The Chromatin, Epigenetics and Gene Expression course is designed for students, postdocs, and principal investigators who have recently ventured into the exciting area of gene regulation. Emphasis will be placed on exposing students to a broad array of methodologies to study gene regulation, chromatin structure and dynamics, including both state-of-the-art and well-developed methods.
Students will perform widely used techniques such as chromatin immunoprecipitation (ChIP) coupled with sequencing (ChIP-seq), reporter assays of enhancer activity, and RNA expression analysis. They will apply a basic pipeline to analyze sequencing results and will discuss current informatics strategies.
Students will isolate transcription factor complexes and assess their activity in functional assays. Further, they will knock out specific factors using CRISPR-Cas9 and evaluate the effects on gene expression.
This course will provide the basic concepts behind different methods to analyze the chromatin architecture of the genome. Students will be exposed to Chromosome Conformation Capture (3C) experiments, together with other approaches aimed to interrogate the 3D organization of genomes. Moreover, we will discuss the computational methods required to analyze these data.
Students will learn how to assemble recombinant chromatin and use biophysical methods such as FRET to assay the activity of chromatin remodeling enzymes. They will also learn principles of enzyme kinetics and will apply these to quantify chromatin remodeling reactions.
Given the broad biological roles for DNA-binding transcription factors, and emerging roles of non-coding RNAs in transcription regulation, Electrophoretic Mobility Shift Assays (EMSAs) are again becoming widely used for assessing transcription factor binding to regulatory DNA or RNA elements. Students will learn how to perform and interpret EMSA experiments, using quantitative gel-based methods.
Experience with basic recombinant DNA techniques is a prerequisite for admission to this course. Lectures by the instructors will cover the current state of the gene expression field, theoretical aspects of the methodology, and broader issues regarding strategies for investigating the regulation of gene expression in eukaryotes. Emphasis will be placed on advantages and limitations of specific techniques, and data interpretation. Each evening, an invited speaker who is an expert in the field will present their work and interact with students. The students are encouraged and expected to actively participate in these discussions, and to take advantage of the many opportunities to network and receive input on their projects and future plans.
Support & Stipends
Major support provided by the National Cancer Institute
Stipends are available to offset tuition costs as follows:
US applicants (National Cancer Institute)
Interdisciplinary Fellowships (transitioning from outside biology) & Scholarships (transitioning from other biological disciplines) (Helmsley Charitable Trust)
International applicants (Howard Hughes Medical Institute)
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): $4,895
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 July 23 and plan to depart after lunch on August 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: