Combining careful image acquisition with rigorous computational analysis allows extraction of quantitative data from light microscopy images that is far more informative and reproducible than what can be seen by eye. This course will focus on advanced quantitative fluorescence microscopy techniques used for imaging a range of biological specimens, from tissues to cells to single molecules. The course is designed for quantitative cell and molecular biologists, biophysicists and bioengineers.
We provide a thorough treatment of the complete process of quantitative imaging, from the photons emitted from the sample to the extraction of biologically meaningful measurements from digital images. Material is covered in lectures, discussion groups and hands-on quantitative exercises using commercial microscopes and open-source image analysis tools.
Concepts Covered Include:
- Widefield fluorescence microscopy
- Laser scanning and spinning disk confocal microscopy
- CCD, EM-CCD & sCMOS cameras
- Total internal fluorescence microscopy (TIRF)
- Light sheet microscopy
- Super-resolution microscopy (structured illumination, STED & localization microscopy)
- Imaging and analyzing ratiometric “biosensors” (including FRET)
- Fluorescent proteins and live sample imaging
- Image processing (filtering, de-noising, corrections, deconvolution)
- Image segmentation
- Quantitative shape and intensity measurements
- Object detection and tracking
- Machine learning
- Designing and troubleshooting quantitative imaging experiments
- ...and more!
The course will also include a series of seminars from guest speakers who apply the methods we will discuss.
2019 Teaching Assistants:
Anna Payne-Tobin Jost, George Campbell, Tejeshwar Rao, Marcelo Cicconet, Jessica Hornick & Sophia Hirsch
Luke Lavis, Janelia Research Campus
Julie Canman, Columbia University
Hari Shroff, National Institute of Health
Nathan Shaner, University of California San Diego
To apply, you will need to submit a curriculum vitae and personal statement along with two letters of reference. Your statement should describe your current research project, with an emphasis on planned or current quantitative microscopy experiments, a list of the microscopes to which you have access to use for your research and what you hope to gain by participating in the course. You will be expected to stay at CSHL for the full duration of the course.
Support & Stipends:
Major support provided by the National Cancer Institute.
Stipends are available to offset tuition costs as follows-
Please indicate your eligibility for funding in your stipend request submitted when you apply to the course. Stipend requests do not affect selection decisions made by the instructors.
Cost (including board and lodging): $4,160
No fees are due until you have completed the full application process and are accepted into the course. Students accepted into the course should plan to arrive by early evening on April 1 and plan to depart after lunch on April 16.
Before applying, ensure you have:
- Personal statement/essay;
- Letter(s) of recommendation;
- Curriculum vitae/resume (optional);
- Financial aid request (optional).
If you are not ready to fully apply but wish to express interest in applying, receive a reminder two weeks prior to the deadline, and tell us about your financial aid requirements, click below: