the history of dna forensics. what is dna? dna is the chemical substance which makes up our...
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What is DNA?
DNA is the chemical substance which makes up our chromosomes and controls all inheritable traits (eye, hair and skin color)
DNA is different for every individual except identical twins
DNA is found in all cells with a nucleus (white blood cells, soft tissue cells, bone cells, hair root cells and spermatozoa)
Half of a individual’s DNA/chromosomes come from the father & the other half from the mother.
DNA Review:
DNA is a double-stranded molecule. The DNA strands are made of four
different building blocks. An individual’s DNA remains the
same throughout life. In specific regions on a DNA strand
each person has a unique sequence of DNA or genetic code.
Repeated DNA Sequences
VNTR’s--Tandemly repeated DNA sequences.
Interspersed Transposable Elements SINES LINES
Cutting Variable DNA Sections
Father: DNA is a long,long,long long molecule that is tightly wound.
Mother: DNA is a long,long molecule that is tightly wound.
Restriction Enzymes are proteins that cut DNA molecules at specific cut sites.
The History of Forensic DNA Analysis Resembles a War.
Laboratories Legal System (Prosecutors /
Defense Attorneys) Media Coverage
Conventional Blood Typing
Used for more than 50 years Utilized ABO blood typing groups Identified genetic variations in
blood proteins, tissue specific proteins and serum protein types
Major problem is that the conventional blood protein markers are not found in semen.
Development of DNA Analysis Techniques (1970’s)
RFLP (Restriction Fragment Length Polymorphism)
Southern Blot
Restriction Fragment Length Polymorphism
Restriction Enzymes (biological catalysts) cut DNA whenever they encounter a specific DNA sequence.
Gel electrophoresis separates the fragments of DNA according to their length.
Southern Blot
A short segment of DNA that is complementary to a portion of the desired DNA fragments is labeled with a radioactive atom.
This probe binds to the fragment of interest on the gel electrophoresis.
Visualized using X-ray film.
History of DNA Analysis (1980’s)
In 1980 David Botstein and others used RFLP to construct a human gene map.
Used genetic variations as markers
Kary Mullis Invented PCR Methods (1984)
Polymerase Chain Reaction amplifies short specific regions of DNA
PCR is an in vitro technique that can yield millions of copies of desired DNA
Does not use radioactivity
In 1984, Alec Jeffreys developed “DNA Fingerprinting.”
Was searching for disease markers Applied the technique to personal
identification Demonstrated that the DNA could
be retrieved from old dried blood stains
Applied the technique to high-profile forensic tests
The Pitchfork Case (1986 & 1987) Jeffreys was consulted in the case of the
murder and rape of two British schoolgirls.
Suspect cleared from analysis of semen samples at the scene and blood samples from the suspect.
“Blooded” 4583 men Analysis of blood sample from Colin
Pitchfork provided a match.
Pennsylvania v Pestinikas (1986)
First PCR case done in the United States
Involved allegations of switching body parts at a funeral home
Commercial Development of Forensic DNA Testing in the United States:
Lifecodes Corporation—Founded in 1982 in Valhalla, NY as diagnostic company. Began performing forensic DNA testing in 1987
Cellmark—The US branch of Britain’s Imperial Chemical Industries opened in Germantown, MD in 1987. Performed the testing for the prosecutor in the Simpson case.
Trial of Accused Rapist Tommy Lee AndrewsNovember 3, 1987
First case in the U.S. to identify a criminal by DNA
Trial held in Orlando, Florida A scientist from Lifecodes and a
biologist from M.I.T. testified that semen left on the victim matched Andrew’s DNA (1 in 10 billion)
November 6, 1987 jury returned a guilty verdict.
The two major private companies raced each other to the courtroom.
In a shroud of secrecy and an environment of expediency they disregarded the usual methods of testing new scientific methods Publication and Peer Review Standardization Replication Evaluation of Performance
DNA analysis was considered an “infallible” prosecution tool.
“You can’t argue with science.” a juror in Queens
“[DNA evidence] is the single greatest advance in the search for truth since the advent of cross-examination.” Judge Joseph Harris of Albany, NY
DNA analysis was considered an “infallible” prosecution tool.
