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藻胆蛋白的生物合成:I. 集胞藻属蓝细菌Synechococcus sp. PCC 7002的cpcS-I和cpcU突变体定义了一种对β-藻蓝蛋白和别藻蓝蛋白亚基具有特异性的异二聚体藻蓝胆素裂合酶。

Biogenesis of phycobiliproteins: I. cpcS-I and cpcU mutants of the cyanobacterium Synechococcus sp. PCC 7002 define a heterodimeric phyococyanobilin lyase specific for beta-phycocyanin and allophycocyanin subunits.

作者信息

Shen Gaozhong, Schluchter Wendy M, Bryant Donald A

机构信息

Department of Biochemistry and Molecular Biology, The Pennsylvania State University, University Park, Pennsylvania 16802, USA.

出版信息

J Biol Chem. 2008 Mar 21;283(12):7503-12. doi: 10.1074/jbc.M708164200. Epub 2008 Jan 16.

DOI:10.1074/jbc.M708164200
PMID:18199754
Abstract

Phycobilin lyases covalently attach phycobilin chromophores to apo-phycobiliproteins (PBPs). Genome analyses of the unicellular, marine cyanobacterium Synechococcus sp. PCC 7002 identified three genes, denoted cpcS-I, cpcU, and cpcV, that were possible candidates to encode phycocyanobilin (PCB) lyases. Single and double mutant strains for cpcS-I and cpcU exhibited slower growth rates, reduced PBP levels, and impaired assembly of phycobilisomes, but a cpcV mutant had no discernable phenotype. A cpcS-I cpcU cpcT triple mutant was nearly devoid of PBP. SDS-PAGE and mass spectrometry demonstrated that the cpcS-I and cpcU mutants produced an altered form of the phycocyanin (PC) beta subunit, which had a mass approximately 588 Da smaller than the wild-type protein. Some free PCB (mass = 588 Da) was tentatively detected in the phycobilisome fraction purified from the mutants. The modified PC from the cpcS-I, cpcU, and cpcS-I cpcU mutant strains was purified, and biochemical analyses showed that Cys-153 of CpcB carried a PCB chromophore but Cys-82 did not. These results show that both CpcS-I and CpcU are required for covalent attachment of PCB to Cys-82 of the PC beta subunit in this cyanobacterium. Suggesting that CpcS-I and CpcU are also required for attachment of PCB to allophycocyanin subunits in vivo, allophycocyanin levels were significantly reduced in all but the CpcV-less strain. These conclusions have been validated by in vitro experiments described in the accompanying report (Saunée, N. A., Williams, S. R., Bryant, D. A., and Schluchter, W. M. (2008) J. Biol. Chem. 283, 7513-7522). We conclude that the maturation of PBP in vivo depends on three PCB lyases: CpcE-CpcF, CpcS-I-CpcU, and CpcT.

摘要

藻胆素裂合酶将藻胆素发色团共价连接到脱辅基藻胆蛋白(PBP)上。对单细胞海洋蓝细菌聚球藻属 Synechococcus sp. PCC 7002 的基因组分析鉴定出三个基因,分别命名为 cpcS-I、cpcU 和 cpcV,它们可能是编码藻蓝胆素(PCB)裂合酶的候选基因。cpcS-I 和 cpcU 的单突变体和双突变体菌株生长速率较慢,PBP 水平降低,藻胆体组装受损,但 cpcV 突变体没有明显的表型。cpcS-I cpcU cpcT 三突变体几乎没有 PBP。SDS-PAGE 和质谱分析表明,cpcS-I 和 cpcU 突变体产生了一种改变形式的藻蓝蛋白(PC)β 亚基,其质量比野生型蛋白小约 588 Da。在从突变体中纯化的藻胆体组分中初步检测到一些游离的 PCB(质量 = 588 Da)。纯化了来自 cpcS-I、cpcU 和 cpcS-I cpcU 突变体菌株的修饰 PC,生化分析表明 CpcB 的 Cys-153 携带一个 PCB 发色团,但 Cys-82 没有。这些结果表明,在这种蓝细菌中,CpcS-I 和 CpcU 都是 PCB 共价连接到 PC β 亚基的 Cys-82 所必需的。由于暗示 CpcS-I 和 CpcU 在体内将 PCB 连接到别藻蓝蛋白亚基时也是必需的,除了无 CpcV 的菌株外,所有菌株中的别藻蓝蛋白水平均显著降低。这些结论已通过随附报告(Saunée, N. A., Williams, S. R., Bryant, D. A., and Schluchter, W. M. (2008) J. Biol. Chem. 283, 7513 - 7522)中描述的体外实验得到验证。我们得出结论,体内 PBP 的成熟依赖于三种 PCB 裂合酶:CpcE-CpcF、CpcS-I-CpcU 和 CpcT。

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