Search results for "compositionally biased regions"

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The Role of Low Complexity Regions in Protein Interaction Modes: An Illustration in Huntingtin

2021

Low complexity regions (LCRs) are very frequent in protein sequences, generally having a lower propensity to form structured domains and tending to be much less evolutionarily conserved than globular domains. Their higher abundance in eukaryotes and in species with more cellular types agrees with a growing number of reports on their function in protein interactions regulated by post-translational modifications. LCRs facilitate the increase of regulatory and network complexity required with the emergence of organisms with more complex tissue distribution and development. Although the low conservation and structural flexibility of LCRs complicate their study, evolutionary studies of proteins …

Protein Conformation alpha-Helical0301 basic medicineNetwork complexityHuntingtinintrinsically disordered regionsAmino Acid MotifsComputational biologyBiologyprotein interactionsArticlecompositionally biased regionsCatalysisProtein–protein interactionlcsh:ChemistryEvolution MolecularInorganic ChemistryLow complexity03 medical and health sciencesProtein DomainsProtein Interaction MappingAnimalsHumansp300-CBP Transcription FactorsAmino Acid SequenceProtein Interaction MapsHuntingtinTissue distributionPhysical and Theoretical Chemistrylcsh:QH301-705.5Molecular BiologySpectroscopyHuntingtin Protein030102 biochemistry & molecular biologyOrganic ChemistryNuclear Proteinsp120 GTPase Activating ProteinGeneral MedicineMultiple modesSynapsinslow complexity regionsComputer Science ApplicationshomorepeatsMicroscopy Electron030104 developmental biologylcsh:Biology (General)lcsh:QD1-999Sequence AlignmentFunction (biology)Protein BindingInternational Journal of Molecular Sciences
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The Conservation of Low Complexity Regions in Bacterial Proteins Depends on the Pathogenicity of the Strain and Subcellular Location of the Protein

2021

Low complexity regions (LCRs) in proteins are characterized by amino acid frequencies that differ from the average. These regions evolve faster and tend to be less conserved between homologs than globular domains. They are not common in bacteria, as compared to their prevalence in eukaryotes. Studying their conservation could help provide hypotheses about their function. To obtain the appropriate evolutionary focus for this rapidly evolving feature, here we study the conservation of LCRs in bacterial strains and compare their high variability to the closeness of the strains. For this, we selected 20 taxonomically diverse bacterial species and obtained the completely sequenced proteomes of t…

Proteomics0301 basic medicinelcsh:QH426-470030106 microbiologyBiologyArticlecompositionally biased regionsEvolution MolecularLow complexity03 medical and health sciencesBacterial ProteinsSequence Analysis ProteinGeneticsExtracellularGenetics (clinical)chemistry.chemical_classificationBacteriaVirulenceStrain (chemistry)Computational Biologybiology.organism_classificationlow complexity regionsAmino acidhomorepeatslcsh:Genetics030104 developmental biologychemistryEvolutionary biologybacterial strainsProteomeorthologyBacterial outer membraneBacteriaFunction (biology)host–pathogen interactionsGenes
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