Viruses PDF

Summary

This presentation provides an overview of viruses, covering their structure, classification, and replication. It also details different types of viruses, their impact, and the sites of viral diseases.

Full Transcript

VIRUSES

By: Dr. Nagat Balaman (MD, PhD).
Aesthetic doctor
Medical & Clinical Microbiologist
GAU Faculty of Pharmacy
 Smallest infectious agents (18-600 nm).
Filterable agents.
Can not be seen by ordinary microscope.
 Can not synthesize their own proteins thus
they can not form their own energy.
Obligate intracellular parasite -----Need a host
Non-living infectious agents.
Viral genome can be RNA or DNA
(But not both).
Virus

Cell

nucleus
 Virus Taxonomy
According to ICTV, the classification is as follows:
Order – virales (suffix)
Family – viridae
Subfamily – virinae
Genus – virus
Species –(trivial
name preserved)

(ICTV) International Committee on Taxonomy of Viruses.
Nomenclature of Viruses:
 Structure of viruses:
▪ The complete, infective form of a virus outside a
host cell is called a Virion:

Nucleic acid genome
(single- or double-
stranded RNA or DNA).
Protein coat (Capsid):
which is made up of
capsomeres.
The nucleic acid genome
Enveloped virus
Naked
plus the protective protein
virus
coat is called the
nucleocapsid.
Structure of viruses:
Envelope: viruses obtain
Enveloped virus their envelope by budding
through a host cell
membrane/ internal cell
membranes such as those
of the Golgi body or the
nucleus. *Compose of
lipids, protein and
glycoprotein (may/ may not
has).
Viral attachment protein
(VAP): They are surface
structures of the envelop
Naked virus
and the capsid.
Classification:
A. Viral structure.
Naked
enveloped
B. Genome Structure.
DNA or RNA,
Single-stranded or double-stranded
Segmented / nonsegmented.
C. Capsid Symmetry.
A. Viral structure
Naked
Enveloped
 Naked Viruses
Ressistant to the environmental conditions
– Heat, acid, proteases, detergants , dryness
Easily transmitted
– (object and surfaces, hand-to-hand transmission)
Many can be transmitted via fecal-oral route

Nacked virus
Enveloped viruses
They cannot withstand conditions that naked viruses
are resistant to. Enveloped viruses are comparatively
fragile.
Most are labile to treatment with acid and detergents,
a feature that precludes their being transmitted by the
fecal-oral route.
They must remain wet and spread
– In respiratory droplets, blood, mucus, saliva and
semen,
– By injection, or
– Organ transplants

Retroviridae
B. Genome structure.
DNA or RNA,
Single-stranded or double-stranded
Segmented / non-segmented.
RNA viruses
Medically important viruses:
DNA viruses
o Parvovirus
o Polyomavirus
o Papillomavirus
o Adenovirus
o Herpesvirus
o Hepadnavirus
o Poxvirus
Medically important viruses:

▪ RNA viruses
o Picornavirus
o Astrovirus
o Calicivirus
▪ RNA viruses
o Reovirus
o Arenavirus
o Togavirus
o Coronavirus
o Flavivirus
o Retrovirus
o Bunyavirus
o Orthomyxovirus
o Paramyxovirus
o Rhabdovirus
o Filovirus
 DNA viruses
Enter the nucleus and gets integrated into the
genome
Uses host cell machinery for protein synthesis and
replication
Larger, more complex viruses (Parvoviruses,
Hepadna virus) encode their own polymerases. Viral
polymerases are usually faster but less precise than
host cell polymerases.
Poxviruses have their enzymes in their nucleocapsid
as they replicate in cytoplasm
 (+) sense RNA viral genome
The viral (+)sense RNA can directly act as cellular
mRNA.
Can bind to ribosomes
Can be used directly in protein synthesis.
Sufficient to start infection itself i.e. infectious.
After the virus-encoded , RNA-dependent RNA
polymerase is produced, a negative strand RNA
template is synthesized.
The template can then be used to generate more
mRNA and to replicate the genome.
(+) sense RNA viral genome
Picornaviruses
Caliciviruses
Coronaviruses
Flaviviruses
Togaviruses
 (-) sense RNA virus

They are not sufficient to start infection on their own i.e.
non-infectious by itself
A polymerase must be carried into the cell with the
genome.
A full-lenght (+) strand RNA must also be produced by
the viral polymerase to act as a template to generate
more copies of the genome.
Transcription and replciation of (-)stranded RNA viruses
occur in cytoplasm. (Except for influenza viruses).
(-) sense RNA virus
Rhabdovirus
Orthomyxovirus
Paramyxovirus
Filovirus
Bunyavirus
Segmented viruses: a)- HIV, b)- Influenza
Paramyxoviridae

Non segmented
C. Capsid Symmetry
Icosahedral / cubic/ spherical
Heical / pleomorphic
Complex
 Viral Replication Steps
Detection of the target cell
Attachment
Penetration
Uncoating
Macromolecule synthesis
Virus assembly
Release
Budding (For enveloped
viruses)
 Viral attachment proteins
Rhinovirus ---VP1-VP2-VP3.
Adenovirus --- Fiber protein.
Rotavirus --- VP7.
Rabies --- G protein.
Influenza A --- Hemaglutinin.
Epstein-Barr virus --- gp350 / gp220.
Measles --- HA.
HIV --- gp120.

Viral tropism is the ability of a given virus to productively infect a
particular cell (cellular tropism), tissue (tissue tropism) or host
species (host tropism).
Major sites of viral disease
Respiratory system.
Gastrointestinal system.
Skin, mouth and genital mucosal sites.
(Epithelial sites)
Lymphoid tissues.
Liver.
Central nervous system.
Viral Infection Types

Asymptomatic Infections
– Subclinical
– Latent
Symptomatic Infections
– Acute
Herpesviruses
– Subacute
– Chronic
– Persistent
 Viral diseases

Viral infections:
- The intensity of the viral infection & the
symptoms depends:
a) Host related factors.
b) Viral factors.

German Measles (Rubeola)