Global ETD Search

91	A generic capture assay for immunogenicity, using Biacore Engqvist, Martin January 2013 (has links) The purpose of this investigation was to create and optimise a capture assay for the detectionof anti-drug antibodies (ADA) in human plasma, using Biacore. We also dealt with the nonspecificplasma binding to mouse-derived anti-biotin which may occur in the capture assay.By paying attention to these things we aimed at reaching as high sensitivity as possible for theADA detection. The capture assay also benefited and gained flexibility from using the same regenerationsolution irrespective of drug and from having a composition that minimises the risk ofdamaging drug epitopes. Immunogenicity immunoassay capture assay Biacore non-specific binding anti-drug antibodies (ADA) human plasma anti-biotin biotinylation
92	Biotinylation and high affinity avidin capture as a strategy for LC-MS based metabolomics Rhönnstad, Sofie January 2010 (has links) Metabolites, small endogenous molecules existing in every living cell, tissue or organism, play a vital role for maintaining life. The collective group of all metabolites, the metabolome, is a consequence of the biochemistry and biochemical pathways that a cell or tissue uses to promote survival. Analysis of the metabolome can be done to reveal changes of specific metabolites which can be a manifestation, a reason or a consequence of for example a disease. The physical chemical diversity amongst these components is tremendous and it poses a large analytical challenge to measure and quantify all of them. Targeting sub groups of the metabolome such as specific functional classes has shown potential for increasing metabolite coverage. Group selective labeling with biotin-tags followed by high affinity avidin capture is a well established purification strategy for protein purification. The purpose with this project is to explore if it is possible to transfer the avidin biotin approach to metabolomics and use this method for small molecules purification. Specifically, this investigation aims to see if it is achievable to make a biotinylation of specific functional groups, to increase the sensitivity through reduction of sample complexity in liquid chromatography mass spectrometry metabolomics analyses after high affinity avidin capture. By purifying the analyte of interest and thereby reducing the sample complexity there will be a reduction in ion suppression. The aim is to increase the analytical sensitivity through a reduction in ion suppression during liquid chromatography mass spectrometry analysis. Delimitations have been done to only investigate the possibility to obtain a biotinylation of primary amines and amides. As model compounds phenylalanine, spermidine, histamine and nicotinamide have been selected. The result from this study indicates that it is possible to increase metabolite coverage through biotin labeling followed by high affinity avidin capture. It is a gain in analytical sensitivity of selected model compounds when comparing biotinylation strategy with a control nonbiotinylation approach in a complex sample. A broader study of additional model compounds and a method development of this strategy are necessary to optimize a potential future method. Biotinylation avidin-biotin system metabolites metabolomics LC-MS NATURAL SCIENCES NATURVETENSKAP
93	The Contribution of Horizontal Gene Transfer to the Evolution of Fungi. Hall, Charles Robert 10 May 2007 (has links) The genomes of the hemiascomycetes Saccharomyces cerevisiae and Ashbya gossypii have been completely sequenced, allowing a comparative analysis of these two genomes, which reveals that a small number of genes appear to have entered these genomes as a result of horizontal gene transfer from bacterial sources. One potential case of horizontal gene transfer in A. gossypii and 10 potential cases in S. cerevisiae were identified, of which two were investigated further. One gene, encoding the enzyme dihydroorotate dehydrogenase (DHOD), is potentially a case of horizontal gene transfer, as shown by sequencing of this gene from additional bacterial and fungal species to generate sufficient data to construct a well-supported phylogeny. The DHOD-encoding gene found in S. cerevisiae, URA1 (YKL216W), appears to have entered the Saccharomycetaceae after the divergence of the S. cerevisiae lineage from the Candida albicans lineage and possibly since the divergence from the A. gossypii lineage. This gene appears to have come from the Lactobacillales, and following its acquisition the endogenous eukaryotic DHOD gene was lost. It was also shown that the bacterially derived horizontally transferred DHOD is required for anaerobic synthesis of uracil in S. cerevisiae. The other gene discussed in detail is BDS1, an aryl- and alkyl-sulfatase gene of bacterial origin that we have shown allows utilization of sulfate from several organic sources. Among the eukaryotes, this gene is found in S. cerevisiae and Saccharomyces bayanus and appears to derive from the alpha-proteobacteria. / Dissertation horizontal gene transfer lateral gene transfer Saccharomyces cerevisiae biotin uracil sulfatase
94	Fabrication of nitride-based high electron mobility transistor biosensor to detect pancreatic cancer antigen Hsu, Shi-Ya 31 July 2012 (has links) Abstract ¡@¡@Biosensor chip has a lot of advantages, such as label-free, ultra-sensitive, highly selective, fast and real-time detection. Fabricating biosensor chip has great benefits for gene-detection, protein-detection, medical diagnosis and development of new medicine. This research will integrate the biomedical, chemistry, and physics, and also combined with biochemical technology and semiconductor technology to produce biosensor chip. ¡@¡@We use microelectronic semiconductor process technology to fabricate silicon nanowire field effect transistors (SiNW-FET). The source-drain current versus the voltage curve (Isd-Vsd) shows that the contact pad and the silicon nanowire form ohmic contact. And then we use chemical surface modification technologies to modified biotin on SiNW-FET to detect streptavidin. ¡@¡@In addition, we also grow AlGaN/GaN film by MBE, and fabricate nitride¡Vbased high electron mobility transistor (HEMT) by microelectronic semiconductor process technology. In this study, we apply HEMT in biosensor for pancreatic cancer marker CA19-9 antigen. And we modify pancreatic cancer marker CA19-9 antibody on the biosensor chip surface to detect pancreatic cancer marker CA19-9 antigen molecule. ¡@¡@Most of biomolecules are with weak charges, which can form chemical gating effect and change the conductance of p-type SiNW. And according to the streptavidin microfluidic measurement of biotin-modified SiNW-FET, the detection limit of streptavidin was 10-9 M. And the detection limit of pancreatic cancer marker CA19-9 antigen for N-HEMT biosensor was 150 U/mL. silicon nanorod biotin field effect transistor streptavidin pancreatic cancer Biosensor high electron mobility transistor
95	New Strategies in the Localization of Natural Product Biosynthetic Pathways and Achieving Heterologous Expression Kim, Eun Jin 2009 December 1900 (has links) Natural products have long furnished medical science playing a significant role in drug discovery and development. Their importance notwithstanding, it is estimated that less than 1% of microorganisms can be cultivated from environmental sources using standard laboratory techniques. It is therefore necessary to develop biochemical and genetic techniques to access these uncultivable genomes. Here as a point of departure toward this goal, two cDNA libraries of two microorganisms were constructed along with five fosmid libraries with DNA isolated from marine environmental samples. We describe the construction of cDNA libraries from marine microbial species and detail experiments to exploit these libraries for their natural product biosynthetic pathways and other metabolic enzymes they harbor. However, no useful biosynthetic pathways were detected within the cDNA libraries. Genetic selection by complementation was additionally explored as a method to identify and localize biosynthetic gene clusters within marine microbial DNA libraries. Genetic selection is a fast and economic method which utilizes selection of a part of a pathway to represent the presence of an entire pathway for the complementation of known mutant strains. We describe genetic selection to localize biotin biosynthetic pathways of Hon6 (Chromohalobacter sp.) as a proof of principle experiment for the identification and localization of biosynthetic pathways in general. Instead of developing purification methods or manipulating cultivation conditions, large fragments of non-culturable bacterial genomes can be cloned and expressed using recombinant DNA technology. A strong transcriptional promoter to control high-level gene expression is required in recombinant expression plasmids. We aimed to develop new tools to control gene expression through the use of riboswitches. Riboswitches are metabolite-sensing ribonucleic