Ir al contenido principal

9º SEMINARIO QUÍMICA ORGÁNICA IQUIR 2025

SEMINARIO QUÍMICA ORGÁNICA 2-6-25

EXPOSITOR: Dr. Ariel M. Sarotti

TÍTULO: "Toward Chiral Recognition by Design: Uncovering the Self-Enantioresolving Properties of Chiral Amine Derivatives"

FUENTE: Anka Hagelschuer, Damián Padín, Vanda Dašková, Ben L. Feringa. J. Am. Chem. Soc. 2025, ASAP. https://doi.org/10.1021/jacs.5c01251

DÍA, HORA y LUGAR: Lunes 2 de junio de 2025, 14:00 h, Aula 18 y virtual.

Modalidad virtual, Linkmeet.google.com/hjn-ygro-twf (Plataforma MEET GOOGLE)

ResumenThe study of chiral recognition phenomena is key for understanding biological processes, designing bioactive compounds, and for asymmetric catalysis and chiral analysis. In addition, phenomena related to the self-recognition of enantiomers are highly relevant in emergence-of-homochirality research and supramolecular chemistry. However, the design of molecules exhibiting chiral self-recognition remains challenging, and its observation is mainly based on serendipity. Here, we report a comprehensive study of the self-enantiorecognition properties of chiral amine-derived building blocks frequently encountered in organic synthesis. Through a structure−activity relationship study, multiple families of chiral amine derivatives, featuring self-complementary hydrogen-bond donor and acceptor groups, have been found to exhibit self-induced diastereomeric anisochronism (SIDA) by NMR analysis, a rather unexplored form of self-recognition of enantiomers. Our study suggests that the self-enantiorecognition properties of many common building blocks in asymmetric synthesis might have remained inadvertently unnoticed. We have also rationalized the origins of their SIDA effect and demonstrated their potential as an in situ probe for the determination of enantiomeric purity, the analysis of supramolecular interactions, and the study of reaction mechanisms. We anticipate that the principles outlined here will contribute to fostering the use of the SIDA effect in fundamental stereochemical studies, asymmetric synthesis, catalysis, and supramolecular chemistry.


Comentarios

Publicar un comentario

Entradas populares de este blog

24° SEMINARIO QUÍMICA ORGÁNICA IQUIR 2024

SEMINARIO QUÍMICA ORGÁNICA 11-11-24 EXPOSITOR :  Qca. Paula Paz Armero TÍTULO :  " Total synthesis of (±)‐decursivine via BINOL‐phosphoric acid catalyzed tandem oxidative cyclization ". FUENTE : PrakashT. Parvatkar, Eugene S. Smotkin & Roman Manetsc,  Scientific Reports volume 11, Article number: 19915 (2021) DÍA, HORA y LUGAR : Lunes 11 de noviembre de 2024, 14:00 h, Aula 18 y virtual. Modalidad virtual, Link :  meet.google.com/hjn-ygro-twf  ( Plataforma MEET GOOGLE) Resumen : The synthesis of tetracyclic indole alkaloid (±)-decursivine was accomplished using BINOL-phosphoric acid catalyzed tandem oxidative cyclization as a key step with (bis(trifuoroacetoxy)iodo)benzene (PIFA) as an oxidizing agent. This represents one of the shortest and highest yielding routes for the synthesis of (±)-decursivine from readily available starting materials.
Publicar un comentario
Leer más

18° SEMINARIO QUÍMICA ORGÁNICA IQUIR 2024

SEMINARIO QUÍMICA ORGÁNICA 16-9-24 EXPOSITOR :  Dr. Enrique L. Larghi TÍTULO :   " Total Synthesis of Isoxeniolide A " FUENTE :     Leo Betschart and Karl-Heinz Altmann. Angew. Chem. Int. Ed. 2024, 63, e202315423, DOI: 10.1002/anie.202315423. DÍA, HORA y LUGAR : Lunes 16 de septiembre de 2024, 14:00 h, Aula 18 y virtual. Modalidad virtual, Link :  meet.google.com/hjn-ygro-twf  ( Plataforma MEET GOOGLE) Resumen : The total synthesis of the xenicane-type marine natural product isoxeniolide A has been accomplished through a ring-opening/ring-closing metathesis sequence and an intramolecular Nozaki–Hiyama–Kishi (NHK) reaction to forge the nine-membered ring as the key enabling steps. The NHK cyclization was highly diastereoselective and provided the oxabicyclo[7.4.0]tridecene core of isoxeniolide A as a single stereoisomer.
Publicar un comentario
Leer más

10° SEMINARIO QUÍMICA ORGÁNICA IQUIR 2024

SEMINARIO QUÍMICA ORGÁNICA 24-6-24 EXPOSITOR :  Qco. Miguel Villarreal Parra TÍTULO :   " Nitro-Group-Containing Drugs " FUENTE :   DOI: https://doi.org/10.1021/acs.jmedchem.8b00147 Kunal Nepali, Hsueh-Yun Lee, and Jing-Ping Liou* J. Med. Chem. 2019, 62, 6, 2851–2893. DÍA, HORA y LUGAR : Lunes 24 de junio de 2024, 14:00 h, Aula 18 y virtual. Modalidad virtual, Link :  meet.google.com/hjn-ygro-twf  ( Plataforma MEET GOOGLE) Resumen :  The nitro group is considered to be a versatile and unique functional group in medicinal chemistry. Despite a long history of use in therapeutics, the nitro group has toxicity issues and is often categorized as a structural alert or a toxicophore, and evidence related to drugs containing nitro groups is rather contradictory. In general, drugs containing nitro groups have been extensively associated with mutagenicity and genotoxicity. In this context, efforts toward the structure–mutagenicity or structure–genotoxicity relationsh...
Publicar un comentario
Leer más