用螯合树脂纯化的糖的柠檬酸发酵

Citric acid fermentation of sugars purified with chelating resin.

作者信息

NOGUCHI Y, JOHNSON M J

出版信息

J Bacteriol. 1961 Oct;82(4):538-41. doi: 10.1128/jb.82.4.538-541.1961.

DOI:10.1128/jb.82.4.538-541.1961

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC279203/

Abstract

Noguchi, Yuichi (University of Wisconsin, Madison), and Marvin J. Johnson. Citric acid fermentation of sugars purified with chelating resin. J. Bacteriol. 82:538-541. 1961.-A new, independently isolated strain of Aspergillus niger capable of giving high yields of citric acid in submerged culture was found to show the same behavior toward iron, zinc, and manganese as a previously studied strain. Citric acid accumulation did not occur in the presence of manganese. Best citric acid production was obtained in the presence of limited amounts of iron and zinc. Use of a chelating ion exchange resin was found to be an excellent method of removing polyvalent metals from sugars, either for analytical purposes or for fermentation. Commercial glucose, after resin treatment, gave citric acid yields of more than 80% when supplemented with iron and zinc. Unpurified glucose was converted to citric acid in good yields by mycelium grown on resin-treated glucose.

摘要

野口雄一（威斯康星大学麦迪逊分校）和马文·J·约翰逊。用螯合树脂纯化的糖的柠檬酸发酵。《细菌学杂志》82:538 - 541。1961年。——发现一种新的、独立分离的黑曲霉菌株，在深层培养中能够高产柠檬酸，它对铁、锌和锰的反应与之前研究的菌株相同。在有锰存在的情况下不积累柠檬酸。在有限量的铁和锌存在时柠檬酸产量最佳。发现使用螯合离子交换树脂是从糖中去除多价金属的一种极好方法，无论是用于分析目的还是发酵。经树脂处理后的市售葡萄糖，在补充铁和锌后柠檬酸产量超过80%。用在树脂处理过的葡萄糖上生长的菌丝体可将未纯化的葡萄糖高效转化为柠檬酸。

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本文引用的文献

1

FACTORS PRODUCING HIGH YEAST YIELDS IN SYNTHETIC MEDIA.

J Bacteriol. 1949 Feb;57(2):235-46. doi: 10.1128/jb.57.2.235-246.1949.

2

The Interdependence of Medium Constituents in Citric Acid Production by Submerged Fermentation.

J Bacteriol. 1948 Nov;56(5):577-85. doi: 10.1128/jb.56.5.577-585.1948.

3

Effect of the Composition of the Sporulation Medium on Citric Acid Production by Aspergillus niger in Submerged Culture.

J Bacteriol. 1947 Aug;54(2):161-7. doi: 10.1128/jb.54.2.161-167.1947.

4

Effect of ferrocyanide on growth and acid production of Aspergillus niger.

Can J Microbiol. 1955 Oct;1(8):644-52. doi: 10.1139/m55-077.

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