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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

Estudo da interação entre fitocromo e hormônios vegetais no controle do desenvolvimento / Analysis of the interactions between phytochrome and plant hormones in plant development

Carvalho, Rogério Falleiros 24 January 2008 (has links)
Muitas respostas moduladas pela luz durante o desenvolvimento das plantas também são reguladas por hormônios vegetais, levando à hipótese da interação entre ambos os fatores. Uma ferramenta valiosa para testar tal interação seria o uso de mutantes fotomorfogenéticos e hormonais, bem como duplos mutantes combinando ambos. Em tomateiro, embora sejam disponíveis mutantes com alterações na biossíntese de fotorreceptores e/ou na transdução do sinal da luz, bem como mutantes no metabolismo e/ou sensibilidade hormonal, esses estão presentes em cultivares diferentes, o que pode limitar seu uso de modo integrado e a construção de duplos mutantes. No presente trabalho, foram introgredidas em uma única cultivar de tomateiro, Micro-Tom (cv. MT), dezenove mutações afetando a biossíntese ou a resposta a fitocromo, bem como aos hormônios auxina (AUX), citocinina (CK), giberelina (GA), ácido abscísico (ABA), etileno (ET) e brassinoesteróides (BR). Tomando-se vantagem de tal coleção, duas respostas notadamente controladas tanto pela luz quanto por hormônios foram estudadas: alongamento e acúmulo de antocianinas em hipocótilos. Para tal, foram utilizadas as seguintes abordagens: i) tratamentos exógenos de diferentes classes hormonais em mutantes fotomorfogenéticos, ii) observação de hipocótilos de mutantes hormonais crescidos na luz e no escuro, iii) observação de duplos mutantes combinando mutações hormonais e fotomorfogenéticas. Assim, o acúmulo de antocianinas foi promovido pela CK e ABA e inibido pela GA, concordando com a redução no mutante deficiente em ABA (notabilis ou not) e no mutante hipersensível à GA (procera ou pro). Apesar do mutante com baixa sensibilidade à AUX (diageotropica ou dgt) acumular exageradamente antocianinas, a aplicação exógena não evidenciou o papel da AUX, sendo, porém, coerente com a sugestão de que esse mutante possui um balanço AUX/CK voltado para CK. Tanto a aplicação exógena quanto a avaliação nos mutantes epinastic (epi), super produção de ET, e Never ripe (Nr), baixa sensibilidade ao ET, sugerem uma função limitada desse hormônio na biossíntese de antocianinas. Na luz e no escuro, AUX, CK, ABA e ET exógenos resultaram na inibição do alongamento do hipocótilo, sendo coerente com a promoção em dgt (luz), promoção em sit (luz), inibição em epi (luz e escuro). Por outro lado, GA promoveu o alongamento corroborando a promoção em pro. Contrariando o efeito exógeno da CK, brt reduziu o alongamento na luz e no escuro. No escuro, o único mutante que apresentou alongamento do hipocótilo superior a MT foi o mutante deficiente na biossíntese do phy (aurea ou au). A utilização de duplos mutantes combinando phy- e alterações hormonais mostrou uma interação aditiva (au epi, au Nr, au dgt e au sit), sinergística (au pro) e epinástica (au brt) no acúmulo de antocianinas e alongamento do hipocótilo na luz, porém nessa última resposta, au dgt e au sit indicaram uma interação sinergística. Juntos, esses resultados indicam que, embora phy possui vias distintas da AUX, ET, ABA e GA no controle do acúmulo de antocianinas e alongamento do