Screenshot 2024-12-29 at 12.52.18 AM.png

Lecture (04/22)

<aside> <img src="/icons/slide_green.svg" alt="/icons/slide_green.svg" width="40px" /> Lecture Slides

</aside>

<aside> <img src="/icons/video-camera_yellow.svg" alt="/icons/video-camera_yellow.svg" width="40px" /> Class Recording

</aside>

Recitation (04/23)

<aside> <img src="/icons/slide_green.svg" alt="/icons/slide_green.svg" width="40px" /> Recitation Slides

</aside>

<aside> <img src="/icons/video-camera_yellow.svg" alt="/icons/video-camera_yellow.svg" width="40px" /> Recitation Recording

</aside>

Homework

<aside> 🧬 Homework is based on data that will be generated in the Waters Immerse Lab in Cambridge, MA. Students will be characterizing green fluorescent protein (eGFP, a recombinant protein standard) structure (primary, secondary/tertiary) in the lab using liquid chromatography and mass spectrometry. Data generated in the lab will be available on-line for students working remotely.

</aside>

Final Project Homework

<aside> <img src="/icons/exclamation-mark_orange.svg" alt="/icons/exclamation-mark_orange.svg" width="40px" /> Mandatory to MIT/Harvard Students, optional for Committed Listeners. Edited April 23 for clarity.

</aside>

For your final project:

Please identify at least one (ideally many) aspect(s) of your project that you will measure. It could be the mass or sequence of a protein, the presence, absence, or quantity of a biomarker, etc.
Please describe all of the elements you would like to measure, and furthermore describe how you will perform these measurements.
What are the technologies you will use (e.g., gel electrophoresis, DNA sequencing, mass spectrometry, etc.)? Describe in detail.

Waters Homework

MIT_HTGAA_Homework.docx

<aside> <img src="/icons/exclamation-mark_orange.svg" alt="/icons/exclamation-mark_orange.svg" width="40px" /> Part 1 and 2 are mandatory for Committed Listeners and MIT/Harvard Students

</aside>

Experimental Investigations

Molecular weight – intact protein measurement
Primary amino acid sequence – peptide map

Optional Section

Protein structure and shape - native versus denatured protein measurement