Hydrophobic mismatch sorts SNARE proteins into distinct membrane domains

Dragomir Milovanovic; Alf Honigmann; Seiichi Koike; Fabian Göttfert; Gesa Pähler; Meike Junius; Stefan Müllar; Ulf DIederichsen; Andreas Janshoff; Helmut Grubmüller; Herre J. Risselada; Christian Eggeling; Stefan W. Hell; Geert Van Den Bogaart; Reinhard Jahn

doi:10.1038/ncomms6984

Hydrophobic mismatch sorts SNARE proteins into distinct membrane domains

Dragomir Milovanovic, Alf Honigmann, Seiichi Koike, Fabian Göttfert, Gesa Pähler, Meike Junius, Stefan Müllar, Ulf DIederichsen, Andreas Janshoff, Helmut Grubmüller, Herre J. Risselada, Christian Eggeling, Stefan W. Hell, Geert Van Den Bogaart^*, Reinhard Jahn

^*Corresponding author for this work

Life Sciences and Bioengineering

Research output: Contribution to journal › Article › peer-review

121 Scopus citations

Abstract

The clustering of proteins and lipids in distinct microdomains is emerging as an important principle for the spatial patterning of biological membranes. Such domain formation can be the result of hydrophobic and ionic interactions with membrane lipids as well as of specific protein-protein interactions. Here using plasma membrane-resident SNARE proteins as model, we show that hydrophobic mismatch between the length of transmembrane domains (TMDs) and the thickness of the lipid membrane suffices to induce clustering of proteins. Even when the TMDs differ in length by only a single residue, hydrophobic mismatch can segregate structurally closely homologous membrane proteins in distinct membrane domains. Domain formation is further fine-tuned by interactions with polyanionic phosphoinositides and homo and heterotypic protein interactions. Our findings demonstrate that hydrophobic mismatch contributes to the structural organization of membranes.

Original language	English
Article number	5984
Journal	Nature Communications
Volume	6
DOIs	https://doi.org/10.1038/ncomms6984
State	Published - 2015/01/30

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Milovanovic, D., Honigmann, A., Koike, S., Göttfert, F., Pähler, G., Junius, M., Müllar, S., DIederichsen, U., Janshoff, A., Grubmüller, H., Risselada, H. J., Eggeling, C., Hell, S. W., Van Den Bogaart, G., & Jahn, R. (2015). Hydrophobic mismatch sorts SNARE proteins into distinct membrane domains. Nature Communications, 6, Article 5984. https://doi.org/10.1038/ncomms6984

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abstract = "The clustering of proteins and lipids in distinct microdomains is emerging as an important principle for the spatial patterning of biological membranes. Such domain formation can be the result of hydrophobic and ionic interactions with membrane lipids as well as of specific protein-protein interactions. Here using plasma membrane-resident SNARE proteins as model, we show that hydrophobic mismatch between the length of transmembrane domains (TMDs) and the thickness of the lipid membrane suffices to induce clustering of proteins. Even when the TMDs differ in length by only a single residue, hydrophobic mismatch can segregate structurally closely homologous membrane proteins in distinct membrane domains. Domain formation is further fine-tuned by interactions with polyanionic phosphoinositides and homo and heterotypic protein interactions. Our findings demonstrate that hydrophobic mismatch contributes to the structural organization of membranes.",

author = "Dragomir Milovanovic and Alf Honigmann and Seiichi Koike and Fabian G{\"o}ttfert and Gesa P{\"a}hler and Meike Junius and Stefan M{\"u}llar and Ulf DIederichsen and Andreas Janshoff and Helmut Grubm{\"u}ller and Risselada, {Herre J.} and Christian Eggeling and Hell, {Stefan W.} and {Van Den Bogaart}, Geert and Reinhard Jahn",

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AU - Milovanovic, Dragomir

AU - Honigmann, Alf

AU - Koike, Seiichi

AU - Göttfert, Fabian

AU - Pähler, Gesa

AU - Junius, Meike

AU - Müllar, Stefan

AU - DIederichsen, Ulf

AU - Janshoff, Andreas

AU - Grubmüller, Helmut

AU - Risselada, Herre J.

AU - Eggeling, Christian

AU - Hell, Stefan W.

AU - Van Den Bogaart, Geert

AU - Jahn, Reinhard

PY - 2015/1/30

Y1 - 2015/1/30

N2 - The clustering of proteins and lipids in distinct microdomains is emerging as an important principle for the spatial patterning of biological membranes. Such domain formation can be the result of hydrophobic and ionic interactions with membrane lipids as well as of specific protein-protein interactions. Here using plasma membrane-resident SNARE proteins as model, we show that hydrophobic mismatch between the length of transmembrane domains (TMDs) and the thickness of the lipid membrane suffices to induce clustering of proteins. Even when the TMDs differ in length by only a single residue, hydrophobic mismatch can segregate structurally closely homologous membrane proteins in distinct membrane domains. Domain formation is further fine-tuned by interactions with polyanionic phosphoinositides and homo and heterotypic protein interactions. Our findings demonstrate that hydrophobic mismatch contributes to the structural organization of membranes.

AB - The clustering of proteins and lipids in distinct microdomains is emerging as an important principle for the spatial patterning of biological membranes. Such domain formation can be the result of hydrophobic and ionic interactions with membrane lipids as well as of specific protein-protein interactions. Here using plasma membrane-resident SNARE proteins as model, we show that hydrophobic mismatch between the length of transmembrane domains (TMDs) and the thickness of the lipid membrane suffices to induce clustering of proteins. Even when the TMDs differ in length by only a single residue, hydrophobic mismatch can segregate structurally closely homologous membrane proteins in distinct membrane domains. Domain formation is further fine-tuned by interactions with polyanionic phosphoinositides and homo and heterotypic protein interactions. Our findings demonstrate that hydrophobic mismatch contributes to the structural organization of membranes.

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SN - 2041-1723

VL - 6

JO - Nature Communications

JF - Nature Communications

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Hydrophobic mismatch sorts SNARE proteins into distinct membrane domains

Abstract

ASJC Scopus subject areas

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