A novel thymidylate synthase from the Vibrionales, Alteromonadales, Aeromonadales, and Pasteurellales (VAAP) clade with altered nucleotide and folate binding sites

Thymidylate synthase (TS, E.C. 2.1.1.45) is a crucial enzyme for de novo deoxythymidine monophosphate (dTMP) biosynthesis. The gene for this enzyme is thyA, which encodes the folate-dependent TS that converts deoxyuridine monophosphate group (dUMP) into (dTMP) using the cofactor 5,10-methylenetetrah...

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Autores principales: Lopez-Zavala, Alonso A., Guevara-Hernandez, Eduardo, Vazquez-Lujan, Luz H., Sanchez-Paz, Arturo, Garcia-Orozco, Karina D., Contreras-Vergara, Carmen A., Lopez-Leal, Gamaliel, Arvizu-Flores, Aldo A., Ochoa-Leyva, Adrian, Sotelo-Mundo, Rogerio R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: PeerJ Inc. 2018
Materias:
Aquaculture, Fisheries and Fish Science
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6005164/
https://www.ncbi.nlm.nih.gov/pubmed/29922516
http://dx.doi.org/10.7717/peerj.5023
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author Lopez-Zavala, Alonso A.
Guevara-Hernandez, Eduardo
Vazquez-Lujan, Luz H.
Sanchez-Paz, Arturo
Garcia-Orozco, Karina D.
Contreras-Vergara, Carmen A.
Lopez-Leal, Gamaliel
Arvizu-Flores, Aldo A.
Ochoa-Leyva, Adrian
Sotelo-Mundo, Rogerio R.
author_facet Lopez-Zavala, Alonso A.
Guevara-Hernandez, Eduardo
Vazquez-Lujan, Luz H.
Sanchez-Paz, Arturo
Garcia-Orozco, Karina D.
Contreras-Vergara, Carmen A.
Lopez-Leal, Gamaliel
Arvizu-Flores, Aldo A.
Ochoa-Leyva, Adrian
Sotelo-Mundo, Rogerio R.
author_sort Lopez-Zavala, Alonso A.
collection PubMed
description Thymidylate synthase (TS, E.C. 2.1.1.45) is a crucial enzyme for de novo deoxythymidine monophosphate (dTMP) biosynthesis. The gene for this enzyme is thyA, which encodes the folate-dependent TS that converts deoxyuridine monophosphate group (dUMP) into (dTMP) using the cofactor 5,10-methylenetetrahydrofolate (mTHF) as a carbon donor. We identified the thyA gene in the genome of the Vibrio parahaemolyticus strain FIM-S1708+ that is innocuous to humans but pathogenic to crustaceans. Surprisingly, we found changes in the residues that bind the substrate dUMP and mTHF, previously postulated as invariant among all TSs known (Finer-Moore, Santi & Stroud, 2003). Interestingly, those amino acid changes were also found in a clade of microorganisms that contains Vibrionales, Alteromonadales, Aeromonadales, and Pasteurellales (VAAP) from the Gammaproteobacteria class. In this work, we studied the biochemical properties of recombinant TS from V. parahemolyticus FIM-S1708+ (VpTS) to address the natural changes in the TS amino acid sequence of the VAAP clade. Interestingly, the K(m) for dUMP was 27.3 ± 4.3 µM, about one-fold larger compared to other TSs. The K(m) for mTHF was 96.3 ± 18 µM, about three- to five-fold larger compared to other species, suggesting also loss of affinity. Thus, the catalytic efficiency was between one or two orders of magnitude smaller for both substrates. We used trimethoprim, a common antibiotic that targets both TS and DHFR for inhibition studies. The IC(50) values obtained were high compared to other results in the literature. Nonetheless, this molecule could be a lead for the design antibiotics towards pathogens from the VAAP clade. Overall, the experimental results also suggest that in the VAAP clade the nucleotide salvage pathway is important and should be investigated, since the de novo dTMP synthesis appears to be compromised by a less efficient thymidylate synthase.
