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Joseph J. Loparo

Biological Chemistry and Molecular Pharmacology Harvard Medical School, Boston, MA, United States 
optical spectroscopy to probe the dynamics of molecules
"Joseph J. Loparo"

Mean distance: 8.32 (cluster 13)


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M Cather Simpson research assistant 2001 Case Western
Andrei Tokmakoff grad student 2007 MIT
 (Ultrafast structural fluctuations and rearrangements of water's hydrogen bonded network)
Antoine M. van Oijen post-doc 2010 Harvard Medical School
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Hernandez AJ, Lee SJ, Chang S, et al. (2020) Catalytically inactive T7 DNA polymerase imposes a lethal replication roadblock. The Journal of Biological Chemistry
Stinson BM, Moreno AT, Walter JC, et al. (2019) A Mechanism to Minimize Errors during Non-homologous End Joining. Molecular Cell
Chang S, Naiman K, Thrall ES, et al. (2019) A gatekeeping function of the replicative polymerase controls pathway choice in the resolution of lesion-stalled replisomes. Proceedings of the National Academy of Sciences of the United States of America
Kim H, Yen L, Wongpalee SP, et al. (2019) The Gene-Silencing Protein MORC-1 Topologically Entraps DNA and Forms Multimeric Assemblies to Cause DNA Compaction. Molecular Cell. 75: 700-710.e6
Piatt SC, Loparo JJ, Price AC. (2019) The Role of Noncognate Sites in the 1D Search Mechanism of EcoRI. Biophysical Journal
Klein HL, Ang KKH, Arkin MR, et al. (2019) Guidelines for DNA recombination and repair studies: Mechanistic assays of DNA repair processes. Microbial Cell (Graz, Austria). 6: 65-101
Kim H, Yen L, Wongpalee S, et al. (2019) Caenorhabditis elegans MORC-1 Topologically Traps and Compacts DNA Biophysical Journal. 116: 502a
Graham TGW, Carney SM, Walter JC, et al. (2018) A single XLF dimer bridges DNA ends during nonhomologous end joining. Nature Structural & Molecular Biology. 25: 877-884
Kim H, Loparo JJ. (2018) Observing Bacterial Chromatin Protein-DNA Interactions by Combining DNA Flow-Stretching with Single-Molecule Imaging. Methods in Molecular Biology (Clifton, N.J.). 1837: 277-299
Thrall ES, Kath JE, Chang S, et al. (2017) Single-molecule imaging reveals multiple pathways for the recruitment of translesion polymerases after DNA damage. Nature Communications. 8: 2170
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