1000 resultados para SYNTHETASE GENE
Resumo:
Universal trees based on sequences of single gene homologs cannot be rooted. Iwabe et al. [Iwabe, N., Kuma, K.-I., Hasegawa, M., Osawa, S. & Miyata, T. (1989) Proc. Natl. Acad. Sci. USA 86, 9355-9359] circumvented this problem by using ancient gene duplications that predated the last common ancestor of all living things. Their separate, reciprocally rooted gene trees for elongation factors and ATPase subunits showed Bacteria (eubacteria) as branching first from the universal tree with Archaea (archaebacteria) and Eucarya (eukaryotes) as sister groups. Given its topical importance to evolutionary biology and concerns about the appropriateness of the ATPase data set, an evaluation of the universal tree root using other ancient gene duplications is essential. In this study, we derive a rooting for the universal tree using aminoacyl-tRNA synthetase genes, an extensive multigene family whose divergence likely preceded that of prokaryotes and eukaryotes. An approximately 1600-bp conserved region was sequenced from the isoleucyl-tRNA synthetases of several species representing deep evolutionary branches of eukaryotes (Nosema locustae), Bacteria (Aquifex pyrophilus and Thermotoga maritima) and Archaea (Pyrococcus furiosus and Sulfolobus acidocaldarius). In addition, a new valyl-tRNA synthetase was characterized from the protist Trichomonas vaginalis. Different phylogenetic methods were used to generate trees of isoleucyl-tRNA synthetases rooted by valyl- and leucyl-tRNA synthetases. All isoleucyl-tRNA synthetase trees showed Archaea and Eucarya as sister groups, providing strong confirmation for the universal tree rooting reported by Iwabe et al. As well, there was strong support for the monophyly (sensu Hennig) of Archaea. The valyl-tRNA synthetase gene from Tr. vaginalis clustered with other eukaryotic ValRS genes, which may have been transferred from the mitochondrial genome to the nuclear genome, suggesting that this amitochondrial trichomonad once harbored an endosymbiotic bacterium.
Resumo:
Mass occurrences (blooms) of cyanobacteria are common in aquatic environments worldwide. These blooms are often toxic, due to the presence of hepatotoxins or neurotoxins. The most common cyanobacterial toxins are hepatotoxins: microcystins and nodularins. In freshwaters, the main producers of microcystins are Microcystis, Anabaena, and Planktothrix. Nodularins are produced by strains of Nodularia spumigena in brackish waters. Toxic and nontoxic strains of cyanobacteria co-occur and cannot be differentiated by conventional microscopy. Molecular biological methods based on microcystin and nodularin synthetase genes enable detection of potentially hepatotoxic cyanobacteria. In the present study, molecular detection methods for hepatotoxin-producing cyanobacteria were developed, based on microcystin synthetase gene E (mcyE) and the orthologous nodularin synthetase gene F (ndaF) sequences. General primers were designed to amplify the mcyE/ndaF gene region from microcystin-producing Anabaena, Microcystis, Planktothrix, and Nostoc, and nodularin-producing Nodularia strains. The sequences were used for phylogenetic analyses to study how cyanobacterial mcy genes have evolved. The results showed that mcy genes and microcystin are very old and were already present in the ancestor of many modern cyanobacterial genera. The results also suggested that the sporadic distribution of biosynthetic genes in modern cyanobacteria is caused by repeated gene losses in the more derived lineages of cyanobacteria and not by horizontal gene transfer. Phylogenetic analysis also proposed that nda genes evolved from mcy genes. The frequency and composition of the microcystin producers in 70 lakes in Finland were studied by conventional polymerase chain reaction (PCR). Potential microcystin producers were detected in 84% of the lakes, using general mcyE primers, and in 