Exploring steric constraints on protein mutations using MAGE/PROBE

J. M. Word, Jr Bateman R.C., B. K. Presley, S. C. Lovell, D. C. Richardson

    Research output: Contribution to journalArticlepeer-review

    Abstract

    When planning a mutation to test some hypothesis, one crucial question is whether the new side chain is compatible with the existing structure; only if it is compatible can the interpretation of mutational results be straightforward. This paper presents a simple way of using the sensitive geometry of all-atom contacts (including hydrogens) to answer that question. The interactive MAGE/PROBE system lets the biologist explore conformational space for the mutant side chain, with an interactively updated kinemage display of its all-atom contacts to the original structure. The Autobondrot function in PROBE systematically explores that same conformational space, outputting contact scores at each point, which are then contoured and displayed. These procedures are applied here in two types of test cases, with known mutant structures. In ricin A chain, the ability of a neighboring glutamate to rescue activity of an active-site mutant is modeled successfully. In T4 lysozyme, six mutations to Leu are analyzed within the wild-type background structure, and their Autobondrot score maps correctly predict whether or not their surroundings must shift significantly in the actual mutant structures; interactive examination of contacts for the conformations involved explains which clashes are relieved by the motions. These programs are easy to use, are available free for UNIX or Microsoft Windows operating systems, and should be of significant help in choosing good mutation experiments or in understanding puzzling results.
    Original languageEnglish
    Pages (from-to)2251-2259
    Number of pages8
    JournalProtein science
    Volume9
    Issue number11
    Publication statusPublished - 2000

    Keywords

    • All-atom contact analysis
    • Explicit hydrogens
    • Interactive molecular graphics
    • Kinemages
    • Side-chain conformational maps
    • Site-directed mutagenesis

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