“In rape cases, when the semen has been matched with the defendant’s and the chance that it came from another person is 33 billion to 1, you don’t need a jury.” Robert Brower, defense attorney.
New York v Castro
First successful defense against DNA analysis
Jose Castro, janitor in a nearby building, was accused of the stabbing deaths of Vilma Ponce and her two-year old daughter, Natasha.
New York v Castro
Lifecodes Corporation reported that the blood found on Castro’s watch matched that of Vilma Ponce with a frequency of 1:189,200,000 in the Hispanic population.
Defense mounted the first successful attempt to have DNA evidence excluded.
New York v Castro
Two defense and two prosecution witnesses agreed that Lifecodes had failed to use generally accepted scientific techniques. Their data was poor and they did not follow procedures for interpreting the data
Castro later confessed and pled guilty to the murders.
The FBI and The Royal Canadian Mounted Police Set Up DNA Laboratories
1987 FBI with NIH began collaborative research to establish DNA identification techniques
In late 1988 FBI set up their own laboratory at their Pennsylvania Avenue headquarters
RCMP also set up their own DNA laboratory.
FBI Worked With Pioneers in the Field
They used four different DNA probes GeneLex Dr. Raymond White of Howard Hughes
Medical Center Lifecodes Cellmark
DNA probes and primers are the
key patented biomolecules used to identify the individual genetic variability.
The FBI and RCMP brought standardization to the indusdry. Established detailed laboratory
protocols Performed validation studies Cut through the competitive nature
that clouded the environment of the testing methods and tools
Defense Strategy
In 1989, National Association of Criminal Defense Lawyers (NACDL) set up a DNA Task Force.
Headed by Barry Scheck, a professor at Benjamin N. Cardozo Law School and Peter Neufeld, a private attorney in Manhattan
Defense Strategy
Tried to reopen all the convictions involving evidence processed by Lifecodes
Escalated the conflict surrounding DNA testing
Launched a public relations campaign critical of DNA typing
In 1990 Scheck and Neufeld Prepare for United States vs Yee.
Three members of Hell’s Angels motorcycle gang of Cleveland Ohio were accused of killing David Hartlaub thinking he was a member of a rival gang
The victim was shot 14 times with a MAC 10 machine gun.
Blood Evidence on the Scene
Most was determined to be that of the victim
Some belonged to one of the defendants
Theory—a ricocheting bullet had hit one of the suspects.
Prosecution Expert Witnesses
Thomas Caskey, Baylor College of Medicine
Kenneth Kidd, Yale geneticist Bruce Budowle, FBI DNA scientist
Defense Expert Witnesses
Richard Lewontin, geneticist from Harvard
Daniel Hartl, geneticist at Washington University
Eric Lander, mathematician and geneticist at M.I.T.
Prosecution Countered:
In spite of disputes over match criteria, the multi-probe match produced a highly likelihood that the specimens came from two different people.
United States vs Yee
DNA matches were admitted as evidence at the trial and at the appeal.
The documents from the FBI would later find their way into the courtroom.
The National Academy of Science’s National Research Council (NCR) Report
A federal study intended to be the definitive study on the problems of forensic DNA
The most contended issue--How to calculate statistical probability The frequencies of sub-groups could
differ widely from that in the larger population
NCR Report—DNA Technology in Forensic Science (1992) Criticized:
Ceiling principle No population geneticists or
staticians on the panel Inconsistencies Did not address paternity cases or
PCR
NCR Report—DNA Technology in Forensic Science
The report was to be the final word in clarifying the role of DNA forensics.
This document is often cited by defense lawyers in arguing of the exclusion of DNA evidence.
The Media and DNA Forensics
First the Media proclaimed that the “new technology was a miracle.”
It recorded it’s “glowing victories.” Followed by giving opponents to
DNA analysis a venue for airing objections and charges (many of which were unfounded and unchallenged)
The Media and DNA Forensics
The Washington Post headline read, “Panel Backs DNA Tests as Crime Evidence.”
