276879-31-3Relevant academic research and scientific papers
Iridium-catalyzed asymmetric allylic substitutions with bulky amines/oxidative double bond cleavage - Entry into the reetz synthesis of amino alcohols
Seehafer, Kai,Malakar, Chandi C.,Bender, Markus,Qu, Jianping,Liang, Chen,Helmchen, Günter
, p. 493 - 501 (2016/02/18)
Branched allylic amines were prepared by Ir-catalyzed enantioselective allylic aminations with the bulky N-nucleophiles HN(Boc)2 and HNBn2. The products were transformed into N-protected amino aldehydes, which were either reduced or coupled diastereoselectively with organometallic compounds to give vicinal amino alcohols. A formal synthesis of the neurokinin receptor antagonist (+)-L-733060 was carried out as an application. Ir-catalyzed enantioselective allylic aminations with bulky N-nucleophiles HN(Boc)2 and HNBn2 gave N-protected allylic amines, which were transformed into N-protected chiral amino aldehydes. These are useful chiral building blocks as previously demonstrated by Reetz et al. A formal synthesis of the neurokinin receptor antagonist (+)-L-733060 was carried out as an application.
Enantiodivergent biosynthesis of the dimeric sphingolipid oceanapiside from the marine sponge Oceanapia phillipensis. Determination of remote stereochemistry
Nicholas, Gillian M.,Molinski, Tadeusz F.
, p. 4011 - 4019 (2007/10/03)
The absolute stereochemistry of oceanapiside, an antifungal α,ω-bis- aminohydroxylipid with four stereogenic centers from the marine sponge Oceanapia phillipensis Dendy, 1895, has been obtained as 2S,3R,26R,27R from development and application of a general CD method based on superposition of additive exciton couplings in perbenzoyl derivatives of bis-amino alcohols. The method allows simultaneous determination of the local relative configuration at each of the termini of the long chain bis-aminolipid and also relates the absolute configuration of the two remote termini. Oceanapiside contains erythro and threo relative configurations at C1,2 and C26,27, respectively, but opposite absolute configurations at the amino substituted carbons C2 and C27 which implies an enantiodivergent biogenesis formally derived from both D- and L-amino acids.
