troubleshooting – common amplification and ce errors/ issues
DESCRIPTION
Troubleshooting – Common Amplification and CE Errors/ Issues presentation given at the 2013 Life Technologies Forensic Seminar SeriesTRANSCRIPT
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Troubleshoo*ng – Common Amplifica*on and CE Errors/Issues April Orbison Sr. HID Field Applica6ons Specialist
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9/18/13 | © Life Technologies™ 2
Overview
§ Trouble Shoo6ng Tools
§ Common Capillary Electrophoresis Instrument Issues and Observa6ons
§ Common Amplifica6on Observa6ons
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Overview
§ Trouble Shoo6ng Tools
§ Common Capillary Electrophoresis Instrument Issues and Observa6ons
§ Common Amplifica6on Observa6ons
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Troubleshoo*ng Tools Data is usually viewed in the following order:
§ Raw data
§ EPT data/Status view (during run)
§ Capillary view
§ Instrument logs
§ Analyzed data − usually seen first by customer
§ Service tools and soKware (Field Service Engineer)
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Why Review Raw Data First?
Data has not been manipulated/analyzed by GeneMapper® soKware − No baselining/No smoothing − No peak detec6on − No sizing − No allele detec6on − No table construc6on
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What Raw Data Should Look Like!
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Poor Raw Data
Data analyzed correctly, but precursor to a problem
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Poor Raw Data
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Review Raw Data: Internal Size Standard
§ If prepared properly, the size standard is incorporated into every sample along with HI-‐DITM Formamide
§ Scan for paSern, resolu6on, peak morphology and peak heights of the size standard − Can be used to determine if the instrument hardware and consumables (i.e. polymer, buffer, capillary/array) are working properly
− In other words, can help you determine if the problem is related to capillary electrophoresis
§ Just takes a quick review of the raw data for EACH sample
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Troubleshoo*ng Tool: GS500 LIZ & GS500 ROX
§ All present
§ Good morphology
§ Clean baseline
§ Adequate signal intensity
§ Rela6vely balanced peak heights
§ Check migra6on by reviewing 250 bp peak (analyzed data)
GeneScan™ 500 LIZ® Internal Lane Size Standard
triplet 75
1st
doublet
450
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Troubleshoo*ng Tool: GS600 LIZ® Size Standard
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Review Raw Data: Evaluate Ladders
§ Ensure size standard and ladder peaks are present and have good morphology
§ Ensure ladder peak heights are at least above Peak Amplitude Threshold (PAT)
§ Must have at least one passing ladder per plate − If there is only one ladder and it fails, en6re plate must be rerun
§ If you are using GMID 3.X, remove any failing ladders prior to analysis − If not removed, they will all get averaged…throws off good ladders − GMIDX soKware will automa6cally ignore failing ladders
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Review Raw Data: Evaluate Ladders
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Use of the Size Standard & Allelic Ladder
Good Quality Size Standard/Ladder Profile
Poor Quality Size Standard/Ladder Profile
Good Quality Result from Unknown DNA Sample(s)
Single Sample or Few Samples:
All Samples:
Poor Quality Result from Unknown DNA Sample(s)
Single Sample or Few Samples:
All Samples:
No Issues
Investigate sample history and all steps prior to electrophoresis
(extraction method, quant results, amplification parameters)
Verify master mix made properly (master mix dispensed in well, insufficient mixing)
Investigate size standard (expiration, storage) & ladder
Possibly bubbles/poor injections
Investigate instrument, reagents & consumables
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Review Raw Data: Check Peak Heights & Analysis Range
Analysis Start Point -past primer peak -before 75 peak
Analysis Stop Point Anywhere after 450 peak**
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EPT Data/Status View
§ Compare a known, good EPT file with problem file
§ Ambient temperature
§ Oven temperature
§ Be aware that default run voltage, injec6on voltage, laser power, dynamic range and injec6on 6me vary between CE pla_orms
EPT = Electrophoresis, Power & Temperature
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Default Run Parameters § 3130 and 3130xl
− Run voltage: 15,000 − Injec6on voltage: 3,000 − Laser Power: 15 − Injec6on Time: 3130 = 5 sec 3130xl = 10 sec − Typical camera satura6on = ~7,000+
§ 3500 and 3500xl − Run voltage: 15,000 (13,000 for Globalfiler kits) − Injec6on voltage: 1,200 − Laser Power: 10 − Injec6on Time: 3500 = 15 sec 3500xl = 24 sec − Typical camera satura6on = ~24,000+
§ 3730 − Run voltage: 15,000 − Injec6on voltage: 2,000 − Laser Power: 25 − Injec6on Time: 3730 = 10 − Typical camera satura6on = ~24,000 +
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Naviga*ng an EPT File
2
3
4 5
1
1. Oven & cell heater stabilize at set temperature
2. Pre-‐run ● equilibrates ion balance in system
3. Injec6on 4. Ini6al separa6on
● voltage stepped up gradually
5. Separa6on ● data collec6on
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EPT Data
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Capillary View: What to Look For
1. Signal intensity
2. Loss of resolution
3. Migration issues
4. Missing capillaries
5. Possible patterns
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Instrument Logs
§ Can tell you where or what the problem is
§ Trust them!
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Analyzed Data § Analyzed data is usually what people oKen view first and deem as being good or bad
§ This spurs ques6ons and concerns and may develop into a call to AB
§ Flip side is data may seem to analyze correctly, yet s6ll have problems
§ This is why we start by looking at the Raw Data first
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Check the Controls: AmpFℓSTR® Kit Posi*ve Control § Sample of known origin that is provided in each AmpFℓSTR® kit at a certain concentra6on* − Different kits have different posi6ve controls that may be supplied at different concentra6ons
§ When used according to protocol and when system is working normally, posi6ve control should consistently and reliably produce the same results each and every 6me
§ Primary purpose is to serve as a genotyping control to show that amplifica6on progressed normally − Can also help diagnose capillary electrophoresis problems and soKware analysis issues
*Posi6ve controls are genotyping controls only, not quan6ta6on controls
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Use of the Posi*ve Control Good Quality
Positive Control Result Poor Quality
Positive Control Result Good Quality Result from Unknown DNA Sample(s)
Single Batch:
All Batches:
Poor Quality Result from Unknown DNA Sample(s)
Single Batch:
All Batches:
No Issues
Investigate sample history, extraction method, quant results,
dilution ratios, TE-4, sample inhibition/degradation
Failure to add control DNA; See if reproducible
Investigate control DNA (expiration, storage, contamination, etc.)
Mistake made during master mix prep; TC failure; See if reproducible
Investigate kit reagents (expiration, storage, contamination), TC (parameters,
malfunction, temp verification)
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Check the Controls: Internal Laboratory QC Controls
§ Known standard with a known DNA profile from the customer's lab or purchased from a manufacturer
§ OKen taken through the en6re process from extrac6on through data analysis
§ Used in conjunc6on with the previously men6oned controls to determine if the en6re process is working properly − Can help determine which stage of the process had an error
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Overview
§ Trouble Shoo6ng Tools
§ Common Capillary Electrophoresis Instrument Issues and Observa6ons
§ Common Amplifica6on Observa6ons
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Common Capillary Electrophoresis Instrument Issues and Observa*ons § Front –End Troubleshoo6ng
§ Migra6on Problems
§ Avoiding Bubbles
§ Shadow Peaks
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Common Capillary Electrophoresis Instrument Issues and Observa*ons § Front –End Troubleshoo6ng
§ Migra6on Problems
§ Avoiding Bubbles
§ Shadow Peaks
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Front-‐End Troubleshoo*ng
§ Common Front-‐End Problems − Fluorescent contamina6on − Low or no signal − Failed injec6ons − Loss of resolu6on − Inconsistent peak migra6on − Erra6c EP current − Extraneous peaks (spikes)
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What is the Front-‐End?
§ Pump & polymer blocks
§ Buffer & water reservoirs/jars
§ Ferrules and tubing
§ Capillary array
§ Polymer, buffer, water
§ 96-‐well plates & septa
The Front-End includes all replaceable hardware, reagents & consumables
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Indica*ons of Possible Front-‐End Problems § Allelic ladder and size standards exhibit the same problems as the sample data
§ Poor data occurs across mul6ple plates
§ The same samples run on another instrument do not exhibit the same problems
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Fluorescent Contamina*on
Possible Causes
§ Poor quality water or reagents (buffer, polymer, formamide)
§ Incorrect or infrequent cleaning of system components
§ Contamina6on origina6ng from the sample
§ Improper use of canned air
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Separated Baseline Due to Fluorescent Contaminant
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No Data / No Signal Possible Causes § Injec*on problem
− Air bubble in sample tube − No current between electrode and
capillary (air bubble in electrophoresis system)
− Sample volume in tubes too low − Sample (& size standard) not
added − Subop6mal autosampler
calibra6on − Clogged/poor capillary/array
§ Detec*on problem − Dead laser (no signal) − Poor spa6al calibra6on
Raw Data
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Low Signal
Possible Causes
§ Poor quality system reagents (polymer, formamide, buffer, water)
§ Incorrect sample prepara6on
§ Subop6mal autosampler calibra6on
§ Poor/improperly stored/exhausted array or capillary
§ Bubbles/Failure to centrifuge plates
§ Contaminant
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Loss of Resolu*on
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Loss of Resolu*on Possible Causes § Poor water quality
§ Poor quality system reagents
§ Insufficient capillary filling − Leak in the system fitngs
§ Air in the system − Bubbles
§ Impuri6es − Protein, salts − Detergents
§ Poor/exhausted array
§ Poor instrument maintenance
Raw Data
Analyzed Data
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Raw
Spikes: Analyzed vs. Raw Data
Analyzed
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Example of Spikes in the Allelic Ladder
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Spikes: Possible Causes Possible Causes
§ Dust or lint from non-‐lint free 6ssues
§ Dried polymer deposits
§ Dried buffer deposits
§ Old or poor quality formamide
§ Air bubbles
§ Electrical surges
§ Poor/exhausted capillary/array
§ Improper use of canned air
§ Use of powdered gloves
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No*ce a Trend?
§ All of the previously men6oned problems share many of the same causes
§ The trend will con6nue…
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Steps to Resolve Front-‐End Problems § Check array for damage (detec6on cell and load end)
§ Perform water wash using high quality water source − At least 18 MΩ
§ Install fresh polymer, buffer and water
§ Clean the buffer jar and buffer/water/waste reservoirs
§ Set up samples with fresh aliquot of HI-‐DITM Formamide and new septa
§ Inject allelic ladder and size standards for 10 consecu6ve runs to see if data problems persist
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If Problems Persist § Install array port plug and perform water wash 4X with 40ºC boSled water
− Run water wash wizard through the step that flushes the PDP with water
− At this point, cancel the wizard and start it again − Do this un6l the pump system has been flushed 4X
§ Install a new array
§ Set up instrument with high quality water and different lot of polymer/buffer
§ Inject new lot of allelic ladder and size standards for 10 consecu6ve runs to see if data improves − Set up with different lot of HI-‐DITM
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Common Capillary Electrophoresis Instrument Issues and Observa*ons § Front –End Troubleshoo6ng
§ Migra6on Problems
§ Avoiding Bubbles
§ Shadow Peaks
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Peak Migra*on Problems
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Peak Migra*on Problems: Common Causes § Polymer on instrument for >7 days
§ Poor/expired reagents; poor quality water § Buffer
− Not changed daily − 1X buffer not prepared correctly − Incorrect buffer level on anode and/or cathode side
