microbial genetics (2)instruction2.mtsac.edu/crexach/microbiology 1/pdf micro lectures... ·...
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Microbial genetics and reproduction
Microbial genetics and Microbial genetics and reproductionreproduction
By By Dr. C. Dr. C. RexachRexachMicrobiologyMicrobiology
Mt San Antonio CollegeMt San Antonio College
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Definitions• Chromosome• DNA• Gene• RNA• Genotype• Phenotype
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DNA structure• DNA composed of subunits =
nucleotides– Sugar, phosphate, nitrogen base (A, G,
C,T)• Double stranded• Anti-parallel structure
3’
5’
5’
3’
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DNA structure
OC1
23
4
5
Base pairing rulesA=TC=G
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DNA replication
• Occurs just before cell is going to divide = reproduction
• Semi-conservative process resulting in production of two identical daughter molecules
• Enzyme mediated
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Steps of DNA replication• DNA unwinds and separates one segment
at a time, forming a replication fork• Free nucleotides in the cytoplasm matched
by DNA polymerase to exposed base pairs following base paring rules
• Nucleotides are added in a 5’3’ direction = bidirectional synthesis
• Result: 2 identical DNA molecules, each composed of a new strand and an old strand
• Chromosome recoils and assumes original shape
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In bacteria• Remember: bacterial DNA is supercoiled
which makes this tricky • Replication begins at the origin• 2 replication forks form because bacterial
DNA is circular = bidirectional• Bacterial chromosome is attached to cell
membrane ensuring that each daughter cell receives one copy
• And then…cell wall and membrane form septum and binary fission is complete
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DNA replication in bacteria
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RNA and protein synthesis
DNAcode
mRNAcodon
transcription translation
Ribosome + tRNA
protein
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RNA nucleotides• Same general structure as
DNA nucleotides, except:– Sugar is ribose– RNA does not contain
thymine• RNA nucleotides contain
the following nitrogen bases: – Adenine (A), Guanine (G),
Cytosine (C), and Uracil (U) • mRNA carries the codon =
triplet code• tRNA is the anticodon
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Transcription in prokaryotic cells
• Specific gene on chromosome is unzipped• RNA nucleotides from cytoplasm matched to
bases on DNA template using RNA polymerase and beginning at the promoter site.
• This occurs on one side only and follows base pairing rules
• RNA synthesis is in 5’3’ direction• Continues to terminator region• mRNA and RNA polymerase released• mRNA moves to ribosome to begin translation• Chromosome zips back up and returns to
original configuration
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Transcription in eukaryotic cells
• Same as prokaryotic, except:• Transcription occurs in the nucleus• Eukaryotic DNA contains introns and
exons• Introns must be removed after
transcription is complete so that the final mRNA contains only exons
• mRNA leaves nucleus through the nuclear pore to the ribosomes in the cytoplasm, where translation occurs
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Translation• mRNA associates with
ribosome• Ribosome moves along
mRNA in 5’3’ direction• tRNA brings in amino
acids and matches anticodon to codon using base pairing rules
• Empty tRNA’s return to the cytoplasm to pick up more amino acids
• Growing protein folds into its 3D structure and detaches from ribosome
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Regulating gene expression
• Goals– to save energy by only synthesizing
proteins when needed– Try to control rate at which proteins
are synthesized by targeting mRNA synthesis
– Accomplish these goals by repression and induction at operons = special sites which regulate gene expression
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Repression and induction
• Repression– Repressors block the ability of RNA
polymerase to initiate transcription of a particular gene due to overabundance of product
– Repressors are regulatory proteins• Induction
– Transcription of gene is triggered by presence of an inducer
– Production of inducer may be triggered by presence of a certain product
• Ex) presence of lactose in E. coli triggers lactose metabolism
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Lac O = operator = binding site for repressorLac P = promoter = binding site for RNA polymerase, gene encoding repressor proteinLac I = inhibitor = binds to DNA at operator & blocks binding of RNA polymerase to promoterPi = promoter for Lac ILac Z = codes for beta-galactosidase which hydrolyzes bond between glucose & galactoseLac Y = codes for lactose permease, integral protein carrier for lactoseLac A = thiogalactoside transacetylase = unknown function
