Jasper Marc G. Bondoc scite author profile

Jasper Marc G. Bondoc

5Publications

37Citation Statements Received

185Citation Statements Given

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178

Affiliations

University of Illinois at Chicago

Publications

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Enzymatic Characterization of Fructose 1,6-Bisphosphatase II from Francisella tularensis, an Essential Enzyme for Pathogenesis

Gutka

Wolf

Bondoc

et al. 2017

Appl Biochem Biotechnol

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The glpX gene from Francisella tularensis encodes for the class II fructose 1,6-bisphosphatase (FBPaseII) enzyme. The glpX gene has been verified to be essential in F. tularensis, and the inactivation of this gene leads to impaired bacterial growth on gluconeogenic substrates. In the present work, we have complemented a ∆glpX mutant of Escherichia coli with the glpX gene of F. tularensis (FTF1631c). Our complementation work independently verifies that the glpX gene (FTF1631c) in F. tularensis is indeed an FBPase and supports the growth of the ΔglpX E. coli mutant on glycerol-containing media. We have performed heterologous expression and purification of the glpX encoded FBPaseII in F. tularensis. We have confirmed the function of glpX as an FBPase and optimized the conditions for enzymatic activity. Mn2+ was found to be an absolute requirement for activity, with no other metal substitutions rendering the enzyme active. The kinetic parameters for this enzyme were found as follows: Km 11 μM, Vmax 2.0 units/mg, kcat 1.2 s−1, kcat/Km 120 mM−1 s−1, and a specific activity of 2.0 units/mg. Size exclusion data suggested an abundance of a tetrameric species in solution. Our findings on the enzyme’s properties will facilitate the initial stages of a structure-based drug design program targeting this essential gene of F. tularensis.

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Mutagenesis of threonine to serine in the active site of Mycobacterium tuberculosis fructose-1,6-bisphosphatase (Class II) retains partial enzyme activity

Bondoc

Wolf

Ndichuck

et al. 2017

Biotechnology Reports

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HighlightsFructose-1,6-bisphosphatase (class II) is an essential enzyme and attractive drug target in M. tuberculosis using structure-based drug design.T84A mutagenesis in the active site of MtFBPase shows no enzyme activity and no change in binding affinity.T84S mutagenesis in the active site of MtFBPase results in reduced enzyme activity (lower Vmax), but retains lithium sensitive.The optimal position of the catalytic OH- from the essential Thr84 has likely been subtly altered, resulting in lower enzymatic efficiency.

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Inositol Monophosphatase: A Bifunctional Enzyme in Mycobacterium smegmatis

et al. 2018

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Inositol monophosphatase (IMPase) is a crucial enzyme for the biosynthesis of phosphatidylinositol, an essential component in mycobacterial cell walls. IMPase A (ImpA) from Mycobacterium smegmatis is a bifunctional enzyme that also functions as a fructose-1,6-bisphosphatase (FBPase). To better understand the bifunctional nature of this enzyme, point mutagenesis was conducted on several key residues and their enzyme activity was tested. Our results along with active site models support the fact that ImpA is a bifunctional enzyme with residues Gly94, Thr95 hypothesized to be contributing to the FBPase activity and residues Trp220, Asp221 hypothesized to be contributing to the IMPase activity. Double mutants, W220A + D221A reduced both FBPase and IMPase activity drastically while the double mutant G94A + T95A surprisingly partially restored the IMPase activity compared to the single mutants. This study establishes the foundation toward obtaining a better understanding of the bifunctional nature of this enzyme.

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Nanoparticles against resistant Pseudomonas spp.

Venegas

Bollaert

Jafari

et al. 2018

Microbial Pathogenesis

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Rv0100, a proposed acyl carrier protein in Mycobacterium tuberculosis: expression, purification and crystallization

et al. 2019

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