hipocótilo, parece que esse fotorreceptor partilha vias comuns com CK em ambas as respostas. / Many responses regulated by light during plant development are also regulated by plant hormones, suggesting an interaction between these factors. One important approach to test this hypothesis is the use of photomorphogenic and hormonal mutants and double mutant analysis. Mutants with altered photoreceptor biosynthesis, light signal transduction, hormonal metabolism and hormonal sensitivity are available in tomato. However, since they are in different cultivars, this can be a limitation for their use in a comprehensive study, as well as, for the construction of double mutants. In this work we performed the introgression of nineteen mutations in a single cultivar of tomato, Micro- Tom (cv. MT). These mutations affect biosynthesis or response to phytochrome (phy), auxin (AUX), cytokinin (CK), gibberellin (GA), abscisic acid (ABA), ethylene (ET) and brassinosteroid (BR). Using this collection of hormone mutants, we studied two responses which are controlled by light and hormones: elongation and anthocyanin accumulation in hypocotyls. For this purpose, we used three approaches: i) hormonal treatment in the photomorphogenic mutants, ii) measurement of hypocotyl lengths from hormonal mutants grown under light and dark conditions and iii) double mutant (photomorphogenic-hormonal) analysis. Anthocyanin accumulation was promoted by CK and ABA and inhibited by GA. This is in accordance with the reduction of anthocyanin accumulation in the ABA deficient mutant (not) and in the GA hypersensitive mutant (pro). Although the diageotropica (dgt), auxin-insensitive mutant, showed a high anthocyanin accumulation, the addition of auxin did not supported a role for this hormone in anthocyanin accumulation. On the other hand, this could be due to a low auxin-tocytokinin ratio presented by dgt. Data from mutants with altered metabolism and sensitivity of ethylene, epinastic (epi) and Never ripe (Nr) respectively, and from plants treated with this hormone suggest a limited role of ethylene in the anthocyanin biosynthesis. Exogenous AUX, CK, ABA and ET inhibited the hypocotyl elongation. This is coherent with the promotion of hypocotyl elongation in dgt and sit mutants under light conditions and inhibition of hypocotyl elongation in the epi mutant in the light and dark. On the other hand, GA promoted the hypocotyl elongation corroborating the same effect seen in pro. The brt mutant showed a reduced hypocotyl elongation in light and dark conditions, which contradicts the effect of exogenous cytokinin. The phytochromedeficient aurea (au) mutant was the only one to show an enhanced hypocotyl elongation in the dark compared to the wild type (MT). The combination between photomorphogenic and hormonal mutants (double mutants) showed additive (au epi, au Nr, au dgt e au sit), synergistic (au pro) and epistatic (au brt) interactions considering the anthocyanin accumulation and hypocotyl elongation. Synergistic interaction was observed in the elongation hypocotyl of the au dgt and au sit double mutants. These results indicate that phy and CK may share some signaling/metabolic pathways in the control of anthocyanin accumulation and hypocotyl elongation. On the other hand, our data do not support an interaction between phy and the hormones AUX, ET, ABA and GA in the control of hypocotyls elongation or anthocyanin accumulation.
42

