杀鲑气单胞菌表面阵列毒力蛋白与卟啉的结合

Porphyrin binding by the surface array virulence protein of Aeromonas salmonicida.

作者信息

Kay W W, Phipps B M, Ishiguro E E, Trust T J

出版信息

J Bacteriol. 1985 Dec;164(3):1332-6. doi: 10.1128/jb.164.3.1332-1336.1985.

DOI:10.1128/jb.164.3.1332-1336.1985

PMID:3877720

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC219334/

Abstract

Congo red binding by virulent A-layer-containing (A+) and avirulent A-layer-deficient (A-) strains of Aeromonas salmonicida was examined. Congo red binding to A+ cells was enhanced by salt and thus hydrophobically driven, but at low Congo red concentrations binding was salt independent. Congo red was bound by A+ cells by a kinetically distinct mechanism (Kd, 0.25 microM) which was absent in A- isogenic strains. Purified A-layer protein ("A protein") protein A also bound Congo red with similar affinity (Kd, 0.40 microM). Congo red binding was structurally specific; it was not influenced by a wide variety of compounds including amino acids and nucleotides and only weakly inhibited by structurally similar dyes. However, protoporphyrin IX and hemin were strong competitive inhibitors of Congo red binding. Protoporphyrin and hemin were bound only by A+ strains (KdS of 0.41 and 0.63 microM, respectively). Furthermore, binding of these porphyrins was strongly inhibited by Congo red but weakly inhibited by hematoporphyrin. Purified A protein also bound protoporphyrin IX and hemin with affinities similar to those of A+ cells (KdS of 0.94 and 0.41 microM, respectively.

摘要

对含有毒力A层（A+）和无毒力A层缺陷（A-）的杀鲑气单胞菌菌株与刚果红的结合情况进行了检测。盐可增强刚果红与A+细胞的结合，因此这种结合是由疏水作用驱动的，但在低刚果红浓度下，结合与盐无关。刚果红通过一种动力学上不同的机制（解离常数Kd为0.25微摩尔）与A+细胞结合，而在A-同基因菌株中不存在这种机制。纯化的A层蛋白（“A蛋白”）也以相似的亲和力（Kd为0.40微摩尔）结合刚果红。刚果红结合具有结构特异性；它不受包括氨基酸和核苷酸在内的多种化合物的影响，并且仅受到结构相似染料的微弱抑制。然而，原卟啉IX和血红素是刚果红结合的强竞争性抑制剂。原卟啉和血红素仅被A+菌株结合（解离常数Kd分别为0.41和0.63微摩尔）。此外，这些卟啉的结合受到刚果红的强烈抑制，但受到血卟啉的微弱抑制。纯化的A蛋白也以与A+细胞相似的亲和力结合原卟啉IX和血红素（解离常数Kd分别为0.94和0.41微摩尔）。

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