Proton chemical shifts in NMR: Part 17. Chemical shifts in alkenes and anisotropic and steric effects of the double bond

Abraham, Raymond J.; Canton, Marcos; Griffiths, Lee

doi:10.1002/mrc.862

Cited by 42 publications

(48 citation statements)

References 34 publications

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“…The carbon resonances of the methyl groups are clearly different from each other and we have assigned 12 a-CH 3 (cis) as the more downfield signal at 25.72 ppm and 12 b-CH 3 (trans) to the signal at 17.7 ppm. [29] This is supported by the presence of a correlation between 12 a-CH 3 and H10 and the lack of such for 12 b-CH 3 .…”

Section: Assignment Of the Side Chainmentioning

confidence: 56%

Assignment of the ¹H and ¹³C NMR of tocotrienols

Ohnmacht

West

Simionescu

et al. 2008

Magnetic Reson in Chemistry

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Vitamin E is a family of chromanols that vary by the degree of methylation of the chroman ring as well as the nature of the hydrophobic side chain at C2 that serves to anchor these lipids in biological membranes. The tocopherols contain saturated side chains, whereas the tocotrienols contain three sites of unsaturation and are derived from geranylgeranyl diphosphate. A growing interest in the unique biological activities of the tocotrienols has led us to begin syntheses of isotopically substituted forms and other derivatives that will be useful for probing the metabolism and membrane behavior of the tocotrienols. In order to be certain of our ability to selectively modify sites on the parent molecules it was necessary to make as complete an assignment of the 1H and 13C NMR as possible. Herein we report multidimensional NMR data (HSQC, COSY, ADEQUATE(1,1), C--H HMBC, and NOESY) that have allowed us to assign the identity of almost all the resonances for alpha-, beta-, gamma-, and delta-tocotrienol.

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Section: Assignment Of the Side Chainmentioning

confidence: 56%

Assignment of the ¹H and ¹³C NMR of tocotrienols

Ohnmacht

West

Simionescu

et al. 2008

Magnetic Reson in Chemistry

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“…, regioisomers) frequently exhibit substantial differences in chemical shifts ( δ ) due to differences in the nuclei’s local electronic and, therefore, magnetic environments. 2–4 In addition, different spin-coupled systems commonly exhibit different signal splitting patterns. In the case of diastereomers, changes in relative configurations give rise to substituent-induced chemical shift effects.…”

Section: Introductionmentioning

confidence: 99%

HiFSA Fingerprinting Applied to Isomers with Near-Identical NMR Spectra: The Silybin/Isosilybin Case

et al. 2013

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This study demonstrates how regio- and diastereo-isomers with near-identical NMR spectra can be distinguished and unambiguously assigned using quantum mechanical driven, 1H iterative Full Spin Analysis (HiFSA). The method is illustrated with four natural products, the flavonolignans silybin A, silybin B, isosilybin A, and isosilybin B, which exhibit extremely similar coupling patterns and chemical shift differences well below the commonly reported level of accuracy of 0.01 ppm. The HiFSA approach generated highly reproducible 1H NMR fingerprints that enable distinction of all four isomers at 1H frequencies from 300 to 900 MHz. Furthermore, it is demonstrated that the underlying numeric 1H NMR profiles, combined with iterative computational analysis, allow parallel quantification of all four isomers, even in difficult to characterize reference materials and mixtures. The results shed new light on the historical challenges to the qualitative and quantitative analysis of these therapeutically relevant flavonolignans and open new opportunities to explore hidden diversity in the chemical space of organic molecules.

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“…[46] At this stage, we anticipated that stereoselective dihydroxylation of the C-23, C-24 olefin could be achieved by utilising the well-known Sharpless asymmetric dihydroxylation (SAD) methodology, [47] despite the moderate enantioselectivities reported with cis alkenes. [48][49][50] However, when alkene 37 was subjected to typical dihydroxylation conditions, there was no detectable diol formation even after one week.…”

mentioning

confidence: 99%

The Truth about False Unicorn (Chamaelirium luteum): Total Synthesis of 23R,24S‐Chiograsterol B Defines the Structure and Stereochemistry of the Major Saponins from this Medicinal Herb

Matovic

Stuthe

Challinor

et al. 2011

Chemistry A European J

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Chamaelirium luteum is used in traditional medicine systems and commercial botanical dietary supplements for the treatment of female reproductive health problems. Despite the wide use of this herb, only very limited phytochemical characterisation is available. Our investigation of C. luteum roots led to the isolation of two new steroidal saponins 1 and 2 that contain an unusual aglycone 3. The absolute configurations of these molecules were unable to be determined spectroscopically and thus the total synthesis of 3 was undertaken and achieved in 16 steps and 1.6 % overall yield from pregnenolone. The key step in the synthesis was the stereoselective installation of the side chain at C-17 and C-20, which employed anion-accelerated oxy-Cope methodology. The relative configuration of aglycone 3 was determined by X-ray crystallography of an advanced synthetic intermediate. The absolute configuration was based upon that of the pregnenolone-derived steroidal skeleton and determined to be 23R,24S.

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Proton chemical shifts in NMR: Part 17. Chemical shifts in alkenes and anisotropic and steric effects of the double bond

Cited by 42 publications

References 34 publications

Assignment of the ¹H and ¹³C NMR of tocotrienols

Assignment of the ¹H and ¹³C NMR of tocotrienols

HiFSA Fingerprinting Applied to Isomers with Near-Identical NMR Spectra: The Silybin/Isosilybin Case

The Truth about False Unicorn (Chamaelirium luteum): Total Synthesis of 23R,24S‐Chiograsterol B Defines the Structure and Stereochemistry of the Major Saponins from this Medicinal Herb

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Proton chemical shifts in NMR: Part 17. Chemical shifts in alkenes and anisotropic and steric effects of the double bond

Cited by 42 publications

References 34 publications

Assignment of the 1H and 13C NMR of tocotrienols

Assignment of the 1H and 13C NMR of tocotrienols

HiFSA Fingerprinting Applied to Isomers with Near-Identical NMR Spectra: The Silybin/Isosilybin Case

The Truth about False Unicorn (Chamaelirium luteum): Total Synthesis of 23R,24S‐Chiograsterol B Defines the Structure and Stereochemistry of the Major Saponins from this Medicinal Herb

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Assignment of the ¹H and ¹³C NMR of tocotrienols

Assignment of the ¹H and ¹³C NMR of tocotrienols