Cracking Controls ATP Hydrolysis in the Catalytic Unit of a P-type ATPase

[Display omitted] •The isolated AfCopA-NP catalytic unit conserves its optimal working temperature and apparent affinity for ATP.•Small additions of urea increase ATPase activity.•A characterization of the native conformational ensemble was performed by a combination of local frustration and AlphaFo...

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Published in:Journal of molecular biology Vol. 438; no. 2; p. 169551
Main Authors: Placenti, M. Agueda, Martinez-Gache, Santiago A., González-Lebrero, Rodolfo M., Wolynes, Peter G., González Flecha, F. Luis, Roman, Ernesto A.
Format: Journal Article
Language:English
Published: Netherlands Elsevier Ltd 20.11.2025
Subjects:
ATPase activity
catalytic unit
local frustration
local unfolding
PIB-ATPases
local frustration
PIB-ATPases
catalytic unit
ATPase activity
local unfolding
P(IB)-ATPases
ISSN:0022-2836, 1089-8638, 1089-8638
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Abstract [Display omitted] •The isolated AfCopA-NP catalytic unit conserves its optimal working temperature and apparent affinity for ATP.•Small additions of urea increase ATPase activity.•A characterization of the native conformational ensemble was performed by a combination of local frustration and AlphaFold2 analysis.•A detailed kinetic model is proposed to account the effects of urea, temperature and ATP.•Our results suggest a cracking-like mechanism in the modulation of the ATPase activity. Membrane transporters are essential for homeostasis and among them P-type ATPases are key players. Despite extensive research, conformational changes in their catalytic unit and their coupling to ATP hydrolysis are not explored in detail. In this work, we analyzed the effect of ATP, temperature, and urea on the steady-state ATPase activity, tryptophan fluorescence and far-UV ellipticity of the catalytic unit of the thermophilic Cu(I) transport P1B-ATPase from Archaeoglobus fulgidus. Combining local frustration analysis with AlphaFold2 structure prediction, we identified an open conformation which we used to perform structure-based model simulations of the open-closed transition. We developed a mechanistic model that fully describes all of our experimental observations. Our results revealed a “cracking”-like mechanism involved in the catalysis of ATP hydrolysis. These findings reinforce that, although simple, the isolated catalytic unit is a relevant model to study the role of local unfolding in the catalytic mechanism of these proteins.
AbstractList [Display omitted] •The isolated AfCopA-NP catalytic unit conserves its optimal working temperature and apparent affinity for ATP.•Small additions of urea increase ATPase activity.•A characterization of the native conformational ensemble was performed by a combination of local frustration and AlphaFold2 analysis.•A detailed kinetic model is proposed to account the effects of urea, temperature and ATP.•Our results suggest a cracking-like mechanism in the modulation of the ATPase activity. Membrane transporters are essential for homeostasis and among them P-type ATPases are key players. Despite extensive research, conformational changes in their catalytic unit and their coupling to ATP hydrolysis are not explored in detail. In this work, we analyzed the effect of ATP, temperature, and urea on the steady-state ATPase activity, tryptophan fluorescence and far-UV ellipticity of the catalytic unit of the thermophilic Cu(I) transport P1B-ATPase from Archaeoglobus fulgidus. Combining local frustration analysis with AlphaFold2 structure prediction, we identified an open conformation which we used to perform structure-based model simulations of the open-closed transition. We developed a mechanistic model that fully describes all of our experimental observations. Our results revealed a “cracking”-like mechanism involved in the catalysis of ATP hydrolysis. These findings reinforce that, although simple, the isolated catalytic unit is a relevant model to study the role of local unfolding in the catalytic mechanism of these proteins.
Membrane transporters are essential for homeostasis and among them P-type ATPases are key players. Despite extensive research, conformational changes in their catalytic unit and their coupling to ATP hydrolysis are not explored in detail. In this work, we analyzed the effect of ATP, temperature, and urea on the steady-state ATPase activity, tryptophan fluorescence and far-UV ellipticity of the catalytic unit of the thermophilic Cu(I) transport P -ATPase from Archaeoglobus fulgidus. Combining local frustration analysis with AlphaFold2 structure prediction, we identified an open conformation which we used to perform structure-based model simulations of the open-closed transition. We developed a mechanistic model that fully describes all of our experimental observations. Our results revealed a "cracking"-like mechanism involved in the catalysis of ATP hydrolysis. These findings reinforce that, although simple, the isolated catalytic unit is a relevant model to study the role of local unfolding in the catalytic mechanism of these proteins.
