致病性解脲棒状杆菌DSM 7109细胞壁最小成孔蛋白的鉴定与表征。

Q2 Biochemistry, Genetics and Molecular Biology
Narges Abdali, Farhan Younas, Samaneh Mafakheri, Karunakar R Pothula, Ulrich Kleinekathöfer, Andreas Tauch, Roland Benz
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引用次数: 6

摘要

背景:解脲棒状杆菌(棒状杆菌解脲棒状杆菌)是真菌科的一种致病性、多重耐药的成员,虽然它是一种皮肤菌群细菌,但它被认为是尿路感染的病原体。这种致病菌与霉菌具有不同寻常的细胞包膜组成和结构的特性,这是棒状杆菌属的典型特征。菌体成员的细胞壁含有用于吸收溶质的通道形成蛋白。结果:在本研究中,我们对解脲酵母DSM 7109细胞壁上的一种成孔蛋白的鉴定和表征提供了新的信息。解脲酵母培养物的洗涤提取物在脂质双层膜中形成微阳离子选择性孔,在1 M KCl条件下单通道电导率为1.75 nS。不同盐和非电解质的实验表明,解脲酵母细胞壁孔宽且充满水,直径约为1.8 nm。分子建模和动力学已被执行,以获得孔隙的模型。为了寻找解脲脲棒状杆菌细胞壁孔的编码基因,我们在已知的解脲脲棒状杆菌基因组中寻找与其他已知棒状杆菌菌株的porH和porA基因相似的孔蛋白基因染色体定位。三个基因位于编码GroEL2和多磷酸激酶(PKK2)的基因之间。其中两个基因cur_1714和cur_1715在C. glutamicum ΔporAΔporH和缺乏孔蛋白的BL21 DE3 Omp8大肠杆菌中以不同的结构表达。结果表明,cur_1714基因单独编码细胞壁通道。采用不同的生化方法纯化解脲酵母细胞壁孔蛋白PorACur,经含三嗪十二烷基硫酸钠聚丙烯酰胺凝胶电泳(SDS-PAGE)鉴定,其表观分子质量约为4 kDa。结论:纯化蛋白(PorACur)的生物物理特性表明,cur_1714确实是解脲酵母成孔蛋白的基因编码,因为该蛋白在脂质双分子层中形成的孔与整个细胞的洗涤剂提取物形成的孔相同。该研究是首次报道致病性解脲支原体细胞壁通道。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Identification and characterization of smallest pore-forming protein in the cell wall of pathogenic Corynebacterium urealyticum DSM 7109.

Identification and characterization of smallest pore-forming protein in the cell wall of pathogenic Corynebacterium urealyticum DSM 7109.

Identification and characterization of smallest pore-forming protein in the cell wall of pathogenic Corynebacterium urealyticum DSM 7109.

Identification and characterization of smallest pore-forming protein in the cell wall of pathogenic Corynebacterium urealyticum DSM 7109.

Background: Corynebacterium urealyticum, a pathogenic, multidrug resistant member of the mycolata, is known as causative agent of urinary tract infections although it is a bacterium of the skin flora. This pathogenic bacterium shares with the mycolata the property of having an unusual cell envelope composition and architecture, typical for the genus Corynebacterium. The cell wall of members of the mycolata contains channel-forming proteins for the uptake of solutes.

Results: In this study, we provide novel information on the identification and characterization of a pore-forming protein in the cell wall of C. urealyticum DSM 7109. Detergent extracts of whole C. urealyticum cultures formed in lipid bilayer membranes slightly cation-selective pores with a single-channel conductance of 1.75 nS in 1 M KCl. Experiments with different salts and non-electrolytes suggested that the cell wall pore of C. urealyticum is wide and water-filled and has a diameter of about 1.8 nm. Molecular modelling and dynamics has been performed to obtain a model of the pore. For the search of the gene coding for the cell wall pore of C. urealyticum we looked in the known genome of C. urealyticum for a similar chromosomal localization of the porin gene to known porH and porA genes of other Corynebacterium strains. Three genes are located between the genes coding for GroEL2 and polyphosphate kinase (PKK2). Two of the genes (cur_1714 and cur_1715) were expressed in different constructs in C. glutamicum ΔporAΔporH and in porin-deficient BL21 DE3 Omp8 E. coli strains. The results suggested that the gene cur_1714 codes alone for the cell wall channel. The cell wall porin of C. urealyticum termed PorACur was purified to homogeneity using different biochemical methods and had an apparent molecular mass of about 4 kDa on tricine-containing sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE).

Conclusions: Biophysical characterization of the purified protein (PorACur) suggested indeed that cur_1714 is the gene coding for the pore-forming protein in C. urealyticum because the protein formed in lipid bilayer experiments the same pores as the detergent extract of whole cells. The study is the first report of a cell wall channel in the pathogenic C. urealyticum.

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来源期刊
BMC Biochemistry
BMC Biochemistry BIOCHEMISTRY & MOLECULAR BIOLOGY-
CiteScore
4.80
自引率
0.00%
发文量
0
审稿时长
3 months
期刊介绍: BMC Biochemistry is an open access journal publishing original peer-reviewed research articles in all aspects of biochemical processes, including the structure, function and dynamics of metabolic pathways, supramolecular complexes, enzymes, proteins, nucleic acids and small molecular components of organelles, cells and tissues. BMC Biochemistry (ISSN 1471-2091) is indexed/tracked/covered by PubMed, MEDLINE, BIOSIS, CAS, EMBASE, Scopus, Zoological Record, Thomson Reuters (ISI) and Google Scholar.
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