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Enzymes and Feedstocks for Sustainable Biomass UtilisationMottiar, Yaseen 15 August 2012 (has links)
Modern biorefineries provide a framework for the sustainable conversion of biomass to biofuels and biochemicals. In light of the recalcitrance of lignin in woody feedstocks, the native shrub eastern leatherwood is proposed as a model hypolignified species. Xylem tissue of this low-lignin plant contained syringyl-rich lignin that was more easily hydrolysed and did not appear to be localised in the middle lamellae. Also, leatherwood cellulose was less crystalline and the xylan was highly acetylated. While viable low-lignin plants will enable the sustainable utilisation of woody feedstocks, high-value bioproducts are needed to economise future biorefineries. The carbohydrate oxidoreductases galactose oxidase and glucooligosaccharide oxidase were studied for use in the oxidation and derivatisation of plant-derived polysaccharides for the production of such high-value bioproducts. The carbohydrate-binding module of galactose oxidase was necessary for recombinant protein production. Also, a mutant library of glucooligosaccharide oxidase variants was produced to generate enzymes with novel activity.
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Enzymes and Feedstocks for Sustainable Biomass UtilisationMottiar, Yaseen 15 August 2012 (has links)
Modern biorefineries provide a framework for the sustainable conversion of biomass to biofuels and biochemicals. In light of the recalcitrance of lignin in woody feedstocks, the native shrub eastern leatherwood is proposed as a model hypolignified species. Xylem tissue of this low-lignin plant contained syringyl-rich lignin that was more easily hydrolysed and did not appear to be localised in the middle lamellae. Also, leatherwood cellulose was less crystalline and the xylan was highly acetylated. While viable low-lignin plants will enable the sustainable utilisation of woody feedstocks, high-value bioproducts are needed to economise future biorefineries. The carbohydrate oxidoreductases galactose oxidase and glucooligosaccharide oxidase were studied for use in the oxidation and derivatisation of plant-derived polysaccharides for the production of such high-value bioproducts. The carbohydrate-binding module of galactose oxidase was necessary for recombinant protein production. Also, a mutant library of glucooligosaccharide oxidase variants was produced to generate enzymes with novel activity.
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In-vivo Directed Evolution Of Galactose Oxidase By Stationary Phase Adaptive Mutations And Phylogenetic Analysis Of Error-prone PolymerasesOreroglu, Ayla 01 November 2008 (has links) (PDF)
In this study, the novel idea of in-vivo directed evolution was applied in order to achieve variants of the enzyme galactose oxidase with increased activity. This procedure was done under starvation conditions in Escherichia coli BL21 Star (DE3). Previous studies have been carried out in order to improve the activity of this enzyme using directed evolution methods. In this study, the same idea was used in-vivo, during stationary phase adaptive mutations inside the host organism, hence called in-vivo directed evolution. This method gave variants with improved enzyme activity as compared with the wild-type enzyme, and some variants showed activities that were even higher than the variants of
previous directed evolution studies, hence making this method a promising approach for the random mutagenesis of genes of interest. The above mentioned mutations are carried out by a special group of polymerases, the error-prone polymerases. Phylogenetic analysis of these error-prone polymerases was also carried out in order to investigate the relationship between the number of error-prone polymerases and the level of complexity of organisms, and both the number of error-prone polymerases and the ratio of error-prone polymerases to total DNA polymerases of six organisms were studied. It was found that as the organism gets more complex, the number of error-prone polymerases and their ratio to the total
polymerases increase.
