Genomics and bioinformatics are topics of increasing interest in undergraduate biological science curricula. Many existing exercises focus on gene annotation and analysis of a single genome. In this paper, we present two educational modules designed to enable students to learn and apply fundamental concepts in comparative genomics using examples…

We revised a sophomore-level genetics class to more actively engage the students in their learning. The students worked in groups on quizzes using the Immediate Feedback Assessment Technique (IF-AT) and active-learning projects. The IF-AT quizzes allowed students to discuss key concepts in small groups and learn the correct answers in class. The…

With the number of popular medical and forensics programs on television and many references in the media today, even elementary students can comfortably throw around terms such as "cells," "DNA," and "artificial products." However, their questions on these topics often go unanswered, or they are left with misinformation regarding these concepts.…

Examines the content knowledge of genetics as it is organized for solving effect-to-cause problems. Reviews proposed reasons explaining why students find genetics difficult to learn. Explains dominant and codominant inheritance patterns, multiple alleles, and X-linkage. (RT)

This teacher's guide contains parts three and four of the four-part first year Portland Project, a three-year secondary integrated science curriculum sequence. Part three of the guide deals with topics such as the cell, reproduction, embryology, genetics, genetic diseases, genetics and change, populations, effects of density on populations,…

Proceedings of a Workshop organized by the Unesco Regional Office for Education in Asia and Oceania and with the Science Education Center of the University of the Philippines are presented. The primary purpose of the workshop was to review biology education at the secondary level, focusing on: (1) environmental aspects; (2) molecular and genetic…