Spatial arrangement of proteins in planar and curved membranes by PPM 3.0

doi:10.1002/pro.4219

. 2022 Jan;31(1):209-220.

doi: 10.1002/pro.4219. Epub 2021 Nov 8.

Spatial arrangement of proteins in planar and curved membranes by PPM 3.0

Andrei L Lomize¹, Spencer C Todd², Irina D Pogozheva¹

Affiliations

¹ College of Pharmacy, Department of Medicinal Chemistry, University of Michigan, Ann Arbor, Michigan, USA.
² Department of Electrical Engineering and Computer Science, College of Engineering, University of Michigan, Ann Arbor, Michigan, USA.

PMID: 34716622
PMCID: PMC8740824
DOI: 10.1002/pro.4219

Spatial arrangement of proteins in planar and curved membranes by PPM 3.0

Andrei L Lomize et al. Protein Sci. 2022 Jan.

. 2022 Jan;31(1):209-220.

doi: 10.1002/pro.4219. Epub 2021 Nov 8.

Authors

Andrei L Lomize¹, Spencer C Todd², Irina D Pogozheva¹

Affiliations

¹ College of Pharmacy, Department of Medicinal Chemistry, University of Michigan, Ann Arbor, Michigan, USA.
² Department of Electrical Engineering and Computer Science, College of Engineering, University of Michigan, Ann Arbor, Michigan, USA.

PMID: 34716622
PMCID: PMC8740824
DOI: 10.1002/pro.4219

Abstract

Cellular protrusions, invaginations, and many intracellular organelles have strongly curved membrane regions. Transmembrane and peripheral membrane proteins that induce, sense, or stabilize such regions cannot be properly fitted into a single flat bilayer. To treat such proteins, we developed a new method and a web tool, PPM 3.0, for positioning proteins in curved or planar, single or multiple membranes. This method determines the energetically optimal spatial position, the hydrophobic thickness, and the radius of intrinsic curvature of a membrane-deforming protein structure by arranging it in a single or several sphere-shaped or planar membrane sections. In addition, it can define the lipid-embedded regions of a protein that simultaneously spans several membranes or determine the optimal position of a peptide in a spherical micelle. The PPM 3.0 web server operates with 17 types of biological membranes and 4 types of artificial bilayers. It is publicly available at https://opm.phar.umich.edu/ppm_server3. PPM 3.0 was applied to identify and characterize arrangements in membranes of 128 proteins with a significant intrinsic curvature, such as BAR domains, annexins, Piezo, and MscS mechanosensitive channels, cation-chloride cotransporters, as well as mitochondrial ATP synthases, calcium uniporters, and TOM complexes. These proteins form large complexes that are mainly localized in mitochondria, plasma membranes, and endosomes. Structures of bacterial drug efflux pumps, AcrAB-TolC, MexAB-OrpM, and MacAB-TolC, were positioned in both membranes of the bacterial cell envelop, while structures of multimeric gap-junction channels were arranged in two opposed cellular membranes.

Keywords: ATP synthase; BAR domains; TOM complex; annexins; ion channels; membrane curvature; membrane proteins; transporters; web server.

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Conflict of interest statement

The authors declare no potential conflict of interest.

Figures

**FIGURE 1**
Positioning by PPM 3.0 of membrane‐deforming proteins in sphere‐shaped membranes (a–l) and in two flat membranes (m–o)

See this image and copyright information in PMC

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References

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[1] Burley SK, Berman HM, Kleywegt GJ, Markley JL, Nakamura H, Velankar S. Protein Data Bank (PDB): The single global macromolecular structure archive. Methods Mol Biol. 2017;1607:627–641. - PMC - PubMed

[2] Burley SK, Berman HM, Kleywegt GJ, Markley JL, Nakamura H, Velankar S. Protein Data Bank (PDB): The single global macromolecular structure archive. Methods Mol Biol. 2017;1607:627–641. - PMC - PubMed

[3] Lawson CL, Baker ML, Best C, et al. EMDataBank.org: Unified data resource for CryoEM. Nucleic Acids Res. 2011;39:D456–D464. - PMC - PubMed

[4] Lawson CL, Baker ML, Best C, et al. EMDataBank.org: Unified data resource for CryoEM. Nucleic Acids Res. 2011;39:D456–D464. - PMC - PubMed

[5] Lomize AL, Pogozheva ID, Lomize MA, Mosberg HI. Positioning of proteins in membranes: A computational approach. Protein Sci. 2006;15:1318–1333. - PMC - PubMed

[6] Lomize AL, Pogozheva ID, Lomize MA, Mosberg HI. Positioning of proteins in membranes: A computational approach. Protein Sci. 2006;15:1318–1333. - PMC - PubMed

[7] Lomize MA, Pogozheva ID, Joo H, Mosberg HI, Lomize AL. OPM database and PPM web server: Resources for positioning of proteins in membranes. Nucleic Acids Res. 2012;40:D370–D376. - PMC - PubMed

[8] Lomize MA, Pogozheva ID, Joo H, Mosberg HI, Lomize AL. OPM database and PPM web server: Resources for positioning of proteins in membranes. Nucleic Acids Res. 2012;40:D370–D376. - PMC - PubMed

[9] Nugent T, Jones DT. Membrane protein orientation and refinement using a knowledge‐based statistical potential. BMC Bioinform. 2013;14:276. - PMC - PubMed

[10] Nugent T, Jones DT. Membrane protein orientation and refinement using a knowledge‐based statistical potential. BMC Bioinform. 2013;14:276. - PMC - PubMed

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Spatial arrangement of proteins in planar and curved membranes by PPM 3.0

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Spatial arrangement of proteins in planar and curved membranes by PPM 3.0

Authors

Affiliations

Abstract

Conflict of interest statement

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