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Wu G  Mansy SS  Wu Sp SP  Surerus KK  Foster MW  Cowan JA 《Biochemistry》2002,41(15):5024-5032
Genetic studies of bacteria and eukaryotes have led to identification of several gene products that are involved in the biosynthesis of protein-bound iron-sulfur clusters. One of these proteins, ISU, is homologous to the N-terminus of bacterial NifU. The mature forms of His-tagged wild-type and D37A Schizosaccharomyces pombe ISU1 were cloned and overexpressed as inclusion bodies in Escherichia coli. The recombinant D37A protein was purified under denaturing conditions and subsequently reconstituted in vitro. By use of a 5-fold excess of iron and sulfide the reconstituted product was found to be red-brown in color, forming a homodimer of 17 kDa per subunit with approximately two iron atoms per monomer determined by protein and iron quantitation. UV-vis absorption and M?ssbauer spectroscopies (delta = 0.29 +/- 0.05 mm/s; DeltaE(Q) = 0.59 +/- 0.05 mm/s) were used to characterize D37A ISU1 and show the presence of [2Fe-2S](2+) clusters in each subunit. Formation of the holo form of wild-type ISU1 was significantly less efficient using the same reconstitution conditions and is consistent with prior observations that the D37A substitution can stabilize protein-bound clusters. Relative to the human homologue, the yeast ISU is significantly less soluble at ambient temperatures. In both cases the native ISU1 is more sensitive to proton-mediated degradation relative to the D37A derivative. The lability of this family of proteins relative to [2Fe-2S] bearing ferredoxins most likely is of functional relevance for cluster transfer chemistry. M?ssbauer parameters obtained for wild-type ISU1 (delta = 0.31 +/- 0.05 mm/s; DeltaE(Q) = 0.64 +/- 0.05 mm/s) were similar to those obtained for the D37A derivative. Cluster transfer from ISU1 to apo Fd is demonstrated: the first example of transfer from an ISU-type protein. A lower limit for k(2) of 80 M(-1) min(-1) was established for WT cluster transfer and a value of 18 M(-1) min(-1) for the D37A derivative. Finally, we have demonstrated through cross-linking studies that ferredoxin, an electron-transport protein, forms a complex with ISU1 in both apo and holo states. Cross-linking of holo ISU1 with holo Fd is consistent with a role for redox chemistry in cluster assembly and may mimic the intramolecular complex already defined in NifU.  相似文献   

3.
SufA is a component of the recently discovered suf operon, which has been shown to play an important function in bacteria during iron-sulfur cluster biosynthesis and resistance to oxidative stress. The SufA protein from Erwinia chrysanthemi, a Gram-negative plant pathogen, has been purified to homogeneity and characterized. It is a homodimer with the ability to assemble rather labile [2Fe-2S] and [4Fe-4S] clusters as shown by M?ssbauer spectroscopy. These clusters can be transferred to apoproteins such as ferredoxin or biotin synthase during a reaction that is not inhibited by bathophenanthroline, an iron chelator. Cluster assembly in these proteins is much more efficient when iron and sulfur are provided by holoSufA than by free iron sulfate and sodium sulfide. We propose the function of SufA is that of a scaffold protein for [Fe-S] cluster assembly and compare it to IscA, a member of the isc operon also involved in cluster biosynthesis in both prokaryotes and eukaryotes. Mechanistic and physiological implications of these results are also discussed.  相似文献   

4.
【目的】铁硫簇是最古老的一种氧化还原中心,它普遍存在于所有生命体内,在光合作用、呼吸作用和固氮作用这三个地球生命最基本的代谢途径中扮演着重要的角色。【方法】以嗜酸氧化亚铁硫杆菌(A.ferrooxidans ATCC 23270)基因组为模板,克隆表达其ISC铁硫簇组装的3个核心蛋白,IscS(半胱氨酸脱硫酶蛋白)、IscU(支架蛋白)和IscA(铁供体蛋白)。【结果】研究发现IscS能催化半胱氨酸脱硫,为铁硫簇的组装提供硫,支架蛋白IscU不具备结合铁的能力,IscA具有较强的铁结合能力。【结论】铁硫簇体外组装证明Fe-IscA在体外能将结合的铁传递给IscS,并在IscU上进行铁硫簇的组装。  相似文献   

