The structure of <i>E.coli</i> soluble inorganic pyrophosphatase at 2.7 Å resolution

Kankare, Jussi; Neal, Genevieve S.; Salminen, Tiina A.; Glumoff, Tuomo; Cooperman, Barry S.; Lahti, Reijo; Goldman, Adrian

doi:10.1093/protein/7.7.823

Cited by 59 publications

(101 citation statements)

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“…Comparison of these amino at:id sequences reveals little similarity except for 21 residues which are conserved in all known PPases. 15 of them are l¢cated in the PPase active site cavity as shown by X-ray ci '¢stallographic studies of E. coli PPase [4,5], T. thermophilus P~'ase [3] and S. cerevisiae PPase-Mn2+-Pi complex [6]. These d:ta are in accordance with the similarity of the catalytic m~chanisms examined in detail on the E. coli and S. cerevisiae el~zymes [7,8].…”

Section: Introductionsupporting

confidence: 72%

Effect of D42N substitution in Escherichia coli inorganic pyrophosphatase on catalytic activity and Mg²⁺ binding

et al. 1996

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Section: Introductionsupporting

confidence: 72%

Effect of D42N substitution in Escherichia coli inorganic pyrophosphatase on catalytic activity and Mg²⁺ binding

et al. 1996

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“…coli PPase is homohexameric (Wong et al, 1970) and contains 175 amino acid residues per subunit (Lahti et al, 1988). Its three-dimensional structure, recently been determined at 2.5-2.7-Å resolution (Kankare et al, 1994;Oganessyan et al, 1994), is very like that of S. cerevisiae PPase (Kuranova et al, 1983;Terzyan et al, 1984), in accord with the conservation of active site residues and mechanism in the two enzymes (Cooperman et al, 1992;Kankare et al, 1994). E. coli PPase requires four Mg 2ϩ ions per active site for catalysis, as described in Scheme I.…”

mentioning

confidence: 78%

“…7; Kankare et al (1994)). The main components of the interface around the local 2-fold axis are the two antiparallel symmetry-related ␣-helices A (Fig.…”

Section: Hexamer Stability and The Interface Between Monomers-mentioning

confidence: 99%

“…The absence of His residues from the active site cavity (Kankare et al, 1994) and the lack of conserved His residues in soluble PPases (Cooperman et al, 1992) make it clear that His residues have no direct role in catalysis, leaving open the possibility that the chemical modification results arise from an indirect effect. In this work we demonstrate that substitution of each of the five His residues in E. coli PPase with Gln results in substantial retention or even enhancement of catalytic activity, confirming their nonessential character.…”

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confidence: 99%

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Dissociation of Hexameric Escherichia coli Inorganic Pyrophosphatase into Trimers on His-136 → Gln or His-140 → Gln Substitution and Its Effect on Enzyme Catalytic Properties

Baykov

Dudarenkov

Käpylä

et al. 1995

Journal of Biological Chemistry

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Each of the five histidines in Escherichia coli inorganic pyrophosphatase (PPase) was replaced in turn by glutamine. Significant changes in protein structure and activity were observed in the H136Q and H140Q variants only. In contrast to wild-type PPase, which is hexameric, these variants can be dissociated into trimers by dilution, as shown by analytical ultracentrifugation and cross-linking. Mg 2؉ and substrate stabilize the hexameric forms of both variants. The hexameric H136Q-and H140Q-PPases have the same binding affinities for magnesium ion as wild-type, but their hydrolytic activities under optimal conditions are, respectively, 225 and 110% of wild-type PPase, and their synthetic activities, 340 and 140%. The increased activity of hexameric H136Q-PPase results from an increase in the rate constants governing most of the catalytic steps in both directions. Dissociation of the hexameric H136Q and H140Q variants into trimers does not affect the catalytic constants for PP i hydrolysis between pH 6 and 9 but drastically decreases their affinities for Mg 2 PP i and Mg 2؉. These results prove that His-136 and His-140 are key residues in the dimer interface and show that hexamer formation improves the substrate binding characteristics of the active site.

