Dokumentumok, ahol megtalálható: maize
Dokumentumok száma: 6
Cry1Ab toxin production of MON 810 transgenic maize |
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802 |
András Székács, Éva Lauber, Judit Juracsek and Béla Darvas |
CR; Cry1Ab; DK-440 BTY; ELISA; GMO; MON 810; activated; anther wall; cross-reactivity; enzyme-linked immunosorbent assay; genetic event; genetically modified organism; grain; leaf; maize; phenological stages; pollen; protoxin; root; stem; toxin; |
Cry1Ab toxin levels, corrected for active toxin content using the CR values obtained, were monitored in maize DK-440 BTY through the entire
vegetation period. |
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Foreword for the lectures are introduced here |
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804 |
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1st European Congress of Conservation Biology; Cry1; Cry1-resistance; Darvas; Dipel; Hungarian moratoria; Hungary; Inachis io; LC50; Lauber; Lepidoptera; MON 810; Németh; Pannon Region; Plodia interpunctella; Székács; balance; cypovirus; maize; pollen; pollen distribution; risk; toxin; |
Three lectures were chosen about GM-plants |
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Some data to the risk analysis of Bt-corn pollen and protected Lepidoptera species in Hungary |
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810 |
Béla Darvas, Atilla Csóti, Adel Gharib, László Peregovits, László Ronkay, Éva Lauber and László A. Polgár |
Asclepias syriaca; Cry-toxin; DK-440 BTY; Inachis io; Lepidoptera; MON 810; Polygonia c-album; Urtica dioica; Vanessa atalanta; hairy; maize; pollen; pollen-distribution; pollination; protected insects; risk; weeds; |
Some data to the risk analysis of Bt-corn pollen and protected Lepidoptera species in Hungary |
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MON 810 ABC - 2010 |
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813 |
András Székács, Éva Lauber, Eszter Takács and Béla Darvas |
CR; Cry1Ab; DK-440 BTY; ELISA; GMO; MON 810; activated; cross-reactivity; enzyme-linked immunosorbent assay; genetic event; genetically modified organism; leaf; leaf sample; maize; necrotization; protoxin; toxin; |
Cry1Ab toxin content may suffer significant (SD=2,230 ng Cry1Ab toxin/g fresh leaf weight, p<0.01) decreases in the leaf due to necrotisation. |
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IX ECE - GMO |
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6011 |
Béla Darvas |
Aachen University; Aarhus University; Abraxis; Acherontia atropos; Adalia bipunctata; Aglais urticae; Agroscope Reckenholz-Tänikon Research Station; Alan Slusarenko; Andreas Lang; Andreas Plischke; Andreas Traxler; András Székács; Angelika Hilbeck; Anna Dolezsai; Aphidoletes aphidimyza; Argynnis niobe; Attila Csóti; BINATS; Bacillus thuringiensis; Bavarian State Research Center for Agriculture; Benicia; Bio-Test Labor Sagerheide; Biodiversity Nature Safety; Brenthis ino; Bruce Hibbard; Bt-plants; Béla Darvas; Carabidae; Cecidomyiidae; Centaurea scabiosa; Chloropidae; Christoph Lüthi; Chrysoperla carnea; Claudia Zwahlen; Coleoptera; Collembola; Cry toxin; Cry1A.105; Cry2Ab2; Cry3Bb1; CrylAb; DAS-1507; DK-315; DK-440; DKC 5143; Datura stramonium; David Andow; David Quist; Department of Ecotoxicology and Environmental Analysis; Department of Entomology; Department of Plant Physiology; Department of Zoology and Animal Ecology; Diabrotica virgifera; Dietmar Moser; DinoCapture; DinoLite Pro; Dipel; Diptera; ELISA; Ecostrat GmbH; EnviroLogix; Eszter Takács; Euplagia quadripunctaria; European Congress of Entomology; Eva Schultheis; Federal Agency for Nature Conservation; Federal Research Institute for Cultivated Plants; Fernando Álvarez-Alfageme; Folsomia candida; Franz Bigler; Frieder Hofmann; Fusarium verticillioides; GM-potato; Gabriele Weiss; Genøk Centre for Biosafety; Georg Grabherr; György Matolcsy; Gábor Bakonyi; Gábor Lövei; Géraldine Léchot; Hajnalka Bánáti; Helicoverpa armigera; Heterorhabditis megidis; Hungarian Academy of Sciences; Hungarian Natural History Museum; Inachis io; Institute for Crop and Soil Science; Institute for Plant Protection; Institute of Biology Leiden; Institute of Environmental Geosciences; Judit Juracsek; Jörg Romeis; Kai U. Priesnitz; Kathrin Pascher; Leiden University; Leopold Sachslehner; Lepidoptera; Lycoriella castanescens; László Peregovits; László Ronkay; MON 810; MON 88017; MON 89034 x MON 88017; Maaike Bruinsma; Mathias Otto; Mechthild Schuppener; Norbert Sauberer; Oliver Schlein; Orthoptera; Oscinella frit; Ostrinia nubilalis; Pandoriana pandora; Pannonian Region; Patrick Gros; Paul Brakefield; Peter Klinkhamer; Phaseolus vulgaris; Plant Protection Institute; Poecilus cupreus; Polygonia c-album; Rubus caesius; Rumex; SYN-Ev176; Sabine Prescher; Salvatore Arpaia; Sciaridae; Spialia Sertorius; Stefan Dullinger; Stefan Rauschen; Succina pratensis; Szent István University; Ted Turlings; Thomas Frank; Thomas Miller; Thomas Thieme; Trigonotylus caelestialium; Ullrich Benker; Ulrike Kuhn; University of California; University of Missouri; University of Neuchâtel; Urtica dioica; Vanessa atalanta; Wolfgang Büchs; aphidophagous; biodiversity; corn; critical zone; entomopathogenic nematodes; fusariotoxin; genetically modified; genetically modified plants; glycoalkaloids; herbivory; indicators; lectins; mCry3A; maize; maize pollen; monitoring; parasitoids; phenolic; predators; protected lepidopteran larvae; proteinase inhibitors; protoxins; saprophagous; sterile insect technique; transgenic insects; transgenic legumes; Árpád Szécsi; Éva Lauber; |
Scientific Program and Abstracts related to genetic modification
IXth European Congress of Entomology
August 22-27, 2010 (Budapest, Europa Congress Center)
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Analytical difficulties and certain biological aspects of Cry1Ab toxin determination in MON 810 genetically modified maize |
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6043 |
Takács Eszter, Darvas Béla and Székács András |
Abraxis; Agdia; Bacillus thuringiensis; Bt-plant; Cry1Ab; DK-440 BTY; Darvas Béla; Dipel; ELISA; ERA; EnviroLogix; MON 810; Monsanto; Székács András; Talács Eszter; cross-reactivity; maize; matrix effect; preactivated toxin; protoxin; |
Reported Cry1Ab toxin concentrations in MON 810 maize show high variability: order of magnitude differences have been observed among various plant parts from different varieties, cultivated at different locations, and sometimes even within the same plant variety at a single location. |
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