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41	Identification of the genes encoding enzymes involved in the synthesis of the biopolymer paramylon from Euglena gracilis Mackay, Stephen 12 1900 (has links) Thesis (MSc (Plant Biotechnology))--University of Stellenbosch, 2010. / Includes bibliography. / Title page: Dept. of Genetics, Faculty of Science / ENGLISH ABSTRACT: Recent advances in medical pharmacology have identified the immune-potentiating effects of β-1,3-glucans on mammalian immune systems. Extensive research has identified and described the mechanisms of action and receptor binding specificity of different β-1,3-glucans as well as their structural and functional relationships. Molecular mass, solubility, structural order, degree of branching as well as chemical modification all determine the effectiveness of the β-1,3-glucan immune-modulating activities, which typically include; macrophage activation, antibody adjuvant activities, reduction of LDL-cholesterol, leukocyte mitogenic activities, cytokine and chemokine production as well as antiviral and antitumor activities. Currently β-1,3-glucans have been sold commercially under the name β-glucan, mostly in the form of Betafectin, a genetically modified yeast derived β-1,3-glucan. Recent studies of different β-1,3-glucans have identified the pharmacological activities of paramylon, a Euglena derived β-1,3-glucan. Although paramylon has relatively low immune-stimulating activities, chemical modification of the paramylon granule increased immune-potentiation with specific antimicrobial and anti-HIV activities. Due to these specific immune-potentiating activities, paramylon is novel in terms of both structure as well as functional activity. In terms of biotechnological application, paramylon is greatly favoured as it is synthesized as an insoluble membrane bound granule in the cytosol of Euglena where most plant and fungal β-1,3-glucan synthases are cell membrane bound highly regulated multifunctional complexes, synthesizing β-1,3-glucan as cell wall components. Due to the novel granular nature of paramylon, expression in other systems with genetic modification could potentially further increase immuno-potentiating activities. In this study, different approaches were attempted in order to identify the genes involved in paramylon synthesis including; constructing and screening a Euglena gracilis cDNA library, sequence analysis of the purified proteins as well as transcription analysis of the sequenced transcriptome and genome of E. gracilis. Putative candidates that encode subunits of the paramylon synthase complex have been identified. / AFRIKAANSE OPSOMMING: Onlangse vordering in mediese farmakologie het die immuun-stimulerende effek van β-1,3-glukane op die soogdier immuunsisteem geïdentifiseer. Intensiewe navorsing het die meganisme van die werking en reseptor bindingspesifisiteit van verskillende β-1,3-glukane, asook hulle struktuur en funksionele verhoudings, geïdentifiseer. Die molekulêre massa, oplosbaarheid, strukturele orientasie, mate van vertakking asook chemiese modifikasies bepaal almal die effektiwiteit van die β-1,3-glukaan immuun-modulerende aktiwiteite. Tipiese immuno-moduleringsaktiwiteite sluit makrofaag aktivering, teenliggaampie adjuvant aktiwiteite, verlaging van LDL-cholesterol, leukosiet mitogeniese aktiwiteite, sitokien en chemokien produksie asook anti-virale en antitumor aktiwiteite in. Huidiglik word β-1,3-glukane onder die naam β-glukaan verkoop meestal in die vorm van Betafectin, ‘n geneties gemodifiseerde gis wat van β-1,3-glukaan afkomstig is. Onlangse studies van verskillende β-1,3-glukane het die farmakologiese aktiwiteit van paramylon, ‘n Euglena afkomstige β-1,3-glukaan geïdentifiseer. Alhoewel paramylon relatiewe lae immuun-stimulerende aktiweite toon, verhoog chemiese