Novel capillary and microfluidic devices for biological analyses

Klasner, Scott A.

January 1900

Doctor of Philosophy / Department of Chemistry / Christopher T. Culbertson / As the field of separation science evolves so do the techniques, tools and capabilities of the discipline. The introduction of microfluidics stemmed from a desire to perform traditional analyses faster and on a much smaller scale. The small device sizes exploited in microfluidics permits the investigation of very small volumes of very dilute samples yielding information inaccessible by traditional macroscale techniques. All of the chapters presented in this dissertation illustrate attempts to supplement current microscale techniques with new tools, techniques and analysis schemes for looking at biologically relevant analyses. In chapter two I present the development and characterization of an amphiphilic polymer that has potential as a material for the fabrication of microfluidic devices. This material is composed of a poly(dimethylsiloxane)-poly(ethylene oxide) block copolymer and is dramatically more hydrophilic than the other polymeric materials currently used for the fabrication of microfluidic templates, mainly poly(dimethylsiloxane). Biomolecules such as proteins are notoriously hydrophobic and will tend to adsorb to other hydrophobic surfaces thus the use of a hydrophilic material may serve to reduce or eliminate this problem. The amphiphilic material is of a suitable durability for micromolding and molded channel architectures can be sealed between two layers of the material by simple conformal contact permitting the execution of high speed electrophoretic separations. Chapter three contains initial results obtained while investigating the fluorescent labeling and electrophoretic separation of ecdysteroids. Ecdysteroids are hormones found in insects that are responsible for controlling the process of molting. Here we attempted to analyze these molecules by employing a reactive fluorescent probe, BODIPY FL® hydrazide, that would target the α,β-unsaturated ketone group on the steroid, permitting its analysis by capillary electrophoresis with laser induced fluorescence detection. While optimistic initial results were obtained with the labeling and analysis of similar functional groups on model compounds such as progesterone, labeling of the ecdysteroid molecules was never achieved to a degree that would permit reliable analysis. In chapter four I report the development and use of a microimmunoaffinity column for the analysis of insect serine protease inhibitors, or serpins. These proteins play a very important role in the regulation of insect immune responses and their activity may play an integral role in the effective transmission of the malaria parasite by the mosquito Anopheles gambiae. A microimmunoaffinity column was constructed from magnets, poly(dimethylsiloxane), fused silica capillary and Protein A coated magnetic microspheres. In these initial studies, purified antibodies to serpin protein, as well as purified serpin protein, were used to prepare and investigate the ability to isolate, preconcentrate, and elute serpin proteins for subsequent analysis. By implementing this miniaturized system which incorporates very small fluid volumes we hoped to extend this technique to the analysis of very small samples, and eventually to the analysis of individual small insects. Our work indicates that it is possible to isolate, elute, and detect serpin protein on a traditional western blot membrane. Chapter five presents the development of a novel polymer blend for the fabrication of paper-based microfluidic devices and use of these devices in the performance of diagnostically relevant clinical assays. We took the concept of paper-based microfluidic devices and improved upon the current photoactive polymers used for their fabrication by developing a polymer blend using an acryloxy modified siloxane polymer as well as a commercially available photoactive adhesive, Norland Optical Adhesive 74. This blended polymer resulted in a dramatic reduction in fabrication time as well as improved resolution permitting the reliable patterning of small feature sizes. We also report for the first time a demonstration of these devices performing a two-step spatially separated online chemical derivatization facilitating the analysis of urinary ketones. These devices are predominantly used for the analysis of urine, and their application was extended to the quantitation of nitrite in saliva for the purposes of hemodialysis monitoring. While varied in application, all of the data presented in this dissertation exploits the power of miniaturization to improve current methods of analysis and to extend macroscale techniques to trace biological analytes.

