Tomasz Heyduk
Affiliations: | Saint Louis University, St. Louis, MO, United States |
Area:
BiochemistryGoogle:
"Tomasz Heyduk"Mean distance: 9953.25
Children
Sign in to add traineeDennis L. Matlock | grad student | 2000 | Saint Louis University |
Ling Tian | grad student | 2007 | Saint Louis University |
Je D. Ko | grad student | 2012 | Saint Louis University |
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Publications
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Chinnaraj M, Barrios DA, Frieden C, et al. (2020) Bioorthogonal Chemistry Enables Single-Molecule FRET Measurements of Catalytically Active Protein Disulfide Isomerase. Chembiochem : a European Journal of Chemical Biology |
Heyduk E, Heyduk T. (2018) DNA template sequence control of bacterial RNA polymerase escape from the promoter. Nucleic Acids Research |
Feklistov A, Bae B, Hauver J, et al. (2017) RNA polymerase motions during promoter melting. Science (New York, N.Y.). 356: 863-866 |
Lass-Napiorkowska A, Heyduk T. (2016) Real-time observation of backtracking by bacterial RNA polymerase. Biochemistry |
Heyduk T, Heyduk E. (2015) Next Generation Sequencing-based analysis of RNA polymerase functions. Methods (San Diego, Calif.). 86: 37-44 |
Ko J, Heyduk T. (2014) Kinetics of promoter escape by bacterial RNA polymerase: effects of promoter contacts and transcription bubble collapse. The Biochemical Journal. 463: 135-44 |
Heyduk E, Heyduk T. (2014) Next generation sequencing-based parallel analysis of melting kinetics of 4096 variants of a bacterial promoter. Biochemistry. 53: 282-92 |
Pozzi N, Chen Z, Gohara DW, et al. (2013) Crystal structure of prothrombin reveals conformational flexibility and mechanism of activation. The Journal of Biological Chemistry. 288: 22734-44 |
Lass-Napiorkowska A, Heyduk E, Tian L, et al. (2012) Detection methodology based on target molecule-induced sequence-specific binding to a single-stranded oligonucleotide. Analytical Chemistry. 84: 3382-9 |
Sztiller-Sikorska M, Heyduk E, Heyduk T. (2011) Promoter spacer DNA plays an active role in integrating the functional consequences of RNA polymerase contacts with -10 and -35 promoter elements. Biophysical Chemistry. 159: 73-81 |