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431	Analyse fonctionnelle et étude de la régulation de gènes candidats sous-jacents au QTL GpaVspl impliqué dans la résistance au nématode à kyste Globodera pallida chez la pomme de terre / Functional analysis and regulation of candidate genes underlying the QTL GpaVspl involved in resistance to cyst nematode in potatoes Castro Quezada, Patricio Salvador 31 May 2013 (has links) Les nématodes à kystes sont l’un des bioagresseurs causant le plus de dégâts sur les cultures de pommes de terre. La résistance trouvée chez l'accession spl88S.329.18, issue de l'espèce Solanum sparsipilum est caractérisée par un déterminisme oligogénique avec un QTL à localisé sur le chromosome V (GpaVspl) et un QTL mineur localisé sur le chromosome XI(GpaXIspl). Pour obtenir une résistance de haut niveau, l'effet du QTL GpaVspl, doit êtrecomplémenté par celui du QTL à effet faible GpaXIspl. Par génomique comparative, le locusGpaV a été localisé dans un intervalle compris entre 16 et 60 kb sur les génomes de la tomateet des espèces apparentées à la pomme de terre, Solanum demissum et Solanum phureja. Deuxgènes ont été annotés dans cet intervalle sur les génomes de la tomate et de S. demissum : lepremier appartient à la famille des TIR-NBS-LRR (TNL), famille de gènes de résistanceclassiques, et le second appartient à la famille des « mitochondrial, transcription terminationfactor » (mTERF), dont l’implication dans des mécanismes de résistance n’a jamais étédémontrée.Les objectifs de ma thèse étaient d'identifier le(s) gène(s) responsable(s) de la résistance àG. pallida, conférée par le locus GpaVspl, et d'étudier sa régulation. Suite à la publication de laséquence du génome de S. phureja, en 2011, nous avons mis en évidence que le locus GpaVétait dupliqué chez S. phureja et que cette duplication était également présente chezS. sparsipilum. Les quatre gènes annotés au locus GpaVspl ont été nommésSpl_mTERF18430, Spl_TNL18429, Spl_mTERF18453 et Spl_TNL18428.L'effet des deux gènes Spl_mTERF18430 et Spl_TNL18428 sur la résistance à G. pallida aété analysé via des expériences de transformation génétique suivies par des tests de résistancesur les plantes transformées. Un effet partiel du gène Spl_TNL18428 sur la résistance àG. pallida a été mis en évidence par complémentation de plantes sensibles. Aucun effetsignificatif n'a été détecté pour le gène Spl_mTERF18430. Des expériences d'extinctiongénique suggèrent que le deuxième gène TIR-NBS-LRR, Spl_TNL18429, qui est égalementexprimé dans les racines et qui présente un fort pourcentage d'identité de séquence avec legène Spl_TNL18428, pourrait également être impliqué dans la résistance à G. pallida.L'expression du gène rapporteur GFP, placé sous le contrôle du promoteur du gèneSpl_TNL18428, est fortement induite dans les cellules situées autour du syncytium. Cecirenforce l'hypothèse d'une implication du gène Spl_TNL18428 dans la résistance à G. pallida,car la localisation de l'expression de la GFP est similaire à celle de la nécrose, qui estcaractéristique de la réaction développée par les plantes résistantes autour du syncytium induitpar les nématodes.En tenant compte des données bibliographiques récentes, montrant que plusieurs gènes NBSLRRpeuvent être indispensables à l'expression d'une résistance, nos résultats suggèrent queles deux gènes Spl_TNL18428 et Spl_TNL18429 sont nécessaires à l'expression de larésistance à G. pallida / Cyst nematodes are one of the pests that cause the most damage to potato cultures. Resistance found in the accession spl88S.329.18 in Solanum sparsipilum is characterized by oligogenic determinism with a strong effect QTL on chromosome V (GpaVspl) and a minor effect QTL on chromosome XI (GpaXIspl). To obtain a high level of resistance, the effect of QTL GpaVspl must be complemented by the low effect QTL GpaXIspl. By comparative genomics, the GpaV locus was located in a range between 16 and 60 kb in genomes of tomato and potato related species: Solanum demissum and Solanum phureja. Two genes were annotated: the first belonging to the TIR -NBS -LRR gene family (TNL) and the second one belonging to the “mitochondrial transcription termination factor” family (mTERF). The effect