136773-80-3Relevant articles and documents
Synthesis of N-Acetylallosamine-Derived Disaccharides
Maloisel, Jean-Luc,Vasella, Andrea
, p. 1491 - 1514 (2007/10/02)
The protected disaccharide 44, a precursor for the synthesis of allosamidin, was prepared from the glycosyl acceptor 8 and the donors 26-28, best yields being obtained with the trichloroacetimidate 28 (Scheme 6).Glycosidation of 8 or of 32 by the triacetylated, less reactive donors 38-40 gave the disaccharides 46 and 45, respectively, in lower yields (Scheme 7).Regioselective glycosidation of the diol 35 by the donors 38-40 gave 42, the axial, intramolecularly H-bonded OH-C(3) group reacting exclusively (Schmeme 5).The glycosyl acceptor 8 was prepared from 9 by reductive opening of the dioxolane ring (Scheme 3).The donors 26-28 were prepared from the same precursor 9 via the hemiacetal 25.To obtain 9, the known 10 was de-N-acetylated (-> 18), treated with phthalic anhydride (-> 19), and benzylated, leading to 9 and 23 (Schemes 2 and 3).Saponification of 23, followed by acetylation also gave 9.Depending upon the conditions, acetylation of 19 yielded a mixture of 20 and 21 or exclusively 20.Deacetylation of 20 led to the hydroxyphthalimide 22.De-N-acetylation of the 3-O-benzylated α-D-glycosides 11 and 15, which were both obtained from 10, was very sluggish and accompanied by partial reduction of the O-allyl to an O-propyl group (Scheme 2).The β-D-glycoside 30 behaved very similarly to 11 and 15.Reductive ring opening of 31, derived from 29, yielded the 3-O-acetylated acceptor 32, while the analogous reaction of the α-D-anomer 20 was accompanied by a rapid 3-O -> 4-O acyl migration (-> 34; Scheme 4).Reductive ring opening of 21 gave the diol 35.The triacetylated donors 38-40 were obtained from 20 by debenzylidenation, acetylation (-> 36), and deallylation (-> 37), followed by either acetylation (-> 38), treatment with Me3SiSEt (-> 39), or Cl3CCN (-> 40).