acid (RNA) elements that possess the remarkable ability to control gene expression. The thiamine pyrophosphate (TPP) riboswitch system was chosen as it will enable use of E. coli as a suitable host strain. This system is particularly attractive because it has one of the simplest structures among the riboswitches elucidated to date. The use of the TPP riboswitch will also enable modulation of pathway gene expression by varying the TPP coccentration as many gene products are toxic. The violacein gene cluster from Chromobacterium violaceum was selected and placed under the control of this riboswitch. We describe modulation of heterologous gene expression by the ThiC/Riboswitch and detail experiments to investigate the expression and manipulation of the gene cluster under various promoters. cDNA library Fosmid library Genbetic selection Heterologous Expression Riboswitches Biotin biosynthetic pathway Natural product
96	Strategies for de novo DNA sequencing Blomstergren, Anna January 2003 (has links) <p>The development of improved sequencing technologies hasenabled the field of genomics to evolve. Handling andsequencing of large numbers of samples require an increasedlevel of automation in order to obtain high throughput andconsistent quality. Improved performance has lead to thesequencing of numerous microbial genomes and a few genomes fromhigher eukaryotes and the benefits of comparing sequences bothwithin and between species are now becoming apparent. Thisthesis describes both the development of automated purificationmethods for DNA, mainly sequencing products, and a comparativesequencing project.</p><p>The initially developed purification technique is dedicatedto single stranded DNA containing vector specific sequences,exemplified by sequencing products. Specific capture probescoupled to paramagnetic beads together with stabilizing modularprobes hybridize to the single stranded target. After washing,the purified DNA can be released using water. When sequencingproducts are purified they can be directly loaded onto acapillary sequencer after elution. Since this approach isspecific it can be applied to multiplex sequencing products.Different probe sets are used for each sequencing product andthe purifications are performed iteratively.</p><p>The second purification approach, which can be applied to anumber of different targets, involves biotinylated PCR productsor sequencing products that are captured using streptavidinbeads. This has been described previously, buthere theinteraction between streptavidin and biotin can be disruptedwithout denaturing the streptavidin, enabling the re-use of thebeads. The relatively mild elution conditions also enable therelease of sensitive biotinylated molecules.</p><p>Another project described in this thesis is the comparativesequencing of the 40 kb<i>cag</i>pathogenicity island (PAI) in four<i>Helicobacter pylori</i>strains. The results included thediscovery of a novel gene, present in approximately half of theSwedish strains tested. In addition, one of the strainscontained a major rearrangement dividing the<i>cag</i>PAI into two parts. Further, information about thevariability of different genes could be obtained.</p><p><b>Keywords:</b>DNA sequencing, DNA purification, automation,solid-phase, streptavidin, biotin, modular probes,<i>Helicobacter pylori</i>,<i>cag</i>PAI.</p> DNA sequencing DNA purification automation solid-phase streptavidin biotin modular probes Helicobacter pylori cag PAI
97	Direct measurement of the energy landscape of ligand-receptor interactions Schwemmer, Frank Heinz, 1986- 04 January 2011 (has links) In this thesis, a novel single molecule technique will be presented that will, for the first time, give direct access to the interaction energy landscapes of small molecules. The technique relies on the interpretation of thermal position fluctuations of a colloidal probe particle tethered to the molecular complex of interest and a geometrical amplification effect that converts Ångstrom scale fluctuations of the ligand in the binding pocket of the receptor to tens of nanometer fluctuation of the bead. The position of the bead is measured with 0.5 MHz bandwidth and 2 nm spatial resolution. The surface characteristic of the substrate was found to be critical for this new technique and various surface effects were observed. Methods were developed to block nonspecific interaction between the surfaces. The mobility of specifically bound particles was found to depend strongly on the density of specific bonds and the length of