Herbert J. Fromm scite author profile

A disordered loop (loop 52-72, residues 52-72) in crystal structures of fructose-1,6-bisphosphatase (FBPase) has been implicated in regulatory and catalytic phenomena by studies in directed mutation. A crystal structure of FBPase in a complex with three zinc cations and the products fructose 6-phosphate (F6P) and phosphate (Pi) reveals loop 52-72 for the first time in a well-defined conformation with strong electron density. Loop 52-57 interacts primarily with the active site of its own subunit. Asp68 of the loop hydrogen bonds with Arg276 and a zinc cation located at the putative potassium activation site. Leu56 and Tyr57 of the loop pack against hydrophobic residues from two separate subunits of FBPase. A mechanism of allosteric regulation of catalysis is presented, in which AMP, by binding to its allosteric pocket, displaces loop 52-72 from the active site. Furthermore, the current structure suggests that both the alpha- and beta-anomers of F6P can be substrates in the reverse reaction catalyzed by FBPase. Mechanisms of catalysis are proposed for the reverse reaction in which Asp121 serves as a catalytic base for the alpha-anomer and Glu280 serves as a catalytic base for the beta-anomer.

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Crystal Structures of Fructose 1,6-Bisphosphatase: Mechanism of Catalysis and Allosteric Inhibition Revealed in Product Complexes^,

Choe

2000

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Crystal structures of metal-product complexes of fructose 1, 6-bisphosphatase (FBPase) reveal competition between AMP and divalent cations. In the presence of AMP, the Zn(2+)-product and Mg(2+)-product complexes have a divalent cation present only at one of three metal binding sites (site 1). The enzyme is in the T-state conformation with a disordered loop of residues 52-72 (loop 52-72). In the absence of AMP, the enzyme crystallizes in the R-state conformation, with loop 52-72 associated with the active site. In structures without AMP, three metal-binding sites are occupied by Zn(2+) and two of three metal sites (sites 1 and 2) by Mg(2+). Evidently, the association of AMP with FBPase disorders loop 52-72, the consequence of which is the release of cations from two of three metal binding sites. In the Mg(2+) complexes (but not the Zn(2+) complexes), the 1-OH group of fructose 6-phosphate (F6P) coordinates to the metal at site 1 and is oriented for a nucleophilic attack on the bound phosphate molecule. A mechanism is presented for the forward reaction, in which Asp74 and Glu98 together generate a hydroxide anion coordinated to the Mg(2+) at site 2, which then displaces F6P. Development of negative charge on the 1-oxygen of F6P is stabilized by its coordination to the Mg(2+) at site 1.

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The mechanism of regulation of hexokinase: new insights from the crystal structure of recombinant human brain hexokinase complexed with glucose and glucose-6-phosphate

et al. 1998

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Crystal Structures of Adenylosuccinate Synthetase fromEscherichia coliComplexed with GDP, IMP Hadacidin, NO3–, and Mg2 +

Poland

Fromm

Honzatko

1996

Journal of Molecular Biology

114

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Regulation, Genetics, and Properties of Adenylosuccinate Synthetase: A Review

1983

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Herbert J. Fromm

Role of a Dynamic Loop in Cation Activation and Allosteric Regulation of Recombinant Porcine Fructose-1,6-bisphosphatase^,

Crystal Structures of Fructose 1,6-Bisphosphatase: Mechanism of Catalysis and Allosteric Inhibition Revealed in Product Complexes^,

The mechanism of regulation of hexokinase: new insights from the crystal structure of recombinant human brain hexokinase complexed with glucose and glucose-6-phosphate

Crystal Structures of Adenylosuccinate Synthetase fromEscherichia coliComplexed with GDP, IMP Hadacidin, NO3–, and Mg2 +

Regulation, Genetics, and Properties of Adenylosuccinate Synthetase: A Review

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Herbert J. Fromm

Role of a Dynamic Loop in Cation Activation and Allosteric Regulation of Recombinant Porcine Fructose-1,6-bisphosphatase,

Crystal Structures of Fructose 1,6-Bisphosphatase: Mechanism of Catalysis and Allosteric Inhibition Revealed in Product Complexes,

The mechanism of regulation of hexokinase: new insights from the crystal structure of recombinant human brain hexokinase complexed with glucose and glucose-6-phosphate

Crystal Structures of Adenylosuccinate Synthetase fromEscherichia coliComplexed with GDP, IMP Hadacidin, NO3–, and Mg2 +

Regulation, Genetics, and Properties of Adenylosuccinate Synthetase: A Review

Contact Info

Product

Resources

About

Role of a Dynamic Loop in Cation Activation and Allosteric Regulation of Recombinant Porcine Fructose-1,6-bisphosphatase^,

Crystal Structures of Fructose 1,6-Bisphosphatase: Mechanism of Catalysis and Allosteric Inhibition Revealed in Product Complexes^,