Nagai Satoshi, Koide Masumi, Takahashi Shigekazu, Kikuta Akihiro, Aono Mitsuko, Sasaki-Sekimoto Yuko, Ohta Hiroyuki, Takamiya Ken-ichiro, Masuda Tatsuru
Graduate School of Bioscience and Biotechnology, Tokyo Institute of Technology, Yokohama 226-8501, Japan.
Plant Physiol. 2007 Jun;144(2):1039-51. doi: 10.1104/pp.107.100065. Epub 2007 Apr 6.
In the tetrapyrrole biosynthetic pathway, isoforms of glutamyl-tRNA reductase (HEMA2) and ferrochelatase1 (FC1) are mainly expressed in nonphotosynthetic tissues. Here, using promoter-beta-glucuronidase constructs, we showed that the expressions of Arabidopsis (Arabidopsis thaliana) HEMA2 (AtHEMA2) and FC1 (AtFC1) were induced in photosynthetic tissues by oxidative stresses such as wounding. Transcript levels and beta-glucronidase activity were rapidly induced within 30 min, specifically in the wound area in a jasmonate-independent manner. Transcriptome analysis of wound-specific early inducible genes showed that AtHEMA2 and AtFC1 were coinduced with hemoproteins outside plastids, which are related to defense responses. Ozone fumigation or reagents generating reactive oxygen species induced the expression of both genes in photosynthetic tissues, suggesting that reactive oxygen species is involved in the induction. Since cycloheximide or puromycin induced the expression of both genes, inhibition of cytosolic protein synthesis is involved in the induction of these genes in photosynthetic tissues. The physiological functions of AtHEMA2 and AtFC1 were investigated using insertional knockout mutants of each gene. Heme contents of the roots of both mutants were about half of that of the respective wild types. In wild-type plants, heme contents were increased by ozone exposure. In both mutants, reduction of the ozone-induced increase in heme content was observed. These results suggest the existence of the tetrapyrrole biosynthetic pathway controlled by AtHEMA2 and AtFC1, which normally functions for heme biosynthesis in nonphotosynthetic tissues, but is induced in photosynthetic tissues under oxidative conditions to supply heme for defensive hemoproteins outside plastids.
在四吡咯生物合成途径中,谷氨酰 - tRNA还原酶(HEMA2)和亚铁螯合酶1(FC1)的同工型主要在非光合组织中表达。在此,我们使用启动子 - β - 葡萄糖醛酸酶构建体表明,拟南芥(Arabidopsis thaliana)的HEMA2(AtHEMA2)和FC1(AtFC1)的表达在光合组织中受到诸如创伤等氧化应激的诱导。转录水平和β - 葡萄糖醛酸酶活性在30分钟内迅速诱导,特别是在创伤区域以茉莉酸不依赖的方式诱导。对创伤特异性早期诱导基因的转录组分析表明,AtHEMA2和AtFC1与质体外的血蛋白共同诱导,这些血蛋白与防御反应相关。臭氧熏蒸或产生活性氧的试剂诱导光合组织中这两个基因的表达,表明活性氧参与了诱导过程。由于放线菌酮或嘌呤霉素诱导了这两个基因的表达,因此细胞质蛋白合成的抑制参与了光合组织中这些基因的诱导。使用每个基因的插入敲除突变体研究了AtHEMA2和AtFC1的生理功能。两个突变体根中的血红素含量约为各自野生型的一半。在野生型植物中,血红素含量因臭氧暴露而增加。在两个突变体中,均观察到臭氧诱导的血红素含量增加的减少。这些结果表明存在由AtHEMA2和AtFC1控制的四吡咯生物合成途径,该途径通常在非光合组织中用于血红素生物合成,但在氧化条件下在光合组织中被诱导,以为质体外的防御性血蛋白提供血红素。