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By 2014, 33 species divided into six genera had been identified within the family, [50] [51] which belongs to a super-group of large viruses known as nucleocytoplasmic large DNA viruses. Evidence was published in 2014 suggesting some strains of Phycodnaviridae might infect humans rather than just algal species, as was previously believed. [ 52 ]
Phycodnaviridae is a family of large (100–560 kb) double-stranded DNA viruses that infect marine or freshwater eukaryotic algae.Viruses within this family have a similar morphology, with an icosahedral capsid (polyhedron with 20 faces).
The viruses that store their genomic information using DNA, DNA viruses, are the best studied subgrouping of algae-infecting viruses This is especially true for the dsDNA virus family, Phycodnaviridae. [1] [3] However, other groups of dsDNA viruses including giant viruses belonging to the family Mimiviridae also infect algae. [3]
Orthopoxvirus particles. A DNA virus is a virus that has a genome made of deoxyribonucleic acid (DNA) that is replicated by a DNA polymerase.They can be divided between those that have two strands of DNA in their genome, called double-stranded DNA (dsDNA) viruses, and those that have one strand of DNA in their genome, called single-stranded DNA (ssDNA) viruses. dsDNA viruses primarily belong ...
Viruses are the most abundant life in the ocean, harboring the greatest reservoir of genetic diversity. [256] As their infections are often fatal, they constitute a significant source of mortality and thus have widespread influence on biological oceanographic processes, evolution and biogeochemical cycling within the ocean. [ 257 ]
Chlorovirus, also known as Chlorella virus, is a genus of giant double-stranded DNA viruses, in the family Phycodnaviridae. This genus is found globally in freshwater environments [1] where freshwater microscopic algae serve as natural hosts. There are 19 species in this genus. [2] [3]
The viruses cannot move independently and must rely on currents, mixing, and host cells to transport them. Viruses cannot actively target their hosts and must wait to encounter them. The higher probability of collision may explain why cyanophages of the Myoviridae family primarily infect one of the most abundant cyanobacteria, Synechoccocus. [3]
Over 5 Tb of metagenomic sequence data were used from 3,042 geographically diverse samples to assess the global distribution, phylogenetic diversity, and host specificity of viruses. [25] In August 2016, over 125,000 partial DNA viral genomes, including the largest phage yet identified, increased the number of known viral genes by 16-fold. [25]