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11	Engineering Resistance to <i>Orobanche</i> <i>aegyptiaca</i>: Evidence of Sarcotoxin IA as an Anti-Parasite Protein and Macromolecule Movement From Host to Parasite Hamamouch, Noureddine 15 March 2004 (has links) <i>Orobanche</i> species are parasitic weeds that subsist on the roots of many dicotyledonous plants. These parasites form symplastic and apoplastic connections with their hosts and act as strong sinks for the uptake of water, minerals, and photosynthates, often causing severe damage to the hosts. Although the uptake of small molecules such as sugars and herbicides by <i>Orobanche</i> has been documented, movement of macromolecules between host and parasite has not been characterized. The objectives of this research were to 1) determine whether, and by what route, host macromolecules can be translocated to the parasite, and 2) engineer host resistance based on inducible expression of sarcotoxin IA, an anti-microbial peptide from the flesh fly (<i>Sarcophaga peregrina</i>). To address the first objective, transgenic plants expressing GFP localized to either the host cell cytosol (symplast) or secreted to the extra-cellular space (apoplast) were parasitized by <i>O. aegyptiaca</i>. Observations of green fluorescence in <i>O. aegyptiaca</i> tubercles growing on these plants indicate that the 27 kDa GFP molecule was translocated to the parasite via both symplastic and apoplastic routes. This work was supported by studies with xylem- and phloem-specific dyes, which showed that fluorescent dextrans as large as 70 kDa moved into the parasite through xylem connections. The second objective was addressed using tobacco (<i>Nicotiana tabacum</i> L. cv. Xanthi) plants expressing the sarcotoxin IA transgene under control of the parasite-inducible <i>HMG2</i> promoter. In soil experiments, transgenic tobacco plants had greater height and biomass, and showed up to 90% reduction in <i>O. ramosa</i> parasitism as measured by the fresh weight of parasite tubercles. In a semi-hydroponic growth system, where <i>Orobanche</i> tubercles can be visualized at early stages of growth, <i>O. aegyptiaca</i> parasites growing on plants expressing sarcotoxin IA were smaller and had an increased number of senescent tubercles compared to those growing on non-transformed plants. Considering the relatively small size of sarcotoxin IA (4 kDa), it is likely that this peptide moves from host to the parasite, where it accumulates to phytotoxic concentrations. In addition to increasing our knowledge of host-<i>Orobanche</i> interactions, this research used an antibiotic peptide to engineer partial <i>Orobanche</i> resistance into a highly susceptible crop. This strategy has broad implications for the control of other parasitic weeds. / Ph. D. Egyptian broomrape Protein movement Orobanche ramosa GFP Orobanche aegyptiaca Carboxyfluorescein Texas-Red labeled dextran Sarcotoxin IA Resistance
12	De levandes gåvor och de dödas efterlämningar : -En kemisk analys på harts och ökendadel (Balanites aegyptiaca) från två egyptiska kärl Biström Freij, Felicia January 2014 (has links) This paper aims to investigate the embalming process and the Balanites aegyptiaca from two pottery originated in ancient Egypt. The two objects were from Medelhavsmuseet in Stockholm. Samples were collected and analyzed with Fourier transform infrared spectrometry (FTIR) and Gas chromatography/mass spectrometry to identify which components the samples contained. The results show complex mixtures mainly consisting of resin origin from Pinaceae and the vegetable oils from the Balanites aegyptiaca. Archaeological science Laborativ arkeologi Ancient Egypt Forntida Egypten Resin Harts Embalming Balsamering Balanites aegyptiaca Ökendadel Fourier transform infrared spectroscopy Gas chromatography–mass spectrometry Gaskromatografi med masspektrometri
13	Assessment of fuelwood resources in acacia woodlands in the Rift Valley of Ethiopia : towards the development of planning tools for sustainable management / Getachew Eshete. January 1900 (has links) (PDF) Diss. (sammanfattning) Umeå : Sveriges lantbruksuniv. / Härtill 5 uppsatser.
