![Permalink to: [ASAP] Sensor I Regulated ATPase Activity of FleQ Is Essential for Motility to Biofilm Transition in <italic toggle="yes">Pseudomonas aeruginosa</italic>](http://oldsite.divbiolchem.org/content/cb-2019-002555_0007-200x200.gif)
[ASAP] Sensor I Regulated ATPase Activity of FleQ Is Essential for Motility to Biofilm Transition in <italic toggle=”yes”>Pseudomonas aeruginosa</italic>
![Permalink to: [ASAP] Single-Molecule Localization Microscopy with the Fluorescence-Activating and Absorption-Shifting Tag (FAST) System](http://oldsite.divbiolchem.org/content/cb-2019-00149u_0004-200x200.gif)
[ASAP] Single-Molecule Localization Microscopy with the Fluorescence-Activating and Absorption-Shifting Tag (FAST) System
![Permalink to: [ASAP] Transient Kinetics Reveal Mechanism and Voltage Dependence of Inhibitor and Substrate Binding to Glutamate Transporters](http://oldsite.divbiolchem.org/content/cb-2019-00194n_0006-200x200.gif)
[ASAP] Transient Kinetics Reveal Mechanism and Voltage Dependence of Inhibitor and Substrate Binding to Glutamate Transporters
![Permalink to: [ASAP] Targeted Protein Degradation through Cytosolic Delivery of Monobody Binders Using Bacterial Toxins](http://oldsite.divbiolchem.org/content/cb-2019-001133_0007-200x200.gif)
[ASAP] Targeted Protein Degradation through Cytosolic Delivery of Monobody Binders Using Bacterial Toxins
![Permalink to: [ASAP] Chemical Diversification Based on Substrate Promiscuity of a Standalone Adenylation Domain in a Reconstituted NRPS System](http://oldsite.divbiolchem.org/content/cb-2018-00938r_0006-200x200.gif)
[ASAP] Chemical Diversification Based on Substrate Promiscuity of a Standalone Adenylation Domain in a Reconstituted NRPS System
![Permalink to: [ASAP] <italic toggle="yes">N</italic>-Acyl <sc>l</sc>-Homocysteine Thiolactones Are Potent and Stable Synthetic Modulators of the RhlR Quorum Sensing Receptor in <italic toggle="yes">Pseudomonas aeruginosa</italic>](http://oldsite.divbiolchem.org/content/cb-2018-01079z_0004-200x200.gif)
[ASAP] <italic toggle=”yes”>N</italic>-Acyl <sc>l</sc>-Homocysteine Thiolactones Are Potent and Stable Synthetic Modulators of the RhlR Quorum Sensing Receptor in <italic toggle=”yes”>Pseudomonas aeruginosa</italic>
![Permalink to: [ASAP] Novel Methoxymethacrylate Natural Products Uncovered by Statistics-Based Mining of the <italic toggle="yes">Myxococcus fulvus</italic> Secondary Metabolome](http://oldsite.divbiolchem.org/content/cb-2018-00948p_0010-200x193.gif)
[ASAP] Novel Methoxymethacrylate Natural Products Uncovered by Statistics-Based Mining of the <italic toggle=”yes”>Myxococcus fulvus</italic> Secondary Metabolome
![Permalink to: [ASAP] Precise Small Molecule Degradation of a Noncoding RNA Identifies Cellular Binding Sites and Modulates an Oncogenic Phenotype](http://oldsite.divbiolchem.org/content/cb-2018-008272_0005-200x191.gif)
[ASAP] Precise Small Molecule Degradation of a Noncoding RNA Identifies Cellular Binding Sites and Modulates an Oncogenic Phenotype
![Permalink to: [ASAP] A Nonheme Fe<sup>II</sup>/2-Oxoglutarate-Dependent Oxygenase Catalyzes a Double Bond Migration within a Dimethylallyl Moiety Accompanied by Hydroxylation](http://oldsite.divbiolchem.org/content/cb-2018-00588j_0007-200x200.gif)
[ASAP] A Nonheme Fe<sup>II</sup>/2-Oxoglutarate-Dependent Oxygenase Catalyzes a Double Bond Migration within a Dimethylallyl Moiety Accompanied by Hydroxylation
![Permalink to: [ASAP] Unbiased Mass Spectrometry Elucidation of the Targets and Mechanisms of Activity-Based Probes: A Case Study Involving Sulfonyl Fluorides](http://oldsite.divbiolchem.org/content/cb-2018-005306_0007-200x200.gif)
[ASAP] Unbiased Mass Spectrometry Elucidation of the Targets and Mechanisms of Activity-Based Probes: A Case Study Involving Sulfonyl Fluorides
![Permalink to: [ASAP] Molecular Basis for Autocatalytic Backbone <italic toggle="yes">N</italic>-Methylation in RiPP Natural Product Biosynthesis](http://oldsite.divbiolchem.org/content/cb-2018-00668z_0007-200x200.gif)
[ASAP] Molecular Basis for Autocatalytic Backbone <italic toggle=”yes”>N</italic>-Methylation in RiPP Natural Product Biosynthesis
![Permalink to: [ASAP] Chemical Proteomics and Super-resolution Imaging Reveal That Chloroquine Interacts with <italic toggle="yes">Plasmodium falciparum</italic> Multidrug Resistance-Associated Protein and Lipids](http://oldsite.divbiolchem.org/content/cb-2018-00583v_0007-200x200.gif)
[ASAP] Chemical Proteomics and Super-resolution Imaging Reveal That Chloroquine Interacts with <italic toggle=”yes”>Plasmodium falciparum</italic> Multidrug Resistance-Associated Protein and Lipids
![Permalink to: [ASAP] Targeting Fluorescent Sensors to Endoplasmic Reticulum Membranes Enables Detection of Peroxynitrite During Cellular Phagocytosis](http://oldsite.divbiolchem.org/content/cb-2018-00535s_0010-200x200.gif)
[ASAP] Targeting Fluorescent Sensors to Endoplasmic Reticulum Membranes Enables Detection of Peroxynitrite During Cellular Phagocytosis
![Permalink to: [ASAP] Human Milk Oligosaccharides (HMOs) Sensitize Group B <italic toggle="yes">Streptococcus</italic> to Clindamycin, Erythromycin, Gentamicin, and Minocycline on a Strain Specific Basis](http://oldsite.divbiolchem.org/content/cb-2018-006614_0003-200x200.gif)
[ASAP] Human Milk Oligosaccharides (HMOs) Sensitize Group B <italic toggle=”yes”>Streptococcus</italic> to Clindamycin, Erythromycin, Gentamicin, and Minocycline on a Strain Specific Basis
![Permalink to: [ASAP] Discovery of a Nitric Oxide Responsive Quorum Sensing Circuit in <italic toggle="yes">Vibrio cholerae</italic>](http://oldsite.divbiolchem.org/content/cb-2018-003608_0005-200x200.gif)
[ASAP] Discovery of a Nitric Oxide Responsive Quorum Sensing Circuit in <italic toggle=”yes”>Vibrio cholerae</italic>
![Permalink to: [ASAP] Optical Recording of Zn<sup>2+</sup> Dynamics in the Mitochondrial Matrix and Intermembrane Space with the GZnP2 Sensor](http://oldsite.divbiolchem.org/content/cb-2018-00319f_0005-200x200.gif)
[ASAP] Optical Recording of Zn<sup>2+</sup> Dynamics in the Mitochondrial Matrix and Intermembrane Space with the GZnP2 Sensor
![Permalink to: [ASAP] Protein Acylation Affects the Artificial Biosynthetic Pathway for Pinosylvin Production in Engineered <italic toggle="yes">E. coli</italic>](http://oldsite.divbiolchem.org/content/cb-2017-01068c_0007-200x200.gif)
[ASAP] Protein Acylation Affects the Artificial Biosynthetic Pathway for Pinosylvin Production in Engineered <italic toggle=”yes”>E. coli</italic>
![Permalink to: [ASAP] A Complementary Chemical and Genomic Screening Approach for Druggable Targets in the Nrf2 Pathway and Small Molecule Inhibitors to Overcome Cancer Cell Drug Resistance](http://oldsite.divbiolchem.org/content/cb-2017-01025t_0007-200x200.gif)
[ASAP] A Complementary Chemical and Genomic Screening Approach for Druggable Targets in the Nrf2 Pathway and Small Molecule Inhibitors to Overcome Cancer Cell Drug Resistance

