Global ETD Search

31	Regulation of the speC gene encoding ornithine decarboxylase in Escherichia coli by putrescine, spermidine and cAMP Peters-Weigel, Sandra M. 18 August 2009 (has links) In Escherichia coli, the speC gene encodes biosynthetic ornithine decarboxylase (ODC), an enzyme that catalyzes the decarboxylation of ornithine to produce putrescine. The two polyamines, putrescine and spermidine, and the cyclic AMP (CAMP) - cAMP receptor protein (CRP) are known to inhibit the expression of ODC via undefined mechanisms. A single copy of the speC’-lacZ fusion plasmid pOL-1, containing an 843 base pair fragment including the spec promoter, was transferred to the E. coli CB806 chromosome to create E. coli λCBOL. In cell-free extracts prepared from E. coli λCBOL supplemented with cAMP, putrescine, or spermidine, the B-galactosidase activity encoded by the speC’-lacZ fusion was compared to the ODC activity encoded by spec. Only cyclic AMP and putrescine repressed the speC’-lacZ fusion. Cyclic AMP, putrescine, and spermidine all repressed the spec gene. A 444 bp AluI restriction fragment, containing a putative CRP binding site and a downstream open reading frame (ORF2) present on the strand complementary to speC, was fused to lacZ to create a transcriptional fusion, pCC2L. Analysis of E. coli CB806/pCC2L revealed that there was no detectable β8- galactosidase activity from the ORF2-lacZ fusion. However, promoter activity was detected in the opposite direction (3’ to 5’) of ORF2 as alkaline phosphatase activity, encoded on the same plasmid, increased in the presence of CAMP. A 678 bp DraI-AatII fragment, containing the CRP binding site and an adjacent open reading frame (ORF3) present on the speC coding strand, was subcloned into plasmid pBR322 to create pBCR. In the presence of 10 mM cAMP, E. coli CB806/pBCR exhibited an 18% inhibition in ODC activity encoded by spec. It is proposed that ORF3 encodes a protein that represses speC in the presence of CAMP. / Master of Science LD5655.V855 1993.P4768 Cyclic adenylic acid Escherichia coli -- Genetics Ornithine decarboxylase Putrescine Spermidine
32	The evolution of LOL, the secondary metabolite gene cluster for insecticidal loline alkaloids in fungal endophytes of grasses. Kutil, Brandi Lynn 15 May 2009 (has links) LOL is a novel secondary metabolite gene cluster associated with the production of loline alkaloids (saturated 1-aminopyrrolizidine alkaloids with an oxygen bridge) exclusively in closely related grass-endophyte species in the genera Epichloë and Neotyphodium. In this study I characterize the LOL cluster in E. festucae, including the presentation of sequence corresponding to 10 individual lol genes as well as defining the boundaries of the cluster and evaluation of the genomic DNA region flanking LOL in E. festucae. In addition to characterizing the LOL cluster in E. festucae, I present LOL sequence from two additional species, Neotyphodium coenophialum and Neotyphodium sp. PauTG-1. Together with two recently published LOL clusters from N. uncinatum, these data allow for a powerful phylogenetic comparison of five clusters from four closely related species. There is a high degree of microsynteny (conserved gene order and orientation) among the five LOL clusters, allowing us to predict potential transcriptional co-regulatory binding motifs in lol promoter regions. The relatedness of LOL clusters is especially interesting in light of the history of interspecific hybridizations that generated the asexual, Neotyphodium lineages. In fact, three of the clusters appear to have been introduced to different Neotyphodium species by the same ancestral Epichloë species, for which present day isolates are no longer able to produce lolines. To address the evolutionary origins of the cluster we have investigated the phylogenetic relationships of particular lol ORFs to their paralogous primary metabolism genes (and gene families) from endophytes, other fungi and even other kingdoms. I present extensive evidence that at least two individual lol genes have evolved from primary metabolism genes within the fungal ancestors of endophytes, rather than being introduced via horizontal gene transfer. I also present complementation studies in Neurospora crassa exploring the functional divergence of one lol gene from its primary metabolism paralog. While it is clear that these insecticidal compounds should convey a selective advantage to the fungus and its host, thus explaining preservation of the trait, this analysis provides an exploration into the evolutionary origin and maintenance of the genes that comprise the LOL and the cluster itself. Gene family evolution Epichloe festucae Neotyphodium spp. Neurospora crassa spe-1 ornithine decarboxylase ortholog/paralog gene tree PhyloCon motif
