His scientific interests lie mostly in Genetics, Molecular biology, Mutant, DNA and Gene. His works in Frameshift mutation, Mutation, Escherichia coli, Sequence analysis and Reference genome are all subjects of inquiry into Genetics. His study in Molecular biology is interdisciplinary in nature, drawing from both Transgene, Lac repressor and Mutation rate.
His Mutant research integrates issues from Genetically modified mouse, Chinese hamster ovary cell, Locus and Direct repeat. His Site specificity, SSCP analysis and Polymerase chain reaction study in the realm of Gene interacts with subjects such as Investigation methods. His research in DNA repair intersects with topics in Complementary DNA, Nucleic acid sequence and DNA replication.
His primary areas of investigation include Genetics, Molecular biology, Mutant, Mutation and Gene. His study involves DNA, Lac repressor, Frameshift mutation, Mutation and Transgene, a branch of Genetics. His work in Molecular biology covers topics such as Escherichia coli which are related to areas like DNA polymerase I.
Barry W. Glickman has included themes like Genetically modified mouse, Mutagen and Locus in his Mutant study. His Mutation research is multidisciplinary, incorporating perspectives in Cytosine, Nucleotide excision repair, DNA damage and Transition. His Exon, DNA sequencing, Complementary DNA and Polymerase chain reaction study in the realm of Gene connects with subjects such as Shuttle vector.
His main research concerns Molecular biology, Genetics, Mutant, Gene and Mutagen. Barry W. Glickman has researched Molecular biology in several fields, including Mutation, Biochemistry, Ratón, Allele and Genetically modified mouse. The study incorporates disciplines such as Exact test, Lifestyle factors, Transgene and In vivo in addition to Mutant.
His Gene research incorporates themes from Cancer research and DNA. His Mutagen research is multidisciplinary, incorporating elements of Carcinogenesis and Mutation Spectra. Barry W. Glickman interconnects DNA damage and DNA replication in the investigation of issues within DNA repair.
His scientific interests lie mostly in Genetics, Mutant, Gene, Mutagen and Molecular biology. His work on Genetics deals in particular with DNA, DNA repair, DNA replication, Sequence analysis and GenBank. The various areas that Barry W. Glickman examines in his Mutant study include Andrology, Gene mutation, Locus and Colony-forming unit.
His work on Expressed sequence tag, Regulatory sequence, Nucleotide excision repair and Exon as part of general Gene study is frequently linked to Long interspersed nuclear element, therefore connecting diverse disciplines of science. His biological study spans a wide range of topics, including Cancer, Prostate and Endocrinology. In his study, Benzopyrene is inextricably linked to Mutation, which falls within the broad field of Molecular biology.
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Mechanisms of spontaneous mutagenesis: An analysis of the spectrum of spontaneous mutation in the Escherichia coli lacI gene
Roel M. Schaaper;Bryan N. Danforth;Barry W. Glickman.
Journal of Molecular Biology (1986)
Structural intermediates of deletion mutagenesis: a role for palindromic DNA.
Barry W. Glickman;Lynn S. Ripley.
Proceedings of the National Academy of Sciences of the United States of America (1984)
Human DNA repair systems: an overview.
Zhe Yu;Jian Chen;Barry N. Ford;Moyra E. Brackley.
Environmental and Molecular Mutagenesis (1999)
The specificity of UV-induced mutations at an endogenous locus in mammalian cells
E A Drobetsky;A J Grosovsky;B W Glickman.
Proceedings of the National Academy of Sciences of the United States of America (1987)
Patterns of Somatic Mutations in Immunoglobulin Variable Genes
Golding Gb;Gearhart Pj;Glickman Bw.
Mutational specificity of alkylating agents and the influence of DNA repair.
M. J. Horsfall;A. J. E. Gordon;P. A. Burns;M. Zielenska.
Environmental and Molecular Mutagenesis (1990)
Human DNA repair genes.
Amiram Ronen;Barry W. Glickman.
Environmental and Molecular Mutagenesis (2001)
Evidence of natural reproduction of aquaculture-escaped Atlantic salmon in a coastal British Columbia river.
John P. Volpe;Eric B. Taylor;David W. Rimmer;Barry W. Glickman.
Conservation Biology (2000)
Mechanisms of ultraviolet-induced mutation. Mutational spectra in the Escherichia coli lacI gene for a wild-type and an excision-repair-deficient strain.
Roel M. Schaaper;Ronnie L. Dunn;Barry W. Glickman.
Journal of Molecular Biology (1987)
In vivo transgenic mutation assays.
Véronique Thybaud;Stephen Dean;Takehiko Nohmi;Johan de Boer.
Mutation Research-genetic Toxicology and Environmental Mutagenesis (2003)
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