2017
DOI: 10.1038/srep42610
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Identification of Extracellular Segments by Mass Spectrometry Improves Topology Prediction of Transmembrane Proteins

Abstract: Transmembrane proteins play crucial role in signaling, ion transport, nutrient uptake, as well as in maintaining the dynamic equilibrium between the internal and external environment of cells. Despite their important biological functions and abundance, less than 2% of all determined structures are transmembrane proteins. Given the persisting technical difficulties associated with high resolution structure determination of transmembrane proteins, additional methods, including computational and experimental tech… Show more

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Cited by 16 publications
(44 citation statements)
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“…Understanding of the topology of membrane proteins is the first step towards their structural elucidations and functional investigations, as well as developments of potential new drugs, as more than half of known drugs target membrane proteins [ 12 ]. Cell surface protein could be labeled by sulfo-NH-SS-Biotin and analyzed based on mass data to detect domains outside of the plasma membrane [ 13 , 14 ]. A cysteine-reactive molecule, maleimide polyethylene glycol (mPEG), is applied to determine the topology of a transmembrane protein by labeling the introduced cysteine in the cytosol [ 15 ].…”
Section: Introductionmentioning
confidence: 99%
“…Understanding of the topology of membrane proteins is the first step towards their structural elucidations and functional investigations, as well as developments of potential new drugs, as more than half of known drugs target membrane proteins [ 12 ]. Cell surface protein could be labeled by sulfo-NH-SS-Biotin and analyzed based on mass data to detect domains outside of the plasma membrane [ 13 , 14 ]. A cysteine-reactive molecule, maleimide polyethylene glycol (mPEG), is applied to determine the topology of a transmembrane protein by labeling the introduced cysteine in the cytosol [ 15 ].…”
Section: Introductionmentioning
confidence: 99%
“…As prediction strategies alone are insufficient to define the set of proteins localized to the cell surface and extracellular space, experimentation is required. To aid in the selection of proteomic strategies that are likely to produce the desired coverage of the cell surface proteome, the SP, TM, and SPC analyses described above were integrated with in silico analyses designed to predict which proteins would generate tryptic peptides likely to be detectable by electrospray MS, and of those, which are expected to be captured by application of commonly used biorthogonal enrichment strategies targeting N -glycans and lysines 2325,27,4954 . We also considered cysteines as they are enriched in surface proteins compared to nonsurface proteins 40 and numerous affinity reagents are available for targeting cysteines 55 , although this is not yet a widely described approach for cell surface proteins.…”
Section: Resultsmentioning
confidence: 99%
“…Although some of these proteins are available in high-throughput sets [31], each of these proteins was manually confirmed to be localized to the apical/basolateral membrane in kidney tissues. Furthermore, we collected 421 plasma membrane proteins from the RBCC database [36] and other sources [31], including our previous experimental pipelines [37][38][39]. We collected 521 proteins localizing to other membranes (Mitochondrial membrane, Endoplasmic reticulum, Lysosomal membrane etc) from UniProt [40].…”
Section: Training and Testing Datamentioning
confidence: 99%