Mad about madder [0.03%]
爱木槿花染料
Tova N Williams
Tova N Williams
Anuj Pennathur,Jahan Dawlaty
Anuj Pennathur
Bruce C Gibb
Bruce C Gibb
Prebiotic synthesis of α-amino acids and orotate from α-ketoacids potentiates transition to extant metabolic pathways [0.03%]
α-酮酸的预生物合成促进氨基酸和呕甲酸向现有代谢途径转变
Sunil Pulletikurti,Mahipal Yadav,Greg Springsteen et al.
Sunil Pulletikurti et al.
The Strecker reaction of aldehydes is the pre-eminent pathway to explain the prebiotic origins of α-amino acids. However, biology employs transamination of α-ketoacids to synthesize amino acids which are then transformed to nucleobases, i...
Anni Feng,Yu Zhou,Mohammed A Y Al-Shebami et al.
Anni Feng et al.
Intermolecular charge transport plays an essential role in organic electronic materials and biological systems. To date, experimental investigations of intermolecular charge transport in molecular materials and electronic devices have been ...
Jinqiao Dong,Dan Zhao
Jinqiao Dong
Guo-Zhu Zhu,Debayan Mitra,Benjamin L Augenbraun et al.
Guo-Zhu Zhu et al.
Molecular design principles provide guidelines for augmenting a molecule with a smaller group of atoms to realize a desired property or function. We demonstrate that these concepts can be used to create an optical cycling centre, the Ca(I)-...
Alexander Rittner,Mirko Joppe,Jennifer J Schmidt et al.
Alexander Rittner et al.
Modification of polyketides with fluorine offers a promising approach to develop new pharmaceuticals. While synthetic chemical methods for site-selective incorporation of fluorine in complex molecules have improved in recent years, approach...
Challenges and opportunities in achieving the full potential of droplet interface bilayers [0.03%]
实现液滴界面双层潜力的挑战与机遇
Elanna B Stephenson,Jaime L Korner,Katherine S Elvira
Elanna B Stephenson
Model membranes can be used to elucidate the intricacies of the chemical processes that occur in cell membranes, but the perfectly biomimetic, yet bespoke, model membrane has yet to be built. Droplet interface bilayers are a new type of mod...
Radical ring formation [0.03%]
极环形成反应
Prabagar Baskaran,Wei Li
Prabagar Baskaran