Global ETD Search

61	Developing Wastewater-based Early Warning System for the Detection of Disease Outbreaks and Emerging Variants with focus on SARS-CoV-2 / Utveckling av ett avloppsvattenbaserat förvarningssystem för detektion av sjukdomsutbrott och framväxande varianter med fokus på SARS-CoV-2 Kiyar, Ayda January 2023 (has links) Under covid-19-pandemin har avloppsvattenbaserad epidemiologi (WBE) använts i stor utsträckning som ett komplement till kliniska tester över många delar av världen. Detta projekt syftade till att detektera och kvantifiera belastningen av Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) i avloppsvattenprover med hjälp av Revers transkriptas kvantitativ polymeraskedjereaktion (RT-qPCR). De analyserade proverna kom från fyra olika avloppsreningsverk i Sverige, under perioden november 2022 till maj 2023. Studien omfattade en översikt över olika provtagnings- och analytiska tekniker och normaliseringsmetoder som används i WBE-studier, vilket betonade vikten av metodval. SARS-CoV-2-RNA upptäcktes i alla analyserade prover och infektionstrender kunde identifieras effektivt, inklusive COVID-19-vågen som observerades under semesterperioden. De dominerande varianterna som upptäcktes under denna övervakningsperiod var omikron variantens undergrupper, BA.2. och BA.2.75. Den veckovisa kvantifierade SARS-CoV-2-belastningen i avloppsvattenproverna visade en signifikant positiv korrelation till de kliniska fall som rapporterats i motsvarande avrinningsområden. Denna associering förstärktes ytterligare genom att normalisera SARS-CoV-2-innehållet med fekal biomarkör peppar milt fläckvirus (PMMoV). Dessutom har två metoder för tidig varning, nämligen medelvärdet plus två standardavvikelser (MSD) och positiv procentuell förändring (PPC), implementerats på avloppsvattendata, vilket pekar på vikten av att tillämpa sådana varningsmetoder för att ge förståeliga och tolkbara resultat. Denna studie ger värdefulla insikter om övervakning och analys av SARS-CoV-2 i avloppsvatten, vilket bidrar till utvecklingen av robusta system för tidig varning och folkhälsostrategier. / During the COVID-19 pandemic, wastewater-based epidemiology (WBE) has been applied extensively as a complementary tool to clinical testing across many parts of the globe. This project aimed to detect and measure the Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) load in wastewater samples using Reverse transcriptase quantitative polymerase chain reaction (RT-qPCR). The analyzed samples were from four different wastewater treatment plants (WWTPs) in Sweden, covering the period from November 2022 through May 2023. The study encompassed an overview of various sampling and analytical techniques and normalization approaches employed in WBE studies, highlighting the importance of method selection. SARS-CoV-2 RNA was detected in all the samples analyzed, and infection trends could be identified effectively, including the COVID-19 peak observed during the holiday season. The dominant variants detected during this monitoring period were the omicron variants; omicron BA.2. and omicron BA.2.75. The weekly quantified SARS-CoV-2 load in the wastewater samples showed a significant positive correlation to the clinical cases reported in the corresponding catchment areas. This association was further enhanced by normalizing SARS-CoV-2 content with the fecal biomarker pepper mild mottle virus (PMMoV). Furthermore, two early warning methods, namely the mean plus two standard deviations (MSD) and positive percentage change (PPC), were implemented on the wastewater data pinpointing the importance of applying such warning methods to provide understandable and interpretable results. This study provides valuable insights into the monitoring and analysis of SARS-CoV-2 in wastewater, contributing to the development of robust early warning systems and public health strategies. wastewater-based epidemiology early warning system RT-qPCR normalization SARS-CoV-2 avloppsvattenbaserad epidemiologi förvarningssystem RT-qPCR normalisering Industrial Biotechnology Industriell bioteknik
