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Search for "C-mannosides" in Full Text gives 2 result(s) in Beilstein Journal of Organic Chemistry.
N-Glycosides of indigo, indirubin, and isoindigo: blue, red, and yellow sugars and their cancerostatic activity
- Peter Langer
Beilstein J. Org. Chem. 2024, 20, 2840–2869, doi:10.3762/bjoc.20.240
- deprotection with NaOMe afforded β-81a in 98% yield. Likewise, rhamnosides β-81b,c mannosides β-81d–f, and glucoside β-80g were obtained in good yields. Some products exhibited weak cytotoxic activity against human ceratinocytes (HaCaT). However, in contrast to many indirubin-N-glycosides and their analogues
Graphical Abstract
Scheme 1: Structures of indigo (1a), indirubin (2a) and isoindigo (3a).
Scheme 2: Structures of akashins A–C.
Scheme 3: Synthesis of 5b. Reagents and conditions: i) TMSOTf, 4 Å MS, CH2Cl2, −20 °C, 1.5 h, then 20 °C, 8–1...
Scheme 4: Synthesis of 7c. Reagents and conditions: i) TMSOTf, 4 Å MS, CH2Cl2, −18 °C, 3 h; then: TMSOTf, 4 Å...
Scheme 5: Synthesis of 1d. Reagents and conditions: i) chloroacetic acid, Na2CO3, reflux, 6 h; ii) Ac2O, NaOA...
Scheme 6: Synthesis of 10e. Reagents and conditions: i) p-TsOH·H2O, acetonitrile, MeOH, 1 d; ii) NIS, PPh3, D...
Scheme 7: Synthesis of akashins A–C. Reagents and conditions: i) TMSOTf, 4 Å MS, CH2Cl2, −18 to 20 °C, 15 h; ...
Scheme 8: Synthesis of 5d. Reagents and conditions: i) KMnO4, AcOH, high-power-stirring (12.000 rot/min), 20 ...
Scheme 9: Possible mechanism of the formation of 5c.
Scheme 10: Synthesis of 7d. Reagents and conditions: i) 1) CH2Cl2, 2) Me3SiI, 20 °C, 30 min, 3) 0 °C, 30 min, ...
Scheme 11: Synthesis of α-15b. Reagents and conditions: i) 1) CH2Cl2, 2) Me3SiI, 20 °C, 30 min, 3) 0 °C, 30 mi...
Scheme 12: Synthesis of isatin-N-glycosides 16a–f. Reagents and conditions: i) PhNH2, EtOH, 20 °C, 12 h; ii) Ac...
Scheme 13: Synthesis of 17–21. Reagents and conditions: i) Na2CO3, MeOH, 20 °C, 4 h.
Scheme 14: Synthesis of indirubin-N-glycosides α-17a and α-17b.
Scheme 15: Synthesis of β-17f. Reagents and conditions: i) 1) Na2CO3, MeOH, 20 °C, 4 h, 2) Ac2O/pyridine 1:1, ...
Scheme 16: Synthesis of β-24a. Reagents and conditions: i) n-PrOH, H2O, formic acid (buffer, 100 mM), 2 h, 65 ...
Scheme 17: Synthesis of isatin-N-glycosides 23b–g and 24b–g.
Scheme 18: Synthesis of β-29a,b. Reagents and conditions: i) EtOH, 20 °C, 12 h; ii) DDQ, dioxane, 20 °C, 12 h;...
Scheme 19: Synthesis of β-31a. Reagents and conditions: i) Na2SO3, dioxane, H2O, 110 °C, 2 d; ii) piperidine, ...
Scheme 20: Synthesis of 33a–d. Reagents and conditions: i) Ac2O, AcOH, NaOAc, 80 °C, 1 h; ii) 1) NaOMe, anhydr...
Scheme 21: Indirubins 34 and 35.
Scheme 22: Synthesis of 36f. Reagents and conditions: i) NaOH, H2O, 20 °C, 5 h; ii) HCl, NaNO2, H2O, −14 °C; i...
Scheme 23: Synthesis of 38a–h. Reagents and conditions: i) 1) 0.1 equiv NaOMe, MeOH, 20 °C, 15–20 min, 2) HOAc...
Scheme 24: Synthesis of 40a–h. Reagents and conditions: i) method A: EtOH/THF, cat. KOt-Bu, 20 °C, 3–4.5 h; me...
Scheme 25: Synthesis of 41a–d. Reagents and conditions: i) Ac2O, AcOH, NaOAc, 80 °C, 1 h.
Scheme 26: Synthesis of 41e. Reagents and conditions: i) AcOH, NaOAc, 110 °C, 24 h.
