The MinDE system is a generic spatial cue for membrane protein distribution in vitro

The MinDE system is a generic spatial cue for membrane protein distribution in vitro

The E. coli MinCDE system oscillates between cell poles to position the main division protein FtsZ. Here authors use in vitro reconstitution to show that MinDE oscillations also regulate unrelated membrane proteins spatiotemporally into patterns and gradients by forming a moving physical barrier.

Bibliographic Details
Main Authors: Beatrice Ramm, Philipp Glock, Jonas Mücksch, Philipp Blumhardt, Daniela A. García-Soriano, Michael Heymann, Petra Schwille
Format: Article
Language:English
Published: Nature Publishing Group 2018-09-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-018-06310-1
id doaj-6d16e017db444ddfa75d50bd5006b7ad
record_format Article
spelling doaj-6d16e017db444ddfa75d50bd5006b7ad2021-05-11T09:34:00ZengNature Publishing GroupNature Communications2041-17232018-09-019111610.1038/s41467-018-06310-1The MinDE system is a generic spatial cue for membrane protein distribution in vitroBeatrice Ramm0Philipp Glock1Jonas Mücksch2Philipp Blumhardt3Daniela A. García-Soriano4Michael Heymann5Petra Schwille6Max Planck Institute of BiochemistryMax Planck Institute of BiochemistryMax Planck Institute of BiochemistryMax Planck Institute of BiochemistryMax Planck Institute of BiochemistryMax Planck Institute of BiochemistryMax Planck Institute of BiochemistryThe E. coli MinCDE system oscillates between cell poles to position the main division protein FtsZ. Here authors use in vitro reconstitution to show that MinDE oscillations also regulate unrelated membrane proteins spatiotemporally into patterns and gradients by forming a moving physical barrier.https://doi.org/10.1038/s41467-018-06310-1
collection DOAJ
language English
format Article
sources DOAJ
author Beatrice Ramm
Philipp Glock
Jonas Mücksch
Philipp Blumhardt
Daniela A. García-Soriano
Michael Heymann
Petra Schwille
spellingShingle Beatrice Ramm
Philipp Glock
Jonas Mücksch
Philipp Blumhardt
Daniela A. García-Soriano
Michael Heymann
Petra Schwille
The MinDE system is a generic spatial cue for membrane protein distribution in vitro
Nature Communications
author_facet Beatrice Ramm
Philipp Glock
Jonas Mücksch
Philipp Blumhardt
Daniela A. García-Soriano
Michael Heymann
Petra Schwille
author_sort Beatrice Ramm
title The MinDE system is a generic spatial cue for membrane protein distribution in vitro
title_short The MinDE system is a generic spatial cue for membrane protein distribution in vitro
title_full The MinDE system is a generic spatial cue for membrane protein distribution in vitro
title_fullStr The MinDE system is a generic spatial cue for membrane protein distribution in vitro
title_full_unstemmed The MinDE system is a generic spatial cue for membrane protein distribution in vitro
title_sort minde system is a generic spatial cue for membrane protein distribution in vitro
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2018-09-01
description The E. coli MinCDE system oscillates between cell poles to position the main division protein FtsZ. Here authors use in vitro reconstitution to show that MinDE oscillations also regulate unrelated membrane proteins spatiotemporally into patterns and gradients by forming a moving physical barrier.
url https://doi.org/10.1038/s41467-018-06310-1
work_keys_str_mv AT beatriceramm themindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT philippglock themindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT jonasmucksch themindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT philippblumhardt themindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT danielaagarciasoriano themindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT michaelheymann themindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT petraschwille themindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT beatriceramm mindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT philippglock mindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT jonasmucksch mindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT philippblumhardt mindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT danielaagarciasoriano mindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT michaelheymann mindesystemisagenericspatialcueformembraneproteindistributioninvitro
AT petraschwille mindesystemisagenericspatialcueformembraneproteindistributioninvitro
_version_ 1721449653480718336

Similar Items