Cytochromes p450.

The arabidopsis book Pub Date : 2011-01-01 Epub Date: 2011-10-06 DOI:10.1199/tab.0144
Søren Bak, Fred Beisson, Gerard Bishop, Björn Hamberger, René Höfer, Suzanne Paquette, Danièle Werck-Reichhart
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Abstract

There are 244 cytochrome P450 genes (and 28 pseudogenes) in the Arabidopsis genome. P450s thus form one of the largest gene families in plants. Contrary to what was initially thought, this family diversification results in very limited functional redundancy and seems to mirror the complexity of plant metabolism. P450s sometimes share less than 20% identity and catalyze extremely diverse reactions leading to the precursors of structural macromolecules such as lignin, cutin, suberin and sporopollenin, or are involved in biosynthesis or catabolism of all hormone and signaling molecules, of pigments, odorants, flavors, antioxidants, allelochemicals and defense compounds, and in the metabolism of xenobiotics. The mechanisms of gene duplication and diversification are getting better understood and together with co-expression data provide leads to functional characterization.

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细胞色素 p450。
拟南芥基因组中有 244 个细胞色素 P450 基因(和 28 个假基因)。因此,P450 形成了植物中最大的基因家族之一。与最初的想法相反,这个家族的多样化导致了非常有限的功能冗余,似乎反映了植物新陈代谢的复杂性。P450 基因有时只有不到 20% 的相同点,却能催化极其多样的反应,产生木质素、角质素、单宁和孢粉素等结构大分子的前体,或参与所有激素和信号分子、色素、气味剂、香料、抗氧化剂、等位化学物质和防御化合物的生物合成或分解,以及异种生物的代谢。人们对基因复制和多样化的机制有了更深入的了解,这些机制与共表达数据一起为功能特征的确定提供了线索。
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