Major / Minor Overview
Biochemistry Majors can earn a B.A. degree through the Department of Biochemistry. An honors program is available.ÌýBelow you can find information about these degrees and special programs.
Advising
All majors are expected to schedule regular appointments with their academic advisor. For more information please look at theÌýUndergraduate Advising page.
Notice of Course Change
Course pre-fixes were updated from CHEM to BCHM for several courses starting in Fall 2019. For questions or concerns about how these changes effect your degree status, please schedule an appointment with an academic advisor.
Program Requirements
The biochemistry major provides interdisciplinary training, education and experience in the chemical and biological sciences. Biochemistry focuses on understanding the chemical processes of living organisms,the reaction pathways that sustain life, the principles of how structure defines function, and the physical basis of biomolecular interactions. Students who major in Biochemistry are prepared for diverse careers in medicine, scientific research, biotechnology, pharmacy, biomedical consulting, teaching and education, among other professions. The undergraduate degree in Biochemistry emphasizes knowledge and understanding of:
Ìý
- Foundational principles of biology and chemistry
- The building blocks of life (DNA, RNA and proteins), how they evolved, how they interact, and how organisms make and degrade these building blocks
- How living organisms maintain homeostasis and regulate metabolism
- The molecular mechanisms of how living systems respond to changes, such as environmental perturbations, disease, and chemical therapeutics
- How chemical reactions impact human health
The undergraduate degree in Biochemistry also emphasizes and cultivates development of the following skills:
Ìý
- Quantitative problem solving
- Critical thinking and analytical reasoning
- Communication of scientific concepts and ideas
Because biochemistry connects to scientific disciplines ranging from genetics, human physiology, microbiology, neuroscience, cell biology, chemistry, and geology, Biochemistry majors are given the freedom to explore advanced electives in many of these subjects. Additional information about the Biochemistry B.A. can be found on the Biochemistry Department website.
Biochemistry major students are prepared for many different careers after graduation. Ìýoffers a number of programs and services designed to help students plan their career, including workshops, internships, and placement services after graduation. For an appointment with a career counselor or for more information, call 303-492-6541 or stop by Center for Community, N352.
Ìý
Additional Opportunities
Undergraduate Research
Undergraduates are encouraged to participate in research to prepare themselves for graduate school, professional school, or industry. There are multiple opportunities for undergraduates to be involved in research within the Department of Biochemistry. For more information, visit our Departmental Undergraduate research page.
Study Abroad
The experience of studying abroad can prove invaluable. For information about study abroad programs, visit the Ìýwebsite.
Teaching Certification
Biochemistry majors can also earn certification as teachers through the School of Education. The program for a secondary school science-teaching certificate is challenging requiring a broad, strong background in science, as well as coursework in education and practice teaching. It usually requires at least five years of study. Students interested in teacher certification are encouraged to contact the .
Students in the undergraduate biochemistry major are required to take three advanced major electives for a total of at least 9 credits to complete the biochemistry major. Below is a list of all approvedÌýelectives that can be taken to satisfy the advanced major electives requirement.
Ìý
Advanced Major Electives | |
|---|---|
| Select three of the following elective courses: | |
BCHM 3100 Ìý & BCHM 3110 | Engineering RNA Aptamers Ìý Ìýand Literature-based Co-seminar for BCHM 3100 CURE Laboratory Course |
| BCHM 3300 | Genetics Engineering: Science, Technology, and Society |
| BCHM 3400 | Mechanisms of Cancer |
| BCHM 3450 | Principles of Pharmacology and Toxicology |
| BCHM 4491 | Modern Biophysical Methods |
| BCHM 4631 | Computational Genomics Lab |
| BCHM 4751 | Current Topics in Biochemical Research |
| BCHM 4850 | Therapeutic and Diagnostic Nucleic Acids |
| BCHM 4901* | Independent Study in Biochemistry |
| BCHM 5341 | Chemical Biology and Drug Design |
| APPM 3310 | Matrix Methods and Applications |
| APPM 3570 | Applied Probability |
| APPM 4360 | Methods in Applied Mathematics: Complex Variables and Applications |
| ATOC 4200Ìý | Biogeochemical Oceanography |
| CHEM 4011 | Modern Inorganic Chemistry |
| CHEM 4171 | Instrumental Analysis- Lecture and Laboratory 1 |
| CHEM 4181 | Instrumental Analysis- Lecture and Laboratory 2 |
| CHEN 3010 | Applied Data Analysis |
| CHEN 3200 | Chemical Engineering Fluid Mechanics |
| CHEN 3210 | Chemical Engineering Heat and Mass Transfer |
| EBIO 2070 | Genetics: Molecules to Populations (cannot also count MCDB 2150 as a required ancillary course or an advaced elective) |
| EBIO 3040 | Conservation Biology |
| EBIO 3080 | Evolutionary Biology |
| EBIO 3180 | Global Ecology |
| EBIO 3190 | Tropical Marine Ecology |
| EBIO 3240 | Animal Behavior |
| EBIO 3400 | Microbiology |
| EBIO 3523 | The Art and Strategy of Science Communication: Branding Climate Change |
| EBIO 3590 | Plants and Society |
| EBIO 3630 | Parasitology |