微生物黏附溶剂法表征链霉菌细胞表面。

IF 2.8 Q3 MICROBIOLOGY
C Zanane, S Mitro, D Mazigh, S Lekchiri, T Hakim, M El Louali, H Latrache, H Zahir
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引用次数: 1

摘要

链霉菌的细胞表面物理化学性质会影响孢子和菌丝在土壤中的扩散和吸附,并调节其与有机或金属物质的相互作用,以进行污染环境的生物修复。这些性质涉及表面疏水性、电子供体/受体和电荷表面。迄今为止,仅通过接触角测量和微生物对碳氢化合物的粘附(MATH)来研究链霉菌的疏水性。本文研究了在离子强度为10-3 M和10-1 M的KNO3离子下链霉菌细胞表面的电子供体/受体特性。因此,为了便于微生物细胞表面的表征,我们使用了一种简单、快速和定量的技术,即微生物对溶剂的粘附法(MATS),这是基于微生物细胞对单极溶剂和极性溶剂的亲和力的比较。单极溶剂可以是酸性(电子受体)或碱性(电子供体),但这两种溶剂的表面张力都应与Kifshitz van der Waals组分相似。在生物介质离子强度显著的条件下,14株链霉菌的电子供体特性都得到了很好的表达,差异非常显著,范围为0% ~ 72.92%。当细胞被放置在具有较高离子强度的溶液中时,我们能够将供体特征结果分为三类。第一类是菌株A53和A58的弱供体性状在10-1 M KNO3浓度下更加表达。第二类是菌株A30、A60和A63在较高离子强度下表现出较弱的特性。对于其他菌株,在较高的离子强度下没有得到供体性状的表达。在浓度为10-3 KNO3的悬浮液中,只有两株菌株表现出电子受体特征。在10-1M KNO3条件下,这一特性对菌株A49、A57、A58、A60、A63和A65非常重要。这项工作表明,这些特性在很大程度上取决于链霉菌菌株。在不同的生物过程中使用链霉菌时,考虑具有离子强度的表面细胞的理化性质的变化是很重要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Characterization of <i>Streptomyces</i> Cell Surface by the Microbial Adhesion to Solvents Method.

Characterization of <i>Streptomyces</i> Cell Surface by the Microbial Adhesion to Solvents Method.

Characterization of <i>Streptomyces</i> Cell Surface by the Microbial Adhesion to Solvents Method.

Characterization of Streptomyces Cell Surface by the Microbial Adhesion to Solvents Method.

The cell surface physicochemical properties of Streptomyces should influencing the dispersal and adsorption of spores and hyphae in soil and should conditioning there interactions with organic or metal substances in the bioremediation of contaminated environment. These properties are concerning surface hydrophobicity, electron donor/acceptor, and charge surface. To date, only hydrophobicity of Streptomyces was studied by contact angle measurements and microbial adhesion to hydrocarbons (MATH). In this work, we studied the electron donor/acceptor character of the Streptomyces cell surface in two ionic strength 10-3 M and 10-1 M of KNO3. Thus, to facilitate the characterisation of the surfaces of microbial cells, we used a simple, rapid, and quantitative technique, the microbial adhesion method to solvents (MATS), which is based on the comparison of the affinity of microbial cells for a monopolar solvent with a polar solvent. The monopolar solvent can be acid (electron acceptor) or basic (electron donor), but both solvents should have a surface tension similar to that of the Kifshitz van der Waals components. At the significant ionic strength of the biological medium, the electron donor character is well expressed for all 14 Streptomyces strains with very significant differences among them ranging from 0% to 72.92%. When the cells were placed in a solution with a higher ionic strength, we were able to classify the donor character results into three categories. The first category is that the weak donor character of strains A53 and A58 became more expressed at 10-1 M KNO3 concentration. The second category is that three strains A30, A60, and A63 expressed a weaker character in a higher ionic strength. For the other strains, no expression of the donor trait was obtained at higher ionic strength. In a suspension with a concentration of 10-3 KNO3, only two strains expressed an electron acceptor character. This character is very important for strains A49, A57, A58, A60, A63, and A65 at 10-1M KNO3. This work has shown that these properties vary greatly depending on the Streptomyces strain. It is important to consider the change in physicochemical properties of surface cells with ionic strength when using Streptomyces in different bioprocesses.

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来源期刊
CiteScore
7.90
自引率
0.00%
发文量
57
审稿时长
13 weeks
期刊介绍: International Journal of Microbiology is a peer-reviewed, Open Access journal that publishes original research articles, review articles, and clinical studies on microorganisms and their interaction with hosts and the environment. The journal covers all microbes, including bacteria, fungi, viruses, archaea, and protozoa. Basic science will be considered, as well as medical and applied research.
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