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Analysis Of Self-processing Mechanism Of Galactose Oxidase By Site-directed Mutagenesis And Heterologous Expression In Escherichia ColiGencer, Burcak 01 December 2005 (has links) (PDF)
In this study, self-catalytic maturation of heterologously expressed pro-galactose oxidase was analysed in E.coli by altering some amino acids which were supposed to play a crucial role in pro-peptide removal. Galactose oxidase (GOase / EC 1.1.3.9) from Fusarium graminearum / having a molecular mass of 68kDa, is a monomeric, copper containing enzyme with an unusual thioether bond. The enzyme is produced as a precursor with an additional 8 amino acid pre- and a 17- amino acid pro-sequence at the N terminus. Previous work has shown that the pre-peptide is removed possibly by a protease during secretion, whereas the 17 amino acid pro-peptide is removed autocatalytically by the aerobic addition of Cu2+ to the precursor, preceding the formation of the thioether bond at the active site. The pro-gao gene was on ProGON1 and ProGOMN1 constructs which were previously established on pET101/D/lacZ vector in England by directed evolution. ProGON1 contains silent mutations at the N-terminus different from native galactose oxidase whereas ProGOMN1 has six further mutations within the mature enzyme, providing high expression. The cleavage site mutations R-1P/A1P, R-1X/A1X, S2A, and the H522A mutation just against the cleavage site in the three dimensional configuration, were carried out by site-directed mutagenesis. Those and some extra mutations were confirmed by DNA sequence analysis. Next, mutant galactose oxidases were expressed in E. coli BL21 Star (DE3), and were purified by Strep-Tactin® / Sepharose® / column, operating on the basis of affinity chromatography. Subsequently, SDS-PAGE was performed to analyze self-processing by detecting molecular mass difference of protein bands resulting from pro-sequence removal or existence. When the bands obtained in SDS-PAGE were compared, it was seen that the products of original recombinant plasmids, i.e. ProGON1, ProGOMN1 / and the mutational variants showed no difference in band size, all slightly above 70kDa / indicating pro-sequence presence on all constructs. Non-mutants and some of the mutants showed galactose oxidase activity, signifying proper active site construction by thioether bond formation. ProGOMN1 was submitted for N-terminal amino acid sequencing to be able to assert that a size above 70kDa is not solely due to the existence of a 1 kDa Strep-tag II at C-terminus. Sequencing data affirmed the presence of both the pre-peptide and the pro-preptide showing that processing has not occurred at the N-terminus. Accordingly, in this study, it was shown for the first time that the existence of a pre-pro-peptide at the N-terminus of galactose oxidase does not prevent thioether bond formation at the active site. Furthermore, since the pro-peptide is cleaved autocatalytically, the lack of removal of the pre-peptide in E.coli in the presence of Cu 2+ and oxygen is very likely to be the cause of lack of pro-peptide cleavage. In future studies the region corresponding to the pre-peptide will be deleted to prove this hypothesis.
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Enzymatic Preparation of 2,5-Furandicarboxylic Acid (FDCA)—A Substitute of Terephthalic Acid—By the Joined Action of Three Fungal EnzymesKarich, Alexander, Kleeberg, Sebastian B., Ullrich, René, Hofrichter, Martin 25 April 2018 (has links) (PDF)
Enzymatic oxidation of 5-hydroxymethylfurfural (HMF) and its oxidized derivatives was studied using three fungal enzymes: wild-type aryl alcohol oxidase (AAO) from three fungal species, wild-type peroxygenase from Agrocybe aegerita (AaeUPO), and recombinant galactose oxidase (GAO). The effect of pH on different reaction steps was evaluated and apparent kinetic data (Michaelis-Menten constants, turnover numbers, specific constants) were calculated for different enzyme-substrate ratios and enzyme combinations. Finally, the target product, 2,5-furandicarboxylic acid (FDCA), was prepared in a multi-enzyme cascade reaction combining three fungal oxidoreductases at micro-scale. Furthermore, an oxidase-like reaction is proposed for heme-containing peroxidases, such as UPO, horseradish peroxidase, or catalase, causing the conversion of 5-formyl-2-furancarboxylic acid into FDCA in the absence of exogenous hydrogen peroxide.
