Literature DB >> 23394619

Mass spectrometry of membrane proteins: a focus on aquaporins.

Kevin L Schey1, Angus C Grey, Joshua J Nicklay.   

Abstract

Membrane proteins are abundant, critically important biomolecules that conduct essential functions in all cells and are the targets of a significant number of therapeutic drugs. However, the analysis of their expression, modification, protein-protein interactions, and structure by mass spectrometry has lagged behind similar studies of soluble proteins. Here we review the limitations to analysis of integral membrane and membrane-associated proteins and highlight advances in sample preparation and mass spectrometry methods that have led to the successful analysis of this protein class. Advances in the analysis of membrane protein posttranslational modification, protein-protein interaction, protein structure, and tissue distributions by imaging mass spectrometry are discussed. Furthermore, we focus our discussion on the application of mass spectrometry for the analysis of aquaporins as a prototypical integral membrane protein and how advances in analytical methods have revealed new biological insights into the structure and function of this family of proteins.

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Year:  2013        PMID: 23394619      PMCID: PMC4570568          DOI: 10.1021/bi301604j

Source DB:  PubMed          Journal:  Biochemistry        ISSN: 0006-2960            Impact factor:   3.162


  104 in total

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Review 2.  Application of electron transfer dissociation (ETD) for the analysis of posttranslational modifications.

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Journal:  Proteomics       Date:  2008-11       Impact factor: 3.984

Review 3.  Sub-cellular localization of membrane proteins.

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Journal:  Proteomics       Date:  2008-10       Impact factor: 3.984

Review 4.  Proteomics of mitochondrial inner and outer membranes.

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Journal:  Proteomics       Date:  2008-10       Impact factor: 3.984

5.  Reciprocal interaction with G-actin and tropomyosin is essential for aquaporin-2 trafficking.

Authors:  Yumi Noda; Saburo Horikawa; Eiichiro Kanda; Maho Yamashita; Hu Meng; Kayoko Eto; Yuhua Li; Michio Kuwahara; Keiji Hirai; Changi Pack; Masataka Kinjo; Shigeo Okabe; Sei Sasaki
Journal:  J Cell Biol       Date:  2008-08-04       Impact factor: 10.539

6.  Noncanonical binding of calmodulin to aquaporin-0: implications for channel regulation.

Authors:  Steve L Reichow; Tamir Gonen
Journal:  Structure       Date:  2008-09-10       Impact factor: 5.006

7.  Altered distribution of aquaporin 5 and its C-terminal binding protein in the lacrimal glands of a mouse model for Sjögren's syndrome.

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8.  Evaluation of strong cation exchange versus isoelectric focusing of peptides for multidimensional liquid chromatography-tandem mass spectrometry.

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9.  Nonionic detergent phase extraction for the proteomic analysis of heart membrane proteins using label-free LC-MS.

Authors:  Pamela M Donoghue; Chris Hughes; Johannes P C Vissers; James I Langridge; Michael J Dunn
Journal:  Proteomics       Date:  2008-09       Impact factor: 3.984

10.  Quantitative proteomics analysis of pancreatic zymogen granule membrane proteins.

Authors:  Xuequn Chen; Philip C Andrews
Journal:  Methods Mol Biol       Date:  2009
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  13 in total

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Review 3.  Using X-ray Footprinting and Mass Spectrometry to Study the Structure and Function of Membrane Proteins.

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Journal:  Protein Pept Lett       Date:  2019       Impact factor: 1.890

4.  Extraction, Enrichment, Solubilization, and Digestion Techniques for Membrane Proteomics.

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Journal:  J Proteome Res       Date:  2016-03-24       Impact factor: 4.466

5.  Membrane Protein Structure in Live Cells: Methodology for Studying Drug Interaction by Mass Spectrometry-Based Footprinting.

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Journal:  Biochemistry       Date:  2017-12-20       Impact factor: 3.162

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Journal:  Chem Phys Lipids       Date:  2021-05-07       Impact factor: 3.570

7.  Proteomic Analysis of Methanonatronarchaeum thermophilum AMET1, a Representative of a Putative New Class of Euryarchaeota, "Methanonatronarchaeia".

Authors:  Manuel Ferrer; Dimitry Y Sorokin; Yuri I Wolf; Sergio Ciordia; María C Mena; Rafael Bargiela; Eugene V Koonin; Kira S Makarova
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8.  How many human proteoforms are there?

Authors:  Ruedi Aebersold; Jeffrey N Agar; I Jonathan Amster; Mark S Baker; Carolyn R Bertozzi; Emily S Boja; Catherine E Costello; Benjamin F Cravatt; Catherine Fenselau; Benjamin A Garcia; Ying Ge; Jeremy Gunawardena; Ronald C Hendrickson; Paul J Hergenrother; Christian G Huber; Alexander R Ivanov; Ole N Jensen; Michael C Jewett; Neil L Kelleher; Laura L Kiessling; Nevan J Krogan; Martin R Larsen; Joseph A Loo; Rachel R Ogorzalek Loo; Emma Lundberg; Michael J MacCoss; Parag Mallick; Vamsi K Mootha; Milan Mrksich; Tom W Muir; Steven M Patrie; James J Pesavento; Sharon J Pitteri; Henry Rodriguez; Alan Saghatelian; Wendy Sandoval; Hartmut Schlüter; Salvatore Sechi; Sarah A Slavoff; Lloyd M Smith; Michael P Snyder; Paul M Thomas; Mathias Uhlén; Jennifer E Van Eyk; Marc Vidal; David R Walt; Forest M White; Evan R Williams; Therese Wohlschlager; Vicki H Wysocki; Nathan A Yates; Nicolas L Young; Bing Zhang
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9.  Global Membrane Protein Interactome Analysis using In vivo Crosslinking and Mass Spectrometry-based Protein Correlation Profiling.

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10.  Comparative untargeted proteomic analysis of ADME proteins and tumor antigens for tumor cell lines.

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