Viruses Part I

Question 1

Virus vs. virion

Answer 1

Viruses are obligate intracellular parasites which can only replicate inside host cell
- nucleic acid (RNA or DNA) enveloped inside a protein capsid coat
- host cells supply building blocks, machinery and energy to replicate virus

Virons are inert infectious particles

Question 2

Define:
Capsid

Capsomeres

Nucleocapsid

Envelope

Answer 2

Capsid = protein coat around nucleic acids

Capsomeres = proteins which make up capsid

Nucleocapsid = simple virion

Envelope = lipid layer embedded with virus-specific proteins
- in animal viruses the envelope is derived from cytoplasmic membrane of host

Question 3

Virus shapes and examples

Answer 3

Helical (typical of plants) - viral RNA in a helix with identical capsomeres backbone
Ex. tobacco mosaic virus

Polyhedral (typical of animal viruses) - symmetrical faces, 20-sided icosahedron is most common
Ex. human papilloma virus

Complex (typical of bacteriophages) - head, tail, tail fibers for injecting genome into bacteria

Note: shape depends on capsomeres

Question 4

Prions

Answer 4

Misfolded protein (PrP^Sc) which causes the misfolding of other proteins (PrP^C) - does not actually replicate

Accumulation of PrP^Sc kills cells

Primarily found in neurons

Ex. Mad cow disease

Question 5

Viroids

Answer 5

Viroids (only in plants) - closed circle of single stranded RNA 240-380 nucleotides long
- disease state caused by viroid genome taking over host genome machinery
Ex. Cadang cadang coconut disease and potato spindle tuber

Question 6

Virus taxonomoy naming scheme

Answer 6

Family: -viridae
Genus: -virus
Species: species name in English

Classification based on: nature of host, type of disease caused, life cycle, naked or enveloped, nucleic acid type and strandedness

Question 7

Baltimore Classification Scheme

Plus vs minus config

Answer 7

Classification based on type of genome which dictates replication mechanism

Plus configuration: same strand as mRNA –> can be directly translated

Minus configuration: complementary mRNA strand which requires transcription before translation

Question 8

Life cycle stages of viruses

Answer 8

1) Adsorption: virus attachment to specific receptors on host surface
- in plants often done damage or insect vectors

2) Penetration: virus entry into the host cell
- envelope –> left at surface and nucleocapsid enters
- naked –> capsid left at surface

3) Uncoating: Removal of envelope and/or capsid by host enzymes (ex. lysosomes in animals)

4) Replication of nucleic acids - transcription and protein synthesis
- host cannot help but do this

5) Maturation - assembly of components to form new virions, often spontaneous

6) Release - virions exit by budding or lysis of cell
- or by vectors in plant viruses

Question 9

Viropexis

Answer 9

Endocytosis of enveloped virus in eukaryotes
- double envelope fuses with lysosomes for degradation and then uncoating of capsid for genome release into cytoplasm

Naked viruses can also be taken up by endocytosis

Question 10

Latent period and rise period of viral replication

Answer 10

Latent period = eclipse + maturation

Eclipse = time for host cells to replicate viral genome and synthesize viral components

Maturation = time needed for assembly

Rise = virions detected outside the cell once release has begun
- Burst size = number of virions released

Question 11

Mechanism of budding release

Answer 11

Budding is how viruses get their envelope

Viral proteins are recognized and viral capsid fuses on cytoplasmic side of membrane to bud and be released
- Relatively slow process

Does not cause the cell to lyse right away

Ex. Herpes stays in you forever and occasionally release new virus like this

Question 12

Bacteriophages

Virulent vs temperate

Answer 12

Genome mostly dsDNA, structure mostly naked

Virulent: infection leads to lytic pathway

Temperate: can do both lytic and lysogenic pathways and genome is incorporated into host cell’s genes
- can lie dormant and then return to lytic pathway

Question 13

Bacteriophage T4 replication

Answer 13

Virulent bacteriophage

1) Adsorption via T4 tail fibers attaching to core region of LPS

2) Tail sheath contracts forcing central core of phage through outer membrane

3) Tail lysozymes digest peptidoglycan to form pore (gram-neg)

4) Phage DNA injected through pore into host cell

Question 14

Bacteriophage Lambda replication phases and mechanisms

Answer 14

Involves prolonged latent stage or lysogeny

1) Infection of viral genome into host cell

2) Lysogenic pathway: viral DNA is integrated into host cell forms –> Lysogen (contains Prophage)
- Homologous region in host genome to the viral dsDNA with cohesive ends that fit together
- viral DNA integrated at specific site using lambda enzyme integrase (encoded by phage genome)

3) Lysogens undergo cell division and replication of prophage

4) Induction: excision of viral genome out of host DNA to enter lytic pathway

5) Production of new viral particles and host cell lysis