of both genes -Spl_TNL18428 and Spl_mTERF18430- on resistance to G. pallida were analyzed via genetic transformation experiments followed by resistance tests on transformed plants. A partial effect of Spl_TNL18428 on resistance to G. pallida was identified by complementation of susceptible plants. Gene silencing experiments suggested that Spl_TNL18429, which occurs in roots and presents a high percentage of sequence identity with the gene Spl_TNL18428, is also involved in resistance to G. pallida. The expression of the GFP reporter gene, under the control of the Spl_TNL18428 gene promoter, is strongly induced in cells located around the syncytium. This strengthens the hypothesis of an involvement of Spl_TNL18428 gene in resistance to G. pallida, because the location of GFP expression is similar to necrosis, which is characteristic of resistant plants. Taking into account that recent data showing that several NBS-LRR genes may be essential for the expression of resistance, our results suggest that both Spl_TNL18428 and Spl_TNL18429 genes are necessary for the expression of resistance to G. pallida Pomme de terre Solanum tuberosum Nématode à kyste Globodera pallida Résistance Expression génique RT-qPCR Potato Solanum tuberosum Cyst nematode Globodera pallida Resistant Gene expression 635.2
432	Application of PCR-DGGE method for identification of nematode communities in pepper growing soil / Ứng dụng phương pháp PCR-DGGE để định danh cộng đồng tuyến trùng trong đất trồng hồ tiêu Nguyen, Thi Phuong, Ha, Duy Ngo, Nguyen, Huu Hung, Duong, Duc Hieu 17 August 2017 (has links) (PDF) Soil nematodes play an important role in indication for assessing soil environments and ecosystems. Previous studies of nematode community analyses based on molecular identification have shown to be useful for assessing soil environments. Here we applied PCR-DGGE method for molecular analysis of five soil nematode communities (designed as S1 to S5) collected from four provinces in Southeastern Vietnam (Binh Duong, Ba Ria Vung Tau, Binh Phuoc and Dong Nai) based on SSU gene. By sequencing DNA bands derived from S5 community sample, our data show 15 species containing soil nematode, other nematode and non-nematode (fungi) species. Genus Meloidogyne was found as abundant one. The genetic relationship of soil nematode species in S5 community were determined by Maximum Likelihood tree re-construction based on SSU gene. This molecular approach is applied for the first time in Vietnam for identification of soil nematode communities. / Tuyến trùng đất đóng vai trò chỉ thị quan trọng trong công tác đánh giá môi trường và hệ sinh thái đất. Các nghiên cứu trước đây đã cho thấy lợi ích của việc phân tích cộng đồng tuyến trùng đất bằng định danh sinh học phân tử đối với việc đánh giá môi trường đất. Ở đây, chúng tôi ứng dụng phương pháp PCR-DGGE dựa trên gene SSU để phân tích năm (ký hiệu từ S1 đến S5) cộng đồng tuyến trùng đất thuộc các vùng trồng chuyên canh cây hồ tiêu ở miền nam Việt Nam (Bình Dương, Bà Rịa Vũng Tàu, Bình Phước và Đồng Nai). Bằng cách giải trình tự các vạch của mẫu tuyến trùng S5, kết quả cho thấy cộng đồng tuyến trùng này có 15 loài gồm nhóm tuyến trùng đất, nhóm các loại tuyến trùng khác và nhóm không phải tuyến trùng (nấm) và trong đó Meloidogyne là giống ưu thế. Mối quan hệ di truyền của các các loài tuyến trùng đất thuộc cộng đồng S5 được xác định bằng việc thiết lập cây phát sinh loài Maximum Likelihood dựa trên gene SSU. Đây là nghiên cứu đầu tiên ở Việt Nam sử dụng kỹ thuật PCR-DGGE để phân tích các cộng đồng tuyến trùng đất trồng hồ tiêu. PCR-DGGE Bodennematode molekulare Identifikation SSU-rDNA Phylogenie PCR-DGGE soil nematode molecular identification SSU rDNA phylogeny ddc:363.7 ddc:AR 10100
