Search results for "Congenital Disorders of Glycosylation"

showing 6 items of 6 documents

Molecular partners of hNOT/ALG3, the human counterpart of the Drosophila NOT and yeast ALG3 gene, suggest its involvement in distinct cellular proces…

2018

This study provides first insights into the involvement of hNOT/ALG3, the human counterpart of the Drosophila Neighbour of TID and yeast ALG3 gene, in various putative molecular networks. HNOT/ALG3 encodes two translated transcripts encoding precursor proteins differing in their N-terminus and showing 33% identity with the yeast asparagine-linked glycosylation 3 (ALG3) protein. Experimental evidence for the functional homology of the proteins of fly and man in the N-glycosylation has still to be provided. In this study, using the yeast two-hybrid technique we identify 17 molecular partners of hNOT-1/ALG3-1. We disclose the building of hNOT/ALG3 homodimers and provide experimental evidence f…

0301 basic medicineGlycosylationSaccharomyces cerevisiae ProteinsRNA-binding proteinSaccharomyces cerevisiaeBiologyEndoplasmic ReticulumMannosyltransferases03 medical and health scienceschemistry.chemical_compoundCongenital Disorders of GlycosylationNeoplasmsNuclear Receptor Subfamily 4 Group A Member 2GeneticsAnimalsDrosophila ProteinsHumansMolecular BiologyTranscription factorOSBPGeneGenetics (clinical)Cellular compartmentEndoplasmic reticulumMembrane ProteinsRNA-Binding ProteinsGeneral MedicineLRP1Cell biology030104 developmental biologychemistryNerve DegenerationDrosophilaCarrier ProteinsHuman molecular genetics
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Propeptide glycosylation and galectin‐3 binding decrease proteolytic activation of human proMMP‐9/progelatinase B

2019

Matrix metalloproteinases (MMPs) are secreted as proenzymes, containing propeptides that interact with the catalytic zinc, thereby controlling MMP activation. The MMP‐9 propeptide is unique in the MMP family because of its post‐translational modification with an N‐linked oligosaccharide. ProMMP‐9 activation by MMP‐3 occurs stepwise by cleavage of the propeptide in an aminoterminal (pro‐AT) and carboxyterminal (pro‐CT) peptide. We chemically synthesized aglycosyl pro‐AT and pro‐CT and purified recombinant glycosylated pro‐ATS f−9. First, we report new cleavage sites in the MMP‐9 propeptide by MMP‐3 and neutrophil elastase. Additionally, we demonstrated with the use of western blot analysis a…

0301 basic medicinePNGase FN-linked glycosylationGlycosylationGlycosylationmatrix metalloproteinase‐9Galectin 3GalectinsProteolysisgalectin‐3Biochemistry03 medical and health scienceschemistry.chemical_compoundCongenital Disorders of Glycosylation0302 clinical medicineN-linked glycosylationmatrix metalloproteinase-9galectin-3medicineHumansZymographyAmino Acid SequenceProtein precursorMolecular BiologyN‐linked glycosylationEnzyme Precursorspropeptidemedicine.diagnostic_testbiologyBlood ProteinsOriginal ArticlesCell BiologyTrypsinEnzyme Activation030104 developmental biologyMatrix Metalloproteinase 9chemistryBiochemistryGelatinasesCase-Control Studiesproteolytic activation030220 oncology & carcinogenesisNeutrophil elastaseProteolysisbiology.proteinMatrix Metalloproteinase 3Original ArticleLeukocyte Elastasemedicine.drug
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Carbohydrate-deficient glycoprotein syndromes: The Italian experience

2000

AdultMaleAdolescentBiologyCongenital Disorders of GlycosylationClinical investigationLeukocytesGeneticsHumansChildCells CulturedGenetics (clinical)chemistry.chemical_classificationTransferrinCarbohydrate-deficient glycoprotein syndromeFibroblastsHuman geneticsItalychemistryMutagenesisPhosphotransferases (Phosphomutases)Child PreschoolImmunologyFemaleCarbohydrate deficient glycoproteinGlycoproteinJournal of Inherited Metabolic Disease
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Are the new genetic tools for diagnosis of Wilson disease helpful in clinical practice?