Microfluidics

Immunoaffinity chromatography

Paper-based devices

Ecdysteroids

Poly(dimethylsiloxane)

Photolithography

Chemistry, Analytical (0486)

Ecdysteroid levels and implications for embryonic and post-embryonic development of the blowfly Lucilia cuprina (Wied.) (Diptera:Calliphoridae)

Basuki, Edi, 1957-

January 2000

Abstract not available

Lucilia cuprina -- Morphology

Lucilia cuprina -- Growth

Blowflies -- LarvaeMorphology

Blowflies -- LarvaeGrowth

Ecdysteroids

Untersuchung eines möglichen protektiven Effekts von ß-Ecdyson auf die Haut und die Serumlipide bei Sexualhormonmangel / Analysis of a potential protective effect of ß-Ecdysone on the skin and serum lipids in sex hormone deficiency

Smajlovic, Nadja

22 January 2014

No description available.

610

ß-Ecdyson

ß-Ecdysone

skin

serum lipids

leptin

ecdysteroids

Endokrinologie (PPN619875836)

Steroid-triggered, cell-autonomous programmed cell death of identified Drosophila motoneurons during metamorphosis

Winbush, Ari, 1979-

12 1900

x, 83 p. : ill. (some col.) A print copy of this thesis is available through the UO Libraries. Search the library catalog for the location and call number. / Programmed cell death (PCD) is a critical process during development and maturity of vertebrates and invertebrates. Aberrations in PCD are responsible for numerous developmental abnormalities and diseases in humans. Cell death pathways are surprisingly similar across species, so the study of PCD in simpler organisms such as insects provides important insight into the roles of cell death in higher animals including humans. Metamorphosis of the fruit fly, Drosophila melanogaster , provides an excellent model system in which to study PCD. During metamorphosis, many obsolete larval structures undergo PCD, largely in response to changes in circulating levels of steroid hormones known as ecdysteroids. These effects of ecdysteroids are particularly striking in the nervous system, where many larval neurons undergo PCD or functional remodeling during metamorphosis. One wave of neuronal PCD takes place during the first 24 hours of metamorphosis while a second follows adult emergence. Studies in another insect, Manduca sexta , suggested that the rise in ecdysteroids that initiates metamorphosis, the prepupal pulse, may trigger the first wave of neuronal PCD in Drosophila . This dissertation investigated steroid-regulated neuronal PCD in Drosophila by studying an individually-identified larval motoneuron, RP2. Using molecular genetics, ïmmunocytochemistry and primary cell culture, I showed that abdominal RP2s undergo PCD within the first 24 hours of Drosophila metamorphosis; identified a role for previously-identified PCD genes and ecdysteroid receptors in RP2's demise; and demonstrated that the prepupal pulse of ecdysteroids acts directly and cell-autonomously on RP2s to activate PCD. These experiments advance our understanding of hormonally-induced cell death and its regulation within the developing nervous system. This dissertation includes unpublished co-authored material. / Adviser: Janis C. Weeks

Programmed cell death

Motoneurons

Metamorphosis

Neurodegeneration

Ecdysteroids

Molecular biology

Neurosciences

Genetics

Caracterização morfológica e funcional de sensila gustativa da quelícera de Rhipicephalus sanguineus (Latreille, 1806) (Acari: Ixodidae) / The gustatory sensilla chelicerae of Rhipicephalus sanguineus (Latreille, 1806) (Acari: ixodidae)

Soares, Sara Fernandes

29 February 2012

Submitted by Luanna Matias (lua_matias@yahoo.com.br) on 2015-03-06T16:58:22Z No. of bitstreams: 2 Tese - Sara Fernandes Soares - 2012.pdf: 2842867 bytes, checksum: dff92fa87ddeabaa7f16510a5ac58f11 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Luanna Matias (lua_matias@yahoo.com.br) on 2015-03-06T17:07:16Z (GMT) No. of bitstreams: 2 Tese - Sara Fernandes Soares - 2012.pdf: 2842867 bytes, checksum: dff92fa87ddeabaa7f16510a5ac58f11 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2015-03-06T17:07:16Z (GMT). No. of bitstreams: 2 Tese - Sara Fernandes Soares - 2012.pdf: 2842867 bytes, checksum: dff92fa87ddeabaa7f16510a5ac58f11 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2012-02-29 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / Rhipicephalus sanguineus is an ectoparasite of domestic dogs which can also be found in other mammals, including humans. It has high medical and veterinary importance, given that it can transmit pathogens that cause diseases such as Rocky Mountain spotted fever and Boutonneuse fever in humans and babesiosis and ehrlichiosis in dogs. The main control method to this tick is the use of chemical acaricides which, over the years, has selected resistant tick populations to these products. To develop strategies to control this tick, it is necessary to know its ecology. Electrophysiological techniques are important tools in the study of substances that interfere with the behavior of animals. In this study, the existence of gustatory sensilla on the chelicerae of R. sanguineus was investigated by scanning electron microscopy (SEM). Also, the electrophysiological responses of the neurons present in this sensilla in nonfed ticks to substances with the potential to act as phagostimulant, such as salts (KCl and NaCl), sugars (glucose, sucrose and fructose), the nucleotide adenosine triphosphate (ATP), the tripeptide reduced glutathione (GSH) and two purine (guanine and hypoxanthine) were assessed. Phytoecdysteroids (PES), compounds analogous to ecdysteroids, known as the molting hormones in arthropods, were also tested in electrophysiology. The PES ecdysone (E), 20-hidroxyecdysone (20E), ponasterone A (PonA), makisterone A (MakA), inokosterone (Inok) and Pterosterone (Pte) were tested on nonfed and fed ticks. To evaluate the influence the PEs identified as active in electrophysiology on feeding behavior of R. sanguineus, attachment bioassays in vivo were proceeded. The images obtained with SEM revealed the existence of a pore in the inner digit of the chelicerae, involved in taste perception in these ticks. The results obtained in electrophysiology showed strong activity of R. sanguineus cheliceral neurons to glucose and GSH, at concentrations above 10-4 M, to ATP from 10-2 M, and salts from 10-1 M. The action potentials observed in response to ATP at all used concentrations (from 10-6 M to 10-2 M), and to KCl at 1 M were from different neurons, while the action potentials to the other potentially phagostimulant stimuli were from a single neuron. Considering the responses to PEs in nonfed ticks, MakA and Pte triggered action potentials frequencies greater than the negative control, with detection thresholds of 10-6 M and 10-12 M, respectively. The action potentials amplitudes for these substances as well as for 20E and PonA were higher than those for the control, indicating the activity of a different neuron from that observed for the negative control. In fed ticks, only Pte at 10-4 M remained active. In the behavior assays, there was no difference in attachment between PEs and the control and no interference in the biological parameters was observed. The results obtained in this study showed the ability of R. sanguineus to detect in their cheliceral taste sensilla substances with different natures, as potential phagostimulants and PEs. Further studies in this area are needed to elucidate the role of these substances in the chemical ecology of these ticks. / Rhipicephalus sanguineus é um ectoparasita de cães domésticos, também encontrado em outros mamíferos, inclusive no homem. Tem elevada importância nas medicinas humana e veterinária, podendo transmitir agentes patogênicos causadores de doenças, como as febres botonosa e maculosa em humanos e a babesiose e a erliquiose em cães. Seu controle é feito com o uso de acaricidas químicos, o que, ao longo do tempo, selecionou populações deste carrapato resistentes a estes produtos. Para a elaboração de estratégias de controle deste carrapato é necessário conhecer sua ecologia. Técnicas eletrofisiológicas são ferramentas importantes na identificação de substâncias que interferem no comportamento de animais. Neste trabalho foi investigada a existência de sensilas gustativas nas quelíceras de R. sanguineus por meio da microscopia eletrônica de varredura (MEV). Também se avaliou a resposta eletrofisiológica dos neurônios destas sensilas, em carrapatos não alimentados, a substâncias com potencial para efeito fagoestimulante, tais como sais (KCl e NaCl), açúcares (glicose, sacarose e frutose), o nucleotídeo trifosfato de adenosina (ATP) e o tripeptídeo glutationa reduzida (GSH), assim como purinas (guanina e hipoxantina). Fitoecdisteróides (FES), compostos análogos aos ecdisteróides, conhecidos como hormônios da muda em artrópodes, foram igualmente avaliados pela eletrofisiologia. Foram empregados carrapatos antes e após a alimentação e os seguintes FEs: ecdisona (E), 20-hidroxiecdisona (20E), ponasterona A (PonA), makisterona A (MakA), inokosterona (Inok) e pterosterona (Pte). Para avaliar a interferência, no comportamento de alimentação de R. sanguineus, dos FEs que foram identificados ativos na eletrofisiologia, foram empregados testes de fixação in vivo. As imagens obtidas com a MEV evidenciaram a existência de um poro no dígito interno das quelíceras, envolvido na percepção gustativa, nesses carrapatos. Os resultados obtidos com a eletrofisiologia revelaram forte atividade de neurônios quelicerais de R. sanguineus à glicose e à GSH, em concentrações acima de 10-4 M, ao ATP, a partir de 10-2 M, e aos sais a partir de 10-1 M. Os potenciais de ação observados em resposta ao estímulo com ATP, em todas as concentrações empregadas (de 10-6 M a 10-2 M), e ao KCl a 1 M foram oriundos de diferentes neurônios, enquanto que aos demais estímulos potencialmente fagoestimulantes foram provenientes de um único neurônio. Quanto aos FEs, em carrapatos não alimentados, MakA e Pte desencadearam frequências de potenciais de ação superiores ao controle negativo, com limiares de detecção de 10-6 M e 10-12 M, respectivamente. As amplitudes dos potenciais de ação para estas substâncias bem como para 20E e PonA foram maiores que as do controle, indicando a atividade de um neurônio diferente do observado para o controle negativo. Nos carrapatos após alimentação, somente Pte à 10-4M permaneceu ativa. Nos testes comportamentais, não houve diferença de fixação entre os tratamentos com FEs e com o controle negativo e nem interferência do FEs nos parâmetros biológicos avaliados. Os resultados obtidos no presente estudo evidenciaram a capacidade de R. sanguineus em detectar, em suas sensilas gustativas quelicerais, substâncias de diferentes naturezas, como potenciais fagoestimulantes e FEs. Mais estudos nesta área são necessários visando esclarecer o papel destas substâncias na ecologia química destes carrapatos.

