MCB 229 Spring 2000 Study Guide 17 Prof. Terry
Covers Lecture for April 13
This study guide is intended for you to use while you are
doing the assigned text reading. Quiz questions will be made with reference to
topics in this study guide. Quiz #17, based on questions from this study guide,
must be completed by midnight before the class on Thursday, April 13. You will
need to create your "myWebCT" account and visit the MCB 229 WebCT page in order
to access this quiz.
Chapter 18. Animal Viruses.
- There's a lot of information in this chapter. Focus on answering the
questions below. We will look at some general principles of animal viruses, then
concentrate on 4 specific examples: Polio, Herpes, Influenza, and HIV. As you
read, pay special attention to information relative to these 4 virus
families.
- Compare the host cell specificity of poliovirus and measles virus.
Which cells can each virus bind to? What type of biomolecules on the cell
surface are responsible for virus binding?
- How are the following viruses
classified in terms of: nucleic acid, enveloped or naked, capsid, and site of
virus assembly? Herpes simplex, Smallpox/Cowpox, Polio, HIV, Influenza.
- How
does animal virus entry into host cells differ from bacteriophage entry into
host cells? What are the 3 mechanisms for animal virus entry? By which mechanism
is a naked virus such as polio likely to enter? By which mechanism is an
enveloped virus such as influenza likely to enter?
- What is receptor-mediated
endocytosis? How does it differ from plain old endocytosis?
- Where does DNA
replication typically occur for DNA viruses? Are there any exceptions – if
so, which virus(es)?
- Where does RNA replication occur for RNA viruses? What
enzyme is required before "-" RNA viruses can express genes? Where does this
enzyme come from?
- What is a retrovirus? What type of nucleic acid is found
in retroviral virions? What does the enzyme reverse transcriptase do? What
happens to the nucleic acid that is produced from this enzyme?
- How are naked
virions typically released from a host cell? How are enveloped viruses typically
released from a host cell? For viruses that are released by "budding" out, which
membrane do they bud from? Are there exceptions – if so, which
virus?
- What is meant by "cytocidal infection"? By "cytopathic effect" (CPE)?
What are some common causes of CPE?
- What is meant by the following terms:
acute infection, persistent (chronic) infection, latent infection? What does a
"slow virus" disease mean?
- Can viruses cause cancer in animals? In humans?
Identify at least two types of human cancers caused by viruses.
- Skim the
sections on plant, fungi, algae, and insect viruses. You will not be tested on
this material.
- What is a viroid? What organisms do most known viroids
infect?
- What is a prion? What does PrP stand for? Where is it found? Note
that, although your text suggests several alternative possibilities for the
mechanism of action, the "abnormal conformation" hypothesis is currently the
dominant one. The presence of abnormal PrP seems to trigger a change in
conformation of normal PrP into an abnormally folded one, leading to
degeneration of tissues containing PrP – sort of a "domino" effect. What
are some of the diseases associated with
prions?
Chapter 36 (only pages listed below).
Selected Viral diseases.
- The remaining questions deal with specific viral diseases. Your text
includes this material in Ch. 36. You are only responsible for specific viruses
as listed below, although you may find it interesting to read through all of
Chapter 36 for your own edification.
- Pp. 739-740. What type of virus causes
chickenpox and shingles? How is it transmitted? What is a typical incubation
period? What tissues are infected and what are the symptoms of chickenpox? What
happens to the virus after the course of infection is finished? When and how do
people get shingles?
- Pp. 740-741. What group of viruses causes influenza?
How is it transmitted? What is a typical incubation period? What tissues are
infected and what are symptoms of flu? What happens to the virus after the
course of infection is finished? Why doesn't immunity protect you from further
infections of influenza?
- Pp. 746-752. [Note: There is much more detail in
this section than you need to remember. Be able to answer the questions below
– skim the rest.] What type of virus causes AIDS? Approximately how many
people worldwide are currently infected? How is AIDS virus transmitted? What
host tissues are infected? Study Fig. 36.10, which summarizes details of the
virus life cycle. Where does conversion of RNA to DNA occur? What happens to the
HIV provirus? How are new virions assembled? What is a CD4+ cell? What is
considered a "normal" CD4+ cell concentration (in cells/μl)? What is the
CD4+ cell level at which the CDC defines AIDS (in cells/μl)? Approximately
what % of white cell population has been eliminated at this point? Approximately
how long does it take from the time of initial infection to get to this CD4+
cell level? What are common causes of death in AIDS patients? What are the two
types of drugs that are currently used to control AIDS?
- Pp. 752-753 (cold
sores); pp. 755-756 (genital herpes); and p. 757 (infectious mononucleosis).
What virus family is responsible for these diseases? Which of these diseases can
recur? What happens to the virus in between acute infectious periods? What are
the symptoms of each disease? What is the incidence of each disease in the U.S.
population?