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Développement de biocapteurs ampérométriques pour la détermination de l’activité de la transcétolase et pour la détection d’inhibiteurs de cette enzyme / Development of amperometric biosensors for the determination of the activity of transketolase and for the detection of inhibitors of this enzymeTouisni, Nadia 13 December 2013 (has links)
Depuis peu, des travaux ont montré que chez l’Homme, la transcétolase (TK, EC 2.2.1.1.) dont le cofacteur est la thiamine diphosphate (forme active de la vitamine B1), est une enzyme impliquée dans de nombreuses maladies telles que, le diabète, certains cancers, ou encore des maladies neurologiques, comme le syndrome de Wernicke-Korsakoff et la maladie d’Alzheimer. Pour des applications thérapeutiques, des inhibiteurs spécifiques de cette enzyme sont actuellement conçus et synthétisés dans les milieux académiques et industriels. Afin de déterminer l’activité de la TK (dans un but de diagnostic) d’une part, et de détecter des inhibiteurs potentiels de cette enzyme (dans un but thérapeutique) d’autre part, il est nécessaire de disposer de tests alliant rapidité, sensibilité et faible coût. Nous avons envisagé d’utiliser des biocapteurs ampérométriques qui combinent l’ensemble de ces avantages, et qui, de plus, n’ont jamais été mis en oeuvre avec la TK. Pour la détermination de l’activité des TK d’E. coli et humaine libres en solution, nous avons tout d’abord élaboré un premier biocapteur à galactose oxydase (GAOx, EC 1.1.3.9), dans lequel cette enzyme est immobilisée sur la laponite. Puis, dans le but de detecter des inhibiteurs de la TK, avec un système réutilisable, nous avons developpé un biocapteur à GAOx-TK d’E. coli, les deux enzymes étant co-immobilisées à la surface de l’électrode. Pour cela la TK a été immobilisée dans des Hydroxydes Doubles Lamellaires (HDL). Ce biocapteur bicouche et bi-enzymatique GAOx-TK, nous a permis d’évaluer l’effet d’inhibiteurs, tels que différents analogues du cofacteur et de substrats pris comme modèles. / Some recent studies have shown that human transketolase (TK, EC 2.2.1.1.), which thiamine diphosphate (active form of vitamin B1) is the cofactor, is involved in numerous disease such as diabete, some cancers and neurodegenerative diseases as Alzheimer’s disease and Wernicke-Korsakoff syndrome. For therapeutic purposes, TK inhibitors have been designed and synthesized in both academic and industrial fields. To determine TK activity (diagnostic) on the one hand, and to detect potential inhibitors of this enzyme (therapeutic) on the other hand, it is necessary to develop fast, sensitive and low cost assays. In this context, we designed some original amperometric biosensors that combine these advantages and were never studied with TK from now. We performed a first galactose oxidase (GAOx, EC 1.1.3.9) biosensor for E. coli and human TK activities detection. For that purpose, GAOx was immobilized on laponite matrix. Then, we designed a GAOx-TK biosensor by co-immobilization of GAOX and TK on the electrode surface that enabled the detection TK inhibitors with a reusable system. Thence, TK was immobilized in Layered Double Hydroxides (HDL). This bilayer and bi-enzymic biosensors, allowed us to determine the inhibitor potencies of several cofactors and substrates analogues as model compounds.
