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DNA Forensics

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Title: DNA Forensics


1
DNA Forensics
  • Physical Evidence

2
Physical Evidence
  • Perspective
  • Recognition of Evidence
  • Collection of Physical Evidence
  • Preservation of Physical Evidence
  • Preparation of the Physical Evidence
  • Evaluation and Quantification of the Evidence

3
Forensic science makes determinations about the
state of physical evidence at the time of
collection.
  • Forensic science does not establish innocence or
    guilt.
  • Forensic science contributes information about
    who, what, where why and how.
  • Forensic science establishes associations.

4
Paradigm of the Principles of Evidence Formation
  • Physical Evidence is generated when matter from
    persons and objects at the crime scene is divided
    and transferred.

5
Locard Transfer Theory
  • When two objects come in contact, traces from
    one will be transferred to the other, in both
    directions. These traces may not always be
    detectablebut they are always present.

6
Paradigm of the Principles of the Process of
Evidence Analysis
  • Evidence Recognition Collection
  • Evidence Identification (according to appearance
    and composition)
  • Evidence Classification
  • Evidence Individualization (in an attempt to
    determine a source)
  • Association of the evidence to link a person with
    the crime scene.
  • Reconstruction of events

7
Identification
  • Answers the question What is it?

8
Classification
  • Preliminary step that leads to individualization
  • Sort evidence according to a class of
    characteristics.
  • Firearmscaliber
  • Shoestread, size

9
Classification Fiber or
hair animal or human
10
Individualization
  • Evidence that exhibit traits that are are so
    unique that when considered alone or in
    combination with other traits can reduce the
    evidence source from a class to one individual.
  • Evidence that can indicate that two samples share
    a common unique source or origin.

11
Association
  • Description of the relationship between two
    objects items, or people.
  • Concept used in a crime scene analysis for
    reconstruction.
  • Involves the evaluation of evidence to infer a
    common source.
  • Does not prove a crime.

12
Reconstruction
  • the ordering of associations in space and time.
  • Attempts to answer Where? How? When?

13
Traits that Indicate Individuality
  • Fingerprintsare a result of several genes and
    other nongenetic events. Has been accepted as
    unique for each individual (even identical twins)
  • DNAearly results suggested individuality except
    in identical twins but in reality more like a
    partial print.

14
Conventional Blood Typing as a Model of Analyzing
Results of DNA Typing
  • A blood sample tested and found to be Type A and
    PGM type 1
  • 35 of the Caucasian population is Type A
  • 19 of the Caucasian population is PGM type 1
  • 0.35 X 0.19 0.067
  • 6.7 of the population included as possible donors

15
Comparison of DNA Typing Methods and Power of
Discrimination
16
RFLP Methods
  • Have a high power of discrimination 20-80
    different alleles may be possible at one
    location analyzed in combination can be used to
    determine an individualized type.
  • RFLP procedures are labor intensive multi-locus
    probes are difficult to automate single-locus
    probes can be used in serial fashion.
  • Require ample supply of high grade DNA.

17
Mitochondrial DNA (mtDNA)
  • Lowest power of discrimination
  • Longest sample processing time
  • Can be very helpful in forensic cases involving
    severely degraded DNA samples

18
ABO Blood Typing Groups or D1S80 Short Tandem
Repeat (STR)
  • Rapid Results
  • Useful for excluding an individual not very
    useful for inclusion
  • Single STRD1S80 is done using PCR fast but not
    discriminating.

19
STRs
  • Short Tandem Repeats Repeating units of an
    identical DNA sequence, length is often between 2
    5 bp in length. The repeat units are arranged
    in direct succession of each other, and the
    number of repeat units varies between individuals
    (subgroup of VNTRs)

20
Multiplex STRs
  • High power of Discrimination
  • Rapid Analysis
  • Analysis can be automated and 3 or more locations
    can be analyzed at a time.

21
Validation of STR Techniques
  • 1991Fluorescent STR markers first described
  • 1993First STR kit available
  • 1996First multiplex STR kits available
  • 199713 core STR loci defined Y-chromosome STR
    described
  • 1999Multiplex STR kits validated
  • 2000FBI and other labs stop running RFLP and
    convert to multiplex STRs.

22
Example of STR Multiplex
23
A Typical DNA Profile
24
Example of STR Multiplex
25
Sources of DNA for Testing
  • Blood
  • Semen
  • Tissue
  • Bone (Marrow)
  • Hair Root
  • Saliva
  • Urine
  • Tooth (Pulp)

26
Sources of DNA for Testing BLOOD
  • Extracting DNA from dried blood on glass, metal,
    hard plastics or lightweight cloth is
    straightforward
  • Extracting DNA from dried blood on vinyl, carpet,
    car seats or dense or heavily colored fibers
    require additional steps of purification

27
Sources of DNA for Testing BLOOD
  • Extracting DNA from concrete is difficult because
    of separation issues.
  • Extracting DNA from soil is almost impossible

28
Sources of DNA for Testing BLOOD
  • Blood stains may be mixtures of blood from more
    than one person and can produce complex DNA
    profiles
  • The most straightforward samples are liquid whole
    blood.
  • Examplars specimens drawn from suspects or
    victims usually liquid whole blood.

29
Sources of DNA for Testing BLOOD
  • Best storage method for blood is frozen
  • Most common handling method for forensic blood
    samples following collection is a series of
    dime-sized stains on washed cotton sheeting

30
Examplars
  • Whole blood
  • Buccal swabs from inside the cheek
    non-invasive
  • Military recruits give both blood and buccal cell
    samples.
  • Guthrie Cards collected at birth for newborn
    screening of genetic diseases.

