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锌、铁、钴和锰对串珠镰刀菌NRRL 13616在深层培养中生长及镰刀菌素C生物合成的影响。

Effects of zinc, iron, cobalt, and manganese on Fusarium moniliforme NRRL 13616 growth and fusarin C biosynthesis in submerged cultures.

作者信息

Jackson M A, Slininger P J, Bothast R J

机构信息

Northern Regional Research Center, U.S. Department of Agriculture, Peoria, Illinois 61604.

出版信息

Appl Environ Microbiol. 1989 Mar;55(3):649-55. doi: 10.1128/aem.55.3.649-655.1989.

DOI:10.1128/aem.55.3.649-655.1989
PMID:2930169
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC184174/
Abstract

The influence of zinc, iron, cobalt, and manganese on submerged cultures of Fusarium moniliforme NRRL 13616 was assessed by measuring dry weight accumulation, fusarin C biosynthesis, and ammonia assimilation. Shake flask cultures were grown in a nitrogen-limited defined medium supplemented with various combinations of metal ions according to partial-factorial experimental designs. Zinc (26 to 3,200 ppb [26 to 3,200 ng/ml]) inhibited fusarin C biosynthesis, increased dry weight accumulation, and increased ammonia assimilation. Carbohydrate was found to be the principal component of the increased dry weight in zinc-supplemented cultures. Zinc-deficient cultures synthesized more lipid and lipidlike compounds, such as fusarin C, than did zinc-supplemented cultures. Microscopic examination showed that zinc-deficient hyphae contained numerous lipid globules which were not present in zinc-supplemented cultures. Addition of zinc (3,200 ppb) to 2- and 4-day-old cultures inhibited further fusarin C biosynthesis but did not stimulate additional dry weight accumulation. Iron (10.0 ppm) and cobalt (9.0 ppm) did not affect fusarin C biosynthesis or dry weight accumulation. Manganese (5.1 ppm) did not affect dry weight accumulation but did increase fusarin C biosynthesis in the absence of zinc. Maximum fusarin C levels, 32.3 micrograms/mg (dry weight), were produced when cultures were supplied manganese, whereas minimum fusarin C levels, 0.07 micrograms/mg (dry weight), were produced when zinc, iron, cobalt, and manganese were supplied. These results suggest a multifunctional role for zinc in affecting F. moniliforme metabolism.

摘要

通过测量干重积累、镰刀菌素C生物合成和氨同化作用,评估了锌、铁、钴和锰对串珠镰刀菌NRRL 13616深层培养的影响。根据部分因子实验设计,在氮限制的限定培养基中添加各种金属离子组合,进行摇瓶培养。锌(26至3200 ppb [26至3200 ng/ml])抑制镰刀菌素C生物合成,增加干重积累,并增加氨同化作用。发现碳水化合物是添加锌的培养物中干重增加的主要成分。缺锌培养物比添加锌的培养物合成更多的脂质和类脂质化合物,如镰刀菌素C。显微镜检查表明,缺锌菌丝含有许多添加锌的培养物中不存在的脂质球。向2日龄和4日龄培养物中添加锌(3200 ppb)可抑制镰刀菌素C的进一步生物合成,但不会刺激额外的干重积累。铁(10.0 ppm)和钴(9.0 ppm)不影响镰刀菌素C生物合成或干重积累。锰(5.1 ppm)不影响干重积累,但在缺锌的情况下会增加镰刀菌素C生物合成。当培养物供应锰时,镰刀菌素C的最高水平为32.3微克/毫克(干重),而当供应锌、铁、钴和锰时,镰刀菌素C的最低水平为0.07微克/毫克(干重)。这些结果表明锌在影响串珠镰刀菌代谢中具有多功能作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e7bd/184174/1a52dde28d4c/aem00096-0119-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e7bd/184174/1a52dde28d4c/aem00096-0119-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e7bd/184174/1a52dde28d4c/aem00096-0119-a.jpg

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