BiochemistryCharles Hedgcoth,* Head
Professors Davis,* Hedgcoth,* Kanost,* Kramer,* Muthukrishnan,* Reeck,* Roche,* D. Takemoto,* and Tomich;* Associate Professors Krishnamoorthi* and Wang;* Assistant Professors P. Smith,* A. Zolkiewska*, and M. Zolkiewski;* Research Assistant Professors Iwamoto and Prakash;* Emeriti: Professors Burkhard, Koeppe, Mitchell, Nordin, Parrish, and Ruliffson; Associate Professor Mueller.
E-mail: biochem@ksu.edu
Biochemistry seeks to understand the molecular events of life processes. It applies chemical and physical techniques to elucidate the structure and organization of molecules, particularly macromolecules that are responsible for the structural organization as well as operation and control of all cellular processes. The emerging knowledge has broad importance and consequences for all areas of the life sciences.
The Department of Biochemistry offers work leading to bachelor of arts and bachelor of science degrees with majors in biochemistry. The B.A. degree provides a liberal education with sufficient emphasis on science for students who wish to prepare for certain professional schools. The B.S. degree prepares students for professional careers in biochemistry or entry into graduate biochemistry training programs.
To graduate, a student must have a grade of C or better in all science and mathematics courses required for the degree, including transfer courses, as specified below. In addition, to graduate a student must have a 2.2 GPA in required science and mathematics courses taken at K-State.
Bachelor of arts
Bachelor of science
Transfer students
A year of freshman chemistry—lecture and laboratory A semester of analytical chemistry—lecture and laboratory A year of organic chemistry—lecture and laboratory A year of analytic geometry and calculus A year of biology—lecture and laboratory
Completion of these science courses should allow students to go directly into biochemistry and advanced biology courses upon entry into a biochemistry curriculum.
Biochemistry courses
BIOCH 101. Biochemistry Colloquium. (2) I, II. Offered by TELENET. Topics in biochemistry chosen to illustrate current research of scientists and methods chosen to study biological problems from a biochemical point of view. At each offering of this course a syllabus will be available giving the topics to be studied and the details of administration of the course. May be repeated once. Not open to biochemistry majors.
BIOCH 290. Biochemistry Seminar. (2) II. Lectures and discussions on basic topics in biochemistry. Pr.: BIOCH 100.
BIOCH 499. Senior Honors Thesis. (2) I, II, S. Open only to seniors in the arts and sciences honors program. May be used by honors students to satisfy B.S. requirement for BIOCH 799. Pr.: BIOCH 755 or conc. enrollment.
BIOCH 521. General Biochemistry. (3) I, II, S. A basic study of the chemistry and metabolism of carbohydrates, lipids, proteins, and nucleic acids. Pr.: CHM 350.
BIOCH 522. General Biochemistry Laboratory. (2) I, II, S. A one-semester laboratory course with experiments relating to carbohydrates, lipids, proteins, nucleic acids, and enzymes. Six hours lab a week. Pr.: CHM 351 and BIOCH 521 or conc. enrollment, or BIOCH 755 or conc. enrollment.
BIOCH 590. Physical Studies of Biomacromolecules. (3) II. A lecture course providing an overview of the concepts and techniques of physical science as they are applied to study the structure and function of biomacromolecules, such as proteins and DNA. The applications discussed will range from those utilizing classical equilibrium thermodynamics to spectroscopic methods such as mass spectrometry, circular dichroism (CD), and nuclear magnetic resonance (NMR). Pr.: CHM 500 or equiv., and MATH 220 and 221, or equiv., and PHYS 113 and 114, or equiv.
BIOCH 599. Research Training in Biochemistry. (1-3) I, II, S. Provides laboratory experience for majors and nonmajors in research techniques contributing to ongoing biochemical research. May be repeated up to 8 hours. Pr.: *Background adequate for relevant techniques.
Undergraduate and graduate credit
BIOCH 756. Biochemistry I Laboratory. (2) I. An intensive laboratory course to accompany BIOCH 755. BIOCH 756 and 766 are sequential courses for students interested in a two-semester comprehensive coverage of experiments in biochemistry. For a one-semester laboratory course, enroll in BIOCH 522. Six hours lab a week. Pr.: *BIOCH 755 or conc. enrollment.
BIOCH 765. Biochemistry II. (3) II. Continuation of BIOCH 755; lipid chemistry and metabolism, amino acid metabolism, nutrition, nucleic acid chemistry and metabolism, integration of biochemical pathways and metabolic control mechanisms. Pr.: *BIOCH 755.
BIOCH 766. Biochemistry II Laboratory. (2) II. A continuation of BIOCH 756. Six hours lab a week. Pr.: *BIOCH 756 and 765 or conc. enrollment.
BIOCH 790. Physical Biochemistry. (3) I. A survey of biophysical methods most frequently encountered in biochemistry and related disciplines. The course emphasizes principles underlying methods used to determine the molecular weight and shape of biopolymers, and techniques used to detect conformational changes in polynucleotides, proteins, and polysaccharides. Pr.: *Calculus, a course in physical chemistry, BIOCH 765 and 766.
BIOCH 799. Problems in Biochemistry. (Var.) I, II, S. Problem may include laboratory or library work in various phases of biochemistry, agricultural chemistry, or nutrition. Pr.: *Background adequate for problem undertaken.
*Nonmajors lacking these prerequisites should obtain consent of instructor before enrollment.
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