Photophysical Tuning of N-Oxide-Based Probes Enables Ratiometric Photoacoustic Imaging of Tumor Hypoxia

More Than a Light Switch: Engineering Unconventional Fluorescent Configurations for Biological Sensing

Incorporation of β-Amino Acids Enhances the Antifungal Activity and Selectivity of the Helical Antimicrobial Peptide Aurein 1.2

Hidden Antioxidative Functions of Reduced Nicotinamide Adenine Dinucleotide Coexisting with Hemoglobin

Duration Control of Protein Expression in Vivo by Light-Mediated Reversible Activation of Translation

Temporal Analysis of PP2A Phosphatase Activity During Insulin Stimulation Using a Direct Activity Probe

Fluorescence-Activated Cell Sorting of Human l-asparaginase Mutant Libraries for Detecting Enzyme Variants with Enhanced Activity

Human Telomere G-Quadruplexes with Five Repeats Accommodate 8-Oxo-7,8-dihydroguanine by Looping out the DNA Damage

Mitochondria-Targeted Approach: Remarkably Enhanced Cellular Bioactivities of TPP2a as Selective Inhibitor and Probe toward TrxR

Three Residues Make an Evolutionary Switch for Folding and RNA-Destabilizing Activity in the TTP Family of Proteins

Azacyclic FTY720 Analogues That Limit Nutrient Transporter Expression but Lack S1P Receptor Activity and Negative Chronotropic Effects Offer a Novel and Effective Strategy to Kill Cancer Cells in Vivo

Thiostrepton Variants Containing a Contracted Quinaldic Acid Macrocycle Result from Mutagenesis of the Second Residue
