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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

Peptidoglycan recognition proteins in Drosophila melanogaster

Werner, Thomas January 2004 (has links)
The fruit fly Drosophila melanogaster is an excellent model organism to study the innate immune response, because insects and mammals share conserved features regarding the recognition and destruction of microorganisms and Drosophila is easily accessible to genetic manipulation. In my present study, I identified a new family of pattern recognition molecules for bacterial peptidoglycan in Drosophila, the Peptidoglycan Recognition Proteins (PGRP). This family of proteins is widespread in the animal kingdom, for instance there are 4 PGRP genes in humans with unknown function. So far, all tested PGRPs (from insects and mammals) have been shown to bind peptidoglycan. In Drosophila, we found and characterized 13 PGRP genes, which fall into two classes: Short PGRPs and Long PGRPs. To the short group belong PGRP-SA, SB1, SB2, SC1A, SC1B, SC2, and SD with short transcripts and predicted extracellular proteins. The long members are PGRP-LA, LB, LC, LD, LE, and LF with long transcripts and predicted intracellular and membrane spanning proteins. Transcripts from the 13 different PGRP genes are present in immune competent organs, and the majority are inducible by infection. The transcriptional regulation of the inducible PGRP genes occurs either via the imd/Relish or in some cases Toll/Dif pathway. My RNAi experiments in mbn-2 cells revealed that the peptidoglycan recognition protein PGRP-LC is a major activator of the imd/Relish pathway. In PGRP-LC deficient mbn-2 cells, Relish signalling is almost entirely blocked. However, the complex PGRP-LC gene generates three alternative splice forms, each of them carrying one of three possible PGRP domains, LCx, LCy, and LCa. I found that in the tissue culture system PGRP-LCa plays a specific role in the recognition of Gram-negative bacteria, while PGRP-LCx is crucial for the recognition of Gram-positive and Gram-negative bacteria, and peptidoglycan. Targeted mutagenesis of the PGRP-LCa isoform in vivo shows that the situation is more complicated than in the cell culture experiments. In conclusion, PGRPs constitute a highly diversified family of proteins, including key players of the innate immune response.
42

ZNF217, un rôle majeur dans le cancer du sein : un nouvel instigateur du développement de métastases ostéolytiques : isoforme ZNF217-ΔE4 : implication en cancérogénèse mammaire et valeur pronostique / ZNF217, a major role in breast cancer : a new instigator of osteolytic metastases development : ZNF217-ΔE4 isoform : implication in breast carcinogenesis and prognostic value

Bellanger, Aurélie 11 January 2017 (has links)
ZNF217 est un oncogène codant pour un facteur de transcription de la famille Krüppel-like. Nos objectifs sont d'explorer le rôle de l'oncogène ZNF217 dans le développement de métastases du cancer du sein à tropisme osseux et la valeur pronostique ainsi que les fonctions d'une nouvelle isoforme de ZNF217. Nous avons identifié que de forts niveaux d'expression de l'ARNm de ZNF217 dans les tumeurs primitives du sein pourrait être un indicateur d'un développement ultérieur de métastases osseuses. Nous avons montré que ZNF217 est un nouvel activateur de la voie BMP et que l'inhibition de cette voie permet de reverser les propriétés métastatiques des cellules ZNF217 positives in vitro (migration, invasion et chimiotactisme vers des cellules osseuses). In vivo chez la souris, les cellules ZNF217-positives de cancer du sein développent très rapidement des métastases ostéolytiques. Dans notre deuxième axe de travail, nous avons prouvé l'existence de l'isoforme ZNF217-?E4 et montré qu'elle possède une valeur de mauvais pronostic dans le cancer du sein ER-a+. Les cellules surexprimant ZNF217-?E4 développent un phénotype encore plus agressif que les cellules possédant la forme WT (prolifération, résistance au paclitaxel), et de manière intéressante, ZNF217-?E4 semble jouer un rôle de régulateur de l'expression de ZNF217-WT. En conclusion, ZNF217 et/ou la voie BMP pourraient représenter des cibles thérapeutiques dans le traitement des cancers du sein ZNF217-positif / ZNF217 is an oncogene encoding for a Krüppel-like transcription factor. Our aims were to explore the roles of the ZNF217 oncogene in the development of breast cancer metastases to the bone and to decipher the prognostic value and the functions of a new ZNF217 isoform. Our work identified that high ZNF217 mRNA expression levels within the primitive breast tumor could represent an indicator for future recurrence to the bone. Further in vitro experiment demonstrated that ZNF217 is a new activator of the BMP pathway and that the inhibition of this pathway could inhibit the metastatic properties of ZNF217-positive breast cancer cells in vitro (migration, invasion, chemotaxis to bone cells). In vivo in mice, ZNF217-positive breast cancer cells developed osteolytic metastases very faster. In our second axis, we have proven the existence of the ZNF217-?E4 isoform and we found that this isoform possesses a prognostic significance associated with a poor prognosis in ER-a+ breast cancer. Furthermore, cells overexpressing ZNF217-?E4 developed a more aggressive phenotype than cells overexpressing ZNF217-WT (proliferation, paclitaxel resistance). Interestingly, ZNF217-?E4 seems to play a regulatory role regarding ZNF217-WT expression. In conclusion, ZNF217 and/or the BMP pathway could represent potential therapeutical targets in the management of ZNF217 positive breast cancer
43

