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Avaliação de danos induzidos em ratos Wistar (Rattus norvergicus) expostos ao extrato aquoso de neem (Azadirachta indica) em mesmas concentrações utilizadas na lavoura de milho (Zea mays) para o controle da lagarta do cartucho (Spodoptera frugiperda) / Evaluation of induced damages in Wistar rats exposed to neem (Azadirachta indica) aqueous extract at the same concentrations used in corn (Zea mays) plantation for control fall armyworm (Spodoptera frugiperda)Cardoso, Celi Aparecida 04 December 2018 (has links)
As dificuldades técnicas atuais para o manejo e controle de pragas que atacam as lavouras em nosso país, vêm incentivando a busca por métodos de controle alternativos e/ou complementares aos convencionais, destacando-se o potencial dos inseticidas botânicos. O Neem é uma planta nativa da Índia pertencente à família Meliaceae, conhecida popularmente como Nim ou Neem e tem sido usada por séculos no Oriente como: planta medicinal no tratamento de inflamações, infecções virais, hipertensão e febre, planta sombreadora, repelente, material para construção, combustível, lubrificante, adubo e mais recentemente como praguicida natural. Mesmo alavancada pela produção orgânica de alimentos, o uso de bioinseticidas ainda carece de mais pesquisas acerca de cada formulação principalmente sua ação sobre os organismos, sendo assim esta pesquisa visou avaliar os efeitos do extrato aquoso das folhas de Neem (Azadiractha indica) em ratos Wistar machos em idade reprodutiva, objetivando avaliar quais possíveis danos induzidos a exposição por oito dias ao extrato da planta pode resultar e também avaliar sua capacidade contraceptiva trazendo respostas importantes afim de se conhecer esta importante alternativa ao uso de agrotóxicos sintéticos. Para este estudo foram utilizados 20 ratos Wistar que foram divididos em 4 grupos compostos por 5 animais cada, sendo: G1 - 10.000ppm, G2 - 7.500ppm, G3 - 5.000 ppm e G4 - controle com água destilada. O volume administrado foi padronizado em 1 ml para cada animal e a administração deu-se por gavagem, por oito dias. Para se estudar as reações ocasionadas pelo tratamento realizamos nos animais após a administração das diferentes doses do composto o reconhecimento de sinais clínicos de toxicidade, a investigação das alterações fisiológicas, análise da qualidade do sêmen e avaliação macro e microscópicas dos órgãos alvo fígado, rins e testículos. Nossos resultados apontam que o extrato aquoso de Neem administrado por oito dias, via oral, nas doses empregadas apresentou baixa toxicidade, uma vez que não foi revelada nenhuma alteração nos quesitos avaliados, contudo apresentou resultados que levam a considerar sua capacidade contraceptiva, por terem alterando de forma negativa a motilidade e viabilidade espermática nas maiores doses administradas. / The current technical difficulties for the management and control of pests that attack the crops in our country have been encouraging the search for alternative and / or complementary control methods to conventional ones, highlighting the potential of the botanical insecticides. Neem is a plant native to India belonging to the family Meliaceae, popularly known as Nim or Neem and has been used for centuries in the East as: medicinal plant (in the treatment of inflammation, viral infections, hypertension and fever), shading plant, repellent, building material, fuel, lubricant, fertilizer and more recently as natural pesticide. Even though the use of bio-insecticides is still underpinned by organic food production, there is still a need for more research on each formulation, especially its action on organisms. This research aimed to evaluate the effects of the aqueous extract of Neem leaves (Azadiractha indica) on Wistar rats males of reproductive age, aiming to evaluate which possible induced damages the exposure for eight days to the extract of the plant can result and also to evaluate its contraceptive capacity bringing important answers in order to know this important alternative to the use of synthetic agrochemicals. For this study 20 Wistar rats were divided into 4 groups composed of 5 animals each, being: G1 - 10.000ppm, G2 - 7,500ppm, G3 - 5,000 ppm and G4 - control with distilled water. The volume administered was standardized in 1 ml for each animal and administration was given by gavage for eight days. In order to study the reactions caused by the treatment, the clinical signs of toxicity were confirmed in the animals after administration of the different doses of the compound, investigation of physiological changes after administration of the extract, analysis of the semen quality and macro and microscopic evaluation of the organs target liver, kidneys and testicles. After analysis of the results obtained it can be considered that the aqueous extract of Neem administered for eight days, orally, in the doses used presented low toxicity, since no changes were revealed in the evaluated items, however presented results that lead to consider its contraceptive capacity, because it has negatively altered motility and sperm viability at the highest doses administered.
