(Tobacco Mosaic Virus) followed by foot and mouth disease virus in 1898, the first
human virus was discovered only in 1901 as the yellow fever virus. But scientists did
not see an actual virus until 1930. In 1915, Frederick Twort, a bacteriologist, dis-
covered a bacteriophage, the virus that can infect bacteria, notifying it as a micro-
organism that would kill bacteria. Hence, it established a unique feature of the virus as
their size could vary within a range between 20 nm to 1 micron. They are much
smaller than the cells they could infect.
2.1.2
VIRUS CHARACTERISTICS
Viruses are among the most symmetrical biological objects. They can be either
helical, spherical, icosahedral, or have more complex structure. They could be fi-
lamentous with elongated structures. Viruses can be visualized by x-ray crystal-
lography or electron microscopy. Looking at the structure of TMV, it has given the
concept that viruses are structurally composed of repeating subunits. The viral
structure consists of some key features; namely, the capsid encapsulating the viral
genome. The virus may or may not have an envelope layer.
2.1.3
VIRUS EVOLUTION AND CLASSIFICATION
Evolution of viruses has remained very speculative as they do not fossilize. They do
not have a common ancestor. There have been different theories of virus evolution.
First is the devolution or regressive theory, meaning they could have originated
from free-living cells. Second is the escapist or progressive theory, which explained
they might have originated from RNA and DNA molecules that escaped from the
host cell. The third is the self-replicating theory, explaining a system of self-
replication involving evolution alongside the host cell.
Viruses are classified based on their morphology, chemical composition, host
organism, or mode of replication. But, since the discovery of viruses, the classification
system has been modified to the system that is currently being followed. The first was
Holmes’ classification, who suggested a first complete taxonomic system. He pro-
posed the order “virales” composing three suborders, namely, Phaginae (virus that
infects bacteria), Phytophaginae (virus that infects plants), and Zoophaginae (virus
that infects animals). He further created 13 families, 32 genera, and 248 species. Then
came the classification system that gained the community support known as the LHT
(Lwoff, Horne, and Tournier) system. This system grouped the viruses into one
phylum called “vira” with two subphyla defining the genetic material, which is either
DNA or RNA. This was further classified into classes based on the symmetry of the
viral capsids.
Later, an urgent need to have an official system for taxonomy led to the es-
tablishment of the International Committee on Taxonomy of Viruses (ICTV).
Thereafter, in 1971, David Baltimore published a classification system that is still in
use in parallel. He grouped all viruses into seven groups based on the type of
genome. From then until the present day, virus taxonomy has been considered by
this committee following the Baltimore classification system (Figure 2.1).
18
Bioprocessing of Viral Vaccines