The resulting defective phage particle can still attach to a new host and inject the borrowed bacterial DNA. Unlike simple diffusion, transduction is a virus-driven mechanism that ensures the targeted relocation of specific genetic segments, thereby reshaping the genomic landscape of microbial populations.
AttP Site Integration In Transduction: How Phages Precisely Insert Bacterial DNA
Because specialized transduction is tied to the phage's integration site, it only transfers a limited set of genes flanking the attachment point. Mechanisms of Generalized Transduction Generalized transduction occurs when a bacteriophage mistakenly packages a fragment of degraded bacterial DNA into its capsid instead of its own viral genome.
If this alien DNA integrates into the recipient's chromosome via homologous recombination, the recipient acquires new genetic traits, such as antibiotic resistance or novel metabolic capabilities. These viruses can integrate their genome into the specific site of the bacterial chromosome known as the attachment site (attP).
AttP Site Integration In Transduction: How Phages Precisely Insert Bacterial DNA
By distributing genes for antibiotic resistance, toxin production, and metabolic flexibility, phages accelerate the rate at which bacterial populations can survive environmental pressures. Comparative Analysis Table Method Vector DNA Source.
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