Professors Lawson (Chemistry) and Baker (Biology); Associate Professors Pelliccia (Biology), Abrahamsen (Biology), and Schlax (Chemistry; chair)
Biological chemistry encompasses the study of the form and function of the proteins, lipids, carbohydrates, and nucleic acids found in living organisms. Traditionally, biological chemistry has been an interdisciplinary field, drawing on techniques and expertise from physics, medicine, biology, and chemistry. The required courses for the major give a student a solid foundation in basic science, while the array of elective courses allows wide latitude in pursuing an area of individual interest. The thesis provides a final integrating experience.
The program maintains affiliations with certain research laboratories at which students may conduct a semester of research for credit. Such credits may be used to fulfill one of the elective requirements or a portion of the thesis requirement; however, such a possibility must be arranged by the student prior to beginning the research program. More information on the biological chemistry program is available on the Web site (www.bates.edu/BIOC.xml).
Major Requirements. The major requires thirteen or fourteen courses, including a one- or two-semester thesis, mentored in either the biology or chemistry department. Students may choose thesis advisors from faculty not formally part of the biological chemistry program, but thesis topics must be approved by the program committee.
Double Majoring in Biological Chemistry and Biology or Chemistry. If a student undertakes a double major in biological chemistry and biology or chemistry, he or she may not use the same elective course to fulfill both majors.
Seminar Requirement. Each major is required to make two formal thesis research presentations during the senior year, at least one of which is an oral seminar. Each senior is also required to attend at least four seminars presented by visiting scholars in either the biology or chemistry department.
B.S. Requirements. In addition to Chemistry 107A or Chemistry/Environmental Studies 107B, and Chemistry 108A or Chemistry/Environmental Studies 108B, two semesters of calculus (Mathematics 105-106) and two semesters of physics (Physics 107 or First-Year Seminar 314, and Physics 108 or First-Year Seminar 274) are required. Since three of these courses are required for Chemistry 302 and 310, only Physics 108 or First-Year Seminar 274 is an additional requirement.
Pass/Fail Grading Option. Pass/fail grading may not be elected for courses applied toward the major.
For further information, students should consult a member of the program.
For the Class of 2008, all of the following:
Any 100-level biology course or AP biology credit (recommended: BIO 106. Animal Development, BIO 108. Cancer, or BIO 131. Human Genetics and Biotechnology).
BIO 201. Biological Principles.
BIO s42. Cellular and Molecular Biology.
Beginning with the Class of 2009, all of the following:
BIO 101. Organismal Biology.
BIO 242. Cellular and Molecular Biology.
For all classes:
BIO 331. Molecular Biology.
One of the following:
CHEM 107A. Atomic and Molecular Structure.
CH/ES 107B. Chemical Structure and Its Importance in the Environment.
One of the following:
CHEM 108A. Chemical Reactivity.
CH/ES 108B. Chemical Reactivity in Environmental Systems.
One of the following:
CHEM 302. Statistical Thermodynamics.
CHEM 310. Biophysical Chemistry.
All of the following:
CHEM 217. Organic Chemistry I.
CHEM 218. Organic Chemistry II.
CHEM 321. Biological Chemistry I.
CHEM 322. Biological Chemistry II.
A one- or two-semester thesis is also required, with the thesis advisor being a faculty member in either chemistry or biology.
Choose at least two, one of which must come from biology. It is strongly recommended that students considering graduate programs in biochemistry, biophysics, or related disciplines select a chemistry elective.
BI/NS 308. Neurobiology.
BIO 314. Virology.
BIO 315. Bacteriology.
BIO 320. Pharmacology.
BIO 330. Advanced Genetics.
BIO 331. Molecular Biology (cannot serve as both an elective and as a required course).
BIO 337. Animal Physiology.
BIO 338. Drug Actions on the Nervous System.
BIO 351. Immunology.
BIO 380. Plant Physiology.
BIO s34. Electron Microscopy.
BIO s44. Experimental Neuro/Physiology.
BIOC 312. Genomics, Proteomics, and Bioinformatics.
CHEM 212. Separation Science.
CHEM 215. Descriptive Inorganic Chemistry.
CHEM 223. Analytical Spectroscopy and Electrochemistry.
CHEM 301. Quantum Chemistry.
CHEM 302. Statistical Thermodynamics (cannot serve as both an elective and a required course).
CHEM 310. Biophysical Chemistry (cannot serve as both an elective and a required course).
CHEM 313. Spectroscopic Determination of Molecular Structure.
CHEM 325. Organic Synthesis.
CHEM s32. Practical Genomics and Bioinformatics.
CHEM s37. Advanced Measurement Lab.
CHEM s42. Chemical Synthesis and Reactivity.