2014 - Member of the National Academy of Sciences
1997 - Fellow of Alfred P. Sloan Foundation
His primary scientific interests are in RNA, Biochemistry, Ribosome, Transfer RNA and Ribosomal RNA. The RNA study combines topics in areas such as Molecular biology, Oligonucleotide, Binding site and Stereochemistry. His work in the fields of Biochemistry, such as Transcription, Nucleotide, Allosteric regulation and Salt bridge, intersects with other areas such as Inverse agonist.
His Ribosome study incorporates themes from Aminoglycoside and Paromomycin. His Transfer RNA research includes elements of Förster resonance energy transfer and Protein biosynthesis. His biological study spans a wide range of topics, including Computational biology, DNA-binding protein and Cell biology.
Joseph D. Puglisi focuses on Ribosome, RNA, Biochemistry, Transfer RNA and Cell biology. His research integrates issues of Ribosomal RNA, Biophysics, Protein biosynthesis and Translation, Messenger RNA in his study of Ribosome. His research in Ribosomal RNA intersects with topics in A-site, Aminoglycoside, 23S ribosomal RNA and 5.8S ribosomal RNA.
Joseph D. Puglisi interconnects Oligonucleotide, Computational biology, Molecular biology, Nuclear magnetic resonance spectroscopy and Transcription in the investigation of issues within RNA. His Transfer RNA research incorporates themes from Base pair and Förster resonance energy transfer. His Cell biology research is multidisciplinary, incorporating elements of Eukaryotic translation, Ribosomal protein, Internal ribosome entry site and Initiation factor.
Joseph D. Puglisi spends much of his time researching Ribosome, Cell biology, Translation, Protein biosynthesis and Messenger RNA. He has included themes like Biophysics, Eukaryotic translation, In vitro and Transfer RNA in his Ribosome study. The various areas that Joseph D. Puglisi examines in his Cell biology study include Ribosomal protein, RNA, Gene, Ribosome Subunits and Yeast.
His RNA study frequently links to related topics such as Computational biology. His Translation research integrates issues from Single-molecule experiment, Large ribosomal subunit and Genetic screen. His Protein biosynthesis research includes themes of Amino acid, Eukaryotic initiation factor and Coding region.
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Structure of the A Site of Escherichia coli 16S Ribosomal RNA Complexed with an Aminoglycoside Antibiotic
Dominique Fourmy;Michael I. Recht;Scott C. Blanchard;Joseph D. Puglisi.
Absorbance melting curves of RNA.
Joseph D. Puglisi;Ignacio Tinoco.
Methods in Enzymology (1989)
An Oxygen Scavenging System for Improvement of Dye Stability in Single-Molecule Fluorescence Experiments
Colin Echeverría Aitken;R. Andrew Marshall;Joseph D. Puglisi.
Biophysical Journal (2008)
Conformation of the TAR RNA-arginine complex by NMR spectroscopy
Joseph D. Puglisi;Ruoying Tan;Barbara J. Calnan;Alan D. Frankel.
tRNA dynamics on the ribosome during translation
Scott C. Blanchard;Harold D. Kim;Ruben L. Gonzalez;Joseph D. Puglisi.
Proceedings of the National Academy of Sciences of the United States of America (2004)
Ligand-specific regulation of the extracellular surface of a G-protein-coupled receptor
Michael P. Bokoch;Yaozhong Zou;Søren G F Rasmussen;Corey W. Liu.
tRNA selection and kinetic proofreading in translation.
Scott C Blanchard;Ruben L Gonzalez;Harold D Kim;Steven Chu.
Nature Structural & Molecular Biology (2004)
Structural origins of gentamicin antibiotic action
Satoko Yoshizawa;Dominique Fourmy;Joseph D. Puglisi.
The EMBO Journal (1998)
Solution Structure of a Bovine Immunodeficiency Virus Tat-TAR Peptide-RNA Complex
Joseph D. Puglisi;Lily Chen;Scott Blanchard;Alan D. Frankel.
Preparation of isotopically labeled ribonucleotides for multidimensional NMR spectroscopy of RNA
Robert T. Batey;Maki Inada;Elizabeth Kujawinski;Joseph D. Puglisi.
Nucleic Acids Research (1992)
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