Understanding the role of dynamics in the iron sulfur cluster molecular machine
The bacterial proteins IscS, IscU and CyaY, the bacterial orthologue of frataxin, play an essential role in the biological machine that assembles the prosthetic FeS cluster groups on proteins. They form functionally binary and ternary complexes both in vivo and in vitro. Yet, the mechanism by which...
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| Published in | Biochimica et biophysica acta Vol. 1861; no. 1; pp. 3154 - 3163 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Netherlands
Elsevier B.V
01.01.2017
Elsevier Pub. Co |
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| Abstract | The bacterial proteins IscS, IscU and CyaY, the bacterial orthologue of frataxin, play an essential role in the biological machine that assembles the prosthetic FeS cluster groups on proteins. They form functionally binary and ternary complexes both in vivo and in vitro. Yet, the mechanism by which they work remains unclear.
We carried out extensive molecular dynamics simulations to understand the nature of their interactions and the role of dynamics starting from the crystal structure of a IscS-IscU complex and the experimentally-based model of a ternary IscS-IscU-CyaY complex and used nuclear magnetic resonance to experimentally test the interface.
We show that, while being firmly anchored to IscS, IscU has a pivotal motion around the interface. Our results also describe how the catalytic loop of IscS can flip conformation to allow FeS cluster assembly. This motion is hampered in the ternary complex explaining its inhibitory properties in cluster formation.
We conclude that the observed ‘fluid’ IscS-IscU interface provides the binary complex with a functional adaptability exploited in partner recognition and unravels the molecular determinants of the reported inhibitory action of CyaY in the IscS-IscU-CyaY complex explained in terms of the hampering effect on specific IscU-IscS movements.
Our study provides the first mechanistic basis to explain how the IscS-IscU complex selects its binding partners and supports the inhibitory role of CyaY in the ternary complex.
[Display omitted]
•IscU protomers show a pivotal motion around the interface with IscS, in complex.•Both IscS catalytic loop and IscU motion seem correlated with FeS cluster assembly.•Shuttling of the IscS catalytic loop is accompanied by a structural transition.•CyaY inhibits cluster formation by hampering the dynamics of the IscS-IscU complex. |
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| AbstractList | The bacterial proteins IscS, IscU and CyaY, the bacterial orthologue of frataxin, play an essential role in the biological machine that assembles the prosthetic FeS cluster groups on proteins. They form functionally binary and ternary complexes both in vivo and in vitro. Yet, the mechanism by which they work remains unclear.We carried out extensive molecular dynamics simulations to understand the nature of their interactions and the role of dynamics starting from the crystal structure of a IscS-IscU complex and the experimentally-based model of a ternary IscS-IscU-CyaY complex and used nuclear magnetic resonance to experimentally test the interface.We show that, while being firmly anchored to IscS, IscU has a pivotal motion around the interface. Our results also describe how the catalytic loop of IscS can flip conformation to allow FeS cluster assembly. This motion is hampered in the ternary complex explaining its inhibitory properties in cluster formation.We conclude that the observed ‘fluid’ IscS-IscU interface provides the binary complex with a functional adaptability exploited in partner recognition and unravels the molecular determinants of the reported inhibitory action of CyaY in the IscS-IscU-CyaY complex explained in terms of the hampering effect on specific IscU-IscS movements.Our study provides the first mechanistic basis to explain how the IscS-IscU complex selects its binding partners and supports the inhibitory role of CyaY in the ternary complex. The bacterial proteins IscS, IscU and CyaY, the bacterial orthologue of frataxin, play an essential role in the biological machine that assembles the prosthetic FeS cluster groups on proteins. They form functionally binary and ternary complexes both in vivo and in vitro. Yet, the mechanism by which they work remains unclear. We carried out extensive molecular dynamics simulations to understand the nature of their interactions and the role of dynamics starting