3-Sphere, a hypersphere in 4 dimensions approach, applied for calculating stereochemical parameters of iminocyclitol 1 – 5 with Hopf fibration and Lie algebra is described. Three angles have been considered, i.e. dihedral θHnHn+1 [deg] – tetrahedral φCn [deg] – phase angle of the pseudorotation P [deg] calculated from NMR data, vicinal coupling constant 3JHH [Hz] and carbon chemical shift δC [ppm]. This approach gave for 1-α-methyl-1,4-imino-1,4-dideoxy-D-ribitol 2 two conformers E3 and 3T2 having different dihedral θHnHn+1 [deg] and tetrahedral φCn [deg] angles with same vicinal angles ϕ [deg]. Notably, phase angle of pseudorotation P [deg] placed the conformations on the south side for D-ribitols 1 - 3 and on the north side for L-ribitol 4, excepting trifluoroacetate salt of L-ribitol 5. The wave character of NMR data introduced few homotopic switches, the transformation from torus to inverse of torus, the relationship between angles of set A and set B, the transformation from Planck constants h to h-bar, along with the transformation from Joule to Calorie (J 4.1868 ⇆ J-1 0.238). Two methods for calculation of tetrahedral angles φCn [deg], energy-graph and Euler conic with two ways for representing the angles, polyhedron and unit models are analyzed. The conformational parameters, phase angle of the pseudorotation P [deg] established with VISION molecular model and exocyclic 3-Sphere dihedral angles θHnHn+1 [deg] relative to endocyclic torsional angles θn,n+1 [deg] from Altona-Sundaralingan model have been evaluated. In addition, the corresponding angle of deviation from planarity θm [deg] has been determined.
| Published in | Science Journal of Chemistry (Volume 14, Issue 1) |
| DOI | 10.11648/j.sjc.20261401.11 |
| Page(s) | 1-11 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
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Copyright © The Author(s), 2026. Published by Science Publishing Group |
3-Sphere, Dihedral Angles, Vicinal Angles, Vicinal Coupling Constant, Tetrahedral Angles, Phase Angle of the Pseudorotation, Angle of Deviation from Planarity, Conformational Analysis, Iminocyclitols
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APA Style
Mitan, C., Bartha, E., Filip, P., Dragutan, V., Dragutan, I., et al. (2026). 3-Spherical Conformational Insights into Iminocyclitols with 1-α-D-Ribose and 1-β-L-Ribose Stereochemistry Under Homotopic Behaviour of Nuclear Magnetic Resonance Data. Science Journal of Chemistry, 14(1), 1-11. https://doi.org/10.11648/j.sjc.20261401.11
ACS Style
Mitan, C.; Bartha, E.; Filip, P.; Dragutan, V.; Dragutan, I., et al. 3-Spherical Conformational Insights into Iminocyclitols with 1-α-D-Ribose and 1-β-L-Ribose Stereochemistry Under Homotopic Behaviour of Nuclear Magnetic Resonance Data. Sci. J. Chem. 2026, 14(1), 1-11. doi: 10.11648/j.sjc.20261401.11
AMA Style
Mitan C, Bartha E, Filip P, Dragutan V, Dragutan I, et al. 3-Spherical Conformational Insights into Iminocyclitols with 1-α-D-Ribose and 1-β-L-Ribose Stereochemistry Under Homotopic Behaviour of Nuclear Magnetic Resonance Data. Sci J Chem. 2026;14(1):1-11. doi: 10.11648/j.sjc.20261401.11
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Download@article{10.11648/j.sjc.20261401.11,
author = {Carmen-Irena Mitan and Emerich Bartha and Petru Filip and Valeriu Dragutan and Ileana Dragutan and Calin Deleanu and Constantin Draghici and Miron-Teodor Caproiu and Robert Michael Moriarty},
title = {3-Spherical Conformational Insights into Iminocyclitols with 1-α-D-Ribose and 1-β-L-Ribose Stereochemistry Under Homotopic Behaviour of Nuclear Magnetic Resonance Data},
journal = {Science Journal of Chemistry},
volume = {14},
number = {1},
pages = {1-11},
doi = {10.11648/j.sjc.20261401.11},
url = {https://doi.org/10.11648/j.sjc.20261401.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.sjc.20261401.11},