Estudo da interação entre fitocromo e hormônios vegetais no controle do desenvolvimento / Analysis of the interactions between phytochrome and plant hormones in plant development

Rogério Falleiros Carvalho 24 January 2008 (has links)
Muitas respostas moduladas pela luz durante o desenvolvimento das plantas também são reguladas por hormônios vegetais, levando à hipótese da interação entre ambos os fatores. Uma ferramenta valiosa para testar tal interação seria o uso de mutantes fotomorfogenéticos e hormonais, bem como duplos mutantes combinando ambos. Em tomateiro, embora sejam disponíveis mutantes com alterações na biossíntese de fotorreceptores e/ou na transdução do sinal da luz, bem como mutantes no metabolismo e/ou sensibilidade hormonal, esses estão presentes em cultivares diferentes, o que pode limitar seu uso de modo integrado e a construção de duplos mutantes. No presente trabalho, foram introgredidas em uma única cultivar de tomateiro, Micro-Tom (cv. MT), dezenove mutações afetando a biossíntese ou a resposta a fitocromo, bem como aos hormônios auxina (AUX), citocinina (CK), giberelina (GA), ácido abscísico (ABA), etileno (ET) e brassinoesteróides (BR). Tomando-se vantagem de tal coleção, duas respostas notadamente controladas tanto pela luz quanto por hormônios foram estudadas: alongamento e acúmulo de antocianinas em hipocótilos. Para tal, foram utilizadas as seguintes abordagens: i) tratamentos exógenos de diferentes classes hormonais em mutantes fotomorfogenéticos, ii) observação de hipocótilos de mutantes hormonais crescidos na luz e no escuro, iii) observação de duplos mutantes combinando mutações hormonais e fotomorfogenéticas. Assim, o acúmulo de antocianinas foi promovido pela CK e ABA e inibido pela GA, concordando com a redução no mutante deficiente em ABA (notabilis ou not) e no mutante hipersensível à GA (procera ou pro). Apesar do mutante com baixa sensibilidade à AUX (diageotropica ou dgt) acumular exageradamente antocianinas, a aplicação exógena não evidenciou o papel da AUX, sendo, porém, coerente com a sugestão de que esse mutante possui um balanço AUX/CK voltado para CK. Tanto a aplicação exógena quanto a avaliação nos mutantes epinastic (epi), super produção de ET, e Never ripe (Nr), baixa sensibilidade ao ET, sugerem uma função limitada desse hormônio na biossíntese de antocianinas. Na luz e no escuro, AUX, CK, ABA e ET exógenos resultaram na inibição do alongamento do hipocótilo, sendo coerente com a promoção em dgt (luz), promoção em sit (luz), inibição em epi (luz e escuro). Por outro lado, GA promoveu o alongamento corroborando a promoção em pro. Contrariando o efeito exógeno da CK, brt reduziu o alongamento na luz e no escuro. No escuro, o único mutante que apresentou alongamento do hipocótilo superior a MT foi o mutante deficiente na biossíntese do phy (aurea ou au). A utilização de duplos mutantes combinando phy- e alterações hormonais mostrou uma interação aditiva (au epi, au Nr, au dgt e au sit), sinergística (au pro) e epinástica (au brt) no acúmulo de antocianinas e alongamento do hipocótilo na luz, porém nessa última resposta, au dgt e au sit indicaram uma interação sinergística. Juntos, esses resultados indicam que, embora phy possui vias distintas da AUX, ET, ABA e GA no controle do acúmulo de antocianinas e alongamento do hipocótilo, parece que esse fotorreceptor partilha vias comuns com CK em ambas as respostas. / Many responses regulated by light during plant development are also regulated by plant hormones, suggesting an interaction between these factors. One important approach to test this hypothesis is the use of photomorphogenic and hormonal mutants and double mutant analysis. Mutants with altered photoreceptor biosynthesis, light signal transduction, hormonal metabolism and hormonal sensitivity are available in tomato. However, since they are in different cultivars, this can be a limitation for their use in a comprehensive study, as well as, for the construction of double mutants. In this work we performed the introgression of nineteen mutations in a single cultivar of tomato, Micro- Tom (cv. MT). These mutations affect biosynthesis or response to phytochrome (phy), auxin (AUX), cytokinin (CK), gibberellin (GA), abscisic acid (ABA), ethylene (ET) and brassinosteroid (BR). Using this collection of hormone mutants, we studied two responses which are controlled by light and hormones: elongation and anthocyanin accumulation in hypocotyls. For this purpose, we used three approaches: i) hormonal treatment in the photomorphogenic mutants, ii) measurement of hypocotyl lengths from hormonal mutants grown under light and dark conditions and iii) double mutant (photomorphogenic-hormonal) analysis. Anthocyanin accumulation was promoted by CK and ABA and inhibited by GA. This is in accordance with the reduction of anthocyanin accumulation in the ABA deficient mutant (not) and in the GA hypersensitive mutant (pro). Although the diageotropica (dgt), auxin-insensitive mutant, showed a high anthocyanin accumulation, the addition of auxin did not supported a role for this hormone in anthocyanin accumulation. On the other hand, this could be due to a low auxin-tocytokinin ratio presented by dgt. Data from mutants with altered metabolism and sensitivity of ethylene, epinastic (epi) and Never ripe (Nr) respectively, and from plants treated with this hormone suggest a limited role of ethylene in the anthocyanin biosynthesis. Exogenous AUX, CK, ABA and ET inhibited the hypocotyl elongation. This is coherent with the promotion of hypocotyl elongation in dgt and sit mutants under light conditions and inhibition of hypocotyl elongation in the epi mutant in the light and dark. On the other hand, GA promoted the hypocotyl elongation corroborating the same effect seen in pro. The brt mutant showed a reduced hypocotyl elongation in light and dark conditions, which contradicts the effect of exogenous cytokinin. The phytochromedeficient aurea (au) mutant was the only one to show an enhanced hypocotyl elongation in the dark compared to the wild type (MT). The combination between photomorphogenic and hormonal mutants (double mutants) showed additive (au epi, au Nr, au dgt e au sit), synergistic (au pro) and epistatic (au brt) interactions considering the anthocyanin accumulation and hypocotyl elongation. Synergistic interaction was observed in the elongation hypocotyl of the au dgt and au sit double mutants. These results indicate that phy and CK may share some signaling/metabolic pathways in the control of anthocyanin accumulation and hypocotyl elongation. On the other hand, our data do not support an interaction between phy and the hormones AUX, ET, ABA and GA in the control of hypocotyls elongation or anthocyanin accumulation.
43

