Clean Synthetic Strategies to Biologically Active Molecules from Lignin: A Green Path to Drug Discovery **

to related objects

Abstract: Deriving active pharmaceutical agents from renewable resources is crucial to increasing the economic feasibility of modern biorefineries and promises to alleviate critical supply‐chain dependencies in pharma manufacturing. Our multidisciplinary approach combines research in lignin‐first biorefining, sustainable catalysis, and alternative solvents with bioactivity screening, an in vivo efficacy study, and a structural‐similarity search. The resulting sustainable path to novel anti‐infective, anti‐inflammatory, and anticancer molecules enabled the rapid identification of frontrunners for key therapeutic indications, including an anti‐infective against the priority pathogen Streptococcus pneumoniae with efficacy in vivo and promising plasma and metabolic stability. Our catalytic methods provided straightforward access, inspired by the innate structural features of lignin, to synthetically challenging biologically active molecules with the core structure of dopamine, namely, tetrahydroisoquinolines, quinazolinones, 3‐arylindoles and the natural product tetrahydropapaveroline. Our diverse array of atom‐economic transformations produces only harmless side products and uses benign reaction media, such as tunable deep eutectic solvents for modulating reactivity in challenging cyclization steps.

Location
Deutsche Nationalbibliothek Frankfurt am Main
Extent
Online-Ressource
Language
Englisch

Bibliographic citation
Clean Synthetic Strategies to Biologically Active Molecules from Lignin: A Green Path to Drug Discovery ** ; day:14 ; month:11 ; year:2023 ; extent:11
Angewandte Chemie / International edition. International edition ; (14.11.2023) (gesamt 11)

Creator
Afanasenko, Anastasiia M.
Wu, Xianyuan
De Santi, Alessandra
Elgaher, Walid A. M.
Kany, Andreas M.
Shafiei, Roya
Schulze, Marie‐Sophie
Schulz, Thomas F.
Haupenthal, Jörg
Hirsch, Anna K. H.
Barta, Katalin

DOI
10.1002/anie.202308131
URN
urn:nbn:de:101:1-2023111514060387879556
Rights
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Last update
14.08.2025, 11:00 AM CEST

Data provider

This object is provided by:
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Show original at data provider

Associated

Other Objects (12)

Clean Synthetic Strategies to Biologically Active Molecules from Lignin: A Green Path to Drug Discovery **

Clean Synthetic Strategies to Biologically Active Molecules from Lignin: A Green Path to Drug Discovery **

Unlocking Lignin′s Potential: Engineered Bacterial Laccases to Produce Biologically Active Molecules

Unlocking Lignin′s Potential: Engineered Bacterial Laccases to Produce Biologically Active Molecules

clean. ToKiO.

Graffiti | Streetart

clean. ToKiO.

Transition to clean technology

Arbeitspapier

Transition to clean technology

Breaking the hard-to-abate bottleneck in China’s path to carbon neutrality with clean hydrogen

Breaking the hard-to-abate bottleneck in China’s path to carbon neutrality with clean hydrogen

Advancements in diagnostic and interventional radiology for stroke treatment: the path from trial to bedside through the pre-MR CLEAN, MR CLEAN, and MR CLEAN II eras

Advancements in diagnostic and interventional radiology for stroke treatment: the path from trial to bedside through the pre-MR CLEAN, MR CLEAN, and MR CLEAN II eras

Half Way to clean architecture

zweidimensionales bewegtes Bild

Half Way to clean architecture

Public Sector Austerity: Path to Crisis or Path to Recovery?

Artikel

Public Sector Austerity: Path to Crisis or Path to Recovery?

Climate funds: time to clean up

Arbeitspapier

Climate funds: time to clean up

Lignin conversion catalysis : transformation to aromatic chemicals

Lignin conversion catalysis : transformation to aromatic chemicals

The path to god

The path to god

The Path to democracy

The Path to democracy

Related objects