UNIPROT:P20645 - FACTA Search

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Query: UNIPROT:P20645 (mannose-6-phosphate receptor)
320 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tyrosinase-related protein (TRP)-1 is one of the most abundant melanosomal glycoproteins involved in melanogenesis. This report summarizes our recent research efforts related to the biological role and biosynthesis of TRP-1 and its transport from TGN (trans-Golgi network) to the stage I melanosome. Our UV irradiation and tyrosinase and TRP-1 cDNA co-transfection studies indicated that human TRP-1 is involved in not only melanogenesis but also prevention of melanocyte death, which may occur during biosynthesis of melanin pigment in the presence of tyrosinase. Furthermore, a coordinated gene interaction was indicated between tyrosinase and TRP-1, resulting in upregulation of mRNA and protein expression of LAMP (lysosome-associated membrane protein)-1 that would directly prevent the tyrosinase-mediated programmed cell death of melanocytes. Similar to tyrosinase, however, TRP-1 appears to require a molecular chaperone, calnexin, which we have cloned recently. Our cDNA transfection study of tyrosinase with calnexin showed clearly the necessity of calnexin in order to have efficient, functional activity of melanosomal glycoprotein, especially tyrosinase. Once glycosylation is completed, TRP-1 will be transported from TGN to the stage I melanosome. At this stage, TRP-1 will have its own target signal, in particular, tyrosine-rich leucine residues in cytoplasmic tail. Our TRP-1 cDNA transfection and immunoelectron microscopy study shows that TRP-1 will be transported through small vesicles, probably non-clathrin-coated type, to large vacuoles, identical to the MPR (mannose-6-phosphate receptor)-positive, late endosomes. In this transport process a low molecular weight G-protein, rab-7, was isolated from the purified melanosomal protein on 2D-PAGE and identified by subsequent sequencing and PCR amplification. Confocal microscopy with double immunostaining and immunoelectron microscopy confirmed the co-localization of rab-7 and TRP-1 in the melanosomes with early stages of maturation (I-HI). Furthermore, this process will also be regulated by phosphatidylinositol 3-kinase (PI-3 kinase).
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PMID:Biological role of tyrosinase related protein and its biosynthesis and transport from TGN to stage I melanosome, late endosome, through gene transfection study. 926 27

The cytoplasmic tail of the human 46 kDa mannose 6-phosphate receptor (MPR 46) is necessary for rapid internalization of the receptor and sufficient to mediate internalization of a resident plasma membrane protein. To localize the internalization sequences within the 67 amino acids of the cytoplasmic tail, the tail was progressively shortened from its C-terminus, internal deletions of between four and eight amino acids were introduced into the tail, and individual residues were substituted by alanine, glycine or serine. Three sequences were identified that contribute to the internalization of MPR 46. The first is located within the 23 juxtamembrane cytoplasmic residues of the tail. It contains four essential residues within a heptapeptide and does not resemble known internalization signals. The second sequence contains as a critical residue Tyr-45. The third region is located within the C-terminal seven residues and contains a di-leucine pair as essential residues. The first and third sequences were shown to function as autonomous internalization sequences. Substitution of critically important residues within a single internalization sequence was tolerated, with no or only a moderate decrease in the internalization rate. When essential residues from two or all three internalization sequences were substituted, however, the internalization rate was decreased by more than 60% and 90% respectively. This indicates that the autonomous internalization signals in the cytoplasmic tail of MPR 46 function in an additive manner, but are partly redundant.
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PMID:Identification of three internalization sequences in the cytoplasmic tail of the 46 kDa mannose 6-phosphate receptor. 929 Nov 24

The endoplasmic reticulum (ER) is the eukaryotic organelle where most secreted proteins enter the secretory pathway. They enter this organelle in an unfolded state and are folded by a highly active folding machinery to reach their native state. The ER contains an efficient protein quality control system, which recognizes malfolded and orphan proteins and targets them for elimination by a mechanism called ER-associated degradation (ERAD). Both processes are tightly linked, and they will be abbreviated as ERQD (ER quality control and associated degradation). Because ERQD is highly conserved from yeast to man, the easy amenability of yeast to genetic and molecular biological studies combined with the knowledge of its genome and proteome makes it a preferred organism to study such "housekeeping" functions of eukaryotic cells. New genomic and proteomic methods have led to new experimental concepts. Genome-wide screens using genomic deletion libraries led to the identification of genes involved in the processes in question. Using such a genome-wide approach, we devise a sensitive growth test for selection of yeast mutants defective in ERQD. A chimeric protein (CTL*) was generated consisting of the ER luminal, N-glycosylated CPY* protein fused to a transmembrane domain and cytoplasmic 3-isopropylmalate dehydrogenase, the Leu2 protein. In addition, the nonglycosylated ER-membrane-located ERQD substrate Sec61-2p was fused to Leu2p (Sec61-2-L*). Cells carrying a LEU2 deletion can only grow on medium lacking leucine when the chimeric protein CTL* or Sec61-2-L* is not degraded. Thus, only mutant cells defective in an ERQD component can grow. A genome-wide screen can be performed by transforming the CTL* or Sec61-2-L* coding DNA into the approximately 5000 individual deletion mutants of the EUROSCARF yeast library. Examples for new components required for ERQD found by this method are the mannose-6-phosphate receptor domain protein Yos9p and the ubiquitin domain proteins Dsk2p and Rad23p.
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PMID:Yeast genomics in the elucidation of endoplasmic reticulum (ER) quality control and associated protein degradation (ERQD). 1633 75