Add to ORKGThe paper relates on the current advancements in the synthesis of complex cyclic terpenoids by superacidic induced cyclization of open chain precursors. It is shown that functional groups disposal in the initial substrate strongly influences the reaction outcome. Possible variations of the investigated compound structures include particularly α-functionalization and α,ω-bifunctionalization. This approach allowed a selective initiation of cyclization sequence from an internal double bond or suspending the ring closure cascade to partially cyclized compounds. The reported synthetic schemes are attempts to mimic the biogenetical processes postulated in the living systems
The first chemical synthesis of pentacyclic onocerane triterpenoids has been achieved. A putative bi...
This thesis is concerned with the total syntheses of natural products and the development of a novel...
Asymmetric synthesis of naturally occurring diverse ring systems is an ongoing and challenging resea...
The current paper represents an outline of the selected contributions to the biomimetic procedures a...
Covering: 2011-2017Radical cyclizations have a rich history in organic chemistry and have been parti...
The development of a bio-inspired acetal induced intermolecular polyene cyclization is described. Th...
Conspectus Natural products are biosynthesized from a limited pool of starting materials via pathway...
Terpene cyclase enzymes catalyze the most complex chemical reactions found in nature, forming produc...
Recently the first example of a class II terpene cyclase comprised of only a single domain was repor...
Cyclase enzymes weave simple polyprenyl chains into the elaborate polycyclic ring systems of terpene...
Oligomeric sesquiterpenoids, biogenetically assembled from two or three monomeric sesquiterpenoid un...
We describe a new strategy to control the number of cyclization steps in bioinspired radical (poly)...
For the first time it has been demonstrated that simple derivates of acyclic terpene alcohols are ca...
Covering: literature up to 2018Terpenes are a class of natural products characterized by remarkable ...
Steroids form a group of secondary metabolites having diversity in their structure and biological fu...
The first chemical synthesis of pentacyclic onocerane triterpenoids has been achieved. A putative bi...
This thesis is concerned with the total syntheses of natural products and the development of a novel...
Asymmetric synthesis of naturally occurring diverse ring systems is an ongoing and challenging resea...
The current paper represents an outline of the selected contributions to the biomimetic procedures a...
Covering: 2011-2017Radical cyclizations have a rich history in organic chemistry and have been parti...
The development of a bio-inspired acetal induced intermolecular polyene cyclization is described. Th...
Conspectus Natural products are biosynthesized from a limited pool of starting materials via pathway...
Terpene cyclase enzymes catalyze the most complex chemical reactions found in nature, forming produc...
Recently the first example of a class II terpene cyclase comprised of only a single domain was repor...
Cyclase enzymes weave simple polyprenyl chains into the elaborate polycyclic ring systems of terpene...
Oligomeric sesquiterpenoids, biogenetically assembled from two or three monomeric sesquiterpenoid un...
We describe a new strategy to control the number of cyclization steps in bioinspired radical (poly)...
For the first time it has been demonstrated that simple derivates of acyclic terpene alcohols are ca...
Covering: literature up to 2018Terpenes are a class of natural products characterized by remarkable ...
Steroids form a group of secondary metabolites having diversity in their structure and biological fu...
The first chemical synthesis of pentacyclic onocerane triterpenoids has been achieved. A putative bi...
This thesis is concerned with the total syntheses of natural products and the development of a novel...
Asymmetric synthesis of naturally occurring diverse ring systems is an ongoing and challenging resea...