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Open Access DNA Database Duquesne University March, 2013 Pittsburgh, PA Mark W Perlin, PhD, MD, PhD Cybergenetics, Pittsburgh, PA Cybergenetics © 2003-2013.

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Presentation on theme: "Open Access DNA Database Duquesne University March, 2013 Pittsburgh, PA Mark W Perlin, PhD, MD, PhD Cybergenetics, Pittsburgh, PA Cybergenetics © 2003-2013."— Presentation transcript:

1 Open Access DNA Database Duquesne University March, 2013 Pittsburgh, PA Mark W Perlin, PhD, MD, PhD Cybergenetics, Pittsburgh, PA Cybergenetics © 2003-2013 Whose DNA is it Anyway?

2 DNA Mixture Data Quantitative peak heights at a locus Allele value Allele quantity

3 Genotype Inference Computer-based probabilistic genotyping Explain the peak pattern Victim's allele pair Another person's allele pair Allele Pair 5%15, 15 90%15, 16 5%15, 17 15, 18 16, 16 16, 17 16, 18 17, 17 17, 18 18, 18 Thorough & objective

4 Identification Information Likelihood Ratio Explaining all the data under two competing hypotheses Matching genotype probability Evidence Coincidence 90% 9% LR = 90% 9% = 10 log(LR) = log(10) = 1 ban

5 Data Summary for CPI Over threshold, peaks are labeled as allele events All-or-none allele events Threshold Allele Pair 5%15, 15 9%15, 16 15%15, 17 9%15, 18 5%16, 16 15%16, 17 9%16, 18 13%17, 17 15%17, 18 5%18, 18

6 Information Loss Evidence Coincidence 9% LR = 9% = 1 log(LR) = log(1) = 0 ban Matching genotype probability Combined probability of inclusion CPI explains less of the data (no peak heights or model)

7 Mixture Information Study 16 cases 31 evidence items 41 genotype matches 2 & 3 person DNA mixtures Crime homicide (7) sexual assault (5) assault (2) death investigation (1) robbery (1) Item clothing (12) weapon (6) vehicle (5) skin swab (3) vaginal swab (3) fingernail (1) rectal swab (1)

8 Information (per locus) log(LR) Count LR computer information (ban per locus) 0.746 (0.590) N = 517

9 CPI Statistic (per locus) log(LR) Count LR computer information CPI human match statistic 0.000 (0.615) 0.489 0.746 (0.590) N = 517

10 Same Information Conservative Overstated Imaginative log(LR) information log(CPI) statistic Joint Statistic Distribution

11 rr2rr2 = 0.376 = 0.141 17.6% 10.1% 72.3% log(LR) information log(CPI) statistic

12 Investigative DNA Database 10 17.5 probabilistic genotypesreference genotypes LR match statistic

13 Investigative Applications evidence-to-suspect, solve cold cases evidence-to-evidence, connect serial crime evidence-to-kinship, find missing people kinship-to-reference, conduct familial search remains-to-missing, identify disaster victims Perlin MW. Identifying human remains using TrueAllele ® technology. In: Okoye MI, Wecht CH, editors. Forensic Investigation and Management of Mass Disasters. Lawyers & Judges Publishing; 2007. Information-preserving DNA database

14 Sensitive 01020 17.7 log(LR) Two contributors, victim known Infer one probabilistic genotype Measure DNA match information sensitive

15 Specific 01020-30-20-10 -23.9 Compare with 1,000 random genotypes 17.7 sensitivespecific

16 Allele List Database uploadable allele listsreference allele lists moderate stringency 7 of 13 loci hit

17 Information Comparison Type of DNA database Sensitive?Specific? Probabilistic genotype LR average is about a quadrillion False positive rate < 0.01% Allele list (moderate stringency) Upload fails about 1/3 of the time Hits 5%-25% of the DNA database

18 State v. Sullivan Western United States Assault with weapon Gun -1, +9 0 (inconclusive) Mixture Still in prison -15 -12 -9 -6 -3 0 3 6 9 12 15 3 6 9 Information Location: Crime: Evidence: True information: Human guess: Reason: Outcome: Human

19 DNA database exoneration? Computer-inferred evidence genotype Post-conviction test Information < 0 The right person? Information ~ 9 10 million offenders CODIS ineffective Any alternative?

20 State v. Diggins -15 -12 -9 -6 -3 0 3 6 9 12 15 3 6 9 Information Location: Crime: Evidence: True information: Human guess: Reason: Outcome: Human

21 DNA database identification? Computer-inferred evidence genotype Anonymized offender suspect genotypes

22 Is everything being done that could be done? Government monopoly offender genotypes database access uses old technology not highly effective Balancing public safety v. personal privacy Access to anonymized DNA database

23 Reducing rape by DNA prevention

24 Learn More www.cybgen.com/information Newsletters gentle introduction to ideas Courses for lawyers and scientists Presentations handouts, movies, transcripts Publications abstracts, manuscripts DNA Identification Science

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