Degree
Bachelor of Science with a major in BiochemistryContact
Amy Deveau, Ph.D.
Academic Director, School of Molecular and Physical Sciences
adeveau@une.edu
Mission
Chemistry and physics are fundamental sciences that touch every aspect of our lives and the world around us. Chemistry is the study of matter — its chemical and physical properties, the chemical and physical changes it undergoes, and the energy changes that accompany those processes. Chemistry often is referred to as the central science, it rests upon the foundation of mathematics and physics and in turn, is the essential basis for the life sciences such as biology and medicine. Chemistry is largely an experimental science and has applications diverse areas of research, including the development of new drugs, the search for solutions to problems of environmental pollution, and the derivation of alternative energy sources. Much cutting-edge research in biology and medicine is being carried out at the level of atoms and molecules, the particles of matter upon which the study of chemistry is based.
Physics, too, is the study of matter and energy, viewed from a different perspective. Understanding living systems and the universe in which we live requires an understanding of the chemical and physical principles that operate within them.
In addition to offering majors in Chemistry, Biochemistry, and Laboratory Science, and minors in Chemistry Biochemistry, and Biophysics, the School of Molecular and Physical Sciences fills a significant role for students in other programs through its introductory courses in chemistry and physics. Because of the fundamental roles of chemistry and physics in the biological, environmental, and health sciences, students in these programs benefit from the conceptual, quantitative, problem-solving, and communication skills stressed in the introductory courses, which form the foundation for later courses in the students' majors.
Major Description
The Bachelor of Science degree with a major in Biochemistry, with its balanced curriculum, assures that each student will gain a solid biochemical foundation, while securing a substantial foundation in the other major chemical subdisciplines, including analytical chemistry, organic chemistry, inorganic chemistry, and physical chemistry.
This major is an excellent choice for students who are especially interested in studying the infrastructure and applications of chemistry in biological systems. With appropriate choice of courses, graduates will be prepared for entry into graduate programs in chemistry, biochemistry, or the biomedical sciences, and well-prepared for professional programs in medicine, dentistry, veterinary medicine, pharmacy, and many other fields that rely on chemistry as a fundamental science.
Students wishing to enter the job market immediately after completion of their degree program have available to them a wide range of career opportunities in both the public and private sectors. Graduates will be especially well-prepared for entry-level positions in the rapidly growing biotechnology industry.
Curricular Requirements
CAS Core Requirements | Credits |
---|---|
Total Credits | 43 |
Program Required Courses | Credits |
---|---|
BIO 105/105L – Bio I: Ecology/Evolution w/Lab | Credits Fulfilled by Core Requirements |
BIO 106/106L – Bio II: Cellular/Molecular w/Lab | 4 |
BIO 214/214L – Genetics w/Lab | 4 |
BIO 370 – Cell and Molecular Biology | 3 |
CHE 150/150L – University General Chemistry I w/Lab* | 4 |
CHE 151/151L – University General Chemistry II w/Lab* | 4 |
CHE 250/250L/250S – University Organic Chemistry I w/Lab and LabLecture* | 5 |
CHE 251/251L/251S – University Organic Chemistry II w/Lab and LabLecture* | 5 |
CHE 307/307L – Quantitative Analysis w/Lab | 5 |
CHE 327 – Applied Physical Chemistry or CHE 371 – Physical Chemistry II | 3 |
CHE 350/350L – Biochemistry I: Proteins w/Lab | 5 |
CHE 351 – Biochemistry II: Metabolism and Bioenergetics | 3 |
CHE 375 – Advanced Laboratory or CHE 417/417L – Instrumental Methods of Analysis w/Lab or CHE 450 – Advanced Biochemistry Laboratory | 3 |
CHE 401 – Chemistry Seminar | 1 |
MAT 190 – Calculus I | Credits Fulfilled by Core Requirements |
MAT 195 – Calculus II | 4 |
PHY 210 – University Physics I* | 4 |
PHY 211 – University Physics II* | 4 |
Six (6) Credits of Program Specific Electives | 6 |
Total Credits | 67 |
Open Elective Courses (as needed to reach 120 credits) | Variable |
Minimum Total Required Credits | 120 |
---|
Program Specific Electives | Credits |
---|---|
CHE 280 – Intermediate Inorganic Chemistry | 3 |
CHE 320 – Mechanistic Organic Chemistry | 3 |
CHE 370/370L – Physical Chemistry I w/Lab | 4 |
CHE 375 – Advanced Laboratory** | 2 |
CHE 380 – Inorganic Chemistry | 3 |
CHE 405 – Medicinal Chemistry | 3 |
CHE 410 – Research I and/or CHE 411 – Research II (not to exceed three (3) credits total combined) | 1–3 |
CHE 417/417L – Instrumental Methods of Analysis w/Lab** | 4 |
CHE 420 – Spectroscopic Methods of Structural Analysis | 3 |
CHE 450 – Advanced Biochemistry Laboratory** | 3 |
*Matriculated majors are expected to enroll in the University course sequences for general chemistry, organic chemistry, and physics. The following substitutions may be made with program permission: CHE 110 for CHE 150; CHE 111 for CHE 151; CHE 210 for CHE 250; CHE 211 for CHE 251; PHY 110 for PHY 210; and/or PHY 111 for PHY 211.
