Stephen A. Kuby scite author profile

The MgATP binding site of adenylate kinase, located by a combination of NMR and x-ray diffraction, is near three protein segments, five to seven amino acids in length, that are homologous in sequence to segments found in other nucleotide-binding phosphotransferases, such as myosin and Fl-ATPase, ras p21 and transducin GTPases, and cAMPdependent and src protein kinases, suggesting equivalent mechanistic roles of these segments in all of these proteins. Segment 1 is a glycine-rich flexible loop that, on adenylate kinase, may control access to the ATP-binding site by changing its conformation. Segment 2 is an a-helix containing two hydrophobic residues that interact with the adenine-ribose moiety of ATP, and a lysine that may bind to the j8-and y-phosphates of ATP. Segment 3 is a hydrophobic strand of parallel a6-pleated sheet, terminated by a carboxylate, that flanks the triphosphate binding site. The various reported mutations of ras p21 that convert it to a transforming agent all appear to involve segment 1, and such substitutions may alter the properties of p21 by hindering a conformational change at this segment. In F1-ATPase, the flexible loop may, by its position, control both the accessibility and the ATP/ADP equilibrium constant on the enzyme.Adenylate kinase catalyzes the reversible transfer of a phosphoryl group from MgATP to AMP.MgATP + AMP MgADP + ADP.[1]The enzyme has been purified from many sources, the x-ray structure of the porcine muscle enzyme has been reported at 3 A resolution (1), and amino acid sequences have been determined for muscle adenylate kinase from pig (2), human (3), calf, and rabbit (4). It was noted by Walker et al. (5) that two portions of the adenylate kinase sequence had homologous counterparts in the sequences of several ATPases. One of these homologous segments was later found to be present in p21, the GTPase that is the product of the ras oncogene (6-8). The recent finding that a mutation in this segment is the basis of the transforming ability of this protein (9, 10) has amplified the importance of determining the functional role of this segment. We have identified a third homologous region in several of these proteins and have further expanded the list of proteins with sequence homologies to adenylate kinase. Through a series of NMR studies on porcine (11) and rabbit muscle (12) High-field proton NMR was used to study the interaction of metal-ATP substrates with porcine (11) and rabbit muscle adenylate kinase (12), and with a globular peptide fragment of the latter enzyme consisting of residues 1-45 that binds metal-ATP with comparable affinity (13). Paramagnetic effects of B,y-bidentate Cr3+-ATP on the relaxation rates of protons of the enzyme and the peptide were measured and provided a total of eight distances from Cr3+ to the side chains of specific amino acid residues. Time-dependent nuclear tIn some of the proteins of (32). 907The publication costs of this article were defrayed in part by page charge payment. This article must therefore be hereby marked "adv...

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NMR studies of the magnesium-ATP binding site of adenylate kinase and of a 45-residue peptide fragment of the enzyme

