Microbiology: Test Answers on Micro Bio – Flashcards

o   Spontaneous mutations occur every 1x10⁹ bases

o   One every 1 million replications for 1000 base pair gene

o   Beneficial because generates diversity and drives evolution

o   More common with mutagens

o   Substances that increase mutation rate

§  Increase rate 10 to 1000 fold in DNA

§  1 mutation for every 1000 to 100,000 replication of 1000 base pare gene

o   Chemicals and some types of radiation are mutagens

§  Ionizing radiation

§  Low wavelength ultraviolet light

o   X-rays, gamma rays, and high speed subatomic particles

§  X rays and gamma rays – high energy electromagnetic waves 1nm or less in length

·         Produced from decomposing atoms and stars like sun

§  High speed subatomic particles like electrons are released by some natural elements and cathode ray tubes AKA particulate radiation

o   Ionizing radiation causes OH^- in cytoplasm to lose electrons

§  Form hydroxyl free radicals

§  Cause mutations in DNA by altering nucleotide bases

§  Also causes breaks in backbone

o   Electromagnetic energy with wavelengths between 40 and 310 nm

§  260nm most efficient

§  Adjacent pyrimidine bases in DNA bond together covalently

·         Eg Thymine Dimer

§  Pyrmidine dimmers interfere with DNA replication and cause cell death and mutations

o   3 groups

§  Nucleotide-altering chemicals

§  Frameshift mutagens

§  Nucleotide analogs

o   Structurally similar to nucleotide bases

o   5-bromouracil similar to thymine

§  Incorporated into replicating DNA instead of thymine

§  Pairs with guanin not adenine

§  When replicated, causes base pair mutation in daughter DNA

o   Alter nucleotide bases

o   Nitrous acid

§  Reacts with amino group of adenine and converts it to carbonyl group

§  Altered adenine (hypoxanthine) pairs with cytosine when replicated

§  Base pair change in daughter

o   Chemicals that insert themselves between bases and cause insertions or deletions when DNA replicated

§  Benzopyrene, coal tars, acridine

o   Light repair enzymes repair pyrimidine dimers

o   Dark repair enzymes repair pyrimidine dimers

o   Base excision repair enzymes

o   Mismatch repair enzymes

o   SOS Response

§  Drastic repair mechanism only used when DNA damage is so severe

o   Light repair use light energy to break bond

o   Dark repair enzymes excise and replace dimer nucleotides

§  Can be use for any damaged base

o   Mutated DNA cut out, polymerase repairs the gap with ligase

o   Wild types - Commonly found phenotypes

o   Mutants can be detected by testing for altered phenotypes

§  Positive selection

§  Negative (indirect) selection

o   Selects mutant cells and rejects non mutants

§  Growing cells on penicillin to find resistance mutants

·         Replicate plating

·         More tedious

·         Often used to isolate auxotroph, mutant has a new nutritional requirement not seen in wild type

o   Eg. Isolate mutant that cannot synthesize tryptophan

o   Use two medias, one with and without tryptophan

o   Grow on tryptophan containing media

o   Replicate plate with a membrane on both two new agars, one with and one without tryptophan

                      Compare

o   Rapid inexpensive test that utilized histidine auxotroph of Salmonella typhimurium to identify mutagens and possible carcinogens

o   Expose Salmonella histidine auxotroph to

§  Test chemical and liver enzymes

§  Liver enzymes

o   Liver enzymes replicate changes of chemicals our body will produce

o   If mutagen it will increase number of mutated bacteria that can synthesize histidine when grown on a histidine deplete plate

o   90% of mutagens are carcinogens

o   Mutagens then tested for carcinogenic properties in animals

o   Exchange of genes between two DNA molecules

o   Eukaryotes use crossing over of two homologous chromosomes

o   Beneficial to eukaryotes because it produces diversity in gametes

o   Horizontal Gene Transfer - Transfer of DNA between two different cells

o   3 mechanisms

§  Transformation

§  Conjugation

§  Transduction

o   All methods have a donor cell giving part of genome to recipient cell

o   Recombinant cell – cell that incorporates part of another’s DNA into own chromosome

o   Create genetic diversity but also spread antibiotic resistance

·         Transfer of genes from 1 cell to another as naked DNA in solution

·         Discovered in 1928 by Frederick Griffith

·         Live non-encapsulated S. pneumoniae do not infect, encapsulated do, heat treated encapsulated don’t, however heat treated encapsulated and live non-encapsulated do kill

o   Non encapsulated take up dead encapsulated DNA

·         1944 Avery, Macleod, and McCarty showed DNA was transformative agent

o   key experiment in showing DNA carried genetic information

·         Competent cells – cells that take up DNA in solution

o   Not all cells are

Most of DNA taken up is degraded, some is recombined

o   Transfer of genes from one cell to another by virus

o   2 mechanisms in bacteria

§  Generalized transduction – DNA from degraded chromosome of bacteriophage infected bacterial cell is packaged into new phages. Any gene can transfer

§  Specialized transduction – specific bacterial genes are packaged in new phages

o   Mechanism

§  Bacteriophages infect

§  Breakdown DNA

§  Repackage some Donor DNA

§  Repackaged DNA used in new phage

o   Transfer of DNA from donor cell to recipient by direct contact

o   E coli and other gram-neg bacteria use conjugation with sex pili

§  Sex pili genes on Fertility plasmid

§  F⁺ cells contain F factor

§  F^- cells do not. They are recipients

o   Mechanism

§  Sex pili reels another cell in

§  Cells contact

§  Plasmid replicates a strand

§  Transfers daughter strand to recipient

§  New cell is F+

o   HFR cells have F factor in chromosome

§  During conjugation, only part of chromosome replicates and is transferred

§  New cell is not F+ but has recombinant DNA

o   Staphylococcus aureus used to be penicillin sensitive

o   Causes 11% of nosocomial infections

o   95% now resistant due to plasmid coding for penicillinase which hydrolyzes penicillin

o   40% methicillin resistant

o   MRSA strains usually have several plasmids and are resistant to many antibiotics

o   Costly and hard to treat

o   Vancomycin treats them now

§  Also used to treat Enterococcus infections responsible for about 8% of nosocomial infections

§  30% of enterococcus isolates vancomycin resistant due to a plasmid

o   Enterococci and Staphylococci can transmit plasmids

                      Some vancomycin resistant MRSA found

·         Small pieces of DNA 70-40,00 BP) that can move from one location in DNA to another

·         Cause frameshift mutations

·         Present in genome of all cells but usually inactive

·         Ends contain palindrome

o   Ex. GAATTC and CTTAAG

·         Simplest are called insertion sequences

o   Contain transposase enzyme and palindromes at each end

o   Recognizes its own repeat sequence

o   Duplicates target site

o   Inserts a copy of IS1 between target site and copy

·         Complex transposons have genes in between two IS1 transposons

·         Can cut itself out and bring gene with it

·         Another possible way of transferring antibiotic resistance

·         50% of human genome composed of transposons

·         Normally inactive due to methylation

·         If activated for some reason (like viral infection) can insert itself

Insertions can cause frameshifts, and inactivate an essential gene like a protooncogene and cause cancer