bio355 - Microscopical Anatomy (Course overview)

bio355 - Microscopical Anatomy (Course overview)

Institute for Biology and Environmental Sciences 9 KP
Module components Semester courses Examination
Vorlesung und Seminar
  • No access 5.02.351 - Show lecturers
    • Dr. rer. nat. Wilko Ahlrichs
    • PD Dr. Mona Hoppenrath
    • Dr. Alexander Kieneke, Dipl.-Biol.

    Dates on Wednesday, 12.10.2022 11:00 - 12:00, Monday, 09.01.2023 - Friday, 13.01.2023, Monday, 16.01.2023 - Friday, 20.01.2023, Monday, 23.01.2023 - Friday, 27.01.2023, Monday, 30.01.2023 - Tuesday, 31.01.2023 09:00 - 17:00
Exercises
  • No access 5.02.351 - Show lecturers
    • Dr. rer. nat. Wilko Ahlrichs
    • PD Dr. Mona Hoppenrath
    • Dr. Alexander Kieneke, Dipl.-Biol.

    Dates on Wednesday, 12.10.2022 11:00 - 12:00, Monday, 09.01.2023 - Friday, 13.01.2023, Monday, 16.01.2023 - Friday, 20.01.2023, Monday, 23.01.2023 - Friday, 27.01.2023, Monday, 30.01.2023 - Tuesday, 31.01.2023 09:00 - 17:00
Hinweise zum Modul
Kapazität/Teilnehmerzahl 8 (
For more applicants than places, a motivation letter decides on the admission.
)
Prüfungszeiten
end of module
Module examination
portfolio
Skills to be acquired in this module

++ biological knowledge
++ knowledge of biological working methods
++ biologically relevant knowledge in the natural sciences and mathematics
+ interdisciplinary knowledge & thinking
++ abstract, logical, analytical thinking
++ deepened expertise in biological specialist field
++ independent learning and (research-based) working
++ data presentation and evidence-based discussion (written and spoken)
+ teamwork
++ (scientific) communication skills
+ project and time management
+ knowledge of safety and environmental issues

This course is designed for students to learn about the basic light and electron optical methods.
Students will be able to work with preparative techniques for scanning electron microscopy, trans-mission electron microscopy, and light microscopy, and confocal scanning laser microscopy.
Students completing this course will have learned basic principles for fixing and embedding biological materials for electron microscopy. Students will have learned how to operate a transmission electron microscope, a scanning electron microscope, several ultramicrotomes, a vacuum evaporator, a critical point dryer, and a sputter coater. Digital imaging techniques that will be learned will include print making, design and assembly of materials for publication, PowerPoint presentations, and poster design.
Students will be introduced to the principles of light microscopy utilizing different optical sys-tems and will have the opportunity to have hands-on experience with a Leica photomicroscope as well as the Leica SP5 confocal laser scanning.