Search engine for discovering works of Art, research articles, and books related to Art and Culture
ShareThis
Javascript must be enabled to continue!

Guanidine‐Based Ligands in Bioinorganic Chemistry: Coordination Modes and Applications in Anticancer Metallodrugs

View through CrossRef
Guanidine‐containing molecules represent a versatile class of nitrogen‐rich compounds whose unique structural and physicochemical features underpin a rich and tunable coordination chemistry. Their capacity to act as strong donor ligands, stabilize a variety of metal centers in different oxidation states, and access multiple coordination modes has established guanidine and guanidine‐like cores as pivotal components in medicinal inorganic chemistry. This review provides a focused overview of metallodrugs for antitumor applications in which guanidine or guanidine‐like ligands play a central role in metal coordination, highlighting how the coordination modes of the guanidine core translate into their application as anticancer metallodrugs. By correlating coordination mode, metal center, and ligand design with anticancer performance, this work underscores the potential of guanidine‐based ligand platforms for the development of next‐generation metal‐based therapeutics.
Title: Guanidine‐Based Ligands in Bioinorganic Chemistry: Coordination Modes and Applications in Anticancer Metallodrugs
Description:
Guanidine‐containing molecules represent a versatile class of nitrogen‐rich compounds whose unique structural and physicochemical features underpin a rich and tunable coordination chemistry.
Their capacity to act as strong donor ligands, stabilize a variety of metal centers in different oxidation states, and access multiple coordination modes has established guanidine and guanidine‐like cores as pivotal components in medicinal inorganic chemistry.
This review provides a focused overview of metallodrugs for antitumor applications in which guanidine or guanidine‐like ligands play a central role in metal coordination, highlighting how the coordination modes of the guanidine core translate into their application as anticancer metallodrugs.
By correlating coordination mode, metal center, and ligand design with anticancer performance, this work underscores the potential of guanidine‐based ligand platforms for the development of next‐generation metal‐based therapeutics.

Related Results

Guanidine Production by Plant Homoarginine-6-hydroxylases
Guanidine Production by Plant Homoarginine-6-hydroxylases
Abstract Metabolism and biological functions of the nitrogen-rich compound guanidine have long been neglected. The discovery of four classes of guanidine-sensing ri...
Guanidine production by plant homoarginine-6-hydroxylases
Guanidine production by plant homoarginine-6-hydroxylases
Metabolism and biological functions of the nitrogen-rich compound guanidine have long been neglected. The discovery of four classes of guanidine-sensing riboswitches and two pathwa...
Guanidine Production by Plant Homoarginine-6-hydroxylases
Guanidine Production by Plant Homoarginine-6-hydroxylases
Abstract Metabolism and biological functions of the nitrogen-rich compound guanidine have long been neglected. The discovery of four classes of guanidine-sensing ri...
Imidazol(in)ium-2-Thiocarboxylate Zwitterion Ligands: Structural Aspects in Coordination Complexes
Imidazol(in)ium-2-Thiocarboxylate Zwitterion Ligands: Structural Aspects in Coordination Complexes
Azolium-2-thiocarboxylate zwitterion ligands have emerged as a promising class of compounds in the field of coordination chemistry due to their unique structural features and versa...
Metallylene-sulfur compounds : synthesis, characterization and applications in coordination and catalysis
Metallylene-sulfur compounds : synthesis, characterization and applications in coordination and catalysis
Composés métallylène-soufre : synthèse, caractérisation et application en chimie de coordination et catalyse Ce travail présente la synthèse de ligands mixtes germy...
Label-free integrative pharmacology on-target of opioid ligands at the opioid receptor family
Label-free integrative pharmacology on-target of opioid ligands at the opioid receptor family
AbstractBackgroundIn vitropharmacology of ligands is typically assessed using a variety of molecular assays based on predetermined molecular events in living cells. Many ligands in...
Acceptor sites for the oestrogen receptor in hen oviduct chromatin
Acceptor sites for the oestrogen receptor in hen oviduct chromatin
Partially purified hen oviduct oestrogen receptors, charged with [3H]oestradiol, were shown to specifically bind in vitro to purified hen oviduct chromatin. Maximal binding occurre...

Back to Top