91% of the lakes with the three genus-specific mcyE primers. Potential microcystin-producing Microcystis were detected in 70%, Planktothrix in 63%, and Anabaena in 37% of the lakes. The presence and co-occurrence of potential microcystin producers were more frequent in eutrophic lakes, where the total phosphorus concentration was high. The PCR results could also be associated with various environmental factors by correlation and regression analyses. In these analyses, the total nitrogen concentration and pH were both associated with the presence of multiple microcystin-producing genera and partly explained the probability of occurrence of mcyE genes. In general, the results showed that higher nutrient concentrations increased the occurrence of potential microcystin producers and the risk for toxic bloom formation. Genus-specific probe pairs for microcystin-producing Anabaena, Microcystis, Planktothrix, and Nostoc, and nodularin-producing Nodularia were designed to be used in a DNA-chip assay. The DNA-chip can be used to simultaneously detect all these potential microcystin/nodularin producers in environmental water samples. The probe pairs detected the mcyE/ndaF genes specifically and sensitively when tested with cyanobacterial strains. In addition, potential microcystin/nodularin producers were identified in lake and Baltic Sea samples by the DNA-chip almost as sensitively as by quantitative real-time PCR (qPCR), which was used to validate the DNA-chip results. Further improvement of the DNA-chip assay was achieved by optimization of the PCR, the first step in the assay. Analysis of the mcy and nda gene clusters from various hepatotoxin-producing cyanobacteria was rewarding; it revealed that the genes were ancient. In addition, new methods detecting all the main producers of hepatotoxins could be developed. Interestingly, potential microcystin-producing cyanobacterial strains of Microcystis, Planktothrix, and Anabaena, co-occurred especially in eutrophic and hypertrophic lakes. Protecting waters from eutrophication and restoration of lakes may thus decrease the prevalence of toxic cyanobacteria and the frequency of toxic blooms.
Resumo:
A hiper-homocisteinemia, resultante da deficiência na conversão da homocisteína em cistationina, constitui em fator de risco isolado para doenças vasculares. A mutação 844ins68 do gene da cistationina beta-sintetase é um fator adicional de risco para a trombose venosa profunda. O objetivo deste estudo foi avaliar a freqüência da mutação 844ins68 do gene da cistationina beta-sintetase em pacientes com trombose venosa profunda. Foram avaliados em estudo caso-controle 95 pacientes com trombose venosa profunda, a presença da mutação 844ins68 no éxon 8 do gene da cistationina beta-sintetase. Como critério de inclusão foi adotada a presença de trombose venosa profunda confirmada pelo dúplex ou flebografia. O grupo controle constituiu-se de 95 doadores de sangue, sem história familiar prévia de trombose venosa, com sexo, grupo étnico e idades pareados aos do grupo de estudo. Foram coletados 5 mL de sangue venoso com o uso de anticoagulante EDTA de cada participante. O DNA foi extraído dos leucócitos pelo método DTAB e CTAB. A detecção da mutação do gene foi realizada por amplificação de um segmento gênico por PCR, com iniciadores que flanqueiam a região de inserção e com revelação em gel de agarose a 2%, corado com brometo de etídio, sob luz UV. O fragmento correspondente ao alelo normal contém 184 pares de base e o correspondente ao alelo mutante, 252 pares de base. O teste exato de Fisher foi utilizado na análise dos resultados. A condição heterozigota para a mutação foi encontrada em 14,73% dos pacientes e em 3,1% dos indivíduos do grupo controle (p = 0,009). A freqüência do alelo mutante mostrou diferença significativa (p = 0,01), sendo 0,074 para os pacientes versus 0,016 para o grupo controle. Não foram encontrados casos de homozigose.