from the crystal structure of a IscS-IscU complex and the experimentally-based model of a ternary IscS-IscU-CyaY complex and used nuclear magnetic resonance to experimentally test the interface. We show that, while being firmly anchored to IscS, IscU has a pivotal motion around the interface. Our results also describe how the catalytic loop of IscS can flip conformation to allow FeS cluster assembly. This motion is hampered in the ternary complex explaining its inhibitory properties in cluster formation. We conclude that the observed 'fluid' IscS-IscU interface provides the binary complex with a functional adaptability exploited in partner recognition and unravels the molecular determinants of the reported inhibitory action of CyaY in the IscS-IscU-CyaY complex explained in terms of the hampering effect on specific IscU-IscS movements. Our study provides the first mechanistic basis to explain how the IscS-IscU complex selects its binding partners and supports the inhibitory role of CyaY in the ternary complex. The bacterial proteins IscS, IscU and CyaY, the bacterial orthologue of frataxin, play an essential role in the biological machine that assembles the prosthetic FeS cluster groups on proteins. They form functionally binary and ternary complexes both in vivo and in vitro. Yet, the mechanism by which they work remains unclear.BACKGROUNDThe bacterial proteins IscS, IscU and CyaY, the bacterial orthologue of frataxin, play an essential role in the biological machine that assembles the prosthetic FeS cluster groups on proteins. They form functionally binary and ternary complexes both in vivo and in vitro. Yet, the mechanism by which they work remains unclear.We carried out extensive molecular dynamics simulations to understand the nature of their interactions and the role of dynamics starting from the crystal structure of a IscS-IscU complex and the experimentally-based model of a ternary IscS-IscU-CyaY complex and used nuclear magnetic resonance to experimentally test the interface.METHODSWe carried out extensive molecular dynamics simulations to understand the nature of their interactions and the role of dynamics starting from the crystal structure of a IscS-IscU complex and the experimentally-based model of a ternary IscS-IscU-CyaY complex and used nuclear magnetic resonance to experimentally test the interface.We show that, while being firmly anchored to IscS, IscU has a pivotal motion around the interface. Our results also describe how the catalytic loop of IscS can flip conformation to allow FeS cluster assembly. This motion is hampered in the ternary complex explaining its inhibitory properties in cluster formation.RESULTSWe show that, while being firmly anchored to IscS, IscU has a pivotal motion around the interface. Our results also describe how the catalytic loop of IscS can flip conformation to allow FeS cluster assembly. This motion is hampered in the ternary complex explaining its inhibitory properties in cluster formation.We conclude that the observed 'fluid' IscS-IscU interface provides the binary complex with a functional adaptability exploited in partner recognition and unravels the molecular determinants of the reported inhibitory action of CyaY in the IscS-IscU-CyaY complex explained in terms of the hampering effect on specific IscU-IscS movements.CONCLUSIONSWe conclude that the observed 'fluid' IscS-IscU interface provides the binary complex with a functional adaptability exploited in partner recognition and unravels the molecular determinants of the reported inhibitory action of CyaY in the IscS-IscU-CyaY complex explained in terms of the hampering effect on specific IscU-IscS movements.Our study provides the first mechanistic basis to explain how the IscS-IscU complex selects its binding partners and supports the inhibitory role of CyaY in the ternary complex.GENERAL SIGNIFICANCEOur study provides the first mechanistic basis to explain how the IscS-IscU complex selects its binding partners and supports the inhibitory role of CyaY in the ternary complex. Image 1 • IscU protomers show a pivotal motion around the interface with IscS, in complex. • Both IscS catalytic loop and IscU motion seem correlated with Fe—S cluster assembly. • Shuttling of the IscS catalytic loop is accompanied by a structural transition. • CyaY inhibits cluster formation by hampering the dynamics of the IscS-IscU complex. The bacterial proteins IscS, IscU and CyaY, the bacterial orthologue of frataxin, play an essential role in the biological machine that assembles the