Plasmid Replication

Question 1

General Properties of plasmids

Answer 1

1. Replicons with characteristic copy level maintenance functions
2. Extrachromosomal some interact with chromosome.
3. Small 1.5 – 200kb + replicate v quickly (max 2-3 min)
4. Non-essential for viability of host cell can confer selective advantage on host (Abr)
5. May be transmissible between cells - by conjugation or mobilisation

Question 2

what are the two Replication modes of plasmids?

Answer 2

1. democratic All replicated once only

2. random choice mixture are replicated.

Question 3

whats Plasmid Incompatibility?

Answer 3

inability of two plasmid species to coexist

Question 4

why are some plasmids incompatible?

Answer 4

1. Two plasmid species have same repl’cn control specificity

2. Random choice for replication from common plasmid pool

Question 5

How to study plasmid replication control?

Answer 5

1. E/m and 2-D gels
2. Biochemistry
3. Physiology (growth shifts, density shifts)
4. Genetics; isolate mutants
5. Molecular Genetics

Question 6

what can Copy number mutants effect?

Answer 6

Quantitation and specificity of control.

Question 7

what is the Basic Replicon?

Answer 7

1. part of plasmid capable of independent autonomous replication at SAME COPY LEVEL as parental plasmid
2. Fragment must carry all essential replication and copy control functions
3. same incompatibility properties as parental plasmid
4. Eg F factor 90kb

Question 8

describe plasmid ColE1 (6.6kb)

Answer 8

1. produces of colicin + immunity
2. mobility functions
3. oriV replication origin
4. replication control functions

Question 9

describe ColE1 replication

Answer 9

1. RNAII produced upstream from oriV
2. Forms DNA-RNA hybrid
3. Hybrid cuts specific site by RNaseH to form 3’OH to prime DNA synthesis
4. RNAI complementary to 5’ end of RNAII.
5. binding of RNAI-RNAII helped by Rop
6. Level of RNAI and/or Rop interferes with initiation of replication

Question 10

how is ColE1 replication initiated?

Answer 10

1. RNA-II changes conformation forms RNA/DNA duplex at oriV

2. RNA-II processed by RNaseH to form active primer for DNA replication by DNA Pol 1

Question 11

how is replication controlled in ColE1?

Answer 11

1. Interaction of RNA-I with RNA-II prevents RNA-II flipping into active conformation for formation of RNA/DNA duplex.
2. Rop protein secondary control enhances efficiency of interaction between RNAI and RNAII prevent copy number drifting too high.

Question 12

name 3 ColE1 replication mutants?

Answer 12

1. Rep ts affects RNAII/DNA interaction & primer processing blocks oriV activation
2. Cop affect 3’ end RNAI and folding reduce efficiency as repressor; copy # rises
3. Inc map in RNAI/RNAII region create new Inc group and affect copy level.

Question 13

what are ColE1 Inc- mutants?

Answer 13

1. DOMINANT
2. COMPATIBLE with wt ColE1
3. Mutations map to RNA loops only
4. Mutant plasmids have altered copy level
   – GC>AT: increases copy level
5. Mutations affect incompatibility + copy level

Question 14

what is ROP?

Answer 14

1. Secondary control of copy number
2. 63aa protein
3. ColE1 Rop- recessive mutants have elevated copy number

Question 15

whats the role of Rop?

Answer 15

1. Rop protein accelerates RNA1-RNAII loop “kissing” interaction
2. Binds to stems to aid positioning of complementary loops
3. Sharpens “switch-OFF” of RNAII by RNAI
4. Only if copy number too high

Question 16

why do plasmids need Secondary Copy Controls?

Answer 16

1. copy level too high disadvantageous/lethal to cell

2. copy level too low risk of plasmid-free cell at division

Question 17

describe the plasmid F Fertility Factor of E.coli (100kB)

Answer 17

Basic replicon = 1.5kb EcoR1 fragment

carrying orin and RepA gene needed for initiation

Question 18

describe Replication control of plasmids P1 + F

Answer 18

1. RepA Positive activator of oriV
2. CopB inhibits RepA transcription
3. as plasmid enters cell no CopB so increased replication
4. [CopB] inhibits RepA
5. 2nd control by asRNA CopA.

Question 19

what is DNA “handcuffing”?

Answer 19

1. Plasmid replication control.
2. At low concentrations of RepA;- monomeric protein interacts with oriV as initiator
   At high concentrations of RepA;- monomer proteins bound to oriV/iterons of two molecules form dimers so “handcuffing” the two plasmid molecules and preventing further initiation

Question 20

what factors contribute to stable plasmid maintenance?

Answer 20

1. Decatenation (TopoIV) linked replication products
2. Multimer resolution (P1 cre/lox : ColE1 cer/XerCD) – head/tail multimers by homologous recombin’
3. Partitioning/Segregation (F Par, P1 Sop) – active distribution to daughter cells
4. Addiction (R1 Hok/Sok) Post-segregational lethality
5. Horizontal Transfer (F Tra) – conjugation and mobilisation

Question 21

what is DECATENATION?

Answer 21

Product of DNA replication of circular dsDNAis linked circles

Question 22

what is Multimer Resolution?

Answer 22

1. Multimers arise by homologous recombination
2. Rec-mediated Reduces No of segregation units
3. Immediate loss problem for low copy plasmids
4. Increase No oriV per unit
5. Dimer catastrophe for multicopy random choice
   plasmids, leads to eventual loss
6. Resolved by site-specific recombination system
   encoded by plasmid
7. P1: cre recombinase @ lox site • ColE1: XerC/D @ cer site

Question 23

what is Partitioning?

Answer 23

• Probability of a plasmid-free cell at division P0 = 2(1-n) where n = copy number
• Observed in vivo loss rate for plasmids = 10-6 to 10-7 per cell division
• Low copy plasmids have active systems F; SopC + SopA/B: site + proteins
P1; ParS + Par A/B: site + proteins

Question 24

describe plasmid partitioning.

Answer 24

1. ParB dimer binds to Par S site
2. Nucleates binding of more parB dimers to form ParB filament between 2 plamids
3. ParA (ATPase) regulates expression & polymerisation of ParB
4. Filament pushes plasmid molecules apart
5. Plasmids become anchored?
6. ParB filament dissociates

Question 25

what is Post-segregation lethality?

Answer 25

Host cell dies if plasmid is lost
• Two component systems - long half-life toxin
- short half-life antidote
• Plasmid R1
hok – protein causes respiratory failure
sok – antisense RNA inhibitor of hok expression
• Plasmid F
ccdB – inhibitor of DNA Gyrase ccdA – inhibitor of ccdB

Question 26

name all the maintenance systems

Answer 26

1. Replication/copy control (essential)
2. Monomerisation (multimer resolution, decatenation)
3. Partitioning/segregation
4. Post-segregation lethality
5. Horizontal transfer (conjugation/mobilisation)