Molecular Details of the PH Domain of ACAP1BAR-PH Protein Binding to PIP-Containing Membrane

Kevin Chun Chan; Lanyuan Lu; Fei Sun; Jun Fan

doi:10.1021/acs.jpcb.6b09563

Molecular Details of the PH Domain of ACAP1^BAR-PH Protein Binding to PIP-Containing Membrane

Kevin Chun Chan, Lanyuan Lu, Fei Sun, Jun Fan^*

^*Corresponding author for this work

Shenzhen Research Institute

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

14 Citations (Scopus)

Abstract

ACAP1 proteins were previously reported to specifically bind PIP₂-containing cell membranes and form well-structured protein lattices in order to conduct membrane tubulation. We carried out molecular dynamics simulations to characterize orientation of the PH domains with respect to the BAR domains inside the protein dimer. Followed by molecular dynamics simulations, we present a comprehensive orientation analysis of PH domain under different states including unbound and bound with lipids. We have examined two binding pockets on the PH domain and present PMF profiles of the two pockets to account for their preference to PIP₂ lipids. Combining orientation analysis and studies of binding pockets, our simulations results reveal valuable molecular basis for protein lipid interactions of ACAP1 proteins during membrane remodeling process.

Original language	English
Pages (from-to)	3586-3596
Journal	The Journal of Physical Chemistry B
Volume	121
Issue number	15
Online published	16 Jan 2017
DOIs	https://doi.org/10.1021/acs.jpcb.6b09563
Publication status	Published - 20 Apr 2017

Funding

The authors thank the projects supported by the National Natural Science Foundation of China (21403182), the Research Grants Council of Hong Kong (CityU 21300014), and CityU grants (7004387 and 9680136). The authors would also like to acknowledge grants to F.S. by the Chinese Ministry of Science and Technology (2014CB910700) and the Strategic Priority Research Program of Chinese Academy of Sciences (XDB08030202). This research has used resources of the Oak Ridge Leadership Computing Facility at the Oak Ridge National Laboratory, which is supported by the Office of Science of the U.S. Department of Energy under Contract No. DE-AC05-00OR22752. This research has also used computing resources supported by Special Program for Applied Research on Super Computation of the NSFC-Guangdong Joint Fund (the second phase).

Research Keywords

PLECKSTRIN HOMOLOGY DOMAINS
DYNAMICS SIMULATIONS
SIGNALING PROTEINS
FORCE-FIELD
CURVATURE
MECHANISM
CHARMM
RECOGNITION
TUBULATION
COMPLEXES

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Cite this

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title = "Molecular Details of the PH Domain of ACAP1BAR-PH Protein Binding to PIP-Containing Membrane",

abstract = "ACAP1 proteins were previously reported to specifically bind PIP2-containing cell membranes and form well-structured protein lattices in order to conduct membrane tubulation. We carried out molecular dynamics simulations to characterize orientation of the PH domains with respect to the BAR domains inside the protein dimer. Followed by molecular dynamics simulations, we present a comprehensive orientation analysis of PH domain under different states including unbound and bound with lipids. We have examined two binding pockets on the PH domain and present PMF profiles of the two pockets to account for their preference to PIP2 lipids. Combining orientation analysis and studies of binding pockets, our simulations results reveal valuable molecular basis for protein lipid interactions of ACAP1 proteins during membrane remodeling process.",

keywords = "PLECKSTRIN HOMOLOGY DOMAINS, DYNAMICS SIMULATIONS, SIGNALING PROTEINS, FORCE-FIELD, CURVATURE, MECHANISM, CHARMM, RECOGNITION, TUBULATION, COMPLEXES",

author = "Chan, {Kevin Chun} and Lanyuan Lu and Fei Sun and Jun Fan",

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T1 - Molecular Details of the PH Domain of ACAP1BAR-PH Protein Binding to PIP-Containing Membrane

AU - Chan, Kevin Chun

AU - Lu, Lanyuan

AU - Sun, Fei

AU - Fan, Jun

PY - 2017/4/20

Y1 - 2017/4/20

N2 - ACAP1 proteins were previously reported to specifically bind PIP2-containing cell membranes and form well-structured protein lattices in order to conduct membrane tubulation. We carried out molecular dynamics simulations to characterize orientation of the PH domains with respect to the BAR domains inside the protein dimer. Followed by molecular dynamics simulations, we present a comprehensive orientation analysis of PH domain under different states including unbound and bound with lipids. We have examined two binding pockets on the PH domain and present PMF profiles of the two pockets to account for their preference to PIP2 lipids. Combining orientation analysis and studies of binding pockets, our simulations results reveal valuable molecular basis for protein lipid interactions of ACAP1 proteins during membrane remodeling process.

AB - ACAP1 proteins were previously reported to specifically bind PIP2-containing cell membranes and form well-structured protein lattices in order to conduct membrane tubulation. We carried out molecular dynamics simulations to characterize orientation of the PH domains with respect to the BAR domains inside the protein dimer. Followed by molecular dynamics simulations, we present a comprehensive orientation analysis of PH domain under different states including unbound and bound with lipids. We have examined two binding pockets on the PH domain and present PMF profiles of the two pockets to account for their preference to PIP2 lipids. Combining orientation analysis and studies of binding pockets, our simulations results reveal valuable molecular basis for protein lipid interactions of ACAP1 proteins during membrane remodeling process.

KW - PLECKSTRIN HOMOLOGY DOMAINS

KW - DYNAMICS SIMULATIONS

KW - SIGNALING PROTEINS

KW - FORCE-FIELD

KW - CURVATURE

KW - MECHANISM

KW - CHARMM

KW - RECOGNITION

KW - TUBULATION

KW - COMPLEXES

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U2 - 10.1021/acs.jpcb.6b09563

DO - 10.1021/acs.jpcb.6b09563

M3 - RGC 21 - Publication in refereed journal

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VL - 121

SP - 3586

EP - 3596

JO - The Journal of Physical Chemistry B

JF - The Journal of Physical Chemistry B

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