Online Course:
Dates:  October 2nd, 2023 – December 6th, 2023 (Click here to apply)
Grade Level: Students must currently be in 10th - 12th grade
Tuition: $2,000
Schedule: 

Mondays and Wednesdays (4:30pm - 6:30pm PST)
Synchronous online teaching
4 hours of work required outside of online lecture

This course introduces the theory and practical applications of bioinformatics to genes and proteins.  The lecture/computer lab format is structured on bioinformatics primary scientific literature and utility of custom data sets emphasizing recent developments and analytical applications in genomics and proteomics. Course topics, supplemented by relevant biostatistical concepts and applications, include genomic and biomolecular bioinformatics resources and databases, advances in sequencing technologies, genome and structural informatics, phylogenetics and transcriptomics. Computational tools (using R programming language) and applications promoting best analytical practices will be emphasized.

Course Requirements / Eligibility: There is no textbook for this course. A familiarity with basic biological concepts is essential. No formal programming training or advanced mathematical skills are required. Students must have their own computers to access class material and utilize free bioinformatics software and data resources.  All course materials (lectures, computer labs, videos, science manuscript .pdf files and data sets, etc.) will be accessible via Canvas course website.  Students will also present a pre-approved bioinformatics topic of their choice during the last week of the course.

Schedule: This is a 10-weeks synchronous online course, meeting twice weekly for 1h lecture and 2 hours of computer lab. Attendance is mandatory to successfully complete the course. All lecture and lab sessions will be recorded and made available asynchronously for review.

Course is available for 4 pre-college units. 

Hybrid Course:
Dates:  October 3rd, 2023 – December 7th, 2023 (Click here to apply)
Grade Level: Students must currently be in 10th - 12th grade
Tuition: $3,000
Schedule: 

Tuesdays (4:30pm - 6:30pm PST); Synchronous online teaching
Thursdays (4:30pm - 6:30pm PST); In-person class meeting at the lab (San Diego Science Center. See location below)
4-6 hours of work required outside of lecture

Location: 

Boz Life Science Research and Teaching Institute
San Diego Science Center
3030 Bunker Hill Street, Suite 102
San Diego, CA 92109-5757

This 10-weeks hybrid course that meets twice per week – once virtually, and once in-person (lab), introduces students to metagenomics of female and male fruit flies exposed to environmental stressors relevant to pollution and climate change. Such stressors, such as exposure to polluted air consisting of polyaromatic hydrocarbons (PAHs) can induce physiological changes in organisms, altering lifespan, immunity, and metabolism. These alterations that shape environmental responses can span across generations and persist after the stress is removed. Stress-induced gene regulation changes may be temporal / physiologic or heritable / permanent and affected by changes in gut microbiome due to environmental exposures.  As females and males have notable variations in their sensitivities to stressors, the sex-specific phenotypic differencewill be quantified and compared. Metagenomic whole-body composition, which may influence how individuals and populations cope with environmental stress will be quantified; metagenomic composition of fly bodies will be analyzed for the evidence of how individuals and populations cope with environmental stress.

This course will incorporate multiple research methods, including DNA extraction and quantification, metagenomic sequencing using nanopore technology, and behavioral assays. Students will work in small teams in the lab to discuss theoretical concepts and primary scientific literature, design experiments, perform research, analyze the data, and prepare scientific report. The course will conclude with a formal science seminar during which the students will present their work in person to a selected audience.

Course is available for 4 pre-college units.