250165-20-9Relevant academic research and scientific papers
Synthesis of chiral iodo-N,O-acetonide aminal scaffolds via an efficient cascade reaction of amino acid-derived epoxides
Paige Souder,Evans, Zachary M.,Driver, Joshua A.,Pozzo, Eric J.,Lampkins, Andrew J.
scheme or table, p. 6908 - 6910 (2012/02/15)
Novel amino acid-derived iodo-N,O-acetonide aminals were developed as chiral, non-epimerizable scaffolds to facilitate complex molecule synthesis. These scaffolds are readily prepared from commercially available amino acid derivatives in ≤6 steps, contain an orthogonally-protected β-hydroxy amine moiety, and feature a directly reactive alkyl-iodide group for facile substitution chemistry. Further, a novel ring opening/cyclization cascade reaction was developed to prepare these compounds efficiently (59-72%) from readily available epoxide derivatives.
Stereoselective synthesis of anti-N-protected 3-amino-1,2-epoxides by nucleophilic addition to N-tert-butanesulfinyl imine of a glyceraldehyde synthon
Harried, Scott S.,Croghan, Michael D.,Kaller, Matthew R.,Lopez, Patricia,Zhong, Wenge,Hungate, Randall,Reider, Paul J.
experimental part, p. 5975 - 5982 (2009/12/24)
(Chemical Equation Presented) A di-O-TBS protected glyceraldehyde synthon was condensed with Ellman's reagent to form a bench-stable N-tert-butanesulfinyl imine 6, which served as a common intermediate for the stereoselective introduction of various R groups. The Ellman adducts were converted to useful multifunctional intermediates 18a-i in one pot. The alcohols 18a-i were efficiently elaborated to both known and novel anti-N-protected-3-amino-1,2- epoxides in two steps. Compound 2a is a key intermediate toward HIV protease inhibitors.
Synthesis and γ-secretase activity of APP substrate-based hydroxyethylene dipeptide isosteres
Nadin, Alan,Owens, Andrew P.,Castro, José L.,Harrison, Timothy,Shearman, Mark S.
, p. 37 - 41 (2007/10/03)
Two new APP substrate-based hydroxyethylene isosteres (AT and VI) were prepared and their dipeptide conjugates shown not to inhibit the γ-secretase-mediated formation of either Aβ1-40 or Aβ1-42. The FG isostere and a des-hydroxy hydroxyethylene isostere a
Preparation of aminoalkyl chlorohydrin hydrochlorides: Key building blocks for hydroxyethylamine-based HIV protease inhibitors
Beaulieu, Pierre L.,Wernic, Dominik
, p. 3635 - 3645 (2007/10/03)
Enantiomerically pure N,N-dibenzyl-α-amino aldehydes reacted with (chloromethyl)lithium, generated in situ from bromochloromethane and lithium metal, to give predominantly erythro aminoalkyl epoxides. Treatment of the crude epoxides with aqueous hydrochloric acid gave crystalline (2S,3S)-N,N-dibenzylamino chlorohydrin hydrochlorides in 32-56% overall yield and high isomeric purity. These compounds are versatile synthetic intermediates for the preparation of hydroxyethylamine-based HIV protease inhibitors, either directly as such, or via conversion to the corresponding N-Boc(2S,3S)-aminoalkyl epoxides. The processes described do not make use of hazardous reagents or intermediates, do not require chromatographic purifications, and are thus amenable to the preparation of large quantities of these versatile building blocks.
Stereoselective synthesis of erythro α-amino epoxides
Rotella, David P.
, p. 5453 - 5456 (2007/10/02)
The stereoselective reduction of bromomethyl ketones derived from leucine, phenylalanine, alanine and valine is described using borohydride reagents. The Boc-amino alcohol product has erythro stereochemistry at the carbinol center as deduced by conversion to Boc-amino epoxides. These oxiranes are useful for the preparation of hydroxyethylene peptide isosteres.
