BMB546: Cellular evolution
Study Board of Science
Teaching language: Danish
EKA: N200037112, N200037102
Assessment: Second examiner: None, Second examiner: External
Grading: Pass/Fail, 7-point grading scale
Offered in: Odense
Offered in: Spring
Level: Bachelor
STADS ID (UVA): N200037101
ECTS value: 5
Date of Approval: 29-09-2020
Duration: 1 semester
Version: Archive
Entry requirements
Academic preconditions
Students taking the course are expected to: Have knowledge of fundamental cell biology, including basic molecular chemistry and molecular biology
Course introduction
The aim of the course is to give the student insight into, and an understanding of, the evolutionary mechanisms in various contexts, and the effects of these on the physiological parameters in various living organisms, focusing on mammals, including humans. In addition, the course will focus on enabling the student to transfer the understanding of evolutionary mechanisms to a broad range of areas, including bioinformatics and a self chosen topic. The course builds on the fundamental understanding of cell biology, biochemistry and molecular biology, obtained earlier in the program, and gives a fundamental understanding of physiology, including the function of various organs and tissues and their interaction and development in an evolutionary context, which provides a foundation for studying these topics later in the program, including in the course BMB536, as well as courses in physiology and patophysiologi.
The course will also introduce the students to review papers, as part of the syllabus, and thus provides the student with insight into the function of this type of paper.
The course will contribute to the following in the competency profile:
- To understand the mechanisms that underlie evolution and natural selection, and be able to transfer these to other contexts including evolutionary computation
- To approach scientific collaborations professionally, based on projects carried out in groups
- To be able to apply knowledge of evolution and the mechanisms behind it to, in groups, chose a relevant project, where evolution is a consistent theme.
- Be able to discuss various physiological aspects, and how evolution plays a part in these
Expected learning outcome
The learning objective of the course is that the student demonstrates the ability to:
- Account for the mechanism behind evolution, including micro- and macroevolution
- Account for the mechanisms of evolution on the genetic level
- Describe the physiology of mammals in a evolutionary perspective
- Explain the function of major hormones
- Account for the mammalian digestion, excretion and cardiovascular systems
- Account for the physiological function of selected organs and tissues, including the evolutionary development and variation
- Explain the function of the nervous system and account for the different types of neurons and electrical signaling
- Account for reproduction and fetal development in humans, at a basic level
- Account for the mechanisms in sensory organs at a cellular and molecular level
- Account for the motor skills in muscles at the physiological, cellular and molecular level
- Transfer knowledge of natural selection to other areas, including evolutionary computation
Content
The following main topics are contained in the course:
- Evolution - history and mechanisms
- Micro - and macroevolution
- The structure of the genome
- The anatomy of mammals
- Physiological regulation of water, salts, gasses and temperature
- Hormones
- The digestive system
- The cardiovascular system
- The excretion system
- Reproduction and fetal development in humans
- The nervous system, sensory and motor skills
- Evolutionary computation
Literature
Campbell et al: Biology, 11th/12th ed and selected reviews
See itslearning for syllabus lists and additional literature references.
Examination regulations
Exam element a)
Timing
Spring
Tests
Written group assignment with oral presentation
EKA
N200037112
Assessment
Second examiner: None
Grading
Pass/Fail
Identification
Full name and SDU username
Language
Normally, the same as teaching language
Examination aids
Allowed, a closer description of the exam rules will be posted in itslearning.
ECTS value
1
Additional information
This element is NOT part of the first year exam.
The examination form for re-examination may be different from the exam form at the regular exam.
The examination form for re-examination may be different from the exam form at the regular exam.
Exam element a)
Timing
Spring
Tests
Port folio
EKA
N200037102
Assessment
Second examiner: External
Grading
7-point grading scale
Identification
Full name and SDU username
Language
Normally, the same as teaching language
Duration
Written exam - 2 hours
Examination aids
Allowed, a closer description of the exam rules will be posted in itslearning.
ECTS value
4
Additional information
This Exam element is a part of the first year exam.
The portfolio consists of three electronic tests on Blackboard, held during the course, and a written exam in June. The three electronic tests during the course are with aids, and will be available for two to three days.
The portfolio consists of three electronic tests on Blackboard, held during the course, and a written exam in June. The three electronic tests during the course are with aids, and will be available for two to three days.
The written exam in June is with aids and will cover all topics of the course. An electronic test can only be taken once. Points are accumulated and the grade given based on the final number of points.
The point distribution between tests and exam is as follows: The three tests during the course each count 10% and the final written exam is 70%. When results from all the tests and the exam have been added, a final grade will be given based on the number of points obtained. Participation in the exam in June is mandatory in order to pass.
The reexamination will as a rule be a written exam counting 100% and points obtained in the electronic tests will not be added. However the form of the reexamination may be different
The reexamination will as a rule be a written exam counting 100% and points obtained in the electronic tests will not be added. However the form of the reexamination may be different
Indicative number of lessons
Teaching Method
The teaching method is based on three phase model.
- Intro phase: 26 hours
- Skills training phase: 26 hours, hereof tutorials: 26 hours
- Study phase: 13 hours
Activities during the study phase:
As part the study phase single lessons will be scheduled before the lectures, to discuss the syllabus of the lecture. Each of these lessons should result in suggestions for the lecturer, in which the students specify which areas they find difficult, and would like the lecturer to focus on. This will be followed by a lecture, and subsequent tutorials, where the topics of the lecture will be discussed on the basis of set problems.