Graduate student in the Keating lab since the summer of 2003. I am involved in several projects in the lab dealing with theoretical and computational aspects of protein design and protein interaction prediction. I received a Bachelor's degree in Biochemistry and one in Computer Science from University of Maryland Baltimore County in 2002.
Ultra-Fast Evaluation of Protein Energies Directly from Sequence
Our latest results on cluster expansion work was published in PLoS Computational Biology on 06/16/06. Click here for full access to the paper.
bZIP coiled-coil dimerization model
12/31/05. bZIP paper finally published: G. Grigoryan and A. E. Keating, "Structure-based Prediction of bZIP Partnering Specificity", J. Mol. Biol. (2006) 355, 1125-1142. PDF (MIT access only) Abstract
Gevorg Grigoryan and Amy E. Keating, "Structure-based prediction of bZIP partnering specificity", J. Mol. Biol., in press.
In general, our lab is interested in studying (experimentally and computationally) protein-protein interactions. In this project we looked at dimerization preferences among a family of eukaryotic transcription factors - basic region leucine zipper (bZIP) proteins. In an earlier study done in the lab1, protein microarrays had been used to experimentally characterize all pair-wise interactions among human bZIPs. In the present study, we used a computational structure prediction-based approach to explain the experimentally observed binding preferences. Our study presents a physically-relevant model that predicts results in good agreement with the experiment. We also outline certain successes and failures encountered along the way to developing the final model, which are likely relevant for many of the current structure-based approaches for prediction of interaction specificities. I will post the link as soon as the paper is published.
 John R. S. Newman and Amy E. Keating, "Comprehensive Identification of Human bZIP Interactions with Coiled-Coil Arrays", Science 300, 2097- 2101 (2003).
MIT TechTalk Article
Fast protein sequence-energy mapping with Cluster Expansion
09/30/05. Our paper got published in Phys. Rev. Lett. Apparently, PRL has a super strict policy about reproducing papers in any format, so I can not post the PDF here, as previously promised. However, here is a link to the abstract. Our library has a subscription, so if you log in through Vera, you can get the PDF.
In collaboration with the Ceder Lab in the Department of Materials Science and Engineering at MIT, we have recently submitted a paper to Physics Review Letters (Fei Zhou, Gevorg Grigoryan, Amy Keating, Gerbrand Ceder, Dane Morgan, "Coarse graining protein energetics with cluster expansion"). It got accepted with some very positive reviews. Here are some excerpts:
- "This submitted paper is very original and could lead to important developments."
- "In other words, the authors might consider a somewhat "dumbed down" version of their paper (sorry!), and use it as a sort of introduction to a longer paper where mathematical developments are given in detail. In that way, readers in both disciplines may well look forward with great anticipation to the full treatment (to appear in PRB, say)... In summary, the authors' is an extremely interesting approach, perhaps the most wildly interdisciplinary that I have seen. It amply merits publication in PRL, but in my opinion requires reworking so that non-specialists (of both communities!) may appreciate the novelty and power of the proposed method."
- "Given the enormous interest in protein design and protein folding at the present time, the article is likely to find wide interest amongst the readership of the journal."
We are extremely happy that the paper got in with such great reviews. I shall post a PDF once it is published.
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