Differential expression and function of fubl-1 gene isoforms in C. elegans

Pålsson, Joel January 2022 (has links)
Alternative splicing is the process of producing a variety of transcripts from one and the same gene. This adds further possible variability to gene expression and can in theory mean that one protein coding gene can produce multiple proteins with potentially different functions. Therefore, to understand the function of a gene, alternative splicing must be accounted for. However, this is made more complex by the fact that the existence of different messenger RNA isoforms does not necessarily entail different protein isoforms, which in turn means that an analysis of both the transcripts and final protein is necessary. Far Upstream Element Binding Protein 1 Like 1 (FUBL-1, or C12D8.1) is an RNA binding protein in Caenorhabditis elegans which is believed to take part in gene regulation, and which seemingly interacts within an argonaut effector pathway called ERGO-1. The gene has five proposed isoforms for which there are varying amounts of RNA data but only the first isoform, FUBL-1a has proteomics data available. In other words, different messenger RNA isoforms exist but it is unclear which are translated into protein. In this study, I have looked at fubl-1 and its isoforms to gain further understanding of this protein. This entailed both analysing long read RNA sequencing data to identify messenger RNA isoforms as well as a laboratory analysis of the protein to look for protein isoforms. I found evidence for all isoforms existing as messenger RNAs, and fubl-1a was by far the most highly expressed. In my protein analysis, I found indications of different isoforms, but not conclusive evidence.
44

Methods for transcriptome reconstruction, with an application in Picea abies (L.) H. Karst.

Westrin, Karl Johan January 2021 (has links)
Transcriptome reconstruction is an important component in the bioinformatical part of transcriptome studies. It is particulary interesting when a reference genome is missing, highly fragmented or incomplete, since in such situations, a simple alignment (or mapping) would not necessarily tell the full story. One species with such a highly fragmented reference genome is the Norway spruce (Picea abies (L.) H. Karst.) -- a conifer, which is very important for Swedish economy. Given its long juvenile phase and irregular cone setting, the demand of cultivated seeds are larger than the supply. This yields a desire to understand the transcriptomal biology behind the cone setting in P. abies. This thesis presents an introduction to this situation, and the biological and bioinformatical background in general, followed by two papers in which this is applied: Paper I introduces a novel de novo transcriptome assembler, with a focus on recovering isoforms, and paper II makes use of this assembler to be able to detect connections between scaffolds in the P. abies genome. Paper I also studies P. abies var acrocona, a mutant with shorter juvenile phase than the wild type, in order to detect how cone setting is initiated.  From differential expression studies of both mRNA and miRNA, a number of genes potentially involved in cone-setting in P. abies were found, and also a set of miRNAs that could be involved in their regulation. / Transkriptomrekonstruktion är en viktig komponent i den bioinformatiska delen av transkriptomstudier. Särskilt intressant är detta när ett referensgenom saknas, är kraftigt fragmenterat eller ofullständigt, ty i dessa situationer skulle inte en vanlig inpassning (eller mappning) kunna berätta allt. En art med ett kraftigt fragmenterat referensgenom är gran (Picea abies (L.) H. Karst.) -- ett barrträd, som är mycket viktigt för svensk ekonomi. På grund av dess långa uppväxtsfas och oregelbundna kottsättning, så är efterfrågan av förädlade fröer större än utbudet. Detta lämnar en önskan att förstå den transkriptomala biologin bakom granens kottsättning. Denna avhandling presenterar en introduktion till denna situation, den generella biologiska och bioinformatiska bakgrunden, följd av två artiklar i vilket detta är tillämpat: Artikel I introducerar en ny de novo transkriptomassembler med fokus på att återskapa isoformer, och artikel II tillämpar denna assembler för att kunna hitta länkar mellan scaffolder (genom-delar som hittills inte kunnat länkas med varandra) i grangenomet. Artikel II studerar även granmutanten acrocona (kottegran), vilken har kortare uppväxtsfas än vildtypen, för att kunna se vad som initierar kottsättning.  Från differentiella expressionsstudier av såväl mRNA som miRNA, hittades ett antal gener potentiellt involverade i granens kottsättning, samt några miRNA som kan vara involverade i dess reglering. / <p>QC 2021-02-12</p>
45

