Chapter 8 Bacterial Genectics
Errors and DNA polymerase can be repaired
the wrong nucleotide is incorporated during DNA synthesis 1. Near the mismatched base an enzyme cuts the sugar-phosphate backbone of the unmethylated strand 2. An enzyme degrades a short stretch of the strand that had the error 3.DNA polymerase synthesizes a new stretch incorporating the correct nucleotide
X rays damage DNA
Deletions-cause single and double strand to break in DNA
UV light damage DNA
Errors during repair process-causes thymine to form
Plasmids
Independent of chromosome and generally encodes only non-essential genetic information
mobile gene pool
Variable genes in a species that can move from one DNA molecule to another - on mobile genetic elements
prototroph
a microorganism that does not require any organic growth factors
auxotroph
a microorganism that requires an organic growth factor
Base substitution: Missence
alter codon codes for a different amino acid
chemical mutagens: base analogs
base pairing properties differ from those of nucleobases normally found in DNA-Nucleotide sustitution
Base substitution: Nonsense
base substitution creates a stop codon
Consequence of removing or adding nucleotides
causes frameshift mutation-changes reading frame-different codon is translated
direct selection
cells inoculated onto medium that supports growth of mutant but not parent
chemicals that modify nucleobases
change base pairing properties of nucleobases- nucleotide substitution
Mutation
change in existing nucleotide sequence
intercalating agents
insert between base pair pushing them apart- Addition or subtraction nucleotides
indirect selection
isolates auxotroph from prototrophic parent strain
How transporosons cause mutation
jumping genes; DNA that can move from one location to another
genomic islands
large DNA segments in a cell's genome that originated in other species
horozontal gene transfer
movement of DNA from one organism to another
Phage DNA
phage genome; may encode additional genes
CRISPR system
recognizes foreign DNA sequences that have previously entered the cell and directs the Cas proteins to destroy them.
Transporons
segments of DNA that directs its own movement to another location in plasmid DNA
genotype
sequence of nucleotides in DNA
Base substitution: Silent
the change generates a codon that translates into the same amino acid as original
core genome
the part of a genome shared by all strains of a species
Modified nucleobases repair
1. DNA contains oxidized guanine as a result of oxidization damage 2.Glycosylase removes the oxidize nucleobase from the sugar phosphate back bone 3.site of missing nucleobase, an enzyme cuts the sugar phosphate backbone 4.DNA polymerase degrades a short stretch of the strand 5.Combined action of DNA polymerase and DNA ligase fill in and seal gap
the process of transformation
1. Double stranded DNA binds to the surface of a competent cell 2.single strand the cell the other strand is degraded 3.the strand integrates into the recipient cells genome by homologous recombination. the strand it replace will be degraded 4.After replicating DNA cell divides 5. Non transformed cell dies on streptomycin medium wheres transform cell multiply
repair of thymine dimers- Photoreactivation
1. Thymine dimer distorts the DNA molecule 2.enzyme uses visible light to break the covalent bond of thymine dimer restoring the DNA
Repair of Thymine Dimers- Excision Repair
1.Thymine dimers distort the DNA molecules 2. an enzyme removes the damage section by cutting the DNA backbone on either side of the thymine dimer 3. the combined actions of DNA polymerase and DNA ligase fill in and seal the gap
phenotype
Physical expression of the genes
restriction modification system
Primary defense Involves 2 types of enzymes 1. Restriction enzymes (restriction endonucleases) 2. Modification enzymes