ATP

Ecdisteróides

Ecdisona

Glicose

GSH

Spikes

Ecdysteroids

Ecdysone

Glucose

Spikes

Presença do sistema melatoninégico e seu papel no ciclo de muda do siri-azul Callinectes sapidus (Crustacea Brachyura) / Presence of the melatoninergic system and its role in the molt cycle of the blue crab Callinectes sapidus (Crustacea Brachyura).

David, Daniela Dantas

19 June 2018

Uma das marcantes características morfológicas e funcionais dos crustáceos e de outros artrópodes é a presença de um exoesqueleto que cria uma barreira física para o crescimento desses animais. Nos crustáceos, a muda é um evento cíclico, dividido em 5 estágios, e um deles compreende a troca desse exoesqueleto, permitindo o aumento de tamanho. O início, período e a frequência do ciclo de muda dependem da idade e do sexo do animal e de fatores ambientais e fisiológicos. Hormônios como os ecdiesteróides e o hormônio inibidor da muda produzidos e secretados pelos órgãos Y e X, respectivamente, atuam diretamente no ciclo de muda, porém outros hormônios podem regular, de forma positiva ou negativa, este processo. A melatonina é um hormônio encontrado amplamente no reino animal, porém em crustáceos, diferentemente do que ocorre nos vertebrados, a sua síntese e secreção não estão relacionadas com a presença ou ausência de luz, e seu papel na muda tem sido pouco investigado. Os animais foram aclimatados no laboratório à temperatura 22±2 °C e ciclo claro-escuro 12h:12h LD, sendo os experimentos realizados nesta mesma condição. Considerando o acima exposto, os objetivos do presente trabalho foram (1) verificar a produção de melatonina no siri azul Callinectes sapidus, através da investigação da expressão das enzimas AANAT e ASMT no pedúnculo óptico e hepatopâncreas, bem como os níveis hemolinfáticos da indolamina; (2) avaliar se existe um perfil oscilatório diário na expressão gênica dos fatores relacionados com a muda, CasMIH e CasEcR1; (3) verificar se a manipulação com melatonina exógena influencia essa expressão. Para isso, técnicas de imunohistoquímica, citometria de fluxo, ensaio imunoenzimático e PCR quantitativo foram empregadas. Nossos resultados demonstraram uma oscilação dos níveis hemolinfáticos de melatonina em siris em pré-muda, com pico às 8 horas; entretanto, no estágio de intermuda os níveis deste hormônio foram menores e constantes ao longo de 24 horas. Não pudemos comprovar a presença das enzimas da via de síntese da melatonina, uma vez que os anticorpos utilizados não apresentaram homologia às proteínas de C. sapidus. Quanto à expressão gênica, uma oscilação diária semelhante nos transcritos dos genes CasMIH e CasEcR1 ocorreu no hepatopâncreas, independente do estágio de muda. No pedúnculo óptico a oscilação dos genes em questão também foi semelhante, mas apenas na pré-muda; na intermuda houve entre eles uma relação de anti-fase. A administração de melatonina exógena (10-7 mol/siri) levou à inibição da expressão dos genes em relação ao controle: no caso de CasMIH foi de 99,7% no pedúnculo óptico e 100% no hepatopâncreas e o CasEcR1 sofreu inibição de 77% no pedúnculo óptico e 99% no hepatopâncreas. A presença de melatonina na hemolinfa é um forte indício de que o animal a sintetiza e pode estar atuando no ciclo de muda, uma vez que a administração deste hormônio inibiu a transcrição dos genes relacionados ao processo. Diante disso, fica mais clara a relevância de entender a flutuação de hormônios que não estão classicamente envolvidos no ciclo de muda, essencial para o crescimento dos crustáceos, mas que podem apresentar a função de regular este processo, como a melatonina. Ademais, a melatonina poderá ser uma boa ferramenta a ser utilizada no cultivo do siri-azul, como agente indutor da redução do período de intermuda levando à uma ecdise precoce / One of the remarkable morphological and functional features of crustaceans and other arthropods is the presence of an exoskeleton that creates a physical barrier for the animal growth. In crustaceans, molting is a cyclic event usually divided into five stages, one of them comprising the exoskeleton exchange what thus allows the increase in size. The onset, period, and frequency of the molt cycle depend on the animal age and sex, as well as on environmental and physiological factors. Hormones such as ecdysteroids and the molt-inhibiting hormone produced and secreted by the Y- and X- organ, respectively, exert direct effects on the molt cycle. Nevertheless, other hormones are known to positively or negatively regulate this process, such as melatonin. Melatonin is a hormone widely found in the animal kingdom, but in crustaceans, differently from what happens in vertebrates, its synthesis and secretion are not regulated by the presence or absence of light. In fact, its role in the molting process has been poorly investigated. The animals were acclimated in the laboratory at 22±2 °C and light-dark cycle 12h:12h LD, and the experiments were performed under the same condition. Considering the above, the objectives of this study were to: 1) verify the production of melatonin in the blue crab Callinectes sapidus, through the evaluation of the expression of key enzymes involved in the synthesis of melatonin, AANAT and ASMT, in the eyestalk and hepatopancreas, as well as melatonin levels in the hemolymph; 2) evaluate whether there exists a daily oscillatory profile in gene expression of the related molt factors, CasMIH and CasEcR1; (3) whether the exogenous melatonin influences the expression of the latter genes. To achieve these goals, immunohistochemistry, flow cytometry, immunoenzymatic assay, and quantitative PCR techniques were used. Our results demonstrated an oscillation of the hemolymphatic levels of melatonin in premolt crabs, peaking at 8 AM; however, in the intermolt stage, the levels of this hormone were smaller and constant along 24 hours. We were not able to show the presence of the enzymes involved in melatonin synthesis, since the antibodies used had no homology with C. sapidus proteins. We also demonstrated a daily oscillatory profile of CasMIH and CasEcR1 transcripts in hepatopancreas independently of the molt stage. In the eyestalk the oscillatory profile of both genes was also similar, but only in the premolt stage; in intermolt, an antiphase relationship between both genes was found. The exogenous administration of melatonin (10-7 mol/crab) inhibited the expression of CasMIH by 99.7 and 100% in eyestalk and hepatopancreas, respectively, whereas CasEcR1 was inhibited by 77% and 99%, in the eyestalk and hepatopancreas, respectively, compared to saline-treated animals. The presence of melatonin in the hemolymph is a reliable indicator that the animal synthesizes the hormone, and thus melatonin may influence the molt cycle since it inhibited the expression of molt-related genes. Therefore, the relevance of understanding the oscillation of hormones that are not classically involved in the molt cycle - essential for crustacean growth - but which can regulate the process, becomes evident. From an economic standpoint, melatonin may be a useful tool in culturing blue crab, which ultimately can shorten the intermolt stage period leading to an early ecdysis

