Global ETD Search

11	Bactérias simbiontes associadas à abelha sem ferrão Melipona scutellaris como fontes de produtos naturais bioativos / Bacterial symbionts associated with the stingless bee Melipona scutellaris as sources of bioactive natural products Menegatti, Carla 21 September 2016 (has links) Os produtos naturais desempenham fundamental importância na descoberta de novos fármacos. Muitos destes fármacos originaram-se de produtos naturais microbianos o que demonstra uma extrema eficiência na habilidade dos micro-organismos de sintetizar substâncias químicas com elevado potencial biológico. Sabe-se que os insetos sociais estão sujeitos a condições climáticas e populacionais que aumentam sua susceptibilidade a parasitas. Assim, estes insetos desenvolveram um mecanismo de defesa evolutivo que consiste na associação simbiótica a bactérias capazes de biossintetizar produtos antimicrobianos contra os patógenos. Dispondo dessas informações, o presente trabalho contribuiu com o estudo dos produtos naturais biossintetizados pela bactéria Paenibacillus polymyxa ALLI-03-01, provável simbionte da espécie de abelha sem ferrão Melipona scutellaris. Os micro-organismos foram isolados de colônias mantidas no Departamento de Biologia da FFCLRP-USP. Todas as linhagens foram testadas contra dois fungos entomopatogênicos - Beauveria bassiana e Metarhizium anisopliae; os que apresentaram atividade antifúngica tiveram seus extratos em acetato de etila e metanol preparados e foram avaliados em ensaios antiparasitários contra Trypanosoma cruzi e Leishmania donovani. A bactéria ALLI-03-01, isolada do alimento larval, foi escolhida para os estudos químicos, pois apresentou satisfatória atividade antifúngica e proeminente atividade antiparasitária. Este micro-organismo foi identificado pelo sequenciamento do gene 16S rRNA como sendo a bactéria Paenibacillus polymyxa, conhecida pela alta capacidade de produção de metabólitos secundários. Para conhecer seu metabolismo, esta bactéria foi cultivada em meio ISP-2 ágar e líquido e do extrato em acetato de etila do cultivo fermentativo de P. polymyxa ALLI-03-01 foi isolado o ácido L-3-fenil lático. As atividades antifúngicas dos padrões comerciais dos ácidos D-(+)- e L-(-)- 3-fenil lático foram testadas frente ao fungo entomopatogênico B. bassiana e apenas o enantiômero L apresentou atividade antifúngica. Do extrato em metanol do cultivo em meio sólido do mesmo micro-organismo foram identificados em mistura, principalmente por MALDI-TOF MS/MS, nove diferentes ciclolipodepsipeptídeos, da classe das Fusaricidinas. As fusaricidinas são conhecidas por apresentarem alta atividade anti-microbiana, que foi comprovada quando duas frações compostas por diferentes fusaricidinas foram testadas frente ao fungo entomopatogênico Metarhizium anisopliae e contra a bactéria patogênica Paenibacillus larvae. As frações apresentaram resultados satisfatórios de inibição contra ambos os patógenos, dessa maneira as fusaricidinas e a produção seletiva do ácido L-3-fenil lático por esta bactéria podem ser vias de proteção da colônia, evitando que patógenos destruam-na e permitindo o desenvolvimento sadio de larvas. Sendo assim, este trabalho relata pela primeira vez a possível relação simbiótica existente entre o micro-organismo Paenibacillus polymyxa ALLI-03-01 e a colônia de abelhas Melipona scutellaris, bem como a produção por este micro-organismo de compostos com alta atividade antimicrobiana que podem exercer o controle de parasitas dentro da colônia, estabelecendo assim, uma possível relação ecológica entre o micro-organismo destacado e as abelhas Melipona scutellaris. / Natural products play an important role in drug discovery. Several drugs have been discovered or developed from microbial natural products hits and leads showing a great efficiency of microorganisms to synthesize compounds with high biological potential. It is known that social insects are subjected to climate and population conditions that increase their susceptibility to parasites. Therefore, these insects have developed an evolutionary defense mechanism consisting in symbiotic association with bacteria capable of biosynthesize antimicrobial products against pathogens. In this context, this study contributed to the knowledge of natural products biosynthesized by the bacterium Paenibacillus polymyxa ALLI-03-01, a probable symbiont of the stingless bee Melipona scutellaris. Microorganisms were isolated from colonies maintained at the Department of Biology of FFCLRP-USP. All strains were tested against two entomopathogenic fungi - Beauveria bassiana and Metarhizium anisopliae; strains that showed antifungal activity had their ethyl acetate and methanol extracts prepared and evaluated against the parasites Trypanosoma cruzi and Leishmania donovani. The bacterium ALLI-03-01, isolated from larval food, was selected for chemical studies, due to its satisfactory antifungal activity and outstanding antiparasitic activity. This microorganism was identified by gene 16S rRNA sequencing as Paenibacillus polymyxa, a bacterium recognized for its ability of biosynthesize secondary metabolities. This bacterium was cultivated in ISP-2 agar and liquid medium and from the ethyl acetate extract of P. polymyxa ALLI-03-01 cultivated in liquid medium L-3-phenyllactic acid was isolated. The antifungal activity of comercial standards of D-(+)- and L-(-)-phenyllactic acid were tested against entomopathogenic fungus B. bassiana and only the L enantiomer presented antifungal activity. Nine cyclo lipodepsipeptides known as fusaricidins were identified in mixture using MALDI-TOF-MS/MS from the methanol extract of ALLI-03-01. The fusaricidins are recognized for their high antimicrobial activity, which was confirmed when two fractions composed by different fusaricidins were tested against the entomopathogenic fungus Metarhizium anisopliae and the pathogenic bacterium Paenibacillus larvae. The fractions showed satisfactory inhibition against both pathogens. Therefore, fusaricidins and selective production of L-3-phenyllactic acid by the bacterium may be colony protection resources, preventing the action of pathogens and allowing healthy larvae development. Therefore, this study reports for the first time a possible symbiotic relationship between Paenibacillus polymyxa ALLI-03-01 and the colony of M. scutellaris bees, as well as production of compounds with high antimicrobial activity by this microorganism that might act as parasite control agents within the colony, establishing a possible ecological relationship between the bacterium and M. scutellaris bees. ácido-L-3-fenil lático antimicrobial activity atividade antimicrobiana fusaricidinas fusaricidins insetos sociais L-3-phenyllactic acid micro-organismo simbionte Paenibacillus polymyxa ALLI-03-01 Paenibacillus polymyxa ALLI-03-01 social insects symbiont microorganism
12	Untersuchungen zum Infektionsmodus, immunologischen Nachweis und zur biologischen Bekämpfung von Leptosphaeria maculans (Desm) Ces. & de Not., dem Erreger der Wurzelhals- und Stängelfäule an Winterraps (Brassica napus L.) / Mode of infection, serological detection (ELISA) and biological control of stem canker of oilseed rape caused by Leptosphaeria maculans (Desm) Ces. & de Not. Zhao, Qinghua 12 July 2001 (has links) No description available. 630 Landwirtschaft Veterinärmedizin Agricultural Sciences Leptosphaeria maculans Wurzelhalsfäule Winterraps biologische Bekämpfung Infektionsmodus ELISA Pseudomonas fluorescens Paenibacillus polymyxa Leptosphaeria maculans blackleg oilseed rape biological control infection method ELISA Pseudomonas fluorescens Paenibacillus polymyxa 48.54 YA 000: Land- und Forstwirtschaft
13	Bactérias simbiontes associadas à abelha sem ferrão Melipona scutellaris como fontes de produtos naturais bioativos / Bacterial symbionts associated with the stingless bee Melipona scutellaris as sources of bioactive natural products Carla Menegatti 21 September 2016 (has links) Os produtos naturais desempenham fundamental importância na descoberta de novos fármacos. Muitos destes fármacos originaram-se de produtos naturais microbianos o que demonstra uma extrema eficiência na habilidade dos micro-organismos de sintetizar substâncias químicas com elevado potencial biológico. Sabe-se que os insetos sociais estão sujeitos a condições climáticas e populacionais que aumentam sua susceptibilidade a parasitas. Assim, estes insetos desenvolveram um mecanismo de defesa evolutivo que consiste na associação simbiótica a bactérias capazes de biossintetizar produtos antimicrobianos contra os patógenos. Dispondo dessas informações, o presente trabalho contribuiu com o estudo dos produtos naturais biossintetizados pela bactéria Paenibacillus polymyxa ALLI-03-01, provável simbionte da espécie de abelha sem ferrão Melipona scutellaris. Os micro-organismos foram isolados de colônias mantidas no Departamento de Biologia da FFCLRP-USP. Todas as linhagens foram testadas contra dois fungos entomopatogênicos - Beauveria bassiana e Metarhizium anisopliae; os que apresentaram atividade antifúngica tiveram seus extratos