David G. Maskalick scite author profile

David G. Maskalick

2Publications

36Citation Statements Received

116Citation Statements Given

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Analysis of electrostatic interactions and their relationship to conformation and stability of bovine pancreatic trypsin inhibitor

March¹,

Maskalick²,

England³

et al. 1982

Biochemistry

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The modified Tanford-Kirkwood electrostatic theory has been employed to evaluate pK values for all charge sites in the bovine pancreatic trypsin inhibitor (BPTI). 13C NMR titration data were obtained for all titrating groups except arginine residues in BPTI at nearly constant ionic strength in 0.1 M NaCl, at 41 degrees C. The chemical shifts of 46 resonances were found to be sensitive to pH. The pK values of these titrating resonances compared well with those computed by the modified Tanford-Kirkwood electrostatic theory. A conformational change involving the NH2- and COOH-terminal and nearby residues is shown to be partly electrostatically driven by the formation of a salt bridge between the alpha-amino and alpha-carboxyl groups at mid-pH values. The computed total electrostatic free energy of the molecule is found to be stabilizing at neutral pH despite the substantial net positive charge borne by the protein under such conditions.

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Aliphatic semisynthetic variants of the amino-terminal residue of sperm whale myoglobin: enrichment with carbon-13 and determination and interpretation of terminal pK values

Busch¹,

Maskalick²,

Neireiter³

et al. 1985

Biochemistry

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The synthesis of a series of myoglobins substituted in the amino-terminal residue to provide variation in the aliphatic nature of the side chain and enrichment in 13C was accomplished by semisynthetic methods. The replacements for valine, the native first residue, included 13C-enriched glycine, alanine, valine, leucine, and isoleucine. The products were extensively characterized and found to be virtually indistinguishable by most physical methods. 13C NMR spectroscopy showed significant differences in the amino-terminal pK value, ranging from 7.72 for [Gly1]myoglobin to 7.15 for [Leu1]myoglobin. Consideration of the electrostatic effects of the charge matrix indicated a balance of interactions at this site not significantly altered by these variations in the side chain. By examination of the crystal structure, consideration of earlier work regarding the interactions of the side chain of Leu-2, and data regarding the motions of the terminal residue, it was concluded that the interaction of the side chain of the first residue with the hydrophobic cluster formed primarily by close contact of invariant residues Leu-2 and Leu-137 was the primary cause for the reduction in terminal pK values seen for the larger aliphatics. By restricting the freedom of the residue, this interaction limits the available hydration volume and consequently favors the unprotonated form of the amine. The concurrent observation of both functional elements in the series of alpha-amino-terminal residues brings out the interrelated consequences for the two categories of solvent interactions controlling structural and functional properties in a graded way.

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