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Natalia L Komarova

Showing results (1-10 of 144) with videos related to

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Cell Cycle (Georgetown, Tex.)|July 16, 2004
Genomic instability in cancer: biological and mathematical approachesNatalia L Komarova
Current Opinion in Oncology|December 21, 2004
Mathematical modeling of tumorigenesis: mission possibleNatalia L Komarova
Proceedings of the National Academy of Sciences of the United States of America|July 16, 2014
Spatial interactions and cooperation can change the speed of evolution of complex phenotypesNatalia L Komarova
Mathematical Biosciences and Engineering : MBE|August 3, 2013
Spatial stochastic models of cancer: fitness, migration, invasionNatalia L Komarova
Journal of Theoretical Biology|October 20, 2007
Viral reproductive strategies: How can lytic viruses be evolutionarily competitive?Natalia L Komarova
Mathematical Biosciences and Engineering : MBE|June 3, 2011
Mathematical modeling of cyclic treatments of chronic myeloid leukemiaNatalia L Komarova
Bulletin of Mathematical Biology|July 13, 2006
Spatial stochastic models for cancer initiation and progressionNatalia L Komarova
Journal of Theoretical Biology|August 11, 2004
Replicator-mutator equation, universality property and population dynamics of learningNatalia L Komarova
Nature|August 27, 2015
Cancer: A moving targetNatalia L Komarova
Elife|August 6, 2015
The benefits of treating undetectable tumorsNatalia L Komarova
Pageof 15

Showing results (1-10 of 144) with videos related to

Sort By:
Pageof 15
Cell Cycle (Georgetown, Tex.)|July 16, 2004
Genomic instability in cancer: biological and mathematical approachesNatalia L Komarova
Current Opinion in Oncology|December 21, 2004
Mathematical modeling of tumorigenesis: mission possibleNatalia L Komarova
Proceedings of the National Academy of Sciences of the United States of America|July 16, 2014
Spatial interactions and cooperation can change the speed of evolution of complex phenotypesNatalia L Komarova
Mathematical Biosciences and Engineering : MBE|August 3, 2013
Spatial stochastic models of cancer: fitness, migration, invasionNatalia L Komarova
Journal of Theoretical Biology|October 20, 2007
Viral reproductive strategies: How can lytic viruses be evolutionarily competitive?Natalia L Komarova
Mathematical Biosciences and Engineering : MBE|June 3, 2011
Mathematical modeling of cyclic treatments of chronic myeloid leukemiaNatalia L Komarova
Bulletin of Mathematical Biology|July 13, 2006
Spatial stochastic models for cancer initiation and progressionNatalia L Komarova
Journal of Theoretical Biology|August 11, 2004
Replicator-mutator equation, universality property and population dynamics of learningNatalia L Komarova
Nature|August 27, 2015
Cancer: A moving targetNatalia L Komarova
Elife|August 6, 2015
The benefits of treating undetectable tumorsNatalia L Komarova
Pageof 15