Role of p21-activated Kinase (PAK)-Nck in the Formation of Filopodia and Large Protrusions

DeMuth, John Gary 27 May 2010 (has links)
No description available.
46

Developing 1,2,3,4-tetrahydro-5H-aryl[1,4]diazepin-5-ones and Related Scaffolds as Poly-(ADP-ribosyl) Polymerase (PARP) Inhibitors and Exploring Their Targeted Polypharmacology with Kinases

Sulier, Kiaya Minh-Li 08 June 2017 (has links)
Poly-(ADP-ribsoyl) Polymerases (PARPs) are a superfamily of enzymes comprised of 17 known isoforms. PARP inhibitors (PARPi) have shown success in clinical trials for the treatment of homologous recombination-deficient cancers. Though proven effective initially, tumors treated with PARPi eventually develop resistance. Combinatorial therapeutics targeting PARP and other pathways that may re-sensitize tumors to PARP inhibition, including PI3K/AKT/mTor pathway, and cell-cycle checkpoints (such as CDKs, CHK, and Wee) are being tested. In this context, the synthetic lethality of cyclin-dependent kinase 1 (CDK1) and PARP1 is known. Evaluation of PARP1 and CDK1 pharmacophores led to the development of the tetrahydro-arylazepinone (TAAP) scaffold as a potential dual PARP1/CDK1 inhibitor. We screened a handful of TAAP analogs against PARP1 in a cell-free assay that identified the low micromolar PARP1 inhibitor 1,2,3,4-tetrahydro-5H-benzo[e][1,4]-diazepin-5-one (TBAP), which served as the lead compound. The analogous 1,2,3,4-tetrahydro-5H-pyrido[2,3-e][1,4]-diazepin-5-one (TPAP) series showed a similar bioactivity profile. Satisfyingly, the N1-benzyl TPAP analogue showed activity in the low nanomolar range. The TAAP series (i.e., 6/7-membered scaffold) unfortunately lacked CDK1 inhibitory activity. Finally, many PARPi's show poor isoform-selectivity. The development of isoform-selective PARPi can clarify the specific function of each PARP isoform and may reduce the adverse side effects shown by PARPi. A handful of TAAP analogs were screened against 13 PARP isoforms, where some compounds demonstrated exquisite PARP1/2 selectivity. Concurrently, we discovered an inhibitor for PARP11, an isoform that lacks any known synthetic ligand. Future directions are suggested towards fine-tuning the structure-activity relationship of TAAP-isoform selective PARPi as well as developing a dual PARP1/CDK1 inhibitor. / Master of Science / The aim of this work is to explore the therapeutic potential of poly-(ADP-ribosyl) polymerase inhibitors (PARPi) for the treatment of ovarian and breast cancer, specifically triple negative breast cancer. Poly-(ADP-ribsoyl) Polymerases (PARPs) are a superfamily of enzymes comprised of 17 known isoforms. Currently, there are three FDA approved PARPi - olaparib, isoforms. Further, tumors have been shown to develop resistance to PARPi. Herein, we explored the 1,2,3,4-tetrahydro-5H-aryl[1,4]diazepin-5-one scaffold as a potential PARP1/2-selective rucaparib, and niraparib; however, these PARPi demonstrate non-selectivity amongst the PARP inhibitor and its possibility for targeted pharmacology with other kinases.
47

