DPT - Conjugation, transduction and transformation
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May 03, 2024
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Microbiology
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Microbial genetics Conjugation, transformation and transduction Areesha Ahmad Microbiology Lecturer Ph.D scholar Microbiology
Transduction occurs when foreign DNA or RNA is introduced into bacterial cells via a virus or viral vector . One example are bacteriophages that attach to bacterial membranes and inject their genetic material into the cell. Once inside, phages can follow one of two different life cycles: lytic or lysogenic. Lytic phages hijack the bacterial hosts machinery to make more viral particles. Eventually the cell lyses releasing the newly formed viral particles that can infect other bacteria. In the lysogenic cycle, the phage’s genetic material is incorporated into the host’s genome at a particular integration site. The integrated phage remains dormant until it is triggered to enter the lytic cycle. During both of these life cycles bacterial DNA can be accidentally packaged into the newly created phages. Transfer of this DNA to another cell is referred to as transduction. Transferred DNA once inside the infected bacterium can either exist as transient extrachromosomal DNA, like a plasmid, or it can integrate into the host bacterium’s genome through homologous or site directed recombination.
Transformation Transformation is the uptake of genetic material from the environment by bacterial cells. In nature, this genetic material often comes from adjacent lysed bacteria and can include plasmid DNA or fragmented DNA released into the environment.
During conjugation, genetic material is transferred from a donor bacterium to a recipient bacterium through direct contact . The donor bacterium contains a DNA sequence called the Fertility factor (F-factor). The F-factor is found on an episome, a piece of DNA that can replicate on its own or be integrated within a bacterial chromosome and allows the donor bacterium to make a small “bridge” or sex pilus that attaches to the recipient cell drawing it close. Once in contact the donor can transfer genetic material to the recipient bacterium.
High-frequency recombination strain: Hfr strain bacterial has F factor integrated into its genome when these bacteria undergo conjugation and the copy F factor is transferred to the recipient bacterium (F - strain). Luca Cavalli -Sforza first described the Hfr strain. During mating, the Hfr bacterium attempts to transfer all of its DNA to the F bacterium. However, because mating bridges are structurally fragile, gene transfer is often incomplete. Therefore, the recipient bacterium may receive only part of the bacterial genome of the donor Hfr bacterium and, rarely, the entire genome.
High frequency recombination ( Hfr )
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