Introduction
BI102 Course Outline
BI102 Course Description: Adaptations of BI102 vary in theme, but all explore the scientific process and topics in the molecular and genetic foundation of life, including cell division, protein production, and inheritance. All BI102 courses are equivalent; only one can be used to fulfill degree requirements. BI101, BI102, and BI103 are non-sequential and can be taken in any order. Prerequisite: RD090, WR090, and MTH020, each with a grade of “C” or better; or placement above stated course levels. Students considering majors in science or pre-professional health occupations are advised to eventually take BI211, BI212, and BI213.
BI102A Course Description: Adaptations of BI102 vary in theme, but all explore the scientific process and topics in the molecular and genetic foundation of life, including cell division and inheritance. BI102A is a survey course that introduces the discipline of molecular biology and genetics. Topics discussed include: the principles of the scientific method, principles of inheritance, gene expression and regulation. All BI102 courses are equivalent; only one can be used to fulfill degree requirements. BI101, BI102, and BI103 are non-sequential and can be taken in any order. Prerequisite: RD090, WR090, and MTH020, each with a grade of “C” or better; or placement above stated course levels. Students considering majors in science or pre-professional health occupations are advised to eventually take BI211, BI212, and BI213.
Course and Student Learning Outcomes
1.Apply the scientific method to biological questions by designing experiments and using the resulting data to form a conclusion.
1A. Design a controlled experiment to answer a biological question.
1B. Predict the outcome of an experiment.
1C. Collect, manipulate, and analyze quantitative and qualitative data.
1D. Answer a biological question using data.
2. Select, evaluate, and utilize discipline-specific sources of information to research a biological topic.
2A. Differentiate between questions that can and cannot be answered using science.
2B. Identify appropriate credible sources of information to research a topic.
2C. Evaluate sources of information for their strengths and weaknesses.
3. Assess the strengths and weaknesses of the design of scientific studies and conclusions drawn from such studies.
3A. Evaluate the strengths and weaknesses of their own as well as published experiments.
4. Communicate information using appropriate biological terminology in multiple formats.
4A. Use an appropriate written format to present scientific information.
4B. Use appropriate biological terminology to answer written and oral questions.
5. Use evidence to develop informed opinions on contemporary biological issues while considering cultural and ethical implications.
5A. Research current ethical issues in topics relating to inheritance, gene expression and regulation.
5B. Form opinions based on published scientific research.
6. Discuss and apply biological theories and concepts of the molecular and genetic basis of life, including cell division, inheritance, and gene regulation.
6A. Describe the process and consequences of binary fission, mitosis, and meiosis.
6B. Define basic terms used in association with classical and molecular genetics.
6C. Describe the molecular basis of inheritance.
6D. Determine the outcome in crosses involving various types of inheritance (e.g. simple dominance, codominance, incomplete dominance, sex-linkage).
6E. Present and decipher information about trait information using a pedigree.
6F. Describe the structure of DNA and how DNA is used for the process of protein synthesis.
6G. Describe how mutations affect protein synthesis and its products.
6H. Discuss the purpose and mechanisms of gene regulation.
Instructional Methods
To help the student achieve the objectives outlined above, a variety of techniques will be used including in-class activities, small group discussions and problem solving, homework assignments, in-class problem solving and laboratory experiences. Typically, each topic will be introduced through homework assignments utilizing online or print resources, reinforced and placed in perspective during class, and explored further in laboratory.
Class communication will vary with instructor and may include lectures, demonstrations, case-studies, films, oral and written student-presentations, and use of online tools and other forms. None of these activities will replace classroom contact hours.
Assessment
Completion of course objectives and assigned evaluation according to criteria provided by the instructor will be required. Grading will be in accordance with college standards.
Online Assessment
Assessment of course outcomes is designed to be verified as appropriate using online quizzes and tests; these assessments may be proctored and may require travel to an approved testing center. The same outcomes and grading standards will apply for all instructional formats.
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