Viruses

Question 1

Viruses

Answer 1

Genome: DNA or RNA

• DNA = Linear or Circular, Double or Single Stranded
• RNA = Linear or Segmented, Double or Single Stranded, Positive/Negative/Ambi- sense

Naked and Enveloped viruses

Question 2

Virion (Viral Particle) Composition

Answer 2

Structures present in SOME viruses:

• Envelopes
• Peplomers (Glycoprotein spikes): provide target for neutralizing Antibodies
• Packaged enzymes

Viral Proteins

• Structural Proteins (part of virion)
• Non-structural (enzymes; not always packaged in virion)

Question 3

Classification Properties of Viruses

Answer 3

Genome
- DNA or RNA

Strand type and Polarity
- ss/ds stranded, positive/negative sense

Enveloped vs. Naked

Virion Morphology
- Shape, size, symmetry

Replication Mechanism

Host Range

Type of Disease/Symptoms caused

Question 4

General Progression of Viral Infection

Answer 4

Acquisition
- Portal of Entry (respiration, wound, STD, fecal-oral)

Primary Site Replication
- initiation of infection, primary source

Incubation Period
- no symptoms/ prodrome (early symptom)

Dissemination

• via blood, phagocytic cells, lymphatic system, neurons
• primary viremia: virus now in blood

Secondary Site Replication
- secondary viremia: replication in macrophages or vascular endothelial cells

Target Tissue, Symptoms develop

Question 5

Viral Infection Types

Answer 5

Abortive: no progeny produced (nonpermissive infection or defective virus)

Productive (non-lytic): host cell altered but not lysed (permissive and productive)
- enveloped virus

Productive (lytic): host cell lysed and viral progeny released (permissive and productive
- naked viruses

Latent: persistence with no progeny; viral genome may integrate into host genome

Note: Tropism (recognition of target cell) of viruses determine tissue/cells targeted

Question 6

Viral Replication Pathways

Answer 6

Naked (Lytic)/Enveloped (Budding)
- Adherence
- Penetration
- Replication
- Assembly
- Release
Note: Mechanism the same; progeny released differently (lytic vs. budding)

Transforming

• Adherence
• Penetration
• Integration
• Host Cell Transformed (Tumor/Cancer)

Question 7

Viral Entry Mechanisms

Answer 7

All involve Adherence and Penetration

Fusion - enveloped virus fuses with host membranes
- leads to formation of syncytia due to Peplomers remaining in the host membrane

Receptor-mediated endocytosis (fusion with/lysis of endosome)

• think of as pH-dependent; will not fuse at neutral pH, so cannot form Syncytia
• enveloped viruses will send their genetic material to nucleus after fusing; Naked viruses will send nucleocapsid to nuclear pores, which then inject nucleic acid into nucleus

Pore Formation

Lysosomal Uncoating (capsid digested/opened up to release nucleic acid)

Question 8

Viral Synthesis/Replication and Assembly/Release

Answer 8

• Transcription of Immediate Early/Early mRNA (non-structural regulatory proteins
• Replication of Genome
• Transcription of Late mRNA (structural protein synthesis)

Assembly/Release

• Inclusion bodies may form (insoluble protein deposits) wherever viral gene is active
• Enveloped viruses assemble and ‘bud off’ to obtain envelope

Question 9

General Virus Replication Pathway

Answer 9

Parental DNA

Early mRNA transcribed

Early proteins translated from early mRNA

Early proteins (and cell enzymes) assist in replication of Parental DNA

Progeny DNA

Late mRNA transcribed

Late proteins (structural) translated from late mRNA

Assemble structural proteins into nucleocapsid around progeny DNA

Question 10

Basis of Viral Classification

Answer 10

Mechanism of genomic replication differs based on genome type, strand type, and sense type.
- all viruses must generate Positive sense mRNA; this determines what a virus must carry to survive

**Be sure to understand each pathway and the differences between classes

Question 11

Source of Polymerase

Answer 11

DNA Viruses

• dsDNA = Host polymerase used
• ssDNA = Host polymerase used
• dsDNA w/ RNA intermediate = Viral polymerase used

–Notable Exception: Pox Virus (dsDNA) uses Viral polymerase

RNA Viruses

• dsRNA = Viral polymerase used
• ssRNA (+ sense) = Host polymerase used
• ssRNA (- sense) = Viral Polymerase used
• ssRNA w/ DNA intermediate = Viral polymerase used

Question 12

Replication Sites

Answer 12

DNA = Nucleus
- EXCEPT: Pox viruses

RNA = Cytoplasm
- EXCEPT: Orthomyxo viruses

Question 13

Genotypic Mixing

Answer 13

2 identical(?) viruses with segmented genome infect the same cell

• Progeny viruses may be Reassortant, meaning they have mixed genome from both viruses.
• useful for viral attenuation (virulent strain + attenuated strain = attenuated virulent strain)

Question 14

Phenotypic Mixing

Answer 14

Host infected with 2 non-identical viruses
- Genome of progeny doesn’t change, but peplomers may change, which can alter host range or resistance to antibody neutralization

Question 15

Hemagglutination vs. HAI Assays

Answer 15

Hemagglutanin = Peplomer

HA Assay used to detect how much virus is found in a sample
- Flat disc formation due to the ‘sticking’ mechanism conferred to RBCs from viruses with Hemagglutanin

HAI Assays are used to detect how much antibody there may be in a sample
- ‘button’ formation due to neutralization of any cells bearing HA peplomer.

Question 16

Fungal Cell Wall PAMPs

Answer 16

Mannan: component of cell wall, more abundant in Yeast

Chitin and Glucans: compound that gives rigidity to fungal cell wall

Question 17

Fungal Growth Methods

Answer 17

Yeasts

• Unicellular
• Asexual reproduction via Budding

Molds/Filamentous fungi

• Multi-cellular
• Long chains called Hyphae; septate vs. aseptate/coenocytic (multinucleated hyphae)
• Asexual mitosis via spores call conidia (Anamorphic) OR sexual spores by meiosis (Teleomorphic)

Question 18

Fungal Virulence Factors

Answer 18

Note: Normally do not cause serious disease in healthy individuals; typically are opportunistic infection

Virulence Factors

• Capsules
• Hydrolytic Enzymes
• AFLATOXINS (THESE SUCKERS ARE CRAZY CARCINOGENIC; THE MOST CANCEROUS TOXIN WE KNOW)
• Melanin (free radical scavenger; counters phagocytic activity that uses free radicals)
• PGE

Question 19

Mycotic Diseases

Answer 19

Hypersensitivity Diseases

• Airborne spores, filaments, particulates; independent of growth/viability of fungus itself
• allergy and infection potentially simultaneous

Mycotoxicoses/Mycetismus
- Due to production of Secondary Metabolites, which can disrupt/alter physiological functions

Mycoses (infections)

• Superficial/Cutaneous
• Subcutaneous
• Systemic

Question 20

Protozoans

Answer 20

Single Cells; Extra/Intracellular

4 Types:
Amoebas
- move via pseudopods

Flagellates
- move via flagella

Ciliates
- move via cilia

Apicomplexa
- non motile

Question 21

Pathogenesis/Damage of Parasitic Disease

Answer 21

Transmission

• Fecal Oral
• Direct Penetration
• Arthropod Transmission
• Transplacental (Toxoplasmosis)

Adherence/Replication
- May be specific (Plasmodium binds to Duggy antigen) or nonspecific (hookworm’s hook)

Cell/Tissue Damage

• Hydrolytic Enzymes and toxins
• Mechanical damage
• immunopathology
• burden of organism