Download chapt28_lecture - OCC

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
page
12
page
13
page
14
page
15
page
16
page
17
page
18
page
19
page
20
page
21
page
22
page
23
page
24
page
25
page
26
page
27
page
28
page
29
page
30
page
31
page
32
page
33
page
34
page
35
page
36
page
37
page
38
page
39
Document related concepts

Carbapenem-resistant enterobacteriaceae wikipedia , lookup

Sexually transmitted infection wikipedia , lookup

Traveler's diarrhea wikipedia , lookup

Antibiotics wikipedia , lookup

Neisseria meningitidis wikipedia , lookup

Transcript 
Prokaryotes
Chapter 28
2
The First Cells
Prokaryote Video
Microfossils are fossilized forms of
microscopic life
-Oldest are 3.5 billion years old
3
The First Cells
Stromatolites are mats of cyanobacterial
cells that trap mineral deposits
-Oldest are 2.7 billion years old
4
The First Cells
Isotopic analysis of carbon-12 in fossils
suggests that carbon fixation was active
as much as 3.8 BYA
Biomarkers are organic molecules of
biological origin
-Lipids were found in ancient rocks
-This indicates that cyanobacteria are
at least 2.7 billion years old
5
Prokaryotic Diversity
Prokaryotes are the oldest, and structurally
simplest forms of life
Prokaryotes are ubiquitous
Less than 10% of species are known
Bacteria (also called eubacteria)
Archaea (formerly called archaebacteria)
-Many archaeans are extremophiles
6
Prokaryotic Features
Unicellularity
-Most are single-celled
-Some can form complex biofilms
Cell size
-Most are less than 1 mm in diameter
Chromosome
-Single circular double-stranded DNA
-Found in the nucleoid
7
Prokaryotic Features
Internal compartmentalization
-No membrane-bounded organelles
Flagella
-Simple in structure; spin like propellers
Cell division
-Most divide by binary fission
Genetic recombination
-Occurs through horizontal gene transfer
8
9
Prokaryotic Features
Metabolic diversity
-Two types of photosynthesis
-Oxygenic = Produces oxygen
-Anoxygenic = Nonoxygen producing
- E.g: Sulfur and sulfate
-Chemolithotrophic prokaryotes derive
energy from inorganic molecules
10
Marsh
• Detritus = Organic material
• Bacteria break down detritus through
anaerobic processes creating sulfur
dioxide = rotten egg smell.
11
Molecular Classification
12
Prokaryotic Shapes
Most prokaryotes have one of 3 basic shapes
-Bacillus = Rod-shaped
-Coccus = Spherical
-Spirillum = Helical-shaped
13
The Bacterial Cell Wall
Maintains shape and protects the cell from
swelling and rupturing
Consists of peptidoglycan
-Polysaccharides cross-linked with peptides
Archaea do not possess peptidoglycan
-Some have pseudopeptidoglycan
Cell wall is the basis of the Gram stain
14
The Bacterial Cell Wall
15
The Bacterial Cell Wall
Two main types
-Gram-positive bacteria
-Thick peptidoglycan
-Teichoic and lipoteichoic acids
-Gram-negative bacteria
-Thin peptidoglycan
-Have an outer membrane
-Contains lipopolysaccharide
16
The Bacterial Cell Wall
17
External Layers
S-layer
-A rigid paracrystalline layer found in some
bacteria and archaea
-Aids in attachment
Capsule
-A gelatinous layer found in some bacteria
-Aids in attachment
-Protects from the immune system
18
Bacterial Appendages
Pili
-Short, hairlike structures
-Found in Gram-negative bacteria
-Aid in attachment and conjugation
Flagella
-Long, helical structures
-Composed of the protein flagellin
-Involved in locomotion
19
Bacterial Appendages
20
Internal Structure
Nucleoid region
-Contains the single, circular chromosome
-May also contain plasmids
Ribosomes
-Smaller than those of eukaryotes and differ
in protein and RNA content
-Targeted by antibacterial antibiotics
21
Mutation
Mutations can arise spontaneously in bacteria
-Also caused by radiation and chemicals
Mutations (and plasmids) can spread rapidly
in a population
-Negative consequences for humans
-For example:
