Global ETD Search

21	The Regulation of Body and Wing Disk Growth in Manduca Sexta Tobler, Alexandra January 2009 (has links) <p>A key question in developmental biology is how organisms attain a final size. Deviations in growth patterns can produce different/new phenotypes and these changes can play fundamental roles in ecology and evolution. The size of an organism and of its constitutive organs is determined by the growth rate and the duration of the growing period. In insects, peptide hormones such as insulin-like growth factors have been shown to be involved in determining the growth rates by coordinating metabolism, cell proliferation and cell size. In contrast, steroid hormones, such as ecdysone, are involved in determining life stage transitions, and thus the termination of the growing period. Although it is clear that insulin and steroid hormones are both involved in the regulation of growth, the ways in which these two regulators interact is yet to be determined. Furthermore, it is not clear how organs and body growth are coordinated during development to arrive to their correct proportions. In this study, using the tobacco hornworm Manduca sexta and its wings as a model system, I examine the developmental mechanisms involved in the regulation of organ growth and how developmental processes can drive morphological evolution. First, I examine how the hormonal events that take place during the termination of the body growth period affect wing disk growth. Second, by using gene expression assays and in vitro cultures, I examine the interaction between bombyxin, the Lepidopteran insulin-like growth factor, and ecdysone, the molting hormone, and their contributions to wing imaginal disk growth. Finally, by using three different size strains of M. sexta, I examine the developmental basis of the allometric relationship between the wings and the body. My results show that during the final instar of M. sexta larval development, wing imaginal disks are sensitive to the hormonal events that terminate the growth period. Furthermore, I show that the bombyxin requirement for wing disk growth is restricted to the early days of the final instar unlike the constitutive effects seen in other species. After the larva has passed a particular critical weight, bombyxin is not necessary for wing disk growth, although its absence does decrease the growth rate. In contrast, ecdysone is required for promoting the growth of wing imaginal disks primarily through its stimulation of cell proliferation. Finally, I show how selection on body size has unpredictable consequence for the response of wing size. These results demonstrate how specific allometries have a developmental basis in the cross-talk of the various signals that regulate growth itself. Therefore, direct selection on allometric relationships may not need to be strong in order to hold scaling relationships constant, at least over short evolutionary periods.</p> / Dissertation Biology, General Allometries Bombyxin Ecdysone Growth Manduca sexta Wing disk
22	An Examination of the Effects and Possible Targets of Nitric Oxide on Olfactory Neurons in the Moth, Manduca Sexta Wilson, Caroline Hamilton January 2005 (has links) The gaseous messenger, nitric oxide (NO), has emerged as a key component of olfactory systems. Localization and imaging studies in the moth, Manduca sexta, suggest that NO may affect the excitability of olfactory neurons by modifying neuronal membrane properties through sGC-dependent mechanisms. This hypothesis was tested using a multidisciplinary approach, including two types of physiological recording techniques and immunocytochemical analysis of sGC antibody expression in the Manduca brain. The excitability of large populations or individual antennal lobe (AL) neurons was monitored with in vivo physiological recordings while various NO pharmacological agents were bath applied to the brain. To examine possible targets of NO, the binding site of sGC was blocked and the results were compared to NO blockade. Finally, sGC immunocytochemistry was used to also determine possible targets of NO.Two NO synthesis inhibitors and a sGC blocker were potent effectors of resting, baseline activity in the Manduca brain. Blocking NO synthesis caused significant decreases in AL neuron conductance. This conductance decrease led to changes in baseline activity, including the appearance of bursts in some neurons, and increased and decreased firing rates in other neurons. Further, the neurons had a decreased responsiveness and excitability