Bacteria

Question 1

What are the different collony shapes of Cocci and Rods?

Answer 1

Cocci - single, chains, pairs, clusters, 4s and 8s

Rods - single, chains, curved, club shaped, pairs, helical, filamentous

Question 2

What is the Bacterium plasma membrane made of?

Answer 2

-hopanoids-stabilise membranes
-proteins
-carbs

Question 3

What is the structures of a Gram positive bacteria cell wall?

Answer 3

-thick layer of peptidoglycan
-permeable, can let things through

Question 4

Whats the advantages of being Gram +ve or -ve?

Answer 4

+ve - evade desiccation
-ve - evade complaments

Question 5

What is the structures of gram -ve bacterium?

Answer 5

Single layer of peptidoglycan
second outer membrane with lipopolysaccharide -retain water

Question 6

What does lipopolysaccharides (O-antigen) do?

Answer 6

protects agains complements and MAC - act as immune defence

Question 7

What is the difference between mono/amphi/lopho/peritrichous flagellum?

Answer 7

• monotrichous - 1 flagellum at 1 end
• amphitrichous - 1 flagellum at either end
• lophotrichous - bundle of flagella at one end
• peritrichous - flagella all around the cell

Question 8

What is the importance of endospores?

Answer 8

Metabolically inactive, resistant form of bacteria which surivives the enviroment

Question 9

What are the needs of simple and complex (fastidious) bacterium?

Answer 9

Simple - glucose, phosphate, sulphate, ammonium ions
Complex - growth factors- aa, fa, vitamins, nucleotides

Question 10

What are the optimal temp and pH for bacterium?

Answer 10

35-37 degrees- mammals
25 degrees- cold blooded hosts
40 degrees- birds
pH neutral or slightly alkaline

Question 11

Whats is the difference between microaerophilc and factulatively anaerobic bacteria?

Answer 11

microaerophilc need a small concentration of oxygen to grow
factulatively anaerobic can grow with or with out oxygen

Question 12

What causes Microaerophiilic bacteria to die due to too much oxygen?

Answer 12

• metabolism releases hydrogen peroxide or superoxide radical
• micro doesnt have much catalse or superoxide dimutase so the cell is bleached and dies

Question 13

What is Permease?

Answer 13

channel proteins carrying certain substrates only

Question 14

How is iron uptake done?

Answer 14

done by siderophores by removing iron binding proteins from blood cells

Question 15

What are the types of bacterial fermentation and what are the importance of them?

Answer 15

-Lactic acid, Ethanol, butyric acid, mixed acid, butanediol, propanoic acid
-they have different smells and can be used to determine the type of bacteria

Question 16

What are haemolytic bacteria?

Answer 16

Bacteria that destroy blood cells

Question 17

What are the types of medium used to grow bacteria?

Answer 17

• Nutritionally simple e.g. agar
• Enriched such as blood agar
• Selective media that cause inhibition of other bacteria & specific enrichment of wanted bacteria
• Differential media that cause visual differentiation of bacterial colonies

Question 18

Whats the difference between exogenous and endogenous?

Answer 18

Exo are from enviroment or other hosts
endo are from animals own commensal flora

Question 19

What are Faculative pathogens?

Answer 19

harmless saprophytes but do have the facility to be pathogenic given the host condition have altered

Question 20

How does E.coli and Staph. aureus become pathogenic?

Answer 20

if they enter the an area where they are not found, they can cause peritonitis, abscesses or speticaemia depending on where it is now found

Question 21

What factors can cause facultative bacteria to become pathogenic?

Answer 21

new body site
altered body site (temp, pH or flora)
reduced defences

Question 22

What can alter commensal flora?

Answer 22

antibiotics

Question 23

What reduces defences to bacteria?

Answer 23

• Extremes of age, malnutrition, immunosuppressive drugs or primary infection
• Stress → transport, crowding, temp extremes, wounding, fatigue, feed changes

Question 24

How does stress in cattle transport cause pneumonia?

