1,2-Diacylglycerol choline phosphotransferase catalyzes the final step in the unique Treponema denticola phosphatidylcholine biosynthesis pathway.
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2016-12-23
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Abstract
Treponema denticola synthesizes phosphatidylcholine through a licCA-dependent CDP-choline pathway identified only in the genus Treponema. However, the mechanism of conversion of CDP-choline to phosphatidylcholine remained unclear. We report here characterization of TDE0021 (herein designated cpt) encoding a 1,2-diacylglycerol choline phosphotransferase homologous to choline phosphotransferases that catalyze the final step of the highly conserved Kennedy pathway for phosphatidylcholine synthesis in eukaryotes. T. denticola Cpt catalyzed in vitro phosphatidylcholine formation from CDP-choline and diacylglycerol, and full activity required divalent manganese. Allelic replacement mutagenesis of cpt in T. denticola resulted in abrogation of phosphatidylcholine synthesis. T. denticola Cpt complemented a Saccharomyces cerevisiae CPT1 mutant, and expression of the entire T. denticola LicCA-Cpt pathway in E. coli resulted in phosphatidylcholine biosynthesis. Our findings show that T. denticola possesses a unique phosphatidylcholine synthesis pathway combining conserved prokaryotic choline kinase and CTP:phosphocholine cytidylyltransferase activities with a 1,2-diacylglycerol choline phosphotransferase that is common in eukaryotes. Other than in a subset of mammalian host-associated Treponema that includes T. pallidum, this pathway is found in neither bacteria nor Archaea. Molecular dating analysis of the Cpt gene family suggests that a horizontal gene transfer event introduced this gene into an ancestral Treponema well after its divergence from other spirochetes.
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Vences-Guzmán, Miguel Ángel, M Paula Goetting-Minesky, Ziqiang Guan, Santiago Castillo-Ramirez, Luz América Córdoba-Castro, Isabel M López-Lara, Otto Geiger, Christian Sohlenkamp, et al. (2016). 1,2-Diacylglycerol choline phosphotransferase catalyzes the final step in the unique Treponema denticola phosphatidylcholine biosynthesis pathway. Mol Microbiol. 10.1111/mmi.13596 Retrieved from https://hdl.handle.net/10161/13290.
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Scholars@Duke
Ziqiang Guan
We develop and apply mass spectrometry techniques to address biochemical and biomedical questions that are lipid-related. Research projects include:
1) Structural lipidomics
o Develop and apply high resolution tandem mass spectrometry-based lipidomics for the discovery, structural elucidation and functional study of novel lipids.
2) Elucidation of novel pathways/enzymes of lipid biosynthesis and metabolism
o Genetic, biochemical and MS approaches are employed to identify the substrates and pathways involved in lipid biosynthesis and metabolism
3) Identification of lipid biomarkers of genetic diseases and cancers
o Provide molecular insights into the disease mechanisms, as well as to serve as the diagnostic and prognostic tools of diseases.
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