High mutation rates occurring during replication allow RNA viruses to evolve rapidly and adapt continuously to new environments. This poses an enormous challenge to vaccine and drug development which, to be effective, must consider RNA virus variability and follow approaches that minimize the probability of escape or resistant mutants arising.
Rapid viral quasispecies evolution: implications for vaccine and drug strategies. Publishing Authors By Initials
Rapid viral quasispecies evolution: implications for vaccine and drug strategies. Journal Published:
PUBLICATION TYPE: Review
Journal: Molecular medicine today
VOLUME: 1
Page Numbers: 248-53
Journal Abbreviation:
ISSN: 1357-4310
DAY: 4
MONTH: Aug
YEAR: 1995
Rapid viral quasispecies evolution: implications for vaccine and drug strategies. Information
Number of References: 28
LANGUAGE: eng
NlmUniqueID: 9508560
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Grant and Affiliation Information for Rapid viral quasispecies evolution: implications for vaccine and drug strategies.
AFFILIATION: Department of Biology and Institute for Molecular Genetics, University of California, San Diego, La Jolla 92093-0016, USA. isabel@jeeves.ucsd.edu
Country: England
AGENCY: United States NIAID
GRANT: AI14627
ACRONYM: AI
MEDLINETA: Mol Med Today
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