Virus structure, viral replication cycle & prions

Question 1

Viruses

Answer 1

The most abundant biological entities on Earth
An estimated 10 nonillion (1031) individual viruses
The length of a head to tail line of 1031 viruses is around 100 million light years
- infect living things

Question 2

What are the general characteristics of viruses?

Answer 2

NOT CELLS – Acellular Infectious particles

After prions, viruses are the smallest infectious agents (10 to 400 nm in diameter)
Different sizes and shapes

Do not grow or undergo division outside a cell

Obligate intracellular parasites - Requires a host for replication
they need the machinery and metabolism of a host cell

Are produced by replication from the assembly of pre-formed viral components

Carry genetic material either DNA or RNA (not both)

Question 3

Viruses are NOT bacteria

Answer 3

• Antibiotics are not effective against viruses
• Specific virus infections should be treated with antiviral agents

Question 4

What type of microscope can you see viruses through?

Answer 4

electron microscope

Question 5

Classification:
virus

Answer 5

Family names end in –viridae

Genus and species names end in -virus.

Viral species: Common names are used for species.

Subspecies are designated by a number.

Question 6

Virus composition

Answer 6

Nucleic acid - DNA or RNA can be single- or double-stranded; complexed with matrix proteins or enzymes

Capsid—protein coat/shell to protect the nucleic acid

Envelope—lipid bilayer membrane (Host cell derived) on some viruses, in which some peripherical glycoproteins (e.g. Spikes) projects from outer surface

Question 7

Virion

Answer 7

complete, fully developed viral particle

Question 8

flow diagram of viral composition

Answer 8

Ririon or virus particle > covering / central core > capsid structure ./ envelope / nucleic acids (DNA or RNA) / matrix protein / enzymes (depends on virus)

Question 9

Presence/absence envelope

Answer 9

Naked or enveloped viruses
= external of a virion

Question 10

envelope not always present

Answer 10

Not present in rhinoviruses, adenoviruses, etc. (naked viruses)
SARS-CoV-2, HIV, herpesviruses, influenza viruses possess it (enveloped)

Question 11

Where is the Viral envelope located?

Answer 11

external layer of a virion

Question 12

What is the viral envelope made out of?

Answer 12

Envelope is a lipid bilayer derived from host cell (infection’s final step)

Viral genome does not encode lipid synthetic machinery

Envelope acquired by budding of capsid when viruses leaves the cell

Question 13

Viral envelope glycoproteins

Answer 13

Transmembrane glycoproteins (encoded by the viral genome) that protrudes outside the envelope

Synthesised through the secretory pathway – destined to the plasma membrane

Question 14

What is the role of envelope in virus made out of glycoproteins?

Answer 14

Involved in binding specific protein receptors on the external surface of the host’s cell (viral absorption, the first step)

involved in viral-cell fusion

Question 15

What is a Viral capsid?

Answer 15

Large and protective shell that surrounds/protects viral nucleic acid –

Also called nucleocapsid

Composed of many capsomers (identical subunits - like the pieces of a puzzle)

Each one has ‘identical’ and reversible bonding contacts with its neighbours

Question 16

Capsid shape
3 types

Answer 16

1. helical - hollow, cylindrical
2. Polyhedral - many-sided
3. Complex - complicated structures

Question 17

Viral genomes - Nucleic acid

Answer 17

contain either DNA or RNA

double-stranded (ds) / single-stranded (ss),

linear / circular

Question 18

Viral genomes possess only the genes to encode proteins involved in:

Answer 18

The structure of the virion (capside protein, envelope glycoproteins)

Invading the host cells and hijacking/regulating its metabolic activity to produce more viral proteins and quench the production of cellular
proteins

Enzymes to reproduce/multiply their genomes (e.g. DNA/RNA polymerases)

Question 19

Virus can only infect a small amount of _____ cells

Answer 19

host

Question 20

Viral tropism

Answer 20

Most viruses infect only specific types of cells in one host

Question 21

How is viral tropism determined?

Answer 21

1. presence of specific receptors on the surface
2. cellular factors capable of replicating virus

Question 22

Can different viruses bind on the same receptor?

