Ralph M. Hecht scite author profile

The crystal structure of holo D-glyceraldehyde-3-phosphate dehydrogenase (GAPDH) from the extreme thermophile Thermus aquaticus has been solved at 2.5 Angstroms resolution. To study the determinants of thermostability, we compare our structure to four other GAPDHs. Salt links, hydrogen bonds, buried surface area, packing density, surface to volume ratio, and stabilization of alpha-helices and beta-turns are analyzed. We find a strong correlation between thermostability and the number of hydrogen bonds between charged side chains and neutral partners. These charged-neutral hydrogen bonds provide electrostatic stabilization without the heavy desolvation penalty of salt links. The stability of thermophilic GAPDHs is also correlated with the number of intrasubunit salt links and total hydrogen bonds. Charged residues, therefore, play a dual role in stabilization by participating not only in salt links but also in hydrogen bonds with a neutral partner. Hydrophobic effects allow for discrimination between thermophiles and psychrophiles, but not within the GAPDH thermophiles. There is, however, an association between thermostability and decreasing enzyme surface to volume ratio. Finally, we describe several interactions present in both our GAPDH and a hyperthermophilic GAPDH that are absent in the less thermostable GAPDHs. These include a four-residue salt link network, a hydrogen bond near the active site, an intersubunit salt link, and several buried Ile residues.

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RNA Molecules Bound to the Folded Bacterial Genome Stabilize DNA Folds and Segregate Domains of Supercoiling

Pettijohn¹,

Hecht²

1974

Cold Spring Harbor Symposia on Quantitative Biology

168

118

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Parental effects and phenotypic characterization of mutations that affect early development in Caenorhabditis elegans

Wood

Hecht

Carr

et al. 1980

Developmental Biology

151

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Factors Stabilizing DNA Folding in Bacterial Chromosomes

Pettijohn¹,

Hecht²,

Stonington³

et al. 1973

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Sedimentation properties of the bacterial chromosome as an isolated nucleoid and as an unfolded DNA fiber

Hecht

Stimpson

Pettijohn

1977

Journal of Molecular Biology

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Ralph M. Hecht

Determinants of Enzyme Thermostability Observed in the Molecular Structure ofThermusaquaticusd-Glyceraldehyde-3-phosphate Dehydrogenase at 2.5 Å Resolution^,

RNA Molecules Bound to the Folded Bacterial Genome Stabilize DNA Folds and Segregate Domains of Supercoiling

Parental effects and phenotypic characterization of mutations that affect early development in Caenorhabditis elegans

Factors Stabilizing DNA Folding in Bacterial Chromosomes

Sedimentation properties of the bacterial chromosome as an isolated nucleoid and as an unfolded DNA fiber

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About

Ralph M. Hecht

Determinants of Enzyme Thermostability Observed in the Molecular Structure ofThermusaquaticusd-Glyceraldehyde-3-phosphate Dehydrogenase at 2.5 Å Resolution,

RNA Molecules Bound to the Folded Bacterial Genome Stabilize DNA Folds and Segregate Domains of Supercoiling

Parental effects and phenotypic characterization of mutations that affect early development in Caenorhabditis elegans

Factors Stabilizing DNA Folding in Bacterial Chromosomes

Sedimentation properties of the bacterial chromosome as an isolated nucleoid and as an unfolded DNA fiber

Contact Info

Product

Resources

About

Determinants of Enzyme Thermostability Observed in the Molecular Structure ofThermusaquaticusd-Glyceraldehyde-3-phosphate Dehydrogenase at 2.5 Å Resolution^,