Issue 42, 2020, Issue in Progress

An atomic resolution description of folic acid using solid state NMR measurements

Abstract

The chemical shift anisotropy tensor and site-specific spin-lattice relaxation time of folic acid were determined by a 13C 2DPASS CP-MAS NMR experiment and Torchia CP experiment respectively. The molecular correlation time at various carbon nuclei sites of folic acid was evaluated by assuming that the 13C spin-lattice relaxation mechanism is mainly governed by chemical shift anisotropy interaction and hetero-nuclear dipole–dipole coupling. CSA parameters are larger for the carbon nuclei residing at the heteroaromatic ring and aromatic ring, and those attached to double-bonded electronegative oxygen atoms. It is comparatively low for C9, C19, C21, and C22. The molecular correlation time is of the order of 10−4/10−5 s for C9, C19, C21 and C22 carbon nuclei, whereas it is of the order of 10−3 s for the rest of the carbon nuclei sites. Spin lattice relaxation time varies from 416 s to 816 s. For C23 and C14, the value is 816 s, and it is 416 s for C7 nuclei. The correlation between structure and dynamics on an atomic scale of such an important drug as folic acid can be visualized by these types of extensive spectroscopic measurements, which will help to develop an advanced drug for DNA replication.

Graphical abstract: An atomic resolution description of folic acid using solid state NMR measurements

Article information

Article type
Paper
Submitted
27 Apr 2020
Accepted
15 Jun 2020
First published
01 Jul 2020
This article is Open Access
Creative Commons BY license

RSC Adv., 2020,10, 24973-24984

An atomic resolution description of folic acid using solid state NMR measurements

M. Ghosh, S. Gayen and K. K. Dey, RSC Adv., 2020, 10, 24973 DOI: 10.1039/D0RA03772A

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