em acetato de etila e metanol preparados e foram avaliados em ensaios antiparasitários contra Trypanosoma cruzi e Leishmania donovani. A bactéria ALLI-03-01, isolada do alimento larval, foi escolhida para os estudos químicos, pois apresentou satisfatória atividade antifúngica e proeminente atividade antiparasitária. Este micro-organismo foi identificado pelo sequenciamento do gene 16S rRNA como sendo a bactéria Paenibacillus polymyxa, conhecida pela alta capacidade de produção de metabólitos secundários. Para conhecer seu metabolismo, esta bactéria foi cultivada em meio ISP-2 ágar e líquido e do extrato em acetato de etila do cultivo fermentativo de P. polymyxa ALLI-03-01 foi isolado o ácido L-3-fenil lático. As atividades antifúngicas dos padrões comerciais dos ácidos D-(+)- e L-(-)- 3-fenil lático foram testadas frente ao fungo entomopatogênico B. bassiana e apenas o enantiômero L apresentou atividade antifúngica. Do extrato em metanol do cultivo em meio sólido do mesmo micro-organismo foram identificados em mistura, principalmente por MALDI-TOF MS/MS, nove diferentes ciclolipodepsipeptídeos, da classe das Fusaricidinas. As fusaricidinas são conhecidas por apresentarem alta atividade anti-microbiana, que foi comprovada quando duas frações compostas por diferentes fusaricidinas foram testadas frente ao fungo entomopatogênico Metarhizium anisopliae e contra a bactéria patogênica Paenibacillus larvae. As frações apresentaram resultados satisfatórios de inibição contra ambos os patógenos, dessa maneira as fusaricidinas e a produção seletiva do ácido L-3-fenil lático por esta bactéria podem ser vias de proteção da colônia, evitando que patógenos destruam-na e permitindo o desenvolvimento sadio de larvas. Sendo assim, este trabalho relata pela primeira vez a possível relação simbiótica existente entre o micro-organismo Paenibacillus polymyxa ALLI-03-01 e a colônia de abelhas Melipona scutellaris, bem como a produção por este micro-organismo de compostos com alta atividade antimicrobiana que podem exercer o controle de parasitas dentro da colônia, estabelecendo assim, uma possível relação ecológica entre o micro-organismo destacado e as abelhas Melipona scutellaris. / Natural products play an important role in drug discovery. Several drugs have been discovered or developed from microbial natural products hits and leads showing a great efficiency of microorganisms to synthesize compounds with high biological potential. It is known that social insects are subjected to climate and population conditions that increase their susceptibility to parasites. Therefore, these insects have developed an evolutionary defense mechanism consisting in symbiotic association with bacteria capable of biosynthesize antimicrobial products against pathogens. In this context, this study contributed to the knowledge of natural products biosynthesized by the bacterium Paenibacillus polymyxa ALLI-03-01, a probable symbiont of the stingless bee Melipona scutellaris. Microorganisms were isolated from colonies maintained at the Department of Biology of FFCLRP-USP. All strains were tested against two entomopathogenic fungi - Beauveria bassiana and Metarhizium anisopliae; strains that showed antifungal activity had their ethyl acetate and methanol extracts prepared and evaluated against the parasites Trypanosoma cruzi and Leishmania donovani. The bacterium ALLI-03-01, isolated from larval food, was selected for chemical studies, due to its satisfactory antifungal activity and outstanding antiparasitic activity. This microorganism was identified by gene 16S rRNA sequencing as Paenibacillus polymyxa, a bacterium recognized for its ability of biosynthesize secondary metabolities. This bacterium was cultivated in ISP-2 agar and liquid medium and from the ethyl acetate extract of P. polymyxa ALLI-03-01 cultivated in liquid medium L-3-phenyllactic acid was isolated. The antifungal activity of comercial standards of D-(+)- and L-(-)-phenyllactic acid were tested against entomopathogenic fungus B. bassiana and only the L enantiomer presented antifungal activity. Nine cyclo lipodepsipeptides known as fusaricidins were identified in mixture using MALDI-TOF-MS/MS from the methanol extract of ALLI-03-01. The fusaricidins are recognized for their high antimicrobial activity, which was confirmed when two fractions composed by different fusaricidins were tested against the entomopathogenic fungus Metarhizium anisopliae and the pathogenic bacterium Paenibacillus larvae. The fractions showed satisfactory inhibition against both