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1. Bacteria Professor Mark Pallen
3. Importance of Bacteria Life is microbial! (to the first approximation)
Micro-organisms colonise every environment on earth
>80% of lifes history was bacterial
You have more bacterial cells than human cells
Microbes play a key role in the biosphere
Pathogenic microbes globally are the most important cause of human disease and death
4. Importance of Infection Decisive role in history
Still major cause of death and misery worldwide
Public anxieties
Meningitis, Food poisoning
Mad cow disease
Emerging infections
Hospital Infection
Antibiotic-Resistant Superbugs
5. Microbes in History
6. Microbes in History
7. Microbes in the News
8. Microbes in the News
9. Microbes in the News
10. Microbes in the News
11. Differences between Bacterial and Human Cells Bacterial cells
No nucleus
No intracellular organelles (but ribosomes)
No introns (nearly)
No junk DNA
Plasmids, bacteriophage
Human cells
Nucleus
Intracellular organelles (ribosomes subtly different)
Introns
Lots of junk DNA
Viruses
12. Tree of Life
13. Size matters
14. Bacterial cells
15. Differences between bacteria and viruses Viruses
Obligate intracellular parasites
No ribosomes
DNA or RNA, not both
seen by EM
10-100s of genes
Tangled phylogeny Bacteria
Usually free-living, but can be parasites
Ribosomes
DNA and RNA
seen by LM
100s-1000s of genes
Natural phylogeny
16. The Gram stain procedure
20. Bacterial Growth Solid media or liquid media
Agar plates, slopes, broth culture
Atmosphere:
Aerobic, anaerobic or microaerophilic
Facultative or obligate anaerobes
Usually at 37 degrees C
Most clinically important bacteria grow overnight, or within a few days
Mycobacteria can take months
Some can not be grown
21. Gram-Negative Rods Enteric Bacteria
E. coli
Salmonella
Shigella
Yersinia
Pseudomonas
Proteus
Vibrio cholerae
Klebsiella pneumoniae
22. Gram-Negative Rods Fastidious GNRs
Bordetella pertussis
Haemophilus influenzae
Campylobacter jejuni
Helicobacter pylori
Legionella pneumophila
Anaerobic GNRs
Bacteroides fragilis
Fusobacterium
23. Gram-Negative Cocci Neisseria gonorrhoeae
The Gonococcus
Neisseria meningitidis
The Meningococcus
Both Gram-negative intracellular diplococci
24. Gram-positive Cocci Staphylococci
Catalase-positive
Gram-positive cocci in clusters
Staphylococcus aureus
coagulase-positive
Staph. epidermidis
and other coagulase negative staphylococci
25. Gram-Positive Cocci Streptococci
Catalase-negative
Gram-positive cocci in chains or pairs
Strep. pyogenes
Strep. pneumoniae
Viridans-type streps
Enterococcus faecalis
26. Gram-Positive Rods Clostridia
Anaerobes
C.perfringens
C. tetani
C. botulinum
C. difficile
Bacillus cereus
Aerobe
Listeria monocytogenes
Faculative anaerobe
27. Non-Gram-stainable bacteria Unusual gram-positives
Spirochaetes
Obligate intra-cellular bacteria
28. Unusual Gram-positives Mycoplasmas
Smallest free-living organisms
No cell wall
M. pneumonia, M. genitalium
Mycobacteria
Acid-fast bacilli, stained by Ziehl-Neelsen stain
M. tuberculosis
M. leprae
M. avium
29. Spirochaetes Thin spiral bacteria
Viewable by phase-contrast microscopy or silver stain
Treponema pallidum
Borrelia burgdorferi
Leptospira
30. Obligate intracellular bacteria Rickettsia
Coxiella burneti
Chlamydias
C. trachomatis
C. pneumoniae
C. psittaci
31. Outline Importance of bacteria
Nature of bacteria
Classification of bacteria
Gram-positive versus Gram-negative
Rods and Cocci
Aerobic versus anaerobic