Recognition of the DNA helix stabilizing anthramycin-N2 guanine adduct by UVRABC nuclease

The binding of the anti-tumor antibiotic anthramycin to a defined linear DNA fragment was investigated using both exonuclease III and lambda exonuclease. We show that most of the guanine residues are reactive toward anthramycin; however, several guanine residues showed preferential reactivity for th...

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Published inJournal of molecular biology Vol. 203; no. 4; pp. 939 - 947
Main Authors Walter, Ronald B., Pierce, James, Case, Roger, Tang, Moon-shong
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 20.10.1988
Elsevier
Subjects
Analytical, structural and metabolic biochemistry
Anthramycin - metabolism
Base Sequence
Benzodiazepinones - metabolism
Biological and medical sciences
DNA, Bacterial - genetics
Dna, deoxyribonucleoproteins
Endodeoxyribonucleases - metabolism
Escherichia coli Proteins
Exodeoxyribonucleases - metabolism
Fundamental and applied biological sciences. Psychology
Guanine - metabolism
Models, Genetic
Molecular Sequence Data
Nucleic acids
Plasmids
Viral Proteins
ExoIII
Atm
u.v
λ-exo
bp
Antineoplastic agent
Molecular structure
Stabilization
DNA
Molecular interaction
Nuclease
Recognition
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Abstract The binding of the anti-tumor antibiotic anthramycin to a defined linear DNA fragment was investigated using both exonuclease III and lambda exonuclease. We show that most of the guanine residues are reactive toward anthramycin; however, several guanine residues showed preferential reactivity for the drug. Using purified UVRA, UVRB and UVRC proteins we present evidence that these three proteins in concert are able to recognize and produce specific strand cleavage flanking anthramycin-DNA adducts. The cleavage of anthramycin adducts by UVRABC nuclease is specific and results in strand breaks at five or six bases 5′ and three or four bases 3′-flanking an adduct. At some guanine residues single incisions were observed only on one side of the adduct. The 5′ strand breaks observed often occurred as doublet bands on sequencing gels, indicating plasticity in the site of 5′ cleavage whereas the 3′ cleavage did not show this effect. When DNA fragments modified with elevated levels of anthramycin were used as substrates the activity of the UVRABC nuclease toward the anthramycin adducts decreased. Possible mechanisms for the recognition and specific cleavage of the helix-stabilizing anthramycin DNA adduct and other helix destablizing lesions by the UVRABC nuclease are discussed.
AbstractList The binding of the anti-tumor antibiotic anthramycin to a defined linear DNA fragment was investigated using both exonuclease III and lambda exonuclease. We show that most of the guanine residues are reactive toward anthramycin; however, several guanine residues showed preferential reactivity for the drug. Using purified UVRA, UVRB and UVRC proteins we present evidence that these three proteins in concert are able to recognize and produce specific strand cleavage flanking anthramycin-DNA adducts. The cleavage of anthramycin adducts by UVRABC nuclease is specific and results in strand breaks at five or six bases 5' and three or four bases 3'-flanking an adduct. At some guanine residues single incisions were observed only on one side of the adduct. The 5' strand breaks observed often occurred as doublet bands on sequencing gels, indicating plasticity in the site of 5' cleavage whereas the 3' cleavage did not show this effect. When DNA fragments modified with elevated levels of anthramycin were used as substrates the activity of the UVRABC nuclease toward the anthramycin adducts decreased. Possible mechanisms for the recognition and specific cleavage of the helix-stabilizing anthramycin DNA adduct and other helix destabilizing lesions by the UVRABC nuclease are discussed.
The binding of the anti-tumor antibiotic anthramycin to a defined linear DNA fragment was investigated using both exonuclease III and lambda exonuclease. We show that most of the guanine residues are reactive toward anthramycin; however, several guanine residues showed preferential reactivity for the drug. Using purified UVRA, UVRB and UVRC proteins we present evidence that these three proteins in concert are able to recognize and produce specific strand cleavage flanking anthramycin-DNA adducts. The cleavage of anthramycin adducts by UVRABC nuclease is specific and results in strand breaks at five or six bases 5′ and three or four bases 3′-flanking an adduct. At some guanine residues single incisions were observed only on one side of the adduct. The 5′ strand breaks observed often occurred as doublet bands on sequencing gels, indicating plasticity in the site of 5′ cleavage whereas the 3′ cleavage did not show this effect. When DNA fragments modified with elevated levels of anthramycin were used as substrates the activity of the UVRABC nuclease toward the anthramycin adducts decreased. Possible mechanisms for the recognition and specific cleavage of the helix-stabilizing anthramycin DNA adduct and other helix destablizing lesions by the UVRABC nuclease are discussed.
The binding of the anti-tumor antibiotic anthramycin to a defined linear DNA fragment was investigated using both exonuclease III and lambda exonuclease. The authors show that most of the guanine residues are reactive toward anthramycin; however, several guanine residues showed preferential reactivity for the drug. Using purified UVRA, UVRB and UVRC proteins they present evidence that these three proteins in concert are able to recognize and produce specific strand cleavage flanking anthramycin-DNA adducts.
Author Pierce, James
Walter, Ronald B.
Case, Roger
Tang, Moon-shong
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Issue 4
Keywords ExoIII
Atm
u.v
λ-exo
bp
Antineoplastic agent
Molecular structure
Stabilization
DNA
Molecular interaction
Nuclease
Recognition
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Snippet The binding of the anti-tumor antibiotic anthramycin to a defined linear DNA fragment was investigated using both exonuclease III and lambda exonuclease. We...
The binding of the anti-tumor antibiotic anthramycin to a defined linear DNA fragment was investigated using both exonuclease III and lambda exonuclease. The...
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SubjectTerms Analytical, structural and metabolic biochemistry
Anthramycin - metabolism
Base Sequence
Benzodiazepinones - metabolism
Biological and medical sciences
DNA, Bacterial - genetics
Dna, deoxyribonucleoproteins
Endodeoxyribonucleases - metabolism
Escherichia coli Proteins
Exodeoxyribonucleases - metabolism
Fundamental and applied biological sciences. Psychology
Guanine - metabolism
Models, Genetic
Molecular Sequence Data
Nucleic acids
Plasmids
Viral Proteins
Title Recognition of the DNA helix stabilizing anthramycin-N2 guanine adduct by UVRABC nuclease
URI https://dx.doi.org/10.1016/0022-2836(88)90119-2
https://www.ncbi.nlm.nih.gov/pubmed/3210245
https://search.proquest.com/docview/15140796
https://search.proquest.com/docview/78598940
Volume 203
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