Fotomorfogeneze: vliv světla na procesy vývoje rostlin ve výuce biologie na školách / Fotomorfogeneze: the effects of irradiation on plant development in the eductational programs of basic schools and highschools

Sedlecký, Libor January 2013 (has links)
The main aim of this diploma thesis was creation of functional experiments and supporting teaching materials for high school students which would clearly demonstrate the processes of photomorphogenesis in plants. Proposed experiments had to be verified in practice on the basis of their reliability, repeatability and reproducibility in schools. It was necessary to drew up the educational materials for each experiment focused on observation of photomorphogenesis plant's reactions. These materials give students the basics of scientific work and specifically they increase the interest in experimental plant biology. The first part of the thesis is literary introduction that provides the theoretical background to the topic of photomorphogenesis for teachers. It summarizes the current of the art mechanisms and manifestations of photomorphogenesis processes of plants. The second didactic part of the introduction deals with the framing up teaching of plant physiology into current curricula of education in the Czech Republic. For the formativ of educational materials experiments had to be designed to demonstrate reliably basic photomorphogenetical processes. Three experiments were designe dat: 1. plant phototropism, 2. negative plant phototropism and 3. plant scotomorphogenesis.To select these experiments I...
44

FTIR-spektroskopische Untersuchungen am Phytochrom Agp2

Piwowarski, Patrick 18 May 2017 (has links)
In der vorliegenden Arbeit wurde der lichtinduzierte Reaktionszyklus des bakteriellen Phytochroms Agp2 aus Agrobacterium tumefaciens mit FTIR‑ und UV‑Vis‑Spektroskopie untersucht. Der Photorezeptor besteht aus einem photosensorischen Modul und einer signalgebenden Histidin-Kinase-Domäne. Das photosensorische Modul bindet das Tetrapyrrol Biliverdin als Chromophor. Der Grundzustand von Agp2 (Pfr, 750 nm) ist gegenüber dem lichtaktivierten Zustand (Pr, 700 nm) rotverschoben, weshalb Agp2 den Bathyphytochromen zugeordnet wird. Die Untersuchungen erfolgten unter Verwendung von Isotopenmarkierung, H/D-Austauschexperimenten und ortsspezifischer Mutagenese. Daraus ließen sich folgende molekulare Änderungen charakterisieren, welche im Reaktionszyklus von Agp2 erfolgen: Die lichtinduzierte Isomerisierung des Chromophors führt zu einem Übergang vom Pfr- in den Pr-Zustand, wobei zwei Intermediate, Lumi‑F und Meta‑F, durchlaufen werden. Neben der Konformationsänderung des Chromophor‑D‑Rings ist auch die C‑Ring-Propionsäureseitenkette an der Photoreaktion beteiligt. Die C-Ring-Propionsäureseitenkette ist im Pfr-Zustand protoniert und wird im Übergang von Meta-F zu Pr deprotoniert. Der Pr-Zustand weist eine pH-Abhängigkeit auf, welche auf die pH-abhängige Ladung des Histidins 278 der Chromophortasche zurückzuführen ist. Je nach Ladung des Histidins 278 wird die Keto‑ bzw. Enolform der C(19)=O‑Gruppe des D‑Rings stabilisiert. Die Keto/Enol-Tautomerie ist auf eine innerhalb des Chromophors erfolgende Protontranslokation zurückzuführen und moduliert die Relaxation in den Pfr-Zustand. Änderungen der Amid-I-Absorption im Pfr-Pr-Übergang werden der Umstrukturierung der Tongue-Region des photosensorischen Moduls von einer Alpha-helikalen zu einer Beta‑Faltblatt-Struktur zugeordnet. Diese Strukturänderung wird als möglicher Weg der proteininternen Signaltransduktion zwischen photosensorischem und signalgebendem Modul vorgeschlagen. / In this thesis the light-induced reaction cycle of the bacterial phytochrome Agp2 from Agrobacterium tumefaciens was investigated using FTIR and UV‑vis spectroscopy. The photoreceptor comprises a photosensitive module and a signalling histidine kinase domain. The photosensitive module binds the biliverdin tetrapyrrol as chromophore. The Agp2 ground state (Pfr, 750 nm) is red-shifted in comparison with its light-activated state (Pr, 700 nm). Therefore, Agp2 is assigned to the group of bathy phytochromes. The investigations were conducted using isotopically labelled protein, labelled chromophore as well as hydrogen‑deuterium (H‑D) exchange and site-directed mutagenesis. Based on these the following molecular changes could be characterized that occur in the reaction cycle of Agp2: The light-induced isomerization of the chromophore leads to a transition from the Pfr to the Pr state, involving two intermediates, Lumi-F and Meta-F. Besides conformational changes of the chromophore D-ring, the C-ring propionic side chain is involved in the photoreaction as well. The C-ring propionic side chain is protonated in the Pfr state and gets deprotonated in the Meta-F to Pr transition. The Pr state exhibits pH‑dependent alterations which can be explained by pH dependent polarity changes of histidine 278 in the chromophore pocket. Depending on the charge of histidine, the D‑ring C(19)=O group is stabilized either in keto or enol form. The keto/enol tautomerism involves a proton translocation within the chromophore and modulates the relaxation to the Pfr state. The changes in the amide I region in the Pfr-Pr transition are associated with an alpha‑helix to beta‑sheet secondary structure change of the PHY domain tongue‑region. This structural change is proposed as the potential path of signal transduction between the photosensitive and the signalling module.
45

