一株斯氏假单胞菌外膜蛋白将铜插入一氧化二氮还原酶中。
A Pseudomonas stutzeri outer membrane protein inserts copper into N2O reductase.
作者信息
Mokhele K, Tang Y J, Clark M A, Ingraham J L
机构信息
Department of Bacteriology, University of California, Davis 95616.
出版信息
J Bacteriol. 1987 Dec;169(12):5721-6. doi: 10.1128/jb.169.12.5721-5726.1987.
Among a set of frameshift mutagen (ICR-191; Polysciences, Inc.)-induced mutations that confer inability to grow anaerobically with N2O as the sole electron acceptor, one class was found that produced an inactive N2O reductase which lacked copper. All of these mutant strains failed to produce a 61,000-Mr protein located in the outer membrane. This protein, termed NosA, seems not to be responsible for bringing copper into the cell because the mutant strains and their parent were similarly sensitive to the copper content of the growth medium and no intermediate copper concentration in the medium permitted the mutant strains (nosA) to grow anaerobically with N2O as the sole electron acceptor. We conclude that NosA is necessary to insert copper into N2O reductase or to maintain it there.
在一组移码诱变剂(ICR - 191;Polysciences公司)诱导产生的突变中,这些突变导致菌株无法以一氧化二氮(N₂O)作为唯一电子受体进行厌氧生长,其中发现了一类产生无活性且缺乏铜的一氧化二氮还原酶的突变。所有这些突变菌株都无法产生位于外膜的一种61,000道尔顿的蛋白质。这种蛋白质称为NosA,似乎并非负责将铜带入细胞,因为突变菌株及其亲本对生长培养基中的铜含量同样敏感,并且培养基中不存在能使突变菌株(nosA)以N₂O作为唯一电子受体进行厌氧生长的中间铜浓度。我们得出结论,NosA对于将铜插入一氧化二氮还原酶或维持其在该酶中的存在是必要的。
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