to presynaptic input. Blocking the sGC binding site caused similar effects in most neurons, which indicates that NO likely acts through sGC-dependent signaling to exert its effects in at least a subset of neurons. However, some neurons had different responses to NO and sGC blockade, which indicates that NO may act through other signaling mechanisms in some neurons. Further examination using sGC immunocytochemistry revealed that only about 90% of projection neurons (PNs) and 30% of local neurons (LNs) contained sGC immunoreactivity.The results in this dissertation indicate that NO performs a global function in the antennal lobe to maintain the resting membrane conductance of AL neurons. NO likely exerts its effects through both sGC-dependent and sGC-independent mechanisms. Finally, these results have major implications for odor coding in all species, as NO has been found in the olfactory systems of every animal examined thus far. olfaction Manduca sexta moth nitric oxide gaseous neurotransmitters
23	Sex differences in the utilization of essential and non-essential amino acids in Lepidoptera Levin, Eran, McCue, Marshall D., Davidowitz, Goggy 01 August 2017 (has links) The different reproductive strategies of males and females underlie differences in behavior that may also lead to differences in nutrient use between the two sexes. We studied sex differences in the utilization of two essential amino acids (EAAs) and one non-essential amino acid (NEAA) by the Carolina sphinx moth (Manduca sexta). On day one post-eclosion from the pupae, adult male moths oxidized greater amounts of larva-derived AAs than females, and more nectar-derived AAs after feeding. After 4 days of starvation, the opposite pattern was observed: adult females oxidized more larva- derived AAs than males. Adult males allocated comparatively small amounts of nectar-derived AAs to their first spermatophore, but this allocation increased substantially in the second and third spermatophores. Males allocated significantly more adult-derived AAs to their flight muscle than females. These outcomes indicate that adult male and female moths employ different strategies for allocation and oxidation of dietary AAs. Manduca sexta Nutrient use Metabolism Stable isotopes delta C-13
24	The Role of MicroRNAs in Regulating the Translatability and Stability of Target Messenger RNAs During the Atrophy and Programmed Cell Death of the Intersegmental Muscles of the Tobacco Hawkmoth Manduca sexta. Chan, Elizabeth 07 November 2016 (has links) A variety of diseases lead to the atrophy and/or death of skeletal muscle. To better understand the molecular mechanisms that mediate these processes, I have taken advantage of the intersegmental muscles (ISMs) of the tobacco hawkmoth Manduca sexta, which undergo sequential programs of atrophy and programmed cell death at the end of metamorphosis. ISM death is mediated by changes in gene expression and numerous cell-death associated transcripts have been identified. MicroRNAs (miRs) are small (~22 nucleotide) non-coding RNAs that bind to sequences in messenger RNAs (mRNAs) and either cause translational arrest or mRNA degradation. To test the hypothesis that developmentally regulated miRs may control the stability and/or translatability of target mRNAs in the ISMs, putative mRNA targets for the test miRs have been identified and their 3’ untranslated region (UTR) have been cloned into a dual luciferase reporter plasmid. The microRNA mir-92b binds to the 3’ UTR of the Small Cytoplasmic Leucine Rich repeat Protein (SCLP) mRNA. Expression of miR-92b declines during development and SCLP expression increases with the commitment to die. I found that the miR-92b inhibits luciferase mRNA translation (spectrophotometric plate assays), but does not lead to transcript degradation (quantitative polymerase chain reaction; qPCR). miR-92 plays a survival role in several mammalian tissues and is repressed in two types of cardiomyopathy. Consequently, understanding how miRs regulate mRNA translation and stability may provide a better understanding of the regulation of muscle atrophy and death as well as provide novel tools for diagnostics or therapeutics. Manduca sexta Programmed Cell Death Atrophy microRNAs Biology
