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 ==Overview==
-Previously reported crystal structures of free and DNA-bound dimers of, lambda Cro differ strongly (about 4 A backbone rmsd), suggesting both, flexibility of the dimer interface and induced-fit protein structure, changes caused by sequence-specific DNA binding. Here, we present two, crystal structures, in space groups P3(2)21 and C2 at 1.35 and 1.40 A, resolution, respectively, of a variant of lambda Cro with three mutations, in its recognition helix (Q27P/A29S/K32Q, or PSQ for short). One dimer, structure (P3(2)21; PSQ form 1) resembles the DNA-bound wild-type Cro, dimer (1.0 A backbone rmsd), while the other (C2; PSQ form 2) resembles, neither unbound (3.6 A) nor bound (2.4 A) wild-type Cro. Both PSQ form 2, and unbound wild-type dimer crystals have a similar interdimer beta-sheet, interaction between the beta1 strands at the edges of the dimer. In the, former, an infinite, open beta-structure along one crystal axis results, while in the latter, a closed tetrameric barrel is formed. Neither the, DNA-bound wild-type structure nor PSQ form 1 contains these interdimer, interactions. We propose that beta-sheet superstructures resulting from, crystal contact interactions distort Cro dimers from their preferred, solution conformation, which actually resembles the DNA-bound structure., These results highlight the remarkable flexibility of lambda Cro but also, suggest that sequence-specific DNA binding may not induce large changes in, the protein structure.
+Previously reported crystal structures of free and DNA-bound dimers of lambda Cro differ strongly (about 4 A backbone rmsd), suggesting both flexibility of the dimer interface and induced-fit protein structure changes caused by sequence-specific DNA binding. Here, we present two crystal structures, in space groups P3(2)21 and C2 at 1.35 and 1.40 A resolution, respectively, of a variant of lambda Cro with three mutations in its recognition helix (Q27P/A29S/K32Q, or PSQ for short). One dimer structure (P3(2)21; PSQ form 1) resembles the DNA-bound wild-type Cro dimer (1.0 A backbone rmsd), while the other (C2; PSQ form 2) resembles neither unbound (3.6 A) nor bound (2.4 A) wild-type Cro. Both PSQ form 2 and unbound wild-type dimer crystals have a similar interdimer beta-sheet interaction between the beta1 strands at the edges of the dimer. In the former, an infinite, open beta-structure along one crystal axis results, while in the latter, a closed tetrameric barrel is formed. Neither the DNA-bound wild-type structure nor PSQ form 1 contains these interdimer interactions. We propose that beta-sheet superstructures resulting from crystal contact interactions distort Cro dimers from their preferred solution conformation, which actually resembles the DNA-bound structure. These results highlight the remarkable flexibility of lambda Cro but also suggest that sequence-specific DNA binding may not induce large changes in the protein structure.
 ==About this Structure==
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 [[Category: Enterobacteria phage lambda]]
 [[Category: Single protein]]
-[[Category: Cordes, M.H.]]
+[[Category: Cordes, M H.]]
-[[Category: Hall, B.M.]]
+[[Category: Hall, B M.]]
 [[Category: Heroux, A.]]
-[[Category: Roberts, S.A.]]
+[[Category: Roberts, S A.]]
 [[Category: EPE]]
 [[Category: SO4]]
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 [[Category: transcription factor]]
-''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Wed Feb 13 08:13:14 2008''
+''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 18:22:59 2008''