Introduction to Mathematical Modeling in Biotechnology, Cell Biology, and Physiology
Author(s): Borbala Mazzag1, Kamila Larripa1
Humboldt State University
1030 total view(s), 327 download(s)
Description
Each biological topic is introduced by a guest speaker whose research is relevant to the given topic. We cover simple mathematical techniques to quantify such systems, and discuss how to describe the key components of a biological process mathematically. The course emphasizes the relevance of mathematical and computational tools to approaching biological questions and how to interpret mathematical results in the context of these problems. Key mathematical concepts of the course are: integration, phase- plane analysis and introductory notions from graph theory. The course is composed of both a lecture session and lab session. Prerequisites of the course are basic calculus and biology.
Introduction
This course is broken down into 5 seperate modules:
- Human Locomotion
- Neuroanatomy
- Neurophysiology
- Signal Transduction
- Gene Sequence Analysis
Each module starts off with a relevant, current, and hopefully intelligeble paper from that modules particular field of study which the course aimes to understand by the end of that module. Labs and lectures are given as needed to meet this goal.
Cite this work
Researchers should cite this work as follows:
- Mazzag, B., Larripa, K. (2018). Introduction to Mathematical Modeling in Biotechnology, Cell Biology, and Physiology. QUBES Educational Resources. doi:10.25334/Q4TT6B