433	Caractérisation moléculaire et cellulaire de la dégénérescence musculaire dépendante de la dystrophine chez le nématode Cænorhabditis elegans / Molecular and cellular characterisation of dystrophin-dependant muscle degeneration in the nematode Cænorhabditis elegans Lecroisey-Leroy, Claire 20 September 2010 (has links) La Dystrophie Musculaire de Duchenne (DMD) est la plus fréquente et la plus sévère des maladies dégénératives du muscle. Elle se caractérise par une dégénérescence progressive des fibres musculaires due à l’absence de dystrophine fonctionnelle dans les muscles. Actuellement, le rôle physiologique de la dystrophine n’est pas clairement établi et il n’existe pas encore de traitement curatif pour cette maladie. La difficulté de mettre en évidence la fonction de la dystrophine et la physiopathologie de la DMD est en partie expliquée par la complexité moléculaire et cellulaire du muscle des modèles vertébrés utilisés dans les études actuelles. Notre équipe de recherche a développé un modèle de DMD chez le nématode Caenorhabditis elegans. Dans ce modèle, la mutation du gène de la dystrophine, provoque une dégénérescence progressive des muscles conduisant à une paralysie des animaux adultes. Nous utilisons ce modèle afin d’étudier la fonction de la dystrophine et les mécanismes impliqués dans la dégénérescence musculaire chez le nématode. Ce travail de thèse porte sur deux nouveaux acteurs de la dégénérescence musculaire dépendante de la dystrophine : la protéine DYC‐1 et son principal partenaire ZYX‐1. Ce travail présente la caractérisation de ces deux protéines et étudie leurs fonctions dans le muscle. Par ailleurs, ce travail de thèse présente les premiers résultats d’un projet de microscopie électronique ayant pour but de caractériser en détail les évènements subcellulaires du processus dégénératif au cours du cycle de vie du nématode dystrophique. À plus long terme, les études chez le nématode permettront de proposer de nouvelles hypothèses quant aux mécanismes moléculaires et cellulaires de la dégénérescence musculaire / Duchenne Muscular Dystrophy (DMD) is the most prevalent and one of the most severe muscular dystrophy. DMD is due to the absence of functional dystrophin in cardiac and skeletal muscle cells, this lack leads to a progressive muscle degeneration of contractile fibres. Currently, the physiological role of dystrophin is not yet clearly established and curative treatments for DMD are not yet available. The lack of knowledge about dystrophin function and DMD physiopathology can be partly attributed to the complexity of vertebrate muscle, and the absence of a simple model that emulates the human pathology. Our research team developed a model of muscle degeneration in the nematode Caenorhabditis elegans. In this model, the mutation of the dystrophin gene produces a progressive muscle degeneration leading to the paralysis of the adult worms. We use this model for investigating the role of dystrophin and the mechanisms of muscle degeneration in C. elegans. This PhD work concerns two new actors of dystrophin‐dependant muscle degeneration: The DYC‐1 protein and its main interactor ZYX‐1. This study aims to characterise these proteins and to study their muscle functions. Moreover, this PhD work presents preliminary results of an in depth characterisation of subcellular processes of muscle degeneration in dystrophic worms by electron microscopy. Our aim is to visualise first events and to observe the progression of degeneration until the death of muscle cell. These molecular and cellular approaches aims to get new insights in the mechanisms underlying muscle degeneration in order to propose new hypotheses for the understanding of DMD Myopathie de Duchenne Dystrophine C. elegans Nématode Muscle Dégénérescence musculaire Zyxine Microscopie électronique Duchenne Muscular Dystrophy Dystrophin C. elegans Nematode Muscle Muscle degeneration Zyxin Electron Microscopy 573.75
434	Studies on the Ascaridia galli embryonal stages, potential maternal protection and immune response in chicken Rahimian, Shayan 04 November 2016 (has links) No description available. 630 Ascaridia galli Chicken Egg development Egg yolk Free-range Genetic IgY Incubation Infection model Nematode Protective immunity Land- und Forstwirtschaft (PPN621302791)
435	Plant-Parasitic Nematodes on Sugarbeet in North Dakota and Minnesota KC, Ashmit January 2019 (has links) Field surveys were conducted in the Red River Valley (RRV) of North Dakota and Minnesota during 2016 and 2017 to determine the incidence, abundance, and distribution of plant-parasitic nematodes (PPNs) on sugarbeet. Seventy-two and 65 % of the fields surveyed were positive for PPNs in 2016 and 2017, respectively. The major genera of PPNs identified from sugarbeet production fields were Heterodera, Helicotylenchus, Tylenchorhynchus, Paratylenchus, Pratylenchus, Paratrichodorus, Hoplolaimus, and Xiphinema. Eight of PPNs were identified at the species level using species-specific PCR assays, and sequencing of the ribosomal rDNA gene. Stubby-root nematode, Paratrichodorus allius, is one of the important nematode pests for sugarbeet production worldwide. An experiment was conducted to determine the host status of sugarbeet and their rotational crops for P. allius under greenhouse conditions. The results from two experiments indicated sugarbeet and most rotational crops support the reproduction of P. allius. / Sugarbeet Research and Education Board (Minn.) / Sugarbeet Research and Education Board (N.D.) / American Crystal Sugar Company Plant nematodes -- North Dakota. Plant nematodes -- Minnesota. Nematode diseases of plants.
436	Étude des déterminants génétiques de la pathogénicité chez les nématodes du genre Globodera Sabeh, Michael 07 1900 (has links) No description available. Nématode phytoparasite Phytopathogène Globodera Transcriptomique comparative Effecteur Pathogénicité Phytoparasitic nematode Phytopathogen Globodera Comparative transcriptomics Effector Pathogenicity
437	Host-status and host-sensitivity of hybrid sorghum-Sudan grass to tropical meloidogyne species and races and infection of the nematode-susceptible sweet potato from residual soil nematodes Selapa, Vision Tabi January 2021 (has links) Thesis (M. Sc. (Plant Protection)) -- University of Limpopo, 2021 / Worldwide, root-knot (Meloidogyne species) nematodes are considered to be the most important and damaging genus in crop husbandry. The existence of a wide host range, over 2000 plants, and several biological races, makes the management of this nematode genus difficult with nematode-resistant crop Hybrid Sorghum Sudan grass (Sorghum bicolor × Sorghum Sundanese) has been classified as being resistant to certain Meloidogyne species and races, with a wide range of uses in crop rotation intended to manage nematode population densities. However, due to the ability of nematodes to enter chemiobiosis when gradually exposed to chemicals, this hybrid might not be effective in managing nematode population densities for the subsequent highly susceptible sweet potato (Ipomoea batatas L.) cultivars. The objective of the study was to determine whether hybrid Sorghum-Sudan grass would suppress M. javanica (Trial 1), M. incognita race 2 (Trial 2) and M. incognita race 4 (Trial 3) population densities, allowing a nematode susceptible sweet potato cv. ′Beauregard′ as successor crop to be cultivated without suffering nematode damage. The hybrid Sorghum-Sudan grass study was conducted under greenhouse conditions, with seven inoculation levels, namely, 0; 5; 25; 125; 625; 3 125 and 15 625 eggs and second-stage juveniles (J2) of each nematode species or race, arranged in randomised complete block design, with six replications and validated in time. Plant growth, foliar nutrient elements and nematodes were collected at 56 days after inoculation and prepared for analysis using standard methods. The reproductive factor (RF) at all levels was zero, whereas nematode inoculation at all levels did not have any effect on plant growth of the hybrid Sorghum-Sudan grass. However, the nematode levels affected the accumulation of nutrient elements and the quality of forage. After cultivating the susceptible sweet potato cultivar in pots xxx previously with hybrid Sorghum-Sudan grass at increasing levels of M. javanica alone, that is in Trial 1, similar results were observed with respect to RF and lack of nematode damage to plant growth. Consequently, the hybrid was suitable for use in crop rotation with sweet potato for the purpose of managing nematode population densities of thermophilic Meloidogyne species and/or races. / National Research Foundation of South Africa (NRF) and the Agricultural Research Council (ARC) Root-knot Nematodes Crop husbandry Meloidogyne species Nematode-resistant crops Soil pests Root-knot nematodes Hybrid sorghum Crop rotation Plant nematodes Sudan grass Sweet potatoes -- Diseases and pests
