RIMS3 and BCL2L2-PABPN1

Number of citations of the paper that reports this interaction (PubMedID 32296183)
50

Data Source:
BioGRID (two hybrid)

		RIMS3	BCL2L2-PABPN1
Description		regulating synaptic membrane exocytosis 3	BCL2L2-PABPN1 readthrough
Image		No pdb structure	No pdb structure
GO Annotations	Cellular Component	Membrane Presynaptic Membrane Synapse Presynaptic Active Zone Presynaptic Active Zone Cytoplasmic Component
	Molecular Function	Protein Binding Small GTPase Binding Transmembrane Transporter Binding Structural Constituent Of Presynaptic Active Zone
	Biological Process	Neurotransmitter Transport Exocytosis Synaptic Vesicle Docking Synaptic Vesicle Priming Calcium-ion Regulated Exocytosis Regulation Of Membrane Potential Maintenance Of Presynaptic Active Zone Structure Regulation Of Synaptic Vesicle Exocytosis
Pathways
Drugs
Diseases
GWAS			Body mass index ( 26865924) Height ( 28552196) Hip circumference adjusted for BMI ( 34021172) Lymphocyte count ( 32888494) Reticulocyte fraction of red cells ( 32888494)
Interacting Genes		7 interacting genes: BANP BCL2L2-PABPN1 CREB3 GJA5 MEOX2 PICK1 TRIM54	5 interacting genes: BMF NTAQ1 PRR3 RIMS3 USP2
Entrez ID		9783	100529063
HPRD ID		17976
Ensembl ID		ENSG00000117016	ENSG00000258643
Uniprot IDs		Q9UJD0	A0A7I2V383
PDB IDs
Enriched GO Terms of Interacting Partners?		Gap Junction Channel Activity Involved In Purkinje Myocyte-ventricular Cardiac Muscle Cell Electrical Coupling Mitral Valve Development Septum Primum Development Gap Junction Channel Activity Involved In Atrial Cardiac Muscle Cell-AV Node Cell Electrical Coupling Atrial Ventricular Junction Remodeling Gap Junction Channel Activity Involved In Bundle Of His Cell-Purkinje Myocyte Electrical Coupling Positive Regulation Of Cell Communication By Chemical Coupling Atrial Cardiac Muscle Cell To AV Node Cell Communication By Electrical Coupling Vasomotion Purkinje Myocyte To Ventricular Cardiac Muscle Cell Communication By Electrical Coupling Regulation Of Purkinje Myocyte Action Potential Positive Regulation Of Deacetylase Activity Gap Junction Channel Activity Involved In SA Node Cell-atrial Cardiac Muscle Cell Electrical Coupling Foramen Ovale Closure Bundle Of His Cell To Purkinje Myocyte Communication By Electrical Coupling Regulation Of Bundle Of His Cell Action Potential Cell Communication By Chemical Coupling Pulmonary Valve Formation SA Node Cell To Atrial Cardiac Muscle Cell Communication By Electrical Coupling Atrial Cardiac Muscle Cell To AV Node Cell Communication Bundle Of His Cell To Purkinje Myocyte Communication Striated Muscle Tissue Development Regulation Of Renin Secretion Into Blood Stream Gap Junction Channel Activity Involved In Cardiac Conduction Electrical Coupling Regulation Of AV Node Cell Action Potential Regulation Of Atrial Cardiac Muscle Cell Action Potential Gap Junction Channel Activity Involved In AV Node Cell-bundle Of His Cell Electrical Coupling SA Node Cell To Atrial Cardiac Muscle Cell Communication Muscle Tissue Development Negative Regulation Of Glomerular Filtration AV Node Cell To Bundle Of His Cell Communication By Electrical Coupling Negative Regulation Of Cytoskeleton Organization Membrane Curvature Sensor Activity Negative Regulation Of Supramolecular Fiber Organization Gap Junction Hemi-channel Activity Connexin Binding Regulation Of Membrane Depolarization During Cardiac Muscle Cell Action Potential Somite Specification Release From Viral Latency SA Node Cell Action Potential Atrioventricular Valve Development Negative Regulation Of Arp2/3 Complex-mediated Actin Nucleation CCR1 Chemokine Receptor Binding AV Node Cell To Bundle Of His Cell Communication Regulation Of Ventricular Cardiac Muscle Cell Membrane Depolarization Regulation Of Membrane Depolarization During Action Potential Gap Junction Assembly Negative Regulation Of Actin Nucleation Atrial Septum Development Regulation Of Atrial Cardiac Muscle Cell Membrane Depolarization
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