48 resultados para Fluorochromes
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Pós-graduação em Ginecologia, Obstetrícia e Mastologia - FMB
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Methods of semen cryopreservation allow changes in spermatic cells, such as damage in plasma and acrossomal membrane and modifications in mitochondrial function due to a disorder in the lipidic bilayer. For effective oocyte fertilization, spermatozoa require functional competent membranes, and intact organelles, acrosome and DNA. However, most laboratory methods used to evaluate semen quality are not highly correlated with fertilizing capacity. The discovery of a variety of fluorochromes and compounds conjugated to fluorescent probes has enabled an accurate assessment of the viability, integrity and function of spermatozoa. Among the most used probes that label the various compartments of the sperm cell there are the membrane impermeable fluorescent dyes to test the membrane integrity, as well as acylated dyes that pass the intact membrane. For the acrossomal integrity the most commonly used method is lectins labeled by a fluorescent probe. The acrosome reaction and spermatic capacitation is detected by the evaluation of membrane architecture and disorder of lipids in plasma membrane. Mitochondrial function can be determined using markers for their aerobic activity. The DNA status of spermatozoa has been determined using the metachromatic properties of Acridine Orange, and the DNA fragmentation can also be assessed by TUNEL assay. Finally, DNA condensation is analyzed using a single cell DNA gel electrophoresis assay that indicates DNA compactation. This monograph aims to compile the various tests used to detect damaged spermatozoa under cryopreservation methods, searching for improve the predictive value of semen analysis with the intention of a successful conception
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Pós-graduação em Ciência Odontólogica - FOA
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Pós-graduação em Odontologia - FOA
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Although the search for the ideal bone substitute has been the focus of a large number of studies, autogenous bone is still the gold standard for the filling of defects caused by pathologies and traumas, and mainly, for alveolar ridge reconstruction, allowing the titanium implants installation. OBJECTIVES: The aim of this study was to evaluate the dynamics of autogenous bone graft incorporation process to surgically created defects in rat calvaria, using epifluorescence microscopy. MATERIAL AND METHODS: Five adult male rats weighing 200-300 g were used. The animals received two 5-mm-diameter bone defects bilaterally in each parietal bone with a trephine bur under general anesthesia. Two groups of defects were formed: a control group (n=5), in which the defects were filled with blood clot, and a graft group (n=5), in which the defects were filled with autogenous bone block, removed from the contralateral defect. The fluorochromes calcein and alizarin were applied at the 7th and 30th postoperative days, respectively. The animals were killed at 35 days. RESULTS: The mineralization process was more intense in the graft group (32.09%) and occurred mainly between 7 and 30 days, the period labeled by calcein (24.66%). CONCLUSIONS: The fluorochromes showed to be appropriate to label mineralization areas. The interfacial areas between fluorochrome labels are important sources of information about the bone regeneration dynamics.