438	Regulation of Innate Immunity in the C. elegans Intestine by Olfactory Neurons Foster, Kyle J. 11 September 2020 (has links) The intestinal epithelium represents one of the first lines of defense against pathogenic bacteria. Immune regulation at this critical barrier is necessary to maintain organismal fitness, and mis-regulation here has been linked to numerous debilitating diseases. Functional relationships between the nervous system and immune system have been found to be critical in the proper coordination of immune defenses at barrier surfaces, however the precise mechanisms underlying theses interactions remains unclear. Through conducting a forward genetic screen utilizing the model organism Caenorhabditis elegans, we uncovered a surprising requirement for the olfactory neuron gene olrn-1 in the regulation of intestinal epithelial immunity. During nematode development, olrn-1 is required to program the expression of odorant receptors in the AWC olfactory neuron pair. Here, we show that olrn-1 also functions in AWC neurons in the cell non-autonomous suppression of the canonical p38 MAPK PMK-1 immune pathway in the intestine. Low activity of OLRN-1, which activates the p38 MAPK signaling cassette in AWC neurons during larval development, also de-represses the p38 MAPK PMK-1 pathway in the intestine to promote immune effector transcription, increased clearance of an intestinal pathogen and resistance to bacterial infection. However, derepression of the p38 MAPK PMK-1 pathway also results in severe developmental and reproductive defects, demonstrating the critical function of OLRN-1 to both prime C. elegans intestinal epithelial cells for the induction of anti-pathogen responses, and to limit the deleterious effects of immune hyper-activation. These data reveal an unexpected connection between olfactory receptor development and innate immunity, as well as demonstrate how neuronal regulation of immune responses within the intestinal epithelium is critical for both reproductive and developmental fitness. C. elegans Nematode Immunity Neurons Intestine Pathogen Infection Sensory Neuron Pathogenesis p38 immune regulation Biology Immunity Immunology of Infectious Disease Microbiology Neuroscience and Neurobiology
439	The use of free-living estuarine nematodes as pollution educators in the Incomati River Estuary, Mozambique Soko, Mthobisi Innocent 04 1900 (has links) The Incomati River Estuary is prone to pollutants from anthropogenic activities such as agricultural and industrial activities in the upper catchments. The main aim of the study was to use free-living nematodes as pollution indicators in the Incomati River Estuary. The main objectives were to determine the relationship between nematodes assemblage and environmental variables, and to identify environmental factors that play a role in nematodes community structuring. Lastly, it was to identify free-living nematode genera that can be used as pollution indicators in the Incomati River Estuary. Four sites were selected following the salinity gradient of the Incomati River Estuary. Site E1 with a salinity range of 0-3NST (Oligohaline Zone), E2 with a salinity 3-5NST (Euhaline Zone), E3 with a salinity 6-18NST (Mesohaline Zone), and E4 with 20-27 NST (Polyhaline Zone) were selected and monitored bi-monthly from June 2017 to April 2018. Two sediments samples were collected per site during neap tide using a handheld perplex corer which was 1m long with a 3.6 diameter and 10cm penetration height. Plastic bottles with a height of 13cm and a diameter of 7cm were used to store the sediment samples. One of the two sediment samples was used for free-living nematodes, and the other bottle was used for the analysis of environmental factors. All environmental factors were analysed at Labserve Laboratory, Mbombela Town, Mpumalanga Province. Sediment particle size and organic matter analyses were done following the procedure set by Parker (1983) and Buchanan (1971) respectively. Metal analysis was done following the procedure used by Gyedu-Ababio et al.1999. Nutrients were done using different methods. For nitrates (NO3) analysis, a copper cadmium method by Bate and Heelas, 1975 was used, while a method designed by Strickland and Parson, 1972 was used to