Reassessment of MxiH subunit orientation and fold within native Shigella T3SS needles using surface labelling and solid-state NMR

Joeri Verasdonck; Dakang Shen; Alexander Treadgold; Chris Arthur; Anja Böckmann; Beat H Meier; Ariel J Blocker

doi:10.1016/j.jsb.2015.10.005

Reassessment of MxiH subunit orientation and fold within native Shigella T3SS needles using surface labelling and solid-state NMR

Joeri Verasdonck, Dakang Shen, Alexander Treadgold, Chris Arthur, Anja Böckmann, Beat H Meier, Ariel J Blocker

Research output: Contribution to journal › Article (Academic Journal) › peer-review

10 Citations (Scopus)

Abstract

T3SSs are essential virulence determinants of many Gram-negative bacteria, used to inject bacterial effectors of virulence into eukaryotic host cells. Their major extracellular portion, a ∼50 nm hollow, needle-like structure, is essential to host cell sensing and the conduit for effector secretion. It is formed of a small, conserved subunit arranged as a helical polymer. The structure of the subunit has been studied by electron cryomicroscopy within native polymers and by solid-state NMR in recombinant polymers, yielding two incompatible atomic models. To resolve this controversy, we re-examined the native polymer used for electron cryomicroscopy via surface labelling and solid-state NMR. Our data show the orientation and overall fold of the subunit within this polymer is as established by solid-state NMR for recombinant polymers.

Original language	English
Journal	Journal of Structural Biology
DOIs	https://doi.org/10.1016/j.jsb.2015.10.005
Publication status	Published - 3 Oct 2015

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10.1016/j.jsb.2015.10.005

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2 Finished

3-month Core Capability for Chemistry Research
Crosby, J.
1/01/13 → 1/04/13
Project: Research
Bacterial type III secretion systems: from structure to function
Blocker, A. J.
28/01/12 → 28/05/15
Project: Research

Dr Chris Arthur
- Chris.Arthur@bristol.ac.uk
- School of Chemistry - Research Fellow
- Biological and Archaeological Chemistry
Person: Academic , Member

Cite this

@article{96f5b5a77bd348cfa2900ddf14a2c71f,

title = "Reassessment of MxiH subunit orientation and fold within native Shigella T3SS needles using surface labelling and solid-state NMR",

abstract = "T3SSs are essential virulence determinants of many Gram-negative bacteria, used to inject bacterial effectors of virulence into eukaryotic host cells. Their major extracellular portion, a ∼50 nm hollow, needle-like structure, is essential to host cell sensing and the conduit for effector secretion. It is formed of a small, conserved subunit arranged as a helical polymer. The structure of the subunit has been studied by electron cryomicroscopy within native polymers and by solid-state NMR in recombinant polymers, yielding two incompatible atomic models. To resolve this controversy, we re-examined the native polymer used for electron cryomicroscopy via surface labelling and solid-state NMR. Our data show the orientation and overall fold of the subunit within this polymer is as established by solid-state NMR for recombinant polymers.",

author = "Joeri Verasdonck and Dakang Shen and Alexander Treadgold and Chris Arthur and Anja B{\"o}ckmann and Meier, {Beat H} and Blocker, {Ariel J}",

note = "Copyright {\textcopyright} 2015. Published by Elsevier Inc.",

year = "2015",

month = oct,

day = "3",

doi = "10.1016/j.jsb.2015.10.005",

language = "English",

journal = "Journal of Structural Biology",

issn = "1047-8477",

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Reassessment of MxiH subunit orientation and fold within native Shigella T3SS needles using surface labelling and solid-state NMR. / Verasdonck, Joeri; Shen, Dakang; Treadgold, Alexander; Arthur, Chris; Böckmann, Anja; Meier, Beat H; Blocker, Ariel J.

In: Journal of Structural Biology, 03.10.2015.

Research output: Contribution to journal › Article (Academic Journal) › peer-review

TY - JOUR

T1 - Reassessment of MxiH subunit orientation and fold within native Shigella T3SS needles using surface labelling and solid-state NMR

AU - Verasdonck, Joeri

AU - Shen, Dakang

AU - Treadgold, Alexander

AU - Arthur, Chris

AU - Böckmann, Anja

AU - Meier, Beat H

AU - Blocker, Ariel J

PY - 2015/10/3

Y1 - 2015/10/3

N2 - T3SSs are essential virulence determinants of many Gram-negative bacteria, used to inject bacterial effectors of virulence into eukaryotic host cells. Their major extracellular portion, a ∼50 nm hollow, needle-like structure, is essential to host cell sensing and the conduit for effector secretion. It is formed of a small, conserved subunit arranged as a helical polymer. The structure of the subunit has been studied by electron cryomicroscopy within native polymers and by solid-state NMR in recombinant polymers, yielding two incompatible atomic models. To resolve this controversy, we re-examined the native polymer used for electron cryomicroscopy via surface labelling and solid-state NMR. Our data show the orientation and overall fold of the subunit within this polymer is as established by solid-state NMR for recombinant polymers.

AB - T3SSs are essential virulence determinants of many Gram-negative bacteria, used to inject bacterial effectors of virulence into eukaryotic host cells. Their major extracellular portion, a ∼50 nm hollow, needle-like structure, is essential to host cell sensing and the conduit for effector secretion. It is formed of a small, conserved subunit arranged as a helical polymer. The structure of the subunit has been studied by electron cryomicroscopy within native polymers and by solid-state NMR in recombinant polymers, yielding two incompatible atomic models. To resolve this controversy, we re-examined the native polymer used for electron cryomicroscopy via surface labelling and solid-state NMR. Our data show the orientation and overall fold of the subunit within this polymer is as established by solid-state NMR for recombinant polymers.

U2 - 10.1016/j.jsb.2015.10.005

DO - 10.1016/j.jsb.2015.10.005

M3 - Article (Academic Journal)

C2 - 26439285

JO - Journal of Structural Biology

JF - Journal of Structural Biology

SN - 1047-8477

ER -

Reassessment of MxiH subunit orientation and fold within native Shigella T3SS needles using surface labelling and solid-state NMR

Abstract

Access to Document

3-month Core Capability for Chemistry Research

Bacterial type III secretion systems: from structure to function

Dr Chris Arthur

Cite this