Global ETD Search

1	Tyrosine and phenylalanine ammonia lyases in Sporobolomyces roseus Camm, Edith Ellen January 1968 (has links) The enzymes phenylalanine ammonia lyase (PAL) and tyrosine ammonia lyase (TAL) were studied in the yeast Sporobolomyces roseus (Kluyver and van Neil). Cells grown on a glucose-salts medium were ground with alumina, and the cell-free buffer extract was fractionated with ammonium sulfate. Enzyme activity was assayed by measuring spectrophotometrically the cinnamic acid and p-coumaric acid produced from phenylalanine and tyrosine respectively. Further attempts at purification resulted in the inactivation of the TAL. Although the two enzymes were not separated by the purification procedures used, there is some evidence that the deamination of phenylalanine and tyrosine are catalyzed by different proteins, and not by a single enzyme with wide specificity. TAL appears to be precipitated by lower concentrations of ammonium sulfate than is PAL. The pH curves of the two enzymes are different. The specific activities of the two enzymes can be changed relative to one another in the cell by changing the medium upon which the cells were grown. The rates of production of the two enzymes vary independently during the growth of the cells. While the proteins are probably distinct, the production and activity of each enzyme seem to be under common control. Peak production of both enzymes occurs during late logarithmic-early stationary phase in the growth of a batch culture. Replacement media containing either phenylalanine or tyrosine stimulate the production of both PAL and TAL. Similarly, media containing cinnamic acid or p-coumaric acid repress the formation of the enzymes. Studies using labelled substrate show that both products inhibit the action of both enzymes. / Science, Faculty of / Botany, Department of / Graduate Sporobolomyces roseus Tyrosine Phenylalanine
2	BIOTECHNOLOGICAL FOUNDATIONS OF <i>SPOROBOLOMYCES LACTUCAE</i> FOR ROMAINE LETTUCE FOOD SAFETY APPLICATIONS Samira Fatemi (17277682) 12 December 2023 (has links) <p dir="ltr">Romaine lettuce is a vegetable crop that is frequently contaminated with and often implicated in mass outbreaks of human-pathogenic <i>Escherichia coli</i>. To date, research has focused on the specific pathogens responsible for those outbreaks and consumer- and retail-level interventions to eliminate those pathogens or to mitigate their spread. However, in many cases, no singular food source can be identified. Food microbiomes, particularly those associated phylloplanes, are a growing interest area and may be key in identifying the conditions that allow for proliferation of pathogenic organisms like <i>E. coli</i> O157:H7. Further, examination of dominant components of the lettuce microbiome may reveal suitable candidates that can be encouraged or engineered to outcompete or indicate the presence of pathogens. Until recently, most microbiome studies focused on bacteria; less understood are the fungi of these microbiomes. Many fungi have myriad applications in the prevention and mitigation of both human and plant diseases. Thus, to effectively prevent pathogenic <i>E. coli </i>outbreaks, a fundamental understanding about the fungi that cohabit the lettuce microbiome is paramount. The most frequently isolated yeast in the romaine lettuce microbiome is an undescribed yeast, revealing the dearth of information regarding nonpathogenic fungi in food systems. First, the novel yeast <i>Sporobolomyces lactucae</i> is described using a multi-locus phylogeny through genealogical gene concordance, with a discussion on the potential ecological range. Second, the genome of <i>S. lactucae </i>strain HU9244 is assembled and annotated with transcriptomic information to help guide target gene selection for biotechnology, particularly in identifying candidates for reporter genes that may assist in the detection of <i>E. coli </i>O157:H7 via olfactory or visual cues. Third, the distribution of the yeast <i>S. lactucae</i> is determined, finding the organism in various climate types and potentially on other leafy greens as well, indicating its suitability for <i>in situ</i> detection of foodborne pathogens such as <i>E. coli</i> O157:H7 commonly found on romaine lettuce and other leafy greens.</p> Mycology lettuce red yeasts genomics biogeographical distribution taxonomy Sporobolomyces
3	Regulace produkce lipidů a lipidických metabolitů u kvasinek / Regulation of production of lipids and lipid compounds in yeasts Rapta, Marek January 2015 (has links) Oleogenic yeasts under appropriate conditions produce and accumulate lipids and lipid-soluble metabolites in high amounts. This attribute is characteristic also for red yeasts that except lipids accumulate also carotenoids – natural pigments used in food industry and dietary supplements. The aim of this diploma thesis was designed as a comparative screening study of production properties of strains Cystofilobasidium capitatum, Rhodotorula glutinis, Sporobolomyces roseus and Sporobolomyces shibatanus. Choosen carbon sources were glucose and glycerol as waste by-product in biofuel industry. The best production properties were found in Cystofilobasidium capitatum and Rhodotorula glutinis. These two strains produced increased amounts of lipids as well as higher amounts of carotenoids. Strains were tested by FTIR spectroscopy that enables high-throughput, uncomplicated and accurate analysis.
4	Growth and biodegradation by Sporidiobolales yeasts in vanillin-supplemented medium González Gaarslev, Natalia January 2017 (has links) Studies of biodegradation in lignins by basidiomycetes yeasts show the conversion of lignin in various degradation products among which vanillin, a valuable substance, suggested to be a strong inhibitor of both fermentation and growth of yeasts, stands. Sporidiobolales yeasts used in these experiments were aimed to be identified by their highly conserved ITS region as well as studied in vanillinsupplemented medium through, vanillin-supplemented plates, TLC and Neubauer’s chamber to find out which, among the several isolates tested, were the most resistant ones, understand how they take up vanillin and how their growth is affected by the presence of the phenolic compound. Two strains were identified as Rhodotorula babjevae. One of them, L4, together with LS22, Rhodosporidium kratochvilovae, could withstand and biodegrade high concentrations of vanillin, producing biodegradation products with Rf values similar to the ones know for vanillic acid and vanillyl alcohol. Better growth in medium supplemented with small doses of vanillin was found, as well as disparity among the same species and their metabolic features, therefore, herbicides resistance was suggested as a reason for strains divergence. Further morphological-species comparison could also describe if there exist a relation between them. / Estudios sobre la biodegradación de ligninas por levaduras basidiomicetes muestran la conversión de lignina en distintos productos de degradación, entre los cuales se encuentra la vainillina, un fuerte inhibidor de la fermentación y el crecimiento de levaduras. Las levaduras Sporidiobolales utilizadas en estos experimentos han intentado ser identificadas a través de la región ETI, muy conservada, además de estudiadas en medios suplementados con vainillina mediante placas suplementadas con vainillina, CCF y cámara de Neubauer para averiguar cuáles son las cepas más resistentes, entender cómo metabolizan la vainillina y cómo su crecimiento se ve afectado por la presencia de dicho compuesto. Dos cepas fueron identificadas como Rhodotorula babjevae. Una de ellas, L4, junto con con la cepa LS22, Rhodosporidium kratochvilovae, pudieron soportar y biodegradar elevadas concentraciones de vainillina, originando productos de biodegradación con valores de Rf similares a los del ácido vanílico y alcohol vanílico previamente conocidos. Se encontró un crecimiento mejor en medios suplementados con pequeñas dosis de vainillina además de una disparidad entre mismas especies y sus características metabólicas, así, herbicidas han sido sugeridos como una posible causa en dicha divergencia. Una futura comparación morfología-especie podrá describir si existe relación entre ambos. Sporobolomyces Vanillin Internal Transcribed Spacer (ITS) Thin layer chromatography (TLC) Neubauer’s chamber Sporobolomyces Vainillina Espaciador Transcribible Interno (ETI) Cromatografia en capa fina (CCF) Cámara de Neubauer Microbiology Mikrobiologi
5	Mikrobiální produkce karotenoidních pigmentů s využitím odpadních substrátů / Microbial production of carotenoid pigments using waste substrates Němcová, Andrea January 2010 (has links) Carotenoids are naturally occurring pigments produced by bacteria, yeasts, filamentous fungi and plants. They exhibit significant biological effects and are widely used in the food industry, pharmacy and cosmetics. The aim of this diploma thesis proposed as a comparative study was regulation of carotenoid and ergosterol production in red yeasts using several waste substrates as whey, corn germs, wheat, apple fiber and pasta. To selected production media extracellular hydrolytic enzymes degrading polysaccharide were added. These enzymes were obtained from the cultivation media of four fungal strains. In this study three carotenogenic yeast strains were used: Rhodotorula glutinis, Sporobolomyces roseus and Cystofilobasidium capitatum. All strains were cultivated simultaneously and changes in biomass and carotenoid production in different production media were monitored and compared. As the best waste substrate apple fiber was utilized, particularly in Rhodotorula glutinis, which exhibited mainly biomass production increase. In Sporobolomyces roseus increased production of biomass and carotenoids have been reported in media with hydrolyzed fiber and pasta as well. Beta-carotene production in this strain reached 4776,38 mg/g of dry weight. The strain Cystofilobasidium capitatum exhibited in waste media a decerase of biomass production accompanied with increased production of carotenoids, especially in wheat mush and pasta medium hydrolyzed by enzyme preparative from Aureobasidium pullulan. It can be concluded that hydrolyzed waste substrates are very hopeful as cheap nutrient sources for yeast strains producing carotenoids and ergosterol. Nevertheless, further study of substrate processing for individual strains is needed.
6	Identification de facteurs opératoires influents en vue d'une production microbienne optimale de torularhodine et de sa fonctionnalisation enzymatique, à partir d'études cinétiques / Identification of major operating factors for an optimal torularhodin production by yeast and its enzymatic modifying based on kinetic studies Alves Da Costa Cardoso, Ligia 14 November 2008 (has links) Ce travail a eu pour objectif de déterminer les conditions optimales de production d’un caroténoïde original, la torularhodine, par Sporobolomyces ruberrimus, cultivée en réacteur discontinu. Cette souche est capable d’utiliser le glycérol technique comme source de carbone et d’énergie pour sa croissance et pour la production de caroténoïdes. D’abord, il s’est agi d’identifier les facteurs opératoires majeurs qui sont susceptibles d’avoir une influence sur la production de la torularhodine, au travers d’une étude préliminaire. L’identification expérimentale de ces facteurs d’action - la température, le taux d’oxygène dissous et la supplémentation en acide oléique - a été validée statistiquement, à des degrés divers, avant d’engager une étape d’optimisation par la construction d’un plan d’expériences multicritère. Celui-ci a conduit à l’établissement de modèles polynômiaux du second degré pour représenter l’effet conjugué des facteurs retenus et permettre la prédiction des valeurs de µmax et de concentration de torularhodine rapportée à la biomasse. Cette étude a alors été consacrée à un essai de fonctionnalisation de la torularhodine, à partir de sa fonction carboxylique, en vue de la stabilisation de la molécule dont l’activité antioxydante est élevée. L’acylation enzymatique de la lysine par la torularhodine a été envisagée. Les conditions d’acylation par la lipase B de C. antarctica ont été déterminées avec un caroténoïde modèle, la bixine. Le produit dérivé obtenu après transacylation a été purifié et a montré une activité antiradicalaire supérieure à celle de la bixine. Ces résultats permettent d’envisager la synthèse de peptides acylés avec ce type de caroténoïdes / The aim of this work was to determine the optimum of an original carotenoid, the torularhodin, produced by Sporobolomyces ruberrimus, in batch culture. A very interesting characteristic of this strain is its ability to consume raw glycerol as a carbon and energy source for microbial growth and carotenoid production. In the fist part of this study, the identification of operating parameters that have an influence on the optimum torularhodin production, was achieved. Experimental assays reinforced by a statistical study allowed to identify temperature, dissolved oxygen pressure and oleic acid supplementation, as the major parameters of influence, and then the integration of these data was performed for the construction of a multiobjective optimization based on a multicriteria experimental design. The establishment of a mathematical model of a second degree polynomial type was developed for the prediction of the values of µmax and of the torularhodin concentration reported to biomass. In the last part, considering that torularhodin has an important antioxidant property and it exhibits a free carboxyl acid function which can be used as acyl agent, a study of its structure modifying by an enzymatic way as a stabilization pattern was started. The experimental conditions of lysine acylation by the lipase B of Candida antarctica were determined using a model carotenoid, the bixin. The resulting product of the synthesis of bixin derivative was purified and showed an antiradical activity of 2.5 times higher than that of bixin. This result showed the ability of the acylation reaction of peptides with this kind of carotenoids Torularhodine Glycérol technique Sporobolomyces ruberrimus Caroténoïdes Bioréacteur discontinu Acide oléique Plan d’expériences multicritère Acylation enzymatique Novozym Bixine Lysine Multiobjective optimization Torularhodin Novozym Bixin Raw glycerol Carotenoids Sporobolomyces ruberrimus Batch bioreactor Oleic acid Enzymatic acylation Lysine
7	Využití vybraných fluorescenčních technik ke studiu kvasinek a jejich metabolitů / Use of selected fluorescence techniques to study of yeasts and yeast metabolites Mikheichyk, Nadzeya January 2016 (has links) The scope of thesis was the optimization of methods for the study of yeast and their metabolites using flow cytometry and fluorescence microscopy. Red yeasts are characterized by overproduction of carotenoids and lipids, which are used in food, pharmaceutical and feed industries. Currently, intensive research is being carried on to find appropriate microbiological alternatives for synthesis of these substances. Present thesis is focused on selected yeast genera: Rhodotorula, Sporobolomyces, Cystofilobasidium and strain Phaffia rhodozyma. Yeasts were cultivated on different nutrient media, in which glucose was used as a nutritional source, and also on glycerol and whey as waste material. In two strains - Cystofilobasidium macerans and Rhodotorula mucilaginosa growth characteristics were determined on a synthetic glucose production medium. All studied strains were able to use waste substrates as a source of nutrients. Some of the strains displayed increased production of carotenoids, and, additionally, in some cases also relatively high production of lipids. In classical cultivation in lipid and glucose medium supplemented with vitamins the best production characteristics displayed Rhodotorula glutinisstrain. In glycerol medium the highest amount of carotenoids and lipidic substances produced Sporobolomyces shibatanus strain. Strain Sporobolomyces roseus showed the best production characteristics on whey as the main source of carbon. The results show use of whey and glycerol seems like appropriate option for potential carbon source to cultivate carotenogenic yeasts and production of carotenoids and selected lipidic substances as products with higher added value. Further optimization of nutrient medium on the given substrates is needed for higher production of selected metabolites. Fluorescence microscopy and flow cytometry have proved to be suitable options for determination of the observed metabolites in the cells, their amount and viability.