2020

Summary The diagnosis of Wilson disease is not always easy. For many patients, a combination of tests reflecting disturbed copper metabolism may be needed. Testing for ATP7B variants has become part of the routine diagnostic approach. The methods of genetic testing include analysis of the 21 coding exons and intronic flanking sequences, in which exons with recurrent variants would be prioritised depending on the mutation frequency in the local population. If sequencing the entire ATP7B gene cannot identify 2 variants and the suspicion for Wilson disease is high, after reviewing the clinical data, WES (whole-exome sequencing) or WGS (whole-genome sequencing) could be applied. A workflow base…

DiseaseReviewIndian childhood cirrhosisBioinformaticsDNA sequencingWES whole-exome sequencingPFIC progressive familial intrahepatic cholestasisInternal MedicinemedicineImmunology and AllergyMultiplex ligation-dependent probe amplificationWGS whole-genome sequencingExome sequencingGenetic testingWilson diseaseWhole genome sequencingWhole-genome sequencingHepatologymedicine.diagnostic_testMEDNIK syndromebusiness.industryCopper metabolismGastroenterologyMLPA multiplex ligation-dependent probe amplificationmedicine.diseaseICC Indian childhood cirrhosisNGS next-generation sequencingDMR differentially methylated regionsWhole-exome sequencingNext-generation sequencingbusinessICT idiopathic or primary copper toxicosisCDG congenital disorders of glycosylationGenetic diseasesJHEP Reports
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Heterodimerization of Two Pathological Mutants Enhances the Activity of Human Phosphomannomutase2

2015

The most frequent disorder of glycosylation is due to mutations in the gene encoding phosphomannomutase2 (PMM2-CDG). For this disease, which is autosomal and recessive, there is no cure at present. Most patients are composite heterozygous and carry one allele encoding an inactive mutant, R141H, and one encoding a hypomorphic mutant. Phosphomannomutase2 is a dimer. We reproduced composite heterozygosity in vitro by mixing R141H either with the wild type protein or the most common hypomorphic mutant F119L and compared the quaternary structure, the activity and the stability of the heterodimeric enzymes. We demonstrated that the activity of R141H/F119L heterodimers in vitro, which reproduces t…

Genetics and Molecular Biology (all)HeterozygoteProtein StructureGlycosylationMutantlcsh:MedicineGlucose-6-PhosphateBiologymedicine.disease_causeBiochemistryQuaternaryCongenital Disorders of GlycosylationProtein structuremedicineAlleles; Congenital Disorders of Glycosylation; Dimerization; Glucose-6-Phosphate; Glycosylation; Heterozygote; Humans; Mutation; Phosphorylation; Phosphotransferases (Phosphomutases); Protein Structure Quaternary; Agricultural and Biological Sciences (all); Biochemistry Genetics and Molecular Biology (all); Medicine (all)HumansPhosphorylationAlleleProtein Structure Quaternarylcsh:ScienceGeneAllelesMutationMultidisciplinaryMedicine (all)lcsh:RWild typeMolecular biologyEnzyme structureProteostasisAgricultural and Biological Sciences (all)heterodimresPhosphotransferases (Phosphomutases)Mutationlcsh:QCDG-PMM2DimerizationResearch ArticlePLOS ONE
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Key features and clinical variability of COG6-CDG

2015

The conserved oligomeric Golgi (COG) complex consists of eight subunits and plays a crucial role in Golgi trafficking and positioning of glycosylation enzymes. Mutations in all COG subunits, except subunit 3, have been detected in patients with congenital disorders of glycosylation (CDG) of variable severity. So far, 3 families with a total of 10 individuals with biallelic COG6 mutations have been described, showing a broad clinical spectrum. Here we present 7 additional patients with 4 novel COG6 mutations. In spite of clinical variability, we delineate the core features of COG6-CDG i.e. liver involvement (9/10), microcephaly (8/10), developmental disability (8/10), recurrent infections (7…

MaleMicrocephalyGlycosylationAdolescentEndocrinology Diabetes and MetabolismProtein subunitHyperkeratosisMolecular Sequence DataGolgi ApparatusCase ReportsResearch SupportBiochemistryConserved oligomeric Golgi complexYoung AdultEndocrinologyCogCongenital Disorders of GlycosylationGeneticsJournal ArticleMedicineHumansNon-U.S. Gov'tChildMolecular BiologyExome sequencingGenetic Association StudiesGeneticsbusiness.industryConserved oligomeric Golgi complexResearch Support Non-U.S. Gov'tHigh-Throughput Nucleotide SequencingInfantCongenital disorder of glycosylationmedicine.diseasePhenotypeAdaptor Proteins Vesicular TransportPhenotypeCOG6MutationMicrocephalyFemaleCDGbusinessCongenital disorder of glycosylation
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