Technical Oral Study Guide Flashcards
what is screening?
the examination and sampling of evidence for DNA analysis and/or preservation
the first step of the DNA analysis process
what is serology?
the testing and identification of bodily fluids (blood and seminal fluid)
what are the two serological tests that LSPCL uses for blood?
phenolphthalein (PHE) or Kastle-Meyer Test
ABAcard Hematrace
explain the PHE test and how it’s performed at LSPCL. are there any limitations to this test?
redox reaction
hemoglobin (Hb; from blood) loses two electrons and is the catalyst in breaking apart H2O2 (hydrogen peroxide) into two H2O (water) molecules
phenolphthalin donates two electrons back to Hb, so Hb remains unchanged, and phenolphthalin is oxidized into phenolphthalein resulting in the pink color change
- phenolphthalin is kept in its reduced state by adding zinc to the reagent bottle
add 1-2 drops of PHE to small cutting/swab. wait 30 seconds, then add 1-2 drops of H2O2. an immediate color change to pink will occur if the sample is presumptive positive for blood. no color change after 15 seconds = negative
NOTE: all samples will turn pink over time because of normal oxidation
limitation: not human specific
explain the hematrace test and how it’s performed at LSPCL. are there any limitations to this test?
what are the three presumptive serological tests at LSPCL used for semen?
explain the acid phosphatase (AP) test and how it’s performed at LSPCL. are there any limitations to this test?
explain the ABAcard p30 test and how it’s performed at LSPCL. are there any limitations to this test?
what is the only confirmatory test we use at LSPCL for semen? explain the test (dyes, etc) and why it is considered confirmatory. are there any limitations?
what is DNA extraction and what are the two goals?
isolation and purification of DNA
two goals: maximize the amount of high quality DNA recovered by removing inhibitors and removing nucleases that promote the breakdown of DNA & separate DNA from other cellular components
how much DNA can be recovered from a single diploid/haploid cell?
~6 pg/diploid cell
~3 pg/haploid cell
what are the two extraction methods we use at LSPCL?
- solid phase: silica coated magnetic beads
- differential extraction
explain the 4 basic steps of solid phase extraction
- lyse – cells are lysed using a tissue lysis buffer (ATL, G2, MTL) with pK & DTT added to break down histones and allow the DNA to be unwound
- bind – DNA becomes attracted to the silica beads due to the low pH and high chaotropic salt concentrations
- wash – the bound DNA is washed with a wash buffer ensuring the removal of contaminants and proteins
- elute – concentrated and purified DNA is eluted in TE buffer; it is eluted into high pH and low chaotropic salt concentrations
how does the DNA become bound to the silica beads?
chaotropic salts are introduced that lower the pH of the solution
the low pH causes the DNA to become (-) charged and the beads (+) charged
the DNA is then attracted to the beads
once the salts are washed away, the pH raises up again, which causes the DNA to become eluted
what reagent can be added to samples with suspected low amounts of DNA during extraction to increase the recovery yield and why?
carrier RNA (cRNA) – it drives the binding process of the DNA to the silica beads by adding nucleic acids
list the 6 reagents used during extraction and briefly describe their purposes
- ATL buffer – tissue lysis buffer. Aids in cell lysis so the DNA is exposed
- G2 buffer – tissue lysis buffer, but is gentler than ATL. Used in differential extractions to lyse the epithelial cells first.
- proteinase K (pK) – serine protease that digests proteins imbedded in the cell membranes, inactivates nucleases that break down DNA, and breaks down histone proteins allowing the DNA to unwind
- dithiothreitol (DTT) – breaks down the disulfide bonds of cell membranes allowing the release of DNA. Especially crucial for digesting hair & sperm cells. Additional to help lyse
- MTL buffer – added by EZ2 instrument to large volume extractions. Lysis buffer with chaotropic salts
- carrier RNA (cRNA) – enhances binding of DNA to surface of magnetic beads, especially helpful when low amounts of DNA are expected. Introduces extra nucleic acids. Added to all evidence samples, references that are expected to be low quality DNA (dead bodies, etc.) but if you add to one reference, you must add to all references on protocol + the EB
what is a differential extraction and how does it work?
the goal is to separate two cell types, in our case, sperm cells and epithelial cells
procedure –
Qiacube
- non-sperm cell lysis by adding G2 and pK and incubate (fraction 1, F1; epi cells)
- centrifuge: supernatant contains free DNA from epi cells; sperm pelleted at bottom (still intact)
- remove supernatant without disturbing sperm pellet = F1
- sperm cell lysis by adding ATL, pK, DTT fraction 2, F2)
- add cRNA before purification
- purification via EZ2
what are inhibitors? what are three basic types of inhibitors (list a few examples of each)? how do we overcome them?
