User:Etienne Robillard/Notebook/Schiff base
< User:Etienne Robillard | Notebook
Introduction to Schiff bases
- Insert text here in scientifically acceptable way (ie: without grammar errors) to explain the functions and basics of Schiff base formation. 
Schiff base conjugated pharmacological intermediates and N-substituted heterocyclics carbenes
- Present summarly the basic psychopharmacological aspects/functions of imine in a biological system .
- pharmacological intermediates (N-substituted heterocyclics)
- Nucleophilic carbonyl addition
- PS: Yb(OTf)3 route to 1,2,3,4-tetrahydroisoquinolines derivatives.
- Micheal addition=>PS (Pictet-Spengler asymmetric synthesis of 1,2,3,4-tetrahydroisoquinolines)
- 3-oxo-C6 HSL->lazy RNA polymerase riboswitch. [ENVZ]
- Light activated DNA delivery/toggle switch: How is that relevant to CES (ADA) and specifically CAMK2G? (H. sapiens CAP protein?)
- further info on Phenylmethylamine substituted beta-amyloid ligands (APP) are here.
Formation of phenylmethylamine as the tautomeric form of a ethyl-methyl carbanion
- For the long story, see Phenylmethylamine: A nucleophilic Schiff base where the N-substituted anion is fused to a benzene ring (?) to yield a enamine. See also Ethanamine. Note that the C=N double bond is the result (product) of asymmetric synthesis (Micheal addition) in presence of a organometal catalyst.
- assert biological relevance of Parkinson disease  as the result of prolonged 1,2,3,4-tetrahydroisoquinolines derivatives absorption: A 2-phenylmethylamine-specific enatiomer ?
- Additional data is provided in EC 126.96.36.199 to confirm a solid link between Parkinson disease and novel tetrahydroisoquinolines derivatives. -- Check this. -ER
- tristable PD riboswitch abstrachachachatization: Check/verify the tri-stable RNA polymerase repressor functions (LuxR) and AHL evidences in the design of Schiff base conjugated C6 (hexanoyl) psychochemicals to induce (lazy) light-activated RNA transcription and metabolism. -ER
- Verify this lazy RNA polymerase function: 2ATP+CO2->Ph2CO<=>2(N+2(R)+OH) -ER