Marco Moracci scite author profile

Hydrophobic residues in the core of a truncated form of chymotrypsin inhibitor 2 (CI2) have been mutated in order to measure their contribution to the stability of the protein. The free energy of unfolding of wild-type and mutants was measured by both guanidinium chloride-induced denaturation and differential scanning calorimetry. The two methods give results for the changes in free energy on mutation that agree to within 1% or 2%. The average change in the free energy of unfolding (+/- standard deviation) for an Ile-->Val mutation is 1.2 +/- 0.1 kcal mol-1, for a Val-->Ala mutation 3.4 +/- 1.5 kcal mol-1, and for either an Ile-->Ala or a Leu-->Ala mutation 3.6 +/- 0.6 kcal mol-1. This gives an average change in the free energy of unfolding for deleting one methylene group of 1.3 +/- 0.5 kcal mol-1. Two significant correlations were found between the change in the free energy of unfolding between wild-type and mutant, delta delta GU-F, and the environment of the mutated residue in the protein. The first is between delta delta GU-F and the difference in side-chain solvent-accessible area buried between wild-type and mutant (correlation coefficient = 0.81, 10 points). The second and slightly better correlation was found between delta delta GU-F and N, the number of methyl/methylene groups within a 6-A radius of the hydrophobic group deleted (correlation coefficient = 0.84, 10 points). The latter correlation is very similar to that found previously for barnase, suggesting that this relationship is general and applies to the hydrophobic cores of other globular proteins. The combined data for C12 and barnase clearly show a better correlation with N (correlation coefficient = 0.87, 30 points) than with the change in the solvent-accessible surface area (correlation coefficient = 0.82, 30 points). This indicates that the packing density around a particular residue is important in determining the contribution the residue makes to protein stability. In one case, Ile-->Val76, a mutation which deletes the C delta 1 methyl group of a buried side chain, a surprising result was obtained. This mutant was found to be more stable than wild-type by 0.2 +/- 0.1 kcal mol-1. We have solved and analyzed the crystal structure of this mutant and find that there are small movements of side chains in the core, the largest of which, 0.7 A, is a movement of the side chain that has been mutated.(ABSTRACT TRUNCATED AT 400 WORDS)

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Crystal structure of the β-glycosidase from the hyperthermophilic archeon Sulfolobus solfataricus: resilience as a key factor in thermostability

Aguilar¹,

Sanderson²,

Moracci

et al. 1997

Journal of Molecular Biology

238

198

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Structure of human lysosomal acid α-glucosidase–a guide for the treatment of Pompe disease

et al. 2017

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Pompe disease, a rare lysosomal storage disease caused by deficiency of the lysosomal acid α-glucosidase (GAA), is characterized by glycogen accumulation, triggering severe secondary cellular damage and resulting in progressive motor handicap and premature death. Numerous disease-causing mutations in the gaa gene have been reported, but the structural effects of the pathological variants were unknown. Here we present the high-resolution crystal structures of recombinant human GAA (rhGAA), the standard care of Pompe disease. These structures portray the unbound form of rhGAA and complexes thereof with active site-directed inhibitors, providing insight into substrate recognition and the molecular framework for the rationalization of the deleterious effects of disease-causing mutations. Furthermore, we report the structure of rhGAA in complex with the allosteric pharmacological chaperone N-acetylcysteine, which reveals the stabilizing function of this chaperone at the structural level.

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Marco Moracci

Effect of cavity-creating mutations in the hydrophobic core of chymotrypsin inhibitor 2

Crystal structure of the β-glycosidase from the hyperthermophilic archeon Sulfolobus solfataricus: resilience as a key factor in thermostability

Structure of human lysosomal acid α-glucosidase–a guide for the treatment of Pompe disease

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