细菌外膜蛋白在穿过周质期间的折叠。

Folding of a bacterial outer membrane protein during passage through the periplasm.

作者信息

Eppens E F, Nouwen N, Tommassen J

机构信息

Department of Molecular Cell Biology and Institute of Biomembranes, Utrecht University, The Netherlands.

出版信息

EMBO J. 1997 Jul 16;16(14):4295-301. doi: 10.1093/emboj/16.14.4295.

DOI:10.1093/emboj/16.14.4295

PMID:9250673

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1170055/

Abstract

The transport of bacterial outer membrane proteins to their destination might be either a one-step process via the contact zones between the inner and outer membrane or a two-step process, implicating a periplasmic intermediate that inserts into the membrane. Furthermore, folding might precede insertion or vice versa. To address these questions, we have made use of the known 3D-structure of the trimeric porin PhoE of Escherichia coli to engineer intramolecular disulfide bridges into this protein at positions that are not exposed to the periplasm once the protein is correctly assembled. The mutations did not interfere with the biogenesis of the protein, and disulfide bond formation appeared to be dependent on the periplasmic enzyme DsbA, which catalyzes disulfide bond formation in the periplasm. This proves that the protein passes through the periplasm on its way to the outer membrane. Furthermore, since the disulfide bonds create elements of tertiary structure within the mutant proteins, it appears that these proteins are at least partially folded before they insert into the outer membrane.

摘要

细菌外膜蛋白运输到其目的地可能是通过内膜和外膜之间的接触区域进行的一步过程，也可能是两步过程，这涉及到一个插入膜中的周质中间体。此外，折叠可能先于插入，反之亦然。为了解决这些问题，我们利用了大肠杆菌三聚体孔蛋白PhoE已知的三维结构，在该蛋白正确组装后不暴露于周质的位置引入分子内二硫键。这些突变并不干扰该蛋白的生物合成，二硫键的形成似乎依赖于周质酶DsbA，它催化周质中二硫键的形成。这证明该蛋白在到达外膜的途中穿过周质。此外，由于二硫键在突变蛋白中形成三级结构元件，这些蛋白在插入外膜之前似乎至少部分折叠。

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