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61.
Amelia R. Edington Audra A. McKinzie Aaron J. Reynolds Michael Kassiou Renae M. Ryan Robert J. Vandenberg 《The Journal of biological chemistry》2009,284(52):36424-36430
Concentrations of extracellular glycine in the central nervous system are regulated by Na+/Cl−-dependent glycine transporters, GLYT1 and GLYT2. N-Arachidonylglycine (NAGly) is an endogenous inhibitor of GLYT2 with little or no effect on GLYT1 and is analgesic in rat models of neuropathic and inflammatory pain. Understanding the molecular basis of NAGly interactions with GLYT2 may allow for the development of novel therapeutics. In this study, chimeric transporters were used to determine the structural basis for differences in NAGly sensitivity between GLYT1 and GLYT2 and also the actions of a series of related N-arachidonyl amino acids. Extracellular loops 2 and 4 of GLYT2 are important in the selective inhibition of GLYT2 by NAGly and by the related compounds N-arachidonyl-γ-aminobutyric acid and N-arachidonyl-d-alanine, whereas only the extracellular loop 4 of GLYT2 is required for N-arachidonyl-l-alanine inhibition of transport. These observations suggest that the structure of the head group of these compounds is important in determining how they interact with extracellular loops 2 and 4 of GLYT2. Site-directed mutagenesis of GLYT2 EL4 residues was used to identify the key residues Arg531, Lys532, and Ile545 that contribute to the differences in NAGly sensitivity. 相似文献
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Neiditch MB Federle MJ Pompeani AJ Kelly RC Swem DL Jeffrey PD Bassler BL Hughson FM 《Cell》2006,126(6):1095-1108
Bacteria sense their environment using receptors of the histidine sensor kinase family, but how kinase activity is regulated by ligand binding is not well understood. Autoinducer-2 (AI-2), a secreted signaling molecule originally identified in studies of the marine bacterium Vibrio harveyi, regulates quorum-sensing responses and allows communication between different bacterial species. AI-2 signal transduction in V. harveyi requires the integral membrane receptor LuxPQ, comprised of periplasmic binding protein (LuxP) and histidine sensor kinase (LuxQ) subunits. Combined X-ray crystallographic and functional studies show that AI-2 binding causes a major conformational change within LuxP, which in turn stabilizes a quaternary arrangement in which two LuxPQ monomers are asymmetrically associated. We propose that formation of this asymmetric quaternary structure is responsible for repressing the kinase activity of both LuxQ subunits and triggering the transition of V. harveyi into quorum-sensing mode. 相似文献
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Audra F. Lugo 《Inorganica chimica acta》2010,363(10):2104-2511
A series of metal complexes have been prepared using two similar ketiminato ligands, ArL1H (([RN(H)(C(Me))2C(Me)O], ((R = 2,6-diisopropylphenyl (Dipp) or 2,6-dimethylphenyl, (Dmp)) and the less bulky, multidentate molecule L2H, ([RN(H)C(Me)CHC(Me)O] (R = C2H4NEt2)). Reaction of ArL1H or ArL1Na with Co(SCN)2, Eu(OTf)3 and Cu(OTf)2, afforded [Co(DippL1H)2(NCS)2] (1), [Eu(DippL1H)3(OTf)3] (2), and [Cu(OTf)2(DippL1H)2] (3). The coordination preferences of ArL1 and L2 with FeBr2 were investigated and yielded crystals of [Fe(DippL1)2] (4), [L2FeBr·LiBr(THF)2] (5), and [{(DmpNC(Me))2C(H)Me}FeBr2] (6). Complexes 1-6 have been structurally characterized by X-ray crystallography, and other pertinent techniques. 相似文献
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Luo ZQ Smyth AJ Gao P Qin Y Farrand SK 《The Journal of biological chemistry》2003,278(15):13173-13182
TraR, the quorum-sensing activator of the Agrobacterium tumefaciens Ti plasmid conjugation system, induces gene expression in response to its quormone, N-(3-oxooctanoyl)-L-homoserine lactone. Ligand binding results in dimerization of TraR and is required for its activity. Analysis of N- and C-terminal deletion mutants of TraR localized the quormone-binding domain to a region between residues 39 and 140 and the primary dimerization domain to a region between residues 119 and 156. The dominant-negative properties of these mutants predicted a second dimerization domain at the C terminus of the protein. Analysis of fusions of N-terminal fragments of TraR to lambda cI' confirmed the dimerization activity of these two domains. Fifteen single amino acid substitution mutants of TraR defective in dimerization were isolated. According to the analysis of these mutants, Asp-70 and Gly-113 are essential for quormone binding, whereas Ala-38 and Ala-105 are important, but not essential. Additional residues located within the N-terminal half of TraR, including three located in alpha-helix 9, contribute to dimerization, but are not required for ligand binding. These results and the recently reported crystal structure of TraR are consistent with and complement each other and together define some of the structural and functional relationships of this quorum-sensing activator. 相似文献
66.
