The Structure of a Conserved Domain of TamB Reveals a Hydrophobic β Taco Fold

Inokentijs Josts; Christopher James Stubenrauch; Grishma Vadlamani; Khedidja Mosbahi; Daniel Walker; Trevor Lithgow; Rhys Grinter

doi:10.1016/j.str.2017.10.002

The Structure of a Conserved Domain of TamB Reveals a Hydrophobic β Taco Fold

Inokentijs Josts, Christopher James Stubenrauch, Grishma Vadlamani, Khedidja Mosbahi, Daniel Walker, Trevor Lithgow, Rhys Grinter

Microbiology and Infection

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Abstract

The translocation and assembly module (TAM) plays a role in the transport and insertion of proteins into the bacterial outer membrane. TamB, a component of this system spans the periplasmic space to engage with its partner protein TamA. Despite efforts to characterize the TAM, the structure and mechanism of action of TamB remained enigmatic. Here we present the crystal structure of TamB amino acids 963-1,138. This region represents half of the conserved DUF490 domain, the defining feature of TamB. TamB963-1138consists of a concave, taco-shaped β sheet with a hydrophobic interior. This β taco structure is of dimensions capable of accommodating and shielding the hydrophobic side of an amphipathic β strand, potentially allowing TamB to chaperone nascent membrane proteins from the aqueous environment. In addition, sequence analysis suggests that the structure of TamB963-1138is shared by a large portion of TamB. This architecture could allow TamB to act as a conduit for membrane proteins.

Original language	English
Pages (from-to)	1898-1906.e5
Journal	Structure
Volume	25
Issue number	12
DOIs	https://doi.org/10.1016/j.str.2017.10.002
Publication status	Published - 5 Dec 2017

Keywords

Escherichia coli
TamB
microbiology
chaperone
membrane biology
protein assembly
X-ray crystallography

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title = "The Structure of a Conserved Domain of TamB Reveals a Hydrophobic β Taco Fold",

abstract = "The translocation and assembly module (TAM) plays a role in the transport and insertion of proteins into the bacterial outer membrane. TamB, a component of this system spans the periplasmic space to engage with its partner protein TamA. Despite efforts to characterize the TAM, the structure and mechanism of action of TamB remained enigmatic. Here we present the crystal structure of TamB amino acids 963-1,138. This region represents half of the conserved DUF490 domain, the defining feature of TamB. TamB963-1138consists of a concave, taco-shaped β sheet with a hydrophobic interior. This β taco structure is of dimensions capable of accommodating and shielding the hydrophobic side of an amphipathic β strand, potentially allowing TamB to chaperone nascent membrane proteins from the aqueous environment. In addition, sequence analysis suggests that the structure of TamB963-1138is shared by a large portion of TamB. This architecture could allow TamB to act as a conduit for membrane proteins.",

keywords = "Escherichia coli, TamB, microbiology, chaperone, membrane biology, protein assembly, X-ray crystallography",

author = "Inokentijs Josts and Stubenrauch, {Christopher James} and Grishma Vadlamani and Khedidja Mosbahi and Daniel Walker and Trevor Lithgow and Rhys Grinter",

year = "2017",

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doi = "10.1016/j.str.2017.10.002",

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TY - JOUR

T1 - The Structure of a Conserved Domain of TamB Reveals a Hydrophobic β Taco Fold

AU - Josts, Inokentijs

AU - Stubenrauch, Christopher James

AU - Vadlamani, Grishma

AU - Mosbahi, Khedidja

AU - Walker, Daniel

AU - Lithgow, Trevor

AU - Grinter, Rhys

PY - 2017/12/5

Y1 - 2017/12/5

N2 - The translocation and assembly module (TAM) plays a role in the transport and insertion of proteins into the bacterial outer membrane. TamB, a component of this system spans the periplasmic space to engage with its partner protein TamA. Despite efforts to characterize the TAM, the structure and mechanism of action of TamB remained enigmatic. Here we present the crystal structure of TamB amino acids 963-1,138. This region represents half of the conserved DUF490 domain, the defining feature of TamB. TamB963-1138consists of a concave, taco-shaped β sheet with a hydrophobic interior. This β taco structure is of dimensions capable of accommodating and shielding the hydrophobic side of an amphipathic β strand, potentially allowing TamB to chaperone nascent membrane proteins from the aqueous environment. In addition, sequence analysis suggests that the structure of TamB963-1138is shared by a large portion of TamB. This architecture could allow TamB to act as a conduit for membrane proteins.

AB - The translocation and assembly module (TAM) plays a role in the transport and insertion of proteins into the bacterial outer membrane. TamB, a component of this system spans the periplasmic space to engage with its partner protein TamA. Despite efforts to characterize the TAM, the structure and mechanism of action of TamB remained enigmatic. Here we present the crystal structure of TamB amino acids 963-1,138. This region represents half of the conserved DUF490 domain, the defining feature of TamB. TamB963-1138consists of a concave, taco-shaped β sheet with a hydrophobic interior. This β taco structure is of dimensions capable of accommodating and shielding the hydrophobic side of an amphipathic β strand, potentially allowing TamB to chaperone nascent membrane proteins from the aqueous environment. In addition, sequence analysis suggests that the structure of TamB963-1138is shared by a large portion of TamB. This architecture could allow TamB to act as a conduit for membrane proteins.

KW - Escherichia coli

KW - TamB

KW - microbiology

KW - chaperone

KW - membrane biology

KW - protein assembly

KW - X-ray crystallography

U2 - 10.1016/j.str.2017.10.002

DO - 10.1016/j.str.2017.10.002

M3 - Article

C2 - 29129383

SN - 0969-2126

VL - 25

SP - 1898-1906.e5

JO - Structure

JF - Structure

IS - 12

ER -

The Structure of a Conserved Domain of TamB Reveals a Hydrophobic β Taco Fold

Abstract

Keywords

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