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Crosstalk has also been shown between GEFs and multiple GTPase signaling pathways. For example, SOS contains a Dbl homology domain in addition to its CDC25 catalytic domain. SOS can act as a GEF to activate Rac1, a RhoGTPase, in addition to its role as a GEF for Ras. SOS is therefore a link between the Ras-Family and Rho-Family GTPase signaling ...
Reaction of GeF 4 with fluoride sources produces GeF 5 − anions with octahedral coordination around Ge atom due to polymerization. [6] The structural characterization of a discrete trigonal bipyramidal GeF 5 − anion was achieved by a "naked" fluoride reagent 1,3-bis(2,6-diisopropylphenyl)imidazolium fluoride.
The inactive form of GTPases (GDP-form) are activated by a class of proteins called Guanosine nucleotide exchange factors (GEFs). GEFs catalyse nucleotide exchange by encouraging the release of GDP from the small GTPase (by displacement of the small GTPase-associated Mg 2+ ion) and GDP's replacement by GTP (which is in at least a 10-fold excess within the cell) .
Rap guanine nucleotide exchange factor (GEF) 4 (RAPGEF4), also known as exchange protein directly activated by cAMP 2 (EPAC2) is a protein that in humans is encoded by the RAPGEF4 gene. [ 5 ] [ 6 ] [ 7 ]
SOS1 is a guanine nucleotide exchange factor (GEF) which interacts with Ras proteins to phosphorylate GDP into GTP, or from an inactive state to an active state to signal cell proliferation. RAS genes (e.g., MIM 190020) encode membrane-bound guanine nucleotide-binding proteins that function in the transduction of signals that control cell ...
[4] RGS domains in the G protein-coupled receptor kinases are able to bind to Gq family α-subunits, but do not accelerate their GTP hydrolysis. Instead, GRKs appear to reduce Gq signaling by sequestering the active α-subunits away from effectors such as phospholipase C-β.
Shortly after, the G βγ complex associated with a mating factor receptor-coupled G protein in yeast was found to initiate a pheromone response. [4] Although these hypotheses were initially controversial, G βγ has since been shown to directly regulate as many different protein targets as the G α subunit. [1]
For example, in adipose tissues, two different G-proteins with interchangeable beta-gamma complexes are used to activate or inhibit adenylyl cyclase. The alpha subunit of a stimulatory G protein activated by receptors for stimulatory hormones could stimulate adenylyl cyclase, which activates cAMP used for downstream signal cascades.