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© 1977 Nature Publishing Group
© 1977 Nature Publishing Group
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Characterization of complexes of superhelical and relaxed closed circular DNA with H1 and phosphorylated H1 histones.
Covalently closed circular DNA molecules deficient in superhelical density as intermediates in plasmid life cycle.
DNA synthesis in polyoma virus infection. IV. Mechanism of formation of closed-circular viral DNA deficient in superhelical turns.
Interaction of f1 histone with superhelical DNA.
The B-A transition in superhelical DNA.
Ultraviolet light irradiation of PM2 superhelical DNA.
DNA gyrase: an enzyme that introduces superhelical turns into DNA.
Superhelical DNA in Streptococcus sanguis: role in recombination in vivo.
Changes in DNA superhelical density monitored by polarized light scattering.
Energetics of the strand separation transition in superhelical DNA.
Carbodiimide modification of superhelical PM2 DNA: considerations regarding reaction at unpaired bases and the unwinding of superhelical DNA with chemical probes.
Circular dichroism spectroscopy of DNA.
Differences in sequences between HBV-relaxed circular DNA and covalently closed circular DNA.
Changes in superhelical density of closed circular deoxyribonucleic acid by intercalation of anti-R-plasmid drugs and primaquine.
Bleomycin-induced breakage of closed-circular DNA.
Extrachromosomal circular DNA is common in yeast.
Circular dichroism analysis of mononucleosome DNA conformation.
Fluorescently labeled circular DNA molecules for DNA topology and topoisomerases.
Construction of DNA hemicatenanes from two small circular DNA molecules.
Small circular DNA in Drosophila melanogaster.
Microheterogeneity detected in circular dimer mitochondrial DNA.
Entropic penalties in circular DNA assembly.
Circular dichroism and DNA secondary structure.
Comparative viscometric analysis of the interaction of chloroquine and quinacrine with superhelical and sonicated DNA.
Circular superhelical DNA.
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Characterization of complexes of superhelical and relaxed closed circular DNA with H1 and phosphorylated H1 histones.
Covalently closed circular DNA molecules deficient in superhelical density as intermediates in plasmid life cycle.
DNA synthesis in polyoma virus infection. IV. Mechanism of formation of closed-circular viral DNA deficient in superhelical turns.
Interaction of f1 histone with superhelical DNA.
The B-A transition in superhelical DNA.
Ultraviolet light irradiation of PM2 superhelical DNA.
DNA gyrase: an enzyme that introduces superhelical turns into DNA.
Superhelical DNA in Streptococcus sanguis: role in recombination in vivo.
Changes in DNA superhelical density monitored by polarized light scattering.
Energetics of the strand separation transition in superhelical DNA.
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