Forensic Science

An Introduction to Scientific and Investigative Techniques

Sixth Edition

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Chapter 10

DNA Profiling

DNA profiling has revolutionized biological identification and forensic science.  The principles we covered in the last chapter such as electrophoresis, genetic marker systems and combining probabilities used in a more expansive and specific way. The material covered in this chapter is also more complex than we have tackled so far.  

We’ll begin with a brief discussion of early DNA methods and move quickly into current methods and practices. Topics include short tandem repeats (STRs), amplification of DNA using PCR, and instrumental analysis via capillary electrophoresis.  You will the basics of how to interpret a DNA analysis report, and how frequency databases are used to generate probabilistic metrics regarding the output.    

Learning Objectives

10.1 Describe the sources and basic structure of DNA 

10.2 Differentiate between genes, loci, VNTRs, and STRs 

10.3 Describe the basics of PCR amplification of STRs including the use and function of labeled primers 

10.4 Recognize key features of an electropherogram and their functions 

10.5 Describe the steps of a DNA profiling analysis 

10.6 Describe how DNA results are interpreted 

10.7 Recognize the application of combined probabilities and frequency databases in DNA profiling. 

Multiple-choice questions 

Fill-in-the-blank questions 

True or false questions 

Drag and drop activity

Question 1

Match the step to the appropriate description related to PCR

Annealing
Denaturization
Thermal cycler
Primer
Amplicon
Instrument that controls temperatures
Unzipping of the DNA strand
Binding of primer to target DNA
Copy of the original DNA
Specialized molecular probes that locate a specific DNA locus
Question 2

Terms associated with DNA analysis 

Genotype
Peak height threshold
Internal size standard
Dye channel
Capillary electrophoresis
Allelic ladder
Electropherogram
Number of repeats of an STR at a given locus
A control sample of known DNA fragment sizes
A control standard that contains the common alleles for a given locus
Instrument used to generate a DNA profile
Portion of the DNA fragments that have the same fluorescent dye
The smallest size peak considered to be a genuine signal from a DNA sample
Output of a CE instrument
Question 3

Assume a Q vs K comparison of single source DNA profile involves  three lociHow would you interpret the following results? A .. indicates no results 

Locus 1: 7,3 Locus 2: 3,2 Locus 3: 4,9 Locus 1: 7,8 Locus 2: 2,1 Locus 3: 4,9
Locus 1: 7,3 Locus 2: 3,2 Locus 3: 4,9 Locus 1: 7,3 Locus 2: 2,1 Locus 3: 4,9
Locus 1: 14,19 Locus 2: 7,9 Locus 3: 4,9 Locus 1: 14,.. Locus 2: ..,7 Locus 3: 4,..
Locus 1: 6,9 Locus 2: 7,7 Locus 3: 4,5 Locus 1: 6,9 Locus 2: 7,7 Locus 3: 4,5
Inclusion
Indeterminate
Exclusion
Exclusion

Hot spot activity  

The hot spot activity will be added shortly.