31
Sources of DNA for Testing SEMEN
  • Sperm cells as dried stains are identifiable for
    years.
  • Must consider all possible partners within 72
    hours of event.
  • Mixtures of cells are a confounding factor
  • Differential lysis is used to separate the sperm
    cells from the non-sperm cells (the female
    fraction)

32
Sources of DNA for Testing TISSUE
  • Isolation of DNA from tissues is a simple and
    straightforward.
  • DNA survival in soft tissues is low (liver,
    kidney)
  • Remnants of tissues such as brain can be
    scattered by gunshot.
  • DNA can be successfully tested from tissues
    chemically treated with formaldehyde or embalming.

33
Sources of DNA for Testing TISSUE
  • DNA survival in dense bone and teeth is the
    longest of all types of tissues.

34
Sources of DNA for Testing Hair Roots
  • One to five hair roots can contain enough tissue
    for RFLP analysis
  • One is sufficient for PCR methods
  • Mitochondirial sequencing was used to identify
    one of Napoleons hairs and members of the
    Romanoff family

35
Sources of DNA for Testing Saliva
  • DNA can be typed from saliva deposited on
    envelope flaps or stamps or cigarette butts or
    cups or telephone mouthpieces.

36
Sources of DNA for Testing Urine
  • Not common because healthy persons do not shed
    nucleated cells into their urine.

37
Sources of DNA for Testing Products of
Conception
  • Non-living products of conception may be analyzed
    in cases of allegations of criminal paternity

38
Preservation of Evidence
  • Air dry (no heat) all stains and swabs
  • Store frozen in paper bags, not plastic
  • Store tissue samples frozen preferably without
    preservatives (formalin or embalming fluid)
  • Liquid blood can be refrigerated up to a few
    weeks (longer term, freeze for DNA testing)

39
Sample Collection
  • Avoid contamination of the area where DNA might
    be present.
  • Use clean latex gloves for collection.
  • Change gloves between handling of different items
  • Package each item separately

40
Sample Collection
  • Bloodstains, semen stains, and other types of
    stains need to be air-dried prior to packaging.
  • Samples should be packaged in paper envelopes or
    paper bags. Avoid plastic because water
    condenses in them.
  • Packages should be clearly marked
  • Stains on unmovable surfaces may be transferred
    with sterile cotton swabs distilled water.
    Allow the swab to dry

41
Factors Leading to DNA Degradation
  • Time
  • Temperature
  • Humidity
  • Light
  • Exposure to chemicals

42
Important Considerations in Sample Collection
  • Preserve the biological integrity of the sample.
  • Avoid contamination
  • Document the chain of custody of the evidence
    throughout the system

43
Preservation of Physical Evidence
  • Most biological evidence is best preserved when
    stored dry and cold.
  • DNA samples are stored either at 4oC or 20oC.
  • Extracted DNA samples may be stored at 70oC
  • Most labs have freezers dedicated to DNA storage

44
DNA Extraction Methods
  • Organic or phenol chloroform
  • Chelex
  • FTA Paper

45
Organic Extraction Method
  • Has been used the longest period of time
  • Can be used for either RFLP or PCR typing.
  • High molecular weight DNA needed for RFLP methods
    may be obtained most effectively with organic
    extraction.

46
Organic Extraction Method
  • SDS, DTT and proteinase K are added to break open
    the cell walls and break down DNA binding
    proteins.
  • Phenol/choloroform mixture is added to separate
    proteins from DNA
  • Concentrate or ethanol precipitate

47
Organic Extraction Method
  • Time consuming
  • Involves the use of hazardous chemicals
  • Requires the transfer of the sample to multiple
    tubes during the process

48
Chelex Extraction Method
  • More rapid than organic extraction method
  • Involves few steps and fewer opportunities for
    contamination
  • Produces single-stranded DNA
  • Only useful for PCR procedures

49
Chelex Extraction Method
  • Chelex is a chelating resin suspension that can
    be added directly to the sample
  • Biological samples are added to a 5 Chelex
    suspension and boiled for several minuets to
    break open the cells
  • Centrifuge to separate the resin from the DNA
    solution
  • Sample is ready for PCR reaction

50
Chelex Extraction Method
  • Not effective for RFLP typing
  • It removes inhibitors of PCR
  • Uses only a single tube
  • The addition of too much whole blood can inhibit
    PCR.

51
FTATM Paper Extraction Method
  • Absorbent cellulose paper
  • DNA is immobilized within the matrix of the paper
  • A small punch of the bloodstain is place in a
    tube for washing.
  • The punch is washed with solvent
  • The punch is added directly to the PCR reaction
    tube

52
FTATM Paper Extraction Method
  • Consistent results without quantification
  • Procedure may be automated
  • Punch may be reused for sequential DNA
    amplifications and typing.
  • Can be used with buccal cells

53

54
Other Extraction Methods
  • Differential ExtractionModified version of
    organic extraction used in FBI Labs to isolate
    female and male fractions.
  • Microwave Extraction
  • QIAamp spin columns

55
Next Lecture February 23
  • Methods for evaluation of the integrity and
    quantification of the DNA samples
  • Forensic DNA Typing Systems (Chapter 5)

56
Vocabulary
  • Physical Evidence
  • Classification
  • Identification
  • Association
  • Individualization
  • Inclusion
  • Excluded
  • Examplars
  • Buccal
  • Contamination
  • Chelate
  • Nuclease
  • Denature

57
Lecture Sources
  • TextChapters 1,2 5
  • DNA in the Courtroom Coleman Swenson, GeneLex
    Press 1994
  • Forensic DNA Typing John M. Butler, Academic
    Press 2001
  • More Chemistry and Crime Samuel M. Gerber
    Richard Saferstein, American Chemical Society,
    1997
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