巨大芽孢杆菌芽孢形成所需的痕量金属

TRACE METAL REQUIREMENTS FOR SPORULATION OF BACILLUS MEGATERIUM.

作者信息

KOLODZIEJ B J, SLEPECKY R A

出版信息

J Bacteriol. 1964 Oct;88(4):821-30. doi: 10.1128/jb.88.4.821-830.1964.

DOI:10.1128/jb.88.4.821-830.1964

PMID:14219042

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC314820/

Abstract

Kolodziej, Bruno J. (Northwestern University, Evanston, Ill.), and Ralph A. Slepecky. Trace metal requirements for sporulation of Bacillus megaterium. J. Bacteriol. 88:821-830. 1964.-A sucrose-mineral salts medium was purified for the purpose of definitively re-examining the trace metal cations associated with the sporulation of Bacillus megaterium. Two heretofore unknown requirements for copper (0.013 mug/ml of cupric ion) and molybdenum (27.2 mug/ml of molybdate ion) were uncovered. In the purified copper-supplemented medium, sporulation levels of other metals were determined as follows: iron, 0.5 mug/ml of ferrous ion; zinc, 1.1 mug/ml of zinc ion; manganese, 0.037 mug/ml of manganous ion; and calcium, 0.9 mug/ml of calcium ion. The approximate time during which the various metals were required was determined with iron, zinc, calcium, and manganese. A molybdenum substitution for copper, iron, or zinc was noted. The copper requirement was shown for the sporulation of B. cereus var. mycoides and var. albolactis, suggesting that this may be a general requirement for sporulation. The specific functions of metal ions in sporulation are not known, but they probably act as activators of the various enzyme systems necessary for sporulation.

摘要

科洛德齐耶，布鲁诺·J.（西北大学，伊利诺伊州埃文斯顿），以及拉尔夫·A. 斯莱佩茨基。巨大芽孢杆菌芽孢形成所需的痕量金属。《细菌学杂志》88:821 - 830。1964年。——为了明确重新研究与巨大芽孢杆菌芽孢形成相关的痕量金属阳离子，对一种蔗糖 - 矿物盐培养基进行了纯化。发现了两种此前未知的对铜（0.013微克/毫升铜离子）和钼（27.2微克/毫升钼酸根离子）的需求。在纯化的添加铜的培养基中，确定了其他金属的芽孢形成水平如下：铁，0.5微克/毫升亚铁离子；锌，1.1微克/毫升锌离子；锰，0.037微克/毫升锰离子；钙，0.9微克/毫升钙离子。用铁、锌、钙和锰确定了各种金属所需的大致时间。注意到钼可替代铜、铁或锌。已表明蜡样芽孢杆菌蕈状变种和白色乳杆菌变种的芽孢形成需要铜，这表明这可能是芽孢形成的普遍需求。金属离子在芽孢形成中的具体功能尚不清楚，但它们可能作为芽孢形成所需的各种酶系统的激活剂。

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[The determinism of sporulation of the Bacillus megatherium. II. Effect of deficiency of mineral constituent in synthetic medium].[巨大芽孢杆菌芽孢形成的决定因素。II. 合成培养基中矿物质成分缺乏的影响]

Ann Inst Pasteur (Paris). 1952 Jan;82(1):66-77.

Managanese as an essential element for sporulation in the genus Bacillus.锰是芽孢杆菌属中孢子形成的必需元素。

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Studies on factors affecting the heat resistance of spores of Clostridium botulinum.肉毒梭菌芽孢耐热性影响因素的研究。

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Symposium on metabolism of inorganic compounds. II. Enzymatic pathways of nitrate, nitrite, and hydroxylamine metabolisms.无机化合物代谢研讨会。II. 硝酸盐、亚硝酸盐和羟胺代谢的酶促途径。

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