Viruses and Bacteria
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Transcript Viruses and Bacteria
Viruses and Bacteria
Chapter 18
Remember the requirements of
living things
Made of Cells
Reproduce
Use energy, Grow and Develop
Homeostasis
Heredity/Pass of Traits
Adapt to Environment/Evolve
Interdependence
Not Alive?
Not made of cells
Segment of nucleic acid in a protein coat
No respiration, growth and development
Viruses – Latin for
“poison”
Very small
Cause disease –
pathogens
Infect cell and use
it to reproduce
Discovered in 1835
Variety of shapes
Naming Viruses
1. After disease they cause
Rabies viruses
Poliovirus
2. After organ or tissue they infect
Adenovirus = adenoids
3. Most now have genus ending in “virus”
4. Code numbers for similar viruses
Escherichia coli has T1 to T7 (T = type)
5. If infects bacteria = bacteriophage or
phage
Structure
Protein coat (capsid)
may contain RNA or
DNA but not both
RNA – AIDS, Flu,
Rabies
DNA – Warts,
Chickenpox,
Mononucleosis
May have a
membrane (envelope)
surrounding capsid to
help it enter cells
Attachment is Specific
Virus must attach
before it can infect
Protein coat of virus
attaches to protein
on host cells surface
Attachment protein
for each virus is very
specific
Polio virus only
infects intestine
and nerve cells
Smallpox only
infects humans
Viral Reproduction
Have to use host cells for replication
May enter plant cells through points of
injury and animals by endocytosis
Lytic Cycle
Viral infection, replication and cell
destruction
Lysogenic Cycle
No new viruses made
Provirus – viral gene inserted in host
chromosome with copies made when cell
divides
Change in environment may cause lytic
cycle to start
Symptoms of Proviruses
Because lysogenic in
reproduction it can
remain in cells until a
flare up
Herpes simplex I =
coldsores
Herpes Simplex II =
genital herpes
Hepatitis B =
hepatitis B
Chicken Pox virus can
later cause shingles
(painful infection of
some nerve cells)
Retroviruses
Only have RNA, no DNA
Makes DNA from RNA using reverse
transcriptase it carries
DNA placed into host DNA and becomes provirus
If person has reverse transcriptase in them it
means they have been infected with a retrovirus
HIV
How HIV Infects Cells
Attachment
Virus surface studded
with glycoproteins
Fits human cell
receptor CD4
Humans have CD4 on
immune system cells
called lymphocytes
and macrophages
Entry into Macrophages
Matches both the CD4 and CCR5 so can enter
Lymphocytes do not have CCR5 so can’t enter until
later
Replication
Inside the capsid
comes apart and
releases RNA
Reverse
transcriptase in
virus makes a DNA
version of the RNA
(lots of mistakes so
lots of mutations)
Viral DNA inserts
into host DNA and
makes copies of
itself
New viruses bud
out without killing
cell
AIDS
Continues to replicate
and mutate for years
Eventually recognize
glycoprotein on
lymphocyte called T cells
T cells are destroyed
T cells are important in
immune system, without
them you can’t fight off
other diseases
Spread through semen
or vaginal fluid not
casual contact
Other Viral Diseases
Influenza – Flu Virus
Upper respiratory infection
1918 – 1919 22 million Americans and Europeans
die
36,000 per year estimate now
Cancer
Hepatitis B = liver
cancer
Epstein-Barr =
Burkitt’s lymphoma
Human Papilloma
Virus = cervical
cancer
Smallpox
variola virus
Humans only natural host
Prolonged face-to-face contact, bodily fluids,
air in enclosed spaces, contaminated objects
Fever, red spots on tongue, rash to bumps
that have a belly button look to feeling like
BB pellets under skin
30% die; survivors may go blind and have
scars
Vaccines led to eradication
Last natural case = 1977
Lab acquired case = 1978
Emerging Diseases
1999 – West Nile
Virus
Spread by mosquito
mild flu-like symptoms
In elderly possible
inflammation of brain
Hanta Virus
Southwest United States
38% death rate
Prions and Viroids
Prion
Folded proteins but no
nucleic acids
Mad Cow Disease
Creutzfeldt-Jakob Disease
Viroids
Single strand of RNA with no
capsid
Hepatitis D
18.2 Archaebacteria and Eubacteria
Prokaryotes
No Internal Compartmentalization – no
nucleus or organelles
Cell size generally smaller
All are single celled
Single circular strand of DNA
Reproduce by binary fission
Simpler flagella than eukaryotes
More metabolic diversity – can survive without
oxygen
Structure & Reproduction of
Bacteria
Cell wall keeps it from bursting
May Reproduce by Binary Fission
Simple asexual reproduction by dividing in two
May happen every 20 minutes
May Reproduce by Conjugation
Form of sexual reproduction where 1 bacterium
transfers all or some of its genetic material to another
New genetic combination
Bacterial Cell
Shapes
Bacillus - rod
Coccus - round
Spirillum - spiral
Strepto – form
strands
Staphylo - clusters
Strep Throat
group A
Initial symptoms
streptococcus
Other symptoms
after 3 days
Fever, stomach pain, and
red, swollen tonsils
Red and white patches in
throat, difficulty
swallowing, headache
Rapid test
If positive 10-days
antibiotics
If untreated more
sever sickness may
occur
Gram-staining – dye
reacts with cell wall
Gram positive or Gram
negative
Antibiotics –
interfere with life
processes of
bacteria
Chapter 19 Protists
Protist
Uni- or multicellular
Microscopic or very large
Heterotrophic or autotrophic
All Eukaryotes – have membrane bound
organelles
Can cause diseases like malaria or sleeping
sickness
Protozoa 19.1
Animal-like so heterotrophs
All unicellular
Protozoa: Amoebas
Use pseudopodia for
movement and
feeding
No cell wall
Asexual Reproduction
Protozoa: Flagellates
Have one or more
flagella
Harmful and
beneficial
African sleeping
sickness
Termite symbiosis
Protozoa: Ciliates
Use cilia to move
Asexual or like
conjugation
Paramecium
Protozoa: Sporozoans
Most reproduce using
spores
Reproductive cells
develop without
fertilization
All are parasites
Malaria
Algae 19.2
Plant-like autotrophs using photosynthesis
No roots, stems, or leaves
Unicellular (a.k.a. phytoplankton) or
multicellular
Fungus-like Protists 19.3
Decompose organisms
Can move and contain no chitin in cell wall