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三种玉米叶片铁氧还蛋白:NADPH氧化还原酶在叶绿体亚结构定位、表达以及与铁氧还蛋白的相互作用方面存在差异。

Three maize leaf ferredoxin:NADPH oxidoreductases vary in subchloroplast location, expression, and interaction with ferredoxin.

作者信息

Okutani Satoshi, Hanke Guy T, Satomi Yoshinori, Takao Toshifumi, Kurisu Genji, Suzuki Akira, Hase Toshiharu

机构信息

Institute for Protein Research, Osaka University, Suita, Osaka 565-0871, Japan.

出版信息

Plant Physiol. 2005 Nov;139(3):1451-9. doi: 10.1104/pp.105.070813. Epub 2005 Oct 21.

DOI:10.1104/pp.105.070813
PMID:16244136
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1283780/
Abstract

In higher plants, ferredoxin (Fd):NADPH oxidoreductase (FNR) catalyzes reduction of NADP+ in the final step of linear photosynthetic electron transport and is also implicated in cyclic electron flow. We have identified three leaf FNR isoenzymes (LFNR1, LFNR2, and LFNR3) in maize (Zea mays) chloroplasts at approximately equivalent concentrations. Fractionation of chloroplasts showed that, while LFNR3 is an exclusively soluble enzyme, LFNR1 is only found at the thylakoid membrane and LFNR2 has a dual location. LFNR1 and LFNR2 were found to associate with the cytochrome b6f complex following its partial purification. We cloned LFNR3 and produced all three isoenzymes as stable, soluble proteins. Measurement of Fd reduction ability showed no significant differences between these recombinant enzymes. Column chromatography revealed variation between the interaction mechanisms of LFNR1 and LFNR2 with Fd, as detected by differential dependence on specific intermolecular salt bridges and variable sensitivity of interactions to changes in pH. A comparison of LFNR transcripts in leaves of plants grown on variable nitrogen regimes revealed that LFNR1 and LFNR2 transcripts are relatively more abundant under conditions of high demand for NADPH. These results are discussed in terms of the functional differentiation of maize LFNR isoenzymes.

摘要

在高等植物中,铁氧还蛋白(Fd):NADP +氧化还原酶(FNR)催化线性光合电子传递最后一步中NADP +的还原,并且也参与循环电子流。我们在玉米(Zea mays)叶绿体中鉴定出三种叶片FNR同工酶(LFNR1、LFNR2和LFNR3),其浓度大致相当。叶绿体分级分离表明,虽然LFNR3是一种完全可溶的酶,但LFNR1仅存在于类囊体膜上,而LFNR2具有双重定位。LFNR1和LFNR2在细胞色素b6f复合物部分纯化后被发现与其相关联。我们克隆了LFNR3,并将所有三种同工酶制备成稳定的可溶性蛋白质。Fd还原能力的测定表明这些重组酶之间没有显著差异。柱色谱法揭示了LFNR1和LFNR2与Fd相互作用机制的差异,这通过对特定分子间盐桥的不同依赖性以及相互作用对pH变化的可变敏感性来检测。对在不同氮素水平下生长的植物叶片中LFNR转录本的比较表明,在对NADPH高需求的条件下,LFNR1和LFNR2转录本相对更为丰富。本文根据玉米LFNR同工酶的功能分化对这些结果进行了讨论。

