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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.
91

Avaliação do comportamento competitivo de raízes de ervilha (Pisum sativum) cv. Mikado / Evaluation of the roots competitive behavior of pea (Pisum sativum) cv. Mikado

Macedo, Francynês da Conceição Oliveira 10 June 2011 (has links)
A Neurobiologia Vegetal é um recente ramo das ciências vegetais que objetiva esclarecer os complexos padrões de comportamento vegetal, no que se refere à percepção, processamento, armazenamento e transmissão de sinais na planta e entre plantas. A detecção de vizinhos, é uma capacidade que implica em auto reconhecimento, uma vez que um organismo só terá sucesso em interações competitivas se for capaz de auto/não-auto discriminação. Assim, objetivou-se com este trabalho verificar se raízes de ervilha (Pisum sativum) cv. Mikado apresentam crescimento diferenciado quando na presença de raízes da mesma planta, e de raízes de outras plantas, mas pertencentes ao mesmo genótipo, para que se possa averiguar sua capacidade de auto/não-auto discriminação. Além disso, avaliou-se também o crescimento da parte aérea para observar em que grau a presença de plantas vizinhas pode influenciar o desenvolvimento vegetativo de plantas de ervilha. Quatro dias após a germinação, plântulas de Pisum sativum cv. Mikado tiveram a raiz principal cortada 5 mm abaixo do hipocótilo. Passados sete dias, foram retiradas as raízes secundárias, deixando-se apenas duas raízes, de igual tamanho, por planta (split-root). Plantas com duas raízes iguais foram replantadas, com cada vaso contendo duas raízes da mesma planta (tratamento Auto) ou duas raízes de plantas diferentes (Tratamento Não-auto). Os vasos foram agrupados em tríades. O experimento foi mantido em estufa incubadora sob condições de temperatura e fotoperíodo controladas e após 18 dias foram feitas avaliações do crescimento da parte aérea e das raízes, através das medições de: altura da planta (cm), peso fresco de parte aérea e de raiz (g), peso seco de parte aérea e de raiz (g), área foliar (cm2), área radicular (cm2), comprimento total de raiz (cm) e diâmetro médio de raiz (cm). A análise dos dados considerando os valores médios de cada tríade revelou não haver diferença significativa entre os tratamentos Auto e Não-auto com relação ao crescimento de parte aérea. No que se refere ao crescimento da raiz, com exceção do diâmetro médio, as demais variáveis diferiram significativamente, sendo que as plantas pertencentes ao tratamento Auto apresentaram valores de peso seco, área superficial e comprimento total 36,71%, 27,84% e 23,18%, respectivamente, maiores do que as plantas do tratamento Não-auto. Ou seja, as plantas que não estavam sob competição apresentaram maior crescimento de raiz. No entanto, quando se observou o comportamento das plantas entre si, em cada tríade, verificou-se, no tratamento não-auto, diferenças visíveis de crescimento tanto em parte aérea como na raiz entre as três plantas que constituía cada tríade. Verificou-se também que a raiz de uma mesma planta cresceu diferentemente de acordo com a identidade da raiz vizinha. Enquanto que no tratamento auto as três plantas que constituíam uma tríade tinham aproximadamente o mesmo tamanho de parte aérea e raiz. Assim, podemos afirmar que o crescimento das plantas no tratamento não-auto foi influenciado pelas interações entre as raízes e mais que isto, foi dependente da identidade da raiz vizinha implicando em auto/não-auto discriminação e reconhecimento parental. / The Plant Neurobiology is a recent branch of plant science that aims to clarify the complex patterns of behavior vegetable, with respect to perception, processing, storage and transmission of signals in plant and between plants. The detection of neighbors, is a capacity that involves self-recognition and an individual will only be successful in competitive interactions if it is capable of self/non-self discrimination. Thus, the objective was to determine whether roots of pea (Pisum sativum) cv. Mikado grow differently in the presence of the same plant roots, and roots of other plants, but within the same genotype, so that we can determine its capacity for self/non-self discrimination. In addition, we assessed also the growth of the shoot to see to what degree the presence of neighboring plants can influence the vegetative growth of pea plants. Five days from germination, seedlings of Pisum sativum cv. Mikado had the seminal root severed 5 mm below the hypocotyl. After seven days, all but two of these roots were removed, leaving only two roots of equal size per plant (split-root). Plants with two equal roots were replanted, with each pot containing two roots of the same plant (treatment self) or two roots of different plants (Treatment non-self). Pots were grouped in triplets. The experiment was kept in an incubator camera under controlled conditions of temperature and photoperiod and after 18 days were evaluated for growth of shoots and roots. It was measure plant height (cm), fresh weight of shoot and root (g), dry weight of shoot and root (g), leaf area (cm2), root area (cm2), total length of root (cm) and average root diameter (cm). The analysis of data considering the average values of each triplets showed no significant difference between treatments self and non-self in relation to the growth of shoots. With respect to root growth, except for the diameter, the other variables differed significantly, and plants belonging to treatment self had values of dry weight, surface area and total length of 36.71%, 27.84 % and 23.18%, respectively, higher than the treatment plants non-self. That is, plants that were not under competition had higher root growth. However, when we observe the behavior of plants in each triplet, it was found that the treatment non-self, the plants had sizes of shoot and root differ. It was also found that the root of the same plant grew differently depending on the identity of neighboring roots. While in treatment self, the three plants that constituted a triplet had, approximately, the same size of shoot and root. Thus, we can say that the growth of plants to treatment non-self was influenced by the interactions between roots and more that this was dependent on the identity of neighboring roots implying self/non-self discrimination and kin recognition.
92

