2011
DOI: 10.1002/pro.759
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Environment‐dependent long‐range structural distortion in a temperature‐sensitive point mutant

Abstract: Extensive environment-dependent rearrangement of the helix-turn-helix DNA recognition region and adjacent L-tryptophan binding pocket is reported in the crystal structure of dimeric E. coli trp aporepressor with point mutation Leu75Phe. In one of two subunits, the eight residues immediately C-terminal to the mutation are shifted forward in helical register by three positions, and the five following residues form an extrahelical loop accommodating the register shift. In contrast, the second subunit has wildtype… Show more

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Cited by 2 publications
(6 citation statements)
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References 96 publications
(146 reference statements)
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“…The fact that the measured value is approximately 2.6‐fold lower than predicted thus suggests that part of the population is not in a binding‐compatible conformation. The distorted conformer of WT apoTrpR is predicted to be incompatible with L‐trp binding because Ile82 occludes the L‐trp binding site of the distorted monomer in the L75F apoTrpR crystal structure . Hence, the presence of this and/or other binding‐incompatible conformations is consistent with the slower than expected on‐rate of L‐trp binding.…”
Section: Discussionmentioning
confidence: 90%
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“…The fact that the measured value is approximately 2.6‐fold lower than predicted thus suggests that part of the population is not in a binding‐compatible conformation. The distorted conformer of WT apoTrpR is predicted to be incompatible with L‐trp binding because Ile82 occludes the L‐trp binding site of the distorted monomer in the L75F apoTrpR crystal structure . Hence, the presence of this and/or other binding‐incompatible conformations is consistent with the slower than expected on‐rate of L‐trp binding.…”
Section: Discussionmentioning
confidence: 90%
“…The starting structure of WT apoTrpR in WT conformation was prepared from the 1.1 Å crystal structure PDB ID 3SSW, the highest resolution crystal structure of apoTrpR available. Using symmetry operations in YASARA the subunits of the crystal were made to have identical conformations.…”
Section: Methodsmentioning
confidence: 99%
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