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Development of a Novel Biocatalytic Cascade for the Valorisation of 5-(Hydroxymethyl)furfural / Utveckling av en ny biokatalytisk kaskad för förädling av 5-(hydroxymetyl)furfuralJohansson, Johannes January 2022 (has links)
Den nära förestående bristen på fossila resurser i kombination med deras associerade miljöfarlighet betonar behovet av utveckling av alternativa, mer hållbara kemikalier. I denna studie utvecklades en enzymatisk kaskad för förädling av 5-(hydroxymetyl)furfural (HMF) till 5-(aminometyl)-2-furfuraldehyd (AMFA). Kaskaden omfattar transaminering av HMF till 5-(hydroxymetyl)furfurylamin (HMFA) följt av oxidation av HMFA till AMFA. Transaminas från Silicibacter pomeroyi (SpATA) immobiliserades via his6-taggar på EziG-proteinbärare från EnginZyme AB. Proteinbärarna placerades i spin-kolonner under transamineringen vilket möjliggjorde omhändertagande av SpATA efter transamineringen av HMF. För oxidationen utvärderades alkoholdyhydrogenas från Thermoanaerobacter brockii och hästlever samt galaktosoxidas från Dactylium dendroides (GOase). Omsättning och produktbildning analyserades med HPLC. Resultaten indikerar att SpATA effektivt katalyserar transamineringen av HMF, att alkohol dehydrogenasen inte förmår katalysera oxidationen av HMF till HMFA och att galaktosoxidaset kan oxidera HMFA med hög omsättning vilket leder oss att tro att den föreslagna kaskaden för förädling av HMF till AMFA är möjlig. / The imminent shortage of fossil resources coupled with their associated environmental hazards stresses the need for the development of alternative, more sustainable chemicals. In this study an enzymatic cascade was developed for the valorisation of 5-(hydroxymethyl)furfural (HMF) into 5-(aminomethyl)-2-furfuraldehyde (AMFA). The cascade involves the transamination of HMF into 5-(hydroxymethyl)furfurylamine (HMFA) followed by the oxidation of HMFA into AMFA. Transaminases from Silicibacter pomeroyi (SpATA) was immobilised via his6-tags onto EziG-protein carriers from EnginZyme AB. The protein carriers were placed in spin-columns during the transamination which allowed for salvaging of the SpATA after the transamination of HMF. For the oxidation, alcohol dehydrogenases from Thermoanaerobacter brockii and horse liver as well as galactose oxidase from Dactylium dendroides (GOase) were evaluated. The conversion and product formation were analysed by HPLC. The results indicate that the SpATA efficiently catalyses the transamination of HMF, that the alcohol dehydrogenases are not able to catalyse the oxidation of HMF nor HMFA and that the GOase can oxidize HMFA with high conversion which leads us to believe that the proposed cascade for the valorisation of HMF to AMFA is feasible.
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Production, Purification, and Characterization of wood substrates and Galactose oxidase enzyme / Produktion, rening och karakterisering av träsubstrat och galaktosoxidasenzymPongalikonnar Ranganathan, Rakhesh January 2023 (has links)
Trä är den bästa förnyelsebara källan för att producera många produkter på grund av dess biokompatibla och biologiskt nedbrytbara natur. Träets biomassa har en motstridig natur mot enzymatisk uppgradering. Det beror på olika orsaker som ligninhalt, acetylhalt i hemicellulosa och cellulosakristallinitet som blockerar enzymets bindningsställe. Denna studie kommer under BioUPGRADE, som är en samarbetsplattform för att skapa högvärdiga och mångsidiga material på ett hållbart sätt med hjälp av biokatalys. Det allmänna syftet med denna studie är att producera holocellulosa och hemicellulosasubstrat från olika träslag och producera, rena och validera galaktosoxidas som en potentiell biokatalysator för träfibermodifiering. Studien undersöker effekten av kemisk perättiksyradelignifiering på två träslag, lövträ av eukalyptus (HW), och barrträ av gran (SW), undersökta vid olika tidsintervall, där PAA framställdes exsitu med ett volymetriskt förhållande på 1:3. Med resultaten från PAA-behandlingen avlägsnades 38,53 % lignin i eukalyptus och 31,80 % i barrved. Hemicellulosautbytet ökade med 47,40 % för eukalyptus och 19,05 % för gran med en ökning av tiden för PAA-behandling. Acetylhalten i hemicellulosan minskade från 2 % till 0,6 % i lövträ och 1,96 % till 0,6 % i barrträ. Cellulosautvinningen efter delignifieringen var nästan 100 %. Galaktosoxidaset producerades i en skakkolv med användning av Pichia pastoris KM71H-stammen. Pichia pastoris KM71H-celler odlades med användning av det buffrade komplexa glycerolmediet (BMGY) och