14	The habitat use, temporal distribution and preferred weather conditions of Tadarida aegyptiaca and Neoromicia capensis, and its application to wind farm development in South Africa Moir, Monika Ilka 08 October 2014 (has links) M.Sc. (Biodiversity and Conservation) / The relative activity levels of the Egyptian free-tailed bat (Tadarida aegyptiaca) and Cape serotine bat (Neoromicia capensis) were monitored in eight study areas spanning across the Eastern Cape, Western Cape and Northern Cape of South Africa. The detected activity levels were then used to study the habitat use and temporal distribution (across the night and months of monitoring period) of both species. The effect of weather conditions (namely temperature, relative humidity, wind speed, precipitation and barometric pressure), moon phase and moonlight on activity was also examined. The understanding of these aspects of the ecology of N. capensis and T. aegyptiaca were then used as guidelines to conserve these species with regards to wind farm development in South Africa. Bat activity was monitored by means of a total of seventeen passive monitoring systems consisting of SM2BAT+ bat detectors. The monitoring systems were deployed on the study areas to detect and record bat echolocation calls on a continuous basis throughout the night. Activity was recorded for a variable length of time, between 3 and 12 months, for each study area. The bat detectors were powered by solar energy systems. Habitat use by these species was analysed by comparing the activity amongst the different study areas. Both species showed considerable activity in most study areas depicting them to mostly be generalists inhabiting many habitats across the country. Bat activity amongst the different land use types, vegetation types and climate regions was studied. N. capensis showed significantly higher activity in a fruit farming area and T. aegyptiaca was significantly less abundant in dry and arid conditions than cooler humid environments. The preference for habitat based on altitude and height above the ground was assessed. The highest activity occurred in coastal regions of 0 – 500 m altitude. N. capensis was found to prefer activity at canopy height, and T. aegyptiaca is more of an opportunistic species making use of the most profitable vertical airspace at any one time Analysis of the hourly and monthly distribution of bat activity showed that it can be highly variable across a range of temporal scales from all study areas. On a broad scale, N. capensis was found to limit nightly activity within the first four hours of sunset, mostly peaking within the second hour. T. aegyptiaca tends towards peak activity within the first three hours of the evening, thereafter sustaining more or less constant activity until the ninth hour after sunset. For both N. capensis and T. aegyptiaca, activity in the Eastern Cape is greater over the months of September to March. Western Cape activity shows a general increase into the warm months of September – December followed by a decrease over the hot months of January and February. From the limited data set, activity in the Northern Cape seems to be highest over the months of November, December and April... Bats - Behavior - South Africa Bats - Conservation - South Africa Bats - Detection - South Africa Tadarida aegyptiaca Egyptian free-tailed bat Neoromicia capensis Cape serotine bat
15	Caractérisations biochimique et microscopique du piège extracellulaire de racine et des exsudats racinaires de trois essences ligneuses sahéliennes : balanites aegyptiaca D., Acacia tortilis subsp. raddiana S., et tamarindus indica L / Biochemical and microscopic characterization of the root extracellular root trap and root exudates of three Sahelian woody seedlings : Balanites aegyptiaca D., Acacia tortilis subsp. raddiana S. and Tamarundus indica L. Carreras, Alexis 28 March 2018 (has links) La coiffe racinaire est cruciale à la croissance et survie du méristème subapical de racine. Elle libère des cellules frontières (CFs) qui assurent la protection de l’apex racinaire. Les CFs associées à leur mucilage forment le piège extracellaire de racine (RET). La caractérisation du RET et des exsudats racinaires de trois essences ligneuses sahéliennes à partir de plantules cultivées in vitro a été réalisée. B. aegyptiaca et A. raddiana prospèrent dans les zones semi-arides, à l’opposé de T. indica. La morphologie des CFs et l’organisation du RET ont été déterminées par microscopie. La compostion en glycopolymères et la détection des arabinogalactanes proteines (AGPs) dans le RET et les exsudats racinaires ont été déterminées par des analyses biochimiques. L’effet des exsudats racinaires sur la croissance d’Azospirillum brasilense, une bactérie bénéfique pour la plante a été évalué. B. aegyptiaca produit des CFs de type border cells (BCs) alors que les autres Fabaceae produisent des BCs et des border-like cells. Les BCs sont entourées d’un dense mucilage riche en polymères de paroi. Le RET et les exsudats racinaires issus de B. aegyptiaca et A. raddiana sont plus riches en AGPs que ceux provenant T. indica. Les AGPs pourraient contribuer à la survie des plantules dans un contexte semiaride. Ce travail ouvre de nouvelles perspectives de recherche concernant l'implication du RET dans la survie des plantes à l'aridité. / The root cap is primordial for seedling growth and supports root apical meristem integrity. The root cap releases root border cells (RBCs) that surround the root tip and ensure seedling protection against numerous stresses. RBCs and their associated mucilage form the root extracellular trap (RET). Here, RET and root exudate characterization of three Sahelian woody seedlings are performed. In contrast to B. aegyptiaca and A. raddiana which thrive in semi-arid areas, T. indica is more sensitive to drought. B. aegyptiaca, A. raddiana and T. indica seedlings were sub-cultured in vitro. RBC morphologies and RET organization were determined using microscopic approaches. The polysaccharide composition and arabinogalactan protein (AGP) content were determined by biochemical approaches in the RET and the root exudates. Moreover, the effect of root exudates on the growth of Azospirillum brasilense a plant benefical bacteria has been performed. While B. aegyptiaca produces only border cell (BC) type, the two Fabaceae seedlings release both BCs and border-like cells (BLCs). BCs are enclosed in a dense mucilage enriched in cell wall polymers. Compared to T. indica, RET and root exudates of B. aegyptiaca and A. raddiana include more abundant AGPs. In this context, AGPs could contribute to woody seedling survival. This work opens new research perspectives regarding involvement of RET in plant survival to aridity. Arabinogalactanes protéines (AGPs) Balanites aegyptiaca Acacia tortilis subsp raddiana Tamarindus indica Azospirillum brasilense Piège extracellulaire de racine (RET) Exsudats racinaires Cellules frontières (CFs) Ligneux Arabinogalactan proteins (AGPs) Balanites aegyptiaca Acacia tortilis subsp raddiana Tamarindus indica Azospirillum brasilense Root extracellular trap (RET) Root exudates Root border cells (RBCs) Woody plants 571.2

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