Functional Dynamics Revealed by the Structure of the SufBCD Complex,a Novel ATP-binding Cassette (ABC) Protein That Serves as a Scaffold for Iron-Sulfur Cluster Biogenesis

ATP-binding cassette (ABC)-type ATPases are chemomechanical engines involved in diverse biological pathways. Recent genomic information reveals that ABC ATPase domains/subunits act not only in ABC transporters and structural maintenance of chromosome proteins, but also in iron-sulfur (Fe-S) cluster biogenesis. A novel type of ABC protein, the SufBCD complex, functions in the biosynthesis of nascent Fe-S clusters in almost all Eubacteria and Archaea, as well as eukaryotic chloroplasts. In this study, we determined the first crystal structure of the Escherichia coli SufBCD complex, which exhibits the common architecture of ABC proteins: two ABC ATPase components (SufC) with function-specific components (SufB-SufD protomers). Biochemical and physiological analyses based on this structure provided critical insights into Fe-S cluster assembly and revealed a dynamic conformational change driven by ABC ATPase activity. We propose a molecular mechanism for the biogenesis of the Fe-S cluster in the SufBCD complex.     

Rescuing Trafficking Mutants of the ATP-binding Cassette Protein,ABCA4, with Small Molecule Correctors as a Treatment for Stargardt Eye Disease

Stargardt disease is the most common form of early onset macular degeneration. Mutations in ABCA4, a member of the ATP-binding cassette (ABC) family, are associated with Stargardt disease. Here, we have examined two disease-causing mutations in the NBD1 region of ABCA4, R1108C, and R1129C, which occur within regions of high similarity with CFTR, another ABC transporter gene, which is associated with cystic fibrosis. We show that R1108C and R1129C are both temperature-sensitive processing mutants that engage the cellular quality control mechanism and show a strong interaction with the chaperone Hsp 27. Both mutant proteins also interact with HDCAC6 and are degraded in the aggresome. We also demonstrate that novel corrector compounds that are being tested as treatment for cystic fibrosis, such as VX-809, can rescue the processing of the ABCA4 mutants, particularly their expression at the cell surface, and can reduce their binding to HDAC6. Thus, our data suggest that VX-809 can potentially be developed as a new therapy for Stargardt disease, for which there is currently no treatment.     

Computation and Functional Studies Provide a Model for the Structure of the Zinc Transporter hZIP4

Members of the Zrt and Irt protein (ZIP) family are a central participant in transition metal homeostasis as they function to increase the cytosolic concentration of zinc and/or iron. However, the lack of a crystal structure hinders elucidation of the molecular mechanism of ZIP proteins. Here, we employed GREMLIN, a co-evolution-based contact prediction approach in conjunction with the Rosetta structure prediction program to construct a structural model of the human (h) ZIP4 transporter. The predicted contact data are best fit by modeling hZIP4 as a dimer. Mutagenesis of residues that comprise a central putative hZIP4 transmembrane transition metal coordination site in the structural model alter the kinetics and specificity of hZIP4. Comparison of the hZIP4 dimer model to all known membrane protein structures identifies the 12-transmembrane monomeric Piriformospora indica phosphate transporter (PiPT), a member of the major facilitator superfamily (MFS), as a likely structural homolog.     

Probing the Architecture of a Multi-PDZ Domain Protein: Structure of PDZK1 in Solution

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Structure and Expression of the Tobacco Nuclear Gene Encoding RNA-binding Protein RZ-1: The Existence of an Intron in the 3'-Untranslated Region

We have previously characterized a tobacco cDNA encoding a noveltype RNA-binding protein (RZ-1), which contains a zinc fingermotif in addition to a consensus sequence-type RNA-binding domainand is localized in the nucleus. Here we isolated its genomicclone from a Nicotiana sylvestris genomic library. Southernblot analysis suggested that RZ-1 is coded for by a single locusper haploid genome. Comparison of the cDNA and genomic sequencesindicated that the RZ-1 gene contains two introns, one in thecoding region and another in the 3'-untranslated region. RT-PCRand ribonuclease protection analyses showed that splicing ofRZ-1 pre-mRNA occurs efficiently. The RZ-1 protein is activelysynthesized in rapidly dividing tobacco cells, as demonstratedby immunoblot analysis.     

RT-PCR克隆籼稻叶绿素a/b结合蛋白基因全长cDNA及序列的in silico分析

根据日本晴cab4基因序列(GenBank:AK104499.1)设计引物,用RT-PCR的方法从籼稻9311中克隆了叶绿素a/b结合蛋白基因的全长cDNA,命名为cab-9311(cab gene from 9311)。insilico分析表明:cab-9311与cab4基因同源性为99%,编码的蛋白含有244个氨基酸,与cab4基因编码的蛋白同源性为98%。蛋白分子质量为26.9kD,理论等电点为6.52。第54位～第216位氨基酸是一个典型的叶绿素a/b结合蛋白功能域(chlorophyll a/bbinding domain)。跨膜分析和蛋白质三级预测显示,该蛋白在C端有一个典型的跨膜区。亚细胞定位分析表明该蛋白定位于叶绿体,是一个叶绿体内囊体膜上的锚定蛋白。