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富含组氨酸的幽门螺杆菌镍结合蛋白(Hpn)和类Hpn蛋白在幽门螺杆菌镍生理学中的作用。

Roles of His-rich hpn and hpn-like proteins in Helicobacter pylori nickel physiology.

作者信息

Seshadri Susmitha, Benoit Stéphane L, Maier Robert J

机构信息

Department of Microbiology, University of Georgia, Athens, GA 30602, USA.

出版信息

J Bacteriol. 2007 Jun;189(11):4120-6. doi: 10.1128/JB.01245-06. Epub 2007 Mar 23.

Abstract

Individual gene-targeted hpn and hpn-like mutants and a mutant with mutations in both hpn genes were more sensitive to nickel, cobalt, and cadmium toxicity than was the parent strain, with the hpn-like strain showing the most metal sensitivity of the two individual His-rich protein mutants. The mutant strains contained up to eightfold more urease activity than the parent under nickel-deficient conditions, and the parent strain was able to achieve mutant strain activity levels by nickel supplementation. The mutants contained 3- to 4-fold more and the double mutant about 10-fold more Ni associated with their total urease pools, even though all of the strains expressed similar levels of total urease protein. Hydrogenase activities in the mutants were like those in the parent strain; thus, hydrogenase is fully activated under nickel-deficient conditions. The histidine-rich proteins appear to compete with the Ni-dependent urease maturation machinery under low-nickel conditions. Upon lowering the pH of the growth medium from 7.3 to 5, the wild-type urease activity increased threefold, but the activity in the three mutant strains was relatively unaffected. This pH effect was attributed to a nickel storage role for the His-rich proteins. Under low-nickel conditions, the addition of a nickel chelator did not significantly affect the urease activity of the wild type but decreased the activity of all of the mutants, supporting a role for the His-rich proteins as Ni reservoirs. These nickel reservoirs significantly impact the active urease activities achieved. The His-rich proteins play dual roles, as Ni storage and as metal detoxification proteins, depending on the exogenous nickel levels.

摘要

与亲本菌株相比,单个基因靶向的hpn和hpn样突变体以及两个hpn基因均发生突变的突变体对镍、钴和镉毒性更为敏感,其中hpn样菌株在两个富含组氨酸的蛋白质突变体中对金属最为敏感。在缺镍条件下,突变菌株的脲酶活性比亲本菌株高8倍,亲本菌株通过补充镍能够达到突变菌株的活性水平。尽管所有菌株表达的总脲酶蛋白水平相似,但突变体中与总脲酶库相关的镍含量多出3至4倍,双突变体则多出约10倍。突变体中的氢化酶活性与亲本菌株相似;因此,氢化酶在缺镍条件下被完全激活。在低镍条件下,富含组氨酸的蛋白质似乎与镍依赖性脲酶成熟机制相互竞争。将生长培养基的pH从7.3降至5时,野生型脲酶活性增加了三倍,但三个突变菌株中的活性相对未受影响。这种pH效应归因于富含组氨酸的蛋白质的镍储存作用。在低镍条件下,添加镍螯合剂对野生型脲酶活性没有显著影响,但降低了所有突变体的活性,这支持了富含组氨酸的蛋白质作为镍储存库的作用。这些镍储存库显著影响所达到的活性脲酶活性。根据外源镍水平,富含组氨酸的蛋白质发挥双重作用,既是镍储存蛋白,也是金属解毒蛋白。

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