L31, L33- Viruses

Question 1

individual viral components self-assemble into a….

Answer 1

viron

Question 2

define viron

Answer 2

complete infectious form of virus outside of host cell

Question 3

describe the possible viral genomes

Answer 3

• RNA, DNA
• ss, ds
• linear, circular, segmented, haploid, diploid
• neg/pos sense

Question 4

viral genome is surrounded by (1), made of viral protein subunits, which will create (2)

Answer 4

1- capsomere, capsid

2- nucleocapsid

Question 5

viruses can be covered by an envelope which originates from (1) and functions to (2); it may also have an additional protein cluster layer termed (3)

Answer 5

1- host cell membrane
2- maintains aqueous soln
3- tegument

Question 6

a viral capsid is made up of one or more (1)s and are held together by (2)

Answer 6

1- capsomeres (subunits)

2- non-covalent, reversible hydrophobic or H-bonds

Question 7

list the general forms of nucleocapsid morphology

Answer 7

• icosahedral
• helical
• complex (non-symmetrical)

Question 8

list the various (4) functions of viral capsid proteins

Answer 8

• define tissue/species specific transmission by interaction with host receptors to facilitate host entry
• interact with viral nucleic acids for packing/assembling virus
• assist in viral/host gene regulation
• evade/block host immune system

Question 9

describe the components / characteristics of an Isohedral Capsid

Answer 9

• few proteins, 5 protomers form a pentamer
• limited amt of nucleic acids packaged inside
• forms independently from genome
• 5-3-2 axes of symmetry

Question 10

poliovirus has a ____ capsid

Answer 10

icosahedral capsid

Question 11

describe the components / characteristics of an Helical Capsid

Answer 11

• rod-like filamentous structure
• capsomeres bind to viral genome (in regular fashion)
• often ‘open-ended’, form around genome (cannot form empty)
• contains RNA genomes
• flexible nucleocapsids wound into ball, surrounded by envelope

Question 12

rhabdovirus is a _____ capsid

Answer 12

helical capsid

Question 13

bacterophages have a (1) capsids with the following components: (2)

Answer 13

1- complex symmetry

2- Head (nucleic acid, protein), Tail / contractive sheath, Tail fibers and pins, Base/End plate

Question 14

viral envelope is made of (1) derived from (2) via (3) or (4)

Answer 14

1- lipoprotein
2- host membrane
3- plasma membrane
4- nuclear, ER, or other internal membranes

Question 15

viral envelopes are poor in (1) but rich in (2)

Answer 15

1- host cell proteins

2- VAP (viral specific glycoproteins - viral attachment protein)

Question 16

viral envelopes are sensitive to….

Answer 16

organic solvents (EtOH, chloroform, ether), detergents, drying, acid, heat

Question 17

enveloped viruses are usually transmitted by…

Answer 17

secretions, large droplets, blood / sexual contact

Question 18

enveloped viruses usually have a _____ shape

Answer 18

spherical or pleomorphic (ability to alter shape)

Question 19

non-enveloped viruses are sensitive to…

Answer 19

nothing, relatively resistant to inactivation by organic solvents, detergents, drying, acid, heat

Question 20

non-enveloped viruses are usually transmitted by…

Answer 20

fecal/oral route, fomites, small droplets

Question 21

non-enveloped viruses are released by infected cell via…

Answer 21

cell lysis

Question 22

list the viral protein types

Answer 22

• VAP (viral attachement proteins) / peplomers
• viral polymerase
• matrix proteins
• immediate early phase, early phase, late phase proteins

Question 23

_____ are viral proteins that facilitate host cell entry

Answer 23

VAP (viral attachement proteins) / peplomers

Question 24

list the functions of viral matrix proteins

Answer 24

(present between nucleocapsid/envelope)

• stabilize organization of viral glycoprotein
• directs viral genome to intracellular sites of viral assembly
• facilitate virus assembly and budding

Question 25

after the initial infection of a virus into a host cell, the viral particles disappear in the (1) phase which coincides with (2) period, where (3) occurs; (1) is followed by (4) which ends in the release of viruses

Answer 25

1- eclpise
2- latent period
3- viral genome controls host cell protein machinery and directs it to produce viral components
4- maturation

Question 26

list the stages in viral replication

Answer 26

1) attachment
2) penetration
3) uncoating (release of nucleic acids)
4) macromolecular synthesis
5) posttranslational modifications
6) assembly
7) release (lysis of cell or budding out)

Question 27

list the steps that occur in the Macromolecular Stage of viral replication

Answer 27

1) EARLY mRNA and protein synthesis: proteins shut off host cells and replicate viral genome (if needed)
2) replication of genome
3) LATE mRNA and protein synthesis: structural proteins

Question 28

Early proteins function to (1)

Late proteins function to (2)

Answer 28

1- promote viral replication

2- provide structural assistance

Question 29

what are the 2 possible life cycles of bacteriophages

Answer 29

• Virulent / Lytic phage (kills host following infection)

- Lysogenic / Temperate phage (eventual return to Lytic phage): prophage and integration into host

Question 30

describe the Lysogenic / Temperate phage

Answer 30

• host is not immediately killed following infection
• phage genome –> prophage / provirus –> integration in host chromosome or as independent replicating entity equal to that of host genome

Question 31

define viral tropism and its factors

Answer 31

-limitation of virus to single organ / tissue / specialized cell type or a range of any

• VAPs in outer coat (envelope, capsid) target receptors on host cell (susceptibility)
• transcription factors allow expression of viral genes
• Permissivity: cell enzyme pathways to produce viral proteins

Question 32

list the 2 methods of penetration and uncoating-enveloped viruses

Answer 32

1) fusion

2) Endocytosis and acidification

Question 33

describe fusion as a penetration and uncoating-enveloped viruses technique

Answer 33

• virus glycoproteins attach to host cell receptors
• envelope-membrane fusion
• capsid enters, is uncoated, released into cytosol

Question 34

describe endocytosis and acidification as a penetration and uncoating-enveloped viruses technique

Answer 34

• host cell membrane engulfs virus including envelope
• capsid is uncoated
• increased acidity allows viral genome to escape endosome and enter cytoplasm

Question 35

list the 2 methods of penetration and uncoating non-enveloped viruses

Answer 35

1) direct entry across plasma membrane

2) endocytosis

Question 36

describe direct entry across plasma membrane as a penetration and uncoating non-enveloped viruses technique

Answer 36

• virus attaches to host cell receptor
• sinks into membrane
• injects genome through pore into the cell

Question 37

describe endocytosis as a penetration and uncoating non-enveloped viruses technique

Answer 37

• virus is engulfed
• capsule is uncoated
• viral genome leaves endosome into cytoplasm

Question 38

(T/F) capsid formation always undergoes self-assembly

Answer 38

F- some use chaperones to fold the capsomeres

Question 39

viral release occurs through a (1) or (2) mechanism

Answer 39

1- exocytosis: capsid uses cell membrane to form envelope laced with viral proteins (more common for enveloped viruses)
2- cell lyses (more common for non-enveloped viruses)

Question 40

describe the two viral enzymes that work against the Central Dogma of Biology

Answer 40

• RNA dependent DNA polymerase (reverse transcriptase): RNA –> DNA
• RNA dependent RNA polymerase (RNA replicase): neg. sense RNA –> pos. sense RNA

Question 41

describe the features of viral mRNA

Answer 41

• 5’-5’ N7-methylguanosine triphosphate cap

- poly-A tail (100-200 A residues)

Question 42

when viruses replicate in the cytoplasm instead, its mRNA can makes it own 5’ cap or….