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Etude d’un insecticide naturel nommé PA1b : Mécanisme d’action et expression hétérologue / Study of a natural insecticide named PA1b : Mechanism of action and heterologous expressionEyraud, Vanessa 26 February 2014 (has links)
Dans un contexte où l’utilisation de substance chimique en agriculture est de plus en plus décriée, il est nécessaire de trouver de nouveaux moyens de protections des cultures, tout en maintenant une agriculture économiquement performante. Ainsi, un peptide extrait de graines de pois nommée PA1b (Pea Albumin 1 sous-unité b), présentant une forte activité insecticide a été découvert au laboratoire. PA1b provoque chez l’insecte modèle du laboratoire, le charançon des céréales Sitophilus sp., 100% de mortalité. L’action de PA1b passe par la liaison à un récepteur présent chez les charançons sensibles, et cette liaison est absente chez les charançons résistants ; ce récepteur est une pompe à protons nommée V-ATPase pour Vacuolar ATPase. Elle est composée de 14 sous-unités organisées en deux complexes protéiques nommés V1 (intracellulaire) et V0 (membranaire). PA1b agissant à l’extérieur des cellules seul le complexe V0 composé des sous - unités a, c, d et e pouvait être le récepteur de notre toxine. Mon premier objectif de thèse a été de comprendre le mode d’action de PA1b, en identifiant d’abord la ou les sous-unités réceptrices de PA1b, puis en recherchant par quel mécanisme la liaison de PA1b induit la mort de l’insecte. Nous avons cloné chez le charançon tous les gènes du complexe Vo, puis j’ai complémenté des levures déficientes pour ces gènes. Ce travail, mais également celui réalisé en collaboration avec d’autres équipes, nous a permis de proposer un modèle de perception de PA1b qui implique les sous-unités c et e de la V-ATPase, et permet également de proposer des hypothèses pour les différentes résistances au peptide. Par des méthodes d’immunohistologie et de biochimie, j’ai ensuite montré de manière concordante que la liaison de PA1b à la V-ATPase déclenche un phénomène d’apoptose qui conduit à la mort cellulaire, puis à la mort de l’insecte. Le second objectif de ma thèse était la mise en place d’un système de production hétérologue de PA1b. Grâce à l’expression hétérologue par infiltration de feuille de tabac (Nicotiana benthamiana) nous avons mis en place une technique de production efficace de la protéine PA1b. Après avoir déterminé les parties du gène codant PA1b nécessaires à la production de la protéine fonctionnelle, le système de production a ensuite été simplifié par la construction d’une cassette d’expression. Ainsi six isoformes de PA1b présents chez le pois, dont l’activité individuelle restait inconnue, ont été produits et testés, permettant de montrer que le caractère amphiphile de PA1b était primordial pour son activité. Par cette technique nous avons mis en place un système de production rapide et efficace permettant de tester la toxicité de nombreux isoformes de PA1b. Ce travail sera une aide précieuse pour le projet, dont l’un des objectifs majeurs est l’optimisation de PA1b, c’est-à-dire de déterminer la séquence peptidique la plus toxique. / In a context where chemical pesticides are increasingly criticized, new crops protection strategies that do not affect agriculture efficiency and productivity, must be found. A new peptide extracted from pea (Pisum sativum) seeds, named PA1b (Pea albumin 1 subunit b), and showing an important insecticide activity, was discovered in our laboratory. PA1b induces 100% mortality in our insect model, the cereal weevil, Sitophilus sp. PA1b acts by interacting with a receptor, this interaction is present in sensitive weevil, but not present in resistant weevil. The PA1b receptor is the vacuolar H+ -ATPase (V-ATPase), a multi-subunit proton pump. The V-ATPase is composed of two functional protein complexes named V1 (in the cytoplasm) and V0 (in the membrane). As PA1b is known to act only in the extracellular space, thus only the V0 complex, composed on the subunits a, c, d and e, can be the toxin receptor. The first aim of this thesis is to understand the PA1b mode of action: (i) identifying the subunit(s) acting as the receptor(s), (ii) understanding how the binding mechanism of PA1b on the receptor lead to the insect death. The weevil V0 complex genes were cloned and we used them for a functional complementation tests in yeasts strains deleted for these genes. Our data, together with those obtained through collaboration, lead to the proposal of model for the PA1b perception signaling which would involve subunits c and e of the V-ATPase. The identification of the PA1b receptor allows us to propose a hypothetical model explaining resistance mechanism to the peptide. Using immunohistology and biochemistry methods, we showed that PA1b-receptor interaction induced cells death triggered by apoptosis thus leading to insect death. The second aim of this thesis was the development of a PA1b heterologous production system. Through Agrobacterium tumefaciens mediated transient transformation by infiltration in tobacco leaves (Nicotiana benthamiana) an efficient system for PA1b production was developed. After identification of the essential parts of the complex PA1 gene necessary for efficient PA1b production, we created an expression cassette to simplify our heterologous production system. We used the system to produce six pea PA1b-isoformes with unknown individual toxic activity. The isoforms toxicity was experimentally determined, and our data showed that the amphiphilic properties of PA1b are essential for the maintenance of its toxic activity. For the first time, we implemented a quick and efficient production system, which allows to produce and to test many naturals or synthetics PA1b isoforms. This work will be useful to achieve one of the most important objectives of the research on this molecule, that is the identification.
