| 1 | HflX-mediated drug resistance through ribosome splitting and rRNA disordering in mycobacteria | 7.5 | 4 | Citations (PDF) |
| 2 | Clinical Course, Antifungal Susceptibility, and Genomic Sequencing of Trichophyton indotineae | 6.1 | 46 | Citations (PDF) |
| 3 | What makes
Candida auris
pan-drug resistant? Integrative insights from genomic, transcriptomic, and phenomic analysis of clinical strains resistant to all four major classes of antifungal drugs | 4.1 | 9 | Citations (PDF) |
| 4 | Development and Validation of TaqMan Chemistry Probe-Based Rapid Assay for the Detection of Echinocandin-Resistance in Candida auris | 4.0 | 12 | Citations (PDF) |
| 5 | Starvation sensing by mycobacterial RelA/SpoT homologue through constitutive surveillance of translation | 7.5 | 6 | Citations (PDF) |
| 6 | The structure of a hibernating ribosome in a Lyme disease pathogen | 13.7 | 6 | Citations (PDF) |
| 7 | SufB intein splicing in
Mycobacterium tuberculosis
is influenced by two remote conserved N-extein histidines | 3.8 | 6 | Citations (PDF) |
| 8 | Ribosome hibernation: a new molecular framework for targeting nonreplicating persisters of mycobacteria | 3.0 | 17 | Citations (PDF) |
| 9 | Distinct mechanisms of the human mitoribosome recycling and antibiotic resistance | 13.7 | 20 | Citations (PDF) |
| 10 | The Mechanism of Cholesterol Modification of Hedgehog Ligand | 4.8 | 12 | Citations (PDF) |
| 11 | Structures of the human mitochondrial ribosome bound to EF-G1 reveal distinct features of mitochondrial translation elongation | 13.7 | 47 | Citations (PDF) |
| 12 | Spliceosomal Prp8 intein at the crossroads of protein and RNA splicing | 5.0 | 40 | Citations (PDF) |
| 13 | General Base Swap Preserves Activity and Expands Substrate Tolerance in Hedgehog Autoprocessing | 15.0 | 8 | Citations (PDF) |
| 14 | Sterol A-ring plasticity in hedgehog protein cholesterolysis supports a primitive substrate selectivity mechanism | 3.4 | 10 | Citations (PDF) |
| 15 | Conditional Protein Splicing Switch in Hyperthermophiles through an Intein-Extein Partnership | 4.4 | 33 | Citations (PDF) |
| 16 | Structural Articulation of Biochemical Reactions Using Restrained Geometries and Topology Switching | 4.5 | 3 | Citations (PDF) |
| 17 | Mycobacterial DnaB helicase intein as oxidative stress sensor | 13.7 | 34 | Citations (PDF) |
| 18 | Geometric Patterns for Neighboring Bases Near the Stacked State in Nucleic Acid Strands | 2.4 | 8 | Citations (PDF) |
| 19 | Chemical activation of adenylyl cyclase Rv1625c inhibits growth ofMycobacterium tuberculosison cholesterol and modulates intramacrophage signaling | 2.5 | 39 | Citations (PDF) |
| 20 | Maintenance of electrostatic stabilization in altered tubulin lateral contacts may facilitate formation of helical filaments in foraminifera | 3.4 | 6 | Citations (PDF) |
| 21 | RNA approaches the B‐form in stacked single strand dinucleotide contexts | 2.9 | 8 | Citations (PDF) |
| 22 | Novel Broad Spectrum Inhibitors Targeting the Flavivirus Methyltransferase | 2.3 | 64 | Citations (PDF) |
| 23 | Identification and Characterization of Novel Broad-Spectrum Inhibitors of the Flavivirus Methyltransferase | 3.6 | 60 | Citations (PDF) |
| 24 | Post-translational environmental switch of RadA activity by extein–intein interactions in protein splicing | 15.5 | 60 | Citations (PDF) |
| 25 | Cytosine Unstacking and Strand Slippage at an Insertion–Deletion Mutation Sequence in an Overhang-Containing DNA Duplex | 2.4 | 5 | Citations (PDF) |
| 26 | Analyzing the Relationship between Single Base Flipping and Strand Slippage near DNA Duplex Termini | 2.7 | 4 | Citations (PDF) |
