Type VI secretion system sheath inter‐subunit interactions modulate its contraction
نویسندگان
چکیده
Secretion systems are essential for bacteria to survive and manipulate their environment. The bacterial type VI secretion system (T6SS) generates the force needed for protein translocation by the contraction of a long polymer called sheath. The sheath is a six-start helical assembly of interconnected VipA/VipB subunits. The mechanism of T6SS sheath contraction is unknown. Here, we show that elongating the N-terminal VipA linker or eliminating charge of a specific VipB residue abolishes sheath contraction and delivery of effectors into target cells. Mass spectrometry analysis identified the inner tube protein Hcp, spike protein VgrG, and other components of the T6SS baseplate significantly enriched in samples of the stable non-contractile sheaths. The ability to lock the T6SS in the pre-firing state opens new possibilities for understanding its mode of action.
منابع مشابه
VipA N-terminal linker and VipB-VipB interaction modulate the contraction of Type VI secretion system sheath
8 Secretion systems are essential for bacteria to survive and manipulate their environment. The 9 bacterial Type VI Secretion System (T6SS) generates the force needed for protein translocation 10 by the contraction of a long polymer called sheath, which is composed of interconnected 11 VipA/VipB subunits forming a six-start helix. The mechanism of T6SS sheath contraction and the 12 structure of...
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