16 resultados para Chromo
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Compounds that change their absorption and/or emission properties in the presence of a target ion or molecule have been studied for many years as the basis for optical sensing. Within this group of compounds, a variety of organometallic complexes have been proposed for the detection of a wide range of analytes such as cations (including H+), anions, gases (e.g. O2, SO2, organic vapours), small organic molecules, and large biomolecules (e.g. proteins, DNA). This chapter focuses on work reported within the last few years in the area of organometallic sensors. Some of the most extensively studied systems incorporate metal moieties with intense long-lived metal-to-ligand charge transfer (MLCT) excited states as the reporter or indicator unit, such as fac-tricarbonyl Re(I) complexes, cyclometallated Ir(III) species, and diimine Ru(II) or Os(II) derivatives. Other commonly used organometallic sensors are based on Pt-alkynyls and ferrocene fragments. To these reporters, an appropriate recognition or analyte-binding unit is usually attached so that a detectable modification on the colour and/or the emission of the complex occurs upon binding of the analyte. Examples of recognition sites include macrocycles for the binding of cations, H-bonding units selective to specific anions, and DNA intercalating fragments. A different approach is used for the detection of some gases or vapours, where the sensor's response is associated with changes in the crystal packing of the complex on absorption of the gas, or to direct coordination of the analyte to the metal centre.
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Recently the paper ""Schwinger mechanism for gluon pair production in the presence of arbitrary time dependent chromo-electric field"" by G. C. Nayak was published [Eur. Phys. J. C 59: 715, 2009; arXiv:0708.2430]. Its aim is to obtain an exact expression for the probability of non-perturbative gluon pair production per unit time per unit volume and per unit transverse momentum in an arbitrary time-dependent chromo-electric background field. We believe that the obtained expression is open to question. We demonstrate its inconsistency on some well-known examples. We think that this is a consequence of using the socalled ""shift theorem""[arXiv:hep-th/0609192] in deriving the expression for the probability. We make some critical comments on the theorem and its applicability to the problem in question.
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Mode of access: Internet.
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Kartan esitystekniikka: maastokartta
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Heterochromatin Protein 1 (HP1) is an evolutionarily conserved protein required for formation of a higher-order chromatin structures and epigenetic gene silencing. The objective of the present work was to functionally characterise HP1-like proteins in Dictyostelium discoideum, and to investigate their function in heterochromatin formation and transcriptional gene silencing. The Dictyostelium genome encodes three HP1-like proteins (hcpA, hcpB, hcpC), from which only two, hcpA and hcpB, but not hcpC were found to be expressed during vegetative growth and under developmental conditions. Therefore, hcpC, albeit no obvious pseudogene, was excluded from this study. Both HcpA and HcpB show the characteristic conserved domain structure of HP1 proteins, consisting of an N-terminal chromo domain and a C-terminal chromo shadow domain, which are separated by a hinge. Both proteins show all biochemical activities characteristic for HP1 proteins, such as homo- and heterodimerisation in vitro and in vivo, and DNA binding activtity. HcpA furthermore seems to bind to K9-methylated histone H3 in vitro. The proteins thus appear to be structurally and functionally conserved in Dictyostelium. The proteins display largely identical subnuclear distribution in several minor foci and concentration in one major cluster at the nuclear periphery. The localisation of this cluster adjacent to the nucleus-associated centrosome and its mitotic behaviour strongly suggest that it represents centromeric heterochromatin. Furthermore, it is characterised by histone H3 lysine-9 dimethylation (H3K9me2), which is another hallmark of Dictyostelium heterochromatin. Therefore, one important aspect of the work was to characterise the so-far largely unknown structural organisation of centromeric heterochromatin. The Dictyostelium homologue of inner centromere protein INCENP (DdINCENP), co-localized with both HcpA and H3K9me2 during metaphase, providing further evidence that H3K9me2 and HcpA/B localisation represent centromeric heterochromatin. Chromatin immunoprecipitation (ChIP) showed that two types of high-copy number retrotransposons (DIRS-1 and skipper), which form large irregular arrays at the chromosome ends, which are thought to contain the Dictyostelium centromeres, are characterised by H3K9me2. Neither overexpression of full-length HcpA or HcpB, nor deletion of single Hcp isoforms resulted in changes in retrotransposon transcript levels. However, overexpression of a C-terminally truncated HcpA protein, assumed to display a dominant negative effect, lead to an increase in skipper retrotransposon transcript levels. Furthermore, overexpression of this protein lead to severe growth defects in axenic suspension culture and reduced cell viability. In order to elucidate the proteins functions in centromeric heterochromatin formation, gene knock-outs for both hcpA and hcpB were generated. Both genes could be successfully targeted and disrupted by homologous recombination. Surprisingly, the