BIOMAT Database Logo BIOMAT Database Logo

A functional interaction of Ku with Werner exonuclease facilitates digestion of damaged DNA. 2001

D K Orren, and A Machwe, and P Karmakar, and J Piotrowski, and M P Cooper, and V A Bohr
Graduate Center for Toxicology, University of Kentucky, Lexington, KY 40536, USA.

Werner syndrome (WS) is a premature aging disorder where the affected individuals appear much older than their chronological age. The single gene that is defective in WS encodes a protein (WRN) that has ATPase, helicase and 3'-->5' exonuclease activities. Our laboratory has recently uncovered a physical and functional interaction between WRN and the Ku heterodimer complex that functions in double-strand break repair and V(D)J recombination. Importantly, Ku specifically stimulates the exonuclease activity of WRN. We now report that Ku enables the Werner exonuclease to digest through regions of DNA containing 8-oxoadenine and 8-oxoguanine modifications, lesions that have previously been shown to block the exonuclease activity of WRN alone. These results indicate that Ku significantly alters the exonuclease function of WRN and suggest that the two proteins function concomitantly in a DNA damage processing pathway. In support of this notion we also observed co-localization of WRN and Ku, particularly after DNA damaging treatments.

UI MeSH Term Description Entries
D009687 Nuclear Proteins Proteins found in the nucleus of a cell. Do not confuse with NUCLEOPROTEINS which are proteins conjugated with nucleic acids, that are not necessarily present in the nucleus. Nucleolar Protein,Nucleolar Proteins,Nuclear Protein,Protein, Nuclear,Protein, Nucleolar,Proteins, Nuclear,Proteins, Nucleolar
D002460 Cell Line Established cell cultures that have the potential to propagate indefinitely. Cell Lines,Line, Cell,Lines, Cell
D002467 Cell Nucleus Within a eukaryotic cell, a membrane-limited body which contains chromosomes and one or more nucleoli (CELL NUCLEOLUS). The nuclear membrane consists of a double unit-type membrane which is perforated by a number of pores; the outermost membrane is continuous with the ENDOPLASMIC RETICULUM. A cell may contain more than one nucleus. (From Singleton & Sainsbury, Dictionary of Microbiology and Molecular Biology, 2d ed) Cell Nuclei,Nuclei, Cell,Nucleus, Cell
D004247 DNA A deoxyribonucleotide polymer that is the primary genetic material of all cells. Eukaryotic and prokaryotic organisms normally contain DNA in a double-stranded state, yet several important biological processes transiently involve single-stranded regions. DNA, which consists of a polysugar-phosphate backbone possessing projections of purines (adenine and guanine) and pyrimidines (thymine and cytosine), forms a double helix that is held together by hydrogen bonds between these purines and pyrimidines (adenine to thymine and guanine to cytosine). DNA, Double-Stranded,Deoxyribonucleic Acid,ds-DNA,DNA, Double Stranded,Double-Stranded DNA,ds DNA
D004249 DNA Damage Injuries to DNA that introduce deviations from its normal, intact structure and which may, if left unrepaired, result in a MUTATION or a block of DNA REPLICATION. These deviations may be caused by physical or chemical agents and occur by natural or unnatural, introduced circumstances. They include the introduction of illegitimate bases during replication or by deamination or other modification of bases; the loss of a base from the DNA backbone leaving an abasic site; single-strand breaks; double strand breaks; and intrastrand (PYRIMIDINE DIMERS) or interstrand crosslinking. Damage can often be repaired (DNA REPAIR). If the damage is extensive, it can induce APOPTOSIS. DNA Injury,DNA Lesion,DNA Lesions,Genotoxic Stress,Stress, Genotoxic,Injury, DNA,DNA Injuries
D004265 DNA Helicases Proteins that catalyze the unwinding of duplex DNA during replication by binding cooperatively to single-stranded regions of DNA or to short regions of duplex DNA that are undergoing transient opening. In addition, DNA helicases are DNA-dependent ATPases that harness the free energy of ATP hydrolysis to translocate DNA strands. ATP-Dependent DNA Helicase,DNA Helicase,DNA Unwinding Protein,DNA Unwinding Proteins,ATP-Dependent DNA Helicases,DNA Helicase A,DNA Helicase E,DNA Helicase II,DNA Helicase III,ATP Dependent DNA Helicase,ATP Dependent DNA Helicases,DNA Helicase, ATP-Dependent,DNA Helicases, ATP-Dependent,Helicase, ATP-Dependent DNA,Helicase, DNA,Helicases, ATP-Dependent DNA,Helicases, DNA,Protein, DNA Unwinding,Unwinding Protein, DNA,Unwinding Proteins, DNA
D004268 DNA-Binding Proteins Proteins which bind to DNA. The family includes proteins which bind to both double- and single-stranded DNA and also includes specific DNA binding proteins in serum which can be used as markers for malignant diseases. DNA Helix Destabilizing Proteins,DNA-Binding Protein,Single-Stranded DNA Binding Proteins,DNA Binding Protein,DNA Single-Stranded Binding Protein,SS DNA BP,Single-Stranded DNA-Binding Protein,Binding Protein, DNA,DNA Binding Proteins,DNA Single Stranded Binding Protein,DNA-Binding Protein, Single-Stranded,Protein, DNA-Binding,Single Stranded DNA Binding Protein,Single Stranded DNA Binding Proteins
D005090 Exodeoxyribonucleases A family of enzymes that catalyze the exonucleolytic cleavage of DNA. It includes members of the class EC 3.1.11 that produce 5'-phosphomonoesters as cleavage products. DNA Exonucleases,Exonucleases, DNA
D005092 Exonucleases Enzymes that catalyze the release of mononucleotides by the hydrolysis of the terminal bond of deoxyribonucleotide or ribonucleotide chains. Exonuclease,3'-5'-Exonuclease,3'-5'-Exonucleases,5'-3'-Exonuclease,5'-3'-Exonucleases,3' 5' Exonuclease,3' 5' Exonucleases,5' 3' Exonuclease,5' 3' Exonucleases
D006147 Guanine