Answer 42

create 3D RA structure known as Internal RIbosomal Entry Site Element (IRES)

Question 43

list the 4 ways to produce viral proteins via transcription

Answer 43

• individual mRNA for proteins (continuous genome)
• segmented genome
• one single long polyprotein –> cleaved into individual proteins
• frameshift- change reading frame to transcribe individual mRNA/protein

Question 44

in viruses that make long polyproteins, they are cleaved via (1) to make individual proteins, which is a key target for (2)

Answer 44

1- proteases

2- viral therapy (protease inhibitors)

Question 45

(1), aka (2) viruses cannot replicate without a helper virus; (3) is a great example

Answer 45

1- defective
2- satellite
3- Hep D / HDV

Question 46

describe components of HDV

Answer 46

• ssRNA
• only infects cells infected by HBV (helper virus)
• utilizes HBV surface antigen (HBsAg) for entry into host cell

Question 47

10-15% of Prion diseases, aka (1), are developed via (2) mutation on chromosome (3), but most are developed via (4)

Answer 47

1- transmissible spongiform encephalopathy
2- Autosomal Dominant
3- chr. 20
4- spontaneous (PrP-c –> PrP-Sc)

Question 48

____virus requires cells undergoing DNA synthesis to replicate

Answer 48

parvovirus

Question 49

____virus stimulates cell growth and DNA synthesis

Answer 49

papovavirus

Question 50

____virus stimulates cell growth, cell makes RNA intermediate, encodes RNA transcriptase

Answer 50

adenovirus

Question 51

____virus stimulates cell growth, encodes its own polymerase and enzymes to provide deoxyribonucleotides for DNA synthesis, establishes latent infection

Answer 51

herpesvirus

Question 52

____virus encodes its own polymerases and enzymes to provide deoxyribonucleotides for DNA synthesis, replication machinery, and transcription machinery in cytoplasm

Answer 52

poxvirus

Question 53

this group of viruses has (+) RNA genome reseembling mRNA and is transcribed into polyprotein; (-) RNA template is used for replication

Answer 53

picornaviruses, togaviruses, flaviviruses, caliciviruses, coronaviruses

Question 54

this group of viruses has (-) RNA genome as template for individual mRNAs and full-length (+) RNA template is required for replication

Answer 54

orthomyoxoviruses, paramyoxviruses, rhabdoviruses, filoviruses, bunyaviruses

Question 55

____viruses have (+/-) segmented RNA genome as mRNA template; (+) RNA can be encapsulated to generate (+/-) RNA –> more mRNA

Answer 55

reoviruses

Question 56

____viruses have (+) RNA that is converted into DNA and is integrates into host chromatin and transcribed as cellular genes

Answer 56

retroviruses

Question 57

briefly define the 7 viral groups via Baltimore Classification

Answer 57

I- dsDNA (+/-)
II- ssDNA (+ or -)

III- dsRNA (+/-)
IV- ssRNA (+)
V- ssRNA (-)

VI- ssRNA (+) Retrovirus (has reverse transcriptase)
VII- partial dsDNA (+/-) Retrovirus

Question 58

reverse transcriptase is also known as…

Answer 58

RNA dependent DNA polymerase

Question 59

Group I viruses have (+/-) (ss/ds) (DNA/RNA) genomes. They are (non-/enveloped) and replicate in (cytoplasm/nucleus)

Answer 59

1- both +/- strands
2- ds
3- DNa
4- both
5- nucleus

Question 60

Immediate early proteins function to (1). Early proteins then function to (2). Finally, Late proteins function to (3).

Answer 60

1- take over cell command
2- target genome replication
3- structural- translocate into nucleus to form capsule

Question 61

HSV is a group __ virus

Answer 61

Group I (+/-) dsDNA virus

Question 62

Group II viruses have (+/-) (ss/ds) (DNA/RNA) genomes. They are (non-/enveloped) and replicate in (cytoplasm/nucleus)

Answer 62

1- either +/-
2- ss
3- DNA
4- non-enveloped
5- nucleus

Question 63

Parvovirus is a group __ virus

Answer 63

Group II ssDNA virus

Question 64

in Group II viruses ssDNA is converted to dsDNA by (1) and produce virons containing (+/-) sense DNA genome

Answer 64

1- host factors and DNA polymerase

2- either pos./neg. sense

Question 65

Group III, IV, V viruses all have (DNA/RNA) genomes and utilize (2) for transcription and replication, skipping (3) intermediates

Answer 65

1- RNA genomes
2- RNA-dependent RNA polymerase
3- DNA intermediates

Question 66

only group (III, IV, V) viruses can be translated by host machinery

Answer 66

Group IV (+) ssRNA viruses (although replication is still through RNA-dependent RNA polymerase)

Question 67

Group III viruses have (+/-) (ss/ds) (DNA/RNA) genomes. They are (non-/enveloped) and replicate in (cytoplasm/nucleus). Their genome is also termed (6) due to its structure.

Answer 67

1- (+) and (-)
2- ds
3- RNA
4- non-enveloped
5- cytoplasm
6- segmented

Question 68

Rotavirus is a group __ virus

Answer 68

Group III (+/-) dsRNA virus

Question 69

Group IV viruses have (+/-) (ss/ds) (DNA/RNA) genomes. They are (non-/enveloped) and replicate in (cytoplasm/nucleus)

Answer 69

1- (+)
2- ss
3- RNA
4- either
5- cytoplasm

Question 70

Poliovirus is a group __ virus

Answer 70

Group IV (+) ssRNA virus

Question 71

(+) ssRNA genome has a (1) instead of a cap and is translated into (2)

Answer 71

[Group IV]
1- IRES (Internal RIbosomal Entry Site Element)
2- one single long polypeptide (includes RNA-dep. RNA poly.)

Question 72

Group V viruses have (+/-) (ss/ds) (DNA/RNA) (non-/segmented) genomes. They are (non-/enveloped) and replicate in (cytoplasm/nucleus)

Answer 72

1- (-)
2- ss
3- RNA
4- either segmented or continuous
5- non-enveloped
6- cytoplasm

Question 73

Rabes virus is a group __ virus

Answer 73

Group V (-) ssRNA virus

Question 74

Group VI viruses have (+/-) (ss/ds) (DNA/RNA) genomes. They are (non-/enveloped) and replicate in (cytoplasm/nucleus)

Answer 74

1- (+) 
2- ss
3- RNA
4- enveloped
5- nucleus
[RETROVIRUSES}

Question 75

HIV is a group __ virus

Answer 75

Group VI (+) ssRNA retrovirus

Question 76

what is a provirus

Answer 76

when viral genome is integrated into host genome (8% of human genome is from viral origin- possibly tumorigenic)

Question 77

Group VII viruses have (+/-) (ss/ds) (DNA/RNA) genomes. They are (non-/enveloped) and replicate in (cytoplasm/nucleus).

Answer 77

1- (+/-)
2- partial ds (partial ss)
3- DNA
4- enveloped
5- nucleus

Question 78

HBV is a group __ virus

Answer 78

Group VII partial (+/-) dsDNA retrovirus

Question 79

why can HBV cause chronic hepatic infection that can lead to hepatocellular carcinoma (HCC)

Answer 79

HBV DNA (partial dsDNA retrovirus) integrates into hepatocyte –> which can be tumorigenic in nature

Question 80

HDV is a group __ virus

Answer 80

Group V (-) ssRNA virus: requires HBV envelop proteins for infection

Question 81

(T/F) DNA viruses are more stable than RNA viruses

Answer 81

T- RNA virus are more error prone and mutate at a faster rate

Question 82

what is complementation of viruses

Answer 82

• 2 viruses infect host cell simultaneously
• both have defective functions in different gene locations
• both propagate b/c they can rescue each other’s defective function (complementation)
• combo progeny virus with no defective functions

Question 83

define Antigenic Drift

Answer 83

usually RNA genomes, evolution due to small incremental changes/mutations to genome (slower than Antigenic Shift)

Question 84

define Antigenic Shift

Answer 84

usually segemented viruses (notably influenza viruses) exchange RNA segments (reassortment) => highly pathogenic (reassorted) strain virus

Question 85

describe the two types of phenotypic mixing of viruses

Answer 85

1) Phenotypic Mixing / Transcapisidation: genome of one virus randomly incorporates into capsid from a different or combination of both viruses
2) Pseudotypes: nucleocapsid of virus acquires envelope from another virus type

Question 86

define viral recombination

Answer 86

recombination of viruses infecting the same host- exchanging segments of DNA/RNA (i.e. HSV-1/2)