Ronnie Bourland scite author profile

Ronnie Bourland

2Publications

16Citation Statements Received

206Citation Statements Given

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205

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Texas A&M University, Texas College

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Structural insights into phosphopantetheinyl hydrolase PptH from Mycobacterium tuberculosis

et al. 2020

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The amidinourea 8918 was recently reported to inhibit the type II phosphopantetheinyl transferase (PPTase) of Mycobacterium tuberculosis (Mtb), PptT, a potential drug‐target that activates synthases and synthetases involved in cell wall biosynthesis and secondary metabolism. Surprisingly, high‐level resistance to 8918 occurred in Mtb harboring mutations within the gene adjacent to pptT, rv2795c, highlighting the role of the encoded protein as a potentiator of the bactericidal action of the amidinourea. Those studies revealed that Rv2795c (PptH) is a phosphopantetheinyl (PpT) hydrolase, possessing activity antagonistic with respect to PptT. We have solved the crystal structure of Mtb's phosphopantetheinyl hydrolase, making it the first phosphopantetheinyl (carrier protein) hydrolase structurally characterized. The 2.5 Å structure revealed the hydrolases' four‐layer (α/β/β/α) sandwich fold featuring a Mn‐Fe binuclear center within the active site. A structural similarity search confirmed that PptH most closely resembles previously characterized metallophosphoesterases (MPEs), particularly within the vicinity of the active site, suggesting that it may utilize a similar catalytic mechanism. In addition, analysis of the structure has allowed for the rationalization of the previously reported PptH mutations associated with 8918‐resistance. Notably, differences in the sequences and predicted structural characteristics of the PpT hydrolases PptH of Mtb and E. coli's acyl carrier protein hydrolase (AcpH) indicate that the two enzymes evolved convergently and therefore are representative of two distinct PpT hydrolase families.

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Characterization of Phosphopantetheinyl Hydrolase from Mycobacterium tuberculosis

et al. 2021

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Tuberculosis (TB), caused by Mycobacterium tuberculosis , was the leading cause of death from an infectious disease before COVID, yet the in vivo essentiality and function of many of the protein-encoding genes expressed by M. tuberculosis are not known. We biochemically characterize M. tuberculosis ’s phosphopantetheinyl hydrolase, PptH, a protein unique to mycobacteria that removes an essential posttranslational modification on proteins involved in synthesis of lipids important for the bacterium’s cell wall and virulence.

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Ronnie Bourland

Structural insights into phosphopantetheinyl hydrolase PptH from Mycobacterium tuberculosis

Characterization of Phosphopantetheinyl Hydrolase from Mycobacterium tuberculosis

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