Philip Bevilacqua
Co-Director, Center for RNA Molecular Biology; Distinguished Professor of Chemistry and of Biochemistry and Molecular Biology
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242 Chemistry
University Park, PA - He/Him/His
- pcb5@psu.edu
- 814-863-3812
Research Summary
RNA folding in vivo and genome-wide; RNA regulation of gene expression; Ribozyme Mechanism; roles RNA may have played in the emergence of life on early earth
Huck Affiliations
- Bioinformatics and Genomics
- Plant Biology
- Center for RNA Molecular Biology
- Molecular, Cellular, and Integrative Biosciences
- Plant Institute
Links
Publication Tags
Rna Catalysis Catalytic Rna Nucleotides Polymerization Enzymes Dna Chlorides Magnesium Bioreactors Emulsions Compartments Nucleic Acids Diphosphates Nucleotide Rna Structure Genome Liquids Rna Folding Polymerization Reaction Polycationic Polymer Proteins Templates Polyamines ChlorideMost Recent Papers
Measuring the activity and structure of functional RNAs inside compartments formed by liquid-liquid phase separation
Raghav R. Poudyal, McCauley O. Meyer, Philip C. Bevilacqua, 2021, on p. 307-327
Inverse RNA folding workflow to design and test ribozymes that include pseudoknots
Mohammad Kayedkhordeh, Ryota Yamagami, Philip C. Bevilacqua, David H. Mathews, 2021, on p. 113-143
Efficient construction of long DNA duplexes with internal non-Watson-Crick motifs and modifications
Xiaofeng Zheng, Philip C. Bevilacqua, 2021, Nucleic Acids Research
Prebiotically-relevant low polyion multivalency can improve functionality of membraneless compartments
Fatma Pir Cakmak, Saehyun Choi, McCauley C.O. Meyer, Philip C. Bevilacqua, Christine D. Keating, 2020, Nature Communications
Amino acid specific nonenzymatic montmorillonite-promoted RNA polymerization
T. Namani, S. Snyder, J. Eagan, Philip Bevilacqua, C. Wesdemiotis, N. Sahai, 2020, ChemSystemsChem
Small molecule rescue and glycosidic conformational analysis of the twister ribozyme
Kyle J. Messina, Ryszard Kierzek, Matthew A. Tracey, Philip C. Bevilacqua, 2019, Biochemistry on p. 4857-4868
Template-directed RNA polymerization and enhanced ribozyme catalysis inside membraneless compartments formed by coacervates
Raghav R. Poudyal, Rebecca M. Guth-Metzler, Andrew J. Veenis, Erica A. Frankel, Christine D. Keating, Philip C. Bevilacqua, 2019, Nature Communications on p. 490
Probing RNA structure in vivo
David Mitchell, Sarah M. Assmann, Philip C. Bevilacqua, 2019, Current Opinion in Structural Biology on p. 151-158
Single-nucleotide control of tRNA folding cooperativity under near-cellular conditions
Kathleen A. Leamy, Ryota Yamagami, Neela H. Yennawar, Philip C. Bevilacqua, 2019, Proceedings of the National Academy of Sciences of the United States of America on p. 23075-23082
Cellular Concentrations of Nucleotide Diphosphate-Chelated Magnesium Ions Accelerate Catalysis by RNA and DNA Enzymes
Ryota Yamagami, Ruochuan Huang, Philip C. Bevilacqua, 2019, Biochemistry on p. 3971-3979
Most-Cited Papers
In vivo genome-wide profiling of RNA secondary structure reveals novel regulatory features
Yiliang Ding, Yin Tang, Chun Kit Kwok, Yu Zhang, Philip C. Bevilacqua, Sarah M. Assmann, 2014, Nature on p. 696-700
RNA catalysis through compartmentalization
Christopher A. Strulson, Rosalynn C. Molden, Christine D. Keating, Philip C. Bevilacqua, 2012, Nature Chemistry on p. 941-946
Bioreactor droplets from liposome-stabilized all-aqueous emulsions
Daniel C. Dewey, Christopher A. Strulson, David N. Cacace, Philip C. Bevilacqua, Christine D. Keating, 2014, Nature Communications
Genome-Wide Analysis of RNA Secondary Structure
Philip C. Bevilacqua, Laura E. Ritchey, Zhao Su, Sarah M. Assmann, 2016, Annual Review of Genetics on p. 235-266
Regulation of innate immunity through RNA structure and the protein kinase PKR
Subba Rao Nallagatla, Rebecca Toroney, Philip C. Bevilacqua, 2011, Current Opinion in Structural Biology on p. 119-127
The RNA structurome
Chun Kit Kwok, Yin Tang, Sarah M. Assmann, Philip C. Bevilacqua, 2015, Trends in Biochemical Sciences on p. 221-232
Determination of in vivo RNA structure in low-abundance transcripts
Chun Kit Kwok, Yiliang Ding, Yin Tang, Sarah M. Assmann, Philip C. Bevilacqua, 2013, Nature Communications
Template-directed RNA polymerization and enhanced ribozyme catalysis inside membraneless compartments formed by coacervates
Raghav R. Poudyal, Rebecca M. Guth-Metzler, Andrew J. Veenis, Erica A. Frankel, Christine D. Keating, Philip C. Bevilacqua, 2019, Nature Communications on p. 490
Polyamine/Nucleotide Coacervates Provide Strong Compartmentalization of Mg<sup>2+</sup>, Nucleotides, and RNA
Erica A. Frankel, Philip C. Bevilacqua, Christine D. Keating, 2016, Langmuir on p. 2041-2049
Charged nucleobases and their potential for RNA catalysis
Jennifer L. Wilcox, Amarpreet K. Ahluwalia, Philip C. Bevilacqua, 2011, Accounts of Chemical Research on p. 1270-1279
News Articles Featuring Philip Bevilacqua
Aug 20, 2019
Penn State Chemistry Alum Recognized with Young Scientists Award
Kathleen Leamy has been awarded the 2019 Gordon Hammes Scholar Award, based on a 2018 article she co-authored with the Huck Institutes' Neela Yennawar and Phillip Bevilacqua.
Full Article
Apr 19, 2019
NIH Trainees Juan Cerda and Catherine Douds Receive NSF-GRFP Honorable Mentions
Juan Cerda and Catherine Douds, both members of NIH-sponsored training programs overseen by the Huck Institutes, were recognized for their promising research ideas.
Full Article