The Redox Cofactor F420 Protects Mycobacteria from Diverse Antimicrobial Compounds and Mediates a Reductive Detoxification System
T Jirapanjawat, B Ney, MC Taylor… - Applied and …, 2016 - Am Soc Microbiol
ABSTRACT A defining feature of mycobacterial redox metabolism is the use of an unusual
deazaflavin cofactor, F420. This cofactor enhances the persistence of environmental and …
deazaflavin cofactor, F420. This cofactor enhances the persistence of environmental and …
Human Tuberculosis II. M. tuberculosis mechanisms of genetic and phenotypic resistance to anti-tuberculosis drugs
G Sgaragli, M Frosini - Current Medicinal Chemistry, 2016 - ingentaconnect.com
The great progress of knowledge of both M. tuberculosis physiology and how human host
and bacilli interact has provided fertile ground for improving diagnosis and cure of TB …
and bacilli interact has provided fertile ground for improving diagnosis and cure of TB …
A mutasynthetic library of platensimycin and platencin analogues
Inactivation of ptmB1, ptmB2, ptmT2, or ptmC in Streptomyces platensis SB12029, a
platensimycin (PTM) and platencin (PTN) overproducer, revealed that PTM and PTN …
platensimycin (PTM) and platencin (PTN) overproducer, revealed that PTM and PTN …
[PDF][PDF] The redox cofactor F420 protects mycobacteria from diverse antimicrobial compounds and mediates a reductive detoxification system
ABSTRACT A defining feature of mycobacterial redox metabolism is the use of an unusual
deazaflavin cofactor, F420. This cofactor enhances the persistence of environmental and …
deazaflavin cofactor, F420. This cofactor enhances the persistence of environmental and …