62	Optimization of sterilization method for cultivation of filamentous fungi on lemon waste Conradsson, Oliver, Ljungberg, David January 2023 (has links) Consumption of citrus fruits and citrus juice production creates wastes, which could be valorized by using it for cultivating fungi. Before cultivation, the medium needs to be sterilized though autoclavation. Larger volumes used when autoclaving requires longer heating cycles and therefore runs the risk of degrading the medium to a greater extent. This research examines the effects of the volume lemon waste medium used while sterilizing. The aim is to find the largest volume still providing good growth for the filamentous fungus used, Rhizopus Delemar. Lemon waste was provided by Herrljunga Musteri AB and was pre-treated at 45°C for 2h. The liquid was strained and autoclaved in different volumetric series ranging from 200 – 10 000 mL, that was then used in 200 mL shake flask cultivations. A scale up in two 3,5 L bubble column reactors was also performed from the 10 000 mL autoclaved medium, after not observing severe impacts on growth. Testing was done by weighing biomass and HPLC analysis of sugars. The yield of the biomass in the shake flasks ranged from 0,11 – 0,14 g/g sugars and the biomass concentration ranged between 2,4 - 3,0 g/L. Overall, the volume of autoclavation seems to not too be of great concern when cultivating R. Delemar on lemon waste medium in the analyzed ranges. Lemon waste lemon waste sterilization autoclavation fungal cultivation bubble column bioreactor fungal biomass & Rhizopus delemar Other Industrial Biotechnology Annan industriell bioteknik Other Environmental Biotechnology Annan miljöbioteknik
63	Scale-down modelling of the upstream process for production of Affibody® Molecules Masreliez, Philip January 2022 (has links) I detta projekt har uttrycket av Affibodymolekyler i bioreaktorer av olika volymetriska skalor jämförts för att fastställa om ett tillförlitligt samband mellan de olika bioreaktorernas prestanda kan etableras för att möjliggöra utvecklingen av en nedskalad produktionsmodell för Affibodymolekyler. Baslinjen för jämförelsen i denna studie har varit en enliters- stirred tank reactor (STR) som de andra (mindre) bioreaktorernas prestanda jämfördes med. Jämförelsen av prestanda gjordes genom odling och uttryck av sex olika Affibodymolekyler i replikat i varje bioreaktorstorlek. Prestandan i detta fall hänvisar till produktionen av Affibodymolekyler (mg/L Cellodling) under odlingen, som fastställdes genom ett protokoll för proteinrening av lösligt intracellulärt protein genom affinitetskromatografi och kvantifiering genom absorbans vid 280 nm. De sex olika Affibodymolekyler som har studerats i detta projekt hade tidigare visat sig ha olika uttrycksnivåer, och har här jämförts med varandra i de olika bioreaktorskalorna. De två olika bioreaktorstorlekarna som bedömdes var en 300 mL skakkolv med 50 mL arbetsvolym och en mikrotiterplatta (MTP) med 3 mL arbetsvolym. Dessutom innebar studien en bedömning av två system för en långsam frisättning av kolkälla i odlingarna, ett i varje nedskalad bioreaktorstorlek. Detta utfördes för att delvis efterlikna den kontrollerade fed-batch-kulturen i STR, där koltillförsel kontrollerades med hjälp av en feedprofil. Resultaten visade att proteinuttrycket av metoderna med en långsam frisättning av kolkällor överensstämde närmast med proteinuttrycket i STR. Anpassningen av dessa resultat mot proteinuttrycket hos STR gav i en linjär regression ett R2 på 99,69 % i 3 ml MTP och 97,46 % i 50 ml skakkolven. Slutsatserna som drogs var att SMFP08003 FeedPlate var den bästa kandidaten för en nedskalad modellering av uppströmsprocessen för produktion av Affibodymolekyler. Samt att faktorn att använda en fed-batch-process istället för en batch-process har en större inverkan på proteinuttrycket än skalan av processerna. / In this project the expression of Affibody® molecules in bioreactors of different volumetric scales has been compared, to determine if a reliable relation between the performance of the different bioreactors can be established to allow for the development of a scale-down Affibody® molecule production protocol. The baseline of comparison in this study has been a one litre Stirred Tank Reactor (STR) to which the other (smaller) bioreactors' performance were compared. The performance comparison was achieved by the cultivation and subsequent expression of six different Affibody® molecules in replicates in each bioreactor size. Performance in this case refers to Affibody® molecule production (mg/L culture) during the cultivation, which is assessed by a protocol of protein purification of soluble intracellular protein by affinity chromatography and quantification by 280 nm absorbance. The six different Affibody® molecules studied in this project had previously been found to have different expression levels, and were in this project compared to each other in the different bioreactor scales. The two different bioreactor sizes which were assessed were a 300 mL shake flask with 50 mL working volume and a 3 mL working volume microtiter plate (MTP). In addition, the study involved an assessment of the use of two systems for a slow carbon source release in the cultivations, one in each scale-down bioreactor size. This was performed to partly mimic the controlled feed systems in STRs. The results showed that the protein expression of the methods with a slow carbon source release corresponded most closely with the protein expression in the STR. The fit of these results onto the protein expression of the STR yielded a R2 of 99.69% in the 3 mL MTP and 97.46% in the 50 mL shake flask. The conclusions drawn were that SMFP08003 FeedPlate was the best candidate for scale-down modelling of the upstream process for production of Affibody® Molecules and that the factor of using a fed-batch process instead of a batch process has a larger impact on the protein expression than the scale of either process. Scale-down modelling protein expression Affibody® molecule FeedPlate® EnPresso® B STR Nedskalad produktionsmodell proteinuttryck Affibodymolekyler FeedPlate® EnPresso® B STR Industrial Biotechnology Industriell bioteknik
64	Designing an Assistive Technology for Self-reflection for Students Suffering from ADHD at Malmö University Ravishankar, Vandana January 2022 (has links) Attention-deficit/hyperactivity disorder (ADHD), is a behaviour disorder, usually first diagnosed in childhood, that is characterized by inattention, impulsivity, and hyperactivity. ADHD is often associated with co-morbid disorders like bipolar disorder, anxiety, depression, and substance abuse. The diagnosis of ADHD is clinically established by a review of symptoms and impairment from the child’s young age. There are numerous assistive technologies that exist for people suffering from ADHD but there exists a research gap in developing self-reflective tools for people with neurodevelopmental disorders. This paper bridges this research gap for students at Malmö University. This project will focus on developing a personalized interactive AI-based system that captures contextual data, analyses it to find relevant patterns in user’s behaviour, and visualizes it effectively to provide students with ADHD with insights into the parameters influencing the nature of their disorder. The project is performed under a Double Diamond method which allows for iteration. The methods used mostly comprise co-design methods to ensure the concept caters to the user’s needs. The project is based on learnings from three key areas: Interactive AI, Personal Informatics and Systems as dialogue partners. Assitive technology ADHD Personal Informatics Interactive AI Dialogue Partner Relationship Development Relational design co design Double Diamond Interaction Technologies Interaktionsteknik Industrial Biotechnology Industriell bioteknik
65	Effekt av olika antimikrobiella medel på tillväxt av bakterier / Effect of various antimicrobial agents on the growth of bacteria Muhammed, Zhino January 2022 (has links) Syftet med projektet var att studera effekten av olika antimikrobiella produkter på bakterietillväxt. Resultatet visade att Micrococcus luteus inte hade någon aktivitet i det 10% tunndrank-baserade LB-mediet (specifikt odlingsmedium för bakterien där tunndrank, en biprodukt från etanolindustri, har legat vid 10% koncentration) som användes under experimentet, medan antimikrobiellen Fermasure i höga koncentrationer nämligen 1600 ppm var effektivt mot bakterien Enterococcus faecium. Antimikrobiellen Vitahop vid koncentration av 25 ppm, hade framgång mot tillväxten av bakterien. Dessa antimikrobiella produkter kan användas vid odlingen av svamp för att inhibera tillväxten av bakterier. Resultaten kan hjälpa till att fastställa doseringen av antimikrobiella produkter under svamptillväxt i stor skala där kontamination kan vara ett problem. / The aim of the project was to study the effect of various antimicrobial products on bacterial growth. The results showed that Micrococcus luteus had no activity in the 10% thin-rank-based LB medium (specifically culture medium for the bacterium where thin draff, a by-product of the ethanol industry, has been at 10% concentration) used during the experiment, while the antimicrobial Fermasure in high concentrations namely 1600 ppm was effective against the bacterium Enterococcus faecium. The antimicrobial Vitahop at concentration of 25 ppm, had success against the growth of the bacterium. These antimicrobial products can be used in the cultivation of fungus to inhibit the growth of bacteria. The findings could help determine the dosage of antimicrobial products during fungal growth on a large scale where contamination can be a problem. contamination. kontaminering. Industrial Biotechnology Industriell bioteknik
66	Treatment of a mantle cell lymphoma cell line with cannabinoids and cytostatics : - effects on DNA synthesis and ceramide metabolism Chabo, Ablahad January 2009 (has links) Mantle cell lymphoma (MCL) is an aggressive B-cell malignancy with bad prognosis, which predominates in males with advanced age. However, studies of the endocannabinoid system and how it affects tumour behaviour provides the basis for designing innovative therapeutic strategies that could open new opportunities for treatment of patient with MCL. It has earlier been shown that the cannabinoid receptor ligand (R)-(+)-methanandamide (R-MA) induce cell death in MCL by accumulation of ceramide. Ceramide has a pro-apoptotic effect on the cell but could be metabolized by the enzymes glucosylceramide synthase (GCS) and sphingosine kinase 1 (SphK1) to molecules with pro-proliferative effect. Therefore, treatments with R-MA on Jeko-1 MCL cell line were performed in this study to determine interference in the proliferative behaviour as well as in the gene expression of the enzymes GCS and SphK1. In addition, treatments with chemotherapeutic substances, such as doxorubicin or cytarabine (Ara-C), and combinations of R-MA and chemotherapeutic substance, were performed for the same reason. Results showed that the proliferation behaviour of Jeko cells remained unaffected when treated with R-MA, in contrast to the decreased proliferative effects shown when treated with cytostatics or combinations of R-MA and cytostatics. Furthermore, a tendency for up-regulation of GCS and SphK1 expression was recognized when cells were treated with cytostatics or combination of cytostatics and R-MA, in contrast to cells treated with R-MA alone. Although, R-MA alone had a tendency for a small down-regulation of GCS expression, it contributed to a potential elevation of GCS expression when combined with Ara-C or doxorubicin. It is believed that the effect from upregulated levels of the metabolizing enzymes GCS and SphK1 is balanced by, earlier observed, up-regulations of the ceramide synthesis enzymes. cancer mantle cell lymphoma cannabinoids cytostatics ceramide Medical and Health Sciences Medicin och hälsovetenskap Pharmacology and Toxicology Farmakologi och toxikologi Cell and Molecular Biology Cell- och molekylärbiologi Industrial Biotechnology Industriell bioteknik Other Clinical Medicine Annan klinisk medicin
67	Impact of autocrine factors on physiology and productivity in Trichoplusia ni serum-free cultures Eriksson, Ulrika January 2005 (has links) The aim of this study was to increase the understanding of the mechanisms regulating cell proliferation and recombinant protein production in serum-free cultures of Trichoplusia ni (T. ni) insect cells. Conditioned medium (CM) was shown to contain both stimulatory and inhibitory factors (CM factors) influencing cell growth. Metalloproteinase (MP) activity was the major factor responsible for the growth stimulating effect of CM as shown by using the specific MP inhibitor DL-thiorphan. MPs may exist in several different molecular mass forms due to autoproteolysis. Although the main band of the MP was determined to be around 48 kDa, precursor forms above 48 kDa as well as autocatalytic degradation products below the main band could be observed. It is not clear whether all forms of the MP or just the main band is involved in the growth regulation. Further, a proteinase inhibitor could be identified in the inhibitory fraction. Thus, we speculate that the proteinase inhibitor may be part of an autocrine system regulating cell proliferation. Analysis of the cell cycle phase distribution revealed a high proportion of cells in the G1 (80-90 %) and a low proportion of cells in the S and G2/M phases (10-20 %) during the whole culture, indicating that S and G2/M are short relative to G1. After inoculation, a drastic decrease in the S phase population together with a simultaneous increase of cells in G1 and G2/M could be observed as a lagphase on the growth curve and this may be interpreted as a temporary replication stop. When the cells were released from the initial arrest, the S phase population gradually increased again. This was initiated earlier in CM-supplemented cultures, and agrees with the earlier increase in cell concentration. Thus, these data suggests a correlation between CM factors and the cell cycle dynamics. In cultures supplied with CM, a clear positive effect on specific productivity was observed, with a 30 % increase in per cell productivity. The specific productivity was also maintained at a high level much longer time than in fresh-medium cultures. The positive effect observed after 20 h coincided with the time a stimulatory effect on cell growth first was seen. Thus, the productivity may be determined by the proliferation potential of the culture. A consequence of this would be that the secreted MP indirectly affects productivity. Finally, the yeast extract from Express Five SFM contains factors up to 35 kDa which are essential for T. ni cell growth. The optimal concentration was determined to be 2.5-fold that in normal medium, while higher concentrations were inhibitory. However although vital, they were not solely responsible for the growth-enhancing effect, as some other, more general, component present in yeast extract was needed for proliferation as well. / <p>QC 20101129</p> Biotechnology Trichoplusia ni High Five insect cells BEVS serum-free medium yeast extract conditioned medium autocrine regulation of proliferation growth factors cell cycle metalloproteinase specific productivity Bioteknik Industrial Biotechnology Industriell bioteknik
68	Regulation of productivity in Trichoplusia ni and Spodoptera frugiperda Sf9 serum-free cultures Calles, Karin January 2005 (has links) The aim of this work has been to characterize the effects of conditioned medium (CM) on insect cell productivity and physiology in order to get a better understanding about the mechanisms that regulate productivity in serum-free media. Two cell lines have been investigated, Spodoptera frugiperda (Sf9) and Trichoplusia ni (T. ni, BTI-Tn-5B1-4). The baculovirus expression vector system (BEVS) was used for protein expression, using the ligand-binding domain of the human glucocorticoid receptor as a model protein. Addition of CM at inoculation led to a shorter lag phase and that the cells reached the maximum cell density faster than cells in fresh medium for both Sf9 and T. ni cells. Sf9 cells passed a switch in growth kinetics after 30-40 passages. At this point, CM lost its stimulating effect on proliferation. CM also affected the cell size and cell cycle progression. Sf9 and T. ni cells became smaller when CM was added at inoculation because they had a minor arrest in the cell cycle after inoculation and therefore started to divide earlier than cells in fresh medium. For Sf9 cells, this was illustrated by a smaller arrest in G2/M in the beginning of culture and the cells were consequently less synchronized. For T. ni cells, the initial decrease in the S phase population was followed by an earlier increase of the S phase population for the cells with CM than for the cells in fresh medium. Addition of 20 % CM or CM filtrated with a 10 kDa cut-off filter to Sf9 cultures had a negative effect on the specific productivity. However, addition of CM to Sf9 cells that had passed the switch in growth kinetics had no negative effect on productivity. This indicates that CM not affects the protein production per se, but rather through its effects on cell physiology. Instead, the degree of cells synchronized in G2/M is important for high productivity and the gradually decreasing degree of synchronization during the course of a culture might be the explanation behind the cell density dependent decrease in productivity for Sf9 cells. This was further supported by the positive effects on productivity achieved by synchronizing Sf9 cells in G2/M by yeastolate limitation, which counteracted the cell density-dependent drop in productivity and hence a higher volumetric yield was achieved. Addition of 20 % CM to T. ni cultures had a positive effect on productivity. The specific productivity was maintained at a high level longer than for cells in 100 % fresh medium. The product concentration was 34 % higher and the maximum product concentration was obtained 24 hours earlier for the cells with the addition of CM. These results show that the effects of CM on productivity are not the same for the two cell lines and that the mechanism regulating productivity are quite complex. / QC 20101125 Biotechnology Insect cells BEVS Spodoptera frugiperda Sf9 Trichoplusia ni BTI-Tn-5B1-4 specific productivity conditioned medium conditioned medium factors cell cycle synchronization G2/M Bioteknik Industrial Biotechnology Industriell bioteknik
69	Development of a culture system for modeling of pH effects in CHO cells / Utveckling av ett odlingssystem för modellering av pH-effekter i CHO-celler Hagrot, Erika January 2011 (has links) pH is a key parameter in the optimization of animal cell processes, and has be linked to specific patterns of consumption and production of extracellular metabolites. However, the effect of extracellular pH on intracellular metabolism has not been fully elucidated. Metabolic flux analysis is a mathematical method that can be used to generate the intracellular flux distributions in cells, e.g. as a function of some environmental parameter. In this work, the overall objective was to develop a culture system and experimental protocol for cultivation of CHO cells, which can be used to generate data for analysis of the relationship between extracellular pH and intracellular fluxes in CHO cells by metabolic flux analysis. First, shake-flask culture of an IgG-producing cell line was performed to select an academic and chemically-defined medium with known composition. This was followed by subsequent adaptation of the cells. It was found that the originally selected medium had to be supplemented with a commercial medium to produce acceptable growth and viability. Shake-flask culture was also performed to evaluate the effect of the biological buffer HEPES on cell growth and viability, and the pH-stability during culture. HEPES-concentrations in the investigated range (7.5-45 mM) did not show an apparent effect on cell growth or viability. The higher concentrations gave slightly better buffering capacity at inoculation, however were not sufficient to keep pH stable during culture. As a result, the idea of using shake flask culture and similar techniques for cultivation of cells at various pH set-points was dismissed. Instead, a culture system and protocol based on a 100 mL Spinner flask with pH-regulation was custom-designed for the project. Features of the final design included continuous monitoring of pH and DO, stable temperature at 37 °C, adjustable agitation rate, as well as the option to incorporate inflow of air, O2 and CO2. In addition, the possibility to disconnect the flask unit to perform medium exchange and sample collection away from the reactor site (i.e. in a laminar flow workbench) was integrated into the design and protocol. The system was demonstrated for pseudo-perfusion culture with the adapted IgG-producing cell line at pH 7.0 during 24 days. Optimized regulation settings were identified. It was shown that the system could support viable cell densities of up to 11 MVC/mL and high viability (> 90 %). During the final phase of culture, stable growth, at specific growth rates of approximately 0.7 Day-1, was achieved. The specific rates of consumption and production of the key metabolites glucose, glutamine, lactate and NH4+, as well as 20 amino acids were analyzed. A majority of the rates were in accordance with CHO cell metabolism. The expected consumption of a majority of the essential amino acids and main carbon sources glucose and glutamine were confirmed, as well as the associated production of by-products lactate and NH4+. The system and protocol developed in this work can be used in future experiments to generate data describing metabolic profiles as a function of various pH-set points. This data may then be used in metabolic flux analysis to further elucidate the metabolism behind pH effects in CHO cells. / pH är en viktig parameter i optimeringen av animalcellsprocesser och har sammankopplats med specifika konsumtions- och produktionsmönster rörande extracellulära metaboliter. Det extracellulära pH-värdets effekt på den intracellulära metabolismen är dock inte fullt klarlagd. Metabolisk flux analys är en matematisk metod som kan användas för att generera intracellulära fluxfördelningar i celler, exempelvis som en funktion av någon yttre parameter. Det övergripande målet i detta arbete var att utveckla ett odlingssystem och experimentellt protokoll för odling av CHO-celler som kan användas för att generera data för metabolisk flux analys där målet är att studera effekten av pH på den intracellulära cellmetabolismen. En IgG-producerande CHO-cellslinje odlades först i skakkolv för att välja ut ett akademiskt kemiskt definierat medium med känd sammansättning. Därefter följde försök att anpassa cellerna till det valda mediet. Det visade sig att ett kommersiellt medium behövde tillsättas för att ge godtagbar tillväxt och viabilitet. Effekten av den biologiska bufferten HEPES på cellernas tillväxt och viabilitet, samt pH-stabiliteten under odling, undersöktes också genom odling i skakkolv. HEPES-koncentrationer i det undersökta intervallet (7.5 – 45 mM) hade ingen större effekt på tillväxt och viabilitet. För de högre koncentrationerna var buffertkapaciteten något bättre precis vid inokulering. Dessa koncentrationer var dock ej tillräckliga för att ge stabilt pH under odlingen. Baserat på dessa resultat övergavs tanken på att använda skakkolvsodling för att odla celler vid olika pH-värden. Ett odlingssystem och ett protokoll baserat på en 100 mL Spinnerflaska med pH-reglering specialdesignades istället för projektet. I det färdiga systemet fanns lösningar för kontinuerlig övervakning av pH och DO, stabil temperatur vid 37 °C, justerbar omrörningshastighet, samt valmöjligheten att flöda in luft, O2 och CO2. Dessutom infördes möjligheten att koppla loss flaskenheten från reglersystemet för byte av medium och provtagning. För att demonstrera systemet genomfördes en odling med den anpassade IgG-producerande cellinjen enligt principen för pseudo-perfusion vid pH 7.0. Odlingen pågick under 24 dagar och optimerade reglerinställningar identifierades. Det visades att systemet kunde understödja cellkoncentrationer upp till 11 miljoner celler per milliliter, samt hög viabilitet (> 90 %). Under den senare delen av odlingen uppnåddes stabil tillväxt, vid specifika tillväxthastigheter omkring 0.7 per dygn. Den specifika konsumtions- och produktionshastigheten för metaboliterna glukos, glutamin, laktat och NH4+, samt 20 aminosyror analyserades. Majoriteten av hastigheterna stämde överens med typisk CHO-cellsmetabolism. Den förväntade konsumtionen av majoriteten av de essentiella aminosyrorna och huvudsakliga kolkällorna glukos och glutamin konfirmerades, såväl som den associerade produktionen av bi-produkterna laktat och NH4+. Odlingssystemet och det experimentella protokollet som utvecklades i detta arbete kan användas i framtida experiment för att generera data som beskriver metaboliska profiler som funktion av extracellulärt pH. Dessa data kan sedan användas i metabolisk flux analys för att dra slutsatser om pH-effekter i CHO-celler. CHO cell pH effects pseudo-perfusion mammalian cell culture Spinner flask pH-regulation bioreactor metabolic modeling metabolic flux analysis CHO-cell pH-effekter pseudo-perfusion mammaliecellodling Spinnerflaska pH-reglering bioreaktor metabolisk modellering metabolisk flux analys Industrial Biotechnology Industriell bioteknik
70	Production of filamentous fungal biomass on waste-derived volatile fatty acids for ruminant feed supplementation and it's in vitro digestion analysis Bouzarjomehr, Mohammadali January 2022 (has links) Single cell proteins such as that of edible filamentous fungal biomass are considered as a promising sustainable source of animal feed supplementation. Filamentous fungi can be cultivated on different organic substrates including volatile fatty acids (VFAs) such as acetic, propionic, and butyric acids. These VFAs can be generated through the famous waste valorisation approach of anaerobic digestion (AD) as intermediate metabolites. This project investigates a sustainable approach for the production of animal feed supplementation through cultivation of fungal biomass on waste derived VFAs along with the in vitro analysis of fungal biomass digestibility as ruminant feed. In this regard, optimum conditions for the production of Aspergillus oryzae biomass on different VFAs effluents derived from anaerobic digestion process of food waste plus chicken manure (FWCKM) and potato protein liquor (PPL) at different pH, nitrogen sources, and feed mixture was studied. Accordingly, analyses showed that PPL has the highest biomass yield with 0.4 (g biomass/g consumed VFAs) based on the volatile solids (VS) by adjusting pH to 6.2. Furthermore, the digestibility of the produced fungal biomass is analysed by using three different in vitro digestion methods including Tilley and Terry (TT) method, Gas Production Method (GPM), and Nylon Bag Method (NBM) and the results are compared with the conventional feed (silage and rapeseed meal). Results obtained from different digestibility methods illustrate that different A. oryzae fungal biomass had approximately 10-15 % higher dry matter digestibility fraction compared to silage and rapeseed meal (reference feeds). Hence, these results revealed that A. oryzae fungal biomass can grow on VFAs effluents and produce protein-rich fungal biomass while this biomass has better digestibility compared to conventional feeds and confirmed the initial hypothesis of the study. VFAs (volatile-fatty-acids) Fungi production Feed production. Fermentation processes Aspergillus oryzae A. oryzae fungal biomass Sustainability Rumen fluids TT method analysis Gas production method Nylon bag method analysis Industrial Biotechnology Industriell bioteknik

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