General Virology - PowerPoint PPT Presentation

About This Presentation
Title:

General Virology

Description:

Helical vs Icosahedral Symmetry - Why do most viruses look alike? ... Viral property that varies depending on the host ... Chemical synthesis of poliovirus: ... – PowerPoint PPT presentation

Number of Views:1764
Avg rating:3.0/5.0
Slides: 28
Provided by: judyk5
Category:

less

Transcript and Presenter's Notes

Title: General Virology


1
General Virology
VIRUS STRUCTURE
2
Virion vs virus
  • Virion is the infectious particle
  • composed of nucleic acid, protein capsid, /-
    envelope
  • may be extracellular or intracellular
  • Virus is any stage of infection

3
How do we know that NA is genetic material?
Hershey-Chase
Fraenkel-Conrat Experiment
TRANSFECTION EXPTS
4
TRANSFECTION FAILS FOR SOME VIRUSES
  • WHY?

5
Capsid
  • Functions
  • Protection of NA
  • Attachment for naked viruses
  • Enzyme
  • Helical vs Icosahedral Symmetry - Why do most
    viruses look alike?
  • Tobacco mosaic virus is a ssRNA virus composed of
    6000 nucleotides. The capsid is made of 2100
    copies of a single protein subunit that contain
    158 amino acids. Calculate the percentage of the
    genome that is used for structure.

6

How do helical viruses differ?
  • Helical- one axis of symmetry down center
  • Multiple structural units

7
Icosahedral symmetry
  • 20 identical equilateral triangles
  • Structural units on faces to give morphological
    capsomers
  • Pentons (5 fold axis of symmetry)
  • Hexons
  • 3 fold through face
  • 2 fold through edge

How do spherical viruses differ?
8
Envelope
  • Attachment
  • Entry
  • Assembly- matrix proteins
  • Release
  • Proteins are viral
  • Lipids are host
  • Rare in plants or bacteria - why?
  • If the membrane envelope is destroyed, the virus
    becomes noninfectious. Why?

9
Herpesvirus complexity
  • Tegument proteins - 12/84 viral proteins in HSV
  • Potential role?
  • Virion mRNA
  • DNAase virion nucleic acids
  • RT-PCR
  • probe genome array
  • Potential role?

10
Genome - DNA or RNA
  • strandedness - (single) (double)
  • linear or circular, partial double stranded
    circle
  • number (single, segmented, multicomponent)

How do we experimentally show that DNA or RNA is
the virus genetic material?
11
RNA Genomes
  • sense (positive-sense, negative-sense, ambisense)
  • presence or absence of 5'-terminal cap or
    5'-covalently-linked protein
  • presence or absence of 3'-terminal poly (A) tract
  • Retroviruses - replication strategy

12
Some viruses have high degree of secondary
structure
  • Poliovirus - 5 internal ribosome entry site
    (IRES)

Guest et al. 2004. J. Virol. 78 11097.
13
SARS/coronaviruses have conserved 3region
  • SARS s2m in red
  • a - green 530 loop of 16S RNA
  • Similar binding properties
  • b - blue S12
  • magenta IF1
  • Possible role for s2m
  • Hijacks protein synthesis from cell(binding cell
    factors)
  • Needed to bind to similar viral protein for
    transcription
  • Potential drug target in red tunnel

Robertson et al. 2005. PLOsBiology3.
14
DNA Viruses may be large genomes
  • PolyDNAvirus (PDV) - contain many DNA segments
  • Mimivirus - larger than small bacteria

15
Host-induced modification
  • Viral property that varies depending on the host
  • Phage DNA hydroxymethyl cytosine (HMC) replaces C
  • Viral enzymes C to HMC
  • Viral DNA polymerase adds HMC not C
  • What is advantage of HMC?
  • Glucose is attached to HMC
  • Host enzyme needed to prepare glucose
  • Protects against host nuclease

16
  • What would happen if virus without glucose enters
    host with RE?
  • What would happen if virus with glucose enters
    host w/o enzyme to create UDP- glucose?

Host enzyme makes
17
Proteins
  • structural proteins
  • non-structural virion proteins
  • transcriptase,
  • protease
  • integrase

18
How to identify virion proteins
  • Purify KSHV virions
  • Run on SDS PAGE
  • Excise bands, digest - get sequence and compare
    to database

19
Chemical synthesis of poliovirus What are the
implications?
  • Small genome positive strand RNA - sequence known
  • Synthesized small DNA segments ( 69 nucleotides)
    with overlapping complementary segments
  • Added a T7 phage promotor to DNA
  • Used DNA to make genome RNA in HeLa cell lysate
    with T7 polymerase
  • Results How do you show success?

20
(No Transcript)
21
(No Transcript)
22
International Congress on Taxonomy of Viruses
http//www.ncbi.nlm.nih.gov/ICTV/
  • Morphology
  • virion size
  • enveloped or naked nucleocapsid
  • capsid symmetry and structure
  • Genome characteristics
  • Replication strategy
  • Antigenic Properties

23
Baltimore classification
24
WHY TRANSFECTION FAILS
25
ONE STEP GROWTH CURVE
  • 1939- Ellis and Delbruck
  • Infection with a high multiplicity of infection
    (MOI) ratio of virus to host cell
  • Simultaneous infection
  • Single replication cycle
  • Sample at time intervals by plaque count for
    plaque-forming units (PFU),
  • Identification of latent phase
  • Determination of burst size/viral yield

26
Measuring Intracellular Events
  • Sample at time intervals after lysing cells (1952
    - Doermann)
  • Chloroform
  • Lysis from without
  • Identification of eclipse and maturation phases

Maturation phase
27
(No Transcript)
28
  • Strategy of replication
  • Lytic
  • Temperate

29
Biologic Properties
  • natural host range
  • mode of transmission in nature
  • vector relationships
  • geographic distribution
  • pathogenicity, association with disease
  • tissue tropisms, pathology, histopathology

30
How can you identify these viruses?
Write a Comment
User Comments (0)
About PowerShow.com