§ Ambient room temperature fluctua6ons
§ Bubble in path of EP current − Can be in the capillary or in the polymer tubing/block
§ Contaminant in front-‐end
§ Non-‐AB® sample plates (injec6on abnormali6es)
§ Incomplete filling of capillary with polymer − Check for leak at pump fitngs, detec6on cell or damaged lower block
§ Oven gasket (addressed by AB® retrofit)
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Steps to Correct Migra*on Problems § Check for polymer leak at PDP fitngs and at lower block pin valve
§ Be sure to use high quality water source for: − Cleaning the system − Making 1X buffer − Filling the water/waste reservoirs
§ Perform water wash and install fresh polymer, buffer, water and septa
§ Set up samples with fresh aliquot of HI-‐DITM formamide
§ Maintain consistent lab temperature (20-‐30ºC)
§ Use AB® sample plates & always spin down plates
§ If problems persist, replace the array
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<19°C
24.5oC
Influence of Environmental Temperature Comparison of EPT view
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Influence of Environmental Temperature Low Molecular Weight Peak Morphology
3130xl System: rt = 18 °C
3130xl System: rt = 21°C
3100 System: rt = 23°C
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Common Capillary Electrophoresis Instrument Issues and Observa*ons § Front –End Troubleshoo6ng
§ Migra6on Problems
§ Avoiding Bubbles
§ Shadow Peaks
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Problems Ocen Caused by Bubbles § Failed injec6ons
§ Inconsistent peak migra6on
§ Spikes in data
§ Damage to interconnect tubing and/or PDP
§ Lower block damage
§ “Leak detected” errors
§ Erra6c EP current
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Lower Block Damaged by Bubbles: Arcing
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More Damaged Lower Blocks
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Erra*c EP Current Due to Bubbles
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Avoiding Bubbles § Warm & degas polymer prior to installing
− Allow polymer to sit at room temperature for at least an hour with cap loosened
§ Changes in ambient temperature can result in bubble forma6on − Be sure the lab thermostat is set to a consistent temperature 24 hours a day (20-‐30ºC)
− Do not place the instrument next to hea6ng or air condi6oning vents
§ Periodically check that all PDP fitngs are finger-‐6ght
§ Check for bubbles every day in the pump chamber, tubing, array port
§ Use Bubble Remove Wizard to get rid of bubbles
§ Stubborn bubbles may require a Water Wash Wizard
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Common Capillary Electrophoresis Instrument Issues and Observa*ons § Front –End Troubleshoo6ng
§ Migra6on Problems
§ Avoiding Bubbles
§ Shadow Peaks
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���What are Shadow Peaks? § The ar6fact peaks appear as “shadow peaks” to true DNA peaks observed in the electropherograms of amplified samples co-‐injected with GeneScan™ 500 ROX™ or GeneScan™ 500 LIZ® size standard.
§ In most cases, these ar6facts are most prevalent in the dye channel corresponding to the size standard and do not affect accurate sizing of the size standard peaks.
§ Results of inves6ga6ons performed at Applied Biosystems to determine the cause of the shadow peaks suggest that the peaks are caused by pre-‐ and/or post-‐injec6on hybridiza6on.
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Hypothesis § The extra peak is most likely the non-‐denatured form (dsDNA) of the fragment (ssDNA) − dsDNA could migrate faster than ssDNA for two reasons
> Primary effect: dsDNA has twice as many nega6ve charge than ssDNA
> Configura6on of dsDNA makes faster migra6on more favorable
− The sum of the peak height (dsDNA + ssDNA) within a locus is conserved between a non-‐denatured and denatured sample
General schematic of CE
Some fragments are present as dsDNA and travel faster than ssDNA during CE injection. It denatures once it hits the oven.
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Verifica*on Study Replacement of Water Wash with Buffer
Experiments have been performed which demonstrate the elimina6on or significant reduc6on of the shadow peaks on Applied Biosystems® 3130 Gene6c Analyzers when the water in the water reservoir rinse tray (tray 4 in figure below) is replaced with 1X Gene6c Analyzer Buffer.
