AI Article Synopsis
- Researchers expressed 24 lipase/esterase genes from Mycobacterium tuberculosis in E. coli and identified LIPY (Rv3097c) as a highly active enzyme for hydrolyzing long-chain triacylglycerol (TG).
- LIPY demonstrated optimal activity at a pH of 8.0-9.0, with specific kinetic parameters, but was inhibited by certain reagents and conditions.
- The study indicates that LIPY is crucial for the bacteria to utilize stored TG during nutrient starvation, especially in hypoxic conditions, and its absence significantly reduces TG utilization, highlighting its role in the pathogen's dormancy and reactivation.
Article Abstract
Twenty-four putative lipase/esterase genes of Mycobacterium tuberculosis H37Rv were expressed in Escherichia coli and assayed for long-chain triacylglycerol (TG) hydrolase activity. We show here that the product of Rv3097c (LIPY) hydrolyzed long-chain TG with high specific activity. LIPY was purified after solubilization from inclusion bodies; the enzyme displayed a K(m) of 7.57 mM and V(max) of 653.3 nmol/mg/min for triolein with optimal activity between pH 8.0 and pH 9.0. LIPY was inhibited by active serine-directed reagents and was inactivated at temperatures above 37 degrees C. Detergents above their critical micellar concentrations and divalent cations inhibited the activity of LIPY. The N-terminal half of LIPY showed sequence homology with the proline glutamic acid-polymorphic GC-rich repetitive sequences protein family of M. tuberculosis. The C-terminal half of LIPY possesses amino acid domains homologous with the hormone-sensitive lipase family and the conserved active-site motif GDSAG. LIPY shows low sequence identity with the annotated lipases of M. tuberculosis and with other bacterial lipases. We demonstrate that hypoxic cultures of M. tuberculosis, which had accumulated TG, hydrolyzed the stored TG when subjected to nutrient starvation. Under such conditions, lipY was induced more than all lipases, suggesting a central role for it in the utilization of stored TG. We also show that in the lipY-deficient mutant, TG utilization was drastically decreased under nutrient-deprived condition. Thus, LIPY may be responsible for the utilization of stored TG during dormancy and reactivation of the pathogen.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1523426 | PMC |
| http://dx.doi.org/10.1074/jbc.M505556200 | DOI Listing |
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