Comparative Genomics of Gossypium spp. through GBS and Candidate Genes – Delving into the Controlling Factors behind Photoperiodic Flowering

Young, Carla Jo Logan 16 December 2013 (has links)
Cotton has been a world-wide economic staple in textiles and oil production. There has been a concerted effort for cotton improvement to increase yield and quality to compete with non-natural man-made fibers. Unfortunately, cultivated cotton has limited genetic diversity; therefore finding new marketable traits within cultivated cotton has reached a plateau. To alleviate this problem, traditional breeding programs have been attempting to incorporate practical traits from wild relatives into cultivated lines. This incorporation has presented a new problem: uncultivated cotton hampered by photoperiodism. Traditionally, due to differing floral times, wild and cultivated cotton species were unable to be bred together in many commercial production areas world-wide. This worldwide breeding problem has inhibited new trait incorporation. Before favorable traits from undomesticated cotton could be integrated into cultivated elite lines using marker-assisted selection breeding, the markers associated with photoperiod independence needed to be discovered. In order to increase information about this debilitating trait, we set out to identify informative markers associated with photoperiodism. This study was segmented into four areas. First, we reviewed the history of cotton to highlight current problems in production. Next, we explored cotton’s floral development through a study of floral transition candidate genes. The third area was an in-depth analysis of Phytochrome C (previously linked to photoperiod independence in other crops). In the final area of study, we used Genotype-By-Sequencing (GBS), in a segregating population, was used to determine photoperiod independence associated with single nucleotide polymorphisms (SNPs). In short, this research reported SNP differences in thirty-eight candidate gene homologs within the flowering time network, including photoreceptors, light dependent transcripts, circadian clock regulators, and floral integrators. Also, our research linked other discrete SNP differences, in addition to those contained within candidate genes, to photoperiodicity within cotton. In conclusion, the SNP markers that our study found may be used in future marker assisted selection (MAS) breeding schemas to incorporate desirable traits into elite lines without the introgression of photoperiod sensitivity.
46

Climate Change Affects Leaf Morphology: Investigating Mechanism and Variation Across Species

Thomas, Michael D. 11 July 2022 (has links)
No description available.

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