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Data indicate that Ric-8 binds to Galpha12 (zeige GNA12 ELISA Kits)/13 subunit, Concertina (Cta (zeige PCYT1A ELISA Kits)) through an interface of conserved residues.
Ric-8, which belongs to a family of guanine nucleotide-exchange factors for Galphai, regulates cortical localization of the subunits Galphai and Gbeta13F.
both receptor-dependent and receptor-independent G-protein functions are executed at the plasma membrane and require the Ric-8 protein.
Ric-8 homologue is required for asymmetric division of both NBs (zeige NLRP2 ELISA Kits) and pl cells.Ric-8 is necessary for membrane targeting of Galphai, Pins and Gbeta13F
New studies show that targeting of G-protein subunits to membrane requires Ric-8, pointing to possible novel roles for this protein in both receptor-dependent and independent pathways.
Data suggest that Ric-8A plays essential roles during the migration of cranial neural crest (NC) cells, possibly by regulating cell adhesion and spreading.
Genetic epistasis experiments show that activator of G protein signaling (AGS-3 (zeige GPSM1 ELISA Kits)) and guanine nucleotide exchange factor (zeige ARHGEF12 ELISA Kits) RIC-8 act during food deprivation in a mutually dependent fashion to activate G protein Galpha(o (zeige GNAO1 ELISA Kits)).
Data suggest a mechanism in which RIC-8 favors generation of Galpha (zeige SUCLG1 ELISA Kits) free from Gbetagamma and enables GPR-1/2 to mediate asymmetric cell division.
ric-8 (synembryn) paralysis can be rescued by neuronal G alpha(s (zeige GNAS ELISA Kits)) pathway activation.
Analysis of a ric-8 mutant suggests that it is required to maintain both the G alpha(q) vesicle priming pathway and the neuronal G alpha(s (zeige GNAS ELISA Kits)) pathway in a functional state.
RIC-8 directly modulates Galpha (zeige SUCLG1 ELISA Kits) activity and that Galpha (zeige SUCLG1 ELISA Kits)-GTP (zeige AK3 ELISA Kits) is the signaling molecule regulating spindle positioning in the early embryo
requirement toward GPA-16 is distinct from the known function of RIC-8 in enabling interaction between Galpha (zeige SUCLG1 ELISA Kits) proteins and GPR-1/2
found that RIC8A plays an important role in the organisation and remodelling of actin cytoskeleton and cell-extracellular matrix association
Results suggest that RIC8A has an essential role in the development of mammalian nervous system by maintaining the integrity of pial basement membrane and modulating cell division
Data show that the localization of maternally expressed RIC8 protein is highly dynamic and is dependent on the stage of folliculogenesis, oogenesis and cleavage, and imply that it may have a regulatory function in mammalian gametogenesis.
Data show that disrupting resistance to inhibitors of cholinesterase 8A (Ric-8A) expression in hematopoietic cells results in a loss of GTP-binding protein (zeige DRG1 ELISA Kits) alpha subunits Galphai2 (zeige GNAI2 ELISA Kits), Galphai3 (zeige GNAI3 ELISA Kits), and Galphaq (zeige GNAQ ELISA Kits).
The activity of RIC8A in neurons is essential for survival and its deficiency causes a severe neuromuscular phenotype.
Ric-8 proteins support G protein levels by serving as molecular chaperones that promote Galpha (zeige SUCLG1 ELISA Kits) subunit biosynthesis
These data indicate a dynamic interaction between GPR (zeige ALDH18A1 ELISA Kits) proteins, Galpha (zeige SUCLG1 ELISA Kits)(i1) and Ric-8A, in the cell that influences subcellular localization of the three proteins and regulates complex formation.
The results of this study revealed a novel role of Ric-8a in modulating Bergmann glia-basement membrane adhesion during foliation.
NCAM180 regulates Ric8A membrane localization and potentiates beta-adrenergic response
data suggest that Ric-8 proteins are molecular chaperones required for the initial association of nascent Galpha (zeige SUCLG1 ELISA Kits) subunits with cellular membranes
Human NCS-1 (zeige NCS1 ELISA Kits) and Ric8a reproduce the binding and maintain the structural requirements at these key positions. Drosophila Ric8a and Galphas (zeige GNAS ELISA Kits) regulate synapse number and neurotransmitter release, and both are functionally linked to Frq2.
Results confirmed that Ric-8A can directly bind to AGS3S but failed to facilitate Galpha (zeige SUCLG1 ELISA Kits)(i)-induced suppression of adenylyl cyclase, suggesting that it may not serve as a guanine exchange factor for AGS3 (zeige GPSM1 ELISA Kits)/Galpha (zeige SUCLG1 ELISA Kits)(i/o)-GDP complex in a cellular environment.
Ric-8A co-localized with Vps34 (zeige PIK3C3 ELISA Kits) at the midbody.
The ubiquitination of Galphai2 (zeige GNAI2 ELISA Kits) and Galphaq (zeige GNAQ ELISA Kits) is suppressed by expression of Ric-8A. The suppression likely requires Ric-8A interaction with these Galpha (zeige SUCLG1 ELISA Kits) proteins; the C-terminal truncation of Galphaq (zeige GNAQ ELISA Kits) and Galphai2 (zeige GNAI2 ELISA Kits) completely abrogates their interaction with Ric-8A.
RGS14 (zeige RGS14 ELISA Kits) can form complexes with GPCRs in cells that are dependent on Galpha (zeige SUCLG1 ELISA Kits)(i/o) and these RGS14 (zeige RGS14 ELISA Kits).Galpha (zeige SUCLG1 ELISA Kits)(i1).GPCR (zeige NMUR1 ELISA Kits) complexes may be substrates for other signaling partners such as Ric-8A
Ric-8A is critical for growth factor receptor-induced actin cytoskeletal reorganization
Ric-8A signaling leads to assembly of a cortical signaling complex that functions to orient the mitotic spindle.
Guanine nucleotide exchange factor (GEF), which can activate some, but not all, G-alpha proteins. Able to activate GNAI1, GNAO1 and GNAQ, but not GNAS by exchanging bound GDP for free GTP. Involved in regulation of microtubule pulling forces during mitotic movement of chromosomes by stimulating G(i)-alpha protein, possibly leading to release G(i)-alpha-GTP and NuMA proteins from the NuMA-GPSM2-G(i)-alpha-GDP complex (By similarity). Also acts as an activator for G(q)-alpha (GNAQ) protein by enhancing the G(q)-coupled receptor-mediated ERK activation.
, resistance to inhibitors of cholinesterase 8 homolog A
, resistance to inhibitors of cholinesterase 8 homolog A a
, resistance to inhibitors of cholinesterase 8 homolog A (C. elegans)
, heterotrimeric G protein guanine nucleotide exchange factor Ric-8A
, resistance to inhibitors of cholinesterase 8A
, likely ortholog of mouse synembryn
, synembryn A
, Protein Ric-8A
, resistance to inhibitors of cholinesterase 8 homolog A b