Abstract: Disclosed are polypeptides, compositions, and methods useful for activating a glucagon-like peptide-1 (GLP-1) receptor and treating or preventing diseases or disorders at least partially mediated by glucagon-like peptide 1 (GLP-1).

Abstract: Drug screening targets and method of screening for potential drugs for treatment or amelioration of Alzheimer's Disease are provided.

Abstract: Drug screening targets and method of screening for potential drugs for treatment or amelioration of Alzheimer's Disease are provided.

Abstract: The present invention is directed to a method of predicting the binding affinity between a first molecular entity and a second molecular entity. The method includes (1) calculating the free energy of binding ?Gbind between the first molecular entity and the second molecular entity according to the equation (17): ?Gbind=?0.82?X+/?+0.064?Xc/s?0.6Xsb?0.93Xhb?0.0007Xgap?0.06?Xtor?0.36??(17) where X+/? is the total number of exposed charged groups; Xc/s is the total number of exposed hydrophobic groups; Xsb is the total number of salt bridges; Xhb is the total number of hydrogen bonds; Xgap is the gap volume at the interface of the first molecular entity and the second molecular entity; Xtor is the total number of exposed side chain torsions; and where ? refers to the difference between the bound and unbound states; and (2) evaluating the free energy of binding to predict the binding affinity between the first and second molecular entities.

Abstract: The present invention is directed to a method of predicting the binding affinity between a first molecular entity and a second molecular entity, comprising the steps of: (1) calculating the free energy of binding ?Gbind between the first molecular entity and the second molecular entity according to the equation (17): ?Gbind=?0.82?X+/?+0.064?Xc/s?0.6Xsb?0.93Xhb?0.0007Xgap?0.06?Xtor?0.36 ??(17) wherein X+/? is the total number of exposed charged groups; Xc/s is the total number of exposed hydrophobic groups; Xsb is the total number of salt bridges; Xhb is the total number of hydrogen bonds; Xgap is the gap volume at the interface of the first molecular entity and the second molecular entity; Xtor is the total number of exposed side chain torsions; wherein ? refers to the difference between the bound and unbound states; and (2) evaluating the free energy of binding to predict the binding affinity between the first molecular entity and the second molecular entity.