Nature Published Articles Exploring Forensic DNA
Alec Jeffreys announced his methods in Nature.
“DNA fingerprinting dispute laid to rest” Budowle and Lander Oct. 27, 1994
“Lander and Budowle declare that
after 400 technical papers, 100 scientific conferences, three sets of DNA analysis guidelines, 150 court cases, and an exhaustive three-year study by the National Research Council—’The DNA fingerprinting wars are over.’”
1994
National Research Council reconvened to try to rectify the deficiencies of their first report.
The trial of the century convened: “Dollars v DNA” or California v OJ Simpson.
Summary
Forensic DNA testing was developed rapidly by short-sighted commercial interests
Standards were not developed as quickly as necessary
Prosecution oversold DNA evidence Expert witnesses had a vested
interest in fueling the controversy.
Summary
Sensational and inaccurate media coverage spread misinformation about DNA.
The judicial system is sometimes indifferent to choices that could expedite justice.
The Media and DNA Forensics
The DNA Technology in Forensic Science report strongly endorsed the continued use of DNA typing in the courts.
The New York Times front page article headline read “U.S. Panel Seeking Restriction on Use of DNA in Courts.”
Where is Forensic DNA Analysis Today?
Forensic labs have implemented a process of peer review, self-regulation and accreditation
DNA analysis has freed over 156 convicts. The Innocence Project at Yeshiva University is run by Barry Sheck and Peter Neufeld.
Where is Forensic DNA Analysis Today?
Paternity testing. Historical case of Thomas Jefferson
as the likely father of children of slave, Sally Hemmings.
Resolved questions surrounding the disputed descendent of the Czar Nicholas II
Terms to Know
ABO Blood Typing RFLP Southern Blot PCR Kary Mullis Alec Jeffreys DNA
Fingerprinting
DNA typing DNA profiling Probe Primer
Resources
DNA in the Courtroom; Coleman & Swenson, GeneLex Press 1994.
DNA Technology in Forensic Science; Committee on DNA Technology in Forensic Science—National Research Council; National Academy Press 1992
Ch 13 - DNA
• Nucleotides and DNA.
• Double helix.
• Base pairing and double helix.
• Sequence of bases in DNA and synthesis of proteins.
• DNA replication and its significance to forensic science.
• Recombinant DNA technology.
• DNA strands that code for protein synthesis Vs. strands that contain repeated sequence of bases.
• Restriction Fragment Length Polymorphism (RFLP).
• RFLP technique and interpretation of DNA band patterns.
• Polymerase Chain Reaction (PCR).
• RFLP Vs. PCR.
• Short Tandem Repeat (STR).
• Nuclear Vs. Mitochondrial DNA.
• DNA computerized data base in criminal investigation.
• Preservation of blood stains for DNA analysis.
http://www.biology.washington.edu/fingerprint/dnaintro.html
http://www.biology.arizona.edu/human_bio/problem_sets/DNA_forensics_1/DNA_forensics.html
http://whyfiles.org/014forensic/genetic_foren.html
http://whyfiles.org/014forensic/genetic_foren2.html
http://www.fbi.gov/hq/lab/handbook/examsdna.htm
http://arbl.cvmbs.colostate.edu/hbooks/genetics/medgen/dnatesting/dnatest_tech.html
• DNA: abbreviation for deoxyribonucleic acid- the molecules carrying the body’s genetic information. DNA is double-stranded in the shape of a double helix
• Chromosome: a rodlike structure in the cell nucleus, along witch the genes are located. It is composed of DNA surrounded by other material, mainly proteins
• Polymer: a substance composed of a large number of atoms. These atoms are usually arranged in repeating units, or monomers
• Nucleotide: the unit of DNA consisting of one of four bases-adenine, guanine, cystine, or thymine-attached to a phosphate sugar group
• Proteins: polymers of amino acids that play basic roles in the structures and functions of living things
• Amino acids: the building blocks of proteins. There are 20 common amino acids. Amino acids are linked together to form a protein. They types of amino acids and the order in which they’re linked determine the character of each protein
• Human Genome: the total DNA context found within the nucleus of a cell. In humans, it is composed of approximately 3 billion base pairs of genetic information
• Replication: the synthesis of new DNA form existing DNA