modifikasies van die paramylon granules immuun-stimulering, spesifiek die anti-mikrobiese en anti-MIV aktiwiteite. Weens hierdie spesifieke immuun-stimulerende aktiweite, word paramylon as nuut beskou veral in terme van beide struktuur asook funksionele aktiwiteit. In terme van biotegnologiese toepassing, verkry paramylon voorkeur aangesien dit as ‘n onoplosbare membraangebonde granule in die sitosol van Euglena gesintetiseer word terwyl meeste plant en fungus β-1,3-glukaan sintases hoogs gereguleerde multifunksionele selmembraan gebonde komplekse is wat β-1,3-glukaan asook ander selwand komponente sintetiseer. Weens die unieke granulêre natuur van paramylon, sal uitdrukking in ander sisteme ‘n moontlike industrie skep waar deur die transgeniese uitdrukking van granulêre paramylon verdere verbetering van die immuun-stimulerings aktiwiteite kan lei. In hierdie studie is verskillende benaderings aangewend om die gene wat by paramylon sintese betrokke is te identifiseer, dit sluit in die konstruksie en sifting van ‘n E. gracilis cDNS biblioteek, aminosuur volgorde analise van gesuiwerde proteiene asook die transkripsionele analise van die volgorde van die transkriptoom en genoom van E. gracilis. Moontelike kandidate wat vir die subeenhede van die paramylon syntase kompleks kodeer is geïdentifiseer. Euglena gracilis Paramylon Transcriptomics Proteomics Dissertations -- Plant biotechnology Theses -- Plant biotechnology cDNA synthesis
42	Die invloed van sekere swaarmetale op groeiverskynsels van Euglena gracilis Van Der Walt, Hendrik Stephanus 11 February 2014 (has links) M.Sc. / Please refer to full text to view abstract Euglena gracilis Heavy metals - Environmental aspects
43	Studies on novel food functions of microbial metabolites and constituents / 微生物の代謝産物と成分の新規食品機能性に関する研究 Neng, Tanty Sofyana 25 May 2020 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第22664号 / 農博第2419号 / 新制\|\|農\|\|1080(附属図書館) / 学位論文\|\|R2\|\|N5295(農学部図書室) / 京都大学大学院農学研究科応用生物科学専攻 / (主査)教授菅原達也, 教授佐藤健司, 教授澤山茂樹 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DGAM Lactic acid bacteria Nonalcoholic steatohepatitis Polyunsaturated fatty acids Euglena extract Diatoxanthin 610
44	Kinetic Studies of the Glycerophosphate Acyltransferase From Euglena Microsomes, Including the Effects of Serum Albumin Hershenson, Susan, Lou Ernst-Fonberg, Mary 16 May 1983 (has links) The kinetics of the reaction catalyzed by acyl-CoA: sn-glycerol-3-phosphate O-acyltransferase solubilized from Euglena gracilis microsomes were examined. For myristoyl-, palmitoyl-, stearoyl-, and oleoyl-CoAs, the initial reaction rates rose with increasing substrate concentration up to an optimal concentration that varied from 18.5 to 25 μ M, well above the respective critical micelle concentrations. At higher substrate concentrations, reaction was progressively inhibited. Arachidoyl-CoA was a relatively poor substrate for the acyltransferase, and substrate inhibition was not seen with it. Km values for acyl-CoAs ranged from 13 to 20 μ M while the corresponding V values varied almost 40-fold. Bovine serum albumin, among other effects, caused a change in the kinetic pattern of the reaction acyl-CoA dependency. Both acyl-CoA micelles and albumin-bound acyl-CoA were substrates. The binding of palmitoyl- and oleoyl-CoA was 2.7 and 1.5 mol, respectively, per mol of albumin. The critical micelle concentration of palmitoyl-CoA under the reaction conditions was shown by low angle light scattering photometry to be 7.1 p.M. The sn-glycerol 3-phosphate concentration dependency of the acyltransferase initial velocity exhibited Michaelis-Menten kinetics with Km values of 1.3 and 2.9 mM in the presence of 12.5 and 25 μM palmitoyl-CoA, respectively. The substrate analogues sn-glyceraldehyde 3-phosphate and dihydroxyacetone phosphate inhibited the reaction. (euglena microsome) albumin critical micelle concentration fatty acyl-CoA glycerophosphate acyltransferase
