Denitrogenative Alkylation of K-Ras(G12D) Inhibits Oncogenic Signaling in Cancer Cells. Read more about Denitrogenative Alkylation of K-Ras(G12D) Inhibits Oncogenic Signaling in Cancer Cells.
A Molecular Glue Approach to Control the Half-Life of CRISPR-Based Technologies. Read more about A Molecular Glue Approach to Control the Half-Life of CRISPR-Based Technologies.
Radical Strategy to the Boron-to-Copper Transmetalation Problem: N-Alkylation with Alkylboronic Esters. Read more about Radical Strategy to the Boron-to-Copper Transmetalation Problem: N-Alkylation with Alkylboronic Esters.
Identification of Covalent Cyclic Peptide Inhibitors Targeting Protein-Protein Interactions Using Phage Display. Read more about Identification of Covalent Cyclic Peptide Inhibitors Targeting Protein-Protein Interactions Using Phage Display.
De Novo Design of Proteins That Bind Naphthalenediimides, Powerful Photooxidants with Tunable Photophysical Properties. Read more about De Novo Design of Proteins That Bind Naphthalenediimides, Powerful Photooxidants with Tunable Photophysical Properties.
Cooperative Atomically Dispersed Fe-N4 and Sn-Nx Moieties for Durable and More Active Oxygen Electroreduction in Fuel Cells. Read more about Cooperative Atomically Dispersed Fe-N4 and Sn-Nx Moieties for Durable and More Active Oxygen Electroreduction in Fuel Cells.
Aminomethyl Salicylaldehydes Lock onto a Surface Lysine by Forming an Extended Intramolecular Hydrogen Bond Network. Read more about Aminomethyl Salicylaldehydes Lock onto a Surface Lysine by Forming an Extended Intramolecular Hydrogen Bond Network.
Rational Screening for Cooperativity in Small-Molecule Inducers of Protein-Protein Associations. Read more about Rational Screening for Cooperativity in Small-Molecule Inducers of Protein-Protein Associations.
Correction to "Changes in Metabolic Chemical Reporter Structure Yield a Selective Probe of O-GlcNAc Modification". Read more about Correction to "Changes in Metabolic Chemical Reporter Structure Yield a Selective Probe of O-GlcNAc Modification".
Autophagy Receptor-Inspired Antibody-Fusion Proteins for Targeted Intracellular Degradation. Read more about Autophagy Receptor-Inspired Antibody-Fusion Proteins for Targeted Intracellular Degradation.