| 27 | Partial Base Flipping Is Sufficient for Strand Slippage near DNA Duplex Termini | 15.0 | 16 | Citations (PDF) |
| 28 | Molecular Evidence for β-tubulin Neofunctionalization in Retaria (Foraminifera and Radiolarians) | 4.7 | 20 | Citations (PDF) |
| 29 | Modeling a Ryanodine Receptor N-terminal Domain Connecting the Central Vestibule and the Corner Clamp Region | 2.2 | 10 | Citations (PDF) |
| 30 | S-Adenosyl-Homocysteine Is a Weakly Bound Inhibitor for a Flaviviral Methyltransferase | 2.3 | 20 | Citations (PDF) |
| 31 | Insertion domain within mammalian mitochondrial translation initiation factor 2 serves the role of eubacterial initiation factor 1 | 7.5 | 59 | Citations (PDF) |
| 32 | Computational Exploration of Structural Hypotheses for an Additional Sequence in a Mammalian Mitochondrial Protein | 2.3 | 5 | Citations (PDF) |
| 33 | A Low Affinity Ground State Conformation for the Dynein Microtubule Binding Domain | 2.2 | 12 | Citations (PDF) |
| 34 | Mapping the conformational transition in Src activation by cumulating the information from multiple molecular dynamics trajectories | 7.5 | 113 | Citations (PDF) |
| 35 | Flexibility and charge asymmetry in the activation loop of Src tyrosine kinases | 2.6 | 39 | Citations (PDF) |
| 36 | Characterizing Structural Transitions Using Localized Free Energy Landscape Analysis | 2.3 | 7 | Citations (PDF) |
| 37 | DNA bending induced by carbocyclic sugar analogs constrained to the north conformation | 2.9 | 5 | Citations (PDF) |
| 38 | Anatomy of a structural pathway for activation of the catalytic domain of Src kinase Hck | 2.6 | 39 | Citations (PDF) |
| 39 | Conserved Patterns in Backbone Torsional Changes Allow for Single Base Flipping from Duplex DNA with Minimal Distortion of the Double Helix | 2.7 | 12 | Citations (PDF) |
| 40 | The N-Terminal End of the Catalytic Domain of Src Kinase Hck Is a Conformational Switch Implicated in Long-Range Allosteric Regulation | 3.8 | 46 | Citations (PDF) |
| 41 | Free Energy Landscape of A-DNA to B-DNA Conversion in Aqueous Solution | 15.0 | 125 | Citations (PDF) |
| 42 | Caught in the act: visualization of an intermediate in the DNA base-flipping pathway induced by HhaI methyltransferase | 15.5 | 44 | Citations (PDF) |
| 43 | Protein-facilitated base flipping in DNA by cytosine-5-methyltransferase | 7.5 | 132 | Citations (PDF) |
| 44 | Atomic Radii for Continuum Electrostatics Calculations on Nucleic Acids | 2.7 | 70 | Citations (PDF) |
| 45 | Electrostatic free energy calculations using the generalized solvent boundary potential method | 2.8 | 38 | Citations (PDF) |
| 46 | Free Energy and Structural Pathways of Base Flipping in a DNA GCGC Containing Sequence | 4.1 | 159 | Citations (PDF) |
| 47 | INHIBITION OF (CYTOSINE C5)-METHYLTRANSFERASE BY OLIGONUCLEOTIDES CONTAINING FLEXIBLE (CYCLOPENTANE) AND CONFORMATIONALLY CONSTRAINED (BICYCLO[3.1.0]HEXANE) ABASIC SITES | 1.6 | 22 | Citations (PDF) |
| 48 | Reevaluation of Stereoelectronic Contributions to the Conformational Properties of the Phosphodiester and N3‘-Phosphoramidate Moieties of Nucleic Acids | 15.0 | 36 | Citations (PDF) |
| 49 | All-atom empirical force field for nucleic acids: II. Application to molecular dynamics simulations of DNA and RNA in solution | 4.8 | 723 | Citations (PDF) |
| 50 | Development and current status of the CHARMM force field for nucleic acids | 2.9 | 1,012 | Citations (PDF) |
| 51 | Use of Oligodeoxyribonucleotides with Conformationally Constrained Abasic Sugar Targets To Probe the Mechanism of Base Flipping byHhaI DNA (Cytosine C5)-methyltransferase | 15.0 | 51 | Citations (PDF) |
