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1p3n

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[[Image:1p3n.gif|left|200px]]
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[[Image:1p3n.png|left|200px]]
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{{STRUCTURE_1p3n| PDB=1p3n | SCENE= }}
{{STRUCTURE_1p3n| PDB=1p3n | SCENE= }}
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'''CORE REDESIGN BACK-REVERTANT I103V/CORE10'''
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===CORE REDESIGN BACK-REVERTANT I103V/CORE10===
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==Overview==
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Automated protein redesign, as implemented in the program ORBIT, was used to redesign the core of phage T4 lysozyme. A total of 26 buried or partially buried sites in the C-terminal domain were allowed to vary both their sequence and side-chain conformation while the backbone and non-selected side-chains remained fixed. A variant with seven substitutions ("Core-7") was identified as having the most favorable energy. The redesign experiment was repeated with a penalty for the presence of methionine residues. In this case the redesigned protein ("Core-10") had ten amino acid changes. The two designed proteins, as well as the constituent single mutants, and several single-site revertants were over-expressed in Escherichia coli, purified, and subjected to crystallographic and thermal analyses. The thermodynamic and structural data show that some repacking was achieved although neither redesigned protein was more stable than the wild-type protein. The use of the methionine penalty was shown to be effective. Several of the side-chain rotamers in the predicted structure of Core-10 differ from those observed. Rather than changing to new rotamers predicted by the design process, side-chains tend to maintain conformations similar to those seen in the native molecule. In contrast, parts of the backbone change by up to 2.8A relative to both the designed structure and wild-type.Water molecules that are present within the lysozyme molecule were removed during the design process. In the redesigned protein the resultant cavities were, to some degree, re-occupied by side-chain atoms. In the observed structure, however, water molecules were still bound at or near their original sites. This suggests that it may be preferable to leave such water molecules in place during the design procedure. The results emphasize the specificity of the packing that occurs within the core of a typical protein. While point substitutions within the core are tolerated they almost always result in a loss of stability. Likewise, combinations of substitutions may also be tolerated but usually destabilize the protein. Experience with T4 lysozyme suggests that a general core repacking methodology with retention or enhancement of stability may be difficult to achieve without provision for shifts in the backbone.
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(as it appears on PubMed at http://www.pubmed.gov), where 12963380 is the PubMed ID number.
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{{ABSTRACT_PUBMED_12963380}}
==About this Structure==
==About this Structure==
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[[Category: Side-chain packing]]
[[Category: Side-chain packing]]
[[Category: T4 lysozyme]]
[[Category: T4 lysozyme]]
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Sat May 3 04:38:38 2008''
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''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Mon Jul 28 17:29:33 2008''

Revision as of 14:29, 28 July 2008

Image:1p3n.png

Template:STRUCTURE 1p3n

CORE REDESIGN BACK-REVERTANT I103V/CORE10

Template:ABSTRACT PUBMED 12963380

About this Structure

1P3N is a Single protein structure of sequence from Enterobacteria phage t4. Full crystallographic information is available from OCA.

Reference

Repacking the Core of T4 lysozyme by automated design., Mooers BH, Datta D, Baase WA, Zollars ES, Mayo SL, Matthews BW, J Mol Biol. 2003 Sep 19;332(3):741-56. PMID:12963380

Page seeded by OCA on Mon Jul 28 17:29:33 2008

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