{Reference Type}: Journal Article
{Title}: Antimicrobial activity and structure-activity relationships of molecules containing mono- or di- or oligosaccharides: An update.
{Author}: Zhou T;Hao J;Tang Q;Chandarajoti K;Ye W;Fan C;Wang X;Wang C;Zhang K;Han X;Zhou W;Ge Y;
{Journal}: Bioorg Chem
{Volume}: 148
{Issue}: 0
{Year}: 2024 Jul 27
{Factor}: 5.307
{DOI}: 10.1016/j.bioorg.2024.107406
{Abstract}: Bacterial infections are the second leading cause of death worldwide, and the evolution and widespread distribution of antibiotic-resistance elements in bacterial pathogens exacerbate the threat crisis. Carbohydrates participate in bacterial infection, drug resistance and the process of host immune regulation. Numerous antimicrobials derived from carbohydrates or contained carbohydrate scaffolds that are conducive to an increase in pathogenic bacteria targeting, the physicochemical properties and druggability profiles. In the paper, according to the type and number of sugar residues contained in antimicrobial molecules collected from the literatures ranging from 2014 to 2024, the antimicrobial activities, action mechanisms and structure-activity relationships were delineated and summarized, for purpose to provide the guiding template to select the type and size of sugars in the design of oligosaccharide-based antimicrobials to fight the looming antibiotic resistance crisis.