![Molecular basis for cooperative binding and synergy of ATP-site and allosteric EGFR inhibitors | Nature Communications Molecular basis for cooperative binding and synergy of ATP-site and allosteric EGFR inhibitors | Nature Communications](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41467-022-30258-y/MediaObjects/41467_2022_30258_Fig1_HTML.png)
Molecular basis for cooperative binding and synergy of ATP-site and allosteric EGFR inhibitors | Nature Communications
Mechanisms of Stereodirecting Participation and Ester Migration from Near and Far in Glycosylation and Related Reactions | Chemical Reviews
![Programmable and contractile materials through cell encapsulation in fibrous hydrogel assemblies | Science Advances Programmable and contractile materials through cell encapsulation in fibrous hydrogel assemblies | Science Advances](https://www.science.org/cms/10.1126/sciadv.abi8157/asset/df2e6937-ff73-4bf4-9777-7ff4b435b2b2/assets/images/large/sciadv.abi8157-f1.jpg)
Programmable and contractile materials through cell encapsulation in fibrous hydrogel assemblies | Science Advances
Water-Sculpting of a Heterogeneous Nanoparticle Precatalyst for Mizoroki–Heck Couplings under Aqueous Micellar Catalysis Conditions | Journal of the American Chemical Society
![Ontogeny of Hepatic Sulfotransferases and Prediction of Age-Dependent Fractional Contribution of Sulfation in Acetaminophen Metabolism | Drug Metabolism & Disposition Ontogeny of Hepatic Sulfotransferases and Prediction of Age-Dependent Fractional Contribution of Sulfation in Acetaminophen Metabolism | Drug Metabolism & Disposition](https://dmd.aspetjournals.org/sites/default/files/highwire/dmd/47/8.cover-source.jpg)
Ontogeny of Hepatic Sulfotransferases and Prediction of Age-Dependent Fractional Contribution of Sulfation in Acetaminophen Metabolism | Drug Metabolism & Disposition
![Bioenergetic-active materials enhance tissue regeneration by modulating cellular metabolic state | Science Advances Bioenergetic-active materials enhance tissue regeneration by modulating cellular metabolic state | Science Advances](https://www.science.org/cms/10.1126/sciadv.aay7608/asset/6f1d6cb5-5640-4e3b-b4db-1abbb518f2e5/assets/graphic/aay7608-f1.jpeg)