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Enhancing insecticide activity of anacardic acid by intercalating it into MgAl layered double hydroxides nanoparticles / Tăng cường hiệu lực diệt sâu của anacardic acid bằng cách gắn chèn nó vào hạt nano lớp đôi hydroxides MgAlNguyen, T. Nhu Quynh, Le, Van Anh, Hua, Quyet Chien, Nguyen, Tien Thang 09 December 2015 (has links) (PDF)
MgAl layered double hydroxides nanoparticles (LDHs) are known as the useful materials in agrochemsitry. LDHs can be used as a bio-insecticide carrier to enhance insecticide’s activity efficiency. In our study, to improve the insecticide activity of anacardic acid, an extract from cashew nut shell liquid, we intercalated it MgAl layered double hydroxides nanoparticles. Different hybridization between anacardic acid and LDHs (37, 74, 148, and 296μg/mL) (L-As) were made and tested on the survivals of cutworms (Spodoptera litura). L-As or free anacardic acid was sprayed directly on the leaves mustard to feed cutworms or directly on the skin of cutworms. Our results showed that in all L-As treatments, the worm killing efficiency was higher than the free anacardic acid treatment. / Hạt nano lớp đôi hydroxides MgAl (LDHs) được biết đến như là những vật liệu hữu ích trong nông ngành hóa học nông nghiệp. LDHs có thể được dùng như là một loại chất mang cho thuốc trừ sâu sinh học để tăng cường hiệu lực diệt sâu. Trong nghiên cứu này, để tăng cường hiệu lực diệt sâu của anacardic acid, một loại hoạt chất được chiết từ dầu vỏ hạt điều, chúng tôi đã gắn chèn nó lên hạt nano lớp đôi hydroxides MgAl. Các nồng độ khác nhau của dạng lai của anacardic và LDHs (37, 74, 148 và 296μg/mL) (L-As) đã được kiểm tra tỷ lệ sống của ấu trùng sâu khoang (Spodoptera litura). Các nghiệm thức L-As và dạng anacardic acid tự do đã được phun lên lá rau cải ngọt cho ấu trùng sâu ăn hoặc phun trực tiếp lên da ấu trùng sâu. Kết quả cho thấy, tất cả các công thức có xử lý bằng L-As, hiệu lực diệt ấu trùng sâu đều cao hơn so với dạng anacardic acid ở trạng thái tự do.
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Enhancing insecticide activity of anacardic acid by intercalating it into MgAl layered double hydroxides nanoparticles: Research articleNguyen, T. Nhu Quynh, Le, Van Anh, Hua, Quyet Chien, Nguyen, Tien Thang 09 December 2015 (has links)
MgAl layered double hydroxides nanoparticles (LDHs) are known as the useful materials in agrochemsitry. LDHs can be used as a bio-insecticide carrier to enhance insecticide’s activity efficiency. In our study, to improve the insecticide activity of anacardic acid, an extract from cashew nut shell liquid, we intercalated it MgAl layered double hydroxides nanoparticles. Different hybridization between anacardic acid and LDHs (37, 74, 148, and 296μg/mL) (L-As) were made and tested on the survivals of cutworms (Spodoptera litura). L-As or free anacardic acid was sprayed directly on the leaves mustard to feed cutworms or directly on the skin of cutworms. Our results showed that in all L-As treatments, the worm killing efficiency was higher than the free anacardic acid treatment. / Hạt nano lớp đôi hydroxides MgAl (LDHs) được biết đến như là những vật liệu hữu ích trong nông ngành hóa học nông nghiệp. LDHs có thể được dùng như là một loại chất mang cho thuốc trừ sâu sinh học để tăng cường hiệu lực diệt sâu. Trong nghiên cứu này, để tăng cường hiệu lực diệt sâu của anacardic acid, một loại hoạt chất được chiết từ dầu vỏ hạt điều, chúng tôi đã gắn chèn nó lên hạt nano lớp đôi hydroxides MgAl. Các nồng độ khác nhau của dạng lai của anacardic và LDHs (37, 74, 148 và 296μg/mL) (L-As) đã được kiểm tra tỷ lệ sống của ấu trùng sâu khoang (Spodoptera litura). Các nghiệm thức L-As và dạng anacardic acid tự do đã được phun lên lá rau cải ngọt cho ấu trùng sâu ăn hoặc phun trực tiếp lên da ấu trùng sâu. Kết quả cho thấy, tất cả các công thức có xử lý bằng L-As, hiệu lực diệt ấu trùng sâu đều cao hơn so với dạng anacardic acid ở trạng thái tự do.
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