Annual CSB Retreat

Dr. Bree Aldridge 

Assistant Professor, Tufts University School of Medicine, Department of Molecular Biology and Microbiology
Adjunct Assistant Professor, Tufts University School of Engineering,Department of Biomedical Engineering

Bree Aldridge is an Assistant Professor in the Department of Molecular Biology and Microbiology and Department of Biomedical Engineering.
Her lab investigates tuberculosis infection and drug response at single-cell resolution. She specializes in combining live-cell microscopy and mathematical modeling to create intuitive descriptions of complex cell biology. She earned double B.S. degrees in computer engineering and molecular and cellular biology and the University of Arizona as a Flinn Scholar.  She completed her PhD in Biological Engineering at MIT with Douglas Lauffenburger and Peter Sorger with the support of a DOE Computational Science Graduate Fellowship. She brought her interdisciplinary perspective to tuberculosis and infectious diseases during her postdoctoral training at the Harvard School of Public Health with Sarah Fortune. She is an Alfred P. Sloan Research Fellow and is the recipient of an NIH Director’s New Innovator Award.

Email: bree [dot] aldridge [at] Tufts [dot] edu

Seminar

Date: Sunday October 8, 2017 5:30-6:00pm

Title: “Adding it up: mycobacterial growth, division, and drug susceptibility”

Dr. Joey Davis 

Assistant Professor, Department of Biology, MIT   

While an undergraduate computer science and biological engineering student at UC Berkeley, Joey worked in the lab of Dr. Michael Marletta, studying bacterial gas sensing proteins. As a graduate student in Bob Sauer’s lab, he applied biochemical and biophysical approaches to understand the assembly of bacterial proteases and to determine how these molecular machines function. From 2010-2012, he was the first employee at Ginkgo Bioworks, a Boston-based metabolic engineering startup company, before moving to The Scripps Research Institute to study ribosome biogenesis in Dr. Jamie Williamson’s group. There, Joey developed mass spectrometry and cryo-electron microscopy based techniques to determine how cells build large macromolecular assemblies such as ribosomes. This fall, Dr. Davis is starting his own lab in the Biology department at MIT where he will apply these techniques to understand the assembly of the autophagosome – a multi-subunit complex that is critical for maintaining cellular protein homeostasis through degradation of proteins, lipids, RNAs and, incredibly, other organelles.

Email: jhdavis [at] MIT [dot] EDU

Seminar

Date: Sunday October 8, 2017 11:30am-12:00pm

Title: “Biological assembly of macromolecular machines: insights into ribosome biogenesis”

Dr. Sean Eddy

HHMI Investigator and Professor, Dept of Molecular & Cellular Biology and of Applied Mathematics, Harvard University 

Sean Eddy is a computational biologist at Harvard University. Before moving to Harvard in 2015, he was a group leader at the Howard Hughes Medical Institute’s Janelia Research Campus, and before that, a faculty member in the Genetics department at Washington University in St. Louis. He received a bachelor’s degree from Caltech, a Ph.D. from the University of Colorado at Boulder, and did postdoctoral work at NeXagen in Boulder and at the MRC Laboratory of Molecular Biology in Cambridge, UK.

Eddy Lab Website

Email: seaneddy [at] fas[dot] Harvard [dot] edu

Seminar

Date: Sunday October 8, 2017 1:30 – 2:00 PM

Title: “Biological sequence homology searches: the future of deciphering the past”

Dr. Andrew Emili

Joint Full Professor, Departments of Biochemistry and Biology, Boston University

Faculty, Donnelly Centre for Cellular and Biomolecular Research, University of Toronto 

Andrew Emili is a Joint Full Professor in the Departments of Biology and Biochemistry at Boston University, and status only faculty at the Donnelly Centre for Cellular and Biomolecular Research and the Department of Molecular Genetics at the University of Toronto (UofT). Dr. Emili received his PhD in Molecular and Medical Genetics from the UofT. He then pursued post-doctoral studies as a Damon Runyon/Walter Winchell Cancer Research Fellow with the distinguished geneticist Leland Hartwell at the Fred Hutchison Cancer Research Center in Seattle, while learning protein mass spectrometry with John Yates III, a pioneer in the field, at the University of Washington. Prior to recently joining BU, Prof. Emili was a Principal Investigator (2000-2017) and founding member of the Donnelly Centre at the University of Toronto.  Dr. Emili is an internationally recognized leader in protein interaction networks and the development of innovative technologies to systematically characterize protein complexes on a proteome-scale. He directs a multidisciplinary research laboratory with a track record in functional proteomics and systems biology. His group develops and applies innovative methods to characterize macromolecules of broad biomedical significance, publishing ‘global’ molecular interaction maps of unprecedented scope. In particular, his lab uses precision mass spectrometry to characterize protein networks in a comprehensive, high-throughput manner, with the long-term goal of translating basic knowledge into new diagnostics and therapeutics. Dr. Emili has published over 200 peer reviewed papers with >25,000 citations (h-index 68), including proteome-wide studies of soluble and membrane protein complexes in microbes, human cells, and other models, documenting hundreds of assemblies linked to disease. Dr. Emili was also lead editor of “Network Biology” and “Systems Analysis” books with >26,000 e-downloads, and he has given >150 talks at research conferences, international symposia and workshops.

