Glycolipozyme MPIase is essential for topology inversion of SecG during preprotein translocation

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Abstract

Presecretory proteins are translocated across biological membranes through protein-conducting channels such as Sec61 (eukaryotes) and SecYEG (bacteria). SecA, a translocation ATPase, pushes preproteins out with dynamic structural changes through SecYEG. SecG, a subunit of the SecYEG channel possessing two transmembrane stretches (TMs), undergoes topology inversion coupled with SecA-dependent translocation. Recently, we characterized membrane protein integrase (MPIase), a glycolipozyme involved in not only protein integration into membranes but also preprotein translocation. We report here that SecG inversion occurs only when MPIase associates with SecYEG. We also found that MPIase modulates the dimer orientation of SecYEG. Cysteine-scanning mutagenesis mapped SecG TM 2 to a relatively hydrophilic environment. The dimer formation of SecG, crosslinked at TM 2, was not observed on SecG inversion, indicating that SecYEG undergoes a dynamic structural change during preprotein translocation.

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Moser, M., Nagamori, S., Huber, M., Tokuda, H., & Nishiyama, K. I. (2013). Glycolipozyme MPIase is essential for topology inversion of SecG during preprotein translocation. Proceedings of the National Academy of Sciences of the United States of America, 110(24), 9734–9739. https://doi.org/10.1073/pnas.1303160110

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