consequences of viral properties

• viruses are not living
• viruses must be infectious to endure in nature
• viruses must be able to utilize the host cell processes to produce their components (viral mRNA, protein, identical copies of the genome)
• viruses must encoded any required process not provided by the cell
• viral components must self-assemble

viruses probably evolved over several billion years + affected ppl since ancient times

• nature of viruses only beginning to be understood by end of XIX century
• realized that infectious diseases were transmitted by air, water, food, or close contact to sick ppl caused by mysterious elements in fluids called virus
• had ppl w rabies and didnt know what it was
• had ppl w polio and didnt know what it was

effective vaccines against smallpox and rabies developed in 1798 and 1995

• BUT no clear understanding of the nature of these disease agents, which are know now as viruses
  • didnt understand, just know some things were working
• end of XIX, russian scientist and dutch scientist independently showed that agent that caused tobacco mosaic disease could passn through fine earth or porcelain filters which retain bacteria
• VIRUSES WERE FIRST DISTINGUISHED FROM OTHER MICROORGANISMS BY FILTRATION
• afterwards, similar experiments carried out on agents that cause foot and mouth disease in cattle + yellow fever in humans
• experiments established that certain infectious agents are much smaller than bacteria - called filterable viruses

using filtration as diagnostic tool -> many viruses were discovered in first half of XX century

• 1st tumor virus (RVS, rous sarcoma virus) isolated from sarcomas of chicken in 1911
• years later -> RSV recognized as representative of retrovirus family
• RSV virus which existance of oncogenes was discovered
• wendell stanley found that purified tobacco mosaic virus could form crystals
  • shocked scientific world bc placed viruses at edge btw living organisms and chemical compounds
  • posed question: are viruses living or inanimate???
• CRYSTALLIZATION OF TOBACCO MOSAIC VIRUS CHALLENGED CONVENTIONAL NOTIONS ABOUT GENES AND NATURE OF LIVING ORGANISMS
• Show many properties of life ONLY when inside cell (given means to support replication) because they have ability to mutate, evolve, etc

WE NOW KNOW: VIRUSES ARE INANIMATE WHEN THEIR GENOMES PACKAGED IN VIRIONS

• they do share many properties of life:
  • ability to mutate, evolve, reproduce themselves when enter cells that support their replication
• stanley and others showed that viruses contain both protein and nucleic acids
• at the time, it was still not known that genes were made up of nucleic acids
• dev of electron microscope allowed scientists to see viruses for first time (1930s)

possible origins of viruses

virion components

Simplest virus

- nucleaic acid (DNA or RNA – NEVER both) – made of proteins

- capsid

- nucleocapsid – capsid + nucleic acid core

- envelope

- capsomer

what goes into naked capsid virus and enveloped virus

NAKED CAPSID VIRUS

• nucleocapsid
  • DNA OR RNA
  • structural proteins
  • (possibly/sometimes) enzymes and nucleic acid binding proteins

ENVELOPED VIRUS

• nucleocapsid
• glycoproteins and membrane

nucleic acid process

• some use reverse transription enzyme
  • make DNA from RNA to make more RNA

viral nucleic acid characteristics

• single vs double stranded
• segmented vs nonsegmented
• linear vs circular
• positive vs negative stranded vs ambisense

enzymes in viral replication

• DNA dependent DNA polymerase
• DNA dependent RNA pol
• RNA dependent RNA pol
• RNA dependent DNA pol

• viral encoded vs carried within viral particle
  • Some are encoded by only the virus. Others, the virus must carry it within the viral particle

Additional concepts

• defective viruses are:
  • viruses which lack complete genome so they cant completely replicate / cannot form a protein coat
  • able to replicate only when their genetic defect is complemented by a helper virus
• abortive infections: failed infections of a cell
• nonpermissive cells will not allow replication of a particular type or strain of virus
• permissive cells provide the biosynthetic machinery to support the complete replicative cycle of the virus

viral capsid symmetry

only 2 types of symmetry are present in viral capsids

1. cubic symmetry (icosahedron)
2. helical symmetry
   • Helical configuration Circles inside = nucleic acid Circles outside = capsomeres that cover and give helical configuration For viruses that infect HUMANS: Those that have helical configuration all have outer envelope
3. viruses (ex: poxvirus) can be neither

cleavage of viral proteins

After cleavage of long protein = protomers –> assemble in pentamers (capsomers)

Example: polio virus – original protein cleaved into 4

= how get mature virus form

Naken capsid virus can become envelope virus

Only thing inside = structural protein = matrix protein

Then lipid bilayer (outer membrane from host cell)

Then glycoprotein – must have so can have receptor proteins

This shows same thing but has example of enveloped and naked capsid

virus structure: naked capsid

Naked capsid – only protein structure

components - protein

properties

• environmentally stable to:
  • temperature
  • acid
  • proteases
  • detergents
  • drying
• released from cell by lysis

consequences

• spread easily (on fomites, hand to hand, dust, droplets, etc.)
• can dry out and retain infectivity
• can survive the adverse conditions of the gut
• can be resistant to detergents and poor sewage treatment
• can elicit a protective antibody response

Released from cell when complete replication by lysing host cell

- spread easily

- fomites – inanimate thing (table, etc.)

