A route to fluvirucinins B(2-5) (the common aglycon of fluvirucins B(2)-B(5), Sch 38518, and Sch 39185) is reported for the first time. A ring-closing metathesis (RCM) generated the C6-C7 double bond, which by catalytic hydrogenation (in toluene) gave the desired epimer with a 9:1 diastereoselection. Azide 8a and carboxylic acid 5 came from ethyl-branched fragments C9-C13 (CHO at C9) and C1-C5 via an asymmetric allylation of the former and a cross metathesis (CM) followed by a ketone methylenation (with 20 mol % of DMF as a sacrificial additive) of the latter.
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Efficient approach to fluvirucins B2-B5, Sch 38518, and Sch 39185. First synthesis of their aglycon, via CM and RCM reactions.
Org Lett
August 2009
Departament de Química Orgànica, Facultat de Química, Universitat de Barcelona, Av. Diagonal 647, 08028 Barcelona, Catalonia, Spain.
A route to fluvirucinins B(2-5) (the common aglycon of fluvirucins B(2)-B(5), Sch 38518, and Sch 39185) is reported for the first time. A ring-closing metathesis (RCM) generated the C6-C7 double bond, which by catalytic hydrogenation (in toluene) gave the desired epimer with a 9:1 diastereoselection. Azide 8a and carboxylic acid 5 came from ethyl-branched fragments C9-C13 (CHO at C9) and C1-C5 via an asymmetric allylation of the former and a cross metathesis (CM) followed by a ketone methylenation (with 20 mol % of DMF as a sacrificial additive) of the latter.
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