The developmental and evolutionary roles of isoforms of regulator of G protein signalling 3 in neuronal differentiation

Fleenor, Stephen January 2014 (has links)
Fundamental to the complexity of the nervous system is the precise regulation in space and time of the production, maturation, and migration of neurons in the developing embryo. This is eloquently seen in the forming cranial sensory ganglia (CSG) of the peripheral nervous system. Placodes, which are transient pseudostratified neuroepithelia in the surface ectoderm of the embryo, are responsible for generating most of the neurons of the CSG. Placodal progenitors commit to the neuronal fate and delaminate from the epithelium as immature, multipolar neuroblasts. These neuroblasts reside in a staging area immediately outside the placode. Differentiation of the neuroblasts is intimately coupled to their adoption of a bipolar morphology and migration away from the staging area to the future site of the CSG. Thus the forming CSG is a highly tractable model to anatomically separate the three phases of a neuroblast’s lifetime: from neuroepithelial progenitor (in the placode), to immature neuroblast (in the staging area), to mature neuron (in the migratory stream). In this thesis, I used the forming CSG as a model to investigate the role of Regulator of G protein Signalling 3 (RGS3) in neuroblast commitment and differentiation. Promoters within introns of the RGS3 locus generate isoforms in which N-terminal sequences are sequentially truncated, but C-terminal sequences are preserved. Intriguingly, I found that expression of these isoforms in the forming CSG is temporally co-linear with their genomic orientation: longer isoforms are exclusively expressed in the progenitor placode; a medium isoform is expressed exclusively in the neuroblast staging area; and the shortest isoforms are expressed in the neuronal migratory stream. Furthermore, through loss- and gain-of-function experiments, I demonstrated that each of these isoforms plays a specific role in the differentiation state in which it is expressed: placode-expressed isoforms negatively regulate neurogenesis; the neuroblast-expressed isoform negatively regulates differentiation; and the neuron-expressed isoforms negatively regulate neuronal migration. The negative regulatory role which all isoforms play in different cell-biological contexts is intriguing in light of the fact that they all share a C-terminal RGS domain, which canonically negatively regulates G protein signalling. Through domain mutation and deletion, I showed that the RGS and N-terminal domains are important for the function of each isoform. Thus temporally co-linear expression within the RGS3 locus generates later-expressed isoforms which lack the regulatory N-terminal domains of the earlier-expressed isoforms, giving them new license to perform different biochemical functions. Lastly, I investigated the conservation and evolution of RGS3 and its isoforms. RGS3 was found to be present in all extant metazoans, and results from this thesis implicate it as the founding member of the R4 subfamily of RGS proteins. Furthermore, in the early vertebrate lineage, a critical domain was lost. This is intriguing in light of the fact that placodes in their stereotypic forms also emerged early in the vertebrate lineage. Ectopic overexpression of the full-length invertebrate RGS3 protein prevented pseudostratification of the vertebrate placode, suggesting that the domain loss in the early vertebrate lineage was important for the evolution of pseudostratified placodes and the expansion of the vertebrate nervous system. In summary, the work in this thesis has uncovered a previously unseen model of transcriptional regulation of a single locus: intragenic temporal co-linearity. Furthermore, the demonstrated functions of this regulation have profound implications on the generation and differentiation of vertebrate neurons, as well as the evolution of the vertebrate nervous system.
48

