Laboratory of Basic and Applied Molecular Biotechnology, Graduate School of Agriculture, Kyoto University, Kyoto, Japan.
J Appl Microbiol. 2011 Oct;111(4):932-8. doi: 10.1111/j.1365-2672.2011.05109.x. Epub 2011 Aug 11.
To characterize the complementary production of two types of siderophores in Azotobacter vinelandii.
In an iron-insufficient environment, nitrogen-fixing A. vinelandii produces peptidic (azotobactin) and catechol siderophores for iron uptake to be used as a nitrogenase cofactor. Molybdenum, another nitrogenase cofactor, was also found to affect the production level of siderophores. Wild-type cells excreted azotobactin into molybdenum-supplemented and iron-insufficient medium, although catechol siderophores predominate in molybdenum-free environments. Two gene clusters were identified to be involved in the production of azotobactin and catechol siderophores through gene annotation and disruption. Azotobactin-deficient mutant cells produced catechol siderophores under the molybdenum-supplemented and iron-insufficient conditions, whereas catechol siderophore-deficient mutant cells extracellularly secreted excess azotobactin under iron-deficient condition independent of the concentration of molybdenum. This evidence suggests that a complementary siderophore production system exists in A. vinelandii.
Molybdenum was found to regulate the production level of two types of siderophores. Azotobacter vinelandii cells are equipped with a complementary production system for nitrogen fixation in response to a limited quantity of metals.
This is the first study identifying A. vinelandii gene clusters for the biosynthesis of two types of siderophores and clarifying the relationship between them.
研究固氮菌(Azotobacter vinelandii)中两种类型铁载体的互补生产。
在缺铁环境中,固氮菌(Azotobacter vinelandii)产生肽类(氮杂环丁烷)和儿茶酚类铁载体,以摄取铁作为氮酶辅因子。另一种氮酶辅因子钼也被发现影响铁载体的生产水平。野生型细胞在钼补充和缺铁的培养基中分泌氮杂环丁烷,尽管儿茶酚类铁载体在没有钼的环境中占优势。通过基因注释和敲除,鉴定出两个基因簇参与氮杂环丁烷和儿茶酚类铁载体的生产。在钼补充和缺铁条件下,氮杂环丁烷缺陷突变细胞产生儿茶酚类铁载体,而儿茶酚类铁载体缺陷突变细胞在缺铁条件下,无论钼浓度如何,都会分泌过量的氮杂环丁烷。这一证据表明,固氮菌(Azotobacter vinelandii)中存在一种互补的铁载体生产系统。
钼被发现调节两种类型铁载体的生产水平。固氮菌(Azotobacter vinelandii)细胞配备了一种互补的生产系统,以应对有限数量的金属进行氮固定。
这是首次鉴定出固氮菌(Azotobacter vinelandii)合成两种类型铁载体的基因簇,并阐明它们之间的关系。
