Unit 1 Deck 1 Flashcards
What is another name for the MTOC? What does it contain?
Centrosome, contains 2 centrioles
What is responsible for the shape of the cell? What three parts make it up?
Cytoskeleton, made of microtubules, thin filaments (actin), and intermediate filaments
Where are rRNA’s transcribed and processed?
Nucleolus
What is an isolate?
A strain of bacteria obtained from a specific patient
What is important to know about the 16sRNA gene, 3 facts
- it is universal to all species
- it is unique within each species, but flanked by sequences common to all organisms
- used in classification, both broadly, ie bacteria/archaea/eukarya, and specifically for identification of strains and isolates
Where do enteric bacteria live?
GI tract
Can generation of diversity be observed?
No, this is not observable in human time, but instead 1% per 50 million years. This is not the same as changes in pathogenicity or natural selection. Use rates of 16sRNA gene divergence to measure (graph)
Name three phenotypic changes that prove that natural selection is observable.
- pathogenicity
- host range
- drug resistance
Name four minor genetic changes that are observable in “human” time.
- Point mutation
- deletions and duplications
- rearrangements
- transfers between similar organisms
* *this is not generation of diversity (no new species), just selection**
What is the date range for the increase in syphilis virulence?
1490-1540, endemic syphilis –> yaws – modern syphilis, boiled down to 1-2 nucleotide substitutions
Where did Spanish flu originate and when?
1918, Kansas, infected a whopping 1/3 of population, 6% died
What is the date range for the decrease in syphilis virulence?
1540-1900 (now endemic), presumable due to continuing mutations
Give two disease examples of a change in host range.
- AIDS - monkeys
2. SARS - civets/bats
Why is John Snow important?
Responsible for the first public health measure to stop the spread of cholera in 1854, London
Name 2 diseases that have been discovered to be due to infections.
- stomach ulcers - h. pylori
2. cervical cancer - pappilloma virus
What is E.Coli pyr- gal- amp ?
E. Coli that cannot make pyrimidine, cannot break down/digest galactose, and is resistant to ampicillin.
What is an R factor?
An extrachromosomal element that can encode antibiotic resistance.
Why do humans not have operons?
Each human gene has its own regulatory elements. Operons are elements that cover the transcription of multiple related genes.
What is the Ames test and why is it important?
The Ames test is a test for mutagenicity, which corresponds, generally, to carcinogenicity. Environmental factors that affect humans also have similar effects on bacteria.
Name two types of DNA that could be taken up by live bacteria in transformation.
- extrachromosomal DNA
2. Plasmid
What is the most likely fate of transformed DNA once it has been incorporated into a bacterial genome?
Digestion by restriction enzymes bc of unusual methylation pattern.
What are three examples of practical medical/laboratory applications of transformation?
- recombinant hep B vaccine
- recombinant insulin
- virus vectors for gene therapy
What is the difference between an F+ bacterium and Hfr bacterium?
F+ is a male bacterium in which the plasmid has not integrated into the chromosome. Hfr is a male bacterium in which the plasmid is integrated, and stands for “high frequency recombination”
What is the difference between a lytic and a lysogenic phage?
Lytic - generalized transduction
Lysogenic - specialized transduction - the virus incorporates itself into the bacterial genome and waits for favorable conditions to lyse the host.
Why is specialized transduction special?
Because when the host lyses, the prophage takes with it adjacent DNA from the host chromosome, which can then be incorporated into a new bacterium via either transformation or transduction.
Give four examples of disease where specialized transduction is the mechanism of toxin transfer.
- Botulism
- scarlet fever
- cholera
- diptheria
What is a compound transposon?
A transposon that integrates into a second transposon. If this were later transferred, a new host bacterium could gain double drug resistance from the compound transposon in 1 step.
What is a pathogenicity island?
Like an operon, but for pathogenicity. A bacterium has many adjacent genes that all contribute to the pathogenicity of a disease.
Do pathogenicity islands have translocation hardware (like transposons)?
Nope, but they can be transferred via the usual ways: transduction, transformation, or conjugation
What do we mean when we say that bacteria are haploid?
They only carry 1 copy of their chromosome.
What is an example of extrachromosomal DNA in humans?
Mitochondrial DNA, otherwise is not found (no plasmids in humans)
What is the typical size of a plasmid?
No bigger than 1-3 genes, in general.
What proportion of our DNA encodes protein?
About or less than 10%, proves we are very inefficient, as compared with bacteria who use up to 80% of their genome.
