ABSTRACT
The phenomenon of tritium decay catastrophe is introduced. A technical example is provided regarding the radioligand [methoxy-3H] levosulpiride whose long-term behavior is consistent with the concept of tritium decay catastrophe.
ABSTRACT
The article puts into perspective the recent discovery of cannabidiol crystal polymorph Form 2.
Subject(s)
Cannabidiol , Cannabidiol/pharmacology , CrystallizationABSTRACT
Created literally at the dawn of time, deuterium has been extremely valuable in so many chemistry roles. The subject of this review focuses on one deuterium application in particular: its enhancement of luminescence in many substances. After providing general overviews of both deuterium and luminescence, the early exploration of deuterium's effect on luminescence is described, followed by a number of specific topics. These sections include a discussion of deuterium-influenced luminescence for dyes, proteins, singlet oxygen, and the lanthanide elements, as well as anomalous inverse deuterium luminescence effects. Future directions for this important research topic are also proposed, as well as a summary conclusion.
Subject(s)
Luminescence , Singlet Oxygen , DeuteriumABSTRACT
There appears to be consensus among Cannabis biologists that delta-9-tetrahydrocannabinolic acid A (THCA-A) is the exclusive product of the enzyme THCA synthase. This then leaves an open question for formation of the THCA-A structural isomer, delta-9-tetrahydrocannabinolic acid B (THCA-B), discovered as a minor product in Cannabis in 1969. With no reasonable biochemical pathway to explain the presence of THCA-B in Cannabis, a synthetic route was next considered. Using established literature precedent, a photochemical mechanism has been proposed for the conversion of THCA-A to cannabidiolic acid (CBDA), followed by conversion of CBDA to THCA-B employing bond-breaking and bond-forming reactions.
Subject(s)
Cannabinoids , Cannabis , Hallucinogens , Cannabis/chemistry , Dronabinol/chemistry , Cannabinoid Receptor AgonistsABSTRACT
Photochemistry is a powerful synthetic tool resulting in the construction of unique substances. Remarkably, photochemistry has been relatively underexplored in the cannabinoid area and represents a valuable opportunity for further discovery.
Subject(s)
PhotochemistryABSTRACT
This paper describes the synthesis and characterization of bisphenol A and several closely associated derivatives with 14C and tritium.
Subject(s)
Benzhydryl Compounds , Phenols , TritiumABSTRACT
Understanding and controlling the rheology of polymeric complex fluids that are pushed out-of-equilibrium is a fundamental problem in both industry and biology. For example, to package, repair, and replicate DNA, cells use enzymes to constantly manipulate DNA topology, length, and structure. Inspired by this feat, here we engineer and study DNA-based complex fluids that undergo enzymatically-driven topological and architectural alterations via restriction endonuclease (RE) reactions. We show that these systems display time-dependent rheological properties that depend on the concentrations and properties of the comprising DNA and REs. Through time-resolved microrheology experiments and Brownian Dynamics simulations, we show that conversion of supercoiled to linear DNA topology leads to a monotonic increase in viscosity. On the other hand, the viscosity of entangled linear DNA undergoing fragmentation displays a universal decrease that we rationalise using living polymer theory. Finally, to showcase the tunability of these behaviours, we design a DNA fluid that exhibits a time-dependent increase, followed by a temporally-gated decrease, of its viscosity. Our results present a class of polymeric fluids that leverage naturally occurring enzymes to drive diverse time-varying rheology by performing architectural alterations to the constituents.
Subject(s)
DNA , Polymers , Digestion , Rheology , ViscosityABSTRACT
Because cannabinoids are usually amorphous solids, the thought that some of them may also exist in distinctly different crystal polymorphic forms might at first seem unusual. However, this commentary provides compelling evidence and precedent for the likely existence of cannabinoid crystal polymorphism.
ABSTRACT
The one-step synthesis of [14 C]formamidine acetate from [14 C]barium cyanamide is described with product characterization by TLC and proton NMR.
Subject(s)
Amidines , Cyanamide , Magnetic Resonance SpectroscopyABSTRACT
Introduction:Cannabis is a valuable plant, cultivated by humans for millennia. However, it has only been in the past several decades that biologists have begun to clarify the interesting Cannabis biosynthesis details, especially the production of its fascinating natural products termed acidic cannabinoids. Discussion: Acidic cannabinoids can experience a common organic chemistry reaction known as decarboxylation, transforming them into structural analogues referred to as neutral cannabinoids with far different pharmacology. This review addresses acidic and neutral cannabinoid structural pairs, when and where acidic cannabinoid decarboxylation occurs, the kinetics and mechanism of the decarboxylation reaction as well as possible future directions for this topic. Conclusions: Acidic cannabinoid decarboxylation is a unique transformation that has been increasingly investigated over the past several decades. Understanding how acidic cannabinoid decarboxylation occurs naturally as well as how it can be promoted or prevented during harvesting or storage is important for the various stakeholders in Cannabis cultivation.
Subject(s)
Cannabinoids , Cannabis , Cannabinoid Receptor Agonists , Cannabinoids/pharmacology , Cannabis/chemistry , Decarboxylation , HumansABSTRACT
MicroED has recently emerged as a convenient and powerful tool for the unequivocal structure determination of small molecules and it could likely be used in cannabinoid research as well.
ABSTRACT
An efficient method is described to radiolabel several dopamine D2 receptor agonists with tritium at high specific activity.
Subject(s)
Dopamine Agonists/pharmacology , Receptors, Dopamine D2/drug effects , Tritium/chemistry , Dopamine Agonists/chemistry , Magnetic Resonance SpectroscopyABSTRACT
Mankind has long utilized Cannabis for diverse purposes. However, it has only been since the late 19th century that its individual cannabinoids began to be isolated, analyzed, and synthesized. By the mid-20th century it was discovered that many cannabinoids were asymmetric, with chirality often controlling their pharmacology. Increasingly accurate measurement and understanding of cannabinoid chirality will facilitate their synthesis and accelerate their medicinal applications.