways for pathogen invasion. To understand plant responses to wounding at a genomic level, we have surveyed the transcriptional response of 8,200 genes in Arabidopsis plants. Approximately 8% of these genes were altered by wounding at steady-state mRNA levels. Studies of expression patterns of these genes provide new information on the interactions between wounding and other signals, including pathogen attack, abiotic stress factors, and plant hormones. For example, a number of wound-responsive genes encode proteins involved in pathogen response. These include signaling molecules for the pathogen resistance pathway and enzymes required for cell wall modification and secondary metabolism. Many osmotic stress- and heat shock-regulated genes were highly responsive to wounding. Although a number of genes involved in ethylene, jasmonic acid, and abscisic acid pathways were activated, many in auxin responses were suppressed by wounding. These results further dissected the nature of mechanical wounding as a stress signal and identified new genes that may play a role in wounding and other signal transduction pathways.
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