Membrane transporters are essential for homeostasis and among them P-type ATPases are key players. Despite extensive research, conformational changes in their catalytic unit and their coupling to ATP hydrolysis are not explored in detail. In this work, we analyzed the effect of ATP, temperature, and urea on the steady-state ATPase activity, tryptophan fluorescence and far-UV ellipticity of the catalytic unit of the thermophilic Cu(I) transport P1B-ATPase from Archaeoglobus fulgidus. Combining local frustration analysis with AlphaFold2 structure prediction, we identified an open conformation which we used to perform structure-based model simulations of the open-closed transition. We developed a mechanistic model that fully describes all of our experimental observations. Our results revealed a "cracking"-like mechanism involved in the catalysis of ATP hydrolysis. These findings reinforce that, although simple, the isolated catalytic unit is a relevant model to study the role of local unfolding in the catalytic mechanism of these proteins.Membrane transporters are essential for homeostasis and among them P-type ATPases are key players. Despite extensive research, conformational changes in their catalytic unit and their coupling to ATP hydrolysis are not explored in detail. In this work, we analyzed the effect of ATP, temperature, and urea on the steady-state ATPase activity, tryptophan fluorescence and far-UV ellipticity of the catalytic unit of the thermophilic Cu(I) transport P1B-ATPase from Archaeoglobus fulgidus. Combining local frustration analysis with AlphaFold2 structure prediction, we identified an open conformation which we used to perform structure-based model simulations of the open-closed transition. We developed a mechanistic model that fully describes all of our experimental observations. Our results revealed a "cracking"-like mechanism involved in the catalysis of ATP hydrolysis. These findings reinforce that, although simple, the isolated catalytic unit is a relevant model to study the role of local unfolding in the catalytic mechanism of these proteins.
ArticleNumber 169551
Author Wolynes, Peter G.
Placenti, M. Agueda
González-Lebrero, Rodolfo M.
Roman, Ernesto A.
González Flecha, F. Luis
Martinez-Gache, Santiago A.
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  surname: Placenti
  fullname: Placenti, M. Agueda
  organization: Universidad de Buenos Aires, Facultad de Farmacia y Bioquímica, Junín 954 –C1113AAD C.A.B.A., Argentina
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  givenname: Santiago A.
  surname: Martinez-Gache
  fullname: Martinez-Gache, Santiago A.
  organization: Universidad de Buenos Aires, Facultad de Farmacia y Bioquímica, Junín 954 –C1113AAD C.A.B.A., Argentina
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  surname: González-Lebrero
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  givenname: Peter G.
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  givenname: F. Luis
  surname: González Flecha
  fullname: González Flecha, F. Luis
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  organization: Universidad de Buenos Aires, Facultad de Farmacia y Bioquímica, Junín 954 –C1113AAD C.A.B.A., Argentina
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  givenname: Ernesto A.
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  surname: Roman
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  email: ernest.roman@gmail.com
  organization: Universidad de Buenos Aires, Facultad de Ciencias Exactas y Naturales, Intendente Güiraldes 2160 – Ciudad Universitaria, 1428EGA C.A.B.A., Argentina
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Keywords local frustration
PIB-ATPases
catalytic unit
ATPase activity
local unfolding
P(IB)-ATPases
Language English
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Snippet [Display omitted] •The isolated AfCopA-NP catalytic unit conserves its optimal working temperature and apparent affinity for ATP.•Small additions of urea...
Membrane transporters are essential for homeostasis and among them P-type ATPases are key players. Despite extensive research, conformational changes in their...
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StartPage 169551
SubjectTerms ATPase activity
catalytic unit
local frustration
local unfolding
PIB-ATPases
Title Cracking Controls ATP Hydrolysis in the Catalytic Unit of a P-type ATPase
URI https://dx.doi.org/10.1016/j.jmb.2025.169551
https://www.ncbi.nlm.nih.gov/pubmed/41274548
https://www.proquest.com/docview/3274588050
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