Effects of the maternal rearing environment on pea aphid (Acyrthosiphon pisum) trophic interactions

Slater, Jennifer M. January 2018 (has links)
The maternal rearing environment (MRE) of an organism can be a key determinant of an organism's host choice decisions, its own fitness, or the fitness of its offspring. Here, it is investigated if the MRE of an organism can influence lower or higher trophic levels. A series of reciprocal cross-over experiments was conducted using pea aphids (Acyrthosiphon pisum), bean (Vicia faba) or pea (Pisum sativum) plants, and an aphid natural enemy, the parasitoid wasp Aphidius ervi, as model organisms. In each experiment, pea aphid offspring experienced either the same or an alternative plant host to that experienced by their mothers. This PhD showed that the MRE of pea aphids and parasitoid wasps was not a main contributory factor of host choice decisions or offspring fitness but influenced mother parasitoid wasp fecundity. Additionally, the MRE of pea aphids influenced the foliar nutrient concentration of pea plants when infested with the aphid's offspring. First, over shorter infestation periods, variation in foliar nitrogen and essential amino acid concentrations of pea leaves could be explained by pea aphid MRE. Over longer infestation periods, variation in foliar nitrogen and essential amino acid concentrations of pea leaves was explained by a combination of pea aphid MRE and aphid genotype. Second, the 13C concentration of pea leaf tissue, an indicator of stomatal aperture and leaf water stress, varied with pea aphid MREs over longer infestation periods. However, stomatal conductance and the expression of abscisic acid-responsive genes did not vary in a manner that was consistent with leaf water stress. Additional components of an organism's maternal rearing conditions are considered, including symbioses, as a more realistic MRE compared with that observed in nature. Taking account of MREs could provide a better understanding of the factors influencing the fitness of many organisms interacting in natural and managed ecosystems.
93

Transferring ascochyta blight resistance from Lathyrus sp. into field pea (Pisum sativum L.) via protoplast fusion (somatic hybridisation)

