Global ETD Search

11	Screening for antibacterial metabolites in marine sponges collected from the coastline of Sri Lanka. Abualreesh, Heba January 2021 (has links) Natural products and their derivatives have and are still used by humans for various health ailments due to their rich sources of drug discovery. New biologically active compounds from natural products play a key role in drug development. Marine sponges and their associated microbes contain a lot of bioactive compounds that are potential for drug development. These compounds produce chemical compounds with useful pharmaceutical properties such as antitumor, anti-infective, anti-inflammatory, and antibacterial properties. The main focus of this project was on the antibacterial activity of six different sponge specimens. The aim was to screen the antibacterial activity of the sponge specimen’s extracts. In order to do so, a Minimum Inhibitory Concentration assay was performed to screen the sponge's antibacterial activity against E. coli and S. aureus. Analytical HPLC was used for separation and Solid Phase Extraction (SPE) was used for determining the effect of salts towards the inhibition of anti-bacterial activity for two selected extracts. Ethanolic extract of Stylissa massa showed antibacterial activity against S. aureus. SPE would be a rapid purification step to remove the salts present in sponges at a high concentration but it has not shown a significant effect on the inhibition of antibacterial activity. However, further separation and purification need to be done to be able to completely screen for all the six different sponge specimens.
12	Discovery of candidate biomarkers for purification of atrial and ventricular cardiomyocytes derived from human pluripotent stemcells : Version 2 Wullimann, David January 2017 (has links) No description available.
13	Infrared - X-ray pump probe spectroscopy Costa Felicissimo, Viviane January 2005 (has links) The present thesis concerns theoretical studies of molecular interactions investigated by infrared and X-ray spectroscopic techniques, with emphasis on using the two technologies combined in pump probe experiments. Three main types of studies are addressed: the use of near-edge X-ray absorption fine structure spectra (NEXAFS) to manifest through-bond and through-space interactions; the role of hydrogen bonding on the formation of X-ray photoelectron spectra as evidenced by simulations of the water dimer; and the development of theory, with sample applications, for infrared X-ray pump probe spectroscopy - the main theme of the thesis. Ab initio calculations indicate that NEXAFS spectra give direct information about the through-bond and through-space interactions between vacant non-conjugated π* orbitals. It is found that the X-ray photoelectron spectrum of the water dimer differs strongly from the monomer spectrum in that two bands are observed, separated by the chemically shifted ionization potentials of the donor and the acceptor. The hydrogen bond is responsible for the anomalously strong broadening of these two bands. The studies show that X-ray core electron ionization of the water dimer driven by an infrared field is a proper technique to prove the proton transfered state contrary to conventional X-ray photoelectron spectroscopy. Our simulations of infrared X-ray pump-probe spectra were carried out using wave packet propagation techniques. The physical aspects of the proposed new X-ray spectroscopic method - phase sensitive Infrared - X-ray pump probe spectroscopy - are examined in detail in two sample applications - on the NO molecule and on the dynamics of proton transfer in core ionized water dimer. It is found that the phase of the infrared pump field strongly influences the trajectory of the nuclear wave packet on the ground state potential. This results in a phase dependence of the X-ray pump probe spectra. A proper choice of the delay time of the X-ray pulse allows to directly observe the X-ray transition in the proton transfered well of the core excited potential. / QC 20101125 Biochemistry Biokemi
14	Cardiac hypertrophy in human stem cells-derived cardiomyocytes : Biomarker identification and pathway analysis of endotheline-1 induced cardiac hypertrophy in human induced pluripotent stem cells-derived cardiomyocytes Tangruksa, Benyapa January 2020 (has links) Cardiac hypertrophy is when heart muscles thicken as an adaptive response to several stimuli. Prolonged pathological cardiac hypertrophy can lead to heart failure and severe cardiovascular diseases. Scientists have faced challenges in studying cardiac hypertrophy due to the lack of human cardiomyocytes available. Recently, hypertrophic model using human induced pluripotent stem cell-derived cardiomyocytes was introduced. In this study, expression profiles of in vitroendothelin-1 induced cardiac hypertrophy model were investigated at different time points. The study aimed to examine molecular pathways associated with cardiac hypertrophy, identify biomarker candidates for cardiac hypertrophy, and investigate if there were known pharmaceuticals that putatively are targeting the suggested candidate biomarkers. Using the Ingenuity pathway analysis (IPA) software, GRM1, NPPA, and STC1 gene were identified as biomarker candidates for cardiac hypertrophy model across all time points. More biomarker candidates unique to the cardiac hypertrophy-stages were also identified using IPA. In vivomicroarray data of hypertrophied heart profiles were also used to compare to the in vitro data and preliminarily validate the gene candidates identified by IPA. Four genes were identified by IPA and were presented in the in vivo data. IPA also revealed the in activation of specific pathways of the early-stage cardiac hypertrophy model. The result suggested that the molecular mechanisms of the in vitro cardiac hypertrophy model did not fully represent the actual hypertrophic condition of the heart. More research and validation are required to understand the underlying mechanism fully and potentially, in the future, utilize the identified genes as cardiac hypertrophy biomarkers.