45	The genome of Euglena gracilis : annotation, function and expression Ebenezer, ThankGod Echezona January 2018 (has links) Euglena gracilis is a species of unicellular photosynthetic flagellate that inhibits aquatic ecosystems. E. gracilis belongs to the supergroup Excavata, and are an important component of the global biosphere, have biotechnological potential and is useful biological model due to their evolutionary history and complex biology. Whilst the evolutionary position of E. gracilis is now clear, their relationship with other protists such as Naegleria, Giardia, and Kinetoplastids, remains to be investigated in detail. Investigating and understanding the biology of this complex organism is a promising way to approach many evolutionary puzzles, including secondary endosymbiotic events and the evolution of parasitism, due to their relationship with Kinetoplastids. Here, I report a draft genome for E. gracilis, together with a high quality transcriptome and proteomic analysis. The estimated genome size is ~ 2 Gbp, with a GC content of ~ 50 % and a protein coding potential predicted at 36,526 Open Reading Frames (ORFs). Less than 25% of the genome is single copy sequence, indicating extensive repeat structure. There are evidences for large number of paralogs amongst specific gene families, indicating expansions and possible polyploidy as well as extensive sharing of genes with other non photosynthetic and photosynthetic eukaryotes: red and green algael genes, together with trypanosomes and other members of the excavates. Functional resolution into several of the biological systems indicates multiple similarities with the trypanosomatids in terms of orthology, paralogy, relatedness and complexity. Several biological systems such as nuclear architecture (e.g. chromosome segregation, nuclear pore complex, nuclear lamins), protein trafficking, translation, surface, consist of conserved and divergent components. For instance, several gene families likely associated with the cell surface and signal transduction possess very large numbers of lineage-specific paralogs, suggesting great flexibility in environmental monitoring and, together with divergent mechanisms for metabolic control, novel solutions to adaptation to extreme environments. I also demonstrate that the majority of control of protein expression levels is post-transcriptional and absence of transcriptional regulation, despite the presence of conventional introns. These data are a major advance in the understanding of the nuclear genome of Euglenids and provide a platform for investigation of the contributions of E. gracilis and relatives to the biosphere.
46	Effects of wood ash on freshwater organisms and aquatic forest ecosystems Aronsson, K. Andreas January 2007 (has links) Wood ash application (WAA) has been recommended mainly for two reasons; i) to avoid depletion of minerals in the soil due to whole tree harvest in the forestry and ii) to mitigate harmful effects of acidification of soil and surface waters. In conclusion, the effects on terrestrial ecosystems and, especially, tree growth, can be attributed to the properties of the ash, the dose applied and the specific site at which the ash is applied. The research conducted on the effects of WAA on limnological ecosystems is very limited, and the major purpose of the present thesis was to gain knowledge of the effects of wood ash to different freshwater organisms, and the more comprehensive, limnological effects of WAA in the first stream in Bispgården, Sweden. Effects of wood ash solutions on the unicellular alga Euglena gracilis Klebs, the amphipod Gammarus pulex L., and the moss Fontinalis antipyretica Hedw. were investigated under laboratory conditions. Common