The structure of cannabitriol

@article{Chan2005TheSO,
  title={The structure of cannabitriol},
  author={Wilfred R. Chan and Kenneth Magnus and H. A. Jun. Watson},
  journal={Experientia},
  year={2005},
  volume={32},
  pages={283-284}
}
Cannabitriol, a constitutent ofCannabis sativa L., has been shown to have the structure (I). 
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Emergent evidence is outlined for the potential for selected phytocannabinoids and other cannabis phytochemicals to mitigate factors such as inflammation and oxidative stress as drivers of neurotoxicity, in addition to focusing on specific interactions with pathological misfolding proteins associated with major forms of neurodegenerative diseases such as Alzheimer’s disease.
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References

SHOWING 1-3 OF 3 REFERENCES
Haschisch—XIX : Cannabidiolcarbonsäure-tetrahydrocannabitriol-ester, ein neuer haschisch-inhaltsstoff
Recent advances in the chemistry of hashish.
  • R. Mechoulam, Y. Gaoni
  • Medicine
    Fortschritte der Chemie organischer Naturstoffe = Progress in the chemistry of organic natural products. Progres dans la chimie des substances organiques naturelles
  • 1967
Cannabis saliva L. (family Moraceae) is a dioecious plant of which two varieties exist, var. indica and var. non indica or typica. The flowering top of the female plant is covered with glandular
The isolation and structure of delta-1-tetrahydrocannabinol and other neutral cannabinoids from hashish.
The isolation and elucidation of the structures of AMetrahydrocannabinol (A^THC), cannabigerol, cannabichromene, and cannabicyclol are described. A facile conversion of cannabidiol into A'-THC takes