15	Genetic manipulation to improve efficacy of dendric cell adoptive immunotherapy against cancer in dogs / Genetisk manipulation för att förbättra effektiviteten hos dendritisk cell adoptiv immunoterapi mot cancer hos hundar. Berglund, Felicia January 2023 (has links) To improve the efficacy of the dendritic cell vaccine Alv B DC from Alv B, the PD-L1 expression in cancer cells was attempted to be reduced through a transfection with a custom designed siRNA. Before transfecting the dendritic cells, the siRNA functionality had to be tested through flow cytometry, that resulted in negative results and therefore led to a RT-qPCR protocol that indicated that the siRNA was functional. Protocols for the two methods were developed and a cell line expressing PD-L1 was set up as a tool for testing. The final goal of testing the effects in Alv B DC was never performed due compromising time but the positive result from the PCR provides a promising start to further testing. Adoptive immunotherapi
16	Epigenetic Profiling of Canine Brain / Epigenetisk kartläggning av hund- och varghjärna Carlsson Norlin, Roxanne January 2022 (has links) Hundens domesticering är en av de äldsta och tros ha startats 35000 f.n. Under domesticeringen från varg till hund, har hunden utvecklat både morfologiska och beteendemässiga skillnader så som bredare snot, högre skallar och minskat risktagande. Många av dessa skillnader tros bero på skillnader i aktiva regulatoriska regioner mellan arternas genom. Syftet med detta examensarbete är att kartlägga genomiska interaktioner för hjärnvävnader hos både hund och varg för att identifiera regulatoriska skillnader mellan arterna. Förhoppningsvis kan detta leda till nya insikter i genomiska skillnader som utvecklats under hundens domesticering. För att jämföra arternas regulatoriska regioner användes metoden Capture Hi-C (HiCap) på vävnadsprover av både hypotalamus och prefrontala cortex för varg och hund. HiCap är en metod utvecklad från chromosome conformation capture-metoden 3C. I HiCap så fixeras interagerande delar av DNA:t så att promotor-enhancerinteraktioner förblir. Dessa interagerande regioner ligeras sedan samman och biblioteksbereds för sekvensering. Genom sekvensering fastställs vilka promotorer som aktivt regleras av enhancers i cellkärnan. Hi-C bibliotek förberedes för alla vävnader för båda arterna. I vissa av biblioteken upptäcktes längre DNA-fragment som kan renas bort. På grund av avsaknad av probes för sequence capture så kunde laborationen ej fullföljas och därmed inga särskilda resultat erhållas. Om laborationen fullföljs kan resultaten förhoppningsvis ge nya epigenetiska insikter i hundens domesticering. / The domestication of dog to wolf started around 35000 BP and is believed to be the oldest domestication event among both plants and animals. During this event, dogs have developed differences in morphological and behavioural traits to their ancestors, such as wider snouts, higher skulls, and lower tendencies to taking risks. It is now suggested that many of these differences can be explained by differences in active regulatory regions. The main objective of this thesis is to map chromatin interactions in the genome of wolf and dog brain tissues to annotate regulatory variants between the canine species. This will hopefully provide novel information regarding genomic changes mediating traits gained through domestication. We will perform Capture Hi-C (HiCap) on tissue samples of hypothalamus and prefrontal cortex of wolf and dog. HiCap is a method derived from the chromosome capture method 3C. In HiCap, the interacting regions of the DNA are crosslinked, ensuring that promoter-enhancer interactions will not be lost. These interacting regions are then ligated together, followed by sequencing library preparation. Subsequently, sequencing of these libraries will provide information of which promoters are actively regulated by enhancers in the nucleus. We successfully prepared Hi-C libraries for all tissues and animals. However, there were longer fragments in some libraries which can be removed. Due to lack of necessary probes for sequence capture, the laboratory work was cut short and no major results were obtained. By continuing the laboratory work, hopefully these libraries will result in novel insights in the domestication of the dog. Dog wolf evolution HiCap enhancers Hund varg evolution HiCap enhancers