Note: The configuration for the 3100 is slightly different. See manual for configuration.
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§ GeneScan™ 500 LIZ® and GeneScan™ 500 ROX™ size standards as well as in samples amplified with the AmpFlSTR® Iden6filer® kit and co-‐injected with GeneScan ™ 500 LIZ® size standard.
§ Studies were performed to examine the impact of the buffer replacement: − genotype concordance, precision, peak resolu6on, intracolor balance, and overall peak height
− AmpFlSTR® SGM Plus and AmpFlSTR® Iden6filer® kits analyzed on 3100 and 3130xl capillary electrophoresis instruments.
Verifica*on Study Replacement of Water Wash with Buffer
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Results – Shadow Peak Ra*o
GS500 LIZ Identifiler High Input DNA
Note: GS500 LIZ - 20 hours after mixing with HI-DITM; 9947A - 6 ng reaction, 15 hours after mixing with HI-DITM
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Verifica*on Study Replacement of Water Wash with Buffer
§ Shadow Peak Height Ra6o − Undetermined because shadow peaks were not observed − Buffer wash reduced peak height ra6o from 2-‐20% to 0-‐2% (ABJ MCB)
§ Peak Height − Calculated rela6ve change in peak height from water to buffer wash − Decreased by an average of 18%
§ Genotype Concordance − 100% concordance for samples with complete profile − Number of incomplete profiles increased with 0.125ng samples most likely due to
decrease in peak height
§ Sizing Precision − No differences due to water or buffer capillary wash − Met specifica6on; standard devia6on below 0.15bp for all alleles
§ Intracolor Balance − Similar results between water and buffer wash
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Shadow Peaks Are Not Restricted to the ILS
§ Not all loci showed this problem
§ Data generated below followed normal CE procedures except they have omiSed the denatura6on step − The customer solved the problem by rerunning and/or denaturing the samples
2 peaks
4 peaks
2 peaks
4 peaks
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Shadow Peaks -‐ Conclusion § The extra peaks (shadow peaks) observed are non-‐denatured fragments
§ These peaks were present due to incomplete denatura6on
§ Not all of the dye and loci were affected – indica6ng that some fragments are harder to denature.
§ Shadow Peaks generally appear first in the size standard.
§ During tes6ng, it was generally found that arrays with high number of runs (over 200 runs) are more prone to shadow peak forma6on.
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Shadow Peaks -‐ Recommenda*ons § The following recommenda6ons can help minimize observa6on of the shadow peaks:
− Target an appropriate amount of input DNA. > Excess DNA loading on the capillary 6p is more likely to cause shadow peak
forma6on. > Exceeding recommended DNA:formamide ra6o results in reduced denaturing
− Perform capillary electrophoresis tes6ng on freshly prepared plates (<8-‐24 hours). − Ensure proper aliquo6ng and storage of HI DI™ formamide to avoid uptake of water
in the formamide.
§ If shadow peaks are observed in a par6cular injec6on, the following steps may reduce or eliminate the peaks: − Re-‐inject the prepared sample. − If no improvement in results is seen, re-‐denature the sample by hea6ng to 95°C for
3 minutes and chilling for at least 3 minutes on ice and re-‐inject. − If again no improvement is seen, re-‐prepare the amplified product with fresh HiDi™
formamide and size standard, denature and re-‐inject.
