CNP0367056.0

2-[[7-hydroxy-1-(4-hydroxy-3,5-dimethoxy-phenyl)-3-(hydroxymethyl)-6,8-dimethoxy-tetralin-2-yl]methoxy]-6-methyl-tetrahydropyran-3,4,5-triol

Created on · Last update on

NPLikeness
NP Likeness Score: The likelihood of the compound to be a natural product, ranges from -5 (less likely) to 5 (very likely).
2.03
Annotation Level
☆ ☆ ☆ ☆
Mol. Weight
566.23633
Mol. Formula
C28H38O12

Representations

Molecular details

COCONUT id
CNP0367056.0
Name
-
IUPAC name
2-[[7-hydroxy-1-(4-hydroxy-3,5-dimethoxy-phenyl)-3-(hydroxymethyl)-6,8-dimethoxy-tetralin-2-yl]methoxy]-6-methyl-tetrahydropyran-3,4,5-triol
InChI
InChI=1S/C28H38O12/c1-12-22(30)25(33)26(34)28(40-12)39-11-16-15(10-29)6-13-7-19(37-4)24(32)27(38-5)21(13)20(16)14-8-17(35-2)23(31)18(9-14)36-3/h7-9,12,15-16,20,22,25-26,28-34H,6,10-11H2,1-5H3
InChIKey
MVVPJSSIOPWZBQ-UHFFFAOYSA-N
Canonical SMILES (RDKit)
COC1=CC(C2C3=C(OC)C(O)=C(OC)C=C3CC(CO)C2COC2OC(C)C(O)C(O)C2O)=CC(OC)=C1O
Murcko Framework
O1CCCCC1OCC2CCc3ccccc3C2c4ccccc4

Chemical classification

NP Classification

References

Citations

No citations

Collections

UNPD (Universal Natural Products Database)

The Universal Natural Products Database provides a comprehensive collection of natural product structures, their reported biological activities, and virtual screening results. This database offers valuable insights into the chemical diversity and potential pharmaceutical applications of natural compounds. Analysis reveals significant overlap between natural products and FDA-approved drugs in chemical space, suggesting a wealth of potential lead compounds for drug discovery. The database also highlights the polypharmacology of natural products, with many compounds demonstrating interactions with multiple target proteins. To complement existing experimental data, high-throughput virtual screening was conducted against a wide range of target proteins associated with FDA-approved drugs. This approach enabled predictions of the most promising natural products for drug discovery and their potential therapeutic indications. Overall, the Natural Products Database demonstrates that natural compounds possess vast chemical diversity, favourable drug-like properties, and the ability to interact with multiple cellular targets, making them a rich source for pharmaceutical research and development. License: No Licensing information (Cite paper)

10.71606/coconut.cnpc0050

CMAUP (cCollective molecular activities of useful plants)

CMAUP, the Collective Molecular Activities of Useful Plants database, provides comprehensive insights into the multi-target activities of diverse plant species. It details the collective landscapes of multiple targets, activity levels, and regulated biological pathways, processes, and diseases for over 5,000 plants. These landscapes are derived from extensive data on plant ingredients active against various targets. This freely accessible resource allows users to search and explore the complex interactions between plants and their biological effects, aiding mechanistic studies and expanding potential applications. License: If you use the database in your research, please cite: (https://bidd.group/CMAUP)

10.71606/coconut.cnpc0011

Australian natural products

The ongoing enhancement of the "Phytochemistry of Australian Plants" database, originally compiled by David Collins and Don McGilvery, represents a significant advancement in the field of natural product chemistry. This comprehensive resource now incorporates a wealth of information, including chemical structures, bibliographic references, and species names, all linked to persistent identifiers. These identifiers connect to the relevant scientific literature and the Atlas of Living Australia (ALA), providing users with access to detailed geographical distribution data. The current curation effort has substantially improved the database's utility and accessibility. Approximately 80% of the references now include DOIs, ISBNs, or ISSNs, ensuring easier location and verification of source materials. Furthermore, all species and genera entries are now associated with persistent identifiers linking to the ALA or other authoritative datasets. Notably, about 70% of the chemical structures have been validated and are presented in SMILES format, enhancing the database's value for computational chemistry and cheminformatics applications.