ROLE OF SULFIREDOXIN INTERACTING PROTEINS IN LUNG CANCER DEVELOPMENT

Chawsheen, Hedy 01 January 2016 (has links)
Sulfiredoxin (Srx) is an antioxidant enzyme that can be induced by oxidative stress. It promotes oncogenic phenotypes of cell proliferation, colony formation, migration, and metastasis in lung, skin and colon cancers. Srx reduces the overoxidation of 2-cysteine peroxiredoxins in cells, in addition to its role of removing glutathione modification from several proteins. In this study, I explored additional physiological functions of Srx in lung cancer through studying its interacting proteins. Protein disulfide isomerase (PDI) family members, thioredoxin domain containing protein 5 (TXNDC5) and protein disulfide isomerase family A member 6 (PDIA6), were detected to interact with Srx. Therefore, I proposed that TXNDC5 and PDIA6 are important for the oncogenic phenotypes of Srx in lung cancer. In chapter one, I presented background information about the role of Srx as an antioxidant enzyme in cancer. I also explained the functional significance of PDIs as oxidoreductase and chaperones in cells. In chapter two, I verified the Srx-TXNDC5/PDIA6 interaction in HEK293T and A549 cells by co-immunoprecipitation and other assays. In TXNDC5 and PDIA6, the N-terminal thioredoxin-like domain (D1) is determined to be the main platform for interaction with Srx. The Srx-TXNDC5 interaction was enhanced by H2O2 treatment in A549 cells. Srx was determined to localize in the endoplasmic reticulum (ER) of A549 cells along with TXNDC5 and PDIA6. This localization was confirmed by both subcellular fractionation and immunofluorescence imaging experiments. In chapter three I focused on studying the physiological function of Srx interacting proteins in the ER. A549 subcellular fractionation results showed that TXNDC5 facilitates Srx retention in the ER. Moreover, TXNDC5 and Srx were found to participate in chaperone activities in lung cancer. Both proteins contributed in the refolding of heat-shock induced protein aggregates. In addition, TXNDC5 and PDIA6 were found to enhance the protein refolding in response to H2O2 treatment. Conversely, Srx appeared to have an inhibitory effect on protein folding under same treatment conditions. Downregulation of Srx, TXNDC5, or PDIA6 significantly reduced cell viability in response to tunicamycin treatment. TXNDC5 knockdown decreased the time required for the splicing of X-box binding protein-1 (XBP-1). In either knockdown Srx or TXNDC5 cells, there was an observable decrease in the expression of GRP78 and the splicing of spliced XBP-1. These results suggest a possible role of Srx in unfolded protein response signaling. TXNDC5 and PDIA6, similar to Srx, contribute to the proliferation, anchorage independent colony formation and migration of lung cancer cells. In this dissertation I concluded that Srx TXNDC5, and PDIA6 proteins participate in oxidative protein folding in lung cancer. Srx and TXNDC5 can modulate unfolded protein response (UPR) sensor activation and growth inhibition. Furthermore, TXNDC5 and PDIA6 can promote tumorigenesis of lung cancer cells. Therefore, the molecular interaction of Srx with TXNDC5/PDIA6 has the potential to be used as novel therapeutic targets for lung cancer treatment.
49

Quantitative analysis of protein-protein interactions governing TASK-1/TASK-3 intracellular transport

Kilisch, Markus 01 June 2016 (has links)
No description available.
50

Single Nucleotide Polymorphisms Linked to Essential Hypertension in Kasigau, Kenya

Freeman, Julia Carol 01 December 2013 (has links)
Hypertension, or high blood pressure (BP), is an ever-growing epidemic in the developing world. Understanding the genetics behind essential hypertension (EH), or hypertension with no known cause, is especially important. In this study, three single nucleotide polymorphisms (SNPs) known to be linked to an increase in susceptibility to EH were quantified from a cohort of Kenyans living in the Kasigau region. The SNPs are located in three genes that are part of the renin angiotensin system, the primary regulatory pathway in humans controlling BP. They include: AGT (rs699), AGTR1 (rs5186), and HSD11β2 (rs5479). Overall, by using a fluorescent-based RT-PCR technique, the genotype distribution of AGT (rs699) was 0.63 C/C, 0.34 C/T, and 0.03 T/T. When evaluated as normotensive, prehypertensive, Stage I, or Stage II categories the allele frequencies for f(C)= 0.77,0.85,0.81, 0.77, respectively, and demonstrated Hardy Weinberg Equilibrium (HWE) as assessed by Χ2, p < 0.05. The genotype distribution of AGTR1 (rs5186) was 0.96 A/A, 0.03 A/C, and 0.00 C/C and the genotype distribution of HSD11β2 (rs5479) was 0.46 A/A, 0.46 A/C, and 0.08 C/C. The majority of genotype frequencies for each SNP were in HWE, with the exception of the AGT (rs699) SNP found in the sublocation of Bughuta suggesting other evolutionary selective pressures may be at work in this subpopulation. The high prevalence of the susceptible C allele for AGT (rs699) likely implies it is a critical factor in the high prevalence of EH observed in this population.

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