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本文引用的文献

1
Expression of Maize Ferredoxin cDNA in Escherichia coli: Comparison of Photosynthetic and Nonphotosynthetic Ferredoxin Isoproteins and their Chimeric Molecule.玉米铁氧还蛋白cDNA在大肠杆菌中的表达:光合与非光合铁氧还蛋白同工蛋白及其嵌合分子的比较
Plant Physiol. 1991 Dec;97(4):1395-401. doi: 10.1104/pp.97.4.1395.
2
Identification of the N- and C-terminal substrate binding segments of ferredoxin-NADP+ reductase by NMR.通过核磁共振鉴定铁氧化还原蛋白-NADP+还原酶的N端和C端底物结合片段。
Biochemistry. 2005 Aug 9;44(31):10644-53. doi: 10.1021/bi050424b.
3
Purification and crystallization of the cytochrome b6f complex in oxygenic photosynthesis.光合放氧过程中细胞色素b6f复合体的纯化与结晶
Methods Mol Biol. 2004;274:67-78. doi: 10.1385/1-59259-799-8:067.
4
Cyclic electron flow around photosystem I is essential for photosynthesis.围绕光系统I的循环电子流对光合作用至关重要。
Nature. 2004 Jun 3;429(6991):579-82. doi: 10.1038/nature02598.
5
NONPHOTOSYNTHETIC METABOLISM IN PLASTIDS.质体中的非光合代谢
Annu Rev Plant Physiol Plant Mol Biol. 2000 Jun;51:111-140. doi: 10.1146/annurev.arplant.51.1.111.
6
An atypical haem in the cytochrome b(6)f complex.Cleavage of the N-terminal propeptide from the pro-alpha1(I) chain of type I procollagen occurs in the cisternae of the rough endoplasmic reticulum and is mediated by the enzyme prolyl 3-hydroxylase. Once in the Golgi apparatus, the procollagen molecule then undergoes further modifications. First, galactose and glucose residues are added to specific hydroxylysine residues on the pro-alpha chains by galactosyltransferase and glucosyltransferase, respectively. This process is known as glycosylation and is essential for the stability and function of the collagen molecule. Next, the procollagen molecule is packaged into secretory vesicles and transported to the cell surface. At the cell surface, the N- and C-terminal propeptides are cleaved off by specific proteases, resulting in the formation of tropocollagen. Tropocollagen then self-assembles into collagen fibrils, which are the basic structural units of connective tissues. Finally, the collagen fibrils are cross-linked by covalent bonds formed between lysine and hydroxylysine residues, further strengthening the structure of the connective tissues. I型前胶原原α1(I)链N端前肽的切割发生在粗面内质网的潴泡中,由脯氨酰3-羟化酶介导。一旦进入高尔基体,前胶原分子就会经历进一步的修饰。首先,半乳糖和葡萄糖残基分别通过半乳糖基转移酶和葡萄糖基转移酶添加到原α链上特定的羟赖氨酸残基上。这个过程称为糖基化,对胶原分子的稳定性和功能至关重要。接下来,前胶原分子被包装成分泌小泡并运输到细胞表面。在细胞表面,N端和C端前肽被特定的蛋白酶切割掉,形成原胶原。原胶原然后自我组装成胶原纤维,这是结缔组织的基本结构单位。最后,胶原纤维通过赖氨酸和羟赖氨酸残基之间形成的共价键交联,进一步加强结缔组织的结构。
Nature. 2003 Nov 27;426(6965):413-8. doi: 10.1038/nature02155.
7
Plastoquinones are effectively reduced by ferredoxin:NADP+ oxidoreductase in the presence of sodium cholate micelles. Significance for cyclic electron transport and chlororespiration.在胆酸钠胶束存在的情况下,铁氧还蛋白:NADP⁺氧化还原酶能有效还原质体醌。这对循环电子传递和叶绿体呼吸的意义。
Phytochemistry. 2003 Nov;64(6):1055-60. doi: 10.1016/s0031-9422(03)00506-5.
8
Structure of the cytochrome b6f complex of oxygenic photosynthesis: tuning the cavity.光合放氧过程中 Cytb6f 复合体的结构:调控腔室
Science. 2003 Nov 7;302(5647):1009-14. doi: 10.1126/science.1090165. Epub 2003 Oct 2.
9
The preparation and enzymatic hydrolysis of reduced and S-carboxymethylated proteins.还原和S-羧甲基化蛋白质的制备及酶促水解
J Biol Chem. 1963 Feb;238:622-7.
10
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Plant Physiol. 2003 Jun;132(2):556-67. doi: 10.1104/pp.103.021253.

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