Differential leaf resistance to insects of transgenic sweetgum (Liquidambar styraciflua) expressing tobacco anionