Sgt. Kevin McKinney Investigations Division Elko County Sheriff’s Office.

Slides:



Advertisements
Similar presentations
Forensic DNA Analysis (Part II)
Advertisements

Explain how crime scene evidence is
Forensics Chapter 8. Central Points  DNA testing can determine identity  DNA profiles are constructed in specialized laboratories  DNA profiles used.
DNA Profiling (DNA fingerprinting).
explain how crime scene evidence is
1 Chapter 7 Chapter 7 DNA Fingerprinting Learning Goals: o Explain how crime scene evidence is collected and processed to obtain DNA o Describe how radioactive.
Forensics Chapter 8. Central Points  DNA testing can determine identity  DNA profiles are constructed in specialized laboratories  DNA profiles used.
Chapter 7 Biologically Unique Copyright © 2012 by W. H. Freeman and Company.
Forensic Science 2. The DNA Molecule  DNA is what makes genes  DNA stands for deoxyribonucleic acid  It is a molecule that makes up genes and determines.
DNA Evidence. You need to know  What is DNA.  What is the purpose of DNA.  Where is DNA located in the cell.  What are some sources of DNA at a crime.
Forensic DNA Analysis (Part II). Summary What is DNA? Where is DNA found in the body? How does DNA differ among individuals? Forensic DNA Analysis DNA.
Mike McCutcheon.  DNA, or Deoxyribonucleic Acid  DNA is examined from the cell nucleus  DNA is the building block for all life and is unique for every.
DNA Analysis. What is DNA? Deoxyribonucleic Acid Genes found on a chromosome are composed of DNA DNA contains all of our body’s genetic material.
How is DNA used to solve crimes? 8 th Grade Forensic Science T. Trimpe
DNA Fingerprinting. Also known as DNA profiling Used in criminal and legal cases since the 1980’s to determine identity or parentage Also used to identify.
Forensic Science: Fundamentals & Investigations, Chapter 7 1 Introduction and History of Biological Evidence in Forensics DNA fingerprinting or DNA profiling,
 Intro to DNA Analysis Forensic Science 11/20/14.
9-1 PRENTICE HALL ©2008 Pearson Education, Inc. Upper Saddle River, NJ FORENSIC SCIENCE An Introduction By Richard Saferstein Chapter 9.
DNA Evidence How is DNA used to solve crimes?
How is DNA be used to solve crimes? 8 th Grade Forensic Science T. Trimpe
Forensic Science DNA Analysis 1. History of Biological Evidence in Forensics  DNA fingerprinting  Also known as DNA profiling  Used with a high degree.
All rights Reserved Cengage/NGL/South-Western © 2016.
Bio II: Forensics.  DNA molecules are found in the nucleus of cells in the human body in chromosomes.  People have 23 pairs of chromosomes, with an.
History Evidence BIOLOGICAL EVIDENCE EXAMINED FOR INHERITED TRAITS TECHNIQUES EMERGED FROM HEALTHCARE DNA FINGERPRINTING DEVELOPED IN 1984.
Chapter 10 Advanced Concepts in DNA © 2012 Cengage Learning. All Rights Reserved.
DNA Deoxyribonucleic Acid. DNA Review Genetic material (DNA) is found in the nucleus of cells, and is contained on chromosomes. An organism inherits chromosomes.
DNA Fingerprinting.
DNA Forensics 352 – O’Dette. Why DNA? DNA is individual evidence DNA links or eliminates a suspect to a crime DNA identifies a victim even if no body.
DNA Fingerprinting Review. Why DNA? DNA is individual evidence DNA links or eliminates a suspect to a crime DNA identifies a victim even if no body is.
DNA EVIDENCE. What is DNA? DNA stands for deoxyribonucleic acid and contains genetic information. DNA is a polymer composed of building blocks called.
Explain how crime scene evidence is
Explain how crime scene evidence is
Tuesday November 8th, 2016 Announcements Agenda ?
All rights Reserved Cengage/NGL/South-Western © 2016.
DNA, or Deoxyribonucleic Acid, is the genetic material in our cells.
Using DNA to solve crimes
How is DNA used to solve crimes?
DNA, or Deoxyribonucleic Acid, is the genetic material in our cells.
How is DNA be used to solve crimes? T. Trimpe
All rights Reserved Cengage/NGL/South-Western © 2016.
DNA Evidence and Forensics
DNA Fingerprinting DNA Profiling.
DNA Analysis Forensics Chapter 11.
explain how crime scene evidence is
How is DNA be used to solve crimes? General Science
History of Biological Evidence in Forensics
Explain how crime scene evidence is
How is DNA be used to solve crimes?
Explain how crime scene evidence is
How is DNA be used to solve crimes?
How is DNA used to solve crimes?
Ch. 11: DNA Analysis.
DNA Fingerprinting and Forensic Analysis
How can DNA be used to solve crimes? T. Trimpe
How is DNA be used to solve crimes? Honors Forensic Science
How is DNA used to solve crimes?
How is DNA used to solve crimes?
How is DNA be used to solve crimes? T. Trimpe
The Indispensable Forensic Tool
Explain how crime scene evidence is
explain how crime scene evidence is
Structure and Function within Forensic Science
How is DNA be used to solve crimes?
How is DNA be used to solve crimes?
Explain how crime scene evidence is
Warm Up Objective: Scientists will describe DNA and its use as evidence by taking notes and analyzing DNA fingerprints. What is the topic? What will you.
How is DNA be used to solve crimes?
How is DNA be used to solve crimes?
Presentation transcript:

Sgt. Kevin McKinney Investigations Division Elko County Sheriff’s Office

DNA typing was first described in 1985 by an English Geneticist named Dr. Alec Jeffreys. Dr. Jeffreys developed the ability to perform human identity tests from DNA. The first court case involving the analysis of DNA was a English immigration case. DNA was first used for criminal investigations in the late 1980’s.

