铜绿假单胞菌MS中参与一碳单位同化的酶。

Enzymes involved in the assimilation of one-carbon units by Pseudomonas MS.

作者信息

Wagner C, Levitch M E

出版信息

J Bacteriol. 1975 Jun;122(3):905-10. doi: 10.1128/jb.122.3.905-910.1975.

DOI:10.1128/jb.122.3.905-910.1975

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC246141/

Abstract

Pseudomonas MS can grow on methylamine and a number of other compounds containing C1 units as a sole source of carbon and energy. Assimilation of carbon into cell material occurs via the "serine pathway" since enzymes of this pathway are induced after growth on methylamine, but not malate or acetate. A mutant has been isolated which is unable to grow on methylamine or any other related substrate providing C1 units. This mutant is also unable to grow on acetate. Measurment of enzyme activities in cell-free extracts of wild-type cells showed that growth on methylamine caused induction of isocitrate lyase, a key enzyme in the glyoxylate cycle. The mutant organism lacks malate lyase, a key enzyme of the serine pathway, and isocitrate lyase as well. These results suggest that utilization of C1 units by Pseudomonas MS results in the net accumulation of acetate which is then assimilated into cell material via the glyoxylate cycle.

摘要

假单胞菌MS能够以甲胺和许多其他含C1单元的化合物作为唯一碳源和能源生长。碳通过“丝氨酸途径”被同化到细胞物质中，因为该途径的酶在以甲胺生长后被诱导，但在以苹果酸或乙酸盐生长后不会被诱导。已分离出一种突变体，它不能在甲胺或任何其他提供C1单元的相关底物上生长。该突变体也不能在乙酸盐上生长。对野生型细胞无细胞提取物中酶活性的测量表明，以甲胺生长会诱导异柠檬酸裂解酶，这是乙醛酸循环中的关键酶。突变生物体缺乏丝氨酸途径的关键酶苹果酸裂解酶以及异柠檬酸裂解酶。这些结果表明，假单胞菌MS对C1单元的利用导致乙酸盐的净积累，然后乙酸盐通过乙醛酸循环被同化到细胞物质中。

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Microbial growth on C(1) compounds. 4. Carboxylation of phosphoenolpyruvate in methanol-grown Pseudomonas AM1.C(1)化合物上的微生物生长。4. 甲醇培养的假单胞菌AM1中磷酸烯醇丙酮酸的羧化作用

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Microbial growth on C1 compounds. II. Synthesis of cell constituents by methanol- and formate-grown Pseudomonas AM 1, and methanol-grown Hyphomicrobium vulgare.C1化合物上的微生物生长。II. 甲醇和甲酸培养的假单胞菌AM 1以及甲醇培养的普通生丝微菌的细胞成分合成

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