Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/261
Title: Role of individual domains and identification of internal gap in human guanylate binding protein-1
Authors: Sau, Apurba K
Abdullah, Nazish
Srinivasan, Bharani
Modiano, Nir
Cresswell, Peter
Issue Date: Feb-2009
Publisher: Elsevier Ltd
Abstract: Unlike other GTPases, interferon-gamma-induced human guanylate binding protein-1 has the ability to hydrolyze GTP to both GDP and GMP, with GMP being the major product of the reaction. This protein has two domains, an N-terminal globular domain and a C-terminal helical domain. These two domains are connected by a short intermediate region consisting of a two-stranded β-sheet and a helix. As human guanylate binding protein-1 has been shown to undergo stimulated GTPase activity without external GTPase-activating protein, we sought to understand the roles of each of the two individual domains, the intermediate region, a conserved motif (103DXEKGD108), and the mechanism of the stimulation of GTPase activity. The steady-state assays using radiolabeled [α-32P]GTP on the wild-type protein suggest that the stimulation of activity primarily occurs during the cleavage of the second phosphate of GTP rather than the first, through allosteric interaction. Using several truncated and mutant proteins, we demonstrate for the first time that both the α-helix of the intermediate region and the 103DXEKGD108 motif play critical roles for the hydrolysis to GMP, but they appear to act in different ways: α-helix acts through structural stabilization by allosteric interaction and, thus, acts as an internal GTPase-activating protein, whereas the motif might act by providing necessary catalytic residues. Our data also show that the N-terminal globular domain is able to perform only the first catalysis (GTP to GDP, an activity associated with basal level), but the helical domain in the full-length protein stimulates the hydrolysis of GTP to GMP with higher GMP formation by preventing the dissociation of GDP-bound enzyme dimer.
URI: http://hdl.handle.net/123456789/261
Appears in Collections:Immumo Endocrinology, Publications

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