25	Impact moléculaire et physiologique de la guêpe parasitoïde Cotesia congregata et de son polydnavirus sur l'insecte hôte Manduca sexta / Molecular and physiological impact of the parasitoid wasp Cotesia congregata and its polydnavirus on the insect host Manduca sexta Chevignon, Germain 09 December 2014 (has links) Cotesia congregata est une guêpe parasitoïde qui se développe à l’intérieur de la larve du Lépidoptère, Manduca sexta. Ce parasitoïde a développé une stratégie de virulence qui utilise un symbionte viral de la famille des Polydnavirus nommé Cotesia congregata bracovirus. Mon travail de thèse a permis de caractériser le dialogue moléculaire au cours de l’interaction par des approches de transcriptomique à haut débit et de physiologie. Ces travaux ont permis d’établir la première carte fonctionnelle du génome viral et de visualiser l’ensemble des gènes de M. sexta régulés au cours du parasitisme. La régulation des gènes de l’immunité a révélé que le parasitisme n’empêche pas l’induction de peptides antimicrobiens, mais entraine la sous-expression de gènes impliqués dans la réponse cellulaire. De plus j’ai pu mettre en évidence une réduction du nombre de cellules adhérentes au cours de l’interaction et décrire l’induction d’un phénotype de type apoptose d’une catégorie de cellules immunitaires. Ces résultats permettent d’identifier des gènes acteurs de l’interaction et apportent de nouvelles connaissances relatives aux interactions hôtes-parasitoïdes. / Cotesia congregata is a parasitoid wasp that develops inside the lepidopteran larvae, Manduca sexta. This parasitoid wasp has evolved virulence strategies using an obligate viral symbiont from the Polydnavirus family named Cotesia congregata bracovirus. My thesis work has allowed us to characterize the molecular dialogue during the interaction by physiological and high-throughput transcriptomic approaches. This work allowed to obtain the first functional map of the viral genome and to identify all M. sexta genes regulated during parasitism. Regulation of immune genes revealed that parasitism does not prevent induction of antimicrobial peptides, but leads to the down-regulation of genes involved in the cellular response. Moreover, I was able to demonstrate a reduction in the number of adherent cells during the interaction and to describe this induction as an apoptosis-like phenotype targeting a specific population of immune cells. These findings open the way to the identification of candidate genes involved in this particular interaction and provide new insights into host-parasitoid interactions in general. Polydnavirus Guêpe parasitoïde Transcriptome 454 Mort cellulaire Cotesia congregata Manduca sexta Polydnavirus Parsitoid wasp Transcriptome 454 Cell death Cotesia congregata Manduca sexta
26	An Assessment of the Effects of Insect Host Condition on Entomopathogenic Nematodes and Their Symbiotic Bacteria Miranda, Victoria Alicia January 2010 (has links) This study investigated a system comprised of entomopathogenic nematodes (EPN) (Steinernematidae and Heterorhabditidae), their symbiotic bacteria (Xenorhabdus, Photorhabdus) and an insect host, M. sexta. The focus of this investigation was to examine the effects insect host condition on the nematode-bacterium mutualistic partnership as a whole. The EPN used in the study had varying host-searching strategies: an ambusher, Steinernema carpocapsae, and a cruiser, Heterorhabditis sonorensis. Insect host age and diet were evaluated as factors that affect insect host condition. Wandering 5th instar M. sexta were much less susceptible to EPN infection compared to non-wandering 5th instar larvae, regardless of EPN species. Insect host diet had a significant impact on H. sonorensis susceptibility to EPN infection, and a non-significant trend was observed for S. carpocapsae. EPN and bacterial symbiont fitness were unaffected by insect host condition. This is the first record of the effect of insect host condition on both EPN and their symbiotic bacteria. Entomopathogenic nematodes Heterorhabditis sonorensis insect host condition insect host diet Manduca sexta Steinernema carpocapsae
27	Upper thermal limits differ among component species in a host-parasitoid-hyperparasitoid system Joshi, Kanchan A 01 January 2016 (has links) Among the predicted impacts associated with global climate change, warming is of special interest because the rates of physiological processes are temperature-dependent. Insects and other ectotherms are likely to be affected due to their limited ability to control body temperature. In this study, I measured the tolerance to extreme high temperatures, i.e., critical thermal maximum (CTmax), of component species in a tri-trophic system, including an herbivore (Manduca sexta), a primary larval parasitoid (Cotesia congregata) and a hyperparasitoid (genus Silochalcis). For wild insects, the parasitoid had the lowest CTmax, the hyperparasitoid had the highest, and the herbivore was intermediate. For laboratory insects, the parasitoid had a lower CTmax than the herbivore. Results suggest that laboratory colonies can be used to predict relative thermal performance of interacting species in the field. Variations in tolerance to high temperature among component species could disrupt the outcome of interactions in multi-trophic systems. CTmax tritrophic interactions Manduca sexta Cotesia congregata Spilochalcis Ecology and Evolutionary Biology Entomology