Fry¹,

Kuby²,

Mildvan³

1985

Biochemistry

168

137

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Proton NMR was used to study the interaction of beta,gamma-bidentate Cr3+ATP and MgATP with rabbit muscle adenylate kinase, which has 194 amino acids, and with a synthetic peptide consisting of residues 1-45 of the enzyme, which has previously been shown to bind MgepsilonATP [Hamada, M., Palmieri, R. H., Russell, G. A., & Kuby, S. A. (1979) Arch. Biochem. Biophys. 195, 155-177]. The peptide is globular and binds Cr3+ATP competitively with MgATP with a dissociation constant, KD(Cr3+ATP) = 35 microM, comparable to that of the complete enzyme [KI(Cr3+ATP) = 12 microM]. Time-dependent nuclear Overhauser effects (NOE's) were used to measure interproton distances on enzyme- and peptide-bound MgATP. The correlation time was measured directly for peptide-bound MgATP by studying the frequency dependence of the NOE's at 250 and 500 MHz. The H2' to H1' distance so obtained (3.07 A) was within the range established by X-ray and model-building studies of nucleotides (2.9 +/- 0.2 A). Interproton distances yielded conformations of enzyme- and peptide-bound MgATP with indistinguishable anti-glycosyl torsional angles (chi = 63 +/- 12 degrees) and 3'-endo/O1'-endo ribose puckers (sigma = 96 +/- 12 degrees). Enzyme- and peptide-bound MgATP molecules exhibited different C4'-C5' torsional angles (gamma) of 170 degrees and 50 degrees, respectively. Ten intermolecular NOE's from protons of the enzyme and four such NOE's from protons of the peptide to protons of bound MgATP were detected, which indicated proximity of the adenine ribose moiety to the same residues on both the enzyme and the peptide. Paramagnetic effects of beta,gamma-bidentate Cr3+ATP on the longitudinal relaxation rates of protons of the peptide provided a set of distances to the side chains of five residues, which allowed the location of the bound Cr3+ atom to be uniquely defined. Distances from enzyme-bound Cr3+ATP to the side chains of three residues of the protein agreed with those measured for the peptide. The mutual consistency of interproton and Cr3+ to proton distances obtained in metal-ATP complexes of both the enzyme and the peptide suggests that the conformation of the peptide is very similar to that of residues 1-45 of the enzyme. When this was assumed to be the case and when molecular models and a computer graphics system were used, MgATP could be fit into the X-ray structure of adenylate kinase in a unique manner such that all of the distances determined by NMR were accommodated.(ABSTRACT TRUNCATED AT 400 WORDS)

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Studies on Adenosine Triphosphate Transphosphorylases

Mahowald

Noltmann

Kuby

1962

Journal of Biological Chemistry

192

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Studies on adenosine triphosphate transphosphorylases XIV. Equilibrium binding properties of the crystalline rabbit and calf muscle ATP-AMP transphosphorylase (adenylate kinase) and derived peptide fragments

Hamada

Palmieri

Russell

et al. 1979

Archives of Biochemistry and Biophysics

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In vitro mutagenesis studies at the arginine residues of adenylate kinase. A revised binding site for AMP in the x-ray-deduced model

Kim¹,

Nishikawa²,

Tokutomi³

et al. 1990

Biochemistry

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Although X-ray crystallographic and NMR studies have been made on the adenylate kinases, the substrate-binding sites are not unequivocally established. In an attempt to shed light on the binding sites for MgATP2- and for AMP2- in human cytosolic adenylate kinase (EC 2.7.4.3, hAK1), we have investigated the enzymic effects of replacement of the arginine residues (R44, R132, R138, and R149), which had been assumed by Pai et al. [Pai, E. F., Sachsenheimer, W., Schirmer, R. H., & Schulz, G. E. (1977) J. Mol. Biol. 114, 37-45] to interact with the phosphoryl groups of AMP2- and MgATP2-. With use of the site-directed mutagenesis method, point mutations were made in the artificial gene for hAK1 [Kim, H. J., Nishikawa, S., Tanaka, T., Uesugi, S., Takenaka, H., Hamada, M., & Kuby, S. A. (1989) Protein Eng. 2, 379-386] to replace these arginine residues with alanyl residues and yield the mutants R44A hAK1, R132A hAK1, R138A hAK1, and R149A hAK1. The resulting large increases in the Km,app values for AMP2- of the mutant enzymes, the relatively small increases in the Km,app values for MgATP2-, and the fact that the R132A, R138A, and R149A mutant enzymes proved to be very poor catalysts are consistent with the idea that the assigned substrate binding sites of Pai et al. (1977) have been reversed and that their ATP-binding site may be assigned as the AMP site.

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Stephen A. Kuby

ATP-binding site of adenylate kinase: mechanistic implications of its homology with ras-encoded p21, F1-ATPase, and other nucleotide-binding proteins.

NMR studies of the magnesium-ATP binding site of adenylate kinase and of a 45-residue peptide fragment of the enzyme

Studies on Adenosine Triphosphate Transphosphorylases

Studies on adenosine triphosphate transphosphorylases XIV. Equilibrium binding properties of the crystalline rabbit and calf muscle ATP-AMP transphosphorylase (adenylate kinase) and derived peptide fragments

In vitro mutagenesis studies at the arginine residues of adenylate kinase. A revised binding site for AMP in the x-ray-deduced model

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