Resumo:
The twn2 mutant of Arabidopsis exhibits a defect in early embryogenesis where, following one or two divisions of the zygote, the decendents of the apical cell arrest. The basal cells that normally give rise to the suspensor proliferate abnormally, giving rise to multiple embryos. A high proportion of the seeds fail to develop viable embryos, and those that do, contain a high proportion of partially or completely duplicated embryos. The adult plants are smaller and less vigorous than the wild type and have a severely stunted root. The twn2-1 mutation, which is the only known allele, was caused by a T-DNA insertion in the 5′ untranslated region of a putative valyl-tRNA synthetase gene, valRS. The insertion causes reduced transcription of the valRS gene in reproductive tissues and developing seeds but increased expression in leaves. Analysis of transcript initiation sites and the expression of promoter–reporter fusions in transgenic plants indicated that enhancer elements inside the first two introns interact with the border of the T-DNA to cause the altered pattern of expression of the valRS gene in the twn2 mutant. The phenotypic consequences of this unique mutation are interpreted in the context of a model, suggested by Vernon and Meinke [Vernon, D. M. & Meinke, D. W. (1994) Dev. Biol. 165, 566–573], in which the apical cell and its decendents normally suppress the embryogenic potential of the basal cell and its decendents during early embryo development.
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In a screen for genes expressed in the Drosophila embryonic salivary gland, we identified a tryptophanyl-tRNA synthetase gene that maps to cytological position 85D (WRS-85D). WRS-85D expression is dependent on the homeotic gene Sex combs reduced (Scr). In the absence of Scr function, WRS-85D expression is lost in the salivary gland primordia; conversely, ectopic expression of Scr results in expression of WRS-85D in new locations. Despite the fact that WRS-85D is a housekeeping gene essential for protein synthesis, we detected both WRS-85D mRNA and protein at elevated levels in the developing salivary gland. WRS-85D is required for embryonic survival; embryos lacking the maternal contribution were unrecoverable, whereas larvae lacking the zygotic component died during the third instar larval stage. We showed that recombinant WRS-85D protein specifically charges tRNATrp, and WRS-85D is likely to be the only tryptophanyl-tRNA synthetase gene in Drosophila. We characterized the expression patterns of all 20 aminoacyl-tRNA synthetases and found that of the four aminoacyl-tRNA synthetase genes expressed at elevated levels in the salivary gland primordia, WRS-85D is expressed at the highest level throughout embryogenesis. We also discuss the potential noncanonical activities of tryptophanyl-tRNA synthetase in immune response and regulation of cell growth.
Resumo:
Several cyanobacterial genera produce the hepatotoxins, microcystins. Microcystins are produced only in cells that have microcystin synthetase gene (mcy) clusters, which encode enzyme complexes involved in microcystin biosynthesis. Microcystin-producing and nonmicrocystin-producing genotypes of single cyanobacterial genus may occur simultaneously in situ. Previously, the effects of environmental factors on the growth and microcystin production of cyanobacteria have mainly been studied by means of isolated cyanobacteria cultures in the laboratory. Studies in the field have been difficult, owing to the lack of methods to identify and quantify the different genotypes. In this study, genus-specific microcystin synthetase E (mcyE) gene primers were designed and a method to identify and quantify the mcyE copy numbers was developed and used in situ. Microcystis and Anabaena mcyE genes were observed in two Finnish lakes. Microcystis appeared to be the most abundant microcystin producer in Lake Tuusulanjärvi and in one basin of Lake Hiidenvesi. Because the most potent microcystin-producing genus of a lake can be identified, it will be possible in the future to design genus-targeted strategies for lake restoration. Effects of P and N concentrations on the biomass of microcystin-producing and nonmicrocystin-producing Microcystis strains and an Anabaena strain were studied in cultures. P and N concentrations and their combined effect increased cyanobacterial biomass of all Microcystis strains. The biomass of microcystin-producing Microcystis was higher than that of nonmicrocystin-producing strains at high nutrient concentrations. The P concentration increased Anabaena biomass, but the effect of N concentration was statistically insignificant for growth yield, probably due to the ability of the genus to fix molecular N2. P and N concentrations and combined nutrients caused an increase in cellular microcystin concentrations of the Microcystis strain cultivated in chemostat cultures. Cyanobacteria are able to hydrolyse nutrients from organic matter through extracellular enzyme activities. Leucine aminopeptidase (LAP) activity was observed in an axenic N2-fixing Anabaena strain grown in batch cultures. The P concentration caused a statistically significant increase in LAP activity, whereas the effect of N concentration was insignificant. The highest LAP activities were observed in the most eutrophic basins of Lake Hiidenvesi. LAP activity probably originated mostly from attached heterotrophic bacteria and less from cyanobacteria.
