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Viruses as Complex Adaptive Systems

Ricard Solé | Santiago F. Elena
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A01=Ricard Sole
A01=Santiago F. Elena
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Antivirus software
Arbovirus
Archaea
Arenavirus
Author_Ricard Sole
Author_Santiago F. Elena
automatic-update
Bacteria
Bacteriophage
Capsid
Category1=Non-Fiction
Category=PS
Category=PSAJ
Category=PSG
CD4
Cell type
Computer virus
COP=United States
Coronavirus
Delivery_Delivery within 10-20 working days
Disease
DNA virus
Ebola virus
Emergence
Emergent virus
Endogenous retrovirus
Epidemic
Epistasis
Epstein-Barr virus
eq_bestseller
eq_isMigrated=2
eq_nobargain
eq_non-fiction
eq_science
Error threshold (evolution)
Fitness landscape
Genotype
Hantavirus
Helper virus
Hepatitis B virus
Hepatitis C virus
Herpes simplex virus
Human papillomavirus
Infection
Infectivity
Language_English
Lentivirus
Mimivirus
Mollivirus
Multiplicity of infection
Mutation
Mutation rate
Nipah Virus
Nucleocytoplasmic large DNA viruses
Organism
Origin of viruses
PA=Available
Pandoravirus
Parasitism
Pathogen
Pithovirus
Plant virus
Polydnavirus
Price_€20 to €50
Probability
Protein
PS=Active
Result
Retrovirus
RNA
RNA interference
RNA virus
SARS coronavirus
Segmental duplication
Sindbis virus
Smallpox
softlaunch
To virus
Transposable element
Vesicular stomatitis virus
Viral disease
Viral evolution
Viral life cycle
Viral load
Viral protein
Viral quasispecies
Viral replication
Virus
Virus classification

Product details

  • ISBN 9780691158846
  • Dimensions: 140 x 216mm
  • Publication Date: 11 Dec 2018
  • Publisher: Princeton University Press
  • Publication City/Country: US
  • Product Form: Paperback
  • Language: English
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Description

How complex systems theory sheds new light on the adaptive dynamics of viral populations

Viruses are everywhere, infecting all sorts of living organisms, from the tiniest bacteria to the largest mammals. Many are harmful parasites, but viruses also play a major role as drivers of our evolution as a species and are essential regulators of the composition and complexity of ecosystems on a global scale. This concise book draws on complex systems theory to provide a fresh look at viral origins, populations, and evolution, and the coevolutionary dynamics of viruses and their hosts.

New viruses continue to emerge that threaten people, crops, and farm animals. Viruses constantly evade our immune systems, and antiviral therapies and vaccination campaigns can be powerless against them. These unique characteristics of virus biology are a consequence of their tremendous evolutionary potential, which enables viruses to quickly adapt to any environmental challenge. Ricard Solé and Santiago Elena present a unified framework for understanding viruses as complex adaptive systems. They show how the application of complex systems theory to viral dynamics has provided new insights into the development of AIDS in patients infected with HIV-1, the emergence of new antigenic variants of the influenza A virus, and other cutting-edge advances.

Essential reading for biologists, physicists, and mathematicians interested in complexity, Viruses as Complex Adaptive Systems also extends the analogy of viruses to the evolution of other replicators such as computer viruses, cancer, and languages.
About Ricard Sole | Santiago F. Elena
Ricard Solé is research professor and head of the Complex Systems Lab at Pompeu Fabra University in Barcelona. His books include Phase Transitions and Self-Organization in Complex Ecosystems (both Princeton). Santiago F. Elena is professor and head of the Evolutionary Systems Virology Lab at the Spanish National Research Council (CSIC) in Valencia.

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