10.71606/coconut.cnpc0055

CMNPD

CMNPD, a comprehensive marine natural products database, has been developed to meet the growing need for accessible data resources in marine drug discovery. This open-access platform offers curated data on over 31,000 chemical entities, including their properties, biological activity, source organism information, and literature references. It functions as an integrated tool for various tasks, such as structure dereplication, lead compound discovery, data mining, and chemical ecology investigation. The database is freely available at [https://www.cmnpd.org](https://www.cmnpd.org) and aims to facilitate drug discovery from marine resources for both MNPs researchers and the broader scientific community.

10.71606/coconut.cnpc0062

NPASS

The NPASS natural product activity and species source database has been updated with significant enhancements to support drug discovery, medicinal plant research, and microbial investigations. This update expands the database's coverage of natural products (NPs), their activities against specific targets, and their composition in various species. The database now includes new data on composition and concentration values of NPs in different species, as well as extended information on NP activities against various targets. NPASS has also broadened its species source data, incorporating new types such as co-cultured and engineered microbes. Additionally, the update introduces estimated activity profiles for NPs without experimental data, utilizing the Chemical Checker tool. To further aid researchers, the database now provides computed drug-likeness properties and ADMET (absorption, distribution, metabolism, excretion, and toxicity) information for all NPs. These comprehensive updates make NPASS an even more valuable resource for researchers in the fields of natural product discovery and medicinal research. The updated version of NPASS is freely accessible online, promoting open access to this crucial scientific data. License: No Licensing information (Cite paper)

10.71606/coconut.cnpc0030

Super Natural II

Super Natural II is a comprehensive natural product database that serves as a valuable resource for drug discovery and development. This updated version significantly expands upon its predecessor, offering a vast collection of natural compounds along with their structural and physicochemical properties. The database facilitates the exploration of topological pharmacophore patterns shared between natural products and commercial drugs, contributing to a deeper understanding of their potential therapeutic applications. Super Natural II provides users with advanced search capabilities, including template-based similarity searches and substructure queries. Additionally, it offers predicted toxicity information for many compounds and includes vendor details for easy sourcing. The database also integrates pathway information related to the synthesis and degradation of natural products, as well as insights into their mechanisms of action compared to structurally similar drugs and their target proteins. By consolidating this wealth of information into a freely accessible platform, Super Natural II addresses the challenges of scattered or restricted natural product data, supporting researchers in their quest for novel drug candidates inspired by nature. License: No Licensing information (Cite paper)

10.71606/coconut.cnpc0044

Stereochemical Variants

Molecular Properties

  • Mol. Formula : C28H38O12
  • Mol. Weight 566.23633
  • Total atom number : 78
  • Heavy atom number : 40
  • Aromatic Ring Count : 2
  • Rotatable Bond count : 9
  • Minimal number of rings : 4
  • Formal Charge : 78
  • Contains Sugar : True
  • Contains Ring Sugars : True
  • Contains Linear Sugars : False

Molecular Descriptors

  • NP-likeness scores : 2.03
  • Alogp : 0.89
  • TopoPSA : 176.76
  • Fsp3 : 0.57
  • Hydrogen Bond Acceptor Count : 12
  • Hydrogen Bond Donor Count : 6
  • Lipinski Hydrogen Bond Acceptor Count : 12
  • Lipinski Hydrogen Bond Donor Count : 6
  • Lipinski RO5 Violations : 3
2D
3D Structure (by RDKit) Interactive JSmol molecular viewer 3D
Report this compound
Request changes to this page

This website requires cookies, and the limited processing of your personal data in order to function. By using the site you are agreeing to this as outlined in our Privacy Notice and Terms of Use.