Proteomic identification of small, copper-responsive proteins in germinating embryos of Oryza sativa

doi:10.1093/aob/mcp012

AOBPreview originally published online on February 5, 2009
Annals of Botany 2009 103(6):923-930; doi:10.1093/aob/mcp012

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Proteomic identification of small, copper-responsive proteins in germinating embryos of Oryza sativa

Hongxiao Zhang¹, Chunlan Lian² and Zhenguo Shen¹^,*

¹ College of Life Sciences, Nanjing Agricultural University, Nanjing 210095, China
² Asian Natural Environmental Science Center, The University of Tokyo, 1-1-8 Midori-cho, Nishitokyo, Tokyo 188-0002, Japan

^* For correspondence. E-mail zgshen{at}njau.edu.cn

Received: 2 June 2008 Returned for revision: 3 November 2008 Accepted: 15 December 2008 Published electronically: 5 February 2009

Background and Aims: Although copper (Cu) is an essential micronutrient for plantsand algae, excess Cu is toxic to most plants and can cause awide range of deleterious effects. To investigate the responseof rice (Oryza sativa) to Cu stress, a proteomic approach wasused to analyse Cu stress-induced changes in the expressionof low molecular-weight proteins in germinating rice seed embryos.

Methods: Rice seeds were germinated in the presence or absence of 200µM Cu for 6 d, and embryos, including newly formed shootsand radicles, were isolated. After proteins were extracted fromthe germinating embryos and separated by two-dimensional PAGE,16 proteins in the 6- to 25-kDa range were identified usingMALDI-TOF mass spectrometry.

Key Results and Conclusions: Thirteen of the proteins identified, including metallothionein-likeprotein, membrane-associated protein-like protein, putativewall-associated protein kinase, pathogenesis-related proteinsand the putative small GTP-binding protein Rab2, were up-regulatedby Cu stress. Three proteins, a putative small cytochrome P450(CYP90D2), a putative thioredoxin and a putative GTPase, weredown-regulated by Cu stress. As far as is known, this studyprovides the first proteomic evidence that metallothionein andCYP90D2 are Cu-responsive proteins in plants. These findingsmay lead to a better understanding of plant molecular responsesto toxic metal exposure.

Key words: Copper, metallothionein, rice, Oryza sativa, proteomics, seed germination

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