Answer 22

yes

Question 23

Viruses of the same family may bind ________ receptors

Answer 23

different

Question 24

Viral replication cycle (generic)

Answer 24

a) Human viruses undergo a series of events to enable the replication (multiplication) inside a host’s cell

b) Steps change from virus to virus

c) Some viruses have additional steps (e.g. HIV – genome integration)

Question 25

STEP 1 – Viral attachment
[viral replication]

Answer 25

Virus adheres to cell surface (random collisions & electrostatics)
No specificity required

Attachment to specific receptors on cell surface by envelope glycoprotein or protruding capsid protein (naked viruses)

Question 26

STEP 2 – Virus penetration – Membranes fusion
[viral replication]

Answer 26

After attachment, viruses need to penetrate the cell

2a. Enveloped viruses: by fusion of viral envelope and host cell membrane mediated by viral fusion proteins

2b. Naked viruses (e.g. Adenovirus, Adv): enter cells by endocytosis

Receptor binding triggers the process of endocytosis
Cell membrane is pinched off
The virus is engulfed
A vesicle is formed (Endocytosis)

Question 27

STEP 3 – Virion uncoating - Genome release
[viral replication]

Answer 27

disassembly of the virion = release the genetic material in the nucleus of the cell

Question 28

STEP 4 – Virus genome replication and protein synthesis
[viral replication]

Answer 28

Viruses hijack the host cell synthesis machinery to:
Replicate their genome
Produce their proteins (Transcription of viral genes into mRNA and protein translation)

Question 29

STEP 4 – Virus genome replication and protein synthesis
[viral replication]

Answer 29

Viruses hijack the host cell synthesis machinery to:
Replicate their genome
Produce their proteins (Transcription of viral genes into mRNA and protein translation)

Question 30

STEP 5 – Assembly of NEW virions
[viral replication]

Answer 30

a) New genome copies and many capsid subunits are synthesised
Through the endomembranous system, envelope glycoproteins are synthesised by the cell and sent to the plasma membrane

b) Capsid subunits assembled together to form a capsid
The replicated viral genome and some viral proteins become packaged within
From a single infected cell – 104 / 106 new virions are produced

Question 31

STEP 6 – Release of new virions
[viral replication]

Answer 31

Release. Completed viral particles exit the cell and can infect other cells.

mechanisms vary between NAKED and ENVELOPED viruses

a) Budding / exocytosis – enveloped viruses - new capsid particles bind the membrane, the membrane pinches off and viruses acquire the envelope and there are released = cells NOT destroyed

b) Lysis – Naked viruses - Viruses are released only when the cell dies

Question 32

Prions

Answer 32

Proteinaceous infectious particles – misfolded proteins

Question 33

Do prions contain nucleic acid?

Answer 33

no

Question 34

What does prions cause?

Answer 34

Cause transmissible spongiform encephalophaties fatal neurodegenerative diseases
“Mad cow disease“ (BSE)
Creutzfeldt-Jakob disease (CJD)
Sheep scrapie

*Inherited and transmissible by ingestion (common in animals), transplant, and surgical instruments

Question 35

What is Spongiform encephalopathies?

Answer 35

Rapid and progressive neurodegenerative disorders

• Long incubation periods
• Impairment of brain function
• Mental and physical abilities rapidly deteriorate
• Always fatal

Question 36

Spongiform encephalopathies - appearance

Answer 36

Many tiny holes appear in the cortex causing it to appear like a sponge

Question 37

Explain why prions are extremely resistant to standard sterilization?

Answer 37

Extremely resistant to standard sterilization techniques:
such as standard autoclave programs of 121°C for 15 minutes (more than bacterial endospores)

Prion inactivation requires autoclave cycle at 134°C for 18 minutes or more

Question 38

List the types of viruses from most to least resistant to standard sterilisation:

Answer 38

1) Prions

2) Endospores of bacteria

3) Mycobacteria

4) Cysts of protozoa

5) Vegetative protozoa

6) Gram -ive bacteria

7) Fungi, incl. most fungal spores

8) Viruses w/o envelopes

9) Gram+ive bacteria

10) Viruses with lipid envelopes