5.
IscA was proposed to be involved in the iron-sulfur cluster assembly in Acidithiobacillus ferrooxidans encoded by the iscSUA operon, but the role of IscA in the iron-sulfur cluster assembly still remains controversial. In this study, the IscA from A. ferrooxidans ATCC 23270 was successfully expressed in Escherichia coli, and purified by affinity chromatography to homogeneity. To our surprise, the purified IscA was observed to be an iron-sulfur protein according to MALDI-TOF-MS and spectra results, which was capable of recruiting intracellular iron and sulfur and hosted a stable [Fe4S4] cluster. Site-directed mutagenesis for the protein revealed that Cys35, Cys99 and Cys101 were in ligating with the [Fe4S4] cluster. The [Fe4S4] cluster could be assembled in apoIscA with Fe2+ and sulfide in vitro. The IscA from A. ferrooxidans may function as a scaffold protein for the pre-assembly of Fe-S cluster and then transfer it to target proteins in A. ferrooxidans.  相似文献   

6.
IscA, an 11 kDa member of the hesB family of proteins, binds iron and [2Fe-2S] clusters, and participates in the biosynthesis of iron-sulfur proteins. We report the crystal structure of the apo-protein form of IscA from Escherichia coli to a resolution of 2.3A. The crystals belong to the space group P3(2)21 and have unit cell dimensions a=b=66.104 A, c=150.167 A (alpha=beta=90 degrees, gamma=120 degrees ). The structure was solved using single-wavelength anomalous dispersion (SAD) phasing of a selenomethionyl derivative, and the IscA model was refined to R=21.4% (Rfree=25.4%). IscA exists as an (alpha1alpha2)2 homotetramer with the (alpha1alpha2) dimer comprising the asymmetric unit. Cys35, implicated in Fe-S cluster assembly, is located in a central cavity formed at the tetramer interface with the gamma-sulfur atoms of residues from the alpha1 and alpha2' monomers (and alpha1'alpha2) positioned close to one another (approximately equal 7 A). C-terminal residues 99-107 are disordered, and the exact positions of Cys99 and Cys101 could not be determined. However, computer modeling of C-terminal residues in the tetramer suggests that Cys99 and Cys101 in the alpha1 monomer and those of the alpha1' monomer (or alpha2 and alpha2') are positioned sufficiently close to coordinate [2Fe-2S] clusters between the two dimers, whereas this is not possible within the (alpha1alpha2) or (alpha1'alpha2') dimer. This symmetrical arrangement allows for binding of two [2Fe-2S] clusters on opposite sides of the tetramer. Modeling further reveals that Cys101 is positioned sufficiently close to Cys35 to allow Cys35 to participate in cluster assembly, formation, or transfer.  相似文献   

7.
The arsH gene is one of the arsenic resistance system in bacteria and eukaryotes. The ArsH protein was annotated as a NADPH-dependent flavin mononucleotide (FMN) reductase with unknown biological function. Here we report for the first time that the ArsH protein showed high ferric reductase activity. Glu104 was an essential residue for maintaining the stability of the FMN cofactor. The ArsH protein may perform an important role for cytosolic ferric iron assimilation in vivo.  相似文献   

8.
本文利用RT-PCR方法从转录水平上分别对A.ferrooxidans ATCC 23270基因组中可能编码硫酸盐-硫代硫酸盐结合蛋白基因sbp、膜结合硫代硫酸盐-辅酶Q氧化还原酶基因doxDA以及类硫氰酸酶基因p21等开放阅读框所在的基因座之间的联系进行了鉴定和分析,结果表明它们分别从属于预测的doxDA-1操纵元和doxDA-2操纵元.在此基础上,本文对doxDA操纵元的可能启动子序列也进行了预测和分析.  相似文献   

9.
ATP硫酸化酶是一种催化ATP和SO42-反应生成腺嘌呤-5’-磷酸硫酸(APS)和焦磷酸盐(PPi)的酶,它是硫酸根同化反应第一步的关键酶。以嗜酸氧化亚铁硫杆菌(A.ferrooxidansATCC 23270)基因组为模板,用PCR扩增得到ATPS基因,并克隆到表达载体pLM1上。加入IPTG的诱导表达,用AKTA蛋白纯化仪的镍柱亲和层析纯化得到浓度和纯度都较高的ATPS蛋白。SDS-PAGE分析,证实其分子量大小为33 kD,并成功的测出了其活性,比活达3.0×103U/mg。  相似文献   

