Office hours: W 1-3 by appointment (please email)
Professor Lee holds a BS from SUNY Binghamton in Biology, an MS from NYU and PhD from University of California, Berkeley in Molecular Biology. Dr. Lee is also currently a Visiting Scholar at UC Berkeley and serves frequently as a consultant or trainer in forensic DNA. He was formerly the Director of R&D at CA Dept of Justice DNA Laboratory from 1994-2000 where he served as an expert witness in DNA, spearheaded the implementation of robotics for sample processing, DNA extraction and STR amplification, and conducted DNA training courses. He is a Fellow in the Criminalistics section of the American Academy of Forensic Sciences, full member of the California Association of Criminalists, American Association for the Advancement of Science, National Science Teachers Association and is qualified as an American Society of Crime Laboratory Director’s Laboratory Accreditation Board inspector. He has taught courses in molecular biology at SFSU (1996-1998), Forensic genetics at UC Davis (1997), forensic DNA Typing of STRs at FIU (2003), Criminalistics, Forensic Science, DNA and Crime, Genetics Law and Society and Forensic Molecular Biology at SJSU.
Teaching and Research Interests
Forensic molecular biology is the molecular analysis of biological evidence to provide objective information on legal matters or those that pertain to criminal and civil law. Comparison of DNA profiles generated from the biological evidence to known samples can serve to link suspects with crime scenes or victims, exonerate the suspect, find the missing and aide investigations in human rights. Our research is highly interdisciplinary with Biology and Chemistry, focusing on advancing and enhancing forensic molecular tools and techniques to examine and characterize biological evidence. Recent projects include 1) Optimizing fluorescent detection of semen stains, 2) Comparison of DNA recovery from Molotov cocktails following 6 fire suppression strategies 3) Investigation of strategies to reduce PCR inhibition due to commonly found , co-extracted inhibitors to PCR and 4) Development, implementation and validation of room temperature DNA storage using novel polymers.
My main teaching goal is to inspire students to a life of continual scientific learning, discovery and practice, to serve justice. Courses that are offered combine rigorous, scientific principles and concepts, hands-on learning in a collaborative team environment, while also emphasizing the applications and practical implications of the sciences to serve justice. I strive to create an environment to inspire students to become scientifically literate, with critical thinking skills that will assist them in their future occupations. Many of our graduates have gone onto graduate school in forensic science, biology and chemistry as well as being employed in local, regional and national crime laboratories, industry and academia. I teach a variety of undergraduate and graduate courses including: 1) Introduction to Forensic Science, 2) Forensic Molecular Biology, 3) Fluorescent applications in Forensic Science, 4) Forensic and Investigative Biometrics, and 5) Genetics, Law and Society.
Lee, SB, Clabaugh, KC, Silva, B, Odigie, KO, Fourney, RM, Stevens, J, Carmody, GR, Coble, MD, Loreille, O, Scheible, M, Parsons, TJ, Pozder, A, Eisenberg, AJ, Budowle,B, Taha Ahmad, Russell W. Miller, Amy B. McGuckian, Julie Conover-Sikorsky and Cecelia A. Crouse. 2012. Assessing a novel room temperature DNA storage medium for forensic biological samples. Forensic Science International: Genetics, Volume 6, Issue 1, January 2012, Pages 31-40.
Conroy, K and Lee, S. 2012. Optimizing Human Semen Stain Detection Using Fluorescence. American Academy of Forensic Sciences Proceeding 18: 77-78.
Harris,C, Cardenas, A, Barloewen B, and Lee SB. 2012. Comparing Wearer DNA Sample Collection Methods for Determining the Best Method for the Recovery of Single Source Profiles. American Academy of Forensic Sciences Proceeding 18: 85-86.
Lee, SB, CA Crouse, MC Kline. 2010. Optimizing storage and handling of DNA extracts. Forensic Science Reviews 22:131-144.