Sandström, Corine
- Institutionen för molekylära vetenskaper, Sveriges lantbruksuniversitet
Forskningsartikel2004Vetenskapligt granskad
Sandstrom C, Berteau O, Gemma E, Oscarson S, Kenne L, Gronenborn AM
The minimum oligosaccharide structure required for binding to the potent HIV-inactivating protein cyanovirin-N (CV-N) was determined by saturation-transfer difference (STD) NMR spectroscopy. Despite the low molecular mass of the protein (11 kDa), STD-NMR spectroscopy allowed the precise atomic mapping of the interactions between CV-N and various di- and trimannosides, substructures of Man-9, the predominant oligosaccharide on the HIV viral surface glycoprotein gp120. Contacts with mannosides containing the terminal Manalpha(1-->2)Manalpha unit of Man-9 were observed, while (1-->3)- and (1-6)-linked di- and trimannosides showed no interactions, demonstrating that the terminal Maalpha(1-->2)Manalpha structure plays a key role in the interaction. Precise epitope mapping revealed that, for Manalpha(1-->2)ManalphaOMe, Manalpha(1-->2)Manalpha(1-->3)ManalphaOMe, and Manalpha(1-->2)Manalpha(1-->6)ManalphaOMe, the protein is in close contact with H2, H3, and H4 of the nonreducing terminal mannose unit. In contrast, the STD-NMR spectrum of the CV-N/trisaccharide Manalpha(1-->2)Manalpha(1-->2)ManalphaOMe complex was markedly different, with resonances on all sugar units displaying equal enhancements, suggesting that CV-N is able to discriminate between the three structurally related trisaccharides
Biochemistry
2004, Volym: 43, nummer: 44, sidor: 13926-13931
Utgivare: AMER CHEMICAL SOC
DOI: https://doi.org/10.1021/bi048676k
https://res.slu.se/id/publ/3147