ABSTRACT
Currently, there are many studies on the mechanism of antibiotic resistance in Mycobacterium tuberculosis (Mtb), but there are few studies on its regulatory mechanism. Post-translational modifications (PTMs) have been recognized for their important role in controlling cellular dynamics such as metabolism and stress response, but the relationship between PTMs and antibiotic resistance gradually attracted the attention of researchers. Here, we summarize the definition of PTMs, and the mechanisms of antibiotic resistance in M. tuberculosis and discuss how PTMs are involved in antibiotic resistance, in order to provide a new breakthrough for the development of new anti-Ttb drugs.
ABSTRACT
Tuberculosis (TB), caused by Mycobacterium tuberculosis, has become a major human infectious disease. The existing first-line and second-line TB drugs have poor treatment outcomes in patients with MDR-TB and XDR-TB. There is an urgent need for new and better drugs to treat tuberculosis due to lengthy and complex treatment regimens and a rising problem of drug resistance. Microbial-derived natural products have revealed enormous reservoirs of as yet untapped lead compounds. In this review, we discuss the strategies that have been developed in bacteria and fungi to isolation of non-culturable microorganisms and activation of silent biosynthetic gene clusters involved in the study of microbial-derived natural products. This review also highlights recent advances in microbial-derived natural products with anti-tuberculosis activity using these methods.
