Course syllabus
Course-PM
BBT055 BBT055 Bioanalytical chemistry lp3 VT22 (7.5 hp)
Course is offered by the department of Biology and Biological Engineering
Course Zoom room
https://chalmers.zoom.us/j/5018659004
Course Plan
Examiner: Dr. Otto Savolainen (OS), e-mail otto.savolainen@chalmers.se
Course goal
This introductory course is intended to provide a fundamental understanding of the theoretical and practical aspects of analysis of biomolecules and bio-relevant molecules, including various modern instrumental techniques, sampling protocols, sample pre-treatment, and data processing used in modern bioanalysis. It will help students to think critically and make informed choices between proposed analytical techniques, methods and instruments in order to solve a bioanalytical problem.
A major goal of the course is to enable students to select analytical approaches for bioanalysis, and interpret data. The course will teach the principles of quality control and assurance and enable students to apply their knowledge to the practical solution of real analytical problems. The course will also provide an insight into current analytical literature to enable students to review, select, read and critically discuss resources most relevant to a particular topic. The students will further develop practical skills in laboratory experiments, and the techniques of communication, including the writing of laboratory reports.
Course Textbooks
1. Quantitative Chemical Analysis Daniel Harris, 6th. Ed. or later. An alternative e-book: Analytical Chemistry 2.1 - D. Harvey (free download, No MS covered in this free e-book) http://dpuadweb.depauw.edu/harvey_web/eTextProject/version_2.1.html
- S.R. Mikkelsen & E. corton: Bioanalytical Chemistry 2nd. Ed or later.
Recommended Reading Chapters in the Quantitative Analytical Chemistry textbooks
Subject |
Book Chapter |
Ebook chapter |
The analytical approach, sample preparation |
28 |
7 |
Separations |
23 |
12 |
Statistics, data analysis |
4 |
n.a. |
Chromatography Theory |
26 |
12B |
Gas Chromatography |
24 |
12D |
Liquid Chromatography |
25 |
12E |
Spectrophotometry |
19, 20 |
10B, 10C |
Atomic and Molecule Spectroscopy |
21 |
10D, 10G |
Mass Spectrometry |
22 |
n.a. |
Electroanalytical Chemistry |
14, 15, 17 |
11 |
Capillary Electrophoresis, Ion Chromatography |
26 |
12F, 12G |
Applications, method selection |
25-3, 25-4 |
14 |
Recommended Reading Chapters in the Bioanalytical Chemistry textbook
Subject |
Book Chapter |
Analysis of specific biomolecules |
3,4,5- enzymes, 6- antibodies |
Spectroscopy |
2 |
Immunoassays |
7 |
Biosensors |
8 |
Electromigration |
11-14 |
Imaging |
10 |
Chromatography |
16 |
Mass spectrometry |
17 |
Chip technologies |
18 |
Course Structure
The course contains lectures, 3 laboratory exercises and seminars/journal club. Please see the schedule in Timeedit and in Canvas.
Course requirements
- Tentamen: According to Tentamen schedule.
- 3 half day laboratory experiments and submission of all lab reports within one week after the experiment. One report per group is sufficient, but individual reports are also accepted.
- Seminars/Journal club: Active participation to all Journal Club work.
Laboratory Experiments and Laboratory Seminars:
The course includes 3 half day laboratory exercises concentrating on fundamental work in Spectroscopy, HPLC, and GC-MS. Each exercise includes writing of a report. The groups meet in Kurs Huset Lab 5117 on the designated days/times. Assigning to lab groups is done in Canvas. Maximum number of students per group is preliminary 6. The laboratory exercises takes approximately 4 h according to the timetable available in Canvas.
A compulsory introductory seminar into the laboratory work is held to discuss the experiments and their background, and safety regulations (see the timetable in Canvas). Topics discussed in the lab seminarsinclude background and aim of the experiment, experimental method and setup, principle of the analysis, steps to be performed in the experiment.
Note! You are required to complete a risk assessment and read and understand the lab manuals and the underlying theory before your group starts with the practical experiments. Contact the lab assistant or the lecturer if you have general troubles with the risk assessment or the manual.
Laboratory Supervisors:
- Christos Skrekas (skrekas@chalmers.se) (GC-MS)
- Marina Armeni (armeni@chalmers.se) (HPLC)
- Luis Leal Garza (luisma@chalmers.se) (amylase assay)
Laboratory supervisors can decide for exceptions from the lab report guidelines.
Journal club
The course includes a Journal Club exercise that includes reading and analyzing scientific articles relevant for the course content, as well as presenting an article in groups and acting as an opponent. Written instructions and schedule for Journal Club are provided on Canvas.
Contact for students with special needs:
Annelie Karlsson. Email: funka@chalmers.se
phone: +46 (0)31-772 25 28
Course documents
All course documents are made available on Canvas.