Search results for "Arginine methylation"

showing 3 items of 3 documents

Phosphorylation Regulates CIRBP Arginine Methylation, Transportin-1 Binding and Liquid-Liquid Phase Separation

2021

Arginine-glycine(-glycine) (RG/RGG) regions are highly abundant in RNA-binding proteins and involved in numerous physiological processes. Aberrant liquid-liquid phase separation (LLPS) and stress granule (SGs) association of RG/RGG regions in the cytoplasm have been implicated in several neurodegenerative disorders. LLPS and SG association of these proteins is regulated by the interaction with nuclear import receptors, such as transportin-1 (TNPO1), and by post-translational arginine methylation. Strikingly, many RG/RGG proteins harbour potential phosphorylation sites within or close to their arginine methylated regions, indicating a regulatory role. Here, we studied the role of phosphoryla…

CIRBPphosphorylationPTMsQH301-705.5SRPK1RNA-binding proteinsBiology (General)arginine methylationFrontiers in Molecular Biosciences
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A Survey on Tubulin and Arginine Methyltransferase Families Sheds Light on

2019

Tubulins and microtubules (MTs) represent targets for taxane-based chemotherapy. To date, several lines of evidence suggest that effectiveness of compounds binding tubulin often relies on different post-translational modifications on tubulins. Among them, methylation was recently associated to drug resistance mechanisms impairing taxanes binding. The sea urchin is recognized as a research model in several fields including fertilization, embryo development and toxicology. To date, some α- and β-tubulin genes have been identified in P. lividus, while no data are available in echinoderms for arginine methyl transferases (PRMT). To evaluate the exploiting of the sea urchin embryo in the field o…

Protein-Arginine N-MethyltransferasesEmbryo NonmammalianPRMTechinodermsIntracellular Signaling Peptides and Proteinsmacromolecular substancesCytostatic AgentsMethylationTubulin ModulatorsArticlearginine methylationsea urchintubulinpost-translational modificationSea Urchinsembryonic structuresToxicity TestsAnimalsProtein Processing Post-TranslationalInternational journal of molecular sciences
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A survey on tubulin and arginine methyltransferase families sheds light on p. lividus embryo as model system for antiproliferative drug development

2019

Tubulins and microtubules (MTs) represent targets for taxane-based chemotherapy. To date, several lines of evidence suggest that effectiveness of compounds binding tubulin often relies on different post-translational modifications on tubulins. Among them, methylation was recently associated to drug resistance mechanisms impairing taxanes binding. The sea urchin is recognized as a research model in several fields including fertilization, embryo development and toxicology. To date, some &alpha

Sea urchinPRMTSettore BIO/11 - Biologia MolecolareDrug actionmacromolecular substancesBiologyCatalysisCatalysilcsh:ChemistryInorganic ChemistryMicrotubuleArginine methylationTubulinbiology.animalGene familyPhysical and Theoretical ChemistrySea urchinlcsh:QH301-705.5Molecular BiologySpectroscopyEchinodermechinodermsOrganic ChemistryEmbryoComputer Science Applications1707 Computer Vision and Pattern RecognitionGeneral MedicineMethylationComputer Science ApplicationsCell biologyTubulinDrug developmentlcsh:Biology (General)lcsh:QD1-999embryonic structuresbiology.proteinPost-translational modification
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