33	The evolution of LOL, the secondary metabolite gene cluster for insecticidal loline alkaloids in fungal endophytes of grasses. Kutil, Brandi Lynn 15 May 2009 (has links) LOL is a novel secondary metabolite gene cluster associated with the production of loline alkaloids (saturated 1-aminopyrrolizidine alkaloids with an oxygen bridge) exclusively in closely related grass-endophyte species in the genera Epichloë and Neotyphodium. In this study I characterize the LOL cluster in E. festucae, including the presentation of sequence corresponding to 10 individual lol genes as well as defining the boundaries of the cluster and evaluation of the genomic DNA region flanking LOL in E. festucae. In addition to characterizing the LOL cluster in E. festucae, I present LOL sequence from two additional species, Neotyphodium coenophialum and Neotyphodium sp. PauTG-1. Together with two recently published LOL clusters from N. uncinatum, these data allow for a powerful phylogenetic comparison of five clusters from four closely related species. There is a high degree of microsynteny (conserved gene order and orientation) among the five LOL clusters, allowing us to predict potential transcriptional co-regulatory binding motifs in lol promoter regions. The relatedness of LOL clusters is especially interesting in light of the history of interspecific hybridizations that generated the asexual, Neotyphodium lineages. In fact, three of the clusters appear to have been introduced to different Neotyphodium species by the same ancestral Epichloë species, for which present day isolates are no longer able to produce lolines. To address the evolutionary origins of the cluster we have investigated the phylogenetic relationships of particular lol ORFs to their paralogous primary metabolism genes (and gene families) from endophytes, other fungi and even other kingdoms. I present extensive evidence that at least two individual lol genes have evolved from primary metabolism genes within the fungal ancestors of endophytes, rather than being introduced via horizontal gene transfer. I also present complementation studies in Neurospora crassa exploring the functional divergence of one lol gene from its primary metabolism paralog. While it is clear that these insecticidal compounds should convey a selective advantage to the fungus and its host, thus explaining preservation of the trait, this analysis provides an exploration into the evolutionary origin and maintenance of the genes that comprise the LOL and the cluster itself. Gene family evolution Epichloe festucae Neotyphodium spp. Neurospora crassa spe-1 ornithine decarboxylase ortholog/paralog gene tree PhyloCon motif
34	Metabolismo de poliaminas na embriogênese zigótica e somática de Araucaria angustifolia (Bertol.) Kuntze. / Polyamine metabolism in zygotic and somatic embryogenesis of Araucaria angustifolia (Bertol.) Kuntze Oliveira, Leandro Francisco de 05 May 2017 (has links) A Araucaria angustifolia é uma conífera nativa do Brasil. Em função da sua intensa exploração florestal, a espécie ocupa apenas 2% de sua vegetação natural. Neste sistema, a aplicação de técnicas biotecnológicas, como a embriogênese somática, podem ser integradas a programas de melhoramento genético e conservação. A similaridade entre a embriogênese somática e zigótica, tem sido utilizada para o estabelecimento de estudos visando o aperfeiçoamento do cultivo in vitro dos embriões somáticos, bem como para um maior conhecimento dos aspectos moleculares e fisiológicos que regulam a embriogênese. O metabolismo de poliaminas (PAs), mais especificamente putrescina, espermidina e espermina, tem se mostrado como fundamental para a compreensão e evolução da embriogênese zigótica e somática. Entretanto, a biossíntese das PAs e seu envolvimento nos vários processos biológicos que regulam a embriogênese, são pouco conhecidas em coníferas. Inserido nessa perspectiva, o presente trabalho teve como objetivo o estudo do metabolismo de PAs durante três estádios de desenvolvimento da semente (contendo as fases da embriogênese inicial até a tardia) e na proliferação de linhagens embriogênicas com diferentes potenciais embriogênicos de A. angustifolia. Foram investigados: a) os perfis de PAs (livres e conjugadas) e aminoácidos; b) determinação