fundamentals of forensic dna typing
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Chapter 18 Future Trends. Fundamentals of Forensic DNA Typing. Slides prepared by John M. Butler June 2009. Chapter 18 – Future Trends. Chapter Summary - PowerPoint PPT PresentationTRANSCRIPT
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Fundamentals of Forensic DNA Typing
Slides prepared by John M. Butler
June 2009
Chapter 18Future Trends
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Chapter 18 – Future Trends
Chapter SummaryAs the power of forensic DNA typing has been demonstrated over the past two decades, there has been an accelerated growth to the field both in terms of depth and breadth. National DNA databases in the UK and US now number in the millions of samples and are actively used to solve crimes without suspects. While the standard set of STR markers in use will not likely change in the immediate future, techniques and genetic markers capable of extracting more information from a sample will continue to be developed. Trends in human identity testing will likely include the need for more characterized and validated genetic markers to aid application to more complex kinship analysis. Continued growth can be expected for the foreseeable future in this dynamic and important application of modern DNA science.
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Core set of markers(e.g., CODIS 13 STRs)
Past and Present
Future
(a)
(b)
(c)
(d)
Possible scenarios for extending sets of genetic markers to be used in national DNA databases
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Loci Described
Use in Casework
Court Presentation/ Acceptance
Internal Validation
ResearchGovernment
Funded or Private
Development
Typically by Commercial Manufacturer
ForensicApplicationForensic Labs
Assay Constructed
Population Study
Information GatheredReleased to Community
Kit Developed
Kit Tested
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Primary Steps in Adopting New Genetic Markers
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Lower amounts of DNA being
tested
Challengingkinship search
questionsStandard
STR Typing (DNA Profile)
Core Competency
Sufficient DNA quantity (ng)
Direct Matching (or Parentage)
Solution: Replicate Testing
Solution: Additional Markers (Y-chromosome, more STRs) and
Multiple Reference Samples
Touch DNA Attempts (poor quality, mixtures, low-level
stochastic effects)
Familial Searching Attempts (fishing for brothers or other relatives)
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Lower amounts of DNA being
tested
Challengingkinship search
questionsStandard
STR Typing (DNA Profile)
Core Competency
Sufficient DNA quantity (ng)
Direct Matching (or Parentage)
Solution: Replicate Testing
Solution: Additional Markers (Y-chromosome, more STRs) and
Multiple Reference Samples
Touch DNA Attempts (poor quality, mixtures, low-level
stochastic effects)
Familial Searching Attempts (fishing for brothers or other relatives)
Going Beyond the Core Competencies of Forensic DNA Testing
Be very cautious when outside the box…
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Problems of Sibling Searches
8,128,13
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9,129,13
Q(query)
K(database)
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Mother’s alleles
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A “Crystal Ball” to the Future?
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Progress is Being Made…
The Future
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The DNA Field Moves Forward…
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The FutureThe Past The Present
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500 – 25,000 bp 100 - 500 bp 50 - 150 bp
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Lab Automation
• Robotics• LIMS• Expert Systems
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Unique Challenges with Adopting New Technologies by Forensic DNA Laboratories
• Validation
• Limited funding for capital equipment
• Need for court acceptance (Frye and Daubert)
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Unique Challenges to Forensic DNA Testing
• High quality results needed (every time) because of impact on individual’s liberty
• Regulated environment– Proficiency testing of analysts– Accreditation of labs– Auditing to National Quality Assurance Standards
• Care to prevent contamination• The ever present politics and bureaucracy that
exists in many government labs
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Additional Challenges• Multiplex STR amplification require a fairly narrow
amount of input DNA to product high quality results
• High-throughput needs for databanking labs– Automated software for data review
• An attitude of being (and needing to be) “error-free”
