Bacterial Genetics Flashcards
bacterial chromosomes, plasmids, and viruses are called ____ because they have sites for initiation of DNA synthesis, while insertion sequences, transposons, and pathogenicity islands do not
replicons (may also have sites for partition of replicated DNA into daughter cells)
insertion sequences, transposons, and pathogenicity islands only replicate when integrated into a replicon
what is a provirus or prophage?
bacterial chromosome with viral genome integrated into it (via temperate bacteriophage)
later, provirus can excise from chromosome, replicate, and lyse cell
virulence genes of bacteria, especially toxins, are often found in ____, such as the Shiga toxin of E. coli
proviruses
[Shiga toxin encoded by a phage]
what do insertion sequences (IS) contain?
only the machinery for their own movement - can move from one location to another in DNA
gene for transposase, which recognizes inverted repeats at termini (sequence of nucleotides that is the reverse complement of another sequence farther down)
how are transposons different than insertion sequences (IS)?
transposons (Tn) contain genes unrelated to transposition, such as antibiotic-resistance genes
basically, IS inserts near antibiotic-resistance gene, a second copy of IS inserts on the other side of the gene, and now the whole thing can move as a transposon (via transposase, enzyme contained in IS)
what is a pathogenicity island (PI)?
very large transposon with 50-100 genes (a “complete kit” of virulence genes - can make a non-pathogenic bacteria pathogenic)
most pathogenic strains of bacteria contain multiple PI
DNA transfer between bacteria: transformation vs conjugation vs transduction
transformation: DNA released via lysis
conjugation: DNA transfer via direct cell-cell contact (requires conjugative plasmid)
transduction: DNA packaged into virus, transferred via bacteriophage
transfer of DNA between bacteria is one way, and often forms an intermediated called ____
merozygote
*note donor fragment is unstable and lost unless it recombines with recipient chromosome - requires DNA homology
describe the process of conjugation via the F-plasmid (E. coli)
- F (fertility) plasmid DNA transferred from donor (F+) to recipient (F-) via conjugation bridge
- conjugation bridge breaks, recipient cell left with linear fragment
- transferred DNA re-circularizes, this cell is now F+ also
R-Factors in bacteria
F-like (fertility) plasmids with multiple antibiotic-resistance genes, transferred via conjugation
major issue in medicine, esp. tuberculosis
transduction, bacterial DNA transfer via virus particle, occurs in 2 ways:
- virus particle contains bacterial and not viral DNA (rare)
- viral genome incorporates bacterial genes (and all progeny viruses contain it)
do proviruses, insertion sequences (IS), and transposons require DNA homology?
no, because they have special enzyme-based mechanisms
enables virulence genes to spread to genetically unrelated bacteria
antigenic phase variation
continual production of new antigenic variants to evade immune system specificity
created by programmed alterations in DNA (not random mutation) and more frequent than mutation and can be exactly reversed by same process that created it
major issue for vaccine development
what are 3 mechanisms of antigenic phase variation of bacteria?
- inversion of DNA segment
- recombination between silent and expressed genes
- stuttering by polymerase during copy of a repeat
how does Salmonella alter its H antigen to evade the immune system?
antigenic phase variation of H antigen of flagella
only one gene of flagellin is expressed at a given time (H1 or H2), via catalyzed DNA inversion
(hin, aka h inversion, enzyme - separates H2 gene from its promoter to allow disinhibition of H1 expression)