abstract = {3-Sphere, a hypersphere in 4 dimensions approach, applied for calculating stereochemical parameters of iminocyclitol 1 – 5 with Hopf fibration and Lie algebra is described. Three angles have been considered, i.e. dihedral θHnHn+1 [deg] – tetrahedral φCn [deg] – phase angle of the pseudorotation P [deg] calculated from NMR data, vicinal coupling constant 3JHH [Hz] and carbon chemical shift δC [ppm]. This approach gave for 1-α-methyl-1,4-imino-1,4-dideoxy-D-ribitol 2 two conformers E3 and 3T2 having different dihedral θHnHn+1 [deg] and tetrahedral φCn [deg] angles with same vicinal angles ϕ [deg]. Notably, phase angle of pseudorotation P [deg] placed the conformations on the south side for D-ribitols 1 - 3 and on the north side for L-ribitol 4, excepting trifluoroacetate salt of L-ribitol 5. The wave character of NMR data introduced few homotopic switches, the transformation from torus to inverse of torus, the relationship between angles of set A and set B, the transformation from Planck constants h to h-bar, along with the transformation from Joule to Calorie (J 4.1868 ⇆ J-1 0.238). Two methods for calculation of tetrahedral angles φCn [deg], energy-graph and Euler conic with two ways for representing the angles, polyhedron and unit models are analyzed. The conformational parameters, phase angle of the pseudorotation P [deg] established with VISION molecular model and exocyclic 3-Sphere dihedral angles θHnHn+1 [deg] relative to endocyclic torsional angles θn,n+1 [deg] from Altona-Sundaralingan model have been evaluated. In addition, the corresponding angle of deviation from planarity θm [deg] has been determined.},
year = {2026}
}
TY - JOUR T1 - 3-Spherical Conformational Insights into Iminocyclitols with 1-α-D-Ribose and 1-β-L-Ribose Stereochemistry Under Homotopic Behaviour of Nuclear Magnetic Resonance Data AU - Carmen-Irena Mitan AU - Emerich Bartha AU - Petru Filip AU - Valeriu Dragutan AU - Ileana Dragutan AU - Calin Deleanu AU - Constantin Draghici AU - Miron-Teodor Caproiu AU - Robert Michael Moriarty Y1 - 2026/02/02 PY - 2026 N1 - https://doi.org/10.11648/j.sjc.20261401.11 DO - 10.11648/j.sjc.20261401.11 T2 - Science Journal of Chemistry JF - Science Journal of Chemistry JO - Science Journal of Chemistry SP - 1 EP - 11 PB - Science Publishing Group SN - 2330-099X UR - https://doi.org/10.11648/j.sjc.20261401.11 AB - 3-Sphere, a hypersphere in 4 dimensions approach, applied for calculating stereochemical parameters of iminocyclitol 1 – 5 with Hopf fibration and Lie algebra is described. Three angles have been considered, i.e. dihedral θHnHn+1 [deg] – tetrahedral φCn [deg] – phase angle of the pseudorotation P [deg] calculated from NMR data, vicinal coupling constant 3JHH [Hz] and carbon chemical shift δC [ppm]. This approach gave for 1-α-methyl-1,4-imino-1,4-dideoxy-D-ribitol 2 two conformers E3 and 3T2 having different dihedral θHnHn+1 [deg] and tetrahedral φCn [deg] angles with same vicinal angles ϕ [deg]. Notably, phase angle of pseudorotation P [deg] placed the conformations on the south side for D-ribitols 1 - 3 and on the north side for L-ribitol 4, excepting trifluoroacetate salt of L-ribitol 5. The wave character of NMR data introduced few homotopic switches, the transformation from torus to inverse of torus, the relationship between angles of set A and set B, the transformation from Planck constants h to h-bar, along with the transformation from Joule to Calorie (J 4.1868 ⇆ J-1 0.238). Two methods for calculation of tetrahedral angles φCn [deg], energy-graph and Euler conic with two ways for representing the angles, polyhedron and unit models are analyzed. The conformational parameters, phase angle of the pseudorotation P [deg] established with VISION molecular model and exocyclic 3-Sphere dihedral angles θHnHn+1 [deg] relative to endocyclic torsional angles θn,n+1 [deg] from Altona-Sundaralingan model have been evaluated. In addition, the corresponding angle of deviation from planarity θm [deg] has been determined. VL - 14 IS - 1 ER -
Department of Organic Chemistry, “C. D. Nenitescu” Institute of Organic and Supramolecular Chemistry of Roumanian Academy, Bucharest, Romania
Department of Organic Chemistry, “C. D. Nenitescu” Institute of Organic and Supramolecular Chemistry of Roumanian Academy, Bucharest, Romania
Department of Organic Chemistry, “C. D. Nenitescu” Institute of Organic and Supramolecular Chemistry of Roumanian Academy, Bucharest, Romania
Department of Organic Chemistry, “C. D. Nenitescu” Institute of Organic and Supramolecular Chemistry of Roumanian Academy, Bucharest, Romania
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