- can dry and still be infected (does not inactivate them)

- survive conditions in gut

– resist detergent and sewage treatment if not good

- elicit usually protective antibody response

virus structure: enveloped

components

• proteins
• membrane
• lipids
• glycoproteins

properties

• environmentally disrupted by
  • acid
  • detergent
  • drying
  • heat
• modify cell membrane during replication
• released by budding and cell lysis
  • bud off bc they use membrane of the host cell to gain it

consequences

• must stay wet
• cannot survive GI tract
• spreads in large droplets, secretions, organ or blood transplants
• need not kill cell to spread
• initiates a cell mediated immune response
• antibody and cell mediated immune response may be necessary for protection and control
• pathogenesis often due to hypersensitivity and inflammation initiated by CMI

Enveloped

- membrane, lipids, proteins, glycoproteins = more environmentally susceptible

- they are more affected by things / more easily destroyed

- released by BUDDING from host cell (NOT breaking, like naked virus does)

- cannot survive GI

- must be wet

- don’t need to kill cell (budding off)

- bud off bc they use membrane of the host cell to gain it

- antibody usually necessary for control

- most pathogenesis is due to hypersensitivity / inflammation from cell mediated immunity

subviral pathogens

• viroids
  • contain only RNA
• prions
  • contain only protein

2 other infectious agents that are smaller than viruses

= Subviral pathogens

- viroids (comprised SOLELY of RNA)

And

- prions (contain ONLY protein)

viroids

smallest known pathogens

• naked, circular, single stranded RNA molecules that do not encode protein
• but replicate autonomously when introduced into host plants
• only infect plants
  • can cause economically important disease of crop plants
  • some benign
• structure
  • circle ss RNA with some pairing btw complementary bases and loops where no such pairing occurs

Mostly host plants

There is 1 human infectious agent – is “viroid like” - is not truly a viroid but has many similarities

viruses, viroids, prions

similarities, diffs, comparison

- viruses and viroids have nucleic acid

- viruses can have either type of nucleic acid

- viroid only ssRNA

- prion have neither (no nucleic acid)

Protein present in virus and prions (only thing they have in common)

Important slide

classifications of naming viruses

baltimore classification of viruses

1. DS DNA

• uses own / host DNA polymerases for replication

2. + SS DNA

• requires DNA polymerase to generate complementary strand

3. DS RNA

• requires RNA dependent RNA polymerase to make mRNA and genomic RNA

4. + SS RNA

• requires RNA dependent RNA polymerase to make a template for mRNA and genome replication

5. - SS RNA

• requires RNA dependent RNA polymerase to make mRNA and replicate its genome

6. retrovirus (+ ss RNA)

• packages its own reverse transcriptase to make dsDNA

7. DS DNA Pararentovirus

• requires plant host reverse transcriptase to make dsDNA

ssDNA

- not many that infect humans

- positive strand – can make messanger RNA and multiply

3. Ds RNA

• - humans don’t have this, so require RNA dependent RNA polymerase
  • - necessary to make mRNA and genomic RNA
• - does not use + strand as mrna, needs to make it

4. + ss RNA

• - function as mrna -> can begin replication by itself

5. – ss RNA

Both 4 and 5 need to encode + carry RNA dependent RNA polymerase to replicate

6. Retrovirus

• - must make RNA into DNA -> nucleus -> make RNA that will replicate
• - its RNA does not work like mRNA

7. Ds DNA

• - wont ask?

classification of major groups of RNA viruses that cause human diseases

(+) sense RNA viruses

• picornaviridae
  • naked, polyhedral
  • 18-30 nm typical size
  • enterovirus (polio), rhinovirus (common cold), hepatovirus (Hep A)

etc. see picture for all

Classificaions of major groups of RNA viruses that cause human disease

Before Baltimore used classification

+ sense RNA

Picornavirus

- polio (enerovirus), hepatitis A (hepatovirus), common cold (rhinovirus)

flavivirus – yellow fever

- sense RNA

cont.