da via preferencial da biossíntese de putrescina, através da atividade enzimática da arginina descarboxilase (ADC) e ornitina descarboxilase (ODC); c) identificação e caracterização do padrão de expressão dos genes envolvidos no metabolismo de PAs; e d) a identificação das relações entre os perfis de PAs e aminoácidos presentes nas sementes das matrizes, e sua potencial influência nas fases de indução, proliferação e maturação dos embriões somáticos. Durante a embriogênese zigótica, a expressão dos genes AaADC (arginina descarboxilase) e AaSAMDC (S-adenosilmetionina descarboxilase) aumentaram no estádio cotiledonar, juntamente com o aumento de PAs. A biossíntese da putrescina é realizada preferencialmente via ADC, enquanto que a citrulina foi o principal aminoácido presente nas sementes. Em relação ao metabolismo de PAs nas culturas embriogênicas, os dados obtidos demonstraram que a arginina e ornitina parecem ter diferentes funções em cada linhagem testada. Na linhagem com alto potencial embriogênico, a arginina parece estar associada com a ativação dos genes relacionados ao catabolismo de PAs (AaPAO2, AaCuAO e AaALDH), enquanto que esse efeito não foi observado na linhagem bloqueada. A ODC tem uma maior atividade na linhagem responsiva, enquanto que na linhagem bloqueada, as atividades da ADC e ODC são similares. Dependendo da matriz foram observados diferentes perfis de PAs e aminoácidos, sendo estes perfis relacionados com as taxas de indução, proliferação e desenvolvimento dos embriões somáticos. Putrescina total, ornitina e asparagina foram os metabólitos diferencialmente identificados entre as matrizes, os quais podem ser propostos como marcadores bioquímicos para a seleção de matrizes com alto potencial para a embriogênese somática. Os resultados obtidos fornecem informações relevantes e inéditas sobre o metabolismo de PAs e aminoácidos na embriogênese zigótica e somática de A. angustifolia, bem como fornece novos subsídios para o aprimoramento das condições artificiais utilizadas para o desenvolvimento dos embriões somáticos / The Araucaria angustifolia is a native conifer species of Brazil. Due to its intense exploitation, the species cover only 2% of its original forest area. In this system, biotechnological tools, like somatic embryogenesis, may be integrated into breeding and conservation programs. The similarity between zygotic and somatic embryogenesis have been used to establishment of studies in order to optimization of somatic embryos in vitro culture, as well as for a better understanding of physiologic and molecular aspects that modulates the embryogenesis. The metabolism of polyamines (PAs), specifically putrescine, spermidine and spermine, has been demonstrated as fundamental for the comprehension and evolution of zygotic and somatic embryogenesis. However, the biosynthetic pathways of PAs and their involvement in various biological process that regulate the embryogenesis are little known in conifers. Inserted in this perspective, the aim of the current work was to study the metabolism of PAs during three seeds development stages (containing the early till late embryogenesis phases) and in proliferation of cell lines with different embryogenic potential of A. angustifolia. Were investigated: a) PAs (free and conjugated) and amino acids profiles; b) determination of preferential pathway for putrescine biosynthesis, through enzymatic activity of arginine decarboxylase (ADC) and ornithine decarboxylase (ODC); c) identification and characterization of gene expression profile of genes related to metabolism of PAs; and d) identification of the relationship between PAs and amino acids profiles in seeds of mother plants, and their potential influence in initiation, proliferation and maturation phases of somatic embryos. During the zygotic embryogenesis, AaADC (arginine decarboxylase) and AaSAMDC (S-adenosylmethionine decarboxylase) genes were up-regulated at cotyledonary stage along with the increasing of PAs. The biosynthesis of putrescine is performed preferentially by ADC pathway, while citrulline was the main amino acid recorded during the seed development. Regarding the metabolism of PAs in embryogenic cultures, the data demonstrated that arginine and ornithine seem to have different functions in each cell line tested. In cell line with high embryogenic potential, arginine seems to be associated to activation of genes related to PAs catabolism (AaPAO2, AaCuAO e AaALDH), while in blocked cell line this effect was not observed. ODC