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1.
Inorg Chem ; 63(42): 19607-19618, 2024 Oct 21.
Artículo en Inglés | MEDLINE | ID: mdl-39384553

RESUMEN

SufU, a component of the SufCDSUB Fe-S cluster biosynthetic system, serves as a Zn-dependent sulfur-carrying protein that delivers inorganic sulfur in the form of cysteine persulfide from SufS to SufBCD. To understand this sulfur delivery mechanism, we studied the X-ray crystal structure of SufU and its sulfur-carrying state (persulfurated SufU) and performed functional analysis of the conserved amino acid residues around the Zn sites. Interestingly, sulfur-carrying SufU with Cys41-persulfide (Cys41-Sγ-Sδ-) exhibited a unique Zn coordination structure, in which electrophilic Sγ is ligated to Zn and nucleophilic/anionic Sδ is bound to distally conserved Arg125. This structure is distinct from those of other Cys-persulfide-Sδ-ligated metals of metalloproteins, such as hybrid cluster proteins and SoxAX. Functional analysis of SufU variants with Zn-ligand and Arg125 substitutions revealed that both Zn and Arg125 are critical for the function of SufU with SufS. The Zn-persulfide structure of SufU provides insight into the sulfur-transfer process, suggesting that persulfide-Sδ- is stabilized via bridging by Zn and Arg125 of SufU.


Asunto(s)
Cisteína , Proteínas Hierro-Azufre , Sulfuros , Azufre , Zinc , Cisteína/química , Cisteína/análogos & derivados , Zinc/química , Azufre/química , Proteínas Hierro-Azufre/química , Proteínas Hierro-Azufre/metabolismo , Sulfuros/química , Sulfuros/metabolismo , Modelos Moleculares , Cristalografía por Rayos X , Proteínas Bacterianas/química , Proteínas Bacterianas/metabolismo , Complejos de Coordinación/química , Complejos de Coordinación/síntesis química , Complejos de Coordinación/metabolismo , Disulfuros
2.
Mol Microbiol ; 115(4): 807-818, 2021 04.
Artículo en Inglés | MEDLINE | ID: mdl-33202070

RESUMEN

IscU is a central component of the ISC machinery and serves as a scaffold for de novo assembly of Fe-S clusters. The dedicated chaperone system composed of the Hsp70-chaperone HscA and the J-protein cochaperone HscB synergistically interacts with IscU and facilitates cluster transfer from IscU to recipient apo-proteins. Here, we report that the otherwise essential roles of HscA and HscB can be bypassed in vivo by a number of single amino acid substitutions in IscU. CD spectroscopic studies of the variant IscU proteins capable of this bypass activity revealed dynamic interconversion between two conformations: the denatured (D) and the structured (S) state in the absence and presence of Zn2+ , respectively, which was far more prominent than interconversion observed in wild-type IscU. Furthermore, we found that neither the S-shifted (more structured) variants of IscU nor the perpetually denatured variants could perform their in vivo role regardless of whether the chaperone system was present or not. The present study thus provides for the first time evidence that an in vivo D-state of IscU exists and implies that conformational interconversion between the S- and D-states of the scaffolding protein is a fundamental requirement for the assembly and transfer of the Fe-S cluster.


Asunto(s)
Proteínas de Escherichia coli/genética , Proteínas de Escherichia coli/metabolismo , Escherichia coli/fisiología , Proteínas HSP70 de Choque Térmico/metabolismo , Proteínas de Choque Térmico/metabolismo , Proteínas Hierro-Azufre/metabolismo , Sustitución de Aminoácidos , Escherichia coli/química , Proteínas de Escherichia coli/química , Proteínas HSP70 de Choque Térmico/genética , Proteínas de Choque Térmico/genética , Proteínas Hierro-Azufre/química , Proteínas Hierro-Azufre/genética , Modelos Moleculares , Mutación , Fenotipo , Conformación Proteica , Desnaturalización Proteica , Dominios y Motivos de Interacción de Proteínas , Zinc/química , Zinc/metabolismo
3.
Biochemistry ; 60(20): 1569-1572, 2021 05 25.
Artículo en Inglés | MEDLINE | ID: mdl-33938220

