Bacterial genetics

Question 1

What are the 4 reasons for studying prokaryotic genetics?

Answer 1

• Provides a basic understanding of molecular biology + genomics and where research came from etc
• Bacteria fundamental to human health + disease so understanding of genetics = important
• Bacterial ecology; what bacteria are in environment, how do they interact etc.
• Applications to biotechnology; manipulating bacteria for human uses.

Question 2

History of genetics - who was involved and when?

Answer 2

1. Lamarck, 1800 -> species aren’t fixed.
2. Darwin, late 1800s -> “Origin of species”
3. Beadle and Tatum 1941 -> “One gene, One enzyme”
4. etc
   2003 = human genome project -> current = post genome era.

Question 3

What is the definition of bacterial genetics?

Answer 3

Bacterial genetics = study of mechanisms of heritable information in bacteria.

Question 4

What are the 4 mechanisms studied in bacterial genetics?

Answer 4

Studying:
- Chromosomes
- Plasmids
- Transposons
- Phages

Question 5

What techniques can be used to study bacterial inheritance mechanisms?

Answer 5

Techniques:
- Culture in defined media
- Replica plating, mutagenesis, transformation, conjugation and transduction

ALL = methods of moving genes around.

Question 6

What is the abundance of bacteria in the world?

Answer 6

30% of DNA on earth = bacterial
Vast majority of organisms = archaea or bacteria etc (single celled organisms)

Question 7

Spread of cells in the body eukaryotic vs bacterial?

Answer 7

Aprx bacterial cells = eukaryotic cells in body.

Question 8

What are the 6 factors that make bacteria model organisms ?

Answer 8

1. Haploid = one gene for everything means easy study
2. Asexual reproduction = cell division creates identical daughter cells meaning easy to workout reproduction
3. Short generation time = useful in research
4. Growth in defined media for some = full control of nutrients means defining metabolic pathways
5. Easy to store
6. Easy to genetically mutate

Question 9

What does bacterial genome look like?

Answer 9

• Single, circular double stranded DNA chromosome

Question 10

What bacterium’s chromosome is the exception?

Answer 10

Borrelia burgdorfei (limes disease causer) -> Single linear chromosome.

Question 11

What is a bacterial genome size?

Answer 11

Varies hugely - 0.58 mega base pairs => >10 mbp

Question 12

What is special about the bacterial genome?

Answer 12

• Little space in-between genes (more % overall are gene coding versus eukaryotic genomes)
• Lack of introns (unlike eukaryotes)
• Genes grouped into operons
• Often carry plasmids

Question 13

What are operons?

Answer 13

Genes with related functions grouped together under one promoter

Question 14

What are plasmids?

Answer 14

Plasmids =
small circular DNA that replicates independently.
often w extra genes important for e.g. antibiotic resistance etc.

Question 15

E. coli genome in detail - How big?

Answer 15

EC => DNA = 1mi long
Same thickness as spiderweb

Question 16

How do bacteria reproduce?

Answer 16

Via asexual reproduction
Cell elongates and content volume is increased
The cell divides into two => creates identical daughter cells w copy of plasmids and DNA in each cell.

Question 17

3 essential steps in bacterial reproduction

Answer 17

1. Cell grows to 2x length
2. Septum then forms in middle
3. Cell grows from either end then pinches to break cell into 2.

Question 18

Why is generation time important?

Answer 18

• Many bacteria are fast to replenish and divide. (EC = 20mins)
• Some are 1000s of years or unable to be cultured but vast majority are useful.

Question 19

What affects generation time?

Answer 19

Optimum conditions = fastest growth time.
Conditions:
Nutrients
pH
Temperature
etc

Question 20

What is needed to grow EC?

Answer 20

1940s = modern model organism
Synthesises all own cellular components using inorganic nutrient + carbon.
- Able to grow on really defined media. => useful for metabolism and growth studies

Question 21

EC minimal media with glucose - composition?

Answer 21

Phosphates -> pH control + phosphate source.
Nitrates -> source of nitrogen
Magnesium -> useful for nucleotides + proteins.
Calcium chloride -> useful for sensing + membrane transport
Trace metals -> important for protein function
Glucose -> a carbon source + used for energy

Question 22

What is the point of growing EC on minimal media?

Answer 22

Looking for mutants that won’t grow without certain nutrients.

Question 23

What is a prototroph?

Answer 23

Wild type EC = doesn’t need any nutrients. => can grow on minimal media

Question 24

What is an auxotroph?

Answer 24

Mutants of a wild type that now require certain nutrients to be able to grow => can no longer grow on minimal media.

Question 25

What is a biosynthetic auxotroph?

Answer 25

Need additional nutrients to be able to grow e.g. amino acids, nucleotides, vitamins etc.

Question 26

What is a catabolic auxotroph?

Answer 26

Mutants that can no longer catabolise certain carbon sources. If using glucose as carbon = unaffected. (cannot break down glucose = death)

Question 27

What are housekeeping genes?

Answer 27

Genes essential for survival. (DNA replication, glycolysis etc) Mutations = fatal

Question 28

What are conditional lethal mutants?

Answer 28

Mutant that is fatal under repressive conditions but not in permissive conditions. (change environment = life or death)

Question 29

What are temperature sensitive mutants?

Answer 29

Mutants that only grow at a permissive temperature not at a restrictive temperature. represented by "ts"

Question 30

How can we explain the reason for there being temperature sensitive mutants ?

Answer 30

Mutant protein will fold differently at different temperatures, e.g. in EC permissive = 30C , restrictive = 37C; proteins will fold better at 30 due to less energy in system. Protein stability - depends on temp.

Question 31

What is the opposite to temperature sensitive mutants?

Answer 31

Cold sensitive mutants (may grow at higher temps but not at lower temps)

Question 32

Why are conditional lethal, temp and cold sensitive mutants important ?

Answer 32

These help to work out which genes are housekeeping genes.

Question 33

How to properly write gene annotation?

Answer 33

All in italics: 1. Three lowercase letters = biochem pathway gene product involved in. 2. Capital letter = denotes gene. 3. Maybe a number for which allele

Question 34

How to properly write protein nomenclature?

Answer 34

Proteins will be encoded by genes (NO ITALICS) 1. Capital letter start Protein will always have a capital letter starting.

Question 35

How to properly write phenotypes?

Answer 35

1. 3 letters total, first = capital 2. 3 letters not italicised. 3. If mutant -> phenotype shown by superscript +/-