A study examined whether students beginning a cell biology course with prior knowledge of its three areas (genetics, histology, and biochemistry) would retain that advantage throughout the course and whether achievement was influenced by the order of questions in a test. (MSE)

Describes three activities, substrate inhibition, product inhibition by fructose and glucose, and gel immobilization of invertase for use with undergraduate biochemistry classes. Discusses materials, methods, and results. Stresses the advantages of practical exercises in undergraduate classes. (CW)

Discusses insights discovered from research into human biology that are raising possibilities for therapy, prevention of disease, and challenges to society in the form of ethical decisions about the appropriate application of genetic information. (Author/RT)

Described is a teaching method for connecting relative acidity among various species by the use of familiar references. Considered are teaching the acidity of alpha-hydrogens of ketones, alkylation of amides and imides, and others. (CW)

Describes the assessment process for students in Saudi Arabia who are interested in pursuing a higher education in biochemistry. Provides recommendations for improving biochemistry education in both high schools and universities. (TW)

Discusses the various ways that textbooks treat the energetics of protein synthesis. Offers an approach to explaining the phenomenon by emphasizing the ordering aspects of the process. Describes the participation of compounds such as ATP and GTP in the ordering process. (TW)

Discusses the use of specific reactions of metabolic pathways to make measurements in the laboratory. Describes an adaptation of an experiment used in undergraduate biochemistry laboratories involving the induction of an enzyme in E. coli, as well as its partial purification and characterization. (TW)

Cites three historical anecdotes dealing with chromatography, the bioinorganic chemistry of iron, and the Pauli effect. (MLH)

Discusses the successful results of a research project which was carried out by students with full guidance and psychological support. Concludes that students are capable of designing, executing, and interpreting sophisticated experiments when treated with courtesy and respect, rather than as only students.'' (CC)

Reviews two textbooks: "Principles of Biochemistry" by Albert L. Lehninger and "Inorganic Chemistry, A Modern Introduction" by Therald Moeller. Also reviews text, study guide, and laboratory manual for Morris Hein's "Foundations of College Chemistry, Fifth Edition" and text/study guide for David A. Ucko's "Basics for Chemistry." (JN)

A nontraditional laboratory course for first-year medical students is described, consisting of two laboratory exercises adapted to the guided design strategy and a short research project. Student learning and attitudes were shown to improve, but curriculum preparation time was a major disadvantage. (MSE)

Describes the processes involved in clinical urinalysis and relates them to possible high school biology classroom uses. (CS)

Ten years ago the results of the National Board of Medical Examiners (NBME) minitest suggested that there would be little change in total basic science examination performance between the second and fourth year of medical school. Five projects are reported that sustain these results. (Author/JMD)

Early admission students performed as well as first-year medical students in the preclinical sciences. They integrated, rather than alternated, undergraduate and medical coursework. Double or inter-departmental majors were common; few general education or non-major courses were chosen. (CP)

Describes a method utilized at Iowa State University for teaching a biochemistry laboratory course for non-majors involving the use of student independent projects and experimental choices. (BT)