10.
目的:嗜酸氧化亚铁硫杆菌(Acidithiobacillus ferrooxidans)硫氰酸酶是硫代谢中极其重要的酶,其作用主要包括氰化物的解毒,铁-硫蛋白的合成,以及硫胺、硫尿苷或烟碱乙酸胆碱的生物合成,硫氰酸酶的研究对揭示生物冶金机理具有重要的推动作用.方法:以A.ferrooxidans ATCC23270基因组为模板设计引物,通过PCR扩增得到编码硫氰酸酶的基因,目的基因片段与原核表达载体PLM1构建重组体,然后转入大肠杆菌(Eschcrichia coli,E.coli)DH5a感受态中,基因测序正确后,重组质粒再转入E.coli BL21感受态中,加IPTG诱导蛋白表达,用一步亲和层析法纯化出浓度和纯度都较高的硫氰酸酶.结果:SDS-PAGE分析证实蛋白分子量为21kD,紫外可见光分析,确定硫氰酸酶中含有铁硫簇,酶活测定发现重组硫氰酸酶在体外不具有酶活性,可能与酶反应条件及信号肽的切断有关.结论:体外成功克隆.表达,纯化出重组体硫氰酸酶,其基本性质也得到阐述.  相似文献   

11.
Genetic evidence has indicated that Isc proteins play an important role in iron-sulfur cluster biogenesis. In particular, IscU is believed to serve as a scaffold for the assembly of a nascent iron-sulfur cluster that is subsequently delivered to target iron-sulfur apoproteins. We report the characterization of an IscU from Thermatoga maritima, an evolutionarily ancient hyperthermophilic bacterium. The stabilizing influence of a D40A substitution allowed characterization of the holoprotein. M?ssbauer (delta = 0.29 +/- 0.03 mm/s, DeltaE(Q) = 0.58 +/- 0.03 mm/s), UV-visible absorption, and circular dichroism studies of the D40A protein show that T. maritima IscU coordinates a [2Fe-2S]2+ cluster. Thermal denaturation experiments demonstrate that T. maritima IscU is a thermally stable protein with a thermally unstable cluster. This is also the first IscU type domain that is demonstrated to possess a high degree of secondary and tertiary structure. CD spectra indicate 36.7% alpha-helix, 13.1% antiparallel beta-sheet, 11.3% parallel beta-sheet, 20.2% beta-turn, and 19.1% other at 20 degrees C, with negligible spectral change observed at 70 degrees C. Cluster coordination also has no effect on the secondary structure of the protein. The dispersion of signals in 1H-15N heteronuclear single quantum correlation NMR spectra of wild type and D40A IscU supports the presence of significant tertiary structure for the apoprotein, consistent with a scaffolding role, and is in marked contrast to other low molecular weight Fe-S proteins where cofactor coordination is found to be necessary for proper protein folding. Consistent with the observed sequence homology and proposed conservation of function for IscU-type proteins, we demonstrate T. maritima IscU-mediated reconstitution of human apoferredoxin.  相似文献   

12.
嗜酸氧化亚铁硫杆菌APS还原酶的表达、纯化及其性质鉴定   总被引:1,自引:0,他引:1  
嗜酸氧化亚铁硫杆菌(Acidithiobacillus ferrooxidans)中APS还原酶是硫同化途径的一个关键酶,其对硫酸盐的还原及硫化物的氧化具有重要调节作用.本文以A.ferrooxidans ATCC23270基因组为模板.通过PCR扩增得到编码APS还原酶的cysH基因,与原核表达载体pLM l构建重组体,转化入大肠杆茵(Escherichia coli,E.coli)DH5a中,测序正确后,加IPTG诱导表达,用一步亲和层析法纯化出浓度和纯度都较高的APS还原酶.由蛋白颜色和紫外分析,确定其含有一个[Fe4S4]簇作为活性中心.表达产物进行SDS-PAGE分析,证实分子量为28 kD.酶活测定表明其具有将APS还原为亚硫酸盐跟AMP的功能.  相似文献   

13.
半胱氨酸合成酶是半胱氨酸合成反应的关键限速酶,催化了半胱氨酸合成的最后一个步骤。以A.ferro-oxidans ATCC 23270基因组为模板,通过PCR扩增得到编码半胱氨酸合成酶(cysM)的基因,与原核表达载体PLM 1构建重组体,转入大肠杆菌DH5α中,测序正确后,加IPTG诱导表达,用一步亲和层析法纯化出了浓度和纯度都较高的半胱氨酸合成酶。由蛋白颜色和紫外分析,确定是以PLP辅基作为活性中心。表达产物进行SDS-PAGE分析,证实分子量为32 kD。  相似文献   