has a higher enzymatic activity in responsive cell line, while in blocked cell line, both ADC and ODC activities are similar. Depending of mother plant, were observed different PAs and amino acids profiles, being these profiles related with the rate of initiation, proliferation and maturation of somatic embryos. Total putrescine, ornithine and asparagine were the differentially metabolites identified between the mother plants, which can be proposed as biochemical marker to select mother plant with high potential to somatic embryogenesis. The results obtained provide relevant and inedited information about the metabolism of PAs and amino acids in zygotic and somatic embryogenesis of A. angustifolia, as well as provide news subsidies for optimization of in vitro conditions for somatic embryos development Araucaria angustifolia Araucaria angustifolia Arginina descarboxilase Arginine decarboxylase Embriogênese somática Embriogênese zigótica Ornithine decarboxylase Ornitina descarboxilase Poliaminas Polyamines Somatic embryogenesis Zygotic embryogenesis
35	Caracterización de ODCp como una nueva proteína inhibidora de antizimias (AZIN2). Aspectos estructurales y funcionales López Contreras, Andrés Joaquín 31 October 2008 (has links) Las poliaminas regulan procesos de crecimiento y diferenciación celular, y su desregulación está relacionada con diferentes patologías incluyendo el cáncer. Las antizimas (AZs) de ornitina descarboxilasa (ODC) inhiben tanto su biosíntesis, como su captación, regulando los niveles intracelulares de poliaminas. En esta tesis se ha caracterizado una nueva proteína inhibidora de antizimas (AZIN2) que posee alta homología con ODC y el inhibidor de antizimas previamente conocido (AZIN1). Esta nueva proteína está desprovista de actividad enzimática, pero es capaz de revertir la acción que las tres antizimas conocidas ejercen sobre la actividad ODC y la captación de poliaminas. A diferencia de sus proteínas homólogas, AZIN2 se localiza subcelularmente en el ERGIC, y se expresa específicamente en cerebro y testículo, pero de forma muy abundante en espermátidas y espermatozoides, al igual que AZ3, indicando que estas dos proteínas juegan un importante papel regulando los niveles de poliaminas durante la espermiogénesis. / Polyamines regulate cell growth and differentiation, and the alteration of their homeostasis is related to different diseases, including cancer. Ornithine decarboxylase (ODC) antizymes (AZs) regulate polyamine levels by inhibiting both their biosynthesis and the cellular uptake. In this work, a new ODC paralogue has been characterized as a novel antizyme inhibitor protein that has been named AZIN2. This protein lacks decarboxylating activity, but it is able to reverse the action of any of the three antizymes on ODC activity and polyamine uptake. Unlike its homologue proteins ODC and AZIN1, AZIN2 is located in the ERGIC, and it is specifically expressed in brain and testes. The abundant expression in spermatids and spermatozoa, concomitantly with AZ3, suggests that both proteins may play an important role in regulating polyamine levels during spermiogenesis Antizymes Ornithine decarboxylase Polyamines Transporte de poliaminas Espermatogénesis Inhibidor de Antizimas Antizimas Ornitina descarboxilasa Poliaminas Antizyme Inhibitor Spermatogenesis Polyamine Transport Bioquímica y Biología Molecular 577
36	100 Jahre Schulzahnklinik Zürich / Sigron, Sabrina Lukretia. January 2009 (has links) Diss. med. dent. Zürich. / Literaturverz.
37	ENVOLVIMENTO DAS POLIAMINAS NO ATAQUE AGUDO DE GOTA EM CAMUNDONGOS / CRITICAL ROLE OF POLYAMINES ON ATTACK ACUTE OF GOUT IN MICE Costa, Fabiano de Vargas da 26 February 2016 (has links) Fundação de Amparo a Pesquisa no Estado do Rio Grande do Sul / Gout attack is characterized severe joint pain and inflammation with concomitant accumulation of monosodium urate (MSU) crystals. However, gout and the mechanisms responsible for the acute attacks are poorly understood, leading to improper treatment of the patient and reducing the quality of life. Polyamines (putrescine, spermidine and spermine) are involved in inflammatory nociceptive processes and have not been investigated to date. Therefore, the aim of the present study was to investigate the involvement of polyamines in the development of acute gout attack. Arthritis score, a compound measure of joint compromise that considers edema formation, erythema and paw position, mechanical hyperalgesia and inflammatory parameters were measured in an acute gout attack