James L. Hougland: 454 Life Sciences Complex
Roy D. Welch: 236 Life Sciences Complex
Carlos A. Castañeda, Joseph Chaiken, Arindam Chakraborty, John D. Chisholm, Heather D. Coleman, Steve Dorus, Robert P. Doyle, Scott E. Erdman, Thomas P. Fondy, John M. Franck, Johnathan French, Anthony Garza, Paul Gold, Sarah E. Hall, Heidi Hehnly, James A. Hewett, Sandra J. Hewett, James L. Hougland, James Kallmerten, Ivan V. Korendovych, Donna L. Korol, Timothy M. Korter, Katharine Lewis, Yan-Yeung Luk, Jessica MacDonald, Eleanor Maine, Olga Makhlynets, Mathew M. Maye, Davoud Mozhdehi, Melissa E. Pepling, Ramesh Raina, Karin Ruhlandt, Robert B. Silver, James T. Spencer, Michael B. Sponsler, Rachel C. Steinhardt, Nancy I. Totah, Roy D. Welch, and Jon Zubieta
Biochemistry is the study of the molecular basis of life. Lying at the interface between chemistry and biology, biochemistry is concerned with the structure and interaction of proteins, nucleic acids, and other biomolecules as related to their function in biological systems. As one of the most dynamic areas of science, biochemistry has led to improved medicines and diagnostic agents, new ways of controlling disease, and greater understanding of the chemical factors that control our general health and well-being.
The bachelor of science degree in biochemistry is appropriate for students pursuing advanced degrees in biochemistry, molecular biology, and biophysics, as well as in the biomedical fields and health professions.
Student Learning Outcomes
1. Be able to recognize theories, concepts, and principles from the major sub-fields of biology
2. Be able to recognize theories, concepts, and principles from the major sub-fields of chemistry with emphasis on developing problem solving skills in inorganic and organic chemistry
3. Distinguish more specific and advanced concepts in selected areas of biology and/or chemistry
4. Be able to recognize fundamental biochemical concepts and principles and apply them to problem solving in biochemistry
5. Perform accurate and precise biochemical measurements and be able to apply skills in the nature and practice of science, with emphasis on interpretation of experimental results and drawing reasonable conclusions
6. Communicate effectively through oral and written reports
7. Perform laboratory research
To Declare the B.S. Major in Biochemistry
To declare the B.S. in Biochemistry, students must:
Have completed at least 30 credits in graded coursework at Syracuse University
Earn a C+ or better in Organic Chemistry I (CHE 275)
Earn a C+ or better in Genetics (BIO 326) or Cell Biology (BIO 327)
Core Courses (48-60 credits)
Upper-Division Elective Courses
(at least 12 credits, including at least one instructional lab indicated with an asterisk)
If both BIO 475 and CHE 477 /BCM 477 are taken, one may count toward the 12-credit elective requirement, thereby also meeting the instructional lab requirement.
BCM 460 counts once (up to 3 credits) toward the elective requirement, but does not count as an instructional lab course.
For a Career in Biology, Biochemistry, or Molecular Biology
Preparation for Graduate School in a Department of Biology, Biochemistry, or Molecular Biology
For a Career in Chemistry
Preparation for Graduate School in a Department of Chemistry
For a Career in Health Professions (M.D., D.D.S., D.V.M.)
Preparation for Health Professions (M.D., D.D.S., D.V.M.)
For a Technical Career in Pharmaceutical or Biotechnology Industry
Preparation for Technical Careers in Pharmaceutical or Biotechnology Industry
Distinction in Biochemistry
The biochemistry B.S. program encourages all of its students to participate in research through its BCM 460 course. For students whose research culminates in a written thesis, it is possible to graduate with Distinction in Biochemistry if the following requirements are met.
First, the student must have an overall cumulative GPA of 3.4 and a minimum cumulative GPA of 3.4 in all natural sciences and mathematics courses taken at Syracuse University.
Second, the student must have taken a minimum of 6 credits of BCM 460 .
Third, before completion of the final semester at Syracuse University, the student must make an oral presentation (either poster or platform) on his/her research at one of the following: (1) Syracuse University’s Annual Life Sciences Undergraduate Research Conference in April; or (2) an external conference sponsored by an outside (non-S.U.) educational institution with its own accredited 4-year biochemistry degree program; or (3) an external conference sponsored by a nationally-recognized scientific society with a biochemistry component (e.g., ACS, FASEB, Biophysical Society). A symposium specifically designed for undergraduate researchers from multiple institutions and sponsored by a regional or local chapter of a national scientific society does qualify as external, even if it is physically located at Syracuse University.
Fourth, the written thesis must be judged by a committee of readers selected from among the biochemistry program faculty listed in the Syracuse University Course Catalog. The student is responsible for selecting potential readers and obtaining their consent. The committee of readers should include the research supervisor, but in any case, must include at least one member whose primary appointment is in the Biology Department, and one member whose primary appointment is in the Chemistry Department.
For further information, contact the biochemistry major advisors:
James Hougland, 454 Life Sciences Complex, 315-443-1134, email@example.com; or Roy Welch, 236 Life Sciences Complex, 315-443-2159, firstname.lastname@example.org.