BIOL2010-Week6-Viruses-F24.pdf

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BIOL2010
Week 6 - Viruses
What is a Virus?

A Virus is an acellular infectious agent that
cannot self replicate

Must infect a cell in order to make copies
of itself

Examples of viruses include Influenza, HIV
& Ebola
Viral Structure
Although there is variation in viral
structure, there are some
common features
1) RNA or DNA genome
2) Capsid of Proteins
3) Envelope Lipid Bi-layer
4) Surface receptors – Spikes of Protein or
Glycoprotein
Viral Replication Cycle

Replicative cycle by a Virus depends upon
its Genome

For example, replicative cycle of a ssRNA
virus is different than that of a dsDNA
Virus

Image at right shows a general
mechanism
Viral Replication Cycle

1. Attachment:
Proteins on the Viral envelope
or Capsid recognize & bind
with Target host cell receptors
Viral Replication Cycle
2. Penetration:
Entry is by one of 3 possible mechanisms:

1) Direct penetration (naked viruses) – Only viral
genome enters host (typical of bacteriophages)
2) Fusion – Viral envelope fuses with host membrane,
capsid containing the genome enters cell (e.g. HIV)
3) Receptor mediated endocytosis – Attachment
stimulates endocytosis of entire virus (e.g. Influenza)
Viral Replication Cycle
3. Uncoating:
Virus removes Capsid
(uncoats) & nucleic acid
of Genome is exposed to
cytoplasm
Viral Replication Cycle
4. Transport to Nucleus:
Viral genome enters nucleus
Viral Replication Cycle
5. Synthesis (Transcription &
Translation):
Reproduction of Viral genome
(transcription in nucleus) &
Viral proteins (translation in
cytoplasm)
Viral Replication Cycle
6. Assembly:
Assembly of New virons
(complete virus). Genome &
Capsid are put together to
form New virus
Viral Replication Cycle

7. Release:
Release of Virus from Host
cell (viral shedding) by one
of 3 mechanisms…
Viral Shedding
1. Apoptosis: Host cell lyses &
releases mature viral particles
(naked viruses). Host Cell dies.
2. Budding: Through nuclear or
plasma membrane, creating
an envelope. Does not kill host.
3. Exocytosis: Viruses leave the
host cell using vesicles but does
not kill host.
Influenza Virus
Influenza virus is an enveloped RNA Virus
RNA Viruses make more “mistakes” than DNA viruses
They don’t have self-regulation & do not correct
mistakes
RNA Viruses adapt readily to environmental changes
because of high mutation rates

Envelope is covered with 2 proteins (Antigens)
required for the infection process
1. Hemagglutinin (H) spike
2. Neuraminidase (N) spike
Influenza Virus
Hemagglutinin (ha)
Glycoprotein on the surface of Influenza virus binds Virus to
cells with sialic acid on host cell membranes, such as cells in
upper respiratory tract or erythrocytes – helps VIRUS enter cell
Sialic Acid is a receptor found on most vertebrate cells
Neuraminidase (na)
Enzyme helps virus to penetrate mucus of respiratory tract &
also aids in viral shedding of influenza (budding). It does this
by cutting Sialic Acid from Host Glycoproteins as virus is being
Released

MUTATIONS in GENES that code for these 2 PROTEINS are
responsible for development of new strains of FLU
Antigentic Variation
Antigenic variation occurs in 2 ways
with Flu Virus
1. Antigenic drift results from point
mutation of genes coding for
Hemagglutinin & Neurominidase
2. Antigenic shift caused by
Reassortment of Viral Genes
Antigenic Drift
Mutations in Genes that code for
Hemagglutinin & neuraminidase

These 2 proteins are the antigens that cause
formation of host antibodies.

Produces new strains of flu virus that host
antibodies won’t recognize.

If enough of an antigenic drift – this will
cause a new flu epidemic (localized flu).

Antigenic drift causes new formulations of flu
vaccine every year.
Antigenic Shift
Results from Gene re-assortment from 2 different Viruses
that infect same cell
Viruses exchange a large part of genome
Virus that emerges is Antigenically different from either of
the 2 viruses
Antibodies formed from the 2 viruses are ineffective
against new combined virus genome
H5N1 = bird flu
H1N1 = swine flu
Can lead to PANDEMICS
Swine Flu Viroid
Re-assortment
Bacteriophage
Bacteriophages, (or just phages) are
viruses that only infect bacterial cells.
Phages (Viruses) cannot be grown on
agar plates like bacteria, they have to be
grown using host cells, in this case
bacteria.
For animal viruses, hens eggs, or live
animals can be used.
Bacteriophage Lambda
One of the earliest model system for
studying the physical nature of DNA
and genes.
Isolated from an E. coli cells in 1951.
Has contributed enormously to our
understanding of molecular biology
and protein synthesis mechanisms.
Often used a vector for the cloning of
recombinant DNA.
Bacteriophage Replication

Can have a Lytic or Lysogenic
mode of replication.
Lytic cycle – Results to destruction
of the hosts cells membranes,
phages that use this cycle are called
virulent.
Lysogenic cycle – Viral DNA is
integrated into the host bacteria’s
genome, the bacteria continues to
live and function normally, these are
referred to as temperate phages.
Bacteriophage Lambda