model in male mice induced by intra-articular (i.a.) injection of MSU, H2O2, phorbol 12-myristate 13-acetate (PMA), L-ornithine or polyamines (putrescine, spermidine, spermine). All these algogenic agents increased arthritis score in a dose-dependent manner with ED50 of 0.73 (0.4-1.1) mg/site for MSU, 2.3 (1.5-3.5) μmol/site for H2O2, 3.5 (2.1-5.6) nmol/site for PMA, 0.6 (0.3-1.1) μmol/site for L-ornithine, 0.8 (0.4-1.7) μmol/site for putrescine, 3.6 (2.6-5.1) μmol/site for spermidine and 0.1 (0.06-0.2) μmol/site for spermine. All tested algogenic agents caused joint edema and nociception, except putrescine, which increased only arthritis score. α-Difluoromethylornithine (DFMO; ornithine decarboxylase ODC - inhibitor, i.a.) prevented MSU-, H2O2-, PMA-, L-ornithine-induced nociception, but not edema. On the other hand, DFMO did not prevent spermine-induced edema and nociception. DFMO prevented MSU-induced increase of ODC activity. Our results indicate that polyamines contribute to acute gout attacks, suggesting that inhibitors of polyamine synthesis may be potential therapeutic agents for the treatment and prophylaxis of gout. / O ataque agudo de gota é caracterizado por dor intensa e inflamação combinados com o acúmulo de cristais de urato monossódico (MSU). No entanto, a gota e os mecanismos responsáveis pelos ataques agudos ainda estão mal compreendidos, levando ao tratamento inadequado dos pacientes e reduzindo a qualidade de vida. As poliaminas (putrescina, espermidina e espermina) estão envolvidas em processos nociceptivos inflamatórios, e não foram investigadas até o momento, por conseguinte, o objetivo do presente estudo foi investigar o envolvimento das poliaminas no desenvolvimento do ataque de gota aguda em camundongos. Para isso, o escore de artrite (conjunto de somatórios de medidas que considera a formação de edema, eritema e posição da pata tratada do animal), hiperalgesia mecânica e parâmetros inflamatórios foram medidos em um modelo de ataque agudo de gota em camundongos machos, induzidos por uma injeção intra-articular de (i.a.) MSU, H2O2, forbol 12-miristato 13-acetato (PMA), L-ornitina ou poliaminas (putrescina, espermidina, espermina). Todos os agentes algogênicos aumentaram o escore de artrite de um modo dose dependente com um DE50 de 0,73 (0,4-1,1) mg/sitio de MSU, 2,3 (1,5-3,5) μmol/sitio de H2O2, 3,5 (2,1-5,6) nmol/sitio para PMA, 0,6 (0,3-1,1) μmol/sitio para a L-ornitina, 0,8 (0,4-1,7) μmol/sitio para a putrescina, 3,6 (2,6-5,1) μmol/sitio para a espermidina e 0,1 (0,06-0,2) μmol/sitio para espermina. Todos os agentes algogênicos testados causaram edema articular e nocicepção, exceto a putrescina, que aumentou apenas o escore de artrite. α-Difluorometilornitina (DFMO; inibidor da ornitina descarboxilase - ODC) preveniu a nocicepção induzida por: MSU, H2O2, PMA, L-ornitina, mas não o edema. Por outro lado, DFMO não preveniu a nocicepção e o edema induzido por espermina. DFMO preveniu o aumento da atividade da ODC induzido por MSU. Os nossos resultados indicam que as poliaminas estão envolvidas no ataque agudo de gota, sugerindo que os inibidores da síntese de poliaminas podem ser potenciais agentes terapêuticos para o tratamento e profilaxia da gota. Urato monossódico Hiperalgesia mecânica Edema Ornitina descarboxilase Inflamação Escore de artrite Monosodium urate Mechanical hyperalgesia Edema Ornithine decarboxylase Inflammation Arthritis score CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA
38	Chemoprevention for Colorectal Cancer Krishnan, K, Ruffin, M T., Brenner, D E. 01 March 2000 (has links) No description available. adenoma (genetics pathology) animals anti-inflammatory agents non-steroidal (therapeutic use) antioxidants (therapeutic use) apoptosis arachidonic acids (metabolism) bile acids and salts (metabolism) biomarkers calcium (therapeutic use) cell cycle cell transformation neoplastic (chemically induced) clinical trials as topic colonic polyps (genetics pathology) colorectal neoplasms (genetics pathology prevention & control) dna methylation DNA repair (genetics) eflornithine (therapeutic use) enzyme inhibitors (therapeutic use) estrogens (pharmacology therapeutic use) genetic predisposition to disease humans mice ornithine decarboxylase inhibitors patient compliance patient selection polyamines (metabolism) precancerous conditions (metabolism pathology) pyrazines (therapeutic use) rats retinoids (therapeutic use) thiones thiophenes tumor cells cultured vitamins (therapeutic use) Internal Medicine

Search results