AI Article Synopsis
- Flow cytometry typically identifies cell types using surface proteins, but only a few markers can be detected simultaneously using antibodies.
- The authors introduce a new method called cell surface-capturing (CSC) technology that allows for the unbiased detection of hundreds of glycosylation sites on live cells without using antibodies.
- This method can identify and quantify N-glycoproteins on T and B cells, and track changes in these proteins during T-cell activation and stem cell differentiation.
Article Abstract
Although the classification of cell types often relies on the identification of cell surface proteins as differentiation markers, flow cytometry requires suitable antibodies and currently permits detection of only up to a dozen differentiation markers in a single measurement. We use multiplexed mass-spectrometric identification of several hundred N-linked glycosylation sites specifically from cell surface-exposed glycoproteins to phenotype cells without antibodies in an unbiased fashion and without a priori knowledge. We apply our cell surface-capturing (CSC) technology, which covalently labels extracellular glycan moieties on live cells, to the detection and relative quantitative comparison of the cell surface N-glycoproteomes of T and B cells, as well as to monitor changes in the abundance of cell surface N-glycoprotein markers during T-cell activation and the controlled differentiation of embryonic stem cells into the neural lineage. A snapshot view of the cell surface N-glycoproteins will enable detection of panels of N-glycoproteins as potential differentiation markers that are currently not accessible by other means.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2829300 | PMC |
| http://dx.doi.org/10.1038/nbt.1532 | DOI Listing |
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