degree of functional redundancy of the two isoforms was, although not unexpected, very high. Both single knock-out mutants did not show any obvious phenotypes under standard laboratory conditions and only deletion of hcpA resulted in subtle growth phenotypes when grown at low temperature. All attempts to generate a double null mutant failed. However, both endogenous genes could be disrupted in cells in which a rescue construct that ectopically expressed one of the isoforms either with N-terminal 6xHis- or GFP-tag had been introduced. The data imply that the presence of at least one Hcp isoform is essential in Dictyostelium. The lethality of the hcpA/hcpB double mutant thus greatly hampered functional analysis of the two genes. However, the experiment provided genetic evidence that the GFP-HcpA fusion protein, because of its ability to compensate the loss of the endogenous HcpA protein, was a functional protein. The proteins displayed quantitative differences in dimerisation behaviour, which are conferred by the slightly different hinge and chromo shadow domains at the C-termini. Dimerisation preferences in increasing order were HcpA-HcpA << HcpA-HcpB << HcpB-HcpB. Overexpression of GFP-HcpA or a chimeric protein containing the HcpA C-terminus (GFP-HcpBNAC), but not overexpression of GFP-HcpB or GFP-HcpANBC, lead to increased frequencies of anaphase bridges in late mitotic cells, which are thought to be caused by telomere-telomere fusions. Chromatin targeting of the two proteins is achieved by at least two distinct mechanisms. The N-terminal chromo domain and hinge of the proteins are required for targeting to centromeric heterochromatin, while the C-terminal portion encoding the CSD is required for targeting to several other chromatin regions at the nuclear periphery that are characterised by H3K9me2. Targeting to centromeric heterochromatin likely involves direct binding to DNA. The Dictyostelium genome encodes for all subunits of the origin recognition complex (ORC), which is a possible upstream component of HP1 targeting to chromatin. Overexpression of GFP-tagged OrcB, the Dictyostelium Orc2 homologue, showed a distinct nuclear localisation that partially overlapped with the HcpA distribution. Furthermore, GFP-OrcB localized to the centrosome during the entire cell cycle, indicating an involvement in centrosome function. DnmA is the sole DNA methyltransferase in Dictyostelium required for all DNA(cytosine-)methylation. To test for its in vivo activity, two different cell lines were established that ectopically expressed DnmA-myc or DnmA-GFP. It was assumed that overexpression of these proteins might cause an increase in the 5-methyl-cytosine(5-mC)-levels in the genomic DNA due to genomic hypermethylation. Although DnmA-GFP showed preferential localisation in the nucleus, no changes in the 5-mC-levels in the genomic DNA could be detected by capillary electrophoresis.
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Die Erforschung posttranslationaler Veränderungen von Chromatin-Komponenten stellt einen wichtigen Pfeiler der Epigenetik dar. Epigenetische Mechanismen verändern die Aussagekraft der DNA-Sequenz und entscheiden somit beispielsweise über die Aktivierung oder Stilllegung von Genen. Ein häufiges Ziel der Stilllegung sind springende genetische Elemente, die ansonsten zur Destabilisierung des Genoms führen können. Im Rahmen dieser Arbeit wurden zwei unterschiedliche Stilllegungsmechanismen der Transpo-sons DIRS-1 und Skipper aus Dictyostelium discoideum untersucht. Dabei konnte gezeigt werden, auf welche Weise die RNA-Interferenz (RNAi) zur Zerstörung des DIRS-1 Transkripts führt und dass die Ursache dafür in der Promotor-Aktivität des Elements selbst liegt. Eine überraschende Erkenntnis konnte auch für das zweite Element gewonnen werden. Experimente legen nahe, dass die in der kodierenden Skipper-Sequenz gefundene Chromo-Domäne zu einer gezielten Integration des Elements in bereits stillgelegte heterochromatische Bereiche führt. Diese zeichnen sich vor allem durch eine spezielle posttranslationale Histon-Modifikation, der Methylierung von Lysin 9 des Histons H3 (H3K9), aus. Während zu der Methylierung von H3K9 bereits Arbeiten erschienen sind, war ein Großteil der anderen in Dictyostelium discoideum kodierten Histon-Modifikationen bislang unbekannt. Mit Hilfe der Massenspektrometrie konnte erstmalig eine umfassende Karte der veränderten Aminosäuren erstellt werden. Dabei konnten neue, bislang für keinen Organismus beschriebene Modifikationsziele identifiziert werden. Weitere lassen durch einen Vergleich mit Modellorganismen wie Hefe und Fruchtfliege Schlüsse auf die Evolution des Histon-Codes zu. Die erstellte Karte kann in Zukunft Forschern als Grundlage dienen, um weitergehende Fragestellungen in Bezug auf die Funktionen der hier vorgestellten Modifikationen zu erforschen. Ein weiteres Ergebnis dieser Arbeit stellt die Charakterisierung posttranslationaler Veränderungen des an H3K9 bindenden Heterochromatin-Proteins 1 (HP1) dar. Neben einer ersten Analyse der in Dictyostelium discoideum vorhandenen Modifikationen der beiden Homologe HcpA und HcpB, wurde auch die Funktion der in der Chromoshadow-Domäne lokalisierten Acetylierung erforscht. Hierbei konnte gezeigt werden, dass ein Fehlen des veränderten Lysins zu einem deutlichen Phänotyp in der Sporenform und im Wachstum der Zellen führt. Als Ursache dafür konnte eine Veränderung in der Fähigkeit zur Gen-Stilllegung durch das mutierte HP1-Protein nachgewiesen werden. Dies gelang mit Hilfe eines dafür etablierten Reporters auf Basis des Gal4/UAS-Systems aus der Fruchtfliege und beweist erstmalig die Funktion einer Acetylierung der HP1-Proteine.
