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Emarn Heshmati

Elahe K. Astani, Emran Heshmati, Chun-Jung Chen, Nasser L. Hadipour    
A theoretical study on the characteristics of the intermolecular interactions in the active site of human androsterone sulphotransferase: DFT calculations of NQR and NMR parameters and QTAIM analysis  
بررسی نظری ویژگی های برهمکنش بین مولکولی در جایگاه فعال آندسترن سولفوتراسفراز انسانی: محاسبات DFT پارامترهای NQR و NMR و نحلیل QTIME  
Abstract


A theoretical study at the level of density functional theory (DFT) was performed to characterize noncovalent intermolecular interactions, especially hydrogen bond interactions, in the active site of enzyme human androsterone sulphotransferase (SULT2A1/ADT). Geometry optimization, interaction energy, 2H, 14N, and 17O electric field gradient (EFG) tensors, 1H, 13C, 17O, and 15N chemical shielding (CS) tensors, Natural Bonding Orbital (NBO) analysis, and quantum theory of atoms in molecules (QTAIM) analysis of this active site were investigated. It was found that androsterone (ADT) is able to form hydrogen bonds with residues Ser80, Ile82, and His99 of the active site. The interaction energy calculations and NBO analysis revealed that the ADT molecule forms the strongest hydrogen bond with Ser80. Results revealed that ADT interacts with the other residues through electrostatic and Van der Waals interactions. Results showed that these hydrogen bonds influence on the calculated 2H, 14N, and 17O quadrupole coupling constants (QCCs), as well as 1H, 13C, 17O, and 15N CS tensors. The magnitude of the QCC and CS changes at each nucleus depends directly on its amount of contribution to the hydrogen bond interaction.  

 

 

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