8	Studium karotenogenních kvasinek v průběhu růstu pomocí pokročilých instrumentálních technik / Study of carotenogenic yeasts doring growth by using advanced instrumental techniques Vaněk, Martin January 2017 (has links) This work is dealing with application of advanced fluorescence techniques for gaining knowledge about culture development during fermentation of red yeasts. Flow cytometry was used for auto-fluorescence measurement a carotenoids quantitation. It was resolved that while carotenoids are stored mainly in membranes the technique was feasible. If red yeast starts to accumulate carotenoids into lipid bodies mainly throughout the course of stationary phase, then the method starts to fail. Flow cytometric method using cell size measurement and light scatter for lipid quantitation was proved as applicable, too. However, it works only if cells are not starved. Individual calibration for each species is needed for elimination inter-species variations of intracellular structures. Fluorescence lifetime imaging microscopy was also used for studying of red yeast. Inherent ability to resolve different fluorescent species of the same molecule, which arise due to different molecular environment, helps with quantitation of cellular lipidic structures changes through the course of fermentation. Increase in the levels of carotenoids and/or rigidity of membranes was found as mechanism of protection during metabolic shifts, when intracellular content is vulnerable to damage.
9	Využití vybraných molekulárních metod k metabolické charakterizaci průmyslově významných kvasinek / Use of some molecular techniques to metabolic characterization of industrially significant yeasts Kostovová, Iveta January 2021 (has links) Karotenoidy, ergosterol a mastné kyseliny jsou velmi žádané látky využívané v krmivářském, potravinářském a kosmetickém průmyslu. Konvenční zdroje mastných kyselin a karotenoidů jsou závislé na sezónních podmínkách, geografické poloze a na dostupnosti zemědělské půdy, což znesnadňuje pokrýt jejich neustále se zvyšující spotřebu. Velmi slibným řešením je mikrobiální produkce výše uvedených látek pomocí karotenogenních kvasinek, které jsou schopny simultánně produkovat karotenoidy, mastné kyseliny i ergosterol. Předložená disertační práce je zaměřená na molekulární a metabolickou charakterizaci karotenogenních kvasinek a na jejich potenciál pro průmyslové aplikace. Proto první experimentální části práce jsou zaměřeny na kvasinky druhu R. mucilaginosa a R. toruloides, jejich produkční vlastnosti, vliv nutričního stresu a různých zdrojů uhlíku, jakými byly xylóza a glycerol. Kromě podrobné charakterizace jejich produkčních vlastností, byly tyto kmeny také charakterizovány molekulárními metodami, zahrnující sekvenční analýzu ITS1, ITS2 a D1/2 ribozomálního operonu a analýzu mini a mikrosatelitních sekvencí M13 a GTG5. Druh R. toruloides je známý jako vynikající producent mastných kyselin, a proto se v poslední době stal cílovou karotenogenní kvasinkou pro vývoj nástrojů pro jeho genetickou manipulaci. V této práci byly úspěšně připraveny geneticky modifikované klony kmene R. toruloides, nesoucí nadměrně exprimované geny pro diacylglycerol acyltransferázu (DGA1) a glycerol-3-fosfát dehydrogenázu (GPD1). Produkce mastných kyselin u modifikovaných klonů nebyla ve srovnání s původním kmenem vyšší. Proto byla další část práce zaměřená na přípravu nadprodukčních mutantních kmenů připravených náhodnou mutagenezí. Kombinace limitace dusíkem a inhibice produkce karotenoidů vedla k úspěšné selekci robustních mutantních kmenů s nadprodukcí karotenoidů vykazující rezistenci vůči difenylaminu. Poslední část práce se zabývá produkčními vlastnostmi méně známých druhů karotenogenních kvasinek náležící do řádů Sporidiobolales a Cystofilobasidales, ve srovnání s relativně dobře prostudovanými karotenogenními druhy R. toruloides a P.rhodozyma. V této studii byly nejlešími producenty mastných kyselin kmeny S.metaroseus CCY 19-6-20 a C. macerans CCY 10-01-02. Nejlepší producent karotenoidů, kmen R. mucilaginosa CCY 19-04-06, navíc produkoval lykopen, který představoval více než 80 % celkového množství karotenoidů produkovaných tímto kmenem.

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