galaktosoxidas uttrycktes med användning av Pichia pastoris KM71H-stammen i buffrat komplex metanolmedium (BMMY). Det uttryckta GaOx-proteinet renades därefter med användning av AKTA-kromatografi med användning av en 5 ml Histrap FF-kolonn. För att bestämma proteinkoncentrationen utfördes bicinchoninsyra (BCA) analys och GaOx som producerades i skakkolvsodling var 286,25 mg/L. Den specifika aktiviteten hos skakkolven som produceras GaOx är 164,24 U/mg. Det kan observeras att PAA-behandling visar sig vara en effektiv metod för delignifiering eftersom cellulosautvinningen är nära 100 % och förlusten av hemicellulosa är relativt låg med det använda volymetriska förhållandet. GaOx som produceras i skakkolvsproduktion visar ett lovande utbyte med en betydande specifik aktivitet mot galaktosen som substrat och kan användas i framtiden för enzymatisk uppgradering av träets biomassa. / Wood is the best renewable source for producing many products due to its biocompatible and biodegradable nature. The wood biomass has a recalcitrance nature towards enzymatic upgrading. It is due to various reasons such as lignin content, acetyl content in hemicellulose, and cellulose crystallinity which blocks the enzyme binding site. This study comes under BioUPGRADE, which is a collaborative platform to create high-value and multipurpose materials sustainably using biocatalysis. The general aim of this study is to produce holocellulose and hemicellulose substrates from different wood species and produce, purify, and validate galactose oxidase as a potential biocatalyst for wood fiber modification. The study investigates the effect of chemical peracetic acid delignification on two wood species, eucalyptus hardwood (HW), and spruce softwood (SW) investigated at different time intervals, where the PAA was prepared ex-situ with a volumetric ratio of 1:3. With the results from the PAA treatment, 38.53% of lignin was removed in eucalyptus and 31.80% in softwood. The hemicellulose yield increased by 47.40% for eucalyptus and 19.05% for spruce with an increase in the time of PAA treatment. The acetyl content of the hemicellulose was reduced from 2% to 0.6% in hardwood and 1.96% to 0.6% in softwood. The cellulose recovery after the delignification was nearly 100%. The galactose oxidase was produced in a shake flask using the Pichia pastoris KM71H strain. Pichia pastoris KM71H cells were cultivated using the buffered complex glycerol media (BMGY) and galactose oxidase was expressed using the Pichia pastoris KM71H strain in Buffered complex methanol media (BMMY). The expressed GaOx protein was subsequently purified using AKTA chromatography using a 5ml Histrap FF column. To determine the protein concentration Bicinchoninic acid (BCA) analysis was performed and the GaOx produced in shake flask cultivation was 286.25 mg/L. The specific activity of the shake flask produced GaOx is 164.24 U/mg. It can be observed that PAA treatment proves to be an efficient method for delignification as the cellulose recovery is near 100% and the loss of hemicellulose is relatively low with the volumetric ratio used. The GaOx produced in shake flask production shows a promising yield with a significant specific activity towards the galactose as substrate and could be used in the future for the enzymatic upgrading of the wood biomass.
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Enzymatic Preparation of 2,5-Furandicarboxylic Acid (FDCA)—A Substitute of Terephthalic Acid—By the Joined Action of Three Fungal EnzymesKarich, Alexander, Kleeberg, Sebastian B., Ullrich, René, Hofrichter, Martin 25 April 2018 (has links)
Enzymatic oxidation of 5-hydroxymethylfurfural (HMF) and its oxidized derivatives was studied using three fungal enzymes: wild-type aryl alcohol oxidase (AAO) from three fungal species, wild-type peroxygenase from Agrocybe aegerita (AaeUPO), and recombinant galactose oxidase (GAO). The effect of pH on different reaction steps was evaluated and apparent kinetic data (Michaelis-Menten constants, turnover numbers, specific constants) were calculated for different enzyme-substrate ratios and enzyme combinations. Finally, the target product, 2,5-furandicarboxylic acid (FDCA), was prepared in a multi-enzyme cascade reaction combining three fungal oxidoreductases at micro-scale. Furthermore, an oxidase-like reaction is proposed for heme-containing peroxidases, such as UPO, horseradish peroxidase, or catalase, causing the conversion of 5-formyl-2-furancarboxylic acid into FDCA in the absence of exogenous hydrogen peroxide.
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