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Lac Operon
No lactose present Lactose present
= inducer = lactose
**In absence of lactose, repressor binds to DNA and blocks RNA polymerase so that it can’t get beyond promoter
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Genetic diversity
• Mutation– Change in the DNA base sequence– Three possible results
• No change (neutral)• Harmful change• Beneficial change
• Genetic transfer and recombination– Genetic recombination– Bacterial gene transfer
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Mutations• Two major mechanisms
– Spontaneous mutations = error during replication
– Mutagen = environmental agent induces change directly or indirectly (radiation, chemicals)
• Two major types– Point mutation
• One base is substituted for another– Frameshift mutation
• Deletion or insertion of one or more nucleotide pairs in DNA
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Genetic recombination• Exchange of genes between 2 DNA
molecules to form new combinations in chromosome
• Eukaryotes = sexual reproduction• Prokaryotes =
transformation/conjugation– These are very infrequent
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Bacterial transformation• DNA is free in the environment• Transferred from one bacterium to
another – Cell that receives new DNA =
recombinant– Cell that gives up the DNA = donor– Cells that can take up DNA = competent
cells• Griffith’s experiment with
Streptococcus pneumonia
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Griffith’s experiment: bacterial transformation
Encapsulated S. pneumoniae
+=
+
+
+
Unencapsulated S. pneumoniae=
=
=
Heat killed encapsulated
Heat killed encapsulated + live nonencapsulated
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What was responsible?• Avery, Macleod, & McCarty
demonstrated DNA was responsible 20 years later
• Changes in cell wall make it possible for cells to uptake DNA– Not all cells do this naturally– Can be induced
• high concentrations of Ca++
• Electroporation = exposure of cell to pulsed electrical fields induces pores through which cells can accept plasmids or through which plasmids can be removed for donation to other cells
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Bacterial conjugation• Involves cell to cell contact & conjugative
plasmid in donor cell• Conjugating cells must be of opposite
mating type• Recipient cell usually does not carry
plasmid• Single stranded DNA transferred to
recipient in which complementary strand is synthesized
• May remain as plasmid in recipient or be incorporated into chromosome– Gram negative = produce sex pili– Gram positive = connect due to sticky surface
molecules
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Bacterial conjugation
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Transduction
• Donor DNA transferred by bacteriophage• Not all can transduce or be transduced• Generalized transduction
– Host DNA from any part of genome becomes part of DNA of mature virus particle replacing viral genome
• Specialized transduction– Integration of DNA from host chromosome into
viral genome replacing only portion of viral genes
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Plasmids• Found in both eukaryotic and prokaryotic
cells• In prokaryotes
– Circular, self-replicating pieces of DNA, usually not essential
– Dissimilation plasmids• Contain genes coding for enzymes that catalyze
unusual substances • Enhanced pathogenicity
– Resistance factors (R factors)• Confer antibiotic resistance, resistance to heavy
metals & cellular toxins
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Transposons
• Eukaryotic and prokaryotic• Jumping genes• Very rare, evolutionary significance
– One part of chromosome to another– To another chromosome or plasmid– Can be carried between cells on plasmids
or viruses
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Recombinant DNA• Any manipulation of genes• Within a particular species or between
species• Create gene factories
– Insert DNA from another organism into bacterium which subsequently expresses gene
– Can also be used for amplification– Easy to work with because bacterial DNA is
haploid!• Genetic engineering = Biotechnology
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Why does this work?• Bacterial defense mechanism against
viral DNA = restriction endonucleases– Enzymes produced by bacteria which cut
unmethylated DNA at specific sites• Digest = piece of viral DNA cut by
restriction enzyme• Palindrome = DNA sequence that reads
from right to left or left to right
GAATTCCTTAAG
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Recombinant plasmid• Cut can produce “sticky ends” = will
aneal to complementary stretches of DNA
• If cut DNA sequence to be inserted with same restriction enzyme, H-bonds will form and DNA ligase can insert them and covalently link them so that you have a recombinant product
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Recombinant Plasmid
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E. coli transformed with GFP
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