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Iron-sulfur (Fe-S) clusters are key metal cofactors of metabolic, regulatory, and stress response proteins in most organisms. The unique properties of these clusters make them susceptible to disruption by iron starvation or oxidative stress. Both iron and sulfur can be perturbed under stress conditions, leading to Fe-S cluster defects. Bacteria and higher plants contain a specialized system for Fe-S cluster biosynthesis under stress, namely the Suf pathway. In Escherichia coli the Suf pathway consists of six proteins with functions that are only partially characterized. Here we describe how the SufS and SufE proteins interact with the SufBCD protein complex to facilitate sulfur liberation from cysteine and donation for Fe-S cluster assembly. It was previously shown that the cysteine desulfurase SufS donates sulfur to the sulfur transfer protein SufE. We have found here that SufE in turn interacts with the SufB protein for sulfur transfer to that protein. The interaction occurs only if SufC is present. Furthermore, SufB can act as a site for Fe-S cluster assembly in the Suf system. This provides the first evidence of a novel site for Fe-S cluster assembly in the SufBCD complex.  相似文献   

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Ferredoxin is a typical iron-sulfur protein that is ubiquitous in biological redox systems. This study investigates the in vitro assembly of a [Fe2S2] cluster in the ferredoxin from Acidithiobacillus ferrooxidans in the presence of three scaffold proteins: IscA, IscS, and IscU. The spectra and MALDI-TOF MS results for the reconstituted ferredoxin confirm that the iron-sulfur cluster was correctly assembled in the protein. The inactivation of cysteine desulfurase by L-allylglycine completely blocked any [Fe2S2] cluster assembly in the ferredoxin in E. coli, confirming that cysteine desulfurase is an essential component for iron-sulfur cluster assembly. The present results also provide strong evidence that [Fe2S2] cluster assembly in ferredoxin follows the AUS pathway.  相似文献   

18.
The iron oxidation system from sulfur-grown Acidithiobacillus ferrooxidans ATCC 23270 cells was reconstituted in vitro. Purified rusticyanin, cytochrome c, and aa3-type cytochrome oxidase were essential for reconstitution. The iron-oxidizing activity of the reconstituted system was 3.3-fold higher than that of the cell extract from which these components were purified.  相似文献   

19.
The interaction between IscU and HscB is critical for successful assembly of iron-sulfur clusters. NMR experiments were performed on HscB to investigate which of its residues might be part of the IscU binding surface. Residual dipolar couplings ( (1) D HN and (1) D CalphaHalpha) indicated that the crystal structure of HscB [Cupp-Vickery, J. R., and Vickery, L. E. (2000) Crystal structure of Hsc20, a J-type cochaperone from Escherichia coli, J. Mol. Biol. 304, 835-845] faithfully represents its solution state. NMR relaxation rates ( (15)N R 1, R 2) and (1)H- (15)N heteronuclear NOE values indicated that HscB is rigid along its entire backbone except for three short regions which exhibit flexibility on a fast time scale. Changes in the NMR spectrum of HscB upon addition of IscU mapped to the J-domain/C-domain interface, the interdomain linker, and the C-domain. Sequence conservation is low in the interface and in the linker, and NMR changes observed for these residues likely result from indirect effects of IscU binding. NMR changes observed in the conserved patch of residues in the C-domain (L92, M93, L96, E97, E100, E104, and F153) were suggestive of a direct interaction with IscU. To test this, we replaced several of these residues with alanine and assayed for the ability of HscB to interact with IscU and to stimulate HscA ATPase activity. HscB(L92A,M93A,F153A) and HscB(E97A,E100A,E104A) both showed decreased binding affinity for IscU; the (L92A,M93A,F153A) substitution also strongly perturbed the allosteric interaction within the HscA.IscU.HscB ternary complex. We propose that the conserved patch in the C-domain of HscB is the principal binding site for IscU.  相似文献   

20.
Zeng J  Zhao W  Liu Y  Xia L  Liu J  Qiu G 《Biotechnology letters》2007,29(12):1965-1972
An iron-sulfur cluster assembly protein, IscU, is encoded by the operon iscSUA in Acidithiobacillus ferrooxidans. The gene of IscU was cloned and expressed in Escherichia coli. The protein was purified by one-step affinity chromatography to homogeneity. The protein was in apo-form, the [Fe2S2] cluster could be assembled in apoIscU with Fe2+ and sulfide in vitro, and in the presence of IscA and IscS, the IscU could utilize l-cysteine and Fe2+ to synthesize [Fe2S2] cluster in the protein. Site-directed mutagenesis for the protein revealed that Cys37, Asp39, Cys63 and Cys106 were involved in ligating with the [Fe2S2] cluster.  相似文献   

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