Requirement for Phe36 for DNA binding and mismatch repair by Escherichia coli MutS protein

The MutS family of DNA repair proteins recognizes base pair mismatches and insertion/deletion mismatches and targets them for repair in a strand-specific manner. Photocrosslinking and mutational studies previously identified a highly conserved Phe residue at the N-terminus of Thermus aquaticus MutS...

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Veröffentlicht in:	Nucleic acids research 2000-09, Vol.28 (18), p.3564-3569
Hauptverfasser:	Yamamoto, A, Schofield, M J, Biswas, I, Hsieh, P
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Sprache:	eng
Schlagworte:	Adenosine Triphosphatases Adenosine Triphosphate - metabolism Alanine - physiology Amino Acid Sequence Amino Acid Substitution Bacterial Proteins - chemistry Bacterial Proteins - genetics Bacterial Proteins - metabolism Bacterial Proteins - physiology Base Pair Mismatch DNA Repair DNA, Bacterial - genetics DNA, Bacterial - metabolism DNA-Binding Proteins Escherichia coli Escherichia coli - genetics Escherichia coli - metabolism Escherichia coli - physiology Escherichia coli Proteins Hydrolysis mismatch repair Molecular Sequence Data Mutation MutS DNA Mismatch-Binding Protein MutS protein Phenylalanine - physiology Protein Binding rifampicin rifampin
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creator	Yamamoto, A Schofield, M J Biswas, I Hsieh, P
description	The MutS family of DNA repair proteins recognizes base pair mismatches and insertion/deletion mismatches and targets them for repair in a strand-specific manner. Photocrosslinking and mutational studies previously identified a highly conserved Phe residue at the N-terminus of Thermus aquaticus MutS protein that is critical for mismatch recognition in vitro. Here, a mutant Escherichia coli MutS protein harboring a substitution of Ala for the corresponding Phe36 residue is assessed for proficiency in mismatch repair in vivo and DNA binding and ATP hydrolysis in vitro. The F36A protein is unable to restore mismatch repair proficiency to a mutS strain as judged by mutation to rifampicin or reversion of a specific point mutation in lacZ. The F36A protein is also severely deficient for binding to heteroduplexes containing an unpaired thymidine or a G:T mismatch although its intrinsic ATPase activity and subunit oligomerization are very similar to that of the wild-type MutS protein. Thus, the F36A mutation appears to confer a defect specific for recognition of insertion/deletion and base pair mismatches.
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Photocrosslinking and mutational studies previously identified a highly conserved Phe residue at the N-terminus of Thermus aquaticus MutS protein that is critical for mismatch recognition in vitro. Here, a mutant Escherichia coli MutS protein harboring a substitution of Ala for the corresponding Phe36 residue is assessed for proficiency in mismatch repair in vivo and DNA binding and ATP hydrolysis in vitro. The F36A protein is unable to restore mismatch repair proficiency to a mutS strain as judged by mutation to rifampicin or reversion of a specific point mutation in lacZ. The F36A protein is also severely deficient for binding to heteroduplexes containing an unpaired thymidine or a G:T mismatch although its intrinsic ATPase activity and subunit oligomerization are very similar to that of the wild-type MutS protein. 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Photocrosslinking and mutational studies previously identified a highly conserved Phe residue at the N-terminus of Thermus aquaticus MutS protein that is critical for mismatch recognition in vitro. Here, a mutant Escherichia coli MutS protein harboring a substitution of Ala for the corresponding Phe36 residue is assessed for proficiency in mismatch repair in vivo and DNA binding and ATP hydrolysis in vitro. The F36A protein is unable to restore mismatch repair proficiency to a mutS strain as judged by mutation to rifampicin or reversion of a specific point mutation in lacZ. The F36A protein is also severely deficient for binding to heteroduplexes containing an unpaired thymidine or a G:T mismatch although its intrinsic ATPase activity and subunit oligomerization are very similar to that of the wild-type MutS protein. 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Photocrosslinking and mutational studies previously identified a highly conserved Phe residue at the N-terminus of Thermus aquaticus MutS protein that is critical for mismatch recognition in vitro. Here, a mutant Escherichia coli MutS protein harboring a substitution of Ala for the corresponding Phe36 residue is assessed for proficiency in mismatch repair in vivo and DNA binding and ATP hydrolysis in vitro. The F36A protein is unable to restore mismatch repair proficiency to a mutS strain as judged by mutation to rifampicin or reversion of a specific point mutation in lacZ. The F36A protein is also severely deficient for binding to heteroduplexes containing an unpaired thymidine or a G:T mismatch although its intrinsic ATPase activity and subunit oligomerization are very similar to that of the wild-type MutS protein. 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subjects	Adenosine Triphosphatases Adenosine Triphosphate - metabolism Alanine - physiology Amino Acid Sequence Amino Acid Substitution Bacterial Proteins - chemistry Bacterial Proteins - genetics Bacterial Proteins - metabolism Bacterial Proteins - physiology Base Pair Mismatch DNA Repair DNA, Bacterial - genetics DNA, Bacterial - metabolism DNA-Binding Proteins Escherichia coli Escherichia coli - genetics Escherichia coli - metabolism Escherichia coli - physiology Escherichia coli Proteins Hydrolysis mismatch repair Molecular Sequence Data Mutation MutS DNA Mismatch-Binding Protein MutS protein Phenylalanine - physiology Protein Binding rifampicin rifampin
title	Requirement for Phe36 for DNA binding and mismatch repair by Escherichia coli MutS protein
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