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Zusammenfassung Mittels Fluoreszenzfarbstoffen können Strukturen sichtbar gemacht werden, die auf kon-ventionellem Weg nicht, oder nur schwer darzustellen sind. Besonders in Kombination mit der Konfokalen Laser Scanning Mikroskopie eröffnen sich neue Wege zum spezifischen Nachweis unterschiedlichster Komponenten biologischer Proben und gegebenenfalls deren dreidimensionale Widergabe.Die Visualisierung des Proteinanteils des Zahnhartgewebes kann mit Hilfe chemisch kopplungsfähiger Fluorochrome durchgeführt werden. Um zu zeigen, daß es sich bei dieser Markierung nicht um unspezifische Adsorption des Farbstoffes handelt, wurde zur Kontrolle die Proteinkomponente der Zahnproben durch enzymatischen Verdau beseitigt. Derartig behandelte Präparate wiesen eine sehr geringe Anfärbbarkeit auf.Weiterführend diente diese enzymatische Methode als Negativkontrolle zum Nachweis der Odontoblastenfortsätze im Dentin bzw. im Bereich der Schmelz-Dentin-Grenze. Hiermit konnte differenziert werden zwischen reinen Reflexionsbildern der Dentinkanäle und den Zellausläufern deren Membranen gezielt durch lipophile Fluoreszenzfarbstoffe markiert wurden.In einem weiteren Ansatz konnte gezeigt werden, daß reduzierte und daher nichtfluoreszente Fluoresceinabkömmlinge geeignet sind, die Penetration von Oxidationsmitteln (hier H2O2) in den Zahn nachzuweisen. Durch Oxidation dieser Verbindungen werden fluoreszierende Produkte generiert, die den Nachweis lieferten, daß die als Zahnbleichmittel eingesetzten Mittel rasch durch Schmelz und Dentin bis in die Pulpahöhle gelangen können.Die Abhängigkeit der Fluoreszenz bestimmter Fluorochrome von deren chemischer Um-gebung, im vorliegenden Fall dem pH-Wert, sollte eingesetzt werden, um den Säuregrad im Zahninneren fluoreszenzmikroskopisch darzustellen. Hierbei wurde versucht, ein ratio-metrisches Verfahren zu entwickeln, mit dem die pH-Bestimmung unter Verwendung eines pH-abhängigen und eines pH-unabhängigen Fluorochroms erfolgt. Diese Methode konnte nicht für diese spezielle Anwendung verifiziert werden, da Neutralisationseffekte der mineralischen Zahnsubstanz (Hydroxylapatit) die pH-Verteilung innerhalb der Probe beeinflußen. Fluoreszenztechniken wurden ebenfalls ergänzend eingesetzt zur Charakterisierung von kovalent modifizierten Implantatoberflächen. Die, durch Silanisierung von Titantestkörpern mit Triethoxyaminopropylsilan eingeführten freien Aminogruppen konnten qualitativ durch den Einsatz eines aminspezifischen Farbstoffes identifiziert werden. Diese Art der Funktionalisierung dient dem Zweck, Implantatoberflächen durch chemische Kopplung adhäsionsvermittelnder Proteine bzw. Peptide dem Einheilungsprozeß von Implantaten in den Knochen zugänglicher zu machen, indem knochenbildende Zellen zu verbessertem Anwachsverhalten stimuliert werden. Die Zellzahlbestimmung im Adhäsionstest wurde ebenfalls mittels Fluoreszenzfarbstoffen durchgeführt und lieferte Ergebnisse, die belegen, daß die durchgeführte Modifizierung einen günstigen Einfluß auf die Zelladhäsion besitzt.
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The aim of this study was to investigate if radial extracorporeal shock wave therapy (rESWT) induces new bone formation and to study the time course of ESWT-induced osteogenesis. A total of 4000 impulses of radial shock waves (0.16 mJ/mm²) were applied to one hind leg of 13 New Zealand white rabbits with the contralateral side used for control. Treatment was repeated after 7 days. Fluorochrome sequence labeling of new bone formation was performed by subcutaneous injection of tetracycline, calcein green, alizarin red and calcein blue. Animals were sacrificed 2 weeks (n = 4), 4 weeks (n = 4) and 6 weeks (n = 5) after the first rESWT and bone sections were analyzed by fluorescence microscopy. Deposits of fluorochromes were classified and analyzed for significance with the Fisher exact test. rESWT significantly increased new bone formation at all time points over the 6-week study period. Intensity of ossification reached a peak after 4 weeks and declined at the end of the study. New bone formation was significantly higher and persisted longer at the ventral cortex, which was located in the direction to the shock wave device, compared with the dorsal cortex, emphasizing the dose-dependent process of ESWT-induced osteogenesis. No traumata, such as hemorrhage, periosteal detachment or microfractures, were observed by histologic and radiologic assessment. This is the first study demonstrating low-energy radial shock waves to induce new bone formation in vivo. Based on our results, repetition of ESWT in 6-week intervals can be recommended. Application to bone regions at increased fracture risk (e.g., in osteoporosis) are possible clinical indications.
