Bacterial Conjugation

Richa Banthia Ben Anderson

Genetic variability – ESSENTIAL!!!

o Survival of the species

Diploid Eukaryotes

o Crossing over

o Meiosis

Haploid Prokaryotes

o Transduction

o Transformation

o Conjugation

Genetic material exchanged via Viruses

o E.g. bacteriophage lambda

No physical contact b/w bacteria

Promotes drug resistance

Horizontal gene transfer

Acquisition of exogenous DNA fragments from

environment

o E.g. Plasmids

Antibiotic resistance

Pesticide resistance in crops

o E.g. Agrobacterium tumefaciens

Horizontal gene transfer

Exchange of genetic material b/w bacteria

Physical contact required

DNA exchanged via Pilli

Drug resistance!!

Horizontal Gene Transfer

Overview

The Donor

F+

o Fertility factor

Contains

genetic

material for

gene

exchange

“male” cell

The Recipient

F-

o No fertility

factor

Receives

genetic

material

“Female” cell

The Conjugate

HFR

o High

frequency

recombinant

Resulting

genetic

recombinant

Transfers

entire genomic

DNA when

mixed with F-

cells

Formation of “sex pilus” or F-bridge between

cells

Attachment Via Pilli

Target DNA is replicated in F+

Genetic transfer of ssDNA to F-

Genetic Transfer of ssDNA

Complementary strands of DNA are

replicated in both F- and F+

Target DNA is incorporated into F- genome

Synthesis of

Complementary DNA

Cells separate

Form two F+ cells with completed recombinant plasmids

Both serve as donor cells for further conjugation

Separation and Formation

of Two F+ cells

Experiment 3

HFR (F+)

Able to produce

amino acids

o Thr, Leu, Thi

Sensitive to

Streptomycin

HFR strain used

for experimental

purposes

Mixed Culture

Requires amino

acids:

o Thr, Leu, Thi

Resistant to

Streptomycin

F-

Able to produce

Thr and Leu

o Thi not produced

Resistant to

Strepromycin

M9ST Agar

Minimal Media 9

Streptomycin

o Antibiotic formation

o Inhibition of F- growth

Thiamine

o Inhibition of F+ growth

o Promotion of HFR

growth

Mix F- and HFR (F+) strains

Incubation in 37o water bath for proper

conjugation

o 30 minutes*

Vortex to terminate genetic transfer

Centrifugation – DNA Pellet formation

o Removal of supernatant (TSB broth)*

Resuspension with M9 Broth

Plated on M9ST Agar plates

Incubation at 37o for 48hrs

HFR (F+)

No growth

Sensitivity to

Antibiotics

F -

No Growth

Absence of

amino acids

Mixed Culture

Growth

Produced Thrand Leu

Antibiotic Resistance

F-HF

R

http://www.youtube.com/watch?v=O-EdX4MaMFE

http://www.sci.sdsu.edu/~smaloy/MicrobialGenetics/topic

s/plasmids/conjugation-mech.html

BIOL 3116 Advanced Microbiology Lab Manual