Abstract
Expression and purification of human membrane proteins for structural studies represent a great challenge. This is because micro- to milligram amounts of pure isolated protein are required. To this aim, we successfully expressed the human vitamin C transporter-1 (hSVCT1; SLC23A1) in Xenopus laevis oocytes and isolated highly pure protein in microgram amounts. Recombinant hSVCT1 was functional when expressed in oocytes and glycosylated. Structural analysis of purified hSVCT1 by transmission electron microscopy and single particle analysis unveiled its shape, dimensions and low-resolution structure as well as the existence of a major monomeric and minor dimeric population. Chemical crosslinking of isolated oocyte membranes containing expressed hSVCT1 indicated similar oligomeric states of hSVCT1 in lipid bilayers. This work reports the first purification and structural analysis of a human SVCT protein and opens the way for future functional and structural studies using purified hSVCT1.
Publication types
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Research Support, Non-U.S. Gov't
MeSH terms
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Animals
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Gene Expression*
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Humans
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Oocytes / metabolism
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Recombinant Proteins / chemistry
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Recombinant Proteins / genetics
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Recombinant Proteins / isolation & purification
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Recombinant Proteins / metabolism
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Sodium-Coupled Vitamin C Transporters / chemistry
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Sodium-Coupled Vitamin C Transporters / genetics*
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Sodium-Coupled Vitamin C Transporters / isolation & purification
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Sodium-Coupled Vitamin C Transporters / metabolism*
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Xenopus laevis
Substances
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Recombinant Proteins
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SLC23A1 protein, human
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Sodium-Coupled Vitamin C Transporters
Grants and funding
This research has been supported by the University of Bern, the Swiss National Science Foundation (Grants 31003A_125150 and 31003A_144168 to DF), the European Science Foundation (Grant 09-EuroSYNBIO-FP-012 NANOCELL to DF), and the National Centre of Competence in Research (NCCR) TransCure (to DF and MH). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.