McCutchan, Jennifer Susan Unknown Date (has links)
Field pea (Pisum sativum L.) is highly susceptible to ascochyta blight, primarily caused by the pathogen Mycosphaerella pinodes (Berk. & Blox.) Vestergr. Grasspea (Lathyrus sativus L.) has been reported to possess a moderate level of resistance to ascochyta blight caused by M. pinodes. The work reported in this thesis aimed to develop the various techniques that would be required to transfer ascochyta blight resistance from grasspea into field pea via somatic hybridisation. This thesis also assesses the feasibility of achieving this goal. Field pea shoot cultures were established on hormone-free MS medium, and a protoplast isolation protocol developed for both species. Grasspea shoot cultures were established on both RL and SSB8 medium. Friable grasspea callus was achieved on media supplemented with 2,4-D in the range 4.523 µM, whereas kinetin tested at any concentration did not appear to influence callus growth. A suspension culture of grasspea was developed for the first time, in B5 medium supplemented with 4.5 µM 2,4-D and 0.5 µM kinetin. Grasspea protoplasts were isolated from both in vitro seedlings and suspension cultures. Protocols for hybrid shoot culture on KM8p medium were developed via organogenesis and somatic embryogenesis.
94

Transferring ascochyta blight resistance from Lathyrus sp. into field pea (Pisum sativum L.) via protoplast fusion (somatic hybridisation)

McCutchan, Jennifer Susan Unknown Date (has links)
Field pea (Pisum sativum L.) is highly susceptible to ascochyta blight, primarily caused by the pathogen Mycosphaerella pinodes (Berk. & Blox.) Vestergr. Grasspea (Lathyrus sativus L.) has been reported to possess a moderate level of resistance to ascochyta blight caused by M. pinodes. The work reported in this thesis aimed to develop the various techniques that would be required to transfer ascochyta blight resistance from grasspea into field pea via somatic hybridisation. This thesis also assesses the feasibility of achieving this goal. Field pea shoot cultures were established on hormone-free MS medium, and a protoplast isolation protocol developed for both species. Grasspea shoot cultures were established on both RL and SSB8 medium. Friable grasspea callus was achieved on media supplemented with 2,4-D in the range 4.523 µM, whereas kinetin tested at any concentration did not appear to influence callus growth. A suspension culture of grasspea was developed for the first time, in B5 medium supplemented with 4.5 µM 2,4-D and 0.5 µM kinetin. Grasspea protoplasts were isolated from both in vitro seedlings and suspension cultures. Protocols for hybrid shoot culture on KM8p medium were developed via organogenesis and somatic embryogenesis.
95

The Influence of Endosymbiont Metabolism on the Δ15N Value of the Pea Aphid, Acyrthosiphon pisum

Kushlan, Philip 24 June 2011 (has links)
The use of stable nitrogen isotope data in ecological and physiological studies is based in the assumption that nitrogen fractionates predictably during metabolism, leading to a broadly conserved pattern whereby consumers are isotopically enriched with respect to their diets. The application of stable isotope data to such studies is limited is by our understanding of the factors in that cause variability in the Δ15N values of consumers. In particular, parasites and fluid-feeders have been shown to demonstrate isotopic depletion with respect to their food sources. One factor that has been suggested to influence the Δ15N values seen in fluid-feeding consumers is the presence of endosymbionts and their contribution to nitrogen metabolism. The experiments described in this thesis directly test the hypothesis that the endosymbiotic bacteria Buchnera aphidicola is influencing the Δ15N value of the pea aphid on host alfalfa plants. Here I find that although aphids cured of their bacterial symbionts are less isotopically depleted than untreated aphids, they are still not enriched with respect to their phloem sap diet, indicating that endosymbiont metabolism alone is not responsible for the isotopic depletion observed in pea aphids. Metabolism of nitrogen in the pea aphid-Buchnera symbiosis has been well described with decades of physiological studies and with the publication of the pea aphid and Buchnera genomes. The two key features of metabolism in the pea aphid-Buchnera symbiosis are the recycling of waste ammonia by the aphid and the upgrading of the nonessential amino acids found in phloem sap to essential amino acids through collaborative metabolism between the pea aphid and Buchnera. Consistent with the described role of Buchnera in nitrogen metabolism, amino acid analyses of symbiotic and aposymbiotic aphids demonstrates an accumulation of the nonessential amino acids glutamine and glutamate and lower amounts of essential amino acids in the aposymbiotic aphids. I tested the influence of dietary amino acid profile on the Δ15N value of pea aphids and found that aphids are only isotopically depleted when they feed on diets with unbalanced amino acid compositions and are isotopically enriched when fed on a diet with a balanced profile of amino acids. I used isotopically labeled fructose to determine whether the difference in Δ15N value of pea aphids on diets of varying amino acid profiles is correlated to the amount of de novo amino acid synthesis occurring in the aphid. I found that there was a significantly higher incorporation of the labeled carbon backbone in the protein of pea aphids feeding on the unbalanced diets, supporting the idea that increased de novo amino acid synthesis are responsible for the differences in Δ15N values among aphids feeding on the two diets. The findings of this study highlight the influence of endosymbionts on the Δ15N values for pea aphids, demonstrate that dietary amino acid composition can influence the Δ15N value of pea aphids through the demand for metabolic upgrading of amino acids, and provide a model for the study of Δ15N values in systems where metabolism has been well characterized by experimental and genomic data.
96

