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细胞色素 P450 CYP89A9 参与拟南芥叶片衰老过程中主要叶绿素降解产物的形成。

Cytochrome P450 CYP89A9 is involved in the formation of major chlorophyll catabolites during leaf senescence in Arabidopsis.

机构信息

Institute of Plant Biology, University of Zurich, CH-8008 Zurich, Switzerland.

出版信息

Plant Cell. 2013 May;25(5):1868-80. doi: 10.1105/tpc.113.112151. Epub 2013 May 30.

DOI:10.1105/tpc.113.112151
PMID:23723324
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3694711/
Abstract

Nonfluorescent chlorophyll catabolites (NCCs) were described as products of chlorophyll breakdown in Arabidopsis thaliana. NCCs are formyloxobilin-type catabolites derived from chlorophyll by oxygenolytic opening of the chlorin macrocycle. These linear tetrapyrroles are generated from their fluorescent chlorophyll catabolite (FCC) precursors by a nonenzymatic isomerization inside the vacuole of senescing cells. Here, we identified a group of distinct dioxobilin-type chlorophyll catabolites (DCCs) as the major breakdown products in wild-type Arabidopsis, representing more than 90% of the chlorophyll of green leaves. The molecular constitution of the most abundant nonfluorescent DCC (NDCC), At-NDCC-1, was determined. We further identified cytochrome P450 monooxygenase CYP89A9 as being responsible for NDCC accumulation in wild-type Arabidopsis; cyp89a9 mutants that are deficient in CYP89A9 function were devoid of NDCCs but accumulated proportionally higher amounts of NCCs. CYP89A9 localized outside the chloroplasts, implying that FCCs occurring in the cytosol might be its natural substrate. Using recombinant CYP89A9, we confirm FCC specificity and show that fluorescent DCCs are the products of the CYP89A9 reaction. Fluorescent DCCs, formed by this enzyme, isomerize to the respective NDCCs in weakly acidic medium, as found in vacuoles. We conclude that CYP89A9 is involved in the formation of dioxobilin-type catabolites of chlorophyll in Arabidopsis.

摘要

非荧光叶绿素降解产物 (NCCs) 被描述为拟南芥中叶绿素分解的产物。NCCs 是由叶绿素通过氧裂解打开叶绿素大环衍生而来的甲酰氧基双氢卟啉型降解产物。这些线性四吡咯通过衰老细胞液泡内的非酶异构化,由其荧光叶绿素降解产物 (FCC) 前体生成。在这里,我们鉴定了一组不同的二氧双氢卟啉型叶绿素降解产物 (DCCs) 作为野生型拟南芥中主要的降解产物,占绿叶中叶绿素的 90%以上。最丰富的非荧光 DCC (NDCC) 的分子结构,At-NDCC-1,被确定。我们进一步鉴定细胞色素 P450 单加氧酶 CYP89A9 是野生型拟南芥中 NDCC 积累的原因;缺乏 CYP89A9 功能的 cyp89a9 突变体缺乏 NDCCs,但积累了比例更高的 NCCs。CYP89A9 定位于叶绿体之外,这意味着发生在细胞质中的 FCCs 可能是其天然底物。使用重组 CYP89A9,我们确认了 FCC 的特异性,并表明荧光 DCCs 是 CYP89A9 反应的产物。该酶形成的荧光 DCCs在弱酸性介质中异构化为相应的 NDCCs,如在液泡中发现的那样。我们得出结论,CYP89A9 参与了拟南芥中二氧双氢卟啉型叶绿素降解产物的形成。

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