320727-36-4Relevant academic research and scientific papers
Design and synthesis of oxadiazolidinediones as inhibitors of plasminogen activator inhibitor-1
Gopalsamy, Ariamala,Kincaid, Scott L.,Ellingboe, John W.,Groeling, Thomas M.,Antrilli, Thomas M.,Krishnamurthy, Girija,Aulabaugh, Ann,Friedrichs, Gregory S.,Crandall, David L.
, p. 3477 - 3480 (2007/10/03)
A novel series of PAI-1 inhibitors containing an oxadiazolidinedione moiety were identified by high through-put screening. Optimization of substituents by parallel synthesis and the iterative design toward understanding structure-activity relationship to improve potency are described.
Regioselectivity in the syntheses of enantiopure 2-benzopyrans through intramolecular cyclization of tethered lactaldehydes. Conformations of the products
Aggarwal, Rachna,Birkbeck, Anthony A.,Giles, Robin G.F.,Green, Ivan R.,Gruchlik, Yolanta,Oosthuizen, Francois J.
, p. 489 - 498 (2007/10/03)
Using titanium tetraisopropoxide, the enantiopure tethered lactaldehyde (α′S,2S)-2-(3′-hydroxy-α′-methyl-benzyloxy) propanal (6) is cyclized with complete regio- and diastereoselectivity ortho to the phenolic hydroxyl group to give (1S,3S,4R)-3,4-dihydro-1,3,-dimethyl-2-benzopyran-4,5-diol (7). Similar cyclization of the epimeric (α′R,2S)-lactaldehyde (25) yields solely the corresponding (1R,3S,4R)-4,5-diol (34). The 4,5-diacetate (26), but not (35), undergoes conformational inversion of the heterocyclic ring through significant 4,5-peri interactions between the adjacent acetoxy substituents. Spontaneous cyclizations of the corresponding phenoxide ions of the lactaldehydes (6) and (25), generated by fluoride from their silyl ethers, led to the related 4,7-diols with high regioselectivity through ring-closure para to the aromatic oxygen.