Lab Website

Email: aemili [at] bu [dot] edu

Seminar

Date: Sunday October 8, 2017 5:00-5:30pm

Title: “Global Mapping of Protein Interaction Networks”

Dr. Lauren C. Foster

Associate Director, MIT Technology Licensing Office

Director of IP and Strategic Alliances at Koch Institute

Lauren C. Foster is the Assistant Director of M.I.T.’s Technology Licensing Office (TLO), focusing principally on licensing and commercialization of technologies in the biomedical, biotechnology and medical device fields. She also serves as Director of Intellectual Property and Strategic Alliances at the Koch Institute for Integrative Cancer Research at M.I.T. where she is involved in the strategic management of the Koch Institute’s industrial partnerships and intellectual property portfolio.  Prior to joining M.I.T., Lauren was Senior Director, IP and Technology Acquisition at Antigenics, Inc., a public biotechnology company, where she played an integral role in envisioning and implementing the company’s business, intellectual property and technology strategies.  Lauren was also a Technical Specialist at the law firm Lahive & Cockfield LLP where she focused on strategic development of intellectual property rights for biotechnology and pharmaceutical companies and universities.  Ms. Foster holds a D.Sc. from Harvard University and a B.S. from Haverford College, and is a registered Patent Agent.

Email: lcfoster [at] mit [dot ]edu

Seminar

Date: Monday October 9, 2017 9:15 – 10:15 am

Maria Alexis

5th Year MIT CSB Graduate Student  

Maria is originally from New York and got her B.S. in Biology from Stanford in 2013. She is currently a 5th year graduate student in Chris Burge’s lab and is interested in how RNA binding-proteins select their targets in cells.

Seminar

Date: Sunday October 8, 2017 7:35 – 7:50 PM

Title: “Shared and distinct Sequence, Structure and Context Preferences of Human RNA Binding Proteins”

Jonathan Teo

5th Year MIT CSB Graduate Student

Jonathan is graduate student from Sarpeshkar Lab (Analog Circuits and Biological Systems Group). He enjoys building computational models of biological systems to deepen his understanding of how they work. After all, biological systems are complex machinery that often function in beautiful but mysterious ways. A good model not only captures these behaviors, but also provides a compelling story to help scientists understand the bigger picture. To achieve this goal, Jonathan has been applying design and analysis techniques from analog circuit design to guide his modeling efforts, with a particular focus on understanding how feedback and feedforward mechanisms improve or deteriorate the performance of biological circuits. To date, he has created models for chemotaxis in neutrophils, artificial tissue homeostasis in stem cells and is currently working on modeling the immune response against tumors. In his free time, Jonathan is an avid photographer with a passion for great food.

Seminar

Date: Sunday October 8, 2017 11:15 – 11:30 AM

Title: “Building an Artificial tissue homeostasis circuit design”

Jacob Witten

4th Year MIT CSB Graduate Student 

Jacob Witten grew up in Los Angeles and received his BA in Mathematics and Biophysics from Amherst College in 2014. In 2015, he joined Professor Katharina Ribbeck’s group in the department of Biological Engineering at Massachusetts Institute of Technology. His current research combines computational and experimental techniques to study molecular transport in mucus, focusing on applications to drug delivery for treating diseases such as cystic fibrosis.

Seminar

Date: Sunday October 8, 2017 7:50 – 8:05 PM

Title:“Characterizing the chemical selectivity of the mucus barrier”

Joy Yang

5th Year MIT CSB Graduate Student

Joy is a 5th year graduate student in Martin Polz’s marine microbial ecology group at MIT. Her two main areas of focus are (1) predicting bacteriophage infection patterns using genomic sequences of the phage and their bacterial hosts (2) searching for the function of phage tRNA. Having majored in statistics as an undergraduate in Berkeley, she is interested in finding ways to cultivate statistical curiosity at an earlier age, and has been working on a statistical education project in her free time.

Seminar

Date: Sunday October 8, 2017 8:05 – 8:20 PM

Title: “Identifying mechanisms of phage-host infection”

Poster Session Sunday October 8th 8:30-10:30pm:

1. Anastasiya Belyaeva (Uhler lab) Title: “Network Analysis Identifies Regions of Chromosome Interactions in the Genome”
2. Tristan Bepler (Berger Lab) Title: “Semi-supervised convolutional neural networks for particle picking in cryo-electron microscopy images”
3. Carles Boix (Kellis Lab) Title: “Genome-wide Characterization of Chromatin Regulation”
4. Peter Freese (Burge Lab) Title:”Shared and Distinct Sequence, Structure, and Context Preferences of Human RNA Binding Proteins”
5. Amanda Kedaigle (Fraenkel Lab) Title: “Comparing preclinical models of Huntington’s Disease by integrating high-throughput data”
6. Kathy Lin (Bartel Lab) Title: “Learning miRNA targeting rules from high-throughput binding and repression measurements”
7. Kayla McCue (Burge Lab) Title: “Modeling RNA Splicing Kinetics”
8. Colette Picard (Gehring Lab) Title:”Imprinting dynamics at the single-cell level in Arabidopsis”
9. Cassandra Schaening (Gilbert & Li Lab) “Probing the structural specificity of the pseudouridine synthase Pus7”
10. Max Shen (Gifford Lab) Title: “Random” CRISPR Editing Outcomes are Predictable
11. Alvin Shi (Kellis Lab) Title: “Choose your adventure: (1) predicting and tracking checkpoint blockade immunotherapy response with peripheral-blood derived exosomal RNA or (2) dissecting motif-motif interactions in High Definition Reporter Assay (HiDRA) data”
12. Jesse Tordoff (Weis Lab)Title: “Programming Self-Patterning 3D Shape Formation in Multicellular Mammalian Systems”
13. Vincent Xue (Keating Lab) Title: “Mapping sequence landscape to design specificity with protein families”
14. Grace Yeo (Gifford lab)Title: “Leveraging single-cell RNA-sequencing to study the combinatorial action of signaling pathways in directed differentiation”