Fibre fortification to increase stool frequency in children with a history of constipation

Flogan, Carla 14 January 2009
Constipation is a serious problem in the pediatric population and often requires medical management with laxatives and enemas. Participants (2-10 years of age, n=13) with a history of mild constipation were assigned randomly to a fibre treatment or placebo group. After three weeks, subjects were crossed over to the other treatment. Pea hull fibre (4.0-7.6 g/day = 3.6-6.8 g/day of dietary fibre) was added to snack foods and an inulin supplement (5.0 g/day = 4.5 g/day of dietary fibre) was given, whereas the placebos were non-fortified snacks and maltodextrin (5.0 g/day).<p> Subjects or their parents documented stool frequency, stool consistency, occurrence of abdominal pain and intake of snack foods and the supplement. Over the final two weeks, there was a trend towards an increase in the mean number of daily bowel movements in the fibre treatment group compared to the placebo group (n=11, 0.68 ± 0.18 vs. 0.59 ± 0.26, p=0.064). Exclusion of one subject with diarrhea-type stools led to a significant difference between groups (n=10, 0.54 ± 0.18 vs. 0.67 ± 0.22, p=0.002). Stool consistency, using the Bristol Stool Form Rating Scale, showed no significant differences in stool consistency between groups (p=0.379) nor was there a difference in the incidences of abdominal pain (p=0.129). Not all subjects experienced abdominal pain. The inulin supplement (91% compliance rate; 1 serving per day) was consumed more consistently than were the snack foods fortified with pea hull fibre (77% compliance rate; 2 servings per day). There were no significant differences in the intake of the snacks or supplement when the placebo and treatment groups were compared. Energy intake was significantly lower during the fibre treatment period compared to placebo (n=12, 1307 ± 296 kcal/day vs. 1441 ± 285 kcal/day, p=0.035). The addition of pea hull fibre to typical snack foods and an inulin supplement to beverages were well accepted by children and no adverse effects were reported. Fibre fortification of snack foods with pea hull fibre and fibre supplementation of beverages with inulin may provide an alternative means to treat pediatric constipation.
97

Fibre fortification to increase stool frequency in children with a history of constipation

Flogan, Carla 14 January 2009 (has links)
Constipation is a serious problem in the pediatric population and often requires medical management with laxatives and enemas. Participants (2-10 years of age, n=13) with a history of mild constipation were assigned randomly to a fibre treatment or placebo group. After three weeks, subjects were crossed over to the other treatment. Pea hull fibre (4.0-7.6 g/day = 3.6-6.8 g/day of dietary fibre) was added to snack foods and an inulin supplement (5.0 g/day = 4.5 g/day of dietary fibre) was given, whereas the placebos were non-fortified snacks and maltodextrin (5.0 g/day).<p> Subjects or their parents documented stool frequency, stool consistency, occurrence of abdominal pain and intake of snack foods and the supplement. Over the final two weeks, there was a trend towards an increase in the mean number of daily bowel movements in the fibre treatment group compared to the placebo group (n=11, 0.68 ± 0.18 vs. 0.59 ± 0.26, p=0.064). Exclusion of one subject with diarrhea-type stools led to a significant difference between groups (n=10, 0.54 ± 0.18 vs. 0.67 ± 0.22, p=0.002). Stool consistency, using the Bristol Stool Form Rating Scale, showed no significant differences in stool consistency between groups (p=0.379) nor was there a difference in the incidences of abdominal pain (p=0.129). Not all subjects experienced abdominal pain. The inulin supplement (91% compliance rate; 1 serving per day) was consumed more consistently than were the snack foods fortified with pea hull fibre (77% compliance rate; 2 servings per day). There were no significant differences in the intake of the snacks or supplement when the placebo and treatment groups were compared. Energy intake was significantly lower during the fibre treatment period compared to placebo (n=12, 1307 ± 296 kcal/day vs. 1441 ± 285 kcal/day, p=0.035). The addition of pea hull fibre to typical snack foods and an inulin supplement to beverages were well accepted by children and no adverse effects were reported. Fibre fortification of snack foods with pea hull fibre and fibre supplementation of beverages with inulin may provide an alternative means to treat pediatric constipation.
98