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In the ciliate Paramecium, a variety of well characterized processes are regulated by Ca2+, e.g. exocytosis, endocytosis and ciliary beat. Therefore, among protozoa, Paramecium is considered a model organism for Ca2+ signaling, although the molecular identity of the channels responsible for the Ca2+ signals remains largely unknown. We have cloned - for the first time in a protozoan - the full sequence of the gene encoding a putative inositol (1,4,5)-trisphosphate (Ins(1,4,5)P3) receptor from Paramecium tetraurelia cells showing molecular characteristics of higher eukaryotic cells. The homologously expressed Ins(1,4,5)P3-binding domain binds [3H]Ins(1,4,5)P3, whereas antibodies unexpectedly localize this protein to the osmoregulatory system. The level of Ins(1,4,5)P3-receptor expression was reduced, as shown on a transcriptional level and by immuno-staining, by decreasing the concentration of extracellular Ca2+ (Paramecium cells rapidly adjust their Ca2+ level to that in the outside medium). Fluorochromes reveal spontaneous fluctuations in cytosolic Ca2+ levels along the osmoregulatory system and these signals change upon activation of caged Ins(1,4,5)P3. Considering the ongoing expulsion of substantial amounts of Ca2+ by the osmoregulatory system, we propose here that Ins(1,4,5)P3 receptors serve a new function, i.e. a latent, graded reflux of Ca2+ to fine-tune [Ca2+] homeostasis.
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The Rachycentron canadum species, commonly known as beijupirá or cobia is the only representative of Rachycentridae family which has been increasingly used in marine fish farming, in intensive cultivation. As advantageous features it has easy adaptation, prolific behavior, early growth in captivity and high commercial value. Additionally, specie of Lutjanidae family (Lutjanus synagris, Lutjanus jocu, Lutjanus analis, Lutjanus alexandrei and Ocyurus chrysurus) represents an important fisheries resource in all areas of its occurrence. In Brazil, the commercial exploitation of Lutjanidae which begun in the 60's and 80's, already has showed a decline in catch volumes. This fact suggests that the snappers must have a conservative management. Despite the economic potential, little is known about the genetic and cytogenetic characteristics of these species, especially with respect to repetitive DNA analysis, which represents the major part of the eukaryotes genome, playing important evolutionary roles in the fish genome. Cytogenetic data is increasingly being used in population studies and biotechnological purposes in fishes. The cytogenetical analyzes were performed using classical methods such as Giemsa staining, C-banding and Ag-NORs, fluorochromes base-specific staining (DAPI and MM) and physical mapping of repetitive sequences among which, telomeric sequences, transposons (Tol2), retrotransposons (Rex1 and Rex3), repetitive DNA (microsatellites and Cot-1) and transcriptionally active regions of the 18S and 5S ribosomal genes and histone (H3 and H2BA) by in situ hybridization with fluorescent probes (FISH). The chromosomal patterns obtained contributed to the organization of repetitive sequences in the genome of the species, as well as karyotypical differentiation. Unusual patterns of histone sequences expansion depict the first occurrence in marine fishes. The obtained data provided subsides to the genetic knowledge of the important fisheries resource represented by the species here analyzed, seeking the marine pisciculture improvement.
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Abstract Molecular probe-based methods (Fluorescent in-situ hybridisation or FISH, Next Generation Sequencing or NGS) have proved successful in improving both the efficiency and accuracy of the identification of microorganisms, especially those that lack distinct morphological features, such as picoplankton. However, FISH methods have the major drawback that they can only identify one or just a few species at a time because of the reduced number of available fluorochromes that can be added to the probe. Although the length of sequence that can be obtained is continually improving, NGS still requires a great deal of handling time, its analysis time is still months and with a PCR step it will always be sensitive to natural enzyme inhibitors. With the use of DNA microarrays, it is possible to identify large numbers of taxa on a single-glass slide, the so-called phylochip, which can be semi-quantitative. This review details the major steps in probe design, design and production of a phylochip and validation of the array. Finally, major microarray studies in the phytoplankton community are reviewed to demonstrate the scope of the method.