Callinectes sapidus

Callinectes sapidus

Ciclo de muda

Ecdysteroids receptors

Hormônio inibidor da muda

Melatonin

Melatonina

Molt cycle

Molt-inhibiting hormone

Receptor de ecdisteróides

Presença do sistema melatoninégico e seu papel no ciclo de muda do siri-azul Callinectes sapidus (Crustacea Brachyura) / Presence of the melatoninergic system and its role in the molt cycle of the blue crab Callinectes sapidus (Crustacea Brachyura).

Daniela Dantas David

19 June 2018

Uma das marcantes características morfológicas e funcionais dos crustáceos e de outros artrópodes é a presença de um exoesqueleto que cria uma barreira física para o crescimento desses animais. Nos crustáceos, a muda é um evento cíclico, dividido em 5 estágios, e um deles compreende a troca desse exoesqueleto, permitindo o aumento de tamanho. O início, período e a frequência do ciclo de muda dependem da idade e do sexo do animal e de fatores ambientais e fisiológicos. Hormônios como os ecdiesteróides e o hormônio inibidor da muda produzidos e secretados pelos órgãos Y e X, respectivamente, atuam diretamente no ciclo de muda, porém outros hormônios podem regular, de forma positiva ou negativa, este processo. A melatonina é um hormônio encontrado amplamente no reino animal, porém em crustáceos, diferentemente do que ocorre nos vertebrados, a sua síntese e secreção não estão relacionadas com a presença ou ausência de luz, e seu papel na muda tem sido pouco investigado. Os animais foram aclimatados no laboratório à temperatura 22±2 °C e ciclo claro-escuro 12h:12h LD, sendo os experimentos realizados nesta mesma condição. Considerando o acima exposto, os objetivos do presente trabalho foram (1) verificar a produção de melatonina no siri azul Callinectes sapidus, através da investigação da expressão das enzimas AANAT e ASMT no pedúnculo óptico e hepatopâncreas, bem como os níveis hemolinfáticos da indolamina; (2) avaliar se existe um perfil oscilatório diário na expressão gênica dos fatores relacionados com a muda, CasMIH e CasEcR1; (3) verificar se a manipulação com melatonina exógena influencia essa expressão. Para isso, técnicas de imunohistoquímica, citometria de fluxo, ensaio imunoenzimático e PCR quantitativo foram empregadas. Nossos resultados demonstraram uma oscilação dos níveis hemolinfáticos de melatonina em siris em pré-muda, com pico às 8 horas; entretanto, no estágio de intermuda os níveis deste hormônio foram menores e constantes ao longo de 24 horas. Não pudemos comprovar a presença das enzimas da via de síntese da melatonina, uma vez que os anticorpos utilizados não apresentaram homologia às proteínas de C. sapidus. Quanto à expressão gênica, uma oscilação diária semelhante nos transcritos dos genes CasMIH e CasEcR1 ocorreu no hepatopâncreas, independente do estágio de muda. No pedúnculo óptico a oscilação dos genes em questão também foi semelhante, mas apenas na pré-muda; na intermuda houve entre eles uma relação de anti-fase. A administração de melatonina exógena (10-7 mol/siri) levou à inibição da expressão dos genes em relação ao controle: no caso de CasMIH foi de 99,7% no pedúnculo óptico e 100% no hepatopâncreas e o CasEcR1 sofreu inibição de 77% no pedúnculo óptico e 99% no hepatopâncreas. A presença de melatonina na hemolinfa é um forte indício de que o animal a sintetiza e pode estar atuando no ciclo de muda, uma vez que a administração deste hormônio inibiu a transcrição dos genes relacionados ao processo. Diante disso, fica mais clara a relevância de entender a flutuação de hormônios que não estão classicamente envolvidos no ciclo de muda, essencial para o crescimento dos crustáceos, mas que podem apresentar a função de regular este processo, como a melatonina. Ademais, a melatonina poderá ser uma boa ferramenta a ser utilizada no cultivo do siri-azul, como