Resumo:
Whole transcriptome shotgun sequencing (RNA-seq) was used to assess the transcriptomic response of the toxic cyanobacterium Microcystis aeruginosa during growth with low levels of dissolved inorganic nitrogen (low N), low levels of dissolved inorganic phosphorus (low P), and in the presence of high levels of high molecular weight dissolved organic matter (HMWDOM). Under low N, one third of the genome was differentially expressed, with significant increases in transcripts observed among genes within the nir operon, urea transport genes (urtBCDE), and amino acid transporters while significant decreases in transcripts were observed in genes related to photosynthesis. There was also a significant decrease in the transcription of the microcystin synthetase gene set under low N and a significant decrease in microcystin content per Microcystis cell demonstrating that N supply influences cellular toxicity. Under low P, 27% of the genome was differentially expressed. The Pho regulon was induced leading to large increases in transcript levels of the alkaline phosphatase phoX, the Pst transport system (pstABC), and the sphX gene, and transcripts of multiple sulfate transporter were also significantly more abundant. While the transcriptional response to growth on HMWDOM was smaller (5–22% of genes differentially expressed), transcripts of multiple genes specifically associated with the transport and degradation of organic compounds were significantly more abundant within HMWDOM treatments and thus may be recruited by Microcystis to utilize these substrates. Collectively, these findings provide a comprehensive understanding of the nutritional physiology of this toxic, bloom-forming cyanobacterium and the role of N in controlling microcystin synthesis.
Resumo:
Les ataxies autosomiques récessives sont un groupe de troubles neurologiques hétérogènes caractérisés par une incoordination brute des mouvements musculaires impliquant le dysfonctionnement nerveux du cervelet qui coordonne le mouvement. Plusieurs formes héréditaires ont été décrites dont la plus connue : l’ataxie de Friedriech. Dans cette thèse nous rapportons l'identification et la caractérisation d’une nouvelle forme dans la population québécoise. L’ataxie récessive spastique avec leucoencéphalopathie (ARSAL; aussi connue comme l’ataxie autosomique récessive spastique de type 3 (SPAX3); OMIM 611390) est la deuxième ataxie spastique décrite dans la population canadienne française. En effet, près de 50 % de nos cas sont originaires de la région de Portneuf. En 2006, nous avons décrit les caractéristiques cliniques de cette nouvelle forme d’ataxie. Un premier criblage du génome entier, constitué de plus de 500 marqueurs microsatellites, a permis la localisation du locus sur le chromosome 2q33-34. Suite au séquençage de plus de 37 gènes candidats et afin de rétrécir cet intervalle candidat, nous avons utilisé une micro-puce d’ADN constituée de marqueurs SNP «single nucleotide polymorphism» et nous avons identifié un deuxième intervalle candidat de 0.658Mb au locus 2q33 dans lequel se trouvent moins de 9 gènes. L’identification et la caractérisation de ces mutations a nécessité l’utilisation de diverses technologies de pointe. Trois mutations (une délétion et deux réarrangements complexes) dans le gène mitochondrial tRNA-synthetase (MARS2) ont été identifiées dans notre cohorte. Nous émettons l’hypothèse que la nature des mutations complexes est responsable d’un dérèglement de la transcription du gène, ce qui a un impact néfaste sur la fonction mitochondriale et le tissu neuronal.
Resumo:
Les neutrophiles sont généralement considérés résistants aux glucocorticoïdes. Cependant, peu d’études comparant l’effet de ces drogues sur les neutrophiles et les autres leucocytes sanguins (monocytes, lymphocytes et éosinophiles) ont été rapportées. Dans notre étude, nous avons évalué la réponse aux glucocorticoïdes de ces deux populations cellulaires chez le cheval et l’homme. Les cellules, préalablement isolées du sang de 6 chevaux et 4 sujets humains sains, ont été incubées pendant 5 h en présence de lipopolysaccharide (LPS; 100 ng/mL) seul ou combiné avec de l’hydrocortisone, de la prednisolone ou de la dexaméthasone (10-8M et 10-6M). L’expression d’ARNm pour l’IL-1β, le TNF-α, l’IL-8, la glutamine synthétase et le récepteur α des glucocorticoïdes (GR-α) a été quantifiée par qPCR. Les neutrophiles équins ont également été incubés pendant 20 h en présence de ces 3 glucocorticoïdes et la survie cellulaire a été évaluée par cytométrie de flux et microscopie optique. Nous avons démontré que les glucocorticoïdes inhibaient l’expression des gènes pro-inflammatoires induite par le LPS pour les deux populations cellulaires chez les deux espèces étudiées. L’expression de la glutamine synthétase était également significativement augmentée par les glucocorticoïdes chez les neutrophiles et les autres leucocytes sanguins équins. De manière générale, l’intensité de la réponse aux glucocorticoïdes s’est avérée similaire dans les 2 populations leucocytaires et chez les deux espèces. Les glucocorticoïdes augmentaient également la survie des neutrophiles équins, phénomène également rapporté dans d’autres espèces. Ainsi, les glucococorticoïdes exercent des effets d’intensité comparable sur les neutrophiles et les autres leucocytes sanguins. Nous spéculons que la faible réponse à la corticothérapie observée lors de maladies inflammatoires chroniques neutrophiliques comme l’asthme sévère ou la Maladie Pulmonaire Obstructive Chronique (MPOC) ne s’explique pas par une corticorésistance intrinsèque des neutrophiles.
Resumo:
La déficience intellectuelle (DI) définit un groupe de conditions génétiquement hétérogènes caractérisées par l’apparition de troubles cognitifs précoces chez l’enfant. Elle affecte 1-3% de la population dans les pays industrialisés. La prévalence de la DI est beaucoup plus élevée ailleurs dans le monde, en raison de facteurs sociodémographiques comme le manque de ressources dans le système de santé, la pauvreté et la consanguinité. Des facteurs non-génétiques sont mis en cause dans l’étiologie de la DI ; on estime qu’environ 25% des cas de DI sont d’origine génétique. Traditionnellement, les bases moléculaires de la DI ont été investiguées par des analyses cytogénétiques, les approches de cartographie génétique et le séquençage de gènes candidats ; ces techniques de génétiques classiques sont encore mises à rude épreuve dans l’analyse de maladies complexes comme la DI. La DI liée à l’X a été particulièrement étudiée, avec plus d’une centaine de gènes identifiés uniquement sur le chromosome X. Des mutations hétérozygotes composites sont mises en évidence dans la DI autosomique, dans le contexte d’unions non-consanguines. L’occurrence de ce type de mutations est rare, chez des individus non-apparentés, de sorte que les mutations dominantes de novo sont plus courantes. Des mutations homozygotes sont attendues dans les populations consanguines ou marquées par un effet fondateur. En fait, les bases moléculaires de la DI autosomique ont été presqu’exclusivement étudiées dans le contexte de populations avec des forts taux de consanguinité. L’origine de la DI demeure encore inconnue dans environ 60 % des cas diagnostiqués. En l’absence de facteurs environnementaux associés à la DI chez ces individus, il est possible d’envisager que des facteurs génétiques non identifiés entrent en jeu dans ces cas de DI inexpliqués. Dans ce projet de recherche, nous voulions explorer l’origine génétique de la DI, dans vingt familles, où une transmission de la maladie selon un mode autosomique récessif est suspectée. Nous avons mis de l’avant les techniques de séquençage de nouvelle génération, afin de mettre en évidence les déterminants génétiques de la DI, à l’échelle du génome humain. En fait, nous avons priorisé la capture et le séquençage de l’exome; soient