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Carryover Introduc*on
§ Customers have reported seeing carryover in 3130 Series Gene6c Analyzers in recent years
§ Communica6ons issued in July 2010 and June 2012 reiterated that carryover, among other aspects of capillary electrophoresis (CE) is one of the factors to consider when performing data analysis. (References: Maximizing the Performance of Capillary Electrophoresis Systems, Life Technologies Forensic News, July 2010 and Considera:ons for Evalua:ng Carryover on Applied Biosystems Capillary Electrophoresis Pla?orms in a HID Laboratory, Life Technologies Technical Note, June, 2012)
§ The primary mechanisms for minimizing carryover are the polymer fill and rinse steps of the run module, and the duck bill design of the septa to physically wipe the ends of the capillary. While this has always been the design since the original 310 Gene6c Analyzer, absolute removal of all PCR product cannot be guaranteed, only minimized.
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Carryover Introduc*on
§ “In contrast to crosstalk, which affects only adjacent capillaries within a single injec6on, carryover is defined as the physical transfer of DNA from one injec6on to the next. Therefore, carryover can affect both single and mul6-‐capillary pla_orms and, unlike a crosstalk evalua6on, the evalua6on of carryover is performed by evalua6ng the subsequent injec6on of a single capillary for any sign of signal from a previous injec6on.” Forensic News, July 2010
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Carryover Introduc*on
§ Con6nuous studies being performed from December, 2012 through March, 2013 in Foster City
§ Studies at Life Technologies have been performed to inves6gate the following: − What is the current incidence of carryover?
> Large study with many samples to es6mate expected frequency and level
− Will a beSer wash module help reduce carryover? > Engineering approach to designing an op6mal wash module
− Do older reservoir septa exhibit carryover? > Compared 2008 to 2012
− Do older arrays exhibit carryover? > Tested array from 2003
IMPORTANT: Many studies used par*ally off scale data to induce carryover and carryover counts may be inflated due to off scale data, however percent
carryover calcula*on were based on scale source data
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Carryover Summary
§ Confirmed carryover is part of CE analysis. We encourage laboratories to consider carryover when setng Analy6cal Thresholds.
§ Confirmed carryover using 5 year old septa and 10 year old array. Incidence of carryover is variable but has no apparent correla6on to specific capillaries or specific septa.
§ As with all signal, instrument sensi6vity can affect magnitude of carryover. There is no evidence that recent manufacturing processes have ins6gated the recent reports of carryover.
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Carryover Summary
§ Increased focus on calcula6ng Analy6cal thresholds combined with improved baselines from next genera6on STR chemistry may contribute to the ability for customer’s to visualize carryover.
§ Carryover is generally <1% and, with on scale source data, should be commonly less than 50 RFU on a 3130 (50/7000=1%). Labs that are analyzing data below this threshold are recommended to carefully evaluate the impact on data interpreta6on.
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Future Plans
§ Inves6ga6ons ongoing
§ Further op6mize a final wash module for customers who would like to reduce carryover events
§ Inves6gate the incidence of carryover on other instruments. To date no confirmed reports of carryover on the 3500 Gene6c Analyzer with on-‐scale data. The reservoir septa design is different on the 3500 compared to the 3130 Gene6c Analyzer.
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Overview
§ Trouble Shoo6ng Tools
§ Common Capillary Electrophoresis Instrument Issues and Observa6ons
§ Common Amplifica6on Observa6ons
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Common Amplifica*on Observa*ons
§ Ar6facts − Incomplete A nucleo6de addi6on (-‐A) − Dye-‐labeled ar6facts
§ Overamplifica6on
§ Par6al profiles/Imbalanced profiles − Stochas6c effects − Inhibi6on − Degrada6on
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Common Amplifica*on Observa*ons § Ar6facts − Incomplete A nucleo6de addi6on (-‐A) − Dye-‐labeled ar6facts
§ Overamplifica6on
§ Par6al profiles/Imbalanced profiles − Stochas6c effects − Inhibi6on − Degrada6on
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What are Ar*facts? § Inherent anomalies in molecular biology systems
− Ar6facts will always exist − Can cause interpreta6on issues for forensic samples
§ Two sources of ar6facts − PCR-‐related
> E.g. StuSer, -‐A peaks, Dye-‐Labelled molecules
> Usually reproducible (observed when sample is re-‐injected)
− Post PCR and CE Instrument-‐related > E.g. Spikes > Usually non-‐reproducible (NOT observed when sample is re-‐injected)
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Addi*on of 3’ Non-‐templated ‘A’ Nucleo*de
§ Inherent feature of AmpliTaq® enzyme
§ Primers are designed to maximize ‘A’ addi6on rather than try to prevent it
§ Post PCR incuba6on at 60oC provides more 6me for ‘A’ addi6on
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Incomplete Addi*on of 3’ Non-‐template ‘A’
Possible Causes
§ Too much input DNA − Not enough 6me to add ‘A’ to all products − ‘A’ nucleo6des may become limi6ng
§ Incorrect thermal cycling parameters − Failure to program final 60oC extension step
§ Use of a non-‐validated thermal cycler/block
§ Thermal cycler failure
§ Poor/incorrect storage of enzyme
§ Reduced/altered reac6on volumes
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-‐A vs. Split Peaks Due to Cold Temperatures
§ Which is –A and which is caused by electrophoresis?
