40 results on '"Ebright, Richard H."'
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2. CapZyme-Seq Comprehensively Defines Promoter-Sequence Determinants for RNA 5′ Capping with NAD+
3. Structural Basis of Transcription Inhibition by Fidaxomicin (Lipiarmycin A3)
4. Antibacterial Nucleoside-Analog Inhibitor of Bacterial RNA Polymerase
5. Structural Basis of Mycobacterium tuberculosis Transcription and Transcription Inhibition
6. Massively Systematic Transcript End Readout, “MASTER”: Transcription Start Site Selection, Transcriptional Slippage, and Transcript Yields
7. The Initiation Factor TFE and the Elongation Factor Spt4/5 Compete for the RNAP Clamp during Transcription Initiation and Elongation
8. Nanopore-tweezers analysis of translocation by Escherichia coli RNA polymerase and yeast RNA polymerase II
9. Systematic Structure-Activity Analysis of Microcin J25
10. The RNA Polymerase “Switch Region” Is a Target for Inhibitors
11. Direct Observation of Abortive Initiation and Promoter Escape within Single Immobilized Transcription Complexes
12. Inhibition of Bacterial RNA Polymerase by Streptolydigin: Stabilization of a Straight-Bridge-Helix Active-Center Conformation
13. Distance-Restrained Docking of Rifampicin and Rifamycin SV to RNA Polymerase Using Systematic FRET Measurements: Developing Benchmarks of Model Quality and Reliability
14. Retention of Transcription Initiation Factor σ 70 in Transcription Elongation: Single-Molecule Analysis
15. Accurate FRET Measurements within Single Diffusing Biomolecules Using Alternating-Laser Excitation
16. Transcription Factor B Contacts Promoter DNA Near the Transcription Start Site of the Archaeal Transcription Initiation Complex
17. Antibacterial Peptide Microcin J25 Inhibits Transcription by Binding within and Obstructing the RNA Polymerase Secondary Channel
18. Functional Interaction between RNA Polymerase α Subunit C-Terminal Domain and σ 70 in UP-Element- and Activator-Dependent Transcription
19. Structural Organization of Bacterial RNA Polymerase Holoenzyme and the RNA Polymerase-Promoter Open Complex
20. Translocation of σ 70 with RNA Polymerase during Transcription : Fluorescence Resonance Energy Transfer Assay for Movement Relative to DNA
21. Structural Organization of the RNA Polymerase-Promoter Open Complex
22. Identification of the Subunit of cAMP Receptor Protein (CRP) That Functionally Interacts with CytR in CRP-CytR-mediated Transcriptional Repression
23. Roles of the Histone H2A-H2B Dimers and the (H3-H4)2Tetramer in Nucleosome Remodeling by the SWI-SNF Complex
24. Tracking Single RNAP Enzyme Steps and State Transitions During Elongation and Pausing with Nanopore Tweezers
25. Single-molecule Analysis Reveals the Mechanism for DNA Opening in Transcription Initiation
26. Structure of the DNA-Binding and RNA-Polymerase-Binding Region of Transcription Antitermination Factor λQ
27. Determining Dynamics of RNA Polymerase Elongation and Pausing using Nanopore Tweezers
28. New Insights into Transcriptional Pausing using Ultra-high Resolution Optical Tweezers and Novel Analysis Algorithms
29. Nanopore Tweezers Reveal Detailed RNA Polymerase Dynamics at a Sequence-Specific Pause Element
30. Single-Molecule Picometer Resolution Nanopore Tweezers Resolution
31. RNA Polymerase Transcription Elongation Pasuing and Termination Investigated at Super Resolution with the Mspa Nanopore
32. RNA Polymerase Translocation in Processive Transcription Elongation and Pausing: Dynamics, Force-Dependence, and Modulation by Sequence-Specific RNAP-DNA Interactions
33. Sequence-Specific RNAP-DNA Interactions in Transcription Initiation and Elongation: Core Recognition Element (CRE)
34. Sequence-Specific RNAP-DNA Interactions in Transcription Initiation and Elongation: Core Recognition Element (CRE)
35. Flexibility in Transcription Start-Site Selection by RNA Polymerase Involves Transcription-Bubble Expansion (“Scrunching”) or Contraction (“Unscrunching”)
36. Transcription Activation at Class II CAP-Dependent Promoters: Two Interactions between CAP and RNA Polymerase
37. Promoter structure, promoter recognition, and transcription activation in prokaryotes
38. Domain organization of RNA polymerase α subunit: C-terminal 85 amino acids constitute a domain capable of dimerization and DNA binding
39. Identification of the functional subunit of a dimeric transcription activator protein by use of oriented heterodimers
40. CHAPTER 7 - Steroid Hormone Action Interpreted from X-Ray Crystallographic Studies
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