la totalité des régions codantes du génome humain et leurs sites d’épissage flanquants. Dans nos analyses, nous avons ciblé les variants qui ne sont pas rapportés trop fréquemment dans différentes bases de données d’individus contrôles, ces mutations rares cadrent mieux avec une condition comme la DI. Nous avons porté une attention particulière aux mutations autosomiques récessives (homozygotes et hétérozygotes composites) ; nous avons confirmé que ces mutations ségréguent avec une transmission récessive dans la famille à l’étude. Nous avons identifié des mutations dans des gènes pouvant être à l’origine de la DI, dans certaines des familles analysées ; nous avons validé biologiquement l'impact fonctionnel des mutations dans ces gènes candidats, afin de confirmer leur implication dans la pathophysiologie de la DI. Nous avons élucidé les bases moléculaires de la DI dans huit des familles analysées. Nous avons identifié le second cas de patients avec syndrome de cassure chromosomique de Varsovie, caractérisé par des dysfonctions de l’ARN hélicase DDX11. Nous avons montré qu’une perte de l’activité de TBC1D7, une des sous-unités régulatrice du complexe TSC1-TSC2, est à l’origine de la pathologie dans une famille avec DI et mégalencéphalie. Nous avons mis en évidence des mutations pathogéniques dans le gène ASNS, codant pour l’Asparagine synthétase, chez des patients présentant une microcéphalie congénitale et une forme progressive d’encéphalopathie. Nous avons montré que des dysfonctions dans la protéine mitochondriale MAGMAS sont mises en cause dans une condition caractérisée par un retard prononcé dans le développement associé à une forme sévère de dysplasie squelettique. Nous avons identifié une mutation tronquant dans SPTBN2, codant pour la protéine spinocerebellar ataxia 5, dans une famille avec DI et ataxie cérébelleuse. Nous avons également mis en évidence une mutation dans PIGN, un gène impliqué dans la voie de biosynthèse des ancres de glycosylphosphatidylinositol , pouvant être à l’origine de la maladie chez des individus avec épilepsie et hypotonie. Par ailleurs, nous avons identifié une mutation - perte de fonction dans CLPB, codant pour une protéine chaperonne mitochondriale, dans une famille avec encéphalopathie néonatale, hyperekplexie et acidurie 3-méthylglutaconique. Le potentiel diagnostic des techniques de séquençage de nouvelle génération est indéniable ; ces technologies vont révolutionner l’univers de la génétique moléculaire, en permettant d’explorer les bases génétiques des maladies complexes comme la DI.
Resumo:
Inteins are coding sequences that are transcribed and translated with flanking sequences and then are excised by an autocatalytic process. There are two types of inteins in fungi, mini-inteins and full-length inteins, both of which present a splicing domain containing well-conserved amino acid sequences. Full-length inteins also present a homing endonuclease domain that makes the intein a mobile genetic element. These parasitic genetic elements are located in highly conserved genes and may allow for the differentiation of closely related species of the Candida parapsilosis (psilosis) complex. The correct identification of the three psilosis complex species C. parapsilosis, Candida metapsilosis, and Candida orthopsilosis is very important in the clinical setting for improving antifungal therapy and patient care. In this work, we analyzed inteins that are present in the vacuolar ATPase gene VMA and in the threonyl-tRNA synthetase gene ThrRS in 85 strains of the Candida psilosis complex (46 C. parapsilosis, 17 C. metapsilosis, and 22 C. orthopsilosis). Here, we describe an accessible and accurate technique based on a single PCR that is able to differentiate the psilosis complex based on the VMA intein. Although the ThrRS intein does not distinguish the three species of the psilosis complex by PCR product size, it can differentiate them by sequencing and phylogenetic analysis. Furthermore, this intein is unusually present as both mini- and full-length forms in C. orthopsilosis. Additional population studies should be performed to address whether this represents a common intraspecific variability or the presence of subspecies within C. orthopsilosis. Copyright © 2013, American Society for Microbiology. All Rights Reserved.
