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17-92012 1DR HUMAIRA RIZWANA
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Conception
Viruses
Virion
Size and Shape
Structure
Replication
Viral Variation
Classification
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Doesn’t belong to any kingdom
-It’s not a plant or an animal.
-It’s not a fungi, protist, or
bacteria.
WHAT IS A VIRUS?
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A virus is an infectious agent made up of nucleic acid (DNA or RNA) wrapped in a
protein coat called a capsid.
Viruses have no nucleus, no organelles, no cytoplasm or cell membrane—Non-cellular
vs
This is why it does NOT belong to any kingdom.
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Virus particle are also called virion Comprised of two parts: 1. Nucleic Acid 2. Protein coat (capsid) Nucleocapsid- capsid with nucleic acid
inside Each capsid made of identical protein
subunits called capsomeres.
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Viruses are not living
Viruses are obligate parasites
Viruses must be able to use host cell processes to produce their components (viral messenger RNA, protein, and identical copies of the genome)
Viral components must self-assemble
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viruses do not respire,
nor do they display irritability应急性;
they do not move
they do not grow
they do most certainly reproduce, and may adapt
to new hosts.
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How many
characteristics of life
do viruses possess?
*Genetic Material
Are viruses
living?
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Electron microscopy : The resolution is 5nm (1nm = 10-9 m)
X-ray crystallography
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10copyright cmassengale
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Capsid
Viral core
Envelope
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Virus Structure (Shape)
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1- Helical
Ebola Virus
2- Icozahedral
Influenza
Virus
3- Complex
Bacteriophage
(Coliphage)
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Helical symmetry
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RIZWANA
CAPSOMERES
EBOLA VIRUS
Nucleic Acid
Capsid
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Examples: California Encephalitis Virus
CoronavirusHantavirusInfluenza Virus (Flu Virus)Measles Virus ( Rubeola)Mumps VirusParainfluenza VirusRabies VirusRespiratory Syncytial Virus(RSV)
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Cubic or icosahedral symmetry
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The genomes (sets of genes) maybe1. Double stranded DNA (d.s. DNA).2. Single stranded DNA (S.S. DNA).3. Double stranded RNA (D.S. RNA).4. Single stranded RNA (S.S. RNA).
They are called either a DNA or RNA virus depending on the type of nucleotide in the make-up.They may be linear or circularThe smallest have only 4 genes and largest have several hundred.
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PARVOVIRIDAE
POLYOMAVIRIDAEADENOVIRIDAE
HERPESVIRIDAE
HEPADNAVIRIDAE POXVIRIDAE
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PICORNAVIRIDAE
TOGAVIRIDAE
FLAVIVIRIDAE
REOVIRIDAE
BUNYAVIRIDAE
RHABDOVIRIDAE
ARENAVIRIDAE
RETROVIRIDAEORTHOMYXOVIRIDAE
PARAMYXOVIRIDAE
CORONAVIRIDAE
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DNA RNA
Single Stranded
Double Stranded
Circular
+ or -
Segmented
Double Stranded Segmented
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Naked: consist only of nucleic acid and capsid
Enveloped virus: consists of nucleic acid, capsid, and envelope.
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Enveloped
Virus
Naked Virus
Cubic Helical
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Naked Virus Enveloped Virus
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Virus that infects bacterial cells.
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All viruses must be able to attach to specific receptors on host cells
Attachment spikes project from the capsid or envelope
In viruses with tails- tail fibers attach the virus to the host cell
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Much more expensive and difficult to study animal viruses than bacteriophages
Cultivation in host cells◦ Living animal◦ Embryonated chicken eggs◦ Cell or tissue culture (= in vitro)
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Plaque assay (useful for infective and lytic viruses)
Virion counting with EM
Quantal assay (ID50 or LD50)
Hemagglutination(e.g.influenza virus)
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A. Lytic Infection: viruses multiply inside the cells they invade.
B. Lysogenic Infection: integrate viral DNA into host cell chromosome; the virus DNA replicates as the bacterial chromosome replicates.
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1. Phage nucleic acid enters the bacterium and capsid remains outside
2. Nucleic acid replicated along with phage proteins
3. Many virions are formed
4. Phages exit by bursting the cell
5. Phages that go through this life cycle are called virulent
6. Virulent: has the ability to overcome host defenses and cause disease
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1. Attachment
2. Penetration
3. Uncoating
4. Transcription and/or translation
5. Replication
6. Assembly
7. Release33DR HUMAIRA RIZWANA
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The viral DNA is incorporated into the host genome
Each time the host chromosomes replicated and split into new cells, so is the viral DNA
Phage may excise itself from the chromosome and later and revert to lytic growth
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Host range: number of different bacteria that a particular phage can infect
Two factors determine the host range of a phage:
1. Phage must be able to attach to receptors on host cell surface
2. The restriction modification system of the host cell
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Receptors vary in chemical structure and location
Receptors are usually on cell wall, although a few phages attach to pili or flagella
Receptor sites can be modified, thereby creating a resistant cell
Some temperate phages can alter the cell surface, an example of lysogenic conversion◦ As a result receptor no longer available
◦ Thus, prophage protects it’s host and, in turn, is able to keep replicating inside of it
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In some bacteria to protect themselves from viral infection
Bacterial cell makes restriction enzyme and methylating enzyme
Methylating enzyme adds methyl group to bacterial DNA
Bacteria now knows this is it’s own DNA Uses restriction enzyme to cut any DNA that
is not methylated Cuts viral DNA- inactivating it
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Small, circular RNA molecules without a protein coatInfect plantsPotato famine in IrelandResemble intronscut out of eukaryotic
copyright cmassengale
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Proteinaceous infectious agents
Contain only protein, no nucleic acid
Linked to number of fatal diseases in humans and animals
Obligate intracellular parasite
How does it replicate if no nucleic acid?◦ Prion protein converts host protein
to prion protein
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Cannot be killed by UV light or nucleases, can be killed by proteases and heat
Usually cannot be transmitted across species
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