114676-69-6Relevant articles and documents
Altering the sex pheromone cyclo(L-pro-l-pro) of the diatom seminavis robusta towards a chemical probe
Bonneure, Eli,De Baets, Amber,De Decker, Sam,Van den Berge, Koen,Clement, Lieven,Vyverman, Wim,Mangelinckx, Sven
, p. 1 - 14 (2021/01/26)
As a major group of algae, diatoms are responsible for a substantial part of the primary production on the planet. Pennate diatoms have a predominantly benthic lifestyle and are the most species-rich diatom group, with members of the raphid clades being motile and generally having heterothallic sexual reproduction. It was recently shown that the model species Seminavis robusta uses multiple sexual cues during mating, including cyclo(L-Pro-L-Pro) as an attraction pheromone. Elaboration of the pheromone-detection system is a key aspect in elucidating pennate diatom life-cycle regulation that could yield novel fundamental insights into diatom speciation. This study reports the synthesis and bio-evaluation of seven novel pheromone analogs containing small structural alterations to the cyclo(L-Pro-L-Pro) pheromone. Toxicity, attraction, and interference assays were applied to assess their potential activity as a pheromone. Most of our analogs show a moderate-to-good bioactivity and low-to-no phytotoxicity. The pheromone activity of azide-and diazirine-containing analogs was unaffected and induced a similar mating behavior as the natural pheromone. These results demonstrate that the introduction of confined structural modifications can be used to develop a chemical probe based on the diazirine-and/or azide-containing analogs to study the pheromone-detection system of S. robusta.
Multipodal insulin mimetics built on adamantane or proline scaffolds
Hajduch, Jan,Fabre, Benjamin,Klopp, Benjamin,Pohl, Radek,Budě?ínsky, Milo?,?olínová, Veronika,Ka?i?ka, Václav,K?prülüoglu, Cemal,Eyrilmez, Saltuk Mustafa,Lep?ík, Martin,Hobza, Pavel,Mitrová, Katarína,Lubos, Marta,Hernández, María Soledad Garre,Jirá?ek, Ji?í
, (2020/12/29)
Multi-orthogonal molecular scaffolds can be applied as core structures of bioactive compounds. Here, we prepared four tri-orthogonal scaffolds based on adamantane or proline skeletons. The scaffolds were used for the solid-phase synthesis of model insulin mimetics bearing two different peptides on the scaffolds. We found that adamantane-derived compounds bind to the insulin receptor more effectively (Kd value of 0.5 μM) than proline-derived compounds (Kd values of 15–38 μM) bearing the same peptides. Molecular dynamics simulations suggest that spacers between peptides and central scaffolds can provide greater flexibility that can contribute to increased binding affinity. Molecular modeling showed possible binding modes of mimetics to the insulin receptor. Our data show that the structure of the central scaffold and flexibility of attached peptides in this type of compound are important and that different scaffolds should be considered when designing peptide hormone mimetics.
As Aurora kinase inhibitor derivatives
-
Paragraph 0572; 0577; 0578, (2019/06/27)
The present invention relates to a substituted pyrazole derivative used for inhibiting Aurora kinase and represented by formula (I) or formula (Ia), or stereo isomers, geometric isomers, tautomers, nitrogen oxides, hydrates, solvates, metabolites, esters, pharmaceutically acceptable salts or prodrugs thereof, a medicinal composition containing the above compounds as active ingredients, and a use of the compounds and the medicinal composition in preparation of medicines for protecting, processing, treating or mitigating proliferative diseases of patients.