Resumo:
The aim of this study was to evaluate the use of new oligonucleotide primers (mcyB-F/R, mcyB-F/R-A, and mcyB-F/R-B) designed from Brazilian cyanobacteria for the detection of microcystin-producing genotypes in 27 environmental samples from water reservoirs and 11 strains of Microcystis. Microcystins were found using HPLC in all 11 strains and 19 of the environmental samples. The new oligonucleotide primers amplified fragments of microcystin-producing genes, including the eight environmental samples in which no microcystins were detected by HPLC, but which presented amplified fragments, thereby demonstrating the existence of microcystin-producing genes. The new oligonucleotide primers exhibited better specificity when used with environmental samples and were more reliable in comparison with those described in the literature (mcyB-FAA/RAA and mcyA-Cd/FR), which generate false-negative results. The better performance of these new oligonucleotide primers underline the need for designing molecular markers that are well fitted to the regional biological diversity. As this is a fast predictive technique for determining the presence or absence of microcystins, it could be used either alone or in conjunction with other techniques, such as the screening of samples to be sent for quantitative toxicological analysis using HPLC, thereby reducing monitoring cost and time. (c) 2010 Wiley Periodicals, Inc. Environ Toxicol, 2012.
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Defects of mitochondrial protein synthesis are clinically and genetically heterogeneous. We previously described a male infant who was born to consanguineous parents and who presented with severe congenital encephalopathy, peripheral neuropathy, myopathy, and lactic acidosis associated with deficiencies of multiple mitochondrial respiratory-chain enzymes and defective mitochondrial translation. In this work, we have characterized four additional affected family members, performed homozygosity mapping, and identified a homozygous splicing mutation in the splice donor site of exon 2 (c.504+1G>A) of RMND1 (required for meiotic nuclear division-1) in the affected individuals. Fibroblasts from affected individuals expressed two aberrant transcripts and had decreased wild-type mRNA and deficiencies of mitochondrial respiratory-chain enzymes. The RMND1 mutation caused haploinsufficiency that was rescued by overexpression of the wild-type transcript in mutant fibroblasts; this overexpression increased the levels and activities of mitochondrial respiratory-chain proteins. Knockdown of RMND1 via shRNA recapitulated the biochemical defect of the mutant fibroblasts, further supporting a loss-of-function pathomechanism in this disease. RMND1 belongs to the sif2 family, an evolutionary conserved group of proteins that share the DUF155 domain, have unknown function, and have never been associated with human disease. We documented that the protein localizes to mitochondria in mammalian and yeast cells. Further studies are necessary for understanding the function of this protein in mitochondrial protein translation.
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A real-time polymerase chain reaction (PCR) assay was developed for rapid identification of Bacillus anthracis in environmental samples. These samples often harbor Bacillus cereus bacteria closely related to B. anthracis, which may hinder its specific identification by resulting in false positive signals. The assay consists of two duplex real-time PCR: the first PCR allows amplification of a sequence specific of the B. cereus group (B. anthracis, B. cereus, Bacillus thuringiensis, Bacillus weihenstephanensis, Bacillus pseudomycoides, and Bacillus mycoides) within the phosphoenolpyruvate/sugar phosphotransferase system I gene and a B. anthracis specific single nucleotide polymorphism within the adenylosuccinate synthetase gene. The second real-time PCR assay targets the lethal factor gene from virulence plasmid pXO1 and the capsule synthesis gene from virulence plasmid pXO2. Specificity of the assay is enhanced by the use of minor groove binding probes and/or locked nucleic acids probes. The assay was validated on 304 bacterial strains including 37 B. anthracis, 67 B. cereus group, 54 strains of non-cereus group Bacillus, and 146 Gram-positive and Gram-negative bacteria strains. The assay was performed on various environmental samples spiked with B. anthracis or B. cereus spores. The assay allowed an accurate identification of B. anthracis in environmental samples. This study provides a rapid and reliable method for improving rapid identification of B. anthracis in field operational conditions.
