Explain how crime scene evidence is

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Chapter 7 DNA Fingerprinting By the end of this chapter you will be able to: Explain how crime scene evidence is collected and processed to obtain DNA Describe how radioactive probes are used in DNA fingerprinting Explain how DNA evidence is compared for matching Explain how to use DNA fingerprinting to identify DNA from a parent, child, other relative, or a non-related individual All Rights Reserved South-Western / Cengage Learning © 2012, 2009 Forensic Science: Fundamentals & Investigations, Chapter 7

History of Biological Evidence in Forensics DNA fingerprinting Also known as DNA profiling Used with a high degree of accuracy Biological evidence is examined for the presence of inherited traits Some forensics laboratory techniques were originally developed for other purposes. Can you name any? Forensic Science: Fundamentals & Investigations, Chapter 7

The Function and Structure of DNA DNA contains the genetic material of a cell Chromosomes are located in the cell nucleus Chromosomes contain long DNA strands wrapped around proteins Forensic Science: Fundamentals & Investigations, Chapter 7

The Function and Structure of DNA Nitrogenous Bases—pairs of molecules that form the rungs of the DNA “ladder” Four types of Bases A (adenine) C (cytosine) G (guanine) T (thymine) Forensic Science: Fundamentals & Investigations, Chapter 7

The Function and Structure of DNA Base-Pairing Rules adenine (A) binds only with thymine(T) Cytosine (C) binds only with guanine (G) Forensic Science: Fundamentals & Investigations, Chapter 7

DNA Identification Polymorphisms: Non-coded DNA that contain unique patterns of repeated base sequences that that are unique to individuals DNA Fingerprinting (Profiling) isolates and analyzes polymorphisms DNA fingerprints appear as a pattern of bands on X-ray film. Forensic Science: Fundamentals & Investigations, Chapter 7

DNA Profile Two types of repeating DNA sequences Variable Numbers of Tandem Repeats (VNTR) The number of repeats varies from person to person 9 to 80 bases in length Short Tandem Repeats (STR) 2 to 5 bases in length Shorter lengths make STRs easier to use than VNTRs VNTR and STR data are analyzed for tissue matching inheritance matching Forensic Science: Fundamentals & Investigations, Chapter 7

DNA Profile Matching Tissue Matching Inheritance Matching Two samples that have the same band pattern are from the same person Inheritance Matching Each band in a child’s NDA fingerprint must be present in at least one parent Forensic Science: Fundamentals & Investigations, Chapter 7

DNA Population Databases Population genetics: the study of gene variations among groups of individuals Analyze the probability of a random person with the same alternative form of a gene (an allele) Examples Identifying the suspect in a crime Identifying an alleged father in a paternity case Forensic Science: Fundamentals & Investigations, Chapter 7

Sources of DNA Biological evidence: examples include saliva, blood, skin, hair, seminal fluid Individual evidence is capable of identifying a specific person. Small amounts may be only trace evidence Polymerase chain reaction (PCR) technique generates multiple copies of DNA evidence Forensic Science: Fundamentals & Investigations, Chapter 7

Collection and Preservation of DNA Use disposable gloves and collection instruments Avoid physical contact, talking, sneezing, and coughing in the evidence area Air-dry evidence and put it into new paper bags or envelopes Dry or freeze the evidence Keep evidence cool and dry during transportation and storage Forensic Science: Fundamentals & Investigations, Chapter 7

Preparing DNA Samples for Fingerprinting DNA is mixed with special enzymes Enzymes cut apart the DNA in specific places forming different sized fragments DNA is separated within an agarose gel An electric current is passed through the gel separating the fragments by size Forensic Science: Fundamentals & Investigations, Chapter 7

Preparing DNA Samples for Fingerprinting Extraction Cells are isolated from biological evidence such as blood, saliva, urine, semen, and hair The cells are disrupted to release the DNA from proteins and other cell components The DNA can be extracted from the cell nucleus Forensic Science: Fundamentals & Investigations, Chapter 7

Preparing DNA Samples for Fingerprinting Amplification VNTR analyses—polymerase chain reaction (PCR) can be used to amplify the DNA that contains the VNTRs STR profiles—restriction enzymes are unnecessary; PCR allows the amplification of the strands with STR sequences Forensic Science: Fundamentals & Investigations, Chapter 7

Preparing DNA Samples for Fingerprinting Electrophoresis DNA samples are placed in gels through which electronic currents are passed DNA fragments line up in bands along the length of each gel Forensic Science: Fundamentals & Investigations, Chapter 7

Electrophoresis An electrophoresis apparatus running five sample of DNA Arrows show the movement of the negatively charged DNA fragments through the gel matrix Forensic Science: Fundamentals & Investigations, Chapter 7

Probes DNA probes In most criminal cases, 6 to 8 probes are used identify the unique sequences in a person’s DNA are made up of different synthetic sequences of DNA bases complimentary to the DNA strand bind to complimentary bases in the strand (see the fragmentary DNA bands above) In most criminal cases, 6 to 8 probes are used Forensic Science: Fundamentals & Investigations, Chapter 7

Analysis of DNA Fingerprints and Applications Bands and widths are significant in matching samples of DNA Forensic Science: Fundamentals & Investigations, Chapter 7

Analysis of DNA Fingerprints and Applications DNA fingerprinting can match crime scene DNA with a suspect determine maternity, paternity, or match to another relative eliminate a suspect free a falsely imprisoned individual identify human remains Forensic Science: Fundamentals & Investigations, Chapter 7

. . . . . . . . . . . . . . Summary . . . . DNA contains the information needed for replication in a sequence of nitrogenous bases. DNA analysis allows even a small sample of tissue to be identified with a single individual. DNA contains, in non-coding regions called junk DNA, many repeated sequences that vary in number between individuals. These differences between individuals can be used to produce a DNA fingerprint for an individual. Forensic Science: Fundamentals & Investigations, Chapter 7

. . . . . . . . . . . . . . . . . Summary Polymerase chain reaction (PCR) for DNA amplification has largely eliminated the problem resulting from the tiny samples usually available. DNA evidence must be collected carefully to avoid contamination with other DNA. DNA analysis involves extraction, electrophoresis, and visualization. DNA profiles are kept by police agencies in electronic databases. Forensic Science: Fundamentals & Investigations, Chapter 7