Expression, Purification & Analysis
of Proteins and Protein Complexes
April 3 - 12, 2019
Application Deadline: January 31, 2019

Instructors:

Albert Courey, University of California, Los Angeles
Sergei Nechaev, University of North Dakota School of Medicine
Michael Marr, Brandeis University
Sue-Hwa Lin, University of Texas M.D. Anderson Cancer Center

See the roll of honor - who's taken the course in the past

This course is for scientists, including graduate students, postdoctoral scholars, staff scientists, and principal investigators, who want a rigorous introduction to expression and purification of proteins as well as analysis of protein structure and function.

Through hands-on experience in the lab as well as extensive lecture and discussion, each student will become familiar with key approaches in expression, purification, and analysis of soluble and membrane proteins and protein complexes from both natural sources and overexpression systems.

The emphasis of the course is on the following:

  1. Approaches in protein expression: Choosing the best bacterial or eukaryotic expression system tailored for the particular protein and experimental problem; determining how to optimize expression; understanding protein tagging: the advantages and pitfalls of various affinity and solubility tags.
  2. Approaches in protein purification: Choosing the best strategy for a given protein including solubilization; bulk fractionation; liquid chromatography: including conventional methods (ion exchange, size exclusion, reverse phase, etc.) and affinity methods (e.g., MAC, DNA affinity, immunoaffinity, etc.), as well as FPLC/HPLC.
  3. Approaches in protein analysis: introduction to common approaches for characterization of proteins including binding assays; activity assays; mass spectroscopy to identify protein interaction partners and post-translational modifications.

In addition to purification, students will also gain exposure to fundamental analytical approaches such as mass spectroscopy and protein structure determination (e.g., X-ray crystallography, cryo-EM, etc.).

2019 Lecturers:

Don Jarvis, University of Wyoming 
James Love, ATUM
Darryl Pappin, Cold Spring Harbor Laboratory

This course is supported by: National Cancer Institute

Financial aid is available to offset tuition costs as follows:

Please indicate your eligibility for funding in your financial aid request submitted as part of your application materials. Financial aid requests do not affect selection decisions made by the instructors.

       

Cost (includes food and housing): $3,000

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 5 PM on April 2 and to depart any time on April 12.

Before applying, ensure you have:
  1. Personal statement/essay;
  2. Letter(s) of recommendation;
  3. Curriculum vitae/resume (optional);
  4. Financial aid request (optional).
    More details.

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:

For more on this course, read what former trainees said of their experiences. Also, be sure to check out the growing online alumni presence.