Scheme 27: Synthesis of E-β-43a–e and E-β-44a,b. Reagents and conditions: i) 1) NEt3, EtOH, 20 °C, 12 h, 2) DM...
Scheme 28: Synthesis of E-43f. Reagents and conditions: i) Na2CO3, MeOH, 20 °C, 6–24 h.
Scheme 29: Synthesis of 46a–m. Reagents and conditions: i) NEt3 (1 equiv), EtOH, 20 °C, 6–10 h; ii) MsCl, NEt3...
Scheme 30: Synthesis of 48a–d. Reagents and conditions: i) AcOH/Ac2O, NaOAc, 60 °C, 3–4 h.
Scheme 31: Synthesis of 48e. Reagents and conditions: i) NaOAc, AcOH, 110 °C, 24 h.
Scheme 32: Synthesis of β-49a,b. Reagents and conditions: i) AcOH/Ac2O, NaOAc, 60 °C, 3–4 h.
Scheme 33: Synthesis of β-54a,b. Reagents and conditions: i) 1) NaH, DMF, 0 °C, 15 min, 2) β-51a,b, 20 °C, 3 h...
Scheme 34: Synthesis of 54c–l. The yields refer to the yields of the first and second condensation step for ea...
Scheme 35: Synthesis of 57a–c and 58a–d. Reagents and conditions: i) HCl (conc.), AcOH, reflux, 24 h; ii) 1) B...
Scheme 36: Synthesis of 59a–e and 60a–e. Reagents and conditions: i) P(NEt2)3 (1.1 equiv), CH2Cl2, −78 °C to 2...
Scheme 37: Synthesis of 61a–d and 62a–d. Reagents and conditions: i) P(NEt2)3 (1.1 equiv), CH2Cl2, −78 °C to 2...
Scheme 38: Synthesis of β-64a–e and α-64a. Reagents and conditions: i) AcOH, Ac2O, NaOAc, 90 °C, 6 h.
Scheme 39: Synthesis of β-72a. Reagents and conditions: i) 66, EtOH, 20 °C, 12 h; ii) DDQ, dioxane, 20 °C, 12 ...
Scheme 40: Synthesis of β-72b.
Scheme 41: Synthesis of β-74a–c. Reagents and conditions: i) AcOH, Ac2O, NaOAc, 130 °C, 2 d.
Scheme 42: Synthesis of β-77. Reagents and conditions: i) 1) NEt3, EtOH, 20 °C, 12 h, 2) DMAP, NEt3, MsCl, 0 °...
Scheme 43: Synthesis of β-81a–f and β-80g. Reagents and conditions: i) AcOH, 80 °C, 1–3 h; ii) benzene, PTSA, ...
Scheme 44: Synthesis of 84a. Reagents and conditions: i) benzene, AlCl3, 20 °C, 10 min; ii) MeOH, NaOMe, 12 h,...
Scheme 45: Synthesis of 84b–l. The yields refer to the yields of the condensation and the deprotection step fo...
Are D-manno-configured Amadori products ligands of the bacterial lectin FimH?
- Tobias-Elias Gloe,
- Insa Stamer,
- Cornelia Hojnik,
- Tanja M. Wrodnigg and
- Thisbe K. Lindhorst
Beilstein J. Org. Chem. 2015, 11, 1096–1104, doi:10.3762/bjoc.11.123
- site of the type 1-fimbrial lectin FimH. Keywords: Amadori rearrangement; bacterial adhesion; C-mannosides; docking studies; FimH ligands; Introduction The Amadori rearrangement (AR) is the reaction in which aldohexoses react with suitable amines under acidic catalysis to 1-amino-1-deoxyketohexoses
Graphical Abstract
Scheme 1: The Amadori rearrangement of aldoses with amines leads to C-glycosyl-type glycoconjugates, namely 1...
Figure 1: The bacterial lectin FimH is known to bind α-D-mannosides such as methyl α-D-mannoside 1 (MeMan) wi...
Scheme 2: Synthesis of D-glycero-D-galacto/D-talo-heptopyranose 8a and 8b: a) O3, NaOAc, Me2S, CH2Cl2/MeOH, −...
Scheme 3: Amadori rearrangement of heptoaldose 8 with propargylamine and aniline to yield C-glycosyl-type D-m...
Figure 2: Cartoon illustrating ligand binding by the bacterial lectin FimH. Complexation of D-manno-configure...
Figure 3: Partial charge coloured Connolly descriptions [28,29] (negative partial charges coloured in red, positive ...
Figure 4: Comparison of mannosides as complexed within the CRD of FimH (PDB 1KLF). A: MeMan (1); B: Amadori p...
