Escherichia coli MutS tetramerization domain structure reveals that stable dimers but not tetramers are essential for DNA mismatch repair in vivo

INIS

• amino acids 25%
• crystal structure 25%
• dimerization 75%
• dimers 100%
• dna 25%
• dna mismatch 100%
• domain structure 100%
• escherichia coli 100%
• in vitro 25%
• in vivo 100%
• interactions 25%
• maltose 75%
• mutations 75%
• proteins 100%
• repair 100%
• solutions 25%
• x-ray diffraction 25%

Biochemistry, Genetics and Molecular Biology

• Amino Acids 33%
• Binding Protein 33%
• C-Terminus 100%
• Contrast 33%
• Crystal Structure 33%
• Dimerization 100%
• DNA 33%
• DNA Mismatch Repair 100%
• Escherichia coli 100%
• Fusion Protein 33%
• Maltose-Binding Protein 100%
• Mutation 100%
• Radiation Scattering 33%
• Solution and Solubility 33%
• Wild Type 33%