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Die Epigenetik repräsentiert einen Teilbereich der Genetik, der sich mit Regulationsmechanismen befasst, welche Einfluss auf die Genexpression nehmen und dabei nicht auf Veränderungen in der DNA-Sequenz beruhen. Ein verbreiteter Mechanismus beruht auf der Kontrolle des Kondensationsgrades der DNA durch posttranslationale Modifizierung von Proteinen. Die Proteine können ein struktureller Bestandteil des Chromatins oder aber an dessen Etablierung und Aufrechterhaltung beteiligt sein. Heterochromatin Protein 1 (HP1) ist ein Schlüsselprotein bei der Bildung und Aufrechterhaltung heterochromatischer Strukturen. Zudem erfüllt es eine Reihe weiterer Funktionen und interagiert mit einer Vielzahl von Proteinen. In der vorliegenden Arbeit konnte gezeigt werden, dass die HP1-Homologe aus Dictyostelium discoideum umfangreich mit posttranslationalen Modifikationen versehen sind. Eine in der als Interaktionsdomäne bezeichneten Chromo-Shadow-Domäne gelegene Acetylierung steht zumindest in HcpB im Zusammenhang mit der Bildung von Heterochromatin. Darüber hinaus konnte gezeigt werden, dass HcpB physisch mit der Histonmethyltransferase SuvA interagiert. Der Einfluss der oben genannten Acetylierung auf die Bildung von Heterochromatin könnte dabei sowohl auf der Kontrolle der Homo- bzw. Heterodimerisierung als auch auf der Kontrolle der Interaktion mit SuvA beruhen. Die hohe Konservierung von HP1-Proteinen führt zu der Frage, ob das humane Homolog HP1α die endogenen HP1-Homologe in Dictyostelium discoideum kompensieren kann. Während humanes HP1α in der Lage ist im Einzel-Knockout mit heterochromatischen Strukturen zu assoziieren scheint der Knockout des zweiten Homologes letal zu sein. Dies legt nahe, dass HP1α nur einen Teil der Funktionen übernehmen kann. Um Interaktionspartner von HcpA und HcpB zu bestimmen wurden mit bioinformatischen Methoden drei Proteine aus Dictyostelium als potentielle Komponenten des Chromatin Assembly Factor 1 (CAF1) identifiziert und untersucht. Vorhergehende Experimente aus anderen Arbeiten stützen die Annahme, dass es sich hierbei um Komponenten des Chromatin Assembly Factor 1 handelt.
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Sex ratios in clutches of moorhens (Gallinula chloropus) in Britain were measured on 83 chicks using the sex-linked CHD1 gene (Chromo-helicase/ATPase-DNA binding protein 1). Among birds, the female is the hetero-gametic sex (Z and W chromosomes), and the male is homogametic (two copies of the Z chromosome). We report variation among the PCR-amplified fragments of the CHD1Z, and the death of nearly all heterozygous male chicks (92%). In contrast, survivorship among females and homozygote males was 54–60%. Mortality in male heterozygotes was significantly higher than that of male homozygotes (P < 0.001). Chick and egg biometrics were not significantly different between these males. The CHD1Z was unlikely to be directly responsible but may have been hitchhiked by the causal gene(s). The observations appear to follow a classic underdominance (heterozygote inferiority) pattern, but raise the paradoxical question of why one form of the Z chromosome has not been fixed, as is expected from evolutionary theory. We discuss possible explanations and include a survey of British populations based on skin specimens.
