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Lessons from the lysozyme of phage T4.


ABSTRACT: An overview is presented of some of the major insights that have come from studies of the structure, stability, and folding of T4 phage lysozyme. A major purpose of this review is to provide the reader with a complete tabulation of all of the variants that have been characterized, including melting temperatures, crystallographic data, Protein Data Bank access codes, and references to the original literature. The greatest increase in melting temperature (T(m)) for any point mutant is 5.1 degrees C for the mutant Ser 117 --> Val. This is achieved in part not only by hydrophobic stabilization but also by eliminating an unusually short hydrogen bond of 2.48 A that apparently has an unfavorable van der Waals contact. Increases in T(m) of more than 3-4 degrees C for point mutants are rare, whereas several different types of destabilizing substitutions decrease T(m) by 20 degrees C or thereabouts. The energetic cost of cavity creation and its relation to the hydrophobic effect, derived from early studies of "large-to-small" mutants in the core of T4 lysozyme, has recently been strongly supported by related studies of the intrinsic membrane protein bacteriorhodopsin. The L99A cavity in the C-terminal domain of the protein, which readily binds benzene and many other ligands, has been the subject of extensive study. Crystallographic evidence, together with recent NMR analysis, suggest that these ligands are admitted by a conformational change involving Helix F and its neighbors. A total of 43 nonisomorphous crystal forms of different monomeric lysozyme mutants were obtained plus three more for synthetically-engineered dimers. Among the 43 space groups, P2(1)2(1)2(1) and P2(1) were observed most frequently, consistent with the prediction of Wukovitz and Yeates.

SUBMITTER: Baase WA 

PROVIDER: S-EPMC2867005 | biostudies-literature | 2010 Apr

REPOSITORIES: biostudies-literature

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Lessons from the lysozyme of phage T4.

Baase Walter A WA   Liu Lijun L   Tronrud Dale E DE   Matthews Brian W BW  

Protein science : a publication of the Protein Society 20100401 4


An overview is presented of some of the major insights that have come from studies of the structure, stability, and folding of T4 phage lysozyme. A major purpose of this review is to provide the reader with a complete tabulation of all of the variants that have been characterized, including melting temperatures, crystallographic data, Protein Data Bank access codes, and references to the original literature. The greatest increase in melting temperature (T(m)) for any point mutant is 5.1 degrees  ...[more]

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