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In silico identification and characterization of the ion transport specificity for P-type ATPases in the Mycobacterium tuberculosis complex

BACKGROUND: P-type ATPases hydrolyze ATP and release energy that is used in the transport of ions against electrochemical gradients across plasma membranes, making these proteins essential for cell viability. Currently, the distribution and function of these ion transporters in mycobacteria are poor...

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Autores principales: Novoa-Aponte, Lorena, León-Torres, Andrés, Patiño-Ruiz, Miyer, Cuesta-Bernal, Jenifer, Salazar, Luz-Mary, Landsman, David, Mariño-Ramírez, Leonardo, Soto, Carlos-Yesid
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2012
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3573892/
https://www.ncbi.nlm.nih.gov/pubmed/23031689
http://dx.doi.org/10.1186/1472-6807-12-25
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author Novoa-Aponte, Lorena
León-Torres, Andrés
Patiño-Ruiz, Miyer
Cuesta-Bernal, Jenifer
Salazar, Luz-Mary
Landsman, David
Mariño-Ramírez, Leonardo
Soto, Carlos-Yesid
author_facet Novoa-Aponte, Lorena
León-Torres, Andrés
Patiño-Ruiz, Miyer
Cuesta-Bernal, Jenifer
Salazar, Luz-Mary
Landsman, David
Mariño-Ramírez, Leonardo
Soto, Carlos-Yesid
author_sort Novoa-Aponte, Lorena
collection PubMed
description BACKGROUND: P-type ATPases hydrolyze ATP and release energy that is used in the transport of ions against electrochemical gradients across plasma membranes, making these proteins essential for cell viability. Currently, the distribution and function of these ion transporters in mycobacteria are poorly understood. RESULTS: In this study, probabilistic profiles were constructed based on hidden Markov models to identify and classify P-type ATPases in the Mycobacterium tuberculosis complex (MTBC) according to the type of ion transported across the plasma membrane. Topology, hydrophobicity profiles and conserved motifs were analyzed to correlate amino acid sequences of P-type ATPases and ion transport specificity. Twelve candidate P-type ATPases annotated in the M. tuberculosis H37Rv proteome were identified in all members of the MTBC, and probabilistic profiles classified them into one of the following three groups: heavy metal cation transporters, alkaline and alkaline earth metal cation transporters, and the beta subunit of a prokaryotic potassium pump. Interestingly, counterparts of the non-catalytic beta subunits of Hydrogen/Potassium and Sodium/Potassium P-type ATPases were not found. CONCLUSIONS: The high content of heavy metal transporters found in the MTBC suggests that they could play an important role in the ability of M. tuberculosis to survive inside macrophages, where tubercle bacilli face high levels of toxic metals. Finally, the results obtained in this work provide a starting point for experimental studies that may elucidate the ion specificity of the MTBC P-type ATPases and their role in mycobacterial infections.
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spelling pubmed-35738922013-02-16 In silico identification and characterization of the ion transport specificity for P-type ATPases in the Mycobacterium tuberculosis complex Novoa-Aponte, Lorena León-Torres, Andrés Patiño-Ruiz, Miyer Cuesta-Bernal, Jenifer Salazar, Luz-Mary Landsman, David Mariño-Ramírez, Leonardo Soto, Carlos-Yesid BMC Struct Biol Research Article BACKGROUND: P-type ATPases hydrolyze ATP and release energy that is used in the transport of ions against electrochemical gradients across plasma membranes, making these proteins essential for cell viability. Currently, the distribution and function of these ion transporters in mycobacteria are poorly understood. RESULTS: In this study, probabilistic profiles were constructed based on hidden Markov models to identify and classify P-type ATPases in the Mycobacterium tuberculosis complex (MTBC) according to the type of ion transported across the plasma membrane. Topology, hydrophobicity profiles and conserved motifs were analyzed to correlate amino acid sequences of P-type ATPases and ion transport specificity. Twelve candidate P-type ATPases annotated in the M. tuberculosis H37Rv proteome were identified in all members of the MTBC, and probabilistic profiles classified them into one of the following three groups: heavy metal cation transporters, alkaline and alkaline earth metal cation transporters, and the beta subunit of a prokaryotic potassium pump. Interestingly, counterparts of the non-catalytic beta subunits of Hydrogen/Potassium and Sodium/Potassium P-type ATPases were not found. CONCLUSIONS: The high content of heavy metal transporters found in the MTBC suggests that they could play an important role in the ability of M. tuberculosis to survive inside macrophages, where tubercle bacilli face high levels of toxic metals. Finally, the results obtained in this work provide a starting point for experimental studies that may elucidate the ion specificity of the MTBC P-type ATPases and their role in mycobacterial infections. BioMed Central 2012-10-03 /pmc/articles/PMC3573892/ /pubmed/23031689 http://dx.doi.org/10.1186/1472-6807-12-25 Text en Copyright ©2012 Novoa-Aponte et al.; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Novoa-Aponte, Lorena
León-Torres, Andrés
Patiño-Ruiz, Miyer
Cuesta-Bernal, Jenifer
Salazar, Luz-Mary
Landsman, David
Mariño-Ramírez, Leonardo
Soto, Carlos-Yesid
In silico identification and characterization of the ion transport specificity for P-type ATPases in the Mycobacterium tuberculosis complex
title In silico identification and characterization of the ion transport specificity for P-type ATPases in the Mycobacterium tuberculosis complex
title_full In silico identification and characterization of the ion transport specificity for P-type ATPases in the Mycobacterium tuberculosis complex
title_fullStr In silico identification and characterization of the ion transport specificity for P-type ATPases in the Mycobacterium tuberculosis complex
title_full_unstemmed In silico identification and characterization of the ion transport specificity for P-type ATPases in the Mycobacterium tuberculosis complex
title_short In silico identification and characterization of the ion transport specificity for P-type ATPases in the Mycobacterium tuberculosis complex
title_sort in silico identification and characterization of the ion transport specificity for p-type atpases in the mycobacterium tuberculosis complex
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3573892/
https://www.ncbi.nlm.nih.gov/pubmed/23031689
http://dx.doi.org/10.1186/1472-6807-12-25
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