What are the 3 kinds of genes that bacteria have?
- biosynthetics - make something, ie histidine, his
- catabolics - digest something, ie lactase, lac
- drug resistance - resists (or digests) an antibiotic, ie chloramphenical, cat
What is an operator? Do humans have them?
An operator is a sequence between the promotor and the genes of the operon, only found in bacteria.
What is the function of lactose in the lac operon?
This operon is an example of inducible expression. The presence of lactose changes the conformation of the repressor, which then pulls off the operon and RNA polymerase is allowed to do its thing to transcribe the enzymes needed to digest the lactose.
What is the function of tryptophan in the trp operon?
This operon is an example of repressible expression. The presence of trp binds TO the repressor to then attach to the operon to stop the bacterium from making its own trp (because it has enough, presumably).
Regulation of lac and trp operaons are what category of bacterial gene regulation? What are the other two categtories?
Lac and trp are part of the “nutritional sensing” category, where the presence or absence of a nutrient induces/represses transcription. The other two categories are (1) cell surface sensing, and (2) quorum sensing.
The Ames test uses a point mutation in a bacteria to test carinogenicity. For what biosynthetic gene?
Histidine. Do the bacteria go from his- to his?
What did the Griffiths-Avery experiment show?
Example of transformation, where the no-capsule live pneumonia picked up the capsule gene from the dead pneumonia and then started making a capsule and killed the mice.
If one was to “transform” bacteria in the lab, what phase would be best for such an experiment?
Log phase, because the genetic machinery is all ramped up, the bacteria is happy.
Do bacteria carry enzymes to repair damaged DNA?
Yes, but it is limited, because the goal for bacteria is to do things quickly, whereas the goal for humans is to do things accurately.
What is another term for a compound transposon?
A composite transposon. Shillitoe uses these terms interchangeably.
What is the ultimate example of multidrug resistance (that could be coded as a pathogenicity island)? What 6 classes of drugs does it resist?
MRSA of course! Resists vancomycin A, vancomysin B, penicillin, the aminoglycosides, trimethoprim and methicillin.
Why is methicillin different as an antibiotic?
There is no gene to code for its resistance in bacteria. It instead requires a protein receptor on the surface of the bacterial (which is either not present or not functional in MRSA).
What are the 4 parts of Swick’s definition of professionalism?
- Subordinate your interests to those of your patients
- Adhere to high moral and ethical standards
- Respond to societal need
- Exude humanistic values, ie empathy, altruism, integrity, trustworthiness
What are the three elements in the charter of medical professionalism?
- Primacy of patient welfare
- Patient autonomy
- Social justice
What are the core ethics of the medical profession?
- Place patient interests above one’s own
2. Place society’s interests above those of the medical profession.
What is special about an Hfr cell’s “sexual” activity?
The Hfr chromosome and F portion, because incorporated into the same chromosome, all replicates and moves to the F-cell, where the entire chromosome can recombine with the F- in addition to transfer of the F factor.
What size (in Svedbergs) is a bacterial ribosome? A human ribosome?
Bacteria - 70S
Humans - 80S
What primarily makes up bacterial cell walls?
Peptidoglycan
What is the nucleus “alternative” that bacteria have?
Nucleoid - “area” but with no membrane, where the genetic material is stored in the cell
How does staph look under the microscope? Give bacterial shape and appearance.
Cocci, clumped characteristic
How does strep look under the microscope? Give bacterial shape and appearance.
Cocci, chains
How does neisseria look under the microscope? Give bacterial shape and appearance.
Cocci, appear as diplococci
What is an example of bacillus or rod-shaped bacteria?
E.Coli, also Pseudomonas
What is an example of a vibrio-shaped bacteria?
Vibrio cholera
Why is the spirochete triponema different from other bacteria in its microscopic preparation?
Triponema requires darkfield due to its tightly wound corkscrews
What are the 5 steps in gram staining, and the effects of each step?
- fix (over flame)
- stain with CV - all slide turns purple
- iodine treatment- gram +’s become permanently purple
- alcohol treatment - decolorizes gram -
- counterstain with safranin - restains gram - pink
What are the two major characteristics of gram + bacterial cell walls?
- thick (3 layers) of peptidoglycan
2. no exterior membrane on outside of peptidoglycan
What are the two major characteristics of gram - bacteria?
- thin (1 layer) of peptidoglycan
2. exterior membrane
In what kind of bacteria can LPS be found? What is LPS?
