A quantitative model for oxygen uptake and release in a family of hemeproteins

Motivation: Hemeproteins have many diverse functions that largely depend on the rate at which they uptake or release small ligands, like oxygen. These proteins have been extensively studied using either simulations or experiments, albeit only qualitatively and one or two proteins at a time. Results:...

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Autores principales:	Bustamante, J.P., Szretter, M.E., Sued, M., Martí, M.A., Estrin, D.A., Boechi, L.
Formato:	JOUR
Materias:	hemoprotein ligand oxygen truncated hemoglobin kinetics metabolism Hemeproteins Kinetics Ligands Oxygen Truncated Hemoglobins
Acceso en línea:	http://hdl.handle.net/20.500.12110/paper_13674803_v32_n12_p1805_Bustamante
Aporte de:	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires

id	todo:paper_13674803_v32_n12_p1805_Bustamante
record_format	dspace
spelling	todo:paper_13674803_v32_n12_p1805_Bustamante2023-10-03T16:11:33Z A quantitative model for oxygen uptake and release in a family of hemeproteins Bustamante, J.P. Szretter, M.E. Sued, M. Martí, M.A. Estrin, D.A. Boechi, L. hemoprotein ligand oxygen truncated hemoglobin kinetics metabolism Hemeproteins Kinetics Ligands Oxygen Truncated Hemoglobins Motivation: Hemeproteins have many diverse functions that largely depend on the rate at which they uptake or release small ligands, like oxygen. These proteins have been extensively studied using either simulations or experiments, albeit only qualitatively and one or two proteins at a time. Results: We present a physical-chemical model, which uses data obtained exclusively from computer simulations, to describe the uptake and release of oxygen in a family of hemeproteins, called truncated hemoglobins (trHbs). Through a rigorous statistical analysis we demonstrate that our model successfully recaptures all the reported experimental oxygen association and dissociation kinetic rate constants, thus allowing us to establish the key factors that determine the rates at which these hemeproteins uptake and release oxygen. We found that internal tunnels as well as the distal site water molecules control ligand uptake, whereas oxygen stabilization by distal site residues controls ligand release. Because these rates largely determine the functions of these hemeproteins, these approaches will also be important tools in characterizing the trHbs members with unknown functions. © 2016 The Author 2016. Fil:Bustamante, J.P. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Sued, M. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Martí, M.A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Estrin, D.A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Boechi, L. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_13674803_v32_n12_p1805_Bustamante
institution	Universidad de Buenos Aires
institution_str	I-28
repository_str	R-134
collection	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic	hemoprotein ligand oxygen truncated hemoglobin kinetics metabolism Hemeproteins Kinetics Ligands Oxygen Truncated Hemoglobins
spellingShingle	hemoprotein ligand oxygen truncated hemoglobin kinetics metabolism Hemeproteins Kinetics Ligands Oxygen Truncated Hemoglobins Bustamante, J.P. Szretter, M.E. Sued, M. Martí, M.A. Estrin, D.A. Boechi, L. A quantitative model for oxygen uptake and release in a family of hemeproteins
topic_facet	hemoprotein ligand oxygen truncated hemoglobin kinetics metabolism Hemeproteins Kinetics Ligands Oxygen Truncated Hemoglobins
description	Motivation: Hemeproteins have many diverse functions that largely depend on the rate at which they uptake or release small ligands, like oxygen. These proteins have been extensively studied using either simulations or experiments, albeit only qualitatively and one or two proteins at a time. Results: We present a physical-chemical model, which uses data obtained exclusively from computer simulations, to describe the uptake and release of oxygen in a family of hemeproteins, called truncated hemoglobins (trHbs). Through a rigorous statistical analysis we demonstrate that our model successfully recaptures all the reported experimental oxygen association and dissociation kinetic rate constants, thus allowing us to establish the key factors that determine the rates at which these hemeproteins uptake and release oxygen. We found that internal tunnels as well as the distal site water molecules control ligand uptake, whereas oxygen stabilization by distal site residues controls ligand release. Because these rates largely determine the functions of these hemeproteins, these approaches will also be important tools in characterizing the trHbs members with unknown functions. © 2016 The Author 2016.
format	JOUR
author	Bustamante, J.P. Szretter, M.E. Sued, M. Martí, M.A. Estrin, D.A. Boechi, L.
author_facet	Bustamante, J.P. Szretter, M.E. Sued, M. Martí, M.A. Estrin, D.A. Boechi, L.
author_sort	Bustamante, J.P.
title	A quantitative model for oxygen uptake and release in a family of hemeproteins
title_short	A quantitative model for oxygen uptake and release in a family of hemeproteins
title_full	A quantitative model for oxygen uptake and release in a family of hemeproteins
title_fullStr	A quantitative model for oxygen uptake and release in a family of hemeproteins
title_full_unstemmed	A quantitative model for oxygen uptake and release in a family of hemeproteins
title_sort	quantitative model for oxygen uptake and release in a family of hemeproteins
url	http://hdl.handle.net/20.500.12110/paper_13674803_v32_n12_p1805_Bustamante
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A quantitative model for oxygen uptake and release in a family of hemeproteins

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