热泉古菌(Archaeoglobus fulgidus)应激产生生物膜。
Stress-Induced Production of Biofilm in the Hyperthermophile Archaeoglobus fulgidus.
出版信息
Appl Environ Microbiol. 1997 Aug;63(8):3158-63. doi: 10.1128/aem.63.8.3158-3163.1997.
Abstract
Archaeoglobus fulgidus, an anaerobic marine hyperthermophile, forms a biofilm in response to environmental stresses. The biofilm is a heterogeneous, morphologically variable structure containing protein, polysaccharide, and metals. Production of the biofilm can be induced by nonphysiological extremes of pH and temperature, by high concentrations of metals, and by addition of antibiotics, xenobiotics, or oxygen. Cells within the biofilm show an increased tolerance to otherwise toxic environmental conditions. Metals sequestered within the biofilm stimulate growth of A. fulgidus cells in metal-depleted medium. These data suggest that cells may produce biofilm as a mechanism for concentrating cells and attaching to surfaces, as a protective barrier, and as a reserve nutrient. Because similar biofilms are formed by Archaeoglobus profundus, Methanococcus jannaschii, and Methanobacterium thermoautotrophicum, biofilm formation might be a common stress response mechanism among the archaea.
摘要
产甲烷古菌是一类严格厌氧的极端嗜热古菌,能够在各种极端环境中生存。产甲烷古菌在受到环境胁迫时会形成生物膜。生物膜是一种异质的、形态可变的结构,包含蛋白质、多糖和金属。生物膜的形成可以通过非生理极限的 pH 值和温度、高浓度的金属以及抗生素、外源化学物质或氧气的添加来诱导。生物膜内的细胞对其他有毒的环境条件表现出更高的耐受性。生物膜内螯合的金属会刺激在金属耗尽的培养基中生长的产甲烷古菌细胞的生长。这些数据表明,细胞可能会产生生物膜作为一种浓缩细胞和附着在表面上的机制,作为一种保护屏障,并作为储备营养物质。由于产甲烷深海热泉古菌、詹氏甲烷球菌和嗜热自养甲烷杆菌也会形成类似的生物膜,因此生物膜的形成可能是古菌中一种常见的应激反应机制。
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