agente indutor da redução do período de intermuda levando à uma ecdise precoce / One of the remarkable morphological and functional features of crustaceans and other arthropods is the presence of an exoskeleton that creates a physical barrier for the animal growth. In crustaceans, molting is a cyclic event usually divided into five stages, one of them comprising the exoskeleton exchange what thus allows the increase in size. The onset, period, and frequency of the molt cycle depend on the animal age and sex, as well as on environmental and physiological factors. Hormones such as ecdysteroids and the molt-inhibiting hormone produced and secreted by the Y- and X- organ, respectively, exert direct effects on the molt cycle. Nevertheless, other hormones are known to positively or negatively regulate this process, such as melatonin. Melatonin is a hormone widely found in the animal kingdom, but in crustaceans, differently from what happens in vertebrates, its synthesis and secretion are not regulated by the presence or absence of light. In fact, its role in the molting process has been poorly investigated. The animals were acclimated in the laboratory at 22±2 °C and light-dark cycle 12h:12h LD, and the experiments were performed under the same condition. Considering the above, the objectives of this study were to: 1) verify the production of melatonin in the blue crab Callinectes sapidus, through the evaluation of the expression of key enzymes involved in the synthesis of melatonin, AANAT and ASMT, in the eyestalk and hepatopancreas, as well as melatonin levels in the hemolymph; 2) evaluate whether there exists a daily oscillatory profile in gene expression of the related molt factors, CasMIH and CasEcR1; (3) whether the exogenous melatonin influences the expression of the latter genes. To achieve these goals, immunohistochemistry, flow cytometry, immunoenzymatic assay, and quantitative PCR techniques were used. Our results demonstrated an oscillation of the hemolymphatic levels of melatonin in premolt crabs, peaking at 8 AM; however, in the intermolt stage, the levels of this hormone were smaller and constant along 24 hours. We were not able to show the presence of the enzymes involved in melatonin synthesis, since the antibodies used had no homology with C. sapidus proteins. We also demonstrated a daily oscillatory profile of CasMIH and CasEcR1 transcripts in hepatopancreas independently of the molt stage. In the eyestalk the oscillatory profile of both genes was also similar, but only in the premolt stage; in intermolt, an antiphase relationship between both genes was found. The exogenous administration of melatonin (10-7 mol/crab) inhibited the expression of CasMIH by 99.7 and 100% in eyestalk and hepatopancreas, respectively, whereas CasEcR1 was inhibited by 77% and 99%, in the eyestalk and hepatopancreas, respectively, compared to saline-treated animals. The presence of melatonin in the hemolymph is a reliable indicator that the animal synthesizes the hormone, and thus melatonin may influence the molt cycle since it inhibited the expression of molt-related genes. Therefore, the relevance of understanding the oscillation of hormones that are not classically involved in the molt cycle - essential for crustacean growth - but which can regulate the process, becomes evident. From an economic standpoint, melatonin may be a useful tool in culturing blue crab, which ultimately can shorten the intermolt stage period leading to an early ecdysis

Callinectes sapidus

Ciclo de muda

Hormônio inibidor da muda

Melatonina

Receptor de ecdisteróides

Callinectes sapidus

Ecdysteroids receptors

Melatonin

Molt cycle

Molt-inhibiting hormone

Proteomic Analysis of the Crustacean Molting Gland (Y-organ) Over the Course of the Molt Cycle

Head, Talia B.