Endotoxin, found in gram - bacteria
What is a major reason why gram - bacteria are harder to treat with antibiotics?
Gram -‘s are known to engage in more frequent genetic transfer by plasmid exchange.
In what kind of bacteria can teichoic acid be found? What is teichoic acid?
Gram +, endotoxin
What is the most commonly ordered (and one of the cheapest) lab tests ordered?
Gram staining! It won’t usually be used for dx, but it is important to know what class of bacteria you are dealing with
Why is LPS so dangerous as an endotoxin?
Can cause septic shock, even as components of dead bacteria floating in your system.
What is the glycocalyx of bacteria? Why is it important?
Slime layer, important for biofilm formation, and to stay stuck places you want to infect. Glycocalyses also have capsules (sometimes), which resist phagocytosis
What are the differences between pili/fimbrae of gram + and gram - bacteria?
Gram - bacteria pili come in many types
Gra + bacteria pili - just recently discovered
Name two virulence factors used by bacteria.
- Capsule, anthrax, N. meningitidis, klebsiella
- Pili/fimbrae, ***E.Coli, if they acquire a pilus, can be very damaging
- –there are others.
What is the smallest structure visible in light microscopy?
Small bacteria, perhaps large viruses
What structure do bacteria use for propulsion?
Flagellum
Are the porin proteins of gram + and gram - bacteria the same or different?
By definition, they must be different bc of the diff structures of each cell wall
What cleaves peptidoglycan?
Lysozyme, found in human tears
What is peptidoglycan made of?
crosslinked NAG (n-acetylglucosamine) and NAM (n-acetylmuramic acid)
Name 3 classes of drugs that inhibit peptidoglycan synthesis?
- Vancomycin
- Cephalosporins
- Penicillins
What substance makes mycobacterial cell walls unique?
Mycolic acid
What is the most toxic part of LPS/LOS endotoxin?
Lipid A tail
Name two ways that capsules can help a bacterium evade phagocytosis.
- The capsule may make the bacteria too big to digest
2. The capsule may cover up epitopes allowing the bacteria to escape immune detection
What kind of pilus is used for attachment?
Type I.
Can hundreds of bacteria fit in a human cell?
Yes! And sometimes they do!
What kind of pilus is used for propulsion?
Type 4.
What kind of pili are used for secretion?
Types 3 and 4.
Define an inherited gene complement.
Mutation that is transmitted by one or both parents
Define an acquired gene complement.
A subset of cells in an individual that arose by clonal propagation from a single mutation in one cell.
What is an inborn error of metabolism?
Genetically determined biochemical disorder in which a specific enzyme defect produces a metabolic block. Results in:
- accumulation of substrate
- deficiency of product
What is the mutation that causes albinism?
Mutation of tyrosine oxidase, inability to convert tyrosine to pigment. *NB that albinism can be total or partial
What is the basis for the defects of the 3 hyperphenylalaninemias?
Defect in function of phenylalanine hydoxylase which converts phenylalanine to tyrosine.
What is the effect of PKU in cells?
Accumulation of phenylalanine, excretion of phenylpyruvic acid (how it is diagnosed in the urine)
Give two clinical examples of phenotypic heterogeneity.
- Non-PKU hyperphenylalanemia, may be asymptomatic
- Variant PKU - between Non-PKU and full blown PKU
same gene, different phenotype
Why do you add L-Dopa and 5-OH in the treatment of BH4 (tetrahydrobiopterin) deficiency? (as well as BH4 itself)
Because BH4 is a cofactor for many pathways, in particular, those involved in neurotransmission.
Why is a somatic cell 2N after S phase?
Because there are still only 2 SETS of chromosomes
At what stage of meiosis does reduction division occur?
Anaphase I.
What is isomy?
The process by which 2 chromosomes from the same source lead to the duplication of 1 chromosome.
What is heterodisomy?
The presence of 2 different chromosomes in a pair (that should be identical)
What is the end result for cells that undergo meiotic nondisjunction type I?
2 cells have 1 extra chromosome (2 cells with heterodisomy), 2 cells have 1 less chromosome (2 cells with nullisomy)
What is the end result for cells that undergo meiotic nondisjunction type II?
2 cells are normal (disomy), 1 cell is heterodisomic (1 extra chromosome) and 1 cell is nullisomic (missing a chromosome)
What is another term for prophase I, where oocytes are arrested in the 3rd month of gestation?
Dicytotene
At what stage does an oocyte complete meiosis I?
Ovulation
Which strand of DNA serves as the template strand for DNA transcription?