§ Solu6on: Re-‐inject − If split peaks disappear upon re-‐injec6on on another CE or when room
temperature is higher, problem is not related to amplifica6on
§ To resolve –A: − Discover source of problem (see previous slide) − Rec6fy source of problem − Re-‐amplify under proper condi6ons
vs.
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Decreasing Injec*on Time
Decreasing injec6on 6me does not remove the –A!
5 sec injection!
1 sec injection!
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Dye-‐Labeled Ar*facts
§ Usually have abnormal peak morphology
§ Most ar6facts have been characterized by Applied Biosystems and published in kit user manuals
§ With proper use of kit, ar6facts should remain below 50 RFUs
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Dye-‐Labeled Ar*facts Exaggerated by:
§ Excessive exposure to heat or light Ø Do not denature longer than 3-‐5 minutes Ø Increased 60°C PCR extension 6me
§ Improper storage of reagents § Shipping/handling issues § Use of expired or degraded reagents § Using non-‐validated PCR system § Reduced/altered reac6on volumes § Increased injec6on 6me § Using more than the recommended PCR product for electrophoresis
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Common Amplifica*on Observa*ons
§ Ar6facts − Incomplete A nucleo6de addi6on (-‐A) − Dye-‐labeled ar6facts
§ Overamplifica6on
§ Par6al profiles/Imbalanced profiles − Stochas6c effects − Inhibi6on − Degrada6on
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Overamplifica*on
§ Presence of pull-‐up peaks, increased stuSer ra6os, noise and -‐A peaks
§ Poor peak morphology
§ Compromised interpreta6on
§ Off-‐scale data flagged by GeneMapper® ID SoKware
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Overamplifica*on – Possible Causes § Too much input DNA − DNA not quan6tated before addi6on − Quan6ta6on method inaccurate
> Results outside dynamic range − Ideal solu6on is to dilute and re-‐quan6tate prior to amplifica6on
> Refer to quan6ta6on presenta6ons for troubleshoo6ng info
§ Too many PCR cycles
§ Reduced/altered reac6on volumes
§ Poor pipetng
§ Thermal cycler not performing properly
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Common Amplifica*on Observa*ons
§ Ar6facts − Incomplete A nucleo6de addi6on (-‐A) − Dye-‐labeled ar6facts
§ Overamplifica6on
§ Par6al profiles/Imbalanced profiles − Stochas6c effects − Inhibi6on − Degrada6on
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Par*al Profiles & Stochas*c Effects
Possible Causes
§ Insufficient DNA input/limited sample
§ Quan6ta6on − DNA not quan6tated − Inaccurate quan6ta6on method − Quan6ta6on method does not
provide an effec6ve indica6on of amplifica6on poten6al (e.g. Quan6blot)
§ Degraded or inhibited DNA
§ Improperly stored/expired reagents
§ Thermal cycler not performing properly
007 amplified at 1.0ng
007 amplified at 50pg
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Imbalanced Profiles: Degrada*on vs. Inhibi*on
Both usually represented by typical “ski slope” effect
Dis*nc*on requires close examina*on of:
§ Sample origin & extrac6on method u6lized − Source (whole blood, semen, 6ssue, etc.)