Answer 24

Shipping fever → Transporting cattle → stress and cortisol release → reduced immune and primary respiratory viral (parainfluenza virus) → damaged alveolar macrophages → susceptibility to secondary bacterial (Mannheimia haemolytica) → pneumonia

Question 25

What is pathogenicity?

Answer 25

ability of a bacterial species to cause disease

Question 26

What is Virulence?

Answer 26

degree of pathogenicity with a particular bacterial

Question 27

What are Virulence determinants?

Answer 27

structural features or biochemical overcome and evade host defences

Question 28

How do bacteria invade hosts?

Answer 28

• multiply at skin/mucous membrane surface
• Superficial invasion of skin/mucous membrane
• Deeper invasion of body via blood/lymph systems

Question 29

How do bacteria evade the complement system?

Answer 29

• avoid triggering - hide antigens under bacterial (capsule) or host material (fibrin)
• Trigger cascade but avoid effect - Steric hinderance of formation of the MAC
• Mutate and avoid antibody recognition
• Prevent compliment activation

Question 30

How can bacteria avoid triggering the complement cascade

Answer 30

• No receptor on bacterium for antibody - lower recognition
• Capsule and LPS
• Staphylococcus converts fibrinogen to fibrin using coagulase so it can hide and look like host (some species though)

Question 31

What does lots of fimbrae do in immune evasion?

Answer 31

• Hold on tight to epithelium
• Prevent uptake by macrophages and digestion

Question 32

What can bacteria do to avoid the non-specific immune system?

Answer 32

Produce chemicals to
- Repels phagocytes or inhibit chemotaxis
- Prevent phagocyte activity (leukostains)
- Kills phagocytes (leukocidins)

Question 33

What host factors control bacterium growth?

Answer 33

• Restriction of iron
• Bile in the intestine
• Oxygenation and the lysosome

Question 34

How can bacteria evade the host immune system?

Answer 34

• Use fibrin to look like the host
• Need to mutate to not look like themselves
• Invade the host to hide
• Need to rely on those around them

Question 35

What happens if bacteria and Protazoa mix in the enviroment?

Answer 35

Protozoa can graze on bacteria and then bacteria if they survive can hide in the protozoa

Question 36

What is biofilm?

Answer 36

collection of microbes living on a surface in a complex community

Question 37

How is biofilm formed?

Answer 37

1. bacteria attach to surface using fimbrae
2. make polysaccharide capsule material
3. bacteria and yeast come and join in
4. big 3D structure formed. Anaerobic on inside and aerobic on outside
5. bacteria can detach or large bits of biofilm can detach

Question 38

How do bacterial heart blockages form?

Answer 38

-staphylococcus/streptococcus can grow
-attach, grow and block
-shedding of streamers from mature biofilm causes distal blockages
-caused by dental plaque, oral surgery, bacteraemia and transient bacteraemia

Question 39

What are biofilms resistant to?

Answer 39

Disinfectants
antibiotics

Question 40

How can a bacterium protect a whole biofilm?

Answer 40

Beta lactamase production by some bacteria protect all

Question 41

How can you prevent biofilm formation?

Answer 41

-stop bacteria getting into blood
-change catheters

Question 42

How does bacteria cross the skin barrier?

Answer 42

• Active penetration: Digest their way in
• Passive penetration via wounds, hair follicles & sweat glands
• Via arthropod vectors such blood sucking sucking

Question 43

How do bacteria cross mucous membranes?

Answer 43

• Produce mucinase to digest mucin
• Move via chemotaxis (move towards a concentration gradient of nutrients)
• Take up iron via iron-binding siderophores which is important in growth
• Use adhesins to stick to the surface

Question 44

What are the specific and non-specific adhesins?

Answer 44

non-specific - Hydrophilic/hydrophobic adhesins
Specific - Lipoteichoic acid, capsular material, fimbrial proteins

Question 45

What do bacteria in the respiratory tract produce?

Answer 45

Bacteria produce ciliostatic & ciliotoxic products

Question 46

What do bacteria in the urinary tract produce?

Answer 46

Urease production

Question 47

What is the sneaky bacteria invasion?

