Vincent P. Conticello, Ph.D.
Affiliations: | Chemistry | Emory University, Atlanta, GA |
Area:
self-assembly, peptides, proteins, nanomaterials, Cryo-EMWebsite:
https://scholarblogs.emory.edu/conticellolab/Google:
"Vincent Conticello"Bio:
https://scholarblogs.emory.edu/conticellolab/team/
https://www.cores.emory.edu/iemc/about/who%20we%20are%20/Vincent%20Conticello.html
Mean distance: 6.66 | S | N | B | C | P |
Parents
Sign in to add mentorTobin Jay Marks | grad student | 1990 | Northwestern | |
(Synthesis, characterization, and enantioselective catalysis with chiral organolanthanide complexes) | ||||
Robert Howard Grubbs | post-doc | 1991 | Caltech | |
David A. Tirrell | post-doc | 1992-1995 | U Mass Amherst |
Children
Sign in to add traineeTerrence A. Lee | grad student | 2000 | Emory |
Yun Qu | grad student | 2000 | Emory |
Robert A. McMillan | grad student | 2001 | Emory |
Yingting (Judy) Zhou | grad student | 2001 | Emory |
Elizabeth R. Wright | grad student | 2002 | Emory |
Jaimie R. Anderson | grad student | 2004 | Emory |
Yuri Zimenkov | grad student | 2004 | Emory |
Kun Ping Lu | grad student | 2006 | Emory |
Xiaojie Qi | grad student | 2007 | Emory |
Holly E. Carpenter | grad student | 2008 | Emory |
Steven N. Dublin | grad student | 2008 | Emory |
John H. Shugart | grad student | 2008 | Emory |
Melissa A. Patterson | grad student | 2011 | Emory |
Weilin Peng | grad student | 2012 | Emory |
Chunfu Xu | grad student | 2008-2013 | Emory |
Tao Jiang | grad student | 2010-2015 | Xiamen University |
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Publications
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Cheng D, Chen X, Zhang W, et al. (2023) Design of Multicomponent Peptide Fibrils with Ordered and Programmable Compositional Patterns. Angewandte Chemie (International Ed. in English). e202303684 |
Kreutzberger MAB, Wang S, Beltran LC, et al. (2022) Phenol-soluble modulins PSMα3 and PSMβ2 form nanotubes that are cross-α amyloids. Proceedings of the National Academy of Sciences of the United States of America. 119: e2121586119 |
Miller JG, Hughes SA, Modlin C, et al. (2022) Structures of synthetic helical filaments and tubes based on peptide and peptido-mimetic polymers. Quarterly Reviews of Biophysics. 1-103 |
Wang F, Gnewou O, Solemanifar A, et al. (2022) Cryo-EM of Helical Polymers. Chemical Reviews |
Wang F, Gnewou O, Wang S, et al. (2021) Deterministic chaos in the self-assembly of β sheet nanotubes from an amphipathic oligopeptide. Matter. 4: 3217-3231 |
Wang F, Gnewou O, Modlin C, et al. (2021) Structural analysis of cross α-helical nanotubes provides insight into the designability of filamentous peptide nanomaterials. Nature Communications. 12: 407 |
Merg AD, Touponse G, Genderen EV, et al. (2020) Shape-Shifting Peptide Nanomaterials: Surface Asymmetry Enables pH-Dependent Formation and Interconversion of Collagen Tubes and Sheets. Journal of the American Chemical Society |
Merg AD, van Genderen E, Bazrafshan A, et al. (2019) Seeded Heteroepitaxial Growth of Crystallizable Collagen Triple Helices: Engineering Multifunctional 2D Core-Shell Nanostructures. Journal of the American Chemical Society |
Merg A, Touponse G, van Genderen E, et al. (2019) 2D Crystal Engineering of Nanosheets Assembled from Helical Peptide Building Blocks. Angewandte Chemie (International Ed. in English) |
Hughes SA, Wang F, Wang S, et al. (2019) Ambidextrous helical nanotubes from self-assembly of designed helical hairpin motifs. Proceedings of the National Academy of Sciences of the United States of America |