Těžko se najdou na Zemi biologické entity, které by co do kvantity a diverzity mohly konkurovat virům. Rychlá dynamika jejich vývoje umožňuje adaptaci na nové hostitele. Metody metagenomiky odhalily netušená množství virů ve všech studovaných ekosystémech i organismech. Poukázaly také, že existuje mnohem větší diverzita ve velikostech a struktuře virionů, ve velikosti a organizaci virových genomů a v sekvencích genů, než se donedávna myslelo. Řada nově objevených virů obsahuje ve své většině genetické informace, které nebyly dosud nalezeny v genomech žádných známých forem života. Analýzy metagenomických dat potvrzují, že viry představují obrovský zdroj diverzity pro všechny formy života na Zemi a ovlivnily a stále ovlivňují jejich evoluci.
Doporučená literatura:
BRANDES, Nadav; LINIAL, Michal. Giant Viruses – Big Surprises. Viruses, 2019, 11.5: 404.
CHOW, Cheryl-Emiliane T.; SUTTLE, Curtis A. Biogeography of viruses in the sea. Annual review of virology, 2015, 2: 41-66.
COBIÁN GÜEMES, Ana Georgina, et al. Viruses as winners in the game of life. Annual Review of Virology, 2016, 3: 197-214.
DAVE, Maneesh, et al. The human gut microbiome: current knowledge, challenges, and future directions. Translational Research, 2012, 160.4: 246-257.
EATON, Bryan T., et al. Hendra and Nipah viruses: different and dangerous. Nature Reviews Microbiology, 2006, 4.1: 23-35.
FLINT, S. Jane, et al. Principles of virology. ASM press, second edition, 2004.
HAYMAN, David TS. Bats as viral reservoirs. Annual Review of Virology, 2016, 3: 77-99.
OLMO, Roenick P., et al. The insect reservoir of biodiversity for viruses and for antiviral mechanisms. Anais da Academia Brasileira de Ciências, 2019, 91. http://dx.doi.org/10.1590/0001-3765201920190122
ROHWER, Forest; THURBER, Rebecca Vega. Viruses manipulate the marine environment. Nature, 2009, 459.7244: 207-212.
SIMMONDS, Peter, et al. Consensus statement: virus taxonomy in the age of metagenomics. Nature Reviews Microbiology, 2017, 15.3: 161-168.
SUTTLE, Curtis A. Marine viruses—major players in the global ecosystem. Nature Reviews Microbiology, 2007, 5.10: 801-812.
VALARCHER, Jean Francois, et al. Tick-borne encephalitis. Revue scientifique et technique (International Office of Epizootics), 2015, 34.2: 453-466.
Internetové zdroje:
International Committee on Taxonomy of Viruses, ICTV
Giant virus
The largest known viral genomes
It is hard to find biological entities on Earth that could compete with viruses in quantity and diversity. The rapid dynamics of virus evolution allows them to adapt to new hosts. Methods of metagenomics have revealed astonishing amounts of viruses in all the ecosystems and organisms studied. They also pointed out much greater diversity in virion size and structure, in the size and organization of viral genomes and in gene sequences than previously thought. Many of the newly discovered viruses contain most of the genetic information that has no homology with the gene sequences of any known life forms. Analyses of metanogenomic data suggest that viruses are an enormous source of diversity for all life forms on Earth and have influenced their evolution.