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The Golgi Localization of GnTI Requires a Polar Amino Acid Residue within Its Transmembrane Domain.

Plant Physiol. 2019 Jun;180(2):859-873. Epub 2019 Apr 10
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摘要


The Golgi apparatus consists of stacked cisternae filled with enzymes that facilitate the sequential and highly controlled modification of glycans from proteins that transit through the organelle. Although the glycan processing pathways have been extensively studied, the underlying mechanisms that concentrate Golgi-resident glycosyltransferases and glycosidases in distinct Golgi compartments are poorly understood. The single-pass transmembrane domain (TMD) of n-acetylglucosaminyltransferaseI (GnTI) accounts for its steady-state distribution in the cis/medial-Golgi. Here, we investigated the contribution of individual amino acid residues within the TMD of Arabidopsis (Arabidopsis thaliana) and Nicotiana tabacum GnTI toward Golgi localization and n-glycan processing. Conserved sequence motifs within the TMD were replaced with those from the established trans-Golgi enzyme α2,6-sialyltransferase and site-directed mutagenesis was used to exchange individual amino acid residues. Subsequent subcellular localization of fluorescent fusion proteins and n-glycan profiling revealed that a conserved Gln residue in the GnTI TMD is essential for its cis/medial-Golgi localization. Substitution of the crucial Gln residue with other amino acids resulted in mislocalization to the vacuole and impaired n-glycan processing in vivo. Our results suggest that sequence-specific features of the GnTI TMD are required for its interaction with a Golgi-resident adaptor protein or a specific lipid environment that likely promotes coat protein complexI-mediated retrograde transport, thus maintaining the steady-state distribution of GnTI in the cis/medial-Golgi of plants.

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