inhibitors are compounds that impede the PCR rxn by interfering with the reaction between DNA and Taq polymerase
can co-extract with DNA and cause partial profiles or no DNA results
3 main types –
1. internal inhibitors: found in bodily fluids
a. Heme in blood
b. Bacteria in vaginal/fecal samples
c. Calcium in bone/teeth
d. Urea in urine
e. Spermine and spermidine in semen
2. substrate inhibitors: found in the environment
a. Textile dyes (indigo dyes in denim)
b. Tannic acid in leather
c. Humic acid in soil
d. Organic compounds in food (calcium in milk)
3. inhibitors from extraction process
a. Chaotropic salts
b. Silica beads
c. Detergents (ATL, MTL, G2)
d. Proteases (pK)
to overcome inhibitors –
EZ2 purification is extremely efficient at removing inhibitors
real time PCR quantification kits assess inhibition through use of an internal PCR control (IPC)
diluting the sample to dilute inhibitors, but it will also dilute the DNA
what are controls?
samples used to demonstrate a method works correctly & to ensure data are valid
they are utilized throughout the whole DNA process
we have positive and negative controls
briefly describe the three controls we use at LSPCL
- extraction blank (EB) – detects contamination of extraction reagents (introduced at the beginning; extraction); each ext. set utilizes an EB; follows the samples through the whole process
- positive amplification control (PC) - introduced at amplification; known DNA profile to ensure all processes worked properly
- negative amplification control (AB) – amplification blank; introduced at amplification; no DNA profile, same as the EB - can detect contaminants
what is quantification and what are the three reasons we do it?
quantification is determining the quantity and quality of DNA; this process is used to make downstream processing decisions
3 reasons:
1. determining the quantity and quality of the human DNA available for amplification (important for data analysis)
2. we need to hit the optimized target range for DNA amplification (1ng) because too much or too little DNA will affect the electropherogram results
3. FBI QAS requirement – standard 9.4
briefly explain TaqMan chemistry in qPCR
utilizes a TaqMan probe (the probe has a reporter dye on the 5’ end and a quencher on the 3’ end) that hybridizes to complementary targets on the DNA strand between the forward and reverse primers
when the reporter dye and the quencher are in close proximity, the quencher causes suppression of the fluorescence of the reporter
Taq polyermase has 5’-3’ exonuclease activity which cleaves only the probes that have annealed to the target sequence and as the reporter disassociates from the quencher, it results in an increase of fluorescence from the reporter allowing for quantitative measurements of the accumulation of the product
describe the PowerQuant kit we utilize at LSPCL
it is a 5-dye, 4-target hydrolysis probe-based qPCR multiplex that amplifies multicopy targets to quantify the total human & human male DNA present in a sample (also detects degradation/inhibition)
it measures fluorescence over time (the more DNA = the more fluorescence)
4 targets –
1. autosomal DNA: 84 bases
2. Y DNA: 81 bases & 136 bases
3. degradation: 294 bases
4. inhibition: 435 bases
describe the 4 phases of qPCR
- lag phase – baseline; measures background noise; before significant product formation; PCR product is increasing but fluorescence is too low to be detected
- exponential phase – close to, if not 100% efficiency, amplicon formation is doubling each cycle since the PCR components are in excess; optimal place to measure fluorescence
- linear phase – reaction efficiency slows to an arithmetic increase; PCR components start to fall below critical concentration causing the amplification efficiency to slow
- plateau phase – product formation has diminished; PCR components have been exhausted and reached the end of effectiveness
what is the Ct/q value?
cycle threshold/ quantification cycle – cycle at which fluorescence exceeds a threshold (cycle threshold) for baseline noise
it is inversely proportional to amount of starting template DNA
low Cq value = less cycles for fluorescence = more DNA
high Cq value = more cycles for fluorescence = less DNA
the software calculates the DNA concentration based on the CT/q value of the sample and comparing it to the standard curve CT/q’s
explain the standard curve for qPCR
the standard curve is a graph of the Ct/q of the standards vs. the Log of the concentration of the standards
there are four standards - the values are collected during the exponential phase of the PCR reaction
a regression line is calculated using the best fit curve with the quantification standard data points
regression line formula: Ct/q = m(LogQTY) + b
what are the concentrations of the standards used at LSPCL for qPCR and how do we make them?
- 50ng/ul = 50µl undiluted male standard only
- 2ng/ul = 4ul undiluted male standard + 96ul dilution buffer
- 0.08ng/ul = 4µl of 2ng/µl standard + 96µl dilution buffer
- 0.0032 ng/ul = 4µl of 0.08ng/µl standard + 96µl dilution buffer
NTC = 50µl dilution buffer
what values do you need to assess from the standard curve?