analyse orthophosphate. A mixed acid digestion procedure of Oles and Dean 1965 was followed for total phosphate. A method by Lorenzen and Jeffrey, 1980 was used for the analysis of chlorophyll-a. Heterotrophic bacteria analysis were done following a procedure by (Atlas, 1997). Nematodes were extracted using a method by Furstenberg et al.1978, with sucrose as a separating agent. Nematodes were counted following a procedure by Giere, 1993. Nematodes feeding types were investigated using Wieser, 1953 procedure. Different statistical packages including PRIMER version 6 were used to analyse the data. A Bray-Curtis Cluster analysis indicated a similarity between sites E1 (Oligohaline Zone) and E2 (Euhaline Zone), and between site E3 (Mesohaline Zone) and E4 (Polyhaline Zone) which was attributed to similar sediment particle sizes distribution within the sites. There was no significant difference (p>0.05) of sediments particle size between the sites. The highest concentration of metals was found at site E2 which was situated in the Euhaline Zone, whilst the second highest concentration was found at site E1 which was situated in the Oligohaline Zone. A PERMANOVA analysis indicated that there was a significant difference (p<0.05) of Metal concentration between sites sampled. The PCA analyses indicated that there was a positive correlation between Metals and Sediment Particle Size such as Granules. It was observed that sediment particle size and organic matter influenced the distribution of metals in the Estuary. The highest concentration of chlorophyll-a and nitrates (NO3) were found at site E3 which was situated in the Mesohaline Zone, and the second highest was found at site E4 which was situated in the Polyhaline Zone. There was a positive correlation between Heterotrophic bacteria and environmental factors such as zinc, fine sand, very fine sand and mud. This indicated that certain metals and sediment particles size played a role in structuring food source for meiofauna, especially nematodes. The number of free-living nematodes were found to decrease towards site E1. This indicated that salinity influenced the diversity and density of free-living nematodes in the estuary. Site E2 had the lowest diversity and richness followed by site E1. The lower diversity, richness and Maturity Index at site E2 and E1 indicated that these sites were under stress. A Bray-Curtis Cluster analysis indicated that there was a spatio-temporal variation of diversity and density of free-living nematodes in the estuary. All four nematodes feeding types were found in the Estuary and feeding type 1B was the dominant feeding type at the sites, followed by feeding type 2A. The highest number of feeding type 1B (non-selective deposit feeders) was identified at site E2. The life strategy characterisation (colonizer- persisters) indicated that site E2 was dominated by colonizer and intermediate genera (c-p 2 and 3), which indicated that the site was under stress. The study found that genera such as Terschellingia and Theristus were pollution indicators because they were found in higher abundance at a site that was mostly polluted by metals, organic matter, and total phosphate. Further studies in other River Estuaries in South Africa and SADC should be undertaken to add to the findings of the current study. / Environmental Studies / Ph. D. (Environmental Sciences) Free-living nematodes Nutrients Pollution Total organic matter Estuary and metals 632.6257 Nematodes -- Research -- Mozambique Estuarine pollution -- Mozambique Nematodes -- Food -- Mozambique
440	Incidence, clinical appraisal and treatment of haemonchosis in small ruminants of resource-poor areas in South Africa Vatta, Adriano Francis 23 February 2003 (has links) A novel clinical assay for the assessment and subsequent treatment of Haemonchus infection in sheep to slow down the development of anthelmintic resistance – the FAMACHA / Dissertation (MSc)--University of Pretoria, 2001. / Veterinary Tropical Diseases / unrestricted Body condition score Eye colour chart Anthelmintic resistance Clinical assay FAMACHA© Sheep Haemonchus spp Faecal nematode and trematode egg counts Goats Haematocrit UCTD

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