Explain the structure of the virus
Answers
Answer:
The simplest virions consist of two basic components: nucleic acid (single- or double-stranded RNA or DNA) and a protein coat, the capsid, which functions as a shell to protect the viral genome from nucleases and which during infection attaches the virion to specific receptors exposed on the prospective host cell....
Answer:
Viruses come in an amazing variety of shapes and sizes. They are very small and are
measured in nanometers, which is one-billionth of a meter. Viruses can range in the
size between 20 to 750nm, which is 45,000 times smaller than the width of a human
hair. The majority of viruses cannot be seen with a light microscope because the
resolution of a light microscope is limited to about 200nm, so a scanning electron
microscope is required to view most viruses.
The basic structure of a virus is made up of a genetic information molecule and a
protein layer that protects that information molecule. The arrangement of the
protein layer and the genetic information comes in a variety of presentations. The
core of the virus is made up of nucleic acids, which then make up the genetic
information in the form of RNA or DNA. The protein layer that surrounds and
protects the nucleic acids is called the capsid. When a single virus is in its complete
form and has reached full infectivity outside of the cell, it is known as a virion. A virus
structure can be one of the following: icosahedral, enveloped, complex or helical
Icosahedral
These viruses appear spherical in shape, but a closer
look actually reveals they are icosahedral. The
icosahedron is made up of equilateral triangles fused
together in a spherical shape. This is the most optimal
way of forming a closed shell using identical protein
sub-units. The genetic material is fully enclosed inside
of the capsid. Viruses with icosahedral structures are
released into the environment when the cell dies,
breaks down and lyses, thus releasing the virions.
Examples of viruses with an icosahedral structure are
the poliovirus, rhinovirus, and adenovirus.
Envelope
This virus structure is a conventional
icosahedral or helical structure that is
surrounded by a lipid bilayer membrane,
meaning the virus is encased or enveloped.
The envelope of the virus is formed when the
virus is exiting the cell via budding, and the
infectivity of these viruses is mostly
dependent on the envelope. The most well known examples of enveloped viruses are the
influenza virus, Hepatitis C and HIV
Complex
These virus structures have a combination of icosahedral
and helical shape and may have a complex outer wall or
head-tail morphology. The head-tail morphology structure
is unique to viruses that only infect bacteria and are known
as bacteriophages. The head of the virus has an icosahedral
shape with a helical shaped tail. The bacteriophage uses its
tail to attach to the bacterium, creates a hole in the cell
wall, and then inserts its DNA into the cell using the tail as a
channel. The Poxvirus is one of the largest viruses in size
and has a complex structure with a unique outer wall and
capsid. One of the most famous types of poxviruses is the
variola virus which causes smallpox.
Helical
This virus structure has a capsid with a central cavity or hollow
tube that is made by proteins arranged in a circular fashion,
creating a disc like shape. The disc shapes are attached helically
(like a toy slinky) creating a tube with room for the nucleic acid in
the middle. All filamentous viruses are helical in shape. They are
usually 15-19nm wide and range in length from 300 to 500nm
depending on the genome size. An example of a virus with a
helical symmetry is the tobacco mosaic virus.