**If not already taken for program required course option.
Students in this major can participate in the pre-health graduate school preparation tracks.
Academic and Technical Standards
A minimum grade of C- must be achieved in all required science and mathematics courses used toward graduation in biochemistry, and a 2.00 cumulative grade-point average in the sciences is a requirement for graduation.
Learning Outcomes
Upon completion of the Biochemistry major, students will be able to
- Describe and apply advanced biochemical information and concepts.
- Demonstrate proficiency in safe and ethical laboratory practices and use of instrumentation standard to the discipline.
- Clearly communicate biochemical information in both oral and written forms.
- Work collaboratively in various team settings.
- Compete for placement in graduate programs or employment relevant to the field of study.
Minor
Program Required Courses | Credits |
---|---|
BIO 370 – Cell and Molecular Biology | 3 |
CHE 307/307L – Quantitative Analysis w/Lab or CHE 450 – Advanced Biochemistry Lab | 3–5 |
CHE 350/350L – Biochemistry I: Proteins w/Lab | 5 |
CHE 351 – Biochemistry II: Bioenergetics & Metabolism | 3 |
Minimum of One (1) Program Specific Elective (below) | 2–5 |
Minimum Total Required Credits | 18 |
---|
Program Specific Electives | Credits |
---|---|
BIO 232/232L – Microbiology w/Lab | 4 |
BIO 254 – Medicinal Plant Biology | 3 |
BIO 306 – Virology | 3 |
BIO 318 – Nutrition through the Life Cycle | 3 |
BIO 365 – Immunology | 3 |
BIO 404/404S – Neuroscience** w/Recitation | 4 |
BIO 407 – Developmental Biology | 3 |
CHE 280/280L – Intermediate Inorganic Chemistry w/Lab | 3 |
CHE 307/307L – Quantitative Analysis* w/Lab | 5 |
CHE 320 – Mechanistic Organic Chemistry | 3 |
CHE 327 – Applied Physical Chemistry | 3 |
CHE 371 – Physical Chemistry II | 3 |
CHE 375 – Advanced Laboratory | 2 |
CHE 405 – Medicinal Chemistry | 3 |
CHE 417/417L – Instrumental Methods of Analysis w/Lab | 4 |
CHE 420 – Spectroscopic Methods of Structural Analysis | 3 |
CHE 450 – Advanced Biochemistry Lab* | 3 |
MAR 326 – Experimental Animal Physiology | 3 |
NEU 205/205L – Introduction to Neurobiology w/Lab | 4 |
*If not chosen as a required course.
**Enrollment eligibility is dependent upon availability and requires permission.
Additionally, selected topics courses may be acceptable. Contact the Academic Director for more information.
There are no restrictions on counting a course towards this minor and towards other program requirements.
Honors Program
We offer qualified students the option of graduating with Honors. This includes significant research, scholarship or creative activity under the direction of a faculty member. Interested students should consult with their advisor.
Transfer Credit
Courses completed at another accredited college can be transferred to this degree program. A transferred course must align in scope and content to the required course offered at ³ÉÈËÖ±²¥. Otherwise, a course may transfer as a general elective.
All courses completed must be no older than five (5) years.
Transferred courses for matriculated students must be approved by the Academic Director.
Other restrictions apply. See Undergraduate Admissions for more information.
Admissions
Preferred conditions for entry into the biochemistry major are completion of at least three (3) years of high school mathematics and three (3) years of high school science, including biology, chemistry, and physics.
See Undergraduate Admissions for more information.
Financial Information
Tuition and Fees
Tuition and fees for subsequent years may vary. Other expenses include books and housing. For more information regarding tuition and fees, please consult the Financial Information section of this catalog.
Notice and Responsibilities Regarding this Catalog
This catalog outlines the academic programs, degree criteria, policies, and events of the ³ÉÈËÖ±²¥ for the 2024–2025 academic year and serves as the official guide for academic and program requirements for students enrolling at the University during the Summer of 2024, Fall 2024, and Spring 2025 semesters.
The information provided is accurate as of its publication date on April 26, 2024.
The ³ÉÈËÖ±²¥ reserves the right to modify its programs, calendar, or academic schedule as deemed necessary or beneficial. This includes alterations to course content, class rescheduling, cancellations, or any other academic adjustments. Changes will be communicated as promptly as possible.
While students may receive guidance from academic advisors or program directors, they remain responsible for fulfilling the requirements outlined in the catalog relevant to their enrollment year and for staying informed about any updates to policies, provisions, or requirements.