Enediyne Antitumor Antibiotic Synthesis - …

T1 - Synthesis and aromatisation of cyclic enediyne-containing amino acids

My future city essay Nathan synthesis essay Enediyne

Furthermore, the DNA cleaving activity of 4c significantly increased in the presence of methyl thioglycolate.AB - The molecular design and chemical synthesis of novel and artificial enediyne classes of DNA cleaving molecules 1∼4, and their chemical and DNA cleaving profiles are described.

Enediyne synthesis essay - National Financial Services

Synthetic studies towards the construction of the cyclopenta[a]indene fragment of the heptacyclicmarine metabolite sporolide are reported based on a hypotheticalbiosynthesis. The key step of this biogenetic proposal includesa Bergman cyclization of an enediyne precursor. The enediyne targetof this synthetic study was prepared by Sonogashira cross-couplingof two fragments, of which the cyclopentane fragment was preparedfrom cyclopentenone, Morita-Baylis-Hillman reaction,and enantioselective Sharpless dihydroxylation.

The enediyne sulfides 1a∼1 were synthesized via the coupling of the vinyl iodide 8 and the protected propargyl alcohol 9, and the intramolecular cyclization of the dibromide 17.


Enediyne synthesis essay - Three Left Standing

N2 - The 3-ene-1,5-diyne crown ether 5 is a novel enediyne-containing crown ether that was designed as a model system for a class of enediynes that might undergo alkali metal ion-triggered Bergman cyclization. We report the preparation of 5 by two different routes. In the shorter and preferable route, a carbenoid coupling reaction is employed to simultaneously construct the enediyne moiety and effect a macrocyclization of an acyclic bis(propargyl)bromide 15 to the 24-membered crown ether 5. Under standard reaction conditions, this carbenoid coupling produces as the major product the isomeric 5-ene-1,3-diyne-crown ethers (Z)-16 and (E)-16. The formation of 5-ene-1,3-diynes from the carbenoid coupling of propargyl bromides is unprecedented. We present evidence that it is the polyether nature of dibromide 15 that leads to the formation of the 5-ene-1,3-diyne-crown ether products. Judicious control of the reaction conditions can be used to produce either 5 or (Z)-16 from 15 in synthetically useful yields. Both enediyne-crown ethers 5 and (Z)-16 bind alkali metal ions, as evidenced by their ability to extract alkali metal picrates into organic solvents. Enediyne-crown ether 5 undergoes Bergman cyclization at 135°C in DMSO/1,4-cyclohexadiene to produce the known o-xylyl crown ether 4. Crown ether 5 represents an enediyne in which molecular recognition of alkali metals might serve as a trigger for Bergman cyclization.

Enediyne Antitumor Antibiotic Synthesis - Streptomycetes

The 3-ene-1,5-diyne crown ether 5 is a novel enediyne-containing crown ether that was designed as a model system for a class of enediynes that might undergo alkali metal ion-triggered Bergman cyclization. We report the preparation of 5 by two different routes. In the shorter and preferable route, a carbenoid coupling reaction is employed to simultaneously construct the enediyne moiety and effect a macrocyclization of an acyclic bis(propargyl)bromide 15 to the 24-membered crown ether 5. Under standard reaction conditions, this carbenoid coupling produces as the major product the isomeric 5-ene-1,3-diyne-crown ethers (Z)-16 and (E)-16. The formation of 5-ene-1,3-diynes from the carbenoid coupling of propargyl bromides is unprecedented. We present evidence that it is the polyether nature of dibromide 15 that leads to the formation of the 5-ene-1,3-diyne-crown ether products. Judicious control of the reaction conditions can be used to produce either 5 or (Z)-16 from 15 in synthetically useful yields. Both enediyne-crown ethers 5 and (Z)-16 bind alkali metal ions, as evidenced by their ability to extract alkali metal picrates into organic solvents. Enediyne-crown ether 5 undergoes Bergman cyclization at 135°C in DMSO/1,4-cyclohexadiene to produce the known o-xylyl crown ether 4. Crown ether 5 represents an enediyne in which molecular recognition of alkali metals might serve as a trigger for Bergman cyclization.

Structures and Biosynthesis of Enediyne Natural Products

AB - The 3-ene-1,5-diyne crown ether 5 is a novel enediyne-containing crown ether that was designed as a model system for a class of enediynes that might undergo alkali metal ion-triggered Bergman cyclization. We report the preparation of 5 by two different routes. In the shorter and preferable route, a carbenoid coupling reaction is employed to simultaneously construct the enediyne moiety and effect a macrocyclization of an acyclic bis(propargyl)bromide 15 to the 24-membered crown ether 5. Under standard reaction conditions, this carbenoid coupling produces as the major product the isomeric 5-ene-1,3-diyne-crown ethers (Z)-16 and (E)-16. The formation of 5-ene-1,3-diynes from the carbenoid coupling of propargyl bromides is unprecedented. We present evidence that it is the polyether nature of dibromide 15 that leads to the formation of the 5-ene-1,3-diyne-crown ether products. Judicious control of the reaction conditions can be used to produce either 5 or (Z)-16 from 15 in synthetically useful yields. Both enediyne-crown ethers 5 and (Z)-16 bind alkali metal ions, as evidenced by their ability to extract alkali metal picrates into organic solvents. Enediyne-crown ether 5 undergoes Bergman cyclization at 135°C in DMSO/1,4-cyclohexadiene to produce the known o-xylyl crown ether 4. Crown ether 5 represents an enediyne in which molecular recognition of alkali metals might serve as a trigger for Bergman cyclization.