DNA, Molecular biology, Molecule, Duplex and Centrifugation are his primary areas of study. His DNA research incorporates themes from Crystallography, HeLa and Biophysics. His work deals with themes such as Replication factor C, Eukaryotic DNA replication and Circular bacterial chromosome, which intersect with Molecular biology.
Jerome Vinograd combines subjects such as Ethidium bromide, Superhelix and Intercalation with his study of Molecule. Jerome Vinograd focuses mostly in the field of Ethidium bromide, narrowing it down to topics relating to Binding constant and, in certain cases, Analytical chemistry. His Centrifugation study combines topics from a wide range of disciplines, such as Oligomer, Dimer, Contour length and Catenane.
Jerome Vinograd mostly deals with DNA, Molecular biology, Biochemistry, Ultracentrifuge and Ethidium bromide. His DNA study integrates concerns from other disciplines, such as Crystallography and Mitochondrion. The study incorporates disciplines such as Restriction enzyme, HeLa, Intracellular, Dna duplex and DNA replication in addition to Molecular biology.
His Biochemistry research focuses on Dimer and how it connects with Catenane. His Ultracentrifuge research includes elements of Sedimentation and Centrifugation. In his research on the topic of Chromatography, Sedimentation coefficient and Bromide is strongly related with Analytical chemistry.
His main research concerns DNA, Molecular biology, Ethidium bromide, Superhelix and Biochemistry. His DNA research is multidisciplinary, relying on both Crystallography and Molecule. His research integrates issues of Cell culture, Restriction enzyme, Virus, Intracellular and DNA replication in his study of Molecular biology.
His Superhelix research is multidisciplinary, incorporating perspectives in Base pair, Sedimentation coefficient and Analytical chemistry. His work investigates the relationship between Sedimentation coefficient and topics such as Duplex that intersect with problems in Biophysics. His DNA polymerase, DNA ligase and HeLa study, which is part of a larger body of work in Biochemistry, is frequently linked to DNA clamp and DNA polymerase II, bridging the gap between disciplines.
Jerome Vinograd focuses on Molecular biology, DNA, Superhelix, Ethidium bromide and DNA supercoil. His Molecular biology study incorporates themes from Agarose gel electrophoresis, Duplex, Biophysics and Cell culture. A large part of his DNA studies is devoted to Heteroduplex.
His study ties his expertise on Crystallography together with the subject of Superhelix. Jerome Vinograd combines subjects such as Base pair, Chromatography, Intercalation and Analytical chemistry with his study of Ethidium bromide. His research in Analytical chemistry intersects with topics in Bromide and Sedimentation coefficient.
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A dye-buoyant-density method for the detection and isolation of closed circular duplex DNA: the closed circular DNA in HeLa cells.
Roger Radloff;William Bauer;Jerome Vinograd.
Proceedings of the National Academy of Sciences of the United States of America (1967)
EQUILIBRIUM SEDIMENTATION OF MACROMOLECULES IN DENSITY GRADIENTS.
Matthew Meselson;Franklin W. Stahl;Jerome Vinograd.
Proceedings of the National Academy of Sciences of the United States of America (1957)
The interaction of closed circular DNA with intercalative dyes. I. The superhelix density of SV40 DNA in the presence and absence of dye
William Bauer;Jerome Vinograd.
Journal of Molecular Biology (1970)
The twisted circular form of polyoma viral DNA.
J Vinograd;J Lebowitz;R Radloff;R Watson.
Proceedings of the National Academy of Sciences of the United States of America (1965)
THE DETERMINATION OF DENSITY DISTRIBUTIONS AND DENSITY GRADIENTS IN BINARY SOLUTIONS AT EQUILIBRIUM IN THE ULTRACENTRIFUGE1
James B. Ifft;Donald H. Voet;Jerome Vinograd.
The Journal of Physical Chemistry (1961)
Action of Nicking-Closing Enzyme on Supercoiled and Nonsupercoiled Closed Circular DNA: Formation of a Boltzmann Distribution of Topological Isomers
David E. Pulleyblank;Mavis Shure;David Tang;Jerome Vinograd.
Proceedings of the National Academy of Sciences of the United States of America (1975)
Physical and topological properties of circular DNA.
Jerome Vinograd;Jacob Lebowitz.
The Journal of General Physiology (1966)
Circular Dimer and Catenate Forms of Mitochondrial DNA in Human Leukaemic Leucocytes
David A. Clayton;Jerome Vinograd.
Equilibrium Sedimentation of Macromolecules and Viruses in a Density Gradient
Jerome Vinograd;John E. Hearst.
Progress in the chemistry of organic natural products. Progrès dans la chimie des substances organiques naturelles (1962)
Early and late helix-coil transitions in closed circular DNA. The number of superhelical turns in polyoma DNA.
Jerome Vinograd;Jacob Lebowitz;Robert Watson.
Journal of Molecular Biology (1968)
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