Literature

Abstract

Spectroscopic studies of ether rifamycins (1-9) have shown that all these compounds tend to be zwitterions with different localizations of intramolecularly transferred proton, which influences their solubility and logP values. According to ESI MS studies, rifamycins 3 and 4 form complexes with Li(+) or Na(+), while the other ones (7-9) coordinate small organic molecules, which can be further replaced by Na(+) cation. Biological assays revealed that the use of 7-9 in the form of complexes with small organic molecules improves their antibacterial potency as a result of changed: logP, solubility and binding mode with bacterial RNA polymerases.

DOI： 10.1016/j.bmcl.2015.07.043

The effect of complexation of 3-formylrifamycin SV macrocyclic ether derivatives with metal cations and small nitrogen-containing organic molecules on antibacterial activity against S. aureus and S. epidermidis

Bioorganic & Medicinal Chemistry Letters 2015.0

Structure–activity relationship studies of new rifamycins containing l -amino acid esters as inhibitors of bacterial RNA polymerases

European Journal of Medicinal Chemistry 2016.0

Structure and evaluation of antibacterial and antitubercular properties of new basic and heterocyclic 3-formylrifamycin SV derivatives obtained via ‘click chemistry’ approach

European Journal of Medicinal Chemistry 2014.0

Synthesis and quantitative structure-activity relationships of some antibacterial 3-formylrifamycin SV N-(4-substituted phenyl)piperazinoacethydrazones

Journal of Medicinal Chemistry 1978.0

4-Deoxypyrido[1',2':1,2]imidazo[5,4-c]rifamycin SV derivatives. A new series of semisynthetic rifamycins with high antibacterial activity and low gastroenteric absorption

Journal of Medicinal Chemistry 1985.0

Synthesis and antibacterial activity of some esters, amides, and hydrazides of 3-carboxyrifamycin S. Relationship between structure and activity of ansamycins