Borrowing concepts from DNA replication, Michele P. Calos weaves in ideas under Gene. Genetics is closely attributed to Sequence (biology) in her research. Sequence (biology) is closely attributed to Genetics in her study. Much of her study explores Integrase relationship to Integrases. Much of her study explores Integrases relationship to Integrase. She conducted interdisciplinary study in her works that combined Genome and Human genome. Michele P. Calos performs multidisciplinary studies into DNA and Restriction map in her work. Michele P. Calos integrates many fields, such as Molecular biology and Recombinant DNA, in her works. Michele P. Calos combines Recombinant DNA and Plasmid in her studies.
Her work on Sequence (biology) expands to the thematically related Genetics. In her research, she undertakes multidisciplinary study on Gene and Transposable element. Her multidisciplinary approach integrates Plasmid and Transfection in her work. Borrowing concepts from Plasmid, she weaves in ideas under Transfection. In her research, she undertakes multidisciplinary study on Molecular biology and Mutation. Michele P. Calos integrates several fields in her works, including Integrase and Genome. Her research links Integrases with Genome. Many of her studies on Integrases apply to Integrase as well. In her research, Michele P. Calos undertakes multidisciplinary study on Computational biology and DNA.
Michele P. Calos carries out multidisciplinary research, doing studies in Gene and Gene delivery. She connects Genetics with Computational biology in her study. Michele P. Calos merges many fields, such as Computational biology and Molecular biology, in her writings. Her work blends Molecular biology and Mutation studies together. She performs multidisciplinary studies into Mutation and Genetic enhancement in her work. In her research, Michele P. Calos undertakes multidisciplinary study on Genetic enhancement and Gene delivery. Michele P. Calos integrates Plasmid and HEK 293 cells in her studies. Michele P. Calos undertakes interdisciplinary study in the fields of HEK 293 cells and Plasmid through her works. She regularly links together related areas like Guide RNA in her Genome editing studies.
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Analysis of mutation in human cells by using an Epstein-Barr virus shuttle system.
R B DuBridge;P Tang;H C Hsia;P M Leong.
Molecular and Cellular Biology (1987)
Construction of transgenic Drosophila by using the site-specific integrase from phage phiC31.
Amy C Groth;Matthew Fish;Roel Nusse;Michele P Calos.
On the formation of spontaneous deletions: the importance of short sequence homologies in the generation of large deletions.
Alessandra M. Albertini;Murielle Hofer;Michèle P. Calos;Jeffrey H. Miller.
A phage integrase directs efficient site-specific integration in human cells
Amy C. Groth;Eric C. Olivares;Bhaskar Thyagarajan;Michele P. Calos.
Proceedings of the National Academy of Sciences of the United States of America (2000)
Phage integrases: biology and applications.
Amy C. Groth;Michele P. Calos.
Journal of Molecular Biology (2004)
Site-specific genomic integration in mammalian cells mediated by phage phiC31 integrase.
Bhaskar Thyagarajan;Eric C. Olivares;Roger P. Hollis;Daniel S. Ginsburg.
Molecular and Cellular Biology (2001)
High mutation frequency in DNA transfected into mammalian cells
Michele P. Calos;Jane S. Lebkowski;Michael R. Botchan.
Proceedings of the National Academy of Sciences of the United States of America (1983)
Mammalian genomes contain active recombinase recognition sites.
B. Thyagarajan;M.J. Guimarães;A.C. Groth;M.P. Calos.
Site-specific genomic integration produces therapeutic Factor IX levels in mice
Eric C. Olivares;Roger P. Hollis;Thomas W. Chalberg;Leonard Meuse.
Nature Biotechnology (2002)
Stable nonviral genetic correction of inherited human skin disease
Susana Ortiz-Urda;Bhaskar Thyagarajan;Douglas R. Keene;Qun Lin.
Nature Medicine (2002)
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