Virology, viral classification, types of viruses WORLD OF MICROBIOLOGY AND IMMUNOLOGY
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In the viral classification scheme, all families end in the
suffix viridae, for example Picornaviridae. Genera have the
suffix virus. For example, in the family Picornaviridae there
are five genera: enterovirus, cardiovirus, rhinovirus,
apthovirus, and hepatovirus. The names of the genera typically
derive from the preferred location of the virus in the body (for
those viral genera that infect humans). As examples, rhi-
novirus is localized in the nasal and throat passages, and hepa-
tovirus is localized in the liver. Finally, within each genera
there can be several species.
As noted above, there are a number of criteria by which
members of one grouping of viruses can be distinguished from
those in another group. For the purposes of classification,
however, three criteria are paramount. These criteria are the
host organism or organisms that the virus utilizes, the shape of
the virus particle, and the type and arrangement of the viral
nucleic acid.
An important means of classifying viruses concerns the
type and arrangement of nucleic acid in the virus particle.
Some viruses have two strands of DNA, analogous to the dou-
ble helix of DNA that is present in prokaryotes such as bacte-
ria and in eukaryotic cells. Some viruses, such as the
Adenoviruses, replicate in the nucleusof the host using the
replication machinery of the host. Other viruses, such as the
poxviruses, do not integrate in the host genome, but replicate
in the cytoplasmof the host. Another example of a double-
stranded DNA virus are the Herpesviruses.
Other viruses only have a single strand of DNA. An
example is the Parvoviruses. Viruses such as the Parvoviruses
replicate their DNA in the host’s nucleus. The replication
involves the formation of what is termed a negative-sense strand
of DNA, which is a blueprint for the subsequent formation of
the RNA and DNA used to manufacture the new virus particles.
The genome of other viruses, such as Reoviruses and
Birnaviruses, is comprised of double-stranded RNA. Portions
of the RNA function independently in the production of a
number of so-called messenger RNAs, each of which pro-
duces a protein that is used in the production of new viruses.
Still other viruses contain a single strand of RNA. In
some of the single-stranded RNA viruses, such as
Picornaviruses, Togaviruses, and the HepatitisA virus, the
RNA is read in a direction that is termed “+ sense.” The sense
strand is used to make the protein products that form the new
virus particles. Other single-stranded RNA viruses contain
what is termed a negative-sense strand. Examples are the
Orthomyxoviruses and the Rhabdoviruses. The negative strand
is the blueprint for the formation of the messenger RNAs that
are required for production of the various viral proteins.
Still another group of viruses have + sense RNA that is
used to make a DNA intermediate. The intermediate is used to
Thin section electron micrograph of adenoviruses.
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