Search results for "ION SPECIFICITY"

showing 3 items of 3 documents

Substrate determinants for cleavage in cis and in trans by the hepatitis C virus NS3 proteinase

1995

Processing of the hepatitis C virus polyprotein is accomplished by a series of cotranslational and posttranslational cleavages mediated by host cell signalases and two virally encoded proteinases. Of these the NS3 proteinase is essential for processing at the NS3/4A, NS4A/4B, NS4B/5A, and NS5A/5B junctions. Processing between NS3 and NS4A occurs in cis, implying an intramolecular reaction mechanism, whereas cleavage at the other sites can also be mediated in trans. Sequence analysis of the amino termini of mature cleavage products and comparisons of amino acid residues around the scissile bonds of various hepatitis C virus isolates identified amino acid residues which might contribute to su…

Cleavage factorvirusesMolecular Sequence DataImmunologyHepacivirusCleavage and polyadenylation specificity factorViral Nonstructural ProteinsBiologyCleavage (embryo)MicrobiologySubstrate SpecificityScissile bondVirologyHumansAmino Acid SequenceAmino AcidsPeptide sequencechemistry.chemical_classificationNS3Cleavage stimulation factorHydrolysisSerine Endopeptidasesbiochemical phenomena metabolism and nutritionAmino acidchemistryBiochemistryMutagenesisInsect ScienceProtein Processing Post-TranslationalRNA HelicasesHeLa CellsResearch ArticleJournal of Virology
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Interfacial water structure controls protein conformation.

2007

A phenomenological theory of salt-induced Hofmeister phenomena is presented, based on a relation between protein solubility in salt solutions and protein-water interfacial tension. As a generalization of previous treatments, it implies that both kosmotropic salting out and chaotropic salting in are manifested via salt-induced changes of the hydrophobic/hydrophilic properties of protein-water interfaces. The theory is applied to describe the salt-dependent free energy profiles of proteins as a function of their water-exposed surface area. On this basis, three classes of protein conformations have been distinguished, and their existence experimentally demonstrated using the examples of bacter…

DYNAMICSMECHANISMKosmotropicProtein ConformationSURFACE-TENSIONSurface tensionchemistry.chemical_compoundProtein structureMaterials ChemistryPhysical and Theoretical ChemistryPURPLE MEMBRANESPECTROSCOPYbiologySTABILITYBACTERIORHODOPSINMyoglobinSALTTemperatureWaterBacteriorhodopsinSTABILITY MECHANISMSurfaces Coatings and FilmsION SPECIFICITYChaotropic agentCrystallographyMyoglobinchemistryTEMPERATURE-DEPENDENCEChemical physicsStructural stabilityBacteriorhodopsinsbiology.proteinSalting outThermodynamicsThe journal of physical chemistry. B
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TREND-DB—a transcriptome-wide atlas of the dynamic landscape of alternative polyadenylation

2020

AbstractAlternative polyadenylation (APA) profoundly expands the transcriptome complexity. Perturbations of APA can disrupt biological processes, ultimately resulting in devastating disorders. A major challenge in identifying mechanisms and consequences of APA (and its perturbations) lies in the complexity of RNA 3’end processing, involving poorly conserved RNA motifs and multi-component complexes consisting of far more than 50 proteins. This is further complicated in that RNA 3’end maturation is closely linked to transcription, RNA processing, and even epigenetic (histone/DNA/RNA) modifications. Here we present TREND-DB (http://shiny.imbei.uni-mainz.de:3838/trend-db), a resource cataloging…

Transcription GeneticPolyadenylationAcademicSubjects/SCI00010educationMiRNA bindingRNA-binding proteinComputational biologyBiologyPolyadenylationTranscriptomeUser-Computer Interface03 medical and health sciences0302 clinical medicineRNA interferenceTranscription (biology)Databases GeneticGeneticsHumansDatabase Issue3' Untranslated RegionsGene030304 developmental biologyRegulation of gene expressionInternet0303 health sciencesCleavage And Polyadenylation Specificity FactorRNAGene Expression RegulationTranscriptome030217 neurology & neurosurgeryNucleic Acids Research
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