Answer 47

• Bacteria attach to the target cell via adhesins
• Stimulate endocytosis of the cell causing it to take up bacteria
• Leads to intracellular survival of bacteria
• Bacteria survive in a phospholipid bilayer surrounded endosome within the host cell
• They are protected from the immune system and take up nutrients

Question 48

How can bacteria be taken up by epithelium from circulation?

Answer 48

• Bacteria can be taken up from the epithelium and then multiply in the epithelial cell before exiting at the bottom of the epithelial cell into the body
• Or bacteria can be taken up across Peyer’s patches within M-cells that would normally sample antigen. Once inside they get taken up by macrophages which provide a way bacteria can be carried around the body

Question 49

What allows bacteria to invade deeper?

Answer 49

transcytosis

Question 50

What is bacterial chromasomal DNA?

Answer 50

• Principal DNA - encodes all key functions
• Nuclear region
• 1 copy of either circular or double stranded supercoiled chromosome

Question 51

Whats the importance of non-chromasomal DNA?

Answer 51

mate by giving non chromosomal DNA portions

Question 52

What are plasmids

Answer 52

• Extra chromasomal circular DNA
• Idependeent in replication
• usually codes for auxillary genes but addiction mechanisms exist - dies if loses plasmid
• there more than 1 type per cell
• Each plasmid has copys

Question 53

What are the 5 types of plasmids?

Answer 53

R-resistance; V-Virulence; Col-colicin; F-fertility;D-degradative

Question 54

What are the structure of transposons?

Answer 54

• Have inverted repeats at the end of the molecule which bind to bits of bacterial DNA
• Encode transposase which is an enzyme to cut themselves out of bacterial DNA once they’ve replicated

Question 55

How does transposon intergration occur?

Answer 55

Transposons incise their inverted repeats which then is incised into the host chromosome or plasmid. Different transposons recognise different base sequences because of their different inverted repeats

Question 56

How does bacterial genetic variation lead to evolution?

Answer 56

• Can lead to changes in virulence
• Can confer resistance to host defences & treatments

Question 57

What are the 5 main ways of variation in resident genome?

Answer 57

• Lead to multiple similar genes
• Via silent gene fragments
• Gene/promoter inversion
• Transposon activity
• Spontaneous mutations

Question 58

What are the 3 methods of recombination in bacteria?

Answer 58

Transformation, generalised & specialised transduction & conjugation

Question 59

What happens during transformation?

Answer 59

• Cell death & lysis
• This releases plasmids & chromosomal fragments
• These are taken up by other bacteria
• Plasmids act alone
• Chromosomal fragments integrate into the chromosome

Question 60

What are requirements of bacterial transformation?

Answer 60

• No expansion of the population with a particular gene the gene just moves host
• Extracellular DNA is subject to degradation, so bacteria need to be competent to take DNA up
• Gene transfer involves low numbers and is random
• Intracellular DNA is subject to degradation by bacteria
• Homology is required for chromosomal DNA to loop in

Question 61

What is phage conversion?

Answer 61

A minority of bacterial virulence determinants e.g. some toxins are surface antigens are usually encoded by bacteriophage DNA not host DNA. The phenotypic expression of such phage products during lysogeny is phage conversion

Question 62

What are bacteriophages?

Answer 62

viruses that infect bacteria

Question 63

What is the lytic life cycle of bacteriophage?

Answer 63

phage DNA enters cell → host mechanism shut down under phage control → phage replication and capsid production → progeny phage assembled → host cell lyses and new phage particles releasaed

Question 64

What is the lysogenic life cycle of bacteriophage?

Answer 64

phage DNA enters host → site specific integration pf phage DNA into host chromosome or a plasmid → silent prophage replicates with host DNA → stimulus prophage excision occurs dollowed by phage entering lytic life cycle

Question 65

What is transduction and the difference between specialised and general?

Answer 65

packaging error - phage picks up host DNA (chromasome fragment/plasmid) by mistake
- phage DNA packaged - specialised transduction
- Host DNA only - generalised transduction