A sequence motif within trypanosome precursor tRNAs influences abundance and mitochondrial localization 下载免费PDF全文
Trypanosoma brucei lacks mitochondrial genes encoding tRNAs and must import nuclearly encoded tRNAs from the cytosol. The mechanism and specificity of this process remain unclear. We have identified a unique sequence motif, YGG(C/A)RRC, upstream of the genes encoding mitochondrially localized tRNAs in T. brucei. Both in vitro import studies and in vivo transfection studies indicate that deletion of the YGG(C/A)RRC sequence alters mitochondrial localization of tRNA(Leu), and in vivo studies also show a decrease in the cellular abundance of tRNA(Leu). These studies provide direct evidence for cis-acting RNA motifs within precursor tRNAs that facilitate the selection of tRNAs for mitochondrial import in trypanosomes. Furthermore, we found that mutations to the YGG(C/A)RRC sequence also altered the intracellular distribution of other endogenous tRNAs, suggesting a general role for this sequence in tRNA trafficking in trypanosomes. 相似文献
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Efficient gene transfer in C.elegans: extrachromosomal maintenance and integration of transforming sequences. 总被引:51,自引:14,他引:37 下载免费PDF全文
We describe a dominant behavioral marker, rol-6(su-1006), and an efficient microinjection procedure which facilitate the recovery of Caenorhabditis elegans transformants. We use these tools to study the mechanism of C.elegans DNA transformation. By injecting mixtures of genetically marked DNA molecules, we show that large extrachromosomal arrays assemble directly from the injected molecules and that homologous recombination drives array assembly. Appropriately placed double-strand breaks stimulated homologous recombination during array formation. Our data indicate that the size of the assembled transgenic structures determines whether or not they will be maintained extrachromosomally or lost. We show that low copy number extrachromosomal transformation can be achieved by adjusting the relative concentration of DNA molecules in the injection mixture. Integration of the injected DNA, though relatively rare, was reproducibly achieved when single-stranded oligonucleotide was co-injected with the double-stranded DNA. 相似文献
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John F. Kroepfl Laura R. Viise Audra J. Charron ‡Chris Linington † Minnetta V. Gardinier 《Journal of neurochemistry》1996,67(5):2219-2222
Abstract: Myelin/oligodendrocyte glycoprotein (MOG) is a CNS-specific integral membrane protein that is an atypical member of the immunoglobulin (Ig) superfamily with two potential transmembrane domains based upon hydropathy analysis. With only one other exception, all Ig family members possess a single or no membrane spanning region. In order to analyze MOG membrane topology, we prepared stably transfected cells that express mouse MOG and used three domain-specific antisera to ascertain the localization of these hydrophilic domains. As expected, MOG's glycosylated N-terminal Ig-like domain was identified as extracellular, because membrane permeabilization was not required for immunoreactivity with the MOG1–125 antiserum. In contrast, both MOG154–169 and MOG198–218 antisera stained cells only upon permeabilization. These data indicate that only MOG's N-terminal hydrophobic domain spans the lipid bilayer, and we propose that MOG's C-terminal hydrophobic domain associates with the cytoplasmic face of the plasma membrane. As for MOG's second hydrophobic domain, it is clear that either orientation (transmembrane versus membrane-associated) would be unique among Ig-like proteins, and the implications of our proposed topology for MOG in oligodendroglial plasma membrane are discussed. 相似文献