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“…The a + p fold of MutT resembles, but is not identical to, certain other members of this class of proteins such as the actin binding domain of severin (Schnuchel et al, 1995) and the carbohydrate recognition domain of a mannose binding protein (Weis et al, 1991), both of which bind Ca2+, the phosphotyrosine recognition SH2 domain (Waksman et al, 1992), and the mechanistically related enzyme inorganic pyrophosphatase (Kankare et al, 1994;Teplyakov et al, 1994) although none of these proteins show significant sequence homology to MutT (Mejean et al, 1994).…”

Section: Discussionmentioning

confidence: 99%

Solution Structure of the MutT Enzyme, a Nucleoside Triphosphate Pyrophosphohydrolase

Abeygunawardana¹,

Weber²,

Gittis³

et al. 1995

Biochemistry

124

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The MutT enzyme (129 residues) catalyzes the hydrolysis of normal and mutagenic nucleoside triphosphates, such as 8-oxo-dGTP, by substitution at the rarely attacked P-P, to yield NMP and pyrophosphate. Previous heteronuclear NMR studies of MutT have shown the secondary structure to consist of a five-stranded mixed P-sheet connected by the loop I-a-helix I-loop I1 motif, by two tight tums, and by loop 111, and terminated by loop IV-a-helix I1 (4) restraints and 34 backbone hydrogen bond restraints were used to determine the tertiary structure ofMutT by distance geometry, simulated annealing, and energy minimization with the program X-PLOR. The structure is globular and compact with the parallel portion of the P-sheet sandwiched between the two a-helices, forming an a f , ! ? fold. The essential divalent cation has previously been shown to bind near residues Gly-37, Gly-38, Lys-39, and Glu-57, and nucleotides have been shown to bind near residues Leu-54 and Val-58 by NMR relaxation methods [Frick et al. (1995) Biochemistry 34, 5577-55861. The tertiary structure of MutT shows these residues to be near each other along the loop I-helix I region of the enzyme. A cluster of five glutamate residues (41,53, 56,57, and 98) form a patch of strongly negative electrostatic potential likely constituting the metal binding site. This site is contiguous with a deep cleft between P-strands A, C, and D and loop I which may contribute to the nucleotide binding site. This location of the active site is consistent with mutagenesis studies and with sequence homologies among MutT-like pyrophosphohydrolases.The MutT enzyme, a pyrophosphohydrolase of 129 residues, catalyzes the unusual hydrolysis of nucleoside and deoxynucleoside triphosphates (NTP) by nucleophilic substitution at the rarely attacked ,!?-phosphorus, yielding pyrophosphate and a nucleotide (NMP) as products (Bhatnagar et al., 1991;Weber et al., 1992). Like other enzymes which catalyze substitution at the electron-rich ,!?-phosphorus, this enzyme requires two divalent cations for activity (Frick et al., 1994). The biological role of this enzyme is to prevent ' This work was supported in part by National Institutes of Health Grants DK28616 (to A.S.M.), GM18649 (to M.J.B.), and GM36358 (which supports A.G.G.).A complete listing of the distance restraints derived from the NOE data has been deposited at the Brookhaven Protein Data Bank (Chemistry Department, Brookhaven National Laboratory, Upton, NJ) together with the atomic coordinates of the family of 15 acceptable structures (file name IMUT).

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The structure of E.coli soluble inorganic pyrophosphatase at 2.7 Å resolution

Cited by 59 publications

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Effect of D42N substitution in Escherichia coli inorganic pyrophosphatase on catalytic activity and Mg²⁺ binding

Effect of D42N substitution in Escherichia coli inorganic pyrophosphatase on catalytic activity and Mg²⁺ binding

Dissociation of Hexameric Escherichia coli Inorganic Pyrophosphatase into Trimers on His-136 → Gln or His-140 → Gln Substitution and Its Effect on Enzyme Catalytic Properties

Solution Structure of the MutT Enzyme, a Nucleoside Triphosphate Pyrophosphohydrolase

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The structure of E.coli soluble inorganic pyrophosphatase at 2.7 Å resolution

Cited by 59 publications

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Effect of D42N substitution in Escherichia coli inorganic pyrophosphatase on catalytic activity and Mg2+ binding

Effect of D42N substitution in Escherichia coli inorganic pyrophosphatase on catalytic activity and Mg2+ binding

Dissociation of Hexameric Escherichia coli Inorganic Pyrophosphatase into Trimers on His-136 → Gln or His-140 → Gln Substitution and Its Effect on Enzyme Catalytic Properties

Solution Structure of the MutT Enzyme, a Nucleoside Triphosphate Pyrophosphohydrolase

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Effect of D42N substitution in Escherichia coli inorganic pyrophosphatase on catalytic activity and Mg²⁺ binding

Effect of D42N substitution in Escherichia coli inorganic pyrophosphatase on catalytic activity and Mg²⁺ binding