pathogens. Therefore, fusaricidins and selective production of L-3-phenyllactic acid by the bacterium may be colony protection resources, preventing the action of pathogens and allowing healthy larvae development. Therefore, this study reports for the first time a possible symbiotic relationship between Paenibacillus polymyxa ALLI-03-01 and the colony of M. scutellaris bees, as well as production of compounds with high antimicrobial activity by this microorganism that might act as parasite control agents within the colony, establishing a possible ecological relationship between the bacterium and M. scutellaris bees. ácido-L-3-fenil lático atividade antimicrobiana fusaricidinas insetos sociais micro-organismo simbionte Paenibacillus polymyxa ALLI-03-01 antimicrobial activity fusaricidins L-3-phenyllactic acid Paenibacillus polymyxa ALLI-03-01 social insects symbiont microorganism
14	Studies On Biodegradation Of Organic Flotation Collectors Using Bacillus polymyxa Chockalingam, Evvie 10 1900 (has links) Numerous organic reagents of diverse structural composition are employed in the froth flotation process for the beneficiation of non-metallic and sulphide ores. Alkyl xanthates are used as collectors for sulphide ores while amines and fatty acids are used for non-metallic ore beneficiation. Although these collector reagents react preferentially with the concerned minerals in the treated ore pulp, excess and unreacted concentration of these organic collectors end up in the mill process effluents. It has been known that even small concentrations of these organic reagents in water streams are toxic to water life, besides their deleterious influence on end stream processes during recycling. Bioremediation has long been recognised as an inexpensive, flexible and environmentally benign technique for waste water treatment. These organic flotation reagents are amenable to biological degradation. The major objective of this work is the degradation of solubilized collector reagents from aqueous solutions using a microbial technique. Bacillus polymyxa, a Gram-positive, neutrophilic, periflagellated heterotroph that occurs indigenously in soils and certain mineral deposits has been used in the bioremediation studies. Organic flotation reagents namely, dodecyl ammonium acetate (DAA), which is used as a collector for oxides and silicates, sodium isopropylxanthate which finds application in sulphide flotation and sodium oleate, mainly used for oxide and salt-type minerals, have been chosen for the degradation studies. Pure minerals of galena, pyrite, magnetite, quartz and calcite have been typically selected for these investigations. The growth of Bacillus polymyxa in the presence of these organic reagents at different concentrations has been assessed and the degradation of these reagents monitored. Attempts have been made to grow the bacterium in the presence of the organic reagents, both in the absence and presence of sucrose, by adaptation technique. Electrokinetic studies on the chosen minerals namely, galena, pyrite, quartz, calcite and magnetite have been carried out both in the presence of the organic reagents and Bacillus polymyxa cells or metabolite. Biological stripping of the adsorbed collector reagents from the mineral surfaces have been examined through FTIR spectroscopy. The progress of bioremoval of the organic reagents along with the generation of newer reaction products has also been monitored through uv-visible spectroscopic technique. The results of this study highlight that Bacillus polymyxa and its metabolic products bring about the degradation of the chosen organic flotation collectors. Further, the bacteria are able to utilise the collector reagents as carbon source for their growth, in the absence of added organic carbon (sucrose). Electrokinetic studies and examination by FTIR spectroscopy reveal that consequent to interaction with Bacillus polymyxa, significant surface modification on the mineral takes place. Probable mechanisms in the biodegradation processes are illustrated. Biological metabolic products responsible for bringing about the bio-deterioration have been analysed and characterised. Metallurgy Bacillus Polymyxa Flotation Reagents Metallurgy-Apparatus-Biodegradation Biodegradation Biochemical Transformation Waste Water Treatment Solubilized Collector Reagents
15	Molecular breeding for resistance to rhizomania in sugar beets / Lennefors, Britt-Louise, January 2006 (has links) (PDF) Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniversitet, 2006. / Härtill 5 uppsatser.