17	Study of fibrillation processes of amyloid-like β-lactoglobulin protein Nixon, Jose January 2021 (has links) Bovint β-laktoglobulinprotein (bLG) är ett litet globulärt protein med 162 aminosyrarester, som vanligtvis finns i mjölkvassle. Under sura förhällanden dissocierar dessa dimera proteiner och bildar amyloidliknande fibriller. Studien av β- laktoglobulinfibriller kan vara ett värdefullt verktyg för att förstå strukturen och dynamiken hos patogena amyloidproteiner och relaterade sjukdomar (t.ex. Alzheimers). Det är dessutom viktigt att förstå den korrekta formationen och elucideringen av dessa protein-nanofibriller (PNF) och deras sammansättningutgör också en grund för vidare design av nya biobaserade material. Således är framställningen av en signifikant homogen morfologi av nano-fibriller från bLG för proteinstrukturstudier huvudsyftet med detta projekt. Studien omfattar också användning av rekombinant β-laktoglobulin renat från Escherichia coli Origami (DE3) - celler. Omfattningen av bildandet av dessa PNF kan påverkas genom att variera experimentets olika förhållanden. Huvudsyftet med denna avhandling är att modifiera reaktionsparametrarna såsom inkubationstid, temperatur, koncentrationer, såningsanalyser och även hitta nya för att maximera homogeniteten hos den beredda PNF. En detaljerad analys av alla effekter av olika förhållanden på reaktionsprocessen och vilken provtyp eller beredningsprocess som leder till ökad mängd fibriller är huvudresultatet av denna avhandling. Detta kan i sin tur fungera som en bas för framtida modeller eller proteiner som kan användas för att få en bättre förståelse för amyloidrelaterade patologier eller andra associerade applikationer, till exempel i livsmedelsindustrin eller design av nya material. I slutet av studien visade det sig att den högsta mängden fibriller bildades för de prover som inkuberades vid 70 ℃, förvarades i 48 timmar, vid 300 rpm, med 10 % fröprov som sonikerades två gånger med ett intervall på 60 minuter . / Bovine β-lactoglobulin protein (bLG) is a 162 residue small globular protein, usually found in the whey component of milk. These dimeric proteins under acidic conditions and high temperatures dissociates and form amyloid-like fibrils. The study of bLG fibrils can be a valuable tool for understanding the structure and dynamics of pathogenic amyloid proteins and related diseases (e.g., Alzheimer’s). Also, proper formation and elucidation of these protein nano-fibrils (PNF’s) and their assembly provides a foundation for further design of new bio-based materials. Thus, producing a significant homogenous morphology of the nano-fibrils from bLG for protein structure study is the main objective of this project. The study involves also the use of recombinant β- lactoglobulin purified from Escherichia coli Origami (DE3) cells. The extent of formation of these PNF’s can be influenced by varying the different conditions of the experiment. The main aim of this thesis is to modify the reaction parameters such as the incubation time, temperature, concentrations, seeding assays and also find new ones so as to maximize the homogeneity of the prepared PNF. A detailed analysis of all the effects of different conditions on the reaction process and which sample type or preparation process leads to increase in the amount of fibrils is the main outcome of this thesis. This can in turn serve as a base for future models or proteins that can be used to gain a better understanding of amyloid-related pathologies or any other associated applications such as in food industries or design of new materials. In the end of the study, it was found that highest amount of fibrils were formed for those samples incubated at 70 ℃, kept for 48 hours, at 300 rpm, with the 10 % seed sample that was sonicated twice at an interval of 60 minutes. bLG Thioflavin-T Fluroscence Fibrillation bLG Thioflavin-T fluroscens fibrillering
18	Spatially resolved gene expression profiling of mouse brain tissue to study the impact of spaceflights / Spatiellt upplöst genuttrycksprofilering av mushjärnvävnad för att studera effekterna av rymdflygningar Frieberg, Paula January 2021 (has links) Since the first human spaceflight in 1961, hundreds of humans have been in space. Microgravity and high radiation are the main spaceflight hazards. The space environment is known to impact several aspects of human health, such as bone density and cognitive performance. However, the effects of longduration spaceflights on a cellular and molecular level, utilizing biosamples and multiomic approaches, is poorly studied. In this project, the method Spatial Transcriptomics has been utilized to compare brain tissue from the hippocampus region of mice that have been in space with a control group of mice that have stayed on Earth. Spatial Transcriptomics allow for the quantification of gene expression, while maintaining the spatial information of the transcriptome. The results of this study suggest that spaceflights cause mitochondrial stress. This thesis work is part of a more extensive study in collaboration with NASA, and more studies will be conducted to investigate the effects of spaceflights further. If these findings are confirmed, medicines used on Earth to treat patients with mitochondrial dysfunction could increase the wellbeing of astronauts in space. / Sedan den första människan skickades till rymden år 1961, har hundratals astronauter lämnat jordens atmosfär. De mest signifikanta hälsoriskerna i rymden är mikrogravitation och hög strålning och rymdmiljön har stor påverkan på oss. Exempelvis upplever astronauter ofta minskad benmassa och nedsatt kognitiv funktion. Men kunskapen kring hur människor påverkas av långtidresor i rymden är begränsad. Särskilt få experiment har genomförts på stora dataset