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Enzym för att motverka fällningar av oligomerer : en jämförelse av hjälpkemikalien Sera Con P-NSI och enzymet cutinase NS59038 i färgningsprocessen för Trevira CSHansen, Helena, Albinsson, Suzanne January 2019 (has links)
Färgning av polyester (PET) sker i temperaturer omkring 130℃ och som en följd av den höga värmen migrerar oligomerer ut ur PET-fibern. Dessa oligomerer skapar därefter problem i form av vita fällningar och avlagringar, som leder till en reducering av maskinernas effektivitet, samt försämring av materialets utseende. En vanligt förekommande metod för att begränsa problemet är att tillsätta hjälpkemikalier i färgbadet. Novozymes A/S hävdar att genomförda studier med PET-garn och enzymet cutinase NS59038 har visat en minskning av det vita damm som kan ses på garnet i samband med migration av oligomerer. Eftersom enorma mängder PET produceras globalt varje år skulle endast en liten minskning av mängden kemikalier innebära en stor skillnad. Kemikalier som ersätts med andra kemikalier kan ifrågasättas om det är en bra metod eller om det bestrider syftet. Ur ett hållbarhetsperspektiv kan enzymer ses som ett bättre alternativ eftersom de enligt Jajpura (2017) är biologiskt hållbara, formar sällan någon biprodukt och dess reaktion kräver oftast mildare förhållanden. Hjälpkemikalien Sera Con P-NSI används av Ludvig Svensson AB som färgar garn av den flamskyddade polyesterfibern Trevira CS. Syftet med projektet har därmed varit att undersöka om enzymet cutinase NS59038 är ett alternativ till hjälpkemikalien Sera Con P-NSI, för att reducera de problem som uppstår med oligomerer i färgningsprocessen med Trevira CS. Garnets egenskaper har jämförts genom visuell analys med mikroskop, viktförändring, reflektionsspektrofotometer och dragprovning. Metoder som använts i syfte att detektera oligomerer har varit FTIR, UV-vis spektrofotometer och svart svavelfilterpapper. Utifrån genomförda analyser av garnets vikt, styrka, färgupptagning och visuell bedömning har det inte kunnat konstateras att cutinase NS59038 skulle vara ett alternativ till Sera Con P-NSI. Resultat från analysmetoderna visade skillnader i medelvärde, men inget samband mellan val av färgrecept och garnets egenskap har detekterats. De olika färgningsförsöken visade inte någon förekomst av fällningar/avlagringar som med använda testmetoder har kunnat bekräftas som oligomerer. Resultaten bedömdes därmed inte som tillräckliga för att konstatera om cutinase NS59038 påverkar garnets kvalitet i jämförelse med hjälpkemikalien Sera Con P-NSI. / In the dyeing process of polyester (PET) the temperature goes up to around 130℃ and as a result oligomers migrate out of the PET fiber. These oligomers create problems as white precipitates that deposits on the material and the inside of machines. This leads to a reduction in machine efficiency, as well as a change of material appearance. One common method for limiting the problem is to add help chemicals in conjunction with the dyeing process. According to results from previous studies, Novozymes A/S claims that the enzyme cutinase NS59038 has reduced the white dust on the yarn of polyester. Based on the enormous quantity of PET that are produced every year, even a small reduction of the chemicals that are used would mean a huge difference. Chemicals that replace other chemicals can be questioned whether or not it can be seen as an alternative or if it disputes the purpose. From a sustainable point of view enzymes could according to Jajpura (2017) be seen as a better alternative because they are biodegradable, their reaction seldom form any byproduct and often requires less energy. The help chemical Sera Con P-NSI is used by Ludvig Svensson AB and is added to the dye bath in the dyeing process of the specific polyester Trevira CS (a flame retardant polyester fiber). The purpose of the project has thus been to investigate whether the enzyme cutinase NS59038 is an alternative to the help chemical Sera Con P-NSI, to reduce the problems with oligomers in the dyeing process of Trevira CS. The properties of the yarn have been compared by visual analysis with microscope, weight change, measurement of the color change with spectrophotometer and tensile strength. Methods used to detect oligomers have been FTIR, UV-vis spectrophotometer and black sulfur filter paper. Based on the analysis of the weight of the yarn, strength, color uptake and visual assessment, it can not be established that cutinase NS59038 would be an alternative to Sera Con P-NSI. Results from the analysis methods show differences in the mean, but no connection between the choice of dye recipe and the properties of the yarn can be detected. None of the precipitates that was predicted to arise on the surface of the yarn was ever detected. The results are therefore not considered sufficient to determine whether cutinase NS59038 affects the quality of the yarn compared to the help chemical Sera Con P-NSI.
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Bovint serum albumin påverkar överlevnad och Aβ-nivåer i Alzheimers sjuka Drosophila flugor. : Bovine serum albumin affects survival and Aβ-levels in Alzheimer's diseased Drosophila flies.Tani, Milena January 2024 (has links)
Alzheimer's disease (AD) was first described more than 100 years ago and is today the most common cause of dementia. It is one of the progressive neurodegenerative diseases that affect 47 million people around the world between the ages of 60 and 90. One of the contributing factors to AD is extracellular amyloid – β (Aβ) plaques that form as a result of protein aggregation. These Aβ proteins are neurotoxic, leading to degeneration of brain neurons and loss of cognitive abilities. Because AD largely affects society, researchers are constantly working to find a cure, which currently does not exist. The purpose of this study was to use Drosophila melanogaster as a living organism model for the expression of two types of Aβ proteins related to AD, Arctic (Glu22Gly) and TandemAβ, and to study the survival of these AD flies when Bovine serum albumin (BSA) was added to the fly food. The hypothesis was that BSA would be effective in slowing down and/or preventing formation of toxic Aβ-aggregates. The focus was therefore to investigate whether the AD flies would live longer if they were allowed to eat Bovine serum albumin and whether the soluble/insoluble Aβ levels in these flies would decrease in comparison to the control AD flies that were not allowed to eat BSA. The effect of BSA on toxicity was evaluated using survival assay on male flies and the levels of soluble/insoluble Aβ were evaluated using Meso Scale Discovery (MSD) on female flies. In both experiments, the following six groups of flies were examined: myow1118 ± BSA; myoArctic ± BSA; myoTandemAβ ± BSA. Conclusions from the studies are that the survival of AD flies could not be extended by adding 0.61 mM BSA to the food, rather the data showed a weak but significant toxic effect in the presence of BSA in the AD flies. However, MSD data showed a reduction of insoluble Aβ aggregates and an equilibrium shift from insoluble Aβ aggregates to soluble Aβ aggregates in the presence of BSA in the AD flies. Equilibrium shifts were particularly detectable in Myo-TandemAβ flies fed with BSA. In Myo-Arctic flies fed with BSA only reduction of insoluble Aβ could be detected. This shows that it is not the amount of Aβ aggregates that is decisive for toxicity, but rather the presence of specific aggregates that have toxic properties. If BSA shows good results in further studies, it could be used in the future to improve AD symptoms in patients.
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