Cell Cycle and Mitosis
Author(s): Ellena McCarthy1, Lakshmi Rajkumar2, Victor Madike2, Sean Cooney3, Mark Farinha4, Lisa Feinman2, Jennifer Laing2, Vedham Karpakakunjaram3, K. Rebecca Thomas3
1. Howard Community College 2. Community College of Baltimore County 3. Montgomery College 4. Anne Arundel Community College
226 total view(s), 195 download(s)
Cell Cycle Mitosis Module_Instructor Version.docx (Instructors only)(DOCX | 4 MB)- Cell Cycle Mitosis PreModule Work_Student Version.docx(DOCX | 3 MB)
- Cell Cycle Mitosis In-Class Module_Student Version.docx(DOCX | 45 KB)
Onion Root Tip Images for MI Data.pdf(PDF | 17 MB)
Cell Cycle and Mitosis_Excel Sheet.xlsx(XLSX | 44 KB)- License terms
Description
This module is designed for an introductory biology course and can be completed in approximately 60-75 minutes.
Students are expected to complete the pre-module work, review, and come prepared with the prior foundational knowledge of:
- Cell cycle and mitotic cell division
- Calculation of mean, standard deviation, standard error, and mitotic index (MI)
- Basic microscopy
The pre-module work has two parts. In Part I of the pre-module work, the students will learn to identify cells in different stages in the cell cycle (Interphase, Prophase, Metaphase, etc.), count the number of cells that are dividing (Mitotic phase) stages in a field of view and use that data to calculate the mitotic index. The Part II, the students will practice calculating mean, SD and SEM and discuss the effect of sample sizes on these statistical components. An instructor’s version of the pre-module work, with answer key, is shared as “Instructors Only” resources.
In the classroom activity, students will apply their prior knowledge to identify different stages of the cell cycle using instructor assigned, high-resolution images. The students will collect data and calculate the mitotic index from the assigned images, in addition to calculating MI, with provided data, for normal and tumor tissues. Further, students will compare the means, standard deviations, and standard errors for small and large sample sizes (group data vs. class data) to discuss effect of sample size on data interpretations and observing for patterns of variations in a population. This activity will help scaffold students’ quantitative skills, such as interpreting data sets, data visualization, using mathematical models of biological systems to make inferences about natural phenomena, and making statistical inferences by comparing different sample sizes.
During the in-class activity, the instructor should record the data in an excel worksheet. The template worksheet is preset to calculate the means and standard error for each group and also for the class, as a whole. This data could be used to discuss the relationship between standard error and the sample size and the relevance of sample sizes to discuss the biological phenomenon and variations across different tissue samples.
This module was developed and implemented as part of the NEXUS Institute for Quantitative Biology (NIQB), which is a collaborative project funded by the National Science Foundation's Improving Undergraduate STEM Education (NSF-IUSE) initiative. NIQB is a collaboration between University of Maryland, Baltimore County (DUE-1821274), Anne Arundel Community College (DUE-1821179), Community College of Baltimore County (DUE-1821249), Howard Community College (DUE-1820903), and Montgomery College (DUE-1821169).
Cite this work
Researchers should cite this work as follows:
- McCarthy, E., Rajkumar, L., Madike, V., Cooney, S., Farinha, M., Feinman, L., Laing, J., Karpakakunjaram, V., Thomas, K. R. (2024). Cell Cycle and Mitosis. NEXUS Institute for Quantitative Biology (NIQB), QUBES Educational Resources. doi:10.25334/GJ8Q-7Z79