28	The development of invertebrate host models for Burkholderia spp. infection studies Freeman, Zoe Nicole January 2013 (has links) Burkholderia pseudomallei (Bp) is the causative agent of melioidosis, an opportunistic but serious human disease endemic to Southeast Asia and Northern Australia. The ‘Bp-group’ includes Bp and the closely-related organisms B. thailandensis (Bt) and B. oklahomensis (Bo), all of which are usually soil-dwelling saprophytes, and B. mallei (Bm) which is an equine-host-adapted pathogen. Bt is virulent in a number of invertebrate models but is generally non-pathogenic for mammals and is often used as a surrogate for the study of virulence mechanisms shared with Bp. Experiments to assess the potential of the Tobacco Hawkmoth Manduca sexta as a model host for Bp or Bt infection revealed surprising results. Bp, Bt and Bo were all lethal to M. sexta larvae. This is the first report of Bo virulence in an infection model. Additionally, the relative virulence of the three species was the reverse of that reported in humans and in larvae of the Greater Waxworm Galleria mellonella. Despite that, well-known hallmarks of Bp-group pathogenesis in mammalian hosts – intracellular survival and multiplication, actin remodelling and acute sepsis – were observed in M. sexta infection during a fluorescent confocal microscopy time-course study. M. sexta feeding experiments with Bt and Bo indicated that cultures of these bacteria are also pathogenic via the oral route, which is likely to be relevant for natural insect-bacteria interactions. Cell-free supernatant of Bo was as harmful to larvae as complete culture, supporting previous suggestions that Bp-group bacteria produce toxins or paralytic agents that are active against invertebrates. Finally, Rapid Virulence Annotation (RVA) was performed as a genome-wide screen for virulence determinants of Bp strain K96423, using three invertebrate bioassays with a recombinant expression library. In response to problems with the reproducibility of biologically active clones, a new statistical approach was devised which enabled quantitative identification of the most convincing RVA hits. 577.8
29	Existence of Prophenoloxidase in Wing Discs : A Source of Plasma Prophenoloxidase in the Silkworm, Bombyx mori Diao, Yupu, Lu, Anrui, Yang, Bing, Hu, Wenli, Peng, Qing, Ling, Qing-Zhi, Beerntsen, Brenda T., Söderhäll, Kenneth, Ling, Erjun January 2012 (has links) In insects, hemocytes are considered as the only source of plasma prophenoloxidase (PPO). PPO also exists in the hemocytes of the hematopoietic organ that is connected to the wing disc of Bombyx mori. It is unknown whether there are other cells or tissues that can produce PPO and release it into the hemolymph besides circulating hemocytes. In this study, we use the silkworm as a model to explore this possibility. Through tissue staining and biochemical assays, we found that wing discs contain PPO that can be released into the culture medium in vitro. An in situ assay showed that some cells in the cavity of wing discs have PPO1 and PPO2 mRNA. We conclude that the hematopoietic organ may wrongly release hemocytes into wing discs since they are connected through many tubes as repost in previous paper. In wing discs, the infiltrating hemocytes produce and release PPO probably through cell lysis and the PPO is later transported into hemolymph. Therefore, this might be another source of plasma PPO in the silkworm: some infiltrated hemocytes sourced from the hematopoietic organ release PPO via wing discs. DROSOPHILA-MELANOGASTER CIRCULATING HEMOCYTES HEMATOPOIETIC ORGANS INNATE IMMUNITY MANDUCA-SEXTA IDENTIFICATION PHENOLOXIDASE OXIDASE CLONING CELLS
30	A sensory map of the odour world in the moth brain / Carlsson, Mikael A., January 2003 (has links) (PDF) Diss. (sammanfattning) Alnarp : Sveriges lantbruksuniv. / Härtill 5 uppsatser.

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