User:ALau99/Guanosine diphosphate

Hydrolysis of GTP into GDP
The hydrolysis of GTP to GDP is facilitated by GTPase enzymes, which utilize a conserved active site motif known as the GTPase-activating protein (GAP). Initially, a water molecule is coordinated by the active site residues of the GTPase enzyme. The water molecule attacks the γ-phosphate of GTP, leading to the formation of a pentavalent transition state. This transition state is stabilized by interactions with the active site residues, including conserved catalytic residues. As a result, the γ-phosphate is cleaved, and inorganic phosphate (Pi) is released. This step also causes a conformational change in the enzyme that promotes the release of GDP.

Intracellular signaling
GDP is involved in intracellular signaling processes functioning as a critical regulator in the activity of GTPases. GTPases act as molecular switches, cycling between an active GTP-bound state and an inactive GDP-bound state. The interconversion between GDP and GTP is tightly controlled and serves as a molecular timer for signal transduction pathways. When an extracellular signal triggers the activation of a G-protein coupled receptor (GPCR), the associated G-protein exchanges its bound GDP for GTP, leading to a conformational change and activation of downstream signaling cascades. This activation can stimulate a variety of cellular responses, including modulation of gene expression, cytoskeletal rearrangements, and regulation of enzymatic activities. The hydrolysis of GTP to GDP by the GTPase activity of the G-protein restoring the inactive state, thus terminates the signaling event.