Utilização de microemulsões como agentes modificadores de superfícies para remoção de íons metálicos
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The heavy metals are used in many industrial processes and when discharged to the environment can cause harmful effects to human, plants and animals. The adsorption technology has been used as an effective methodology to remove metallic ions. The search for new adsorbents motivated the development of this research, accomplished with the purpose of removing Cr (III) from aqueous solutions. Diatomite, chitosan, Filtrol 24TM and active carbon were used as adsorbents. To modify the adsorbent surface was used a bicontinuous microemulsion composed by water (25%), kerosene (25%), saponified coconut oil (10%) and as co-surfactant isoamyl or butyl alcohols (40%). With the objective of developing the best operational conditions the research started with the surfactant synthesis and after that the pseudo-ternary diagrams were plotted. It was decided to use the system composed with isoamyl alcohol as co-surfactant due its smallest solubility in water. The methodology to impregnate the microemulsion on the adsorbents was developed and to prepare each sample was used 10 g of adsorbent and 20 mL of microemulsion. The effect of drying time and temperature was evaluated and the best results were obtained with T = 65 ºC and t = 48 h. After evaluating the efficiency of the tested adsorbents it was decided to use chitosan and diatomite. The influence of the agitation speed, granule size, heavy metal synthetic solution concentration, pH, contact time between adsorbent and metal solution, presence or not of NaCl and others metallic ions in the solution (copper and nickel) were evaluated. The adsorption isotherms were obtained and Freundlich and Langmuir models were tested. The last one correlated better the data. With the purpose to evaluate if using a surfactant solution would supply similar results, the adsorbent surface was modified with this solution. It was verified that the adsorbent impregnated with a microemulsion was more effective than the one with a surfactant solution, showing that the organic phase (kerosene) was important in the heavy metal removal process. It was studied the desorption process and verified that the concentrated minerals acids removed the chromium from the adsorbent surface better than others tested solutions. The treatment showed to be effective, being obtained an increase of approximately 10% in the chitosan s adsorption capacity (132 mg of Cr3+ / g adsorbent), that was already quite efficient, and for diatomite, that was not capable to remove the metal without the microemulsion treatment, it was obtained a capacity of 10 mg of Cr3+ / g adsorbent, checking the applied treatment effectiveness
Impacto ambiental e agronômico do uso de condicionadores orgânicos no cultivo de Cymbopogon citratus
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Pós-graduação em Ciências Biológicas (Genética) - IBB
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The murine gene CHD1 (MmCHD1) was previously isolated in a search for proteins that bound a DNA promoter element. The presence of chromo (chromatin organization modifier) domains and an SNF2-related helicase/ATPase domain led to speculation that this gene regulated chromatin structure or gene transcription. This study describes the cloning and characterization of three novel human genes related to MmCHD1. Examination of sequence databases produced several more related genes, most of which were not known to be similar to MmCHD1, yielding a total of 12 highly conserved CHD genes from organisms as diverse as yeast and mammals. The major region of sequence variation is in the C-terminal part of the protein, a region with DNA-binding activity in MmCHD1. Targeted deletion of ScCHD1, the sole Saccharomyces cerevesiae CHD gene, was performed with deletion strains being less sensitive than wild type to the cytotoxic effect of 6-azauracil. This finding suggested that enhanced transcriptional arrest at RNA polymerase II pause sites due to 6-azauracil-induced nucleotide pool depletion was reduced in the deletion strain and that ScCHD1 inhibited transcription. This observation, along with the known roles of other proteins with chromo or SNF2-related helicase/ATPase domains, suggests that alteration of gene expression by CHD genes might occur by modifications of chromatin structure, with altered access of the transcriptional apparatus to its chromosomal DNA template.
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Previously, we reported on the discovery and characterization of a mammalian chromatin-associated protein, CHD1 (chromo-ATPase/helicase-DNA-binding domain), with features that led us to suspect that it might have an important role in the modification of chromatin structure. We now report on the characterization of the Drosophila melanogaster CHD1 homologue (dCHD1) and its localization on polytene chromosomes. A set of overlapping cDNAs encodes an 1883-aa open reading frame that is 50% identical and 68% similar to the mouse CHD1 sequence, including conservation of the three signature domains for which the protein was named. When the chromo and ATPase/helicase domain sequences in various CHD1 homologues were compared with the corresponding sequences in other proteins, certain distinctive features of the CHD1 chromo and ATPase/helicase domains were revealed. The dCHD1 gene was mapped to position 23C-24A on chromosome 2L. Western blot analyses with antibodies raised against a dCHD1 fusion protein specifically recognized an approximately 210-kDa protein in nuclear extracts from Drosophila embryos and cultured cells. Most interestingly, these antibodies revealed that dCHD1 localizes to sites of extended chromatin (interbands) and regions associated with high transcriptional activity (puffs) on polytene chromosomes from salivary glands of third instar larvae. These observations strongly support the idea that CHD1 functions to alter chromatin structure in a way that facilitates gene expression.
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Mode of access: Internet.
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"The articles in this volume have appeared in the Nation during the last thirty years."
