| Record Information |
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| Version | 2.0 |
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| Created at | 2022-09-10 22:17:38 UTC |
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| Updated at | 2022-09-10 22:17:38 UTC |
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| NP-MRD ID | NP0306052 |
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| Secondary Accession Numbers | None |
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| Natural Product Identification |
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| Common Name | [(1s,3r,6s,8s,10s)-8-hydroxy-3-methyl-5-oxo-2,9-dioxatricyclo[4.3.1.0³,⁸]decan-10-yl]methyl benzoate |
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| Description | Paeoniflorigenone belongs to the class of organic compounds known as benzoic acid esters. These are ester derivatives of benzoic acid. [(1s,3r,6s,8s,10s)-8-hydroxy-3-methyl-5-oxo-2,9-dioxatricyclo[4.3.1.0³,⁸]decan-10-yl]methyl benzoate is found in Paeonia rockii. [(1s,3r,6s,8s,10s)-8-hydroxy-3-methyl-5-oxo-2,9-dioxatricyclo[4.3.1.0³,⁸]decan-10-yl]methyl benzoate was first documented in 2017 (PMID: 28317437). Based on a literature review a small amount of articles have been published on Paeoniflorigenone (PMID: 35496313) (PMID: 35051602) (PMID: 34665368) (PMID: 30836860). |
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| Structure | C[C@@]12CC(=O)[C@H]3C[C@]1(O)O[C@H](O2)[C@@H]3COC(=O)C1=CC=CC=C1 InChI=1S/C17H18O6/c1-16-8-13(18)11-7-17(16,20)23-15(22-16)12(11)9-21-14(19)10-5-3-2-4-6-10/h2-6,11-12,15,20H,7-9H2,1H3/t11-,12+,15-,16+,17-/m0/s1 |
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| Synonyms | Not Available |
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| Chemical Formula | C17H18O6 |
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| Average Mass | 318.3250 Da |
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| Monoisotopic Mass | 318.11034 Da |
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| IUPAC Name | Not Available |
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| Traditional Name | Not Available |
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| CAS Registry Number | Not Available |
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| SMILES | C[C@@]12CC(=O)[C@H]3C[C@]1(O)O[C@H](O2)[C@@H]3COC(=O)C1=CC=CC=C1 |
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| InChI Identifier | InChI=1S/C17H18O6/c1-16-8-13(18)11-7-17(16,20)23-15(22-16)12(11)9-21-14(19)10-5-3-2-4-6-10/h2-6,11-12,15,20H,7-9H2,1H3/t11-,12+,15-,16+,17-/m0/s1 |
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| InChI Key | BANPEMKDTXIFRE-GMKCAIKYSA-N |
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| Experimental Spectra |
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| Not Available | | Predicted Spectra |
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| | Spectrum Type | Description | Depositor ID | Depositor Organization | Depositor | Deposition Date | View |
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| 1D NMR | 13C NMR Spectrum (1D, 25 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 1H NMR Spectrum (1D, 100 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 13C NMR Spectrum (1D, 252 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 1H NMR Spectrum (1D, 1000 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 13C NMR Spectrum (1D, 50 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 1H NMR Spectrum (1D, 200 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 13C NMR Spectrum (1D, 75 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 1H NMR Spectrum (1D, 300 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 13C NMR Spectrum (1D, 101 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 1H NMR Spectrum (1D, 400 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 13C NMR Spectrum (1D, 126 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 1H NMR Spectrum (1D, 500 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 13C NMR Spectrum (1D, 151 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 1H NMR Spectrum (1D, 600 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 13C NMR Spectrum (1D, 176 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 1H NMR Spectrum (1D, 700 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 13C NMR Spectrum (1D, 201 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 1H NMR Spectrum (1D, 800 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 13C NMR Spectrum (1D, 226 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum | | 1D NMR | 1H NMR Spectrum (1D, 900 MHz, H2O, predicted) | Wishart Lab | Wishart Lab | David Wishart | 2021-06-20 | View Spectrum |
| | Chemical Shift Submissions |
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| Not Available | | Species |
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| Species of Origin | |
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| Chemical Taxonomy |
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| Description | Belongs to the class of organic compounds known as benzoic acid esters. These are ester derivatives of benzoic acid. |
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| Kingdom | Organic compounds |
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| Super Class | Benzenoids |
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| Class | Benzene and substituted derivatives |
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| Sub Class | Benzoic acids and derivatives |
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| Direct Parent | Benzoic acid esters |
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| Alternative Parents | |
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| Substituents | - Benzoate ester
- Benzoyl
- Oxepane
- Oxane
- Meta-dioxolane
- Cyclic alcohol
- Carboxylic acid ester
- Hemiacetal
- Ketone
- Acetal
- Carboxylic acid derivative
- Oxacycle
- Organoheterocyclic compound
- Monocarboxylic acid or derivatives
- Carbonyl group
- Organic oxygen compound
- Organic oxide
- Organooxygen compound
- Hydrocarbon derivative
- Aromatic heteropolycyclic compound
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| Molecular Framework | Aromatic heteropolycyclic compounds |
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| External Descriptors | Not Available |
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| Physical Properties |
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| State | Not Available |
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| Experimental Properties | | Property | Value | Reference |
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| Melting Point | Not Available | Not Available | | Boiling Point | Not Available | Not Available | | Water Solubility | Not Available | Not Available | | LogP | Not Available | Not Available |
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| Predicted Properties | |
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| General References | - Li T, Wu F, Zhang A, Dong H, Ullah I, Lin H, Miao J, Sun H, Han Y, He Y, Wang X: High-Throughput Chinmedomics Strategy Discovers the Quality Markers and Mechanisms of Wutou Decoction Therapeutic for Rheumatoid Arthritis. Front Pharmacol. 2022 Apr 12;13:854087. doi: 10.3389/fphar.2022.854087. eCollection 2022. [PubMed:35496313 ]
- Park KR, Lee H, Kim SH, Yun HM: Paeoniflorigenone regulates apoptosis, autophagy, and necroptosis to induce anti-cancer bioactivities in human head and neck squamous cell carcinomas. J Ethnopharmacol. 2022 Apr 24;288:115000. doi: 10.1016/j.jep.2022.115000. Epub 2022 Jan 17. [PubMed:35051602 ]
- Zhang J, Zhuge Y, Rong X, Ni C, Niu C, Wen Z, Lin H, Chu M, Jia C: Protective Roles of Xijiao Dihuang Tang on Coronary Artery Injury in Kawasaki Disease. Cardiovasc Drugs Ther. 2023 Apr;37(2):257-270. doi: 10.1007/s10557-021-07277-w. Epub 2021 Oct 19. [PubMed:34665368 ]
- Huang Y, Ohno O, Miyamoto K: PFG acted as an inducer of premature senescence in TIG-1 normal diploid fibroblast and an inhibitor of mitosis in the HeLa cells. Biosci Biotechnol Biochem. 2019 Jun;83(6):986-995. doi: 10.1080/09168451.2019.1585744. Epub 2019 Mar 5. [PubMed:30836860 ]
- Huang Y, Ohno O, Suenaga K, Miyamoto K: Apoptosis-inducing activity and antiproliferative effect of Paeoniflorigenone from moutan cortex. Biosci Biotechnol Biochem. 2017 Jun;81(6):1106-1113. doi: 10.1080/09168451.2017.1300517. Epub 2017 Mar 20. [PubMed:28317437 ]
- LOTUS database [Link]
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