in all three species was the decline in performance (growth/velocity/respiration/oxygen evolution) when the concentration of wood ash exceeded 5 g/l and no adjustment of pH was done (alkaline solution). In contrast, different movement parameters (motility, upwards swimming and velocity) in E. gracilis (neutral conditions), and increased growth of F. antipyretica with increased concentrations of wood ash indicated that nutrients in the ash was bioavailable for these organisms. There was no evidence of toxic effects on the organisms from metals or other compounds as a result from exposure to wood ash solutions in the present studies. The field study was conducted in a forest area close to Bispgården, about 100 km NW from Sundsvall, Sweden. The catchment area (50 ha) of the stream Fanbergsbäcken was treated with wood ash in September of 2004 (3,000 kg/ha;selfhardened crush-ash). In general, both biological (diatoms) and chemical (pH, alkalinity, and aluminum (Al) measurements) indicators have shown no significant effect on acidification parameters from the addition of wood ash. There was, however, evidence of an increased pH during spring flood, accompanied with a decrease in the frequency of low pH values (<5.6) during spring flood. In addition to this, alkalinity was significantly higher in the period 2005-2006, compared to that of 2003. High concentrations of toxic forms of Al repeatedly occured in the stream Fanbergsbäcken, and the WAA did not affect the frequencies of high concentrations of toxic Al forms (<50 μg/l). Both the moss F. antipyretica and the leaves from Alnus incana displayed increased potassium (K) concentrations, although other nutrients did not increase from WAA. In conclusion, no evidence of WAA being effective in restoring or improving the ecological status of freshwater environments has been established, either in the literature or in the present field study. On the other hand, there were no indications of harmful effects due to WAA, either. However, we still do not know the effects of wood ash on several organisms (predominantly invertebrates) inhabiting small ponds and other, temporary or permanent, freshwater ecosystems. In the context of WAA, these environments and organisms have not attended any attention in the research published to date, and future studies are strongly encouraged. Wood ash Euglena gracilis Gammarus pulex Fontinalis antipyretica pH alkalinity toxicity nutrients first order stream Askåterföring Vedaska Akvatiska näringssystem Mineralnäring Biology Biologi
47	Charakteristika snímků z rastrovacího transmisního elektronového mikroskopu tenkých biologických řezů / Characterization of scanning transmission electron microscopy images of thin biological sections Novotná, Veronika January 2014 (has links) Diplomová práce popisuje fyzikální principy mikroskopů TEM, SEM a STEM spolu s jejich vhodností pro pozorování vzorků citlivých na elektrony, jako jsou zalévací média či biologické vzorky. Dále je popsána příprava vzorků pro STEM (TEM) a popis interakcí, ke kterým dochází mezi primárním elektronovým svazkem a vzorkem. Součástí práce je také pojednání o zpracování mikroskopických obrazů s podkapitolou o metodách kvantitativního porovnání obrazů ze STEM. Praktická část práce je zaměřena zejména na měření úbytku hmoty zalévacích médií (Epon, Spurr, LR White) způsobený primárním svazkem elektronů v nízkonapěťovém STEM. Ultratenké řezy několika tlouštěk byly zkoumány při různých nastaveních mikroskopu (urychlovací napětí, celková dávka, proud svazku, čištění povrchu vzorku a komory mikroskopu) a zobrazovacích módech (světlé a tmavé pole). Dále jsou zkoumány také biologické vzorky Krásnoočka štíhlého (Euglena gracilis) zalitého v pryskyřicích Epon a Spurr. Nasbírané snímky, vytvořené algoritmy a získané výsledky jsou diskutovány a zhodnoceny.