16	Epidemiology and management of the Indian peanut clump virus Delfosse, Philippe 28 January 2000 (has links) Groundnut or peanut (Arachis hypogaea L.) is an important legume cultivated in several developing countries in the tropics and subtropics. It plays a significant role as a food crop in regions with alarming population growth rates. The disease “peanut clump”, which is caused by viruses in the genus Pecluvirus, has been reported from India and from several countries of West Africa. In India, the causal agent is the Indian peanut clump virus (IPCV), which is transmitted by a soil-borne root parasite, Polymyxa graminis. The virus is also transmitted by infected seed and so far no economical method of control has been found. Therefore efforts have been concentrated on understanding the epidemiology of peanut clump disease with the aim of devising cultural methods of control. The work addressed in this thesis describes how investigation in various aspects of clump disease epidemiology, including identification of alternative hosts of the virus and the vector, and of factors that contribute to survival and spread of inoculum, has led to formulation of simple cultural practices that could reduce disease incidence. Seed transmission Arachis hypogaea Plasmodiophoromycetes Peanut Groundnut Pecluvirus Indian peanut clump virus IPCV PCV ELISA Serology Control Cultural practices Polymyxa graminis
17	Epidemiology and management of the Indian peanut clump virus Delfosse, Philippe 28 January 2000 (has links) Groundnut or peanut (Arachis hypogaea L.) is an important legume cultivated in several developing countries in the tropics and subtropics. It plays a significant role as a food crop in regions with alarming population growth rates. The disease “peanut clump”, which is caused by viruses in the genus Pecluvirus, has been reported from India and from several countries of West Africa. In India, the causal agent is the Indian peanut clump virus (IPCV), which is transmitted by a soil-borne root parasite, Polymyxa graminis. The virus is also transmitted by infected seed and so far no economical method of control has been found. Therefore efforts have been concentrated on understanding the epidemiology of peanut clump disease with the aim of devising cultural methods of control. The work addressed in this thesis describes how investigation in various aspects of clump disease epidemiology, including identification of alternative hosts of the virus and the vector, and of factors that contribute to survival and spread of inoculum, has led to formulation of simple cultural practices that could reduce disease incidence. Seed transmission Arachis hypogaea Plasmodiophoromycetes Peanut Groundnut Pecluvirus Indian peanut clump virus IPCV PCV ELISA Serology Control Cultural practices Polymyxa graminis
18	Occurrence, spread and pathogenicity of different Beet necrotic yellow vein virus (BNYVV) isolates / Vorkommen, Verbreitung und Pathogenität verschiedener Isolate des des Beet necrotic yellow vein virus (BNYVV) Pferdmenges, Friederike 05 November 2007 (has links) No description available. 630 Landwirtschaft Veterinärmedizin Agricultural Sciences sugar beet beet necrotic yellow vein virus BNYVV Rhizomania Rz1 Rz2 Polymyxa betae 48.00 Land- und Forstwirtschaft YA 000 Agrarwissenschaften
19	Increasing bioinformatics in third world countries : Studies of S.digitata and P.Polymyxa to further bioinformatics in east Africa / Bioinformatiska förbättringsåtgärder för u-länder : Studier av S.digitata och P.Polymyxa för att förbättra bioinformatiken i östra Afrika Isak, Sylvin January 2016 (has links) Despite an increase of biotechnical studies in third world countries, the bioinformatical side is largely lacking. In this paper we attempt to further the bioinformatical capabilities of east Af-rica. The project consisted of two teaching segments for east African doctorates, one as part of an academic workshop at ILRI, Kenya, and one in a small class at SLU, Sweden. The project also included the generation of two simple to use bioinformatical pipelines with the explicit aim to be reused by novice bioinformaticians from the very same region. The viability of the piplines were verified by generating transcriptional expression level differences for Paeni-bacillus polymyxa strain A26 and whole genome annotations for Setaria digitata. Both pipe-lines may have some merit for the collaborative effort between ILRI and SLU to annotate Eleusine coracana, a draught resilient crop, the annotation of which may save lives. The teaching material, source code for the pipelines and overall teaching impression have been included in this paper. bioinformatics pipeline Setaria digitata Paenibacillus polymyxa Eleusine coracana annotation expression level east Africa eBioKit MAKER Cufflinks third world country genome transcriptome Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)

Search results