från biologiska prover, på en molekylär och cellulär nivå. I detta projekt har genuttryck hos möss som varit i rymden jämförts med en kontrollgrupp av möss som stannat på jorden. Metoden Spatial Transcriptomics (ST) har använts för att undersöka vävnadssnitt från hippocampus i mushjärna. Med ST är det möjligt att undersöka RNAmolekyler och kartlägga deras position i vävnaden. Resultatet från denna studie indikerar att miljön i rymden leder till dysfunktion i mitokondrierna. Detta arbete är en del av en större studie i samarbete med NASA och fler experiment kommer genomföras för att undersöka hur vi påverkas av miljön i rymden. Om fler studier stödjer detta resultat, kan mediciner som använts på jorden för att behandla patienter med dysfunktion i mitokondrierna, användas i förebyggande syfte för astronauter. spaceflight space biologu Spatial Transcriptomics mouse brain tissue mitochondria
19	Exploring the impact of estrogen signaling on gut microbiota diversity in a diet-induced obesity and a colorectal cancer model Stepanauskaite, Lina January 2021 (has links) Colorectal cancer (CRC) is one of the most common and deadly cancers in the western world. The incidence of CRC shows the tendency to rise with the increase of obesity, which is caused by current increase in fat intake, suggesting the correlation between CRC and high-fat diet (HFD). HFD-induced obesity causes gut inflammation which is also noticed in inflammatory bowel diseases (IBD) and CRC and can be seen as an important factor in CRC development. Moreover, it has been demonstrated, that while both sexes are at risk of developing CRC, men have higher incidence compared to women, showing the protective effect of estrogen. In addition, since gut microbiome is first to respond to colon inflammation, we hypothesized, that intestinal estrogen signaling could contribute to reduced initiation and progression of colon cancer by modifying the microbiota composition. For that, two experiments with two different mouse models were conducted. First part of the study concentrated on the effect of (HFD, 60%) and different estrogenic ligands (17-β estradiol, and DPN) on microbiota. Bioinformatics analysis on whole genome sequencing (WGS) data and qPCR validation were used as the methods. Here we found that estrogenic ligands achieved restoration of close-to-normal microflora after significant change initiated by HFD. We also found that microbiome in males showed stronger reaction to HFD than female microbiome, implying protective actions in females. Furthermore, the effect of ligands also proved to be stronger in males. Second part of the study concentrated on the effect of estrogen receptor β (ERβ) on microbiota for which ERβ knockout mice were used in addition to cancerogenic AOM/DSS treatment. Bioinformatics analysis on WGS data was used as the method. We found that female mice were more affected by AOM/DSS treatment compared to males, especially the mice with knockout gene. The genotype alone, however, resulted in very few differences. In summary, this project shows the effect of HFD, estrogen and ERβ expression on gut microbiota diversity. It shows that microbiome of male mice is more susceptible to dietary changes and estrogen supplementation. Likewise, it demonstrates, that the microbiome of females reacts strongly to combination of carcinogenic treatment and lack of iERβ. colorectal cancer gut microbiome whole genome analysis estrogen high-fat diet
20	Optogenetic and multiplexed gene editing in primary T-cells. Lake, Daniel January 2023 (has links) Current T-cell tracking techniques in vivo are limited. The ability to successfully target a gene in vivo in T-cells and track movement throughout its life cycle provides an exciting opportunity to elucidate the functions of genes. The aim of this study was to test an optogentically inducible Cre recombinase as well as a self-cleaving gRNA which can find and associate with Cas9 in vivo. Mouse T-cells which consecutively produce Cas9 (Cas 9, Jackson laboratory) were transduced and transplanted in immunodeficient mice (TCRb-/-, Jackson laboratory). The optogenetic component of the system is activated upon blue light stimulation and is introduced to the T-cell through a mouse stem cell virus (MSCV). The TCRb-/- mice underwent surgery which exposed their lymph nodes to blue light pulses from a fibre optic wire, this process is referred to as blue light surgery. BLU-VIPR T-cells which express self-cleaving gRNAs reduced the relative abundance of the target protein (Thy1.2), after blue light surgery in vivo. Furthermore, the optogenetic system showed minimal leakiness when used for gene targeting using gRNAs. This suggests that the gRNAs had associated with Cas9 and were able to successfully target the Thy1.2 gene. Results from the optogentically induced Cre recombinase showed that Cre was expressed in significant amounts without blue light stimulation, suggesting some background leakiness in the BLU-VIPR system. T-cells BLU-VIPR optogenetics optogenetic multiplex KO Cre mice

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