Functional assignment of enzymes encoded by the Mycobacterium tuberculosis genome is largely incomplete despite recent advances in genomics and bioinformatics. Here, we applied an activity-based metabolomic profiling method to assign function to a unique phosphatase, Rv1692. In contrast to its annotation as a nucleotide phosphatase, metabolomic profiling and kinetic characterization indicate that Rv1692 is a D,L-glycerol 3-phosphate phosphatase. Crystal structures of Rv1692 reveal a unique architecture, a fusion of a predicted haloacid dehalogenase fold with a previously unidentified GCN5-related N-acetyltransferase region. Although not directly involved in acetyl transfer, or regulation of enzymatic activity in vitro, this GCN5-related N-acetyltransferase region is critical for the solubility of the phosphatase. Structural and biochemical analysis shows that the active site features are adapted for recognition of small polyol phosphates, and not nucleotide substrates. Functional assignment and metabolomic studies of M. tuberculosis lacking rv1692 demonstrate that Rv1692 is the final enzyme involved in glycerophospholipid recycling/catabolism, a pathway not previously described in M. tuberculosis.
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| http://dx.doi.org/10.1073/pnas.1221597110 | DOI Listing |
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Article Synopsis
- The study explores the role of glycerol-3-phosphate phosphatase (G3PP) in male fertility, highlighting its crucial expression in the testis and sperm, especially during spermatogenesis.
- Researchers found that male mice lacking G3PP (cG3PP-KO) are infertile due to dysfunctional sperm with poor motility and increased oxidative stress, while a tamoxifen-inducible version (icG3PP-KO) maintained some fertility due to a small number of normal sperm.
- The results suggest that G3PP is vital for sperm function and health, as its absence leads to abnormal sperm production and metabolism, impacting overall male fertility.
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