01 September 2017

Molting in crustaceans is a highly complex physiological process involving negative regulation by two paired endocrine glands, the X-organ/sinus gland complex (XO/SG) and the Y-organ (YO). The XO/SG complex is responsible for making molt-inhibiting hormone (MIH) which negatively regulates synthesis of the molting hormones, ecdysteroids, by the YO. Analysis of gene expression in the XOs and YOs has led to the development of a proposed molecular signaling pathway which regulates ecdysteroidogenesis and subsequent molting in crustaceans. In this study, changes in protein abundance in the YO were characterized over the course of a molt cycle (intermolt, early premolt, mid premolt, and late premolt) induced by multiple leg autotomy (MLA) in the blackback land crab, Gecarcinus lateralis. In all, 457 distinct protein spots were detected in the molting gland using two-dimensional gel electrophoresis, of which 230 (50%) changed significantly in abundance over the course of the molt cycle (one-way permutation ANOVA, p≤0.05). Changes in protein abundance were most notable between the intermolt and the three premolt stages, indicative of a biological ‘on-off’ switch in the Y-organ. Several hemolymph species proteins, including hemocyanin, cryptocyanin, and transglutaminase, were identified which characterized physiological changes associated with molting beyond the Y-organ. An abundance of cytoskeletal proteins were identified which correspond with glandular hypertrophy and are indicative of vesicular-mediated exocytosis, possibly of ecdysteroids. Further, several proteins involved in the immune, proteostasis, and oxidative stress response are characteristic of supporting the dynamic and demanding cellular changes associated with ecdysteroidogenesis and the transition of the Y-organ from the basal to the highly active state. Many proteins involved in energetic pathways including glycolysis, the citric acid cycle, amino acid metabolism, and one-carbon metabolism changed in abundance in response to both the higher energy demands and the requirement for precursors of macromolecular synthesis of the YO over the molt cycle. Taken together, these changes in diverse physiological pathways represent the complexity involved with regulation of the Y-organ, even with just the single proposed physiological purpose of ecdysteroidogenesis.

Gecarcinus lateralis

molting

Y-organ

energy metabolism

proteomics

ecdysteroids

Animal Experimentation and Research

Biology

Cell and Developmental Biology

Cell Biology

Cellular and Molecular Physiology

Endocrinology

Integrative Biology

Life Sciences

Genetická variabilita v růstových, reprodukčních a fotosyntetických charakteristikách rostlin a její změny v důsledku aplikace steroidů / Genetic variability in growth, reproductive and photosynthetic parameters of plants and its changes by exogenously applied steroids

Rothová, Olga

January 2014

While animal steroid hormones are very well known and have been studied for a long time, in plants no steroid substances were known until relatively recently. Only in the second half of the past century brassinosteroids were discovered; later on, their hormonal function in plants was confirmed. Still a lot of unknown remains as regards their function in plant cells. This paper presents in its first part the evidence that brassinosteroids control in maize (Zea mays L.) grown under field conditions not only its morphology and yield but also some developmental/reproduction characteristics like e.g. number of female inflorescences or speed of the development of male inflorescences. Particular response of a plant depends, however, on the type of applied brassinosteroid, its concentration, and last but not least also on a particular maize genotype and developmental stage of the plant during applicatin. Impact of brassinosteroids on primary photosynthetic processes in plants has not been proven under these conditions, neither on the activity of photosystem (PS) I nor on the Hill reaction. No statistically significant differences in the content of photosynthetic pigments have been found either. Another topic dealt with in this thesis is the possible protective influence of brassinosteroids on plants...