PsRBR1 encodes a pea retinoblastoma-related protein that is phosphorylated in axillary buds during dormancy-to-growth transition

Shimizu-Sato, Sae, Ike, Yoko, Mori, Hitoshi, 森, 仁志 01 1900 (has links)
Open Access Article
99

COMPARATIVE APHID/HOST PLANT INTERACTIONS OF ACYRTHOSIPHON KONDOI SHINJI AND ACYRTHOSIPHON PISUM (HARRIS)

Ellsbury, Michael M. (Michael Merton) January 1979 (has links)
No description available.
100

(+)-Pisatin Biosynthesis: From (-) Enantiomeric Intermediates via an Achiral Isoflavene

Celoy, Rhodesia Mateo January 2013 (has links)
Pterocarpan phytoalexins are antimicrobial compounds produced by legumes when challenged by biotic stresses. Most legumes produce pterocarpan phytoalexins with (-)-stereochemistry but pea (Pisum sativum L.) produces as its major phytoalexin (+)-pisatin. Pea also occasionally produces a minor amount of (-)-maackiain as a pterocarpan phytoalexin, and studies on the biosyntheses of (+)-pisatin and (-)-maackiain have shown that up to (-)-7,2'-dihydroxy-4',5'-methylenedioxyisoflavanone [(-)-sophorol] and 7,2'-dihydroxy-4',5'-methyl-enedioxyisoflavanol [(-)-DMDI]they have common intermediates with (-)-DMDI being where the two pathways diverge. The final step in (+)-pisatin biosynthesis is the methylation of (+)-6a-hydroxymaackiain [(+)-6a-HMK] by 6a-hydroxymaackiain methyltransferase (HMM2) but the steps from (-)-DMDI to (+)-6a-HMK are unknown.The shifting of the stereochemistry from (-)-DMDI to (+)-6a-HMK has been proposed to involve the achiral isoflavene, 7, 2'-dihydroxy-4', 5'-methylene-dioxyisoflav-3-ene (DMDIF). In this dissertation, I have shown that cis-(-)-DMDI is the enzymatic product of (-)-sophorol, and is the precursor of DMDIF which is produced by the dehydration activity of "isoflavene synthase" (IFVS). IFVS activity was not observed in elicited tissues of alfalfa, chickpea, beans, pepper, and broccoli, plants that do not produce (+) pterocarpans. Partial purification of IFVS demonstrated that it is either large in size or tightly complexed with other proteins. The SDS-PAGE of the 29-fold purified product revealed 12 major bands that aggregated into 3 bands in the non-denaturing PAGE. IFVS activity was in band 3 which co-migrated with marker proteins of>100 kDa in size. Proteins identified from LC-MS/MS peptide sequences of the proteins in band 3, when compared to three protein databases, did not identify any proteins with an enzymatic activity expected for IFVS. A disease resistance-response protein (a dirigent-like protein) and two protein-binding proteins were the most abundantly detected proteins in the pea transcriptome-translated database. Also, four of the known enzymes (isoflavone reductase, HMM1, HMM2, and sophorol reductase) involved in (+)-pisatin biosynthesis were among the proteins identified. It may be that IFVS is associated with these other proteins as a complex in vitro and in vivo. The lack of detection of IFVS in the databases could be because it has not yet been sequenced as it functions in a rare biosynthetic pathway.

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