胆碱衍生物参与青霉属真菌的耐渗性。
Choline Derivatives Involved in Osmotolerance of Penicillium fellutanum.
机构信息
Department of Microbiology and Cell Science, University of Florida, Gainesville, Florida 32611-0700.
出版信息
Appl Environ Microbiol. 1998 Jan;64(1):273-8. doi: 10.1128/AEM.64.1.273-278.1998.
Abstract
Penicillium fellutanum is osmotolerant and xerotolerant when cultured in a low-phosphate medium containing 3 M NaCl. Glycerol and erythritol accumulated in cultures with NaCl concentrations up to 2 M; glycerol was the only detectable polyol in cultures containing 3 M NaCl. In cultures with 3 M NaCl, the intracellular levels of glycine betaine and choline-O-sulfate were 22- and 2.6-fold greater (70 and 46 mM), respectively, than those of cultures without added NaCl. The levels of glycine betaine and glycerol decreased in mycelia transferred from a medium containing 3 M NaCl into a fresh medium without added NaCl. NaCl at 3 M inhibited mycelial mass accumulation; this inhibition was partially corrected by supplementation of cultures with glycine betaine (2 mM) or choline-O-sulfate (10 mM). The presence of exogenous choline chloride (2 mM) in plate cultures protected the cells from stress from 3 M NaCl. The data suggest that glycine betaine and choline-O-sulfate are secondary osmoprotectants which are effective at the point that the cell is incapable of synthesizing more glycerol.
摘要
在含有 3 M NaCl 的低磷培养基中培养时,青霉属(Penicillium)具有耐渗透压和耐旱性。当 NaCl 浓度高达 2 M 时,甘油和赤藓醇在培养物中积累;在含有 3 M NaCl 的培养物中,仅检测到甘油醇是多醇。在含有 3 M NaCl 的培养物中,甘氨酸甜菜碱和胆碱-O-硫酸盐的细胞内水平分别比没有添加 NaCl 的培养物高 22 倍(70 mM)和 2.6 倍(46 mM)。当将从含有 3 M NaCl 的培养基中转接到没有添加 NaCl 的新鲜培养基中的菌丝体时,甘氨酸甜菜碱和甘油的水平下降。3 M NaCl 抑制菌丝体质量的积累;通过向培养物中添加甘氨酸甜菜碱(2 mM)或胆碱-O-硫酸盐(10 mM),部分纠正了这种抑制。在平板培养物中添加外源氯化胆碱(2 mM)可保护细胞免受 3 M NaCl 的胁迫。数据表明,甘氨酸甜菜碱和胆碱-O-硫酸盐是次级渗透保护剂,在细胞无法合成更多甘油醇的情况下有效。
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