• Separating biological fluids – perpetrator’s sperm from victim’s vaginal epithelial cells
• Mixture components can be difficult to decipher
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General Predictions for the Future
• Refer to The Future of Forensic DNA (NIJ 2000)
• STRs will play a major role for the foreseeable future due to large sizes of existing and rapidly growing DNA databases
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http://www.ojp.usdoj.gov/nij/pubs-sum/183697.htm
•Report published in Nov 2000
•Asked to estimate where DNA testing would be 2, 5, and 10 years into the future
Conclusions
STR typing is here to stay for a few years because of DNA databases that have grown to contain millions of profiles
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Principles of Forensic DNA for Officers of the Court
1. Introduction
2. Biology of DNA
3. Practical Issues Specific to DNA Evidence
4. Forensic DNA Laboratory
5. Assuring Quality in DNA Testing
6. Understanding a Forensic DNA Lab Report
7. Statistics and Population Genetics
8. Mitochondrial DNA & Y-STR Analysis
9. Forensic DNA Databases
10.Collection of DNA Evidence
11.Pretrial DNA Evidence Issues
12.Victim Issues
13.Trial Presentation
14.Postconviction DNA Cases
15.Emerging Trends
http://www.dna.gov/training/otc/
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Content of Section 15 “Emerging Trends” from Officers of the Court
• Topic 1 :: Single Nucleotide Polymorphisms (SNPs) • Topic 2 :: Automation
– Microarrays (Chip Technology)– Portable DNA Typing Laboratory – Low Copy Number DNA Analysis
• Topic 3 :: Microbial Forensics and DNA Testing • Topic 4 :: Other Non-human Forensic DNA Analysis • Topic 5 :: DNA Typing and Physical Appearance
– Biogeographical Ancestry – Approximate Age Determination
http://www.dna.gov/training/otc/
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The Future• More Robotics
• Expert Systems
• Animal & Plant DNA
• Physical Characteristics
• Ethnicity Estimation
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Time Line Showing the Potential for DNA Deposition/Transfer
Time
Crime Event
Opportunity for DNA Transfer from Perpetrator
Opportunity for Adventitious Transfer
Adapted from Gill, P. (2002) BioTechniques 32(2): 366-385, Figure 5
Potential to “Contaminate”
Discovery
Investigators arrive, detect, and recover evidentiary material
Laboratory analysis
Analysis completed
Higher sensitivity techniques are most likely to pick up
previously deposited (background) DNA
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Conclusions
• This is an exciting time to be involved in forensic DNA testing
• However, it is a little scary because technology is advancing so rapidly on some fronts
• Thus, training for both the scientific and legal communities is vital to make the most effective use of the wonderful power of DNA technology
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Improvements in Forensic DNA Analysis
• Biology– Improved DNA extraction with automation– New capabilities for recovery of information from
degraded DNA samples (e.g., miniSTRs)
• Technology– Parallel processing of DNA with capillary arrays– Expert systems for automated data interpretation
• Genetics– Ethnicity estimations (with STRs and/or SNPs)– Larger Y-STR and mtDNA population databases
Effective Training is Needed in All Areas
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Training Materials Available or Planned• DNA Basics• Validation• STR Analysis and Capillary Electrophoresis• Y-Chromosome Analysis• Mitochondrial DNA Analysis• Expert Systems• Low-Copy Number (LCN) DNA Testing• Statistics• Mixture Interpretation
http://www.cstl.nist.gov/biotech/strbase/training.htm
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Training Materials and Review Articles• Workshops on STRs and CE (ABI 310/3100)
– Taught with Bruce McCord (Florida Int. Univ.)– NEAFS (Sept 29-30, 2004)– U. Albany DNA Academy (June 13-14, 2005)– AAFS Feb 2006 Workshop #6 (February 20, 2006)
• Other Workshops– Validation (August 24-26, 2005)– mtDNA Analysis (March 13-15, 2006)– Expert Systems (March 27, 2006)
• PowerPoint Slides from Forensic DNA Typing, 2nd Edition– >150 slides available now (~1,000 planned) for download– http://www.cstl.nist.gov/biotech/strbase/FDT2e.htm
• Review Articles– ABI 310 and 3100 chemistry – Electrophoresis 2004, 25, 1397-1412
– Core STR Loci – J. Forensic Sci. 2006, 51(2): 253-265
http://www.cstl.nist.gov/biotech/strbase/training.htm
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Chapter 18 – Points for Discussion
• What are some potential advantages to microchip CE devices?
• Why are allelic ladders unnecessary with mass spectrometry techniques for STR analysis?
• Why are forensic laboratories typically slow to adopt new technologies?