− Substrate
− Environmental element exposure
§ Quan6filer results − Inhibitors produce IPC with higher than expected CT values
− Degraded samples would not produce unexpected IPC results
§ DNA profile − Off-‐scale short amplicon peaks usually indicate inhibi6on
− Random marker dropout also usually indicates inhibi6on
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Sample re-amplified at AB with 50% DNA concentration
Still off scale
Sample Degraded?
PCR Inhibited
Imbalanced Profiles: Degrada*on or Inhibi*on?
Electropherogram from a Crime Lab
Off scale peaks
Sent Chelex extract of blood from victim to Applied Biosystems
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Imbalanced Profiles: PCR Inhibi*on Possible Causes
§ Too much input DNA (Preferen6al Amplifica6on) − DNA not quan6tated before addi6on − Quan6ta6on method inaccurate
> Refer to quan6ta6on presenta6ons for troubleshoo6ng info
§ Inhibitors present in the sample − Sample may require dilu*on or clean-‐up to reduce level of inhibi6on and improve profile quality
> Hema*n and Heme > Soil > Indigo dyes > Phenol > Etc.
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Reac*on Volume § Profiler Plus® & COfiler® kits are op:mized & validated with a 50 µl reac6on volume
§ Iden6filer®, Yfiler® & MiniFiler® kits are op:mized & validated with a 25 µl reac6on volume
§ Performance expecta6ons and interpreta6on guidelines documented in the AmpFℓSTR® Kit User Manuals are based on these validated reac6on volumes − E.g. Inter-‐ and intra-‐color balance; signal intensity; heterozygote peak balance;
stuSer percentage; capacity to cope with sample inhibi6on
§ Quality Control evalua6ons prior to kit release are performed at the validated reac6on volumes − Therefore, if your lab uses a reduced reac6on volume, it is possible that you
may see ar6facts/anomalies that we did not
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General Amplifica*on Recommenda*ons
§ Do not use any kit components beyond kit expira6on dates
§ Do not combine components from different kit lots (kits are QC’ed together as a lot)
§ Do not alter reac6on volumes or thermal cycling parameters from manufacturer’s recommenda6ons
§ Store all kit components appropriately: > Primer set, reac6on mix and controls stored at 2 to 8 °C (limit primer set
exposure to light) > Taq Polymerase stored at -‐15 to -‐25 °C > Ladders stored at -‐15 to -‐25 °C for long term storage; once in use, store at
2 to 8 °C
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Troubleshoo*ng Amplifica*on Summary § To minimize the number of amplifica6on issues:
− Ensure the correct amount of DNA is added to the reac6on through the use of an effec6ve quan6ta6on technique
− Follow manufacturer’s recommenda6ons for amplifica6on using the Applied
Biosystems Kits > Reac6on volume > Input DNA concentra6on > Use of a validated thermal cycler/block > Use of correct thermal cycling parameters
− Ensure thermal cycler calibra6ons and proper temperature verifica6ons are performed rou6nely
§ Unless otherwise directed, use colorless tubes/plas6cs throughout the analy6cal process as recommended by Applied Biosystems
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Thanks!
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Legal Statements
For Research, Forensic or Paternity Use Only. Not for use in diagnos6c procedures.
AB (Design), Applied Biosystems, GeneMapper, and HID (Design) are registered trademarks of Applied Biosystems or its affiliates in the US and/or certain other countries.
All other trademarks are the sole property of their respec6ve owners.
Please refer to the product inserts for informa6on on relevant patent coverage. For further informa6on contact the Director of Licensing, Applied Biosystems, 850 Lincoln Centre Drive, Foster City, California 94404, USA.