1986 : The first criminal case utilizing DNA occurred during a double homicide investigation. Police in England collected 5000 blood samples from men in the community where the homicides occurred and a positive ID was made : The first criminal conviction involving the use of DNA evidence in the US occurred in Florida on a rape case. First time that the FBI Forensic Laboratory offered DNA testing for law enforcement was Today, every state in the United States has at least one forensic laboratory capable of conducting DNA testing.

In early 1980’s several women were killed in the Seattle, Washington area. At some of the autopsies, semen was collected from the bodies of the victims. 2001, the semen samples were analyzed, DNA was extracted and compared to a reference DNA standard of Gary Ridgway, and Ridgway was positively identified as the source of the semen on 3 of the victims. Ridgway could not be eliminated as the source of the semen on 2 other victims.

1981 : Clyde Charles was arrested and convicted of Aggravated Sexual Assault in Louisiana and was sentenced to life in prison : DNA testing on the evidence collected in the Clyde Charles case excluded Clyde Charles as the perpetrator of the sexual assault and he was released from prison : Clyde’s brother, Marlo was arrested and convicted of the same sexual assault that Clyde was convicted of in 1981 after DNA testing concluded that Marlo was the perpetrator of the crime.

Chris Ochoa Gw9w

1989 : FBI developed Combined DNA Index System (CODIS) to house DNA profiles of unknown and convicted offenders : a Minnesota Rape/Homicide was the first case solved through the use of CODIS. As of August, 2007, CODIS contained over 5 million DNA profiles in its Convicted Offender Index and approximately 188,000 unknown profiles collected from crime scenes.

DeoxyriboNucleic Acid Principal Component of cellular chromosomes. Responsible for hereditary characteristics in all life forms. Double helix design Composed of 4 nitrogenous bases: Adenine Guanine Cytosine Thymine

Human cell contains 46 chromosomes which have a DNA structure built from randomly alternating base pairs of nucleotide arrangements. Combinations of nucleotide arrangements are almost infinite. Vast majority of nucleotides are commonly shared by all human beings. 99.5% similar Small portion of nucleotides is sufficiently unique and variable in base pairings sequence to discriminate one individual from another individual. Regional or Ethnic differences

Restriction Sites: Nucleotide combinations (RFLPs) repeat themselves in random intervals throughout the length of the DNA chain. Extraction: DNA is extracted from biological sample. Amplification: The DNA chain is broken down chemically at restriction sites and copied. Sequencing: The DNA chain is then sequenced to find the “bar code” or banding pattern.

The basic use of DNA in law enforcement is for identification. Identify Victims Identify Suspects Eliminate Suspects Identify Persons at a Crime Scene

Blood Semen Saliva Tissue Bones Teeth Hair Nails “Touch DNA ”

The difficulty with DNA in investigations is not the collection of crime scene or unknown DNA samples, but with being able to match the unknown DNA samples with individuals. The DNA samples must be compared to known samples for a positive identification.

DNA is used to identify victims, often death victims, who have decomposed to the point that facial recognition or fingerprint comparison cannot be used. DNA collected from a victim is most often compared to probable family members (parents, siblings, children) for identification.

DNA evidence can be used to either positively identify or eliminate a potential suspect as being the perpetrator of the crime. Typically, a reference standard is collected from a potential suspect that is then compared to DNA evidence found on a victim or at a crime scene. Occasionally transfer DNA evidence can be found on a suspect and collected, which is then compared to the victim’s DNA.

DNA evidence is collected at a crime scene to identify persons who were present at the scene, to develop information in regards to potential victims, witnesses and/or suspects. The presence of DNA evidence at a crime scene does not positively conclude anything, without further investigation.

DNA evidence is collected through the collection of evidence items that have biological DNA evidence on/in it or through swabbing the area of the item that the biological DNA is on/in and then collecting the swabs. Wet biological DNA samples can be swabbed with a sterile dry swab. Dry biological DNA samples can be collected with a sterile swab moistened with sterile water. Items containing DNA must be completely dried and then kept in a sealed breathable (paper) package to inhibit degradation of the sample. DNA samples are sent to the Forensic Lab for analysis.

STR: The standard type of testing used for analyzing DNA samples Mitochondrial: Used for analyzing DNA samples that are highly degraded or from DNA samples that come from bone teeth or hair.

4 potential results: DNA examination positively identifies an individual as being the source of the DNA sample. DNA examination excludes an individual as being the source of the DNA sample. DNA examination reveals mixed DNA samples that neither identifies or excludes an individual as being the source of the DNA sample DNA sample is insufficient for examination and comparison.

Thank You