-Methicillin-resistance
Staphylococcus aureus (MRSA)
-Vancomycin-resistant
Staphylococcus aureus (VRSA)
22
Prokaryotic Metabolism
Acquisition of Carbon
-Autotrophs = From inorganic CO2
-Heterotrophs = From organic molecules
Acquisition of Energy
-Chemolithotrophs = From inorganic
chemicals
-Phototrophs = From sunlight
23
Prokaryotic Metabolism
Photoautotrophs
-Cyanobacteria
Chemolithoautotrophs
-Nitrifiers
Photoheterotrophs
-Purple and green nonsulfur bacteria
Chemoheterotrophs
-Majority of prokaryotes
-Use organic molecules for C and energy
24
Human Bacterial Disease
In the early 20th century, infectious diseases
killed 20% of children before the age of five
-Sanitation and antibiotics considerably
improved the situation
In recent years, however, many bacterial
diseases have appeared and reappeared
25
Human Bacterial Disease
Tuberculosis
-Mycobacterium tuberculosis
-A scourge for
thousands of years
-Afflicts the
respiratory system
-Mutidrug-resistant
(MDR) strains are
very alarming
26
Human Bacterial Disease
Dental caries (tooth decay)
-Plaque consists of bacterial biofilms
-Streptococcus ferments sugar to lactic acid
-Tooth enamel degenerates
Peptic ulcers
-Helicobacter pylori is the main cause
-Treated with antibiotics
27
Sexually transmitted diseases (STDs)
Gonorrhea
-Neisseria gonorrhoeae
-Can pass from mom to baby via birth canal
-Can cause pelvic inflammatory disease (PID)
Chlamydia
-Chlamydia trachomatis
-“Silent STD”
-Can cause PID and heart disease
28
Sexually transmitted diseases (STDs)
Syphilis
-Treponema pallidum
-Can pass from mom to baby via birth canal
-Four distinct stages
-Primary - Chancre
-Secondary - Rash
-Tertiary - Latency
-Quaternary - Heart and nerve damage
29
Sexually transmitted diseases (STDs)
30
Beneficial Prokaryotes
Prokaryotes are crucial to chemical cycles
-Decomposers release a dead organism’s
atoms to the environment
-Photosynthesizers fix carbon into sugars
-Nitrogen fixers reduce N2 to NH3
(ammonia)
31
Bacterial Decomposition in
Wastewater Treatment
32
Beneficial Prokaryotes
Prokaryotes may live in symbiotic
relationships with eukaryotes
-Mutualism = Both parties benefit
-Nitrogen-fixing bacteria on plant roots
-Cellulase-producing bacteria in animals
-Commensalism = One organism benefits
and the other is unaffected
-Parasitism = One organism benefits and
the other is harmed
33
Beneficial Prokaryotes
Bacteria are used in genetic engineering
- “Biofactories” that produce various
chemicals, including insulin and antibiotics
Bacteria are used for bioremediation
-Remove pollutants from water, air and soil
-Exxon Valdez oil spill
34
Beneficial Prokaryotes
35
Chapter 29 - Protists
• Protists are the most diverse of the four
eukaryotic kingdoms
– Unicellular, colonial and multicellular groups
•
•
•
•
Some are photosynthetic (like plants)
Autotrophic & Heterotrophic
Found anywhere in the water
Video Clip
36
37
38
39
Related documents
Figure 2.9 Cell division in prokaryotes occurs by binary fission. In
Figure 2.9 Cell division in prokaryotes occurs by binary fission. In
Document
Document
How Many Cells? - Yale School of Medicine
How Many Cells? - Yale School of Medicine
The Prokaryotes Simplest organisms All unicellular
The Prokaryotes Simplest organisms All unicellular
Prokaryotes VS Eukaryotes
Prokaryotes VS Eukaryotes
LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034
LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034
Chapter 27: Bacteria and Archaea Reading Guide Overview The
Chapter 27: Bacteria and Archaea Reading Guide Overview The
Viruses and Prokaryotes
Viruses and Prokaryotes
WISTR Content Teaching Goals: Microbial Life
WISTR Content Teaching Goals: Microbial Life
JEOPARDY - Life Sciences Outreach at Harvard University
JEOPARDY - Life Sciences Outreach at Harvard University
Document
Document
Ch19 Bacteria
Ch19 Bacteria