Genetic Recombination in Bacteria PDF

Summary

This document provides an overview of genetic recombination in bacteria. It explores various mechanisms such as transformation, conjugation, and transduction, highlighting the significance of these processes in bacterial adaptation and evolution.

Full Transcript

Genetic
Recombination
What happens to foreign DNA
in cell?
A. Degraded

B. Replicates independently of the chromosome
Plasmids and some viruses

C. Inserts into host DNA
 Recombination
Two molecules of DNA with nearly identical sequences can
recombine

Genetic Recombination: Within living cells, the exchange of
DNA sequences and genetic information occur through an
intricately regulated series of enzymatic reactions involving
pairing of DNA molecules and phosphodiester bond breakage
and rejoining.

1. Homologous recombination

2. site specific recombination

3. Illegitimate recombination
 Homologous recombination
Substrates
The common stretch of bases
that will be recombined is
known as homology

Proteins 1. Identical or similar seq
2. Ability to form H bonds
3. Proteins needed
(endo/exo nuclease, RecA,
ligase)

50-100 bp to even whole
Products genome
Chi (crossover hotspot instigator)
About 1000 chi sites in E.coli

RecBCD complex (330 kDa)
Exonuclease V, helicase,
ATPase
10 to 50 RecBCD molecules per cell

One RecA binds per 5 bp of DNA
It is DNA dependent ATPase
RecA-ssDNA filament binds to another
strand and unwind by breaking hydrogen
bonds; further promoting recombination
with another DNA
 Earlier models of recombination

Chaismatype theory John Belling (1931)
Janssens (1909) and Darliington (1930) Alfred Sturtevant (1949)
Joshua Lederberg (1955)
 Harold Whitehouse and Robin Holliday
Holliday Model (1964)

Breakage
Disassociation and assimilation (RecA)
Ligation
Branch migration (RuvABC)
RuvA and RuvB -branch migration proteins,
RuvC -junction-resolving enzyme (nuclease)
Isomerization & Resolution
ligation
Single strand
invasion
Model

Meselson and
Radding (1975)
Site specific
recombination
Illegitmate recombination

In absence of RecA, regions of DNA homology or specific sites

Spontaneous DNA arrangements such as deletions, duplications

Associated with very small repeated sequences

Short sequence repeats (SSR)
Mechanisms of Gene transfer
among Bacteria
Transduction

Zinder and Lederberg,
1952
Lysogenic
cycle
Generalized Transduction
 Specialized
Transduction
 Transformation

Recombination or replication of DNA is required for
stable maintenance of DNA
 Do all cells take up naked DNA? No
Cell can be made competent to take up DNA
Natural competence

Chemically induced competence

Electroporation is another way to force uptake of naked DNA
Natural Competency
Competency is induced
when
– Number of cells in a given
volume increases or
– Shifting of cells from optimal
growth conditions to poor
growth conditions
– Pathway 1-more no. of cells
– Pathway 2-monitors the
depletion of available
nutrients
– Signals the cells to induce
com genes
Com Q protein processes and modified precursor comX to make
smaller active peptide.

The active comX is excreted from the cell
Quorum sensing system

Autophosphorylation
in histidine of sensor
kinase
Phosphate
transferred by sensor
kinase to an
aspartate in the
response regulator
protein
The phosphorylated
RRP is able to either
turn on or off the
genes
transformation
 Conjugation

Requires donor and recipient cells

Donors must contain a conjugative plasmid encodes
genes for conjugation
One conjugative E. coli plasmid is called the F plasmid
Genetic Map of the F plasmid

RepF1A – OriS, OriV
RepF1B – backup
OriT
Relaxase enzyme (TraI)
Relaxasome (TraH, TraL, TraJ,
TraY, TraK and TraM) + IHF
TraS and TraT
RepF1A – OriS, OriV
RepF1B – backup
Relaxasome (TraH, TraL, TraJ, TraY, TraK and TraM)
TraI - Relaxase enzyme
TraM –helps in relaxase interaction
TraH, stabilizes the relaxosome's structural formation
TraJ – recruits the complex to oriT site,
TraK – nicked state; TraY – ssDNA state stability; IHF; TraS and TraT
Relaxosome:
– Nicking:
– Unwinding:
– Attaching:TraI to the 5′ end of the
nick
– Transporting
Surface exclusion
– Greatly reduces transfer of multiple
F factors into the same cell

– TraT inhibits mating pair formation
– TraS-inhibits DNA transfer
The F+ cell donates to an F- cell. Rolling circle replication is used.

F plasmid can replicate independently of the chromosome or it can
integrate into the chromosme
Map of a drug resistance plasmid