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spelling pubmed-60051642018-06-19 A novel thymidylate synthase from the Vibrionales, Alteromonadales, Aeromonadales, and Pasteurellales (VAAP) clade with altered nucleotide and folate binding sites Lopez-Zavala, Alonso A. Guevara-Hernandez, Eduardo Vazquez-Lujan, Luz H. Sanchez-Paz, Arturo Garcia-Orozco, Karina D. Contreras-Vergara, Carmen A. Lopez-Leal, Gamaliel Arvizu-Flores, Aldo A. Ochoa-Leyva, Adrian Sotelo-Mundo, Rogerio R. PeerJ Aquaculture, Fisheries and Fish Science Thymidylate synthase (TS, E.C. 2.1.1.45) is a crucial enzyme for de novo deoxythymidine monophosphate (dTMP) biosynthesis. The gene for this enzyme is thyA, which encodes the folate-dependent TS that converts deoxyuridine monophosphate group (dUMP) into (dTMP) using the cofactor 5,10-methylenetetrahydrofolate (mTHF) as a carbon donor. We identified the thyA gene in the genome of the Vibrio parahaemolyticus strain FIM-S1708+ that is innocuous to humans but pathogenic to crustaceans. Surprisingly, we found changes in the residues that bind the substrate dUMP and mTHF, previously postulated as invariant among all TSs known (Finer-Moore, Santi & Stroud, 2003). Interestingly, those amino acid changes were also found in a clade of microorganisms that contains Vibrionales, Alteromonadales, Aeromonadales, and Pasteurellales (VAAP) from the Gammaproteobacteria class. In this work, we studied the biochemical properties of recombinant TS from V. parahemolyticus FIM-S1708+ (VpTS) to address the natural changes in the TS amino acid sequence of the VAAP clade. Interestingly, the K(m) for dUMP was 27.3 ± 4.3 µM, about one-fold larger compared to other TSs. The K(m) for mTHF was 96.3 ± 18 µM, about three- to five-fold larger compared to other species, suggesting also loss of affinity. Thus, the catalytic efficiency was between one or two orders of magnitude smaller for both substrates. We used trimethoprim, a common antibiotic that targets both TS and DHFR for inhibition studies. The IC(50) values obtained were high compared to other results in the literature. Nonetheless, this molecule could be a lead for the design antibiotics towards pathogens from the VAAP clade. Overall, the experimental results also suggest that in the VAAP clade the nucleotide salvage pathway is important and should be investigated, since the de novo dTMP synthesis appears to be compromised by a less efficient thymidylate synthase. PeerJ Inc. 2018-06-15 /pmc/articles/PMC6005164/ /pubmed/29922516 http://dx.doi.org/10.7717/peerj.5023 Text en ©2018 Lopez-Zavala et al. http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, reproduction and adaptation in any medium and for any purpose provided that it is properly attributed. For attribution, the original author(s), title, publication source (PeerJ) and either DOI or URL of the article must be cited.
spellingShingle Aquaculture, Fisheries and Fish Science
Lopez-Zavala, Alonso A.
Guevara-Hernandez, Eduardo
Vazquez-Lujan, Luz H.
Sanchez-Paz, Arturo
Garcia-Orozco, Karina D.
Contreras-Vergara, Carmen A.
Lopez-Leal, Gamaliel
Arvizu-Flores, Aldo A.
Ochoa-Leyva, Adrian
Sotelo-Mundo, Rogerio R.
A novel thymidylate synthase from the Vibrionales, Alteromonadales, Aeromonadales, and Pasteurellales (VAAP) clade with altered nucleotide and folate binding sites
title A novel thymidylate synthase from the Vibrionales, Alteromonadales, Aeromonadales, and Pasteurellales (VAAP) clade with altered nucleotide and folate binding sites
title_full A novel thymidylate synthase from the Vibrionales, Alteromonadales, Aeromonadales, and Pasteurellales (VAAP) clade with altered nucleotide and folate binding sites
title_fullStr A novel thymidylate synthase from the Vibrionales, Alteromonadales, Aeromonadales, and Pasteurellales (VAAP) clade with altered nucleotide and folate binding sites
title_full_unstemmed A novel thymidylate synthase from the Vibrionales, Alteromonadales, Aeromonadales, and Pasteurellales (VAAP) clade with altered nucleotide and folate binding sites
title_short A novel thymidylate synthase from the Vibrionales, Alteromonadales, Aeromonadales, and Pasteurellales (VAAP) clade with altered nucleotide and folate binding sites
title_sort novel thymidylate synthase from the vibrionales, alteromonadales, aeromonadales, and pasteurellales (vaap) clade with altered nucleotide and folate binding sites
topic Aquaculture, Fisheries and Fish Science
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6005164/
https://www.ncbi.nlm.nih.gov/pubmed/29922516
http://dx.doi.org/10.7717/peerj.5023
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