Record Information |
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Version | 1.0 |
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Created at | 2022-09-09 16:11:36 UTC |
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Updated at | 2022-09-09 16:11:36 UTC |
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NP-MRD ID | NP0287222 |
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Secondary Accession Numbers | None |
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Natural Product Identification |
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Common Name | 2-[(1e,3s,4s,5e)-3,4-dihydroxyhepta-1,5-dien-1-yl]-6-hydroxybenzaldehyde |
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Description | Epipyriculol belongs to the class of organic compounds known as cinnamyl alcohols. These are aromatic alcohols containing a 3-phenylprop-2-en-1-ol moiety. 2-[(1e,3s,4s,5e)-3,4-dihydroxyhepta-1,5-dien-1-yl]-6-hydroxybenzaldehyde is found in Pyricularia grisea and Pyricularia oryzae. It was first documented in 2017 (PMID: 28902437). Based on a literature review a significant number of articles have been published on Epipyriculol (PMID: 36113990) (PMID: 36113989) (PMID: 36113988) (PMID: 36113987). |
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Structure | C\C=C\[C@H](O)[C@@H](O)\C=C\C1=CC=CC(O)=C1C=O InChI=1S/C14H16O4/c1-2-4-13(17)14(18)8-7-10-5-3-6-12(16)11(10)9-15/h2-9,13-14,16-18H,1H3/b4-2+,8-7+/t13-,14-/m0/s1 |
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Synonyms | Not Available |
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Chemical Formula | C14H16O4 |
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Average Mass | 248.2780 Da |
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Monoisotopic Mass | 248.10486 Da |
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IUPAC Name | 2-[(1E,3S,4S,5E)-3,4-dihydroxyhepta-1,5-dien-1-yl]-6-hydroxybenzaldehyde |
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Traditional Name | 2-[(1E,3S,4S,5E)-3,4-dihydroxyhepta-1,5-dien-1-yl]-6-hydroxybenzaldehyde |
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CAS Registry Number | Not Available |
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SMILES | C\C=C\[C@H](O)[C@@H](O)\C=C\C1=CC=CC(O)=C1C=O |
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InChI Identifier | InChI=1S/C14H16O4/c1-2-4-13(17)14(18)8-7-10-5-3-6-12(16)11(10)9-15/h2-9,13-14,16-18H,1H3/b4-2+,8-7+/t13-,14-/m0/s1 |
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InChI Key | YUQDGJSYYKKISE-BUJAFJOKSA-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 cinnamyl alcohols. These are aromatic alcohols containing a 3-phenylprop-2-en-1-ol moiety. |
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Kingdom | Organic compounds |
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Super Class | Phenylpropanoids and polyketides |
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Class | Cinnamyl alcohols |
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Sub Class | Not Available |
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Direct Parent | Cinnamyl alcohols |
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Alternative Parents | |
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Substituents | - Cinnamyl alcohol
- Hydroxybenzaldehyde
- Benzaldehyde
- Benzoyl
- Styrene
- 1-hydroxy-4-unsubstituted benzenoid
- 1-hydroxy-2-unsubstituted benzenoid
- Phenol
- Aryl-aldehyde
- Monocyclic benzene moiety
- Benzenoid
- Vinylogous acid
- 1,2-diol
- Secondary alcohol
- Organooxygen compound
- Hydrocarbon derivative
- Organic oxide
- Organic oxygen compound
- Aldehyde
- Alcohol
- Aromatic homomonocyclic compound
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Molecular Framework | Aromatic homomonocyclic 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 | - Concha-Miranda M, Tang W, Hartmann K, Brecht M: Large-scale mapping of vocalization-related activity in the functionally diverse nuclei in rat posterior brainstem. J Neurosci. 2022 Sep 16. pii: JNEUROSCI.0813-22.2022. doi: 10.1523/JNEUROSCI.0813-22.2022. [PubMed:36113990 ]
- Kausto J, Gluschkoff K, Turunen J, Selinheimo S, Peutere L, Vaananen A: Psychotherapy and change in mental health-related work disability: a prospective Finnish population-level register-based study with a quasi-experimental design. J Epidemiol Community Health. 2022 Sep 16. pii: jech-2022-218941. doi: 10.1136/jech-2022-218941. [PubMed:36113989 ]
- Meulemans L, Baert Desurmont S, Waill MC, Castelain G, Killian A, Hauchard J, Frebourg T, Coulet F, Martins A, Muleris M, Gaildrat P: Comprehensive RNA and protein functional assessments contribute to the clinical interpretation of MSH2 variants causing in-frame splicing alterations. J Med Genet. 2022 Sep 16. pii: jmg-2022-108576. doi: 10.1136/jmg-2022-108576. [PubMed:36113988 ]
- Otsuji S, Nishio Y, Tsujita M, Rio M, Huber C, Anton-Plagaro C, Mizuno S, Kawano Y, Miyatake S, Simon M, van Binsbergen E, van Jaarsveld RH, Matsumoto N, Cormier-Daire V, J Cullen P, Saitoh S, Kato K: Clinical diversity and molecular mechanism of VPS35L-associated Ritscher-Schinzel syndrome. J Med Genet. 2022 Sep 16. pii: jmg-2022-108602. doi: 10.1136/jmg-2022-108602. [PubMed:36113987 ]
- Masi M, Meyer S, Gorecki M, Mandoli A, Di Bari L, Pescitelli G, Cimmino A, Cristofaro M, Clement S, Evidente A: Pyriculins A and B, two monosubstituted hex-4-ene-2,3-diols and other phytotoxic metabolites produced by Pyricularia grisea isolated from buffelgrass (Cenchrus ciliaris). Chirality. 2017 Nov;29(11):726-736. doi: 10.1002/chir.22744. Epub 2017 Sep 13. [PubMed:28902437 ]
- LOTUS database [Link]
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