Transfer of a point mutation in Mycobacterium tuberculosis inhA resolves the target of isoniazid
C Vilchèze, F Wang, M Arai, MH Hazbón, R Colangeli… - Nature medicine, 2006 - nature.com
Nature medicine, 2006•nature.com
Isoniazid is one of the most effective antituberculosis drugs, yet its precise mechanism of
action is still controversial. Using specialized linkage transduction, a single point mutation
allele (S94A) within the putative target gene inhA was transferred in Mycobacterium
tuberculosis. The inhA (S94A) allele was sufficient to confer clinically relevant levels of
resistance to isoniazid killing and inhibition of mycolic acid biosynthesis. This resistance
correlated with the decreased binding of the INH-NAD inhibitor to InhA, as shown by …
action is still controversial. Using specialized linkage transduction, a single point mutation
allele (S94A) within the putative target gene inhA was transferred in Mycobacterium
tuberculosis. The inhA (S94A) allele was sufficient to confer clinically relevant levels of
resistance to isoniazid killing and inhibition of mycolic acid biosynthesis. This resistance
correlated with the decreased binding of the INH-NAD inhibitor to InhA, as shown by …
Abstract
Isoniazid is one of the most effective antituberculosis drugs, yet its precise mechanism of action is still controversial. Using specialized linkage transduction, a single point mutation allele (S94A) within the putative target gene inhA was transferred in Mycobacterium tuberculosis. The inhA(S94A) allele was sufficient to confer clinically relevant levels of resistance to isoniazid killing and inhibition of mycolic acid biosynthesis. This resistance correlated with the decreased binding of the INH-NAD inhibitor to InhA, as shown by enzymatic and X-ray crystallographic analyses, and establishes InhA as the primary target of isoniazid action in M. tuberculosis.
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