Schedule of Events
8.30 – 9.30 AM
Arrivals and Registration
9.30 – 10.30 AM
Chemical Approaches in Infectious Disease
10.30 – 10.50 AM
Coffee Break
10.50 – 11.50 AM
Computation in Chemical Biology
12.00 – 1.20 PM
Lunch
&
Poster Session 1
1.20 – 2.20 PM
Chemoproteomics
2.20 – 2.40 PM
Coffee Break
2.40 – 3.40 PM
From Mechanisms to Therapeutics
3.40 – 4.50 PM
Poster Session 2
4.50 – 5.30 PM
Keynote Session with Concluding Remarks
Asterisk (*) indicates that speaker was selected from submitted abstracts.
–How does heme move? Insights from bacterial cytochrome c biogenesis (Molly Sutherland)
–The Role of Anionic Lipids in Initiating Membrane Fusion (Jinwoo Lee)
–Systematic identification of molecular mediators underlying polymicrobial interactions (Tiffany Zarella)
–Structure of saguaro cactus virus 3′ translational enhancer mimics 5′ cap for eIF4E binding (Manju Ohja*)
–Integrative HDX to model native state ensembles and protein interactions. (Daniel Deredge)
-Efficient and accurate computational modeling of PROTAC ternary complexes using SILCS (Erik Nordquist*)
–“Deep” disulfide scanning to map protein conformation-phenotype relationships. (Eugene Serebryany)
–De novo design of a DNA-Binding Protein Capable of Transcriptional Regulation (Lee Solomon)
–Investigating protein complex assembly using cross-linking mass spectrometry (Ewa Warczak)
–Regulation of Retinoic Acid Signaling and ERK 1/2 Pathway in Asthma (Vanshika Patel*)
–Roles for de novo and salvage pathways in staphylococcal membrane biogenesis during infection (Shaun Brinsmade)
–Chemical proteomics discovers new acetylation substrates in T-cell activation (Parmila Kafley*)
–Simultaneous Profiling of DNA Base Modifications and Chromatin States by Coupling Engineered Methyltransferases with a Secondary Metabolite (Jojo Zhu*)
–Benzyl Ammonium Carbamates Undergo Two-Step Linker Cleavage and Improve the Properties of Antibody Conjugates (Xiaoyi Li*)
–Phenotypic and Targeted Approaches to Discover Novel Autophagy Modulators for Therapeutic Development (Leslie Aldrich)
–Transient Poly(ADP-Ribose) Triggers a Conformational Change that Sustains FUS Condensates via a Prion-Like Mechanism (Hongrui Liu*)
–Ed Marcotte, Title TBD