• Polymerase Chain Reaction (PCR): a technique for replicating or copying a portion of a DNA strand outside a living cell. This technique leads to millions of copies of the DNA strand
• Restriction Enzymes: chemicals that act as scissors to cut DNA molecules at specific locations
• Restriction Fragment Length Polymorphisms (RFLP): different fragment lengths of base pairs that result from cutting a DNA molecules with restriction enzymes
• Hybridization: the process of joining two complementary strands of DNA together to form a double-stranded molecule
• Short Tandem Repeats (STRs): regions of a DNA molecule that contain short segments consisting of three to seven repeating base pairs
• Multiplexing: a technique that simultaneously detects more than one DNA marker in a single analysis
• Amelogenin gene: a genetic locus found useful for determining gender
• Mitochondria: small structures located outside the nucleus of a cell. These structures are responsible for supplying energy to the cell. Maternally inherited DNA is found in each mitochondria
• Sequencing: a procedure used to determine the order of the base pairs that comprise DNA
• Substrate control: an unstained object adjacent to an area upon which biological material had been deposited
• Buccal cells: cells derived from the inner cheek lining
The Cell
• The smallest unit of life• The nucleus is the
“brain” of the cell– contains all the genetic
info the cell needs to exist & to reproduce
• In most types of cells, genetic information is organized into structures called chromosomes
Chromosomes
• In most types of cells, genetic information is organized into structures called chromosomes– usually X shaped
• Y chromosome in males
– 23 pairs in humans• one from mother & one
from father
Genes
• Each chromosome contains hundreds to thousands information blocks called genes
• Each gene is the blueprint for a specific type of protein in the body– only identical twins will have
all the genes identical
Chromosomes
• Each chromosome is a single polymeric molecule called DNA– if fully extended the
molecule would be about 1.7 meters long
– unwrapping all the DNA in all your cells
• cover the distance from earth to moon 6,000 times
Nucleotides
• DNA is a polymer built from monomers called nucleotides
• Each nucleotide is consists of– deoxyribose
• pentose sugar
– phosphoric acid
– a nitrogenous base
The DNA Backbone
• The monomers are linked together by phosphodiester bridges (bonds)– links the 3’ carbon in
the ribose of one nucleotide to the 5’ carbon in the ribose of the adjacent nucleotide
The DNA Double Helix
• DNA is normally a double stranded macromolecule
• Two polynucleotide chains are held together by H-bonding– A always pairs with T
– C always pairs with G
5’ T-T-G-A-C-T-A-T-C-C-A-G-A-T-C 3’
3’ A-A-C-T-G-A-T-A-G-G-T-C-T-A-G 5’
In a double helix the strands go in opposite directions
Functions of DNA
• Two Functions– To transmit information from one generation of
cells to the next – To provide the information for the synthesis of
components (proteins) necessary for cellular function
DNA Fingerprinting
• The basic structure of everyone’s DNA is the same– the difference between people is the ordering of the
base pairs
• Every person can be distinguished by the sequence of their base pairs– millions of base pairs make this impractical
– a shorter method uses repeating patterns that are present in DNA
VNTR’s
• DNA strands contain information which directs an organism’s development– exons
• Also contain stretches which appear to provide no relevant genetic information– introns
– repeated sequences of base pairs• Variable Number Tandem Repeats (VNTRs)
• can contain anywhere from 20 to 200 base pairs
VNTRs
• All humans have some VNTRs
• VNTRs come from the genetic information donated by parents– can have VNTRs from mother, father or a
combination– will not have a VNTR that is from neither
parent
D1 = biological daughter of both parentsD2 = child of mother & former husbandS1 = couple’s biological sonS2 = adopted son
VNTR Analysis
• Usually an individual will inherit a different variant of the repeated sequence from each parent
VNTR Analysis
• PCR primers bracket the locus
• PCR reaction forms a nucleotide chain from the template
VNTR Analysis
• The length of the amplified DNA & its position after electrophoresis will depend on the number or repeated bases in the sequence