Antisense strand
Does a nucleoside contain the base, sugar and phosphate?
No! A nucleoside is just the base and sugar.
Where are the sugar and phosphate linkages on a ribose?
5’ and 3’ (phosphodiester bond). The base to sugar linkage is at 1’.
What is the general structure of pyrimidine base? What are the pyrimidines?
One 6-membered ring. Cytosine, uracil, thymine
What is the general structure of a purine base? What are the purines?
An attached 6 membered ring and 5 membered ring. Adenine and Guanine
Is the following a nucleoside, or a nucleoside monophosphate: ADENYLATE
nucleoside monophosphate (nmp)
Is the following a nucleoside, or a nucleoside monophosphate: THYMIDINE
nucleoside
Is the following a nucleoside, or a nucleoside monophosphate? URIDINE
nucleoside
Is the following a nucleoside, or a nucleoside monophosphate: GUANYLATE
NMP
Name the structure dCDP.
deoxycytidine diphosphate
What is the mechanism of action of AZT?
Chain terminator of DNA nucleotides, has affinity for reverse transcriptase, prevents replication of the viral DNA.
Name two situations that can lead to base modifications.
- Natural occurrence –> important for epigenetic control
2. DNA damage
What are three functions of nucleotides as they are used in cellular function (beyond the central dogma)?
- cAMP and cGMP are precursors for second messenger systems
- CoA is an important coenzyme
- ATP and GTP are energy carriers
What is the Chargraff rule?
States that in dsDNA, A=T and C=G
What are 3 features of B-DNA?
- right-handed
- 1 turn = 10.5 bp or 34 A (each base pair is 3.4 A)
- twisting forms major and minor grooves
What kind of DNA is shorter and appears in dehydrated samples?
A-DNA, right-handed, 11bp/turn but 28 A (instead of 34 in B-DNA) per turn –> wider double helix
What kind of DNA is left handed?
Z-DNA, 12 bp/turn, repeating unit is 2 bp, instead of 1 in A and B-DNA. Z-DNA can be induced by high salt content, some cations or negative supercoiling
What is Hoogsteen base pairing?
Purine bases can sometimes flip to a syn conformation, changing the hydrogen bond partners in the double helix proposal that these modifications add complexity to gene regulation
How does salt bind to DNA?
It binds to the phosphate-sugar backbone. More salt content actually stabilizes DNA
Centromeres have more ____ base content, while Telomeres have more ____ base content.
A-T, C-G
What happens in low stringency DNA hybridization?
Two denatured DNA strands combine, but not perfectly. There may be loops with non-annealed bases. Low stringency DNA hybridization is done below the Tm, while high stringency is done at or very close to the Tm.
What is a nucleosome made of?
Eight histone proteins (H2A, H2B, H3 and H4, all times 2), plus the DNA wrapped around 1.65 times, 146 base pairs of DNA per nucleosome!
What is the structure created by the beads on a string of nucleosomes, when they continue to wrap around each other?
30-nanometer fiber
Name two essential features of all eukaryotic chromosomes.
- centromeres
2. telomeres
What is the function of Type I topoisomerase?
Cuts 1 strand of DNA
What is the function of Type II topoisomerase?
Cuts both strands of DNA
What is the structural feature that renders RNA more vulnerable than DNA to hydrolysis?
The 2’ OH. Therefore, in a basic solution, RNA is degraded, while DNA remains stable (if denatured)
What is the main target of antibiotics in bacteria?
Bacterial ribosomes
Name two spore-forming bacteria.
- Bacillus
2. Chlostridium
Name a bacteria that is an obligate aerobe, and requires oxygen to survive?
M. tuberculosis.
Name a bacteria that is an obligate anaerobe, and is poisoned by oxygen?
C. botulinum.
Name a bacteria that is a facultative anaerobe, and uses oxygen if it’s around, but doesn’t require it to survive.
E. Coli
What is the only method of killing off bacterial spores?
Autoclave - heat to 121C, or ethylene oxide
What is the behavior of bacteria in the stationary phase?
They are only dividing at the rate that other bacteria are dying, steady turbidity
What is the pellicle?
Floating garbage visible in the death phase of in vitro bacteria
What is the definition of an obligate aerobe?
It has an electron transport chain that ends in oxygen as the recipient.
What powers bacterial flagella?
Transmembrane electron gradients
What are three main classes of antibiotics that target bacterial ribosomes?
- macrolides
- tetracyclines
- aminoglycosides
