Low-voltage-activated T-type calcium channels are important contributors to nervous system function. Post-translational modification of these channels has emerged as an important mechanism to control channel activity. Previous studies have documented the importance of asparagine (N)-linked glycosylation and identified several asparagine residues within the canonical consensus sequence N-X-S/T that is essential for the expression and function of Ca3.2 channels. Here, we explored the functional role of non-canonical N-glycosylation motifs in the conformation N-X-C based on site directed mutagenesis. Using a combination of electrophysiological recordings and surface biotinylation assays, we show that asparagines N345 and N1780 located in the motifs NVC and NPC, respectively, are essential for the expression of the human Ca3.2 channel in the plasma membrane. Therefore, these newly identified asparagine residues within non-canonical motifs add to those previously reported in canonical sites and suggest that N-glycosylation of Ca3.2 may also occur at non-canonical motifs to control expression of the channel in the plasma membrane. It is also the first study to report the functional importance of non-canonical N-glycosylation motifs in an ion channel.
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| http://dx.doi.org/10.1186/s13041-020-00697-z | DOI Listing |
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Article Synopsis
- Glycosylation is a crucial modification on many plasma proteins, including albumin, which was previously thought to be non-glycosylated but actually has non-canonical N-glycosylation sites.
- Researchers used advanced techniques like liquid chromatography-mass spectrometry (LC-MS/MS) to identify and confirm N-glycosylation at two specific non-canonical sites on human albumin.
- Their findings indicate that albumin, along with similar proteins in other species like bovine and rabbit, is glycosylated, suggesting a potential functional role of these modifications in protein activity.
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