BIOL 383
MOLECULAR FORENSIC BIOLOGY
Catalog Entry
BIOL 383. Molecular Forensic Biology (4)
Three hours lecture; three hours laboratory
Prerequisites: A grade of "C" or better in either BIOL 131, BIOL 132, BIOL 231, and BIOL 232; or a grade of "C" or better in BIOL/CHEM 471/472; or a grade of "C" or better in BIOL 105 and permission of instructor.
An introduction to the basic principles and molecular techniques currently utilized by the majority of forensic laboratories performing DNA and/or protein analysis. Lectures will provide students with an understanding of the scientific foundation for and the development of each technique. Topics include DNA/protein structure, origins of genetic variation and methods for quantifying variation, population genetic theory used in forensic analysis, forensic informatics, statistical approaches to data analysis and legal issues associated with molecular forensics. The laboratory portion will provide students hands on experience with a variety of forensic techniques and will also train the student in proper record keeping, laboratory Quality Assurance/Quality Control requirements and performing routine laboratory calculations.
Detailed Description of Content of Course
Biology:
DNA/Protein structure and function
DNA replication
Transcription
Translation
Origins and analysis of genetic variation
Mutation (point mutations, insertions/deletions, replication slippage, translocations)
Mutation Rates
Types of genetic variation
Single Nucleotide Polymorphism (SNP)
Restriction Fragment Length Polymorphism (RFLP)
Microsatellites, VNTR, SSR
Y chromosome and Mitochondrial DNA
Genetics:
Meiosis
Introductory Population Genetics
Basic genetic principles, Statistics and Probability
Alleles
Migration, genetic drift, selection, mutation
Hardy-Weinberg Equilibrium
Probability
Simple Tandem Repeat (STR) database analysis
Genotype/haplotype frequency estimates and likelihood ratios.
Statistical analysis of mixed samples.
Kinship and Parentage testing.
Technology/Instrumentation:
Presumptive and confirmatory tests for biological materials
DNA extraction/quantification
DNA/Protein separation methods
Slab gel and capillary electrophoresis
Starch gel, acrylamide gel, acetate gel and isoelectric focusing.
DNA/Protein detection methods
Fluorescent Dyes, Silver staining, Isozyme analysis.
Database searching.
Administrative:
Record Keeping
Report Preparation
Quality Assurance/Quality Control
Laboratory validation
Dealing with biohazards
Detailed Description of Conduct of Course
The course will be taught in classroom and laboratory sessions. Classroom instruction will be a combination of lecture, discussion, group work, team learning, and case studies as determined by the instructor.
The laboratory meetings will provide the students with the skills to choose appropriate techniques, to troubleshoot results, analyze and summarize data and to report their results in the format of the judicial system. This course will focus particularly on the following basic laboratory skills:
路 Database searches and effective use of Boolean operators
路 Calculation of concentration
路 Gel and capillary electrophoresis
路 Statistical analysis of data
路 Sterile technique
路 Phylogenetic analysis of molecular data.
Goals and Objectives of Course
Students successfully completing this course should meet the minimum criteria described in section 5.3.1 of the Federal Bureau of Investigation Quality Assurance Standards for the position of Examiner/analyst in Forensic DNA Testing Laboratories. This course will provide students with:
鈥渁 basic understanding of the foundation of forensic DNA analysis, as well as course work and/or training in statistics and population genetics as it applies to forensic DNA analysis.鈥
Students successfully completing this course will be able to:
Assessment Measures
Methods of assessment will include:
鈥 Analysis of written examinations, quizzes, writing to learn and other writing assignments, practical laboratory examinations, and laboratory reports. Some component of the laboratory assessment will test the student鈥檚 ability to make measurements and use the equipment. Assessment measures may also include evaluation of student presentations and graded homework, depending on the instructor.
鈥 Analysis of skills in comprehending, synthesizing, and articulating course content.
鈥 Analysis of students鈥 skills in critical thinking.
Other Course Information
None
Approval and Approval
DATE ACTION REVIEWED BY
New Course 2/16/09 Gary Cot茅