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  • Title: Protein translocation functions of Escherichia coli SecY: in vitro characterization of cold-sensitive secY mutants.
    Author: Taura T, Yoshihisa T, Ito K.
    Journal: Biochimie; 1997 Sep; 79(8):517-21. PubMed ID: 9451453.
    Abstract:
    Protein translocation across the plasma membrane of E coli is facilitated by Sec factors, including the membrane-embedded SecYEG subunit and the SecA ATPase. Although there is complete agreement that SecA is essential for protein translocation, some publications question the essentialness of SecY. We previously isolated a number of cold-sensitive mutants of secY and characterized their in vivo phenotypes. In this study, we characterized membrane vesicles prepared from these mutants with respect to their in vitro activities to support protein translocation and to activate the SecA ATPase. These studies revealed several single amino acid alterations that abolish these in vitro activities of membrane vesicles. In particular, several mutations in the two most carboxy-terminal cytoplasmic domains of SecY prevented SecA from functioning as the translocation ATPase. A number of mutants showed strong correlations between in vivo protein export ability, in vitro translocation activity and in vitro translocation ATPase activity, substantiating the importance of SecY in vivo and in vitro. A few other mutants were affected in only one or two aspects of these properties, suggesting that they were differentially affected in some substeps of translocation. These results provide further evidence that SecY has vital roles in protein translocation, in which the 'motor' function of SecA and the 'channel' function of SecYEG should be coordinated.
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