2008
DOI: 10.1007/s10719-008-9141-9
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Ab initio fragment molecular orbital studies of influenza virus hemagglutinin–sialosaccharide complexes toward chemical clarification about the virus host range determination

Abstract: If we predict the host range of new or mutant influenza virus in advance, we are able to measure against pandemic human influenza immediately after the new virus emerges somewhere. Influenza viral hemagglutinin(HA)-sialoside receptor interaction is a target event for in silico chemical prediction studies about the virus host range determination. We theoretically studied avian and human influenza A virus HA H3 subtype complexed with avian or human type receptor Neu5Acα(2-3 or 2-6)Gal analogues by ab initio frag… Show more

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Cited by 28 publications
(40 citation statements)
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“…In 2006, the first trial study was performed at the FMOHartree-Fock (HF)/STO-3G level in the gas phase small model of HA-sialoside complexes (70 amino acid residues, about 1100 atoms) to find the key amino acid residue on the selective binding of HA subtype H3 to the sialosides [51]. In 2008, the small model complexes in gas phase were restudied correctly by the FMO method at the second-order Møller-Plesset perturbation theory (MP2) [52,53] with the 6-31G basis sets [54]. The full HA1 domain of human viral H3 in complex with the human-type sialoside Neu5Ac2-6Gal (328 amino acid residues, 5068 atoms) was studied in gas phase at the FMO-HF/STO-3G level in 2007 [55], at the FMO-MP2/6-31G level in 2009 [56], that demanded the consideration of the backyard bulkiness beyond the sialoside binding site.…”
Section: The Fragment Molecular Orbital Study Of the Influenza Hemaggmentioning
confidence: 99%
“…In 2006, the first trial study was performed at the FMOHartree-Fock (HF)/STO-3G level in the gas phase small model of HA-sialoside complexes (70 amino acid residues, about 1100 atoms) to find the key amino acid residue on the selective binding of HA subtype H3 to the sialosides [51]. In 2008, the small model complexes in gas phase were restudied correctly by the FMO method at the second-order Møller-Plesset perturbation theory (MP2) [52,53] with the 6-31G basis sets [54]. The full HA1 domain of human viral H3 in complex with the human-type sialoside Neu5Ac2-6Gal (328 amino acid residues, 5068 atoms) was studied in gas phase at the FMO-HF/STO-3G level in 2007 [55], at the FMO-MP2/6-31G level in 2009 [56], that demanded the consideration of the backyard bulkiness beyond the sialoside binding site.…”
Section: The Fragment Molecular Orbital Study Of the Influenza Hemaggmentioning
confidence: 99%
“…Binding energy and interactions between a single mutation Q226L of avian H3 and SA--2,3-Gal or SA--2,6-Gal were studied by Sawada and coworkers [24][25][26]. By comparing the binding energy based ab initio FMO method, the avian Q226 H3 bound to avian-type receptor stronger than that observed in human-type analogue (by 8.2 kcal•mol -1 at FMO-HF/STO-3G or ~15-16 kcal•mol -1 at FMO-MP2/6-31G).…”
Section: Ha-receptor Binding Specificitymentioning
confidence: 99%
“…The FMO method has been applied to a number of large systems. [53][54][55][56][57][58][59][60][61][62][63][64][65][66] FMO-MD has been used [67][68][69][70][71][72][73][74][75][76][77][78] to study the dynamics of various processes such as chemical reactions. However, the FMO-MD method suffers from an accumulation of errors 67 with the time evolution due to an incomplete analytic FMO energy gradient.…”
Section: Introductionmentioning
confidence: 99%