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anti-Human RGS14 Antibodies:
anti-Mouse (Murine) RGS14 Antibodies:
anti-Rat (Rattus) RGS14 Antibodies:
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Mammalian Monoclonal RGS14 Primary Antibody for ISt, IHC - ABIN1304933
Llorens-Martín, Jurado-Arjona, Avila, Hernández: Novel connection between newborn granule neurons and the hippocampal CA2 field. in Experimental neurology 2014
Show all 8 Pubmed References
Human Polyclonal RGS14 Primary Antibody for ELISA, WB - ABIN250233
Snow, Antonio, Suggs, Gutstein, Siderovski: Molecular cloning and expression analysis of rat Rgs12 and Rgs14. in Biochemical and biophysical research communications 1997
Data support the notion that the Galpha (show SUCLG1 Antibodies), but not Gbetagamma, arm of the Gi/o signalling is involved in TRPC4 (show TRPC4 Antibodies) activation and unveil new roles for RGS (show PITX2 Antibodies) and RGS14 in fine-tuning TRPC4 (show TRPC4 Antibodies) activities.
The RBD (show CACNA1D Antibodies) region associates with the RGS (show PITX2 Antibodies) domain region, producing an intramolecular interaction within RGS14 that enhances the GTPase (show RACGAP1 Antibodies) activating function.
RGS14 can form complexes with GPCRs in cells that are dependent on Galpha (show SUCLG1 Antibodies)(i/o) and these RGS14.Galpha (show SUCLG1 Antibodies)(i1).GPCR (show NMUR1 Antibodies) complexes may be substrates for other signaling partners such as Ric-8A (show RIC8A Antibodies)
RGS-14 may facilitate cognitive processing by modulating Cav1 (show CAV1 Antibodies) channel-mediated intracellular divalent calcium ion Ca(2 (show CA2 Antibodies))+ transients.
RGS14 serves as a novel scaffold to integrate GTP-Binding Protein (show HCAR3 Antibodies) alpha Subunit (show POLG Antibodies) and Ras/Raf (show RAF1 Antibodies)/MAPkinase signalling events through the action of its GL domain.
We show that RGS14 is a component of mitotic asters formed in vitro from HeLa cell extracts and that depletion of RGS14 from cell extracts blocks aster formation.
NMR 1H, 13C and 15N resonances of the RGS (show PITX2 Antibodies) domain (residues 56-207)
Study shows that RGS14 (show RGS16 Antibodies) mRNA and protein are upregulated throughout postnatal mouse development, and RGS14 (show RGS16 Antibodies) protein exhibits a dynamic localization pattern that is enriched in hippocampus and primary olfactory cortex in the adult mouse brain
Inactive Galpha(i1)-GDP enhances the affinity of RGS14 for H-Ras-GTP in live cells, resulting in a ternary signaling complex that is further regulated by G protein-coupled receptors.
Activation of the Rsg14-Galphai1-GDP signaling complex is regulated by Ric8 (show RIC8A Antibodies).
These results demonstrate that RGS14 (show RGS16 Antibodies) is a key regulator of signaling pathways linking synaptic plasticity in CA2 (show CA2 Antibodies) pyramidal neurons to hippocampal-based learning and memory but distinct from the canonical DG-CA3 (show CA3 Antibodies)-CA1 (show CA1 Antibodies) circuit.
the RGS14 (show RGS16 Antibodies) GoLoco domain discriminates among Galphai isoforms
RGS14 (show RGS16 Antibodies) is found ubiquitously throughout the postimplantation period in mice
RGS14 (show RGS16 Antibodies) activity towards heterotrimeric G-proteins, as either a GAP or a guanine nucleotide dissociation inhibitor, was unaffected by Rap (show LRPAP1 Antibodies) binding.
Morphine activation of Mu opioid receptors RGS14 (show RGS16 Antibodies) prevents G-protein-coupled receptor (show GPR34 Antibodies) kinases from phosphorylating those residues required for receptor endocytosis.
The regulator of G-protein signaling 14a protein, regulates the temporal relations between the appearance of the guidance molecules and the acquisition of cellular motility by regulating E-cadherin (show CDH1 Antibodies) levels.
This gene encodes a member of the regulator of G-protein signaling family. This protein contains one RGS domain, two Raf-like Ras-binding domains (RBDs), and one GoLoco domain. The protein attenuates the signaling activity of G-proteins by binding, through its GoLoco domain, to specific types of activated, GTP-bound G alpha subunits. Acting as a GTPase activating protein (GAP), the protein increases the rate of conversion of the GTP to GDP. This hydrolysis allows the G alpha subunits to bind G beta/gamma subunit heterodimers, forming inactive G-protein heterotrimers, thereby terminating the signal. Alternate transcriptional splice variants of this gene have been observed but have not been thoroughly characterized.
regulator of G-protein signalling 14
, RAP1/RAP2-interacting protein
, rap1/rap2 interacting protein
, regulator of G-protein signaling 14
, Regulator of G-protein signaling 14
, regulator of G-protein signaling 14-like
, LOW QUALITY PROTEIN: regulator of G-protein signaling 14