Related Publications

D K Orren, and A Machwe, and P Karmakar, and J Piotrowski, and M P Cooper, and V A Bohr
Digestion of damaged DNA by the T7 DNA polymerase-exonuclease.
July 1993, The Biochemical journal,
D K Orren, and A Machwe, and P Karmakar, and J Piotrowski, and M P Cooper, and V A Bohr
Functional interaction between Ku and the werner syndrome protein in DNA end processing.
September 2000, The Journal of biological chemistry,
D K Orren, and A Machwe, and P Karmakar, and J Piotrowski, and M P Cooper, and V A Bohr
A conserved and species-specific functional interaction between the Werner syndrome-like exonuclease atWEX and the Ku heterodimer in Arabidopsis.
January 2005, Nucleic acids research,
D K Orren, and A Machwe, and P Karmakar, and J Piotrowski, and M P Cooper, and V A Bohr
The Werner syndrome exonuclease facilitates DNA degradation and high fidelity DNA polymerization by human DNA polymerase δ.
April 2012, The Journal of biological chemistry,
D K Orren, and A Machwe, and P Karmakar, and J Piotrowski, and M P Cooper, and V A Bohr
Ku heterodimer binds to both ends of the Werner protein and functional interaction occurs at the Werner N-terminus.
August 2002, Nucleic acids research,
D K Orren, and A Machwe, and P Karmakar, and J Piotrowski, and M P Cooper, and V A Bohr
Werner syndrome exonuclease catalyzes structure-dependent degradation of DNA.
September 2000, Nucleic acids research,
D K Orren, and A Machwe, and P Karmakar, and J Piotrowski, and M P Cooper, and V A Bohr
Unidirectional digestion with exonuclease III in DNA sequence analysis.
January 1987, Methods in enzymology,
D K Orren, and A Machwe, and P Karmakar, and J Piotrowski, and M P Cooper, and V A Bohr
Single-molecule DNA digestion by lambda-exonuclease.
July 1999, Cytometry,
D K Orren, and A Machwe, and P Karmakar, and J Piotrowski, and M P Cooper, and V A Bohr
Identification of a coiled coil in werner syndrome protein that facilitates multimerization and promotes exonuclease processivity.
August 2010, The Journal of biological chemistry,
D K Orren, and A Machwe, and P Karmakar, and J Piotrowski, and M P Cooper, and V A Bohr
Synchronous digestion of SV40 DNA by exonuclease III.
February 1976, Biochemistry,
Copied contents to your clipboard!