合成糖课题组主页

1. Berni, F.; Wang, L.; Kalfopoulou, E.; Nguyen, D. L.; van der Es, D.; Huebner, J.; Overkleeft, H. S.; Hokke, C. H.; van der Marel, G. A.; van Diepen, A.; Codée, J. D. C., Generation of glucosylated sn-1-glycerolphosphate teichoic acids: glycerol stereochemistry affects synthesis and antibody interaction. RSC Chem. Biol. 2021,Advance Article.

2. Zeng, Z.-Y.; Liao, J.-X.; Hu, Z.-N.; Liu, D.-Y.; Zhang, Q.-J.; Sun, J.-S., Synthetic Investigation toward QS-21 Analogues. Org. Lett. 2020,22 (21), 8613-8617.

3. Wen, G.-E.; Liu, H.; Yin, Q.-S.; Liao, J.-X.; Tu, Y.-H.; Zhang, Q.-J.; Sun, J.-S., Total Synthesis and Structural Revision of Rebaudioside S, a Steviol Glycoside. J. Org. Chem. 2020,85 (24), 15857-15871.

4. Wang, L.; Zhang, Y.; Overkleeft, H. S.; van der Marel, G. A.; Codée, J. D. C., Reagent Controlled Glycosylations for the Assembly of Well-Defined Pel Oligosaccharides. J. Org. Chem. 2020.

5. Wang, L.; Berni, F.; Enotarpi, J.; Overkleeft, H. S.; van der Marel, G.; Codee, J. D. C., Reagent controlled stereoselective synthesis of teichoic acid alpha-(1,2)-glucans. Org. Biomol. Chem. 2020,18 (11), 2038-2050.

6. Zhang, Q.; Gimeno, A.; Santana, D.; Wang, Z.; Valdes-Balbin, Y.; Rodriguez-Noda, L. M.; Hansen, T.; Kong, L.; Shen, M.; Overkleeft, H. S.; Verez-Bencomo, V.; van der Marel, G. A.; Jimenez-Barbero, J.; Chiodo, F.; Codee, J. D. C., Synthetic, Zwitterionic Sp1 Oligosaccharides Adopt a Helical Structure Crucial for Antibody Interaction. Acs Cent. Sci. 2019,5 (8), 1407-1416.

7. Wang, S.; Zhang, Q.; Zhao, Y.; Sun, J.; Kang, W.; Wang, F.; Pan, H.; Tang, G.; Yu, B., The Miharamycins and Amipurimycin: their Structural Revision and the Total Synthesis of the Latter. Angew.Chem. Int. Ed. 2019,58 (31), 10558-10562.

8. Wang, L.; Overkleeft, H. S.; van der Marel, G. A.; Codee, J. D. C., Reagent Controlled Stereoselective Assembly of alpha-(1,3)-Glucans. European. J. Org. Chem. 2019,2019 (10), 1994-2003.

9. Wang, S.; Sun, J.; Zhang, Q.; Cao, X.; Zhao, Y.; Tang, G.; Yu, B., Amipurimycin: Total Synthesis of the Proposed Structures and Diastereoisomers. Angew.Chem. Int. Ed. 2018,57 (11), 2884-2888.

10. Wang, L.; Overkleeft, H. S.; van der Marel, G. A.; Codee, J. D. C., Reagent Controlled Stereoselective Synthesis of alpha-Glucans. J. Am. Chem. Soc. 2018,140 (13), 4632-4638.

11. Zhang, Q.; Overkleeft, H. S.; van der Marel, G. A.; Codee, J. D. C., Synthetic zwitterionic polysaccharides. Current Opinion in Chemical Biology 2017,40, 95-101.

12. Zhang, Q.; Howell, P. L.; Overkleeft, H. S.; Filippov, D. V.; van der Marel, G. A.; Codee, J. D. C., Chemical synthesis of guanosine diphosphate mannuronic acid (GDPManA) and its C-4-O-methyl and C-4-deoxy congeners. Carbohydr. Res. 2017,450, 12-18.

13. Hagen, B.; van Dijk, J. H. M.; Zhang, Q.; Overkleeft, H. S.; van der Marel, G. A.; Codee, J. D. C., Synthesis of the Staphylococcus aureus Strain M Capsular Polysaccharide Repeating Unit. Org. Lett. 2017,19 (10), 2514-2517.

14. Zhang, Q.; van Rijssel, E. R.; Overkleeft, H. S.; van der Marel, G. A.; Codee, J. D. C., On the Reactivity of Gulose and Guluronic Acid Building Blocks in the Context of Alginate Assembly. European. J. Org. Chem. 2016,2016 (14), 2393-2397.

15. Zhang, Q.; van Rijssel, E. R.; Walvoort, M. T. C.; Overkleeft, H. S.; van der Marel, G. A.; Codee, J. D. C., Acceptor Reactivity in the Total Synthesis of Alginate Fragments Containing -L-Guluronic Acid and -D-Mannuronic Acid. Angew.Chem. Int. Ed. 2015,54 (26), 7670-7673.

16. Zhang, F.; Wu, X.; Wang, L.; Liu, H.; Zhao, Y., General and efficient one-pot synthesis of novel sugar/heterocyclic(aryl) 1,2-diketones from sugar terminal alkynes by Sonogashira/tetra-n- butylammonium permanganate oxidation. Carbohydr. Res. 2015,417, 41-51.

17. Zhang, F.; Xi, Y.; Lu, Y.; Wang, L.; Liu, L.; Li, J.; Zhao, Y., Novel syntheses of aryl quinoxaline C-nucleoside analogs by mild and efficient three-component sequential reactions. Chem. Commun. 2014,50 (43), 5771-3.

18. Zhang, F.; Wang, L.; Zhang, C.; Zhao, Y., Novel regio- and stereoselective phosphonyl radical addition to glycals promoted by Mn(II)-air: syntheses of 1,2-dideoxy 2-C-diphenylphosphinylglycopyranosides. Chem. Commun. 2014,50 (16), 2046-8.

19. Zhang, F.; Mu, D.; Wang, L.; Du, P.; Han, F.; Zhao, Y., Synthesis of substituted mono- and diindole C-nucleoside analogues from sugar terminal alkynes by sequential sonogashira/heteroannulation reaction. J. Org. Chem. 2014,79 (20), 9490-9.

20. Zhang, Q.; Sun, J.; Zhu, Y.; Zhang, F.; Yu, B., An Efficient Approach to the Synthesis of Nucleosides: Gold(I)-Catalyzed N-Glycosylation of Pyrimidines and Purines with Glycosyl ortho-Alkynyl Benzoates. Angew.Chem. Int. Ed. 2011,50 (21), 4933-4936.

21. Zhang, Q.; Sun, J.; Zhang, F.; Yu, B., Synthesis of Sugar-Fused Isoxazoline N-Oxides from 2-Nitroglycals. European. J. Org. Chem. 2010,2010 (19), 3579-3582.

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