prosthetic FeS cluster groups on proteins. They form functionally binary and ternary complexes both in vivo and in vitro. Yet, the mechanism by which they work remains unclear. We carried out extensive molecular dynamics simulations to understand the nature of their interactions and the role of dynamics starting from the crystal structure of a IscS-IscU complex and the experimentally-based model of a ternary IscS-IscU-CyaY complex and used nuclear magnetic resonance to experimentally test the interface. We show that, while being firmly anchored to IscS, IscU has a pivotal motion around the interface. Our results also describe how the catalytic loop of IscS can flip conformation to allow FeS cluster assembly. This motion is hampered in the ternary complex explaining its inhibitory properties in cluster formation. We conclude that the observed ‘fluid’ IscS-IscU interface provides the binary complex with a functional adaptability exploited in partner recognition and unravels the molecular determinants of the reported inhibitory action of CyaY in the IscS-IscU-CyaY complex explained in terms of the hampering effect on specific IscU-IscS movements. Our study provides the first mechanistic basis to explain how the IscS-IscU complex selects its binding partners and supports the inhibitory role of CyaY in the ternary complex. [Display omitted] •IscU protomers show a pivotal motion around the interface with IscS, in complex.•Both IscS catalytic loop and IscU motion seem correlated with FeS cluster assembly.•Shuttling of the IscS catalytic loop is accompanied by a structural transition.•CyaY inhibits cluster formation by hampering the dynamics of the IscS-IscU complex. |
| Author | Chandramouli, Balasubramanian Brancato, Giuseppe Pastore, Annalisa di Maio, Danilo Yan, Robert |
| AuthorAffiliation | a Scuola Normale Superiore, Piazza dei Cavalieri 7, I-56126 Pisa, Italy c Department of Neuroscience, Wohl Institute, King's College London, Denmark Hill Campus, London SE5, UK b Istituto Nazionale di Fisica Nucleare (INFN) sezione di Pisa, Largo Bruno Pontecorvo 3, 56127 Pisa, Italy d Immunologia Patologia Generale Department, University of Pavia, Via Ferrata, 9, 27100 Pavia, Italy |
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| Author_xml | – sequence: 1 givenname: Danilo surname: di Maio fullname: di Maio, Danilo organization: Scuola Normale Superiore, Piazza dei Cavalieri 7, I-56126 Pisa, Italy – sequence: 2 givenname: Balasubramanian surname: Chandramouli fullname: Chandramouli, Balasubramanian organization: Scuola Normale Superiore, Piazza dei Cavalieri 7, I-56126 Pisa, Italy – sequence: 3 givenname: Robert surname: Yan fullname: Yan, Robert organization: Department of Neuroscience, Wohl Institute, King's College London, Denmark Hill Campus, London SE5, UK – sequence: 4 givenname: Giuseppe surname: Brancato fullname: Brancato, Giuseppe email: giuseppe.brancato@sns.it organization: Scuola Normale Superiore, Piazza dei Cavalieri 7, I-56126 Pisa, Italy – sequence: 5 givenname: Annalisa surname: Pastore fullname: Pastore, Annalisa email: annalisa.pastore@crick.ac.uk organization: Department of Neuroscience, Wohl Institute, King's College London, Denmark Hill Campus, London SE5, UK |
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| Keywords | NMR Iron-sulfur cluster biogenesis Frataxin MD RMSF Molecular dynamics RMSD Structure CyaY PCA ED |
| Language | English |
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| Snippet | The bacterial proteins IscS, IscU and CyaY, the bacterial orthologue of frataxin, play an essential role in the biological machine that assembles the... Image 1 • IscU protomers show a pivotal motion around the interface with IscS, in complex. • Both IscS catalytic loop and IscU motion seem correlated with Fe—S... |
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| SubjectTerms | bacterial proteins Biocatalysis Carbon-Sulfur Lyases - chemistry Carbon-Sulfur Lyases - metabolism crystal structure CyaY Escherichia coli - metabolism Escherichia coli Proteins - chemistry Escherichia coli Proteins - metabolism Frataxin Iron-sulfur cluster biogenesis Iron-Sulfur Proteins - chemistry Iron-Sulfur Proteins - metabolism Magnetic Resonance Spectroscopy Molecular dynamics nuclear magnetic resonance spectroscopy prostheses Protein Stability Protein Structure, Secondary Static Electricity Structure sulfur |
| Title | Understanding the role of dynamics in the iron sulfur cluster molecular machine |
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