48	Photochemie und Signaltransduktion von Blaulichtrezeptorproteinen aus photosynthetisierenden Mikroorganismen Mathes, Tilo 03 January 2008 (has links) Die lichtaktivierte Kinase Phototropin aus Chlamydomonas reinhardtii, die photoaktivierte Adenylatcyclase (PAC) aus Euglena gracilis und das BLUF-Protein Slr1694 aus Synechocystis sp. PCC 6803 wurden in Hinblick auf die molekularen Details der primären photochemischen Prozesse sowie der Signalweiterleitung untersucht. Phototropin wurde mit Hilfe von Arginin aus Escherichia coli in Milligramm Mengen isoliert. Ohne Arginin wurde E. coli cAMP Rezeptorprotein assoziiert aufgefunden, welches eine hohe Homologie zu einer cAMP aktivierten Kinase aus C. reinhardtii besitzt. Volllängen Phototropin bildet wie einzelne LOV-Domänenkonstrukte ohne Kinasedomäne den Flavin-Triplettzustand und das kovalente Cysteinyl-Addukt. Der Zerfall des Signalzustandes ist in Anwesenheit von ATP beschleunigt und deutet auf Photorezeptor-Kinase Interaktion hin. Strukturelle Änderungen in der Kinasedomäne wurden durch FTIR-Differenzspektroskopie gezeigt. Über ELDOR-Spektroskopie wurde der Abstand der Photorezeptordomänen auf etwa 25 Angstrom bestimmt. Mutationen in Slr1694 an S28, N31 und W91 zeigten keine konservierten Einfluss auf die Dynamik des Signalzustands. Die Entfernung der Seitenkette von S28 führte zu einer 15 nm Rotverschiebung des Absorptionsspektrums aufgrund veränderter Wasserstoffbrückenkoordination des Kofaktors. Die Einführung von positiv geladenen Seitenketten an Stelle von N31 erhöhte die Kofaktorbindung von phosphorylierten Flavinen. Künstliche Kofaktoren wie Roseoflavin konnten in Slr1694 durch Koexpression eines prokaryotischen Flavintransporters erreicht werden. Die Rolle von M152 in PAC für die Signalweiterleitung wurde anhand der lichtaktivierten cAMP Synthese-Aktivität gezeigt. Durch ultraschnelle IR-Spektroskopie wurde die Beteiligung der Seitenketten von Y8 sowie Q50 bestätigt und eine genauere Beschreibung der Wasserstoffbrücken im langlebigen Signalzustand ermöglicht. / The light activated kinase Phototropin from Chlamydomonas reinhardtii, the photoactivated adenylylcyclase (PAC) from Euglena gracilis and the BLUF protein Slr1694 from Synechocystis sp. PCC 6803 were investigated concerning the molecular details of the primary photochemistry as well as signal transduction. Phototropin was isolated from Escherichia coli in mg amounts after solubilization with arginine. Without arginine E. coli cAMP receptor protein, which shows high homology to a cAMP activated kinase from C. reinhardtii, was copurified. Full length Phototropin shows similar photochemistry to LOV-domain containing proteins without the kinase including triplet and covalent cysteinyl adduct formation. Signaling state decay is accelerated in the presence of ATP and suggests photoreceptor-kinase interaction. FTIR spectroscopy showed light induced structural changes in the kinase domain. The distance of the photoreceptor domains of 25 Angstrom was determined by ELDOR spectroscopy. Mutation of the side chains of S28, N31 and W91 in Slr1694 showed no conserved influence on the dynamic of the signaling state. Removal of the hydroxyl group of S28 lead to a 15 nm red shift of the absorption spectrum as a result of altered hydrogen bond coordination of the cofactor. Introduction of positively charged side chains at the position of N31 strengthened the binding of phosphorylated flavins. An artificial flavin like roseoflavin was introduced in Slr1694 by coexpression of a bacterial flavin transporter. The essential role of M152 in PAC for signal transduction was shown by determination of light activated cAMP synthesis activity. Ultrafast IR spectroscopy confirmed the contribution of Y8 and Q50 in the photocycle and gave a more detailed description of the hydrogen bonding situation in the signaling state. Phototropin Slr1694 Photoactivierte Adenylatcyclase Blaulichtrezeptor LOV BLUF Flavin Transiente Spektroskopie Heterologe Expression Chlamydomonas reinhardtii Synechocystis Euglena gracilis Phototropin Slr1694 photoactivated adenylyl cyclase blue light receptor LOV BLUF Flavin transient spectroscopy heterologous expression Chlamydomonas reinhardtii Synechocystis Euglena gracilis 570 Biowissenschaften, Biologie 32 Biologie WD 2800 WN 3150 ddc:570

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