- R2 value is a measure of the closeness of fit between the standard curve regression line and the individual CT/q data points of the standards
1 is perfect; >0.99 is close fit - slope indicates the PCR amplification efficiency for the assay
-3.3 indicates 100% efficiency; an acceptable slope range is -3.1 to -3.6 - y-intercept indicates the expected CT/q value for a sample with a quantity of 1ng/ul; in other words, it is the y value when the x value equals 0
what is the IPC in qPCR?
it is a novel DNA sequence included in the primer mix that provides confirmation that all assay components are functioning as expected and confirm the validity of negative results while providing the ability to determine if the sample is inhibited
evaluation occurs by observing a potential shift in the IPC value greater than what has been established through a lab’s validation (LSPCL ≥ 0.3)
what are the 4 components in the PQ kit?
PQ 2X master mix
PQ 2X primer/probe/IPC mix
water, amplification grade
CXR dye
what is CXR dye?
a passive reference dye included in the PCR master mix and it is present in all wells of the reaction plate at the same concentration
our software normalizes each reporter signal by dividing it by the fluorescent signal of the passive reference dye allowing the software to account for variations in signal caused by pipetting inaccuracies/instrument fluctuations and make better well-to-well comparisons of the reporter signal
describe how fluorescence is detected on the QS5
sample wells are illuminated with a bright white light emitting diode (LED)
light first passes through five excitation filters and the optical adhesive cover before reaching the sample wells
the fluorescent dyes are excited and pass through five emission filters which are then detected by a CMOS (Complementary Metal Oxide Semiconductor) camera
the fluorescent dyes used have a λ in 500nm - 700nm range; depending on the wavelength, filters separate light across detectors
the electrical signal is then read by the software with the background fluorescence being removed
at LSPCL, how many cycles of qPCR are there for quant?
39 cycles
what is amplification and what are the three purposes?
the process of making copies of the target DNA sequences
3 purposes –
1. target specific regions of DNA
2. generate millions of copies of the target regions
3. needed to detect STR fragments during capillary electrophoresis by tagging the target sequences with fluorescent dyes
what are STRs?
short tandem repeats (aka microsatellites) - short DNA sequences that are repeated several times in a row
they are small polymorphic regions, made up of 2-6 base pair repeat units, which allows for multiplexing and is compatible with degraded DNA and the number of repeats differ between individuals and various populations
what are the 4 various repeating structures found in STRs?
- simple repeats - consist of one repeating sequence of identical length and sequence; some can have non-consensus (microvariant) alleles such as 9.3
- compound repeats - consists of repeating sequence of identical length but a variable sequence
- complex repeats - consists repeats of variable length as well as variable sequences
- complex hypervariable repeats - have numerous non-consensus alleles that differ in size and sequence
what is the most common STR marker found in Fusion 6C?
tetra-nucleotides (4 base pair repeat units)
what is PCR? describe the basic steps
polymerase chain reaction – a process by which specific regions of DNA can be replicated to yield multiple copies
a small amount can be copied in large quantities over a short period of time
3 steps –
1. denaturation: the two DNA strands are denatured or separated by heat
2. annealing: the sample is then cooled to allow the primers to anneal to the DNA segments
3. extension: the temperature is raised to allow the DNA polymerase to add nucleotides to extend the primers to produce a copy of each DNA template strand
- final extension - adenylation
describe the PCR thermal cycling steps used at LSPCL for Fusion 6C
incubation – 96*C for ~1 minute
29 PCR cycles
- denature – 96C for ~5 seconds
- anneal/extension – 60C for ~1 minute
final extension – 60*C for ~10 minutes
what does multiplexing mean?
it’s when more than one region is copied simultaneously by adding more than one primer set to the reaction
with multiplexes, the primer design, components, and thermal cycling parameters need to be optimized
what is another name for PCR products and at what cycle does doubling of the product theoretically start and why?
amplicons
3rd cycle
- the first cycle produces an amplicon starting with the primer and everything afterward; meaning more is copied than just the target sequence
- the second cycle produces two amplicons of only the target sequence; however, only the one with the forward primer will be detected since it is the only primer tagged with a fluorescence dye
- at the beginning of third cycle, you now have one sequence of only the targeted area with the probe and at the end of the third cycle you will have two with the tagged fluorescence dye
how many loci are amplified with the F6C kit?
27 total loci
23 autosomal & 4 sex determining
why are primers added in higher concentrations of DNA to the amplification rxn?
primers are added in higher concentrations to help drive the PCR rxn forward
what are primer dimers?
when primers bind and interact with each other
what are the 8 components that are required in PCR reactions?
- DNA template
- primers
- DNA (Taq) polymerase
- bovine serum albumin (BSA)
- potassium chloride
- magnesium chloride
- deoxynucleoside triphosphates (dNTPs)
- buffer Tris-HCl
what are dNTPs?
building blocks used to create new replicate DNA strand
four synthetic nucleotides consisting of a base bonded to a sugar bonded to a phosphate group - dATP (adenine), dCTP (cytosine), dGTP (guanine), dTTP (thymine)
dNTP complementary to bases are added one by one
lower concentration minimizes mispairing and reduces the likelihood of extending misincorporated (mix-matched bases; promotes chain termination) nucleotides