RESUMEN

IscU serves as a scaffold for the de novo assembly of a [2Fe-2S] cluster prior to its delivery to recipient protein. It has also been proposed that on one dimer of bacterial IscU, two [2Fe-2S] clusters can be converted into a single [4Fe-4S] cluster. However, lack of structural information about the dimeric state of IscU has hindered our understanding of the underlying mechanisms. In this study, we determine the X-ray crystal structure of IscU from the thermophilic archaeon Methanothrix thermoacetophila and demonstrate a dimer structure of IscU in which two [2Fe-2S] clusters are facing each other in close proximity at the dimer interface. Our structure also reveals for the first time that Asp40 serves as a fourth ligand to the [2Fe-2S] cluster with three Cys ligands in each monomer, consistent with previous spectroscopic data. We confirm by EPR spectroscopic analysis that in solution two adjacent [2Fe-2S] clusters in the wild-type dimer are converted to a [4Fe-4S] cluster via reductive coupling. Furthermore, we find that the H106A substitution abolishes the reductive conversion to the [4Fe-4S] cluster without structural alteration, suggesting that His106 is functionally involved in this process. Overall, these findings provide a structural explanation for the assembly and conversion of Fe-S clusters on IscU and highlight a dynamic process that advances via association and dissociation of the IscU dimer.


Asunto(s)
Proteínas de Escherichia coli/metabolismo , Proteínas Hierro-Azufre/metabolismo , Methanosarcinaceae/metabolismo , Espectroscopía de Resonancia por Spin del Electrón/métodos , Proteínas de Escherichia coli/fisiología , Hierro/metabolismo , Proteínas Hierro-Azufre/fisiología , Relación Estructura-Actividad , Azufre/metabolismo
4.
J Am Chem Soc ; 139(51): 18464-18467, 2017 12 27.
Artículo en Inglés | MEDLINE | ID: mdl-29235855

RESUMEN

SufU is a zinc-containing protein involved in mobilization of sulfur from SufS for iron-sulfur cluster biogenesis of Bacillus subtilis. Structural basis for the sulfur transfer in SufS-SufU complex was revealed. A zinc-ligand exchange reaction upon SufS-SufU complexation provides a free thiol from Cys41 of SufU as a sulfur acceptor.


Asunto(s)
Bacillus subtilis/metabolismo , Proteínas Bacterianas/química , Proteínas Bacterianas/metabolismo , Proteínas Hierro-Azufre/química , Proteínas Hierro-Azufre/metabolismo , Azufre/metabolismo , Zinc/metabolismo , Cisteína/química , Cisteína/metabolismo , Ligandos
5.
Biophys Physicobiol ; 19: 1-18, 2022.
Artículo en Inglés | MEDLINE | ID: mdl-35377584

RESUMEN

Cysteine desulfurases are pyridoxal-5'-phosphate (PLP)-dependent enzymes that mobilize sulfur derived from the l-cysteine substrate to the partner sulfur acceptor proteins. Three cysteine desulfurases, IscS, NifS, and SufS, have been identified in ISC, NIF, and SUF/SUF-like systems for iron-sulfur (Fe-S) cluster biosynthesis, respectively. These cysteine desulfurases have been investigated over decades, providing insights into shared/distinct catalytic processes based on two types of enzymes (type I: IscS and NifS, type II: SufS). This review summarizes the insights into the structural/functional varieties of bacterial and eukaryotic cysteine desulfurases involved in Fe-S cluster biosynthetic systems. In addition, an inactive cysteine desulfurase IscS paralog, which contains pyridoxamine-5'-phosphate (PMP), instead of PLP, is also described to account for its hypothetical function in Fe-S cluster biosynthesis involving this paralog. The structural basis for cysteine desulfurase functions will be a stepping stone towards understanding the diversity and evolution of Fe-S cluster biosynthesis.

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