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Literature DB >> 8897613

Participation of water in Hin recombinase--DNA recognition.

Abstract

The participation of water molecules in the interaction between the Hin recombinase and its operator DNA has been detected by analysis of the dissociation constant in the presence of varying concentrations of neutral solutes and cosolvents. The dissociation constant as measured by gel mobility shift assays increased as the concentration of dimethyl sulfoxide, glycerol, sucrose, or polyethylene glycol was increased. Osmotic pressure is the only property that correlates with the change in the dissociation constant for all compounds. This data indicates that binding of a small population of water molecules accompanies formation of the Hin-DNA complex, and points to a novel role for solvent molecules in assisting site specific interaction between DNA-binding proteins and their cognate DNA sequence.

Entities: Chemical

Mesh：

Substances：

Year: 1996 PMID： 8897613 PMCID： PMC2143269 DOI： 10.1002/pro.5560051019

Source DB: PubMed Journal: Protein Sci ISSN： 0961-8368 Impact factor: 6.725

25 in total

1. Synthesis of a site-specific DNA-binding peptide.

Authors: M F Bruist; S J Horvath; L E Hood; T A Steitz; M I Simon
Journal: Science Date: 1987-02-13 Impact factor: 47.728

2. Measurement of protein-DNA interaction parameters by electrophoresis mobility shift assay.

Authors: M G Fried
Journal: Electrophoresis Date: 1989 May-Jun Impact factor: 3.535

3. Heterogeneity in molecular recognition by restriction endonucleases: osmotic and hydrostatic pressure effects on BamHI, Pvu II, and EcoRV specificity.

Authors: C R Robinson; S G Sligar
Journal: Proc Natl Acad Sci U S A Date: 1995-04-11 Impact factor: 11.205

Participation of water in Hin recombinase--DNA recognition.

1. Synthesis of a site-specific DNA-binding peptide.

2. Measurement of protein-DNA interaction parameters by electrophoresis mobility shift assay.

3. Heterogeneity in molecular recognition by restriction endonucleases: osmotic and hydrostatic pressure effects on BamHI, Pvu II, and EcoRV specificity.

4. Assembly of the Arc repressor-operator complex: cooperative interactions between DNA-bound dimers.

5. Measured change in protein solvation with substrate binding and turnover.

6. Tandem binding in crystals of a trp repressor/operator half-site complex.

7. Hypersensitivity of an enzyme reaction to solvent water.

8. Coupling of local folding to site-specific binding of proteins to DNA.

9. Molecular recognition mediated by bound water. A mechanism for star activity of the restriction endonuclease EcoRI.

10. Probing alamethicin channels with water-soluble polymers. Effect on conductance of channel states.

1. Change in conformation by DNA-peptide association: molecular dynamics of the Hin-recombinase-hixL complex.

2. Thermodynamics of specific and nonspecific DNA binding by two DNA-binding domains conjugated to fluorescent probes.

3. Testing water-mediated DNA recognition by the Hin recombinase.

4. Differences between EcoRI nonspecific and "star" sequence complexes revealed by osmotic stress.

5. Changes in solvation during DNA binding and cleavage are critical to altered specificity of the EcoRI endonuclease.

6. Probing the role of water in the tryptophan repressor-operator complex.

7. Osmoregulation of dimer resolution at the plasmid pJHCMW1 mwr locus by Escherichia coli XerCD recombination.

8. Using single-turnover kinetics with osmotic stress to characterize the EcoRV cleavage reaction.