the molecular complex; low concentration and short linker lead to slow ligand-receptor mediated surface diffusion, high concentration and/or long linkers to an immobilization of the particle. Transient bond formation was observed for the intermediate range. Details of the interaction energy landscape were not resolved. However, a systematic change in the linker length from 22 Å to 29 Å led to a corresponding change in the lateral position fluctuations from 12.9 nm to 13.2 nm in excellent agreement with our theoretical calculations, confirming the geometrical amplification effect. Also, a new phenomenon of nanometer scale friction in the gap between the bead and the surface was discovered. In summary, the results underline that the novel technique might be able to measure details of the interaction energy landscape of a specific ligand-receptor bond and thus test theoretical predictions for its shape. / text Ligand Receptor Forces Specific interaction Single molecule Biophysics Avidin Biotin Energy landscape
98	Plasmodium yoelii acetyl-coa carboxylase : detection and characterisation of the recombinant biotinoyl domain. Achilonu, Ikechukwu Anthony. January 2008 (has links) Human malaria, caused by four species of the intracellular protozoan parasite Plasmodium, is a major health and economic burden in the tropics where the disease is endemic. The biotindependent enzyme acetyl-CoA carboxylase catalyses the commitment step in de novo fatty acid biosynthesis in several organisms. Acetyl-CoA carboxylase is a target for anti-parasitic drug development due to its relevance in membrane biogenesis. This study describes the detection of acetyl-CoA carboxylase and the partial characterisation of the biotinoyl domain of the enzyme of the mouse malaria parasite, Plasmodium yoelii. Acetyl-CoA carboxylase mRNA was detected by RT-PCR performed on total RNA isolated from P. yoelii 17XL-infected mouse erythrocytes using primers designed from PY01695 ORF of the Plasmodb-published MALPY00458 gene of P. yoelii 17XNL. The RT-PCR was confirmed by sequencing and comparative analysis of the sequenced RT-PCR cDNA products. Northern blot analysis performed on total RNA using probes designed from a 1 kb region of the gene showed that the transcript was greater than the predicted 8.7 kb ORF. An immunogenic peptide corresponding to the P. yoelii theoretical acetyl-CoA carboxylase sequence was selected using epitope prediction and multiple sequence alignment algorithms. The immunogenic peptide was coupled to rabbit albumin carrier for immunisation in chickens and the affinity purified antibody titre was approximately 25 mg. The anti-peptide antibodies detected a 330 kD protein in P. yoelii lysate blot, which corresponds to the predicted size of the enzyme. The enzyme was also detected in situ by immunofluorescence microscopy using the anti-peptide antibodies. A 1 kb region of the P. yoelii acetyl-CoA carboxylase gene containing the biotinoyl domain was cloned and expressed in E. coli as 66 kD GST-tag and 45 kD His-tag protein. Both recombinant biotinoyl proteins were shown to contain bound biotin using peroxidaseconjugated avidin-biotin detection system. This suggested in vivo biotinylation of the recombinant P. yoelii biotinoyl protein, possibly by the E. coli biotin protein ligase. The Proscan™ and the NetPhos 2.0™ algorithms were used to predict protein kinase phosphorylation sites on the biotin carboxylase and the carboxyltransferase domains of the enzyme. The three-dimensional structure of the biotinoyl and the biotin carboxylase domains were predicted using the SWISS-MODEL™ homology modelling algorithm. Homology modelling revealed a similarity in the 3D conformation of the predicted P. yoelii biotinoyl domain and the E. coli biotinoyl protein with negligible root mean square deviation. The model also revealed the possibility of inhibiting P. yoelii and falciparum acetyl-CoA carboxylases with soraphen A based on the similarity in conformation with S. cerevisiae biotin carboxylase and the stereochemical properties of the residues predicted to interact with soraphen A. This study demonstrated that malaria parasite expresses acetyl-CoA carboxylase and, combined with data on other enzymes involved in fatty acid metabolism suggests that the parasite synthesizes fatty acids de novo. This enzyme could be a target for rational drug design. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2008. Plasmodium yoelii. Acetylcoenzyme A. Biotin. Enzymes. Fatty acids--Metabolism. Antimalarials. Theses--Biochemistry.
99	A quantitative study of nerve fiber density in the submandibular gland of rats Tsuboi, Tetsuhiro, Honda, Takashi, Hishida, Sumiyo, Shigetomi, Toshio, Ueda, Minoru, Sugiura, Yasuo 05 1900 (has links) No description available. Salivary gland Nerve distribution PGP 9.5 Avidine and biotin-peroxidase complex Rats
100	High-throughput assays for biotin protein ligase: a novel antibiotic target. Ng, Belinda Ling Nah January 2009 (has links) Antibiotics are defined as chemical substances that inhibit or limit the growth of microorganisms. Since the second world war, antibiotics have been widely used to reduce the morbidity and mortality associated with serious bacterial infections caused by organisms such as Staphylococcus aureus. However, it has become increasingly difficult to treat bacterial infections due to the emergence of antibiotic resistant strains. The first clinical case of drug resistant bacteria was observed in S. aureus in 1947, just four years after the mass production of penicillin. Since then, resistance has been reported to every antibiotic ever employed. According to the Centres for Disease Control and Prevention of the United States, more than 70% of hospital-acquired infections show resistance to at least one commonly used antibiotic. Coupled with the paucity of therapeutic agents in the pipeline, there is now an urgent demand for new antibiotics. One of the strategies employed to combat drug resistant bacteria requires new chemical entities that work through novel drug targets for which there is no pre-existing resistance. This thesis focuses on the essential metabolic enzyme biotin protein ligase (BPL) as one such new drug target. BPL is the enzyme responsible for covalently attaching the cofactor biotin prosthetic group onto the biotin-dependent enzymes such as the carboxylases, decarboxylases and transcarboxylases. Enzymatic biotinylation proceeds via a two-step reaction whereby biotinyl-5'-AMP is synthesized from biotin and ATP before the biotin moiety is transferred onto the side chain of one specific lysine present in the active site of the biotin-dependent enzyme. One example of an important biotin-dependent enzyme is acetyl CoA carboxylase (ACC). ACC catalyzes the first committed step in fatty acid biosynthesis. Through genetic studies, it has been demonstrated that BPL activity is essential for bacterial survival. The aim for this project was to develop a convenient, high-throughput assay to measure BPL activity. This assay would permit 1) quantitative kinetic analysis of ligands and inhibitors and 2) screening of compound libraries for new BPL inhibitors. We propose that BPL inhibitors can be developed into new antibiotic agents. The novel BPL assay was developed employing fluorescence polarization (FP). FP is a light based technique which uses plane polarized light for the detection of tumbling motion of fluorescent molecules in solution. As polarization of the emitted light is relative to the apparent molecular mass of the fluorophore, this technique can be use for quantitation of changes in molecular mass of target molecules. This enabled 1) rapid kinetic analysis, 2) a minimal number of handling steps, 3) no washing steps and 4) automation by robotics. A first generation assay was developed for Escherichia coli BPL using peptide 85-11 that has been shown to be a convenient substrate. Following the BPL reaction, biotinylated peptides will form large molecular mass complexes with avidin. The amount of product could then be quantitated using FP. Here, kinetic analysis of MgATP (Km 0.25 ± 0.01 mM) and biotin (Km 1.45 ± 0.15 μM) binding produced results consistent with published data. We validated this assay with inhibition studies with end products of the BPL reaction, AMP and pyrophosphate, and a compound, biotinol-5'-AMP. Statistical analysis, performed upon both intraassay and interassay results (n = 30), showed the coefficient of variance to be <10% across all data sets. Furthermore, the Z' factors between 0.5 and 0.8 demonstrated the utility of this technology in high-throughput applications. However, the use of peptide 85-11, a substrate specific to E. coli BPL, does limit the application of this methodology to E. coli. In the second generation FP assay, I adapted this technology for S. aureus BPL by employing the biotin domain of S. aureus pyruvate carboxylase. Insertion of a fluorescein label was achieved by first engineering a cysteine residue into the domain by site directed mutagenesis then incubation with fluorescein-5'-maleimide. A series of mutants was created to investigate optimal positioning of the label into the substrate. Furthermore, the minimal size of the functional domain was determined. Our data showed that the placement of the fluorescein label is an important aspect of this project. Using this approach, I identified that a 90 amino acid domain with the label at position 1134 was optimal. Kinetic analysis of ligand binding showed SaBPL had a Km for biotin at 3.29 ± 0.37 μM and Km for MgATP at 66 ± 16.08 μM. This was in good agreement with data obtained from our previous assay measuring ³H-biotin incorporation. Inhibitor studies with pyrophosphate and analogues of biotin and biotinyl-5'-AMP further validated the assay. Various studies have shown cross-species biotinylation activities by a diverse range of BPLs. Therefore, using this methodology with a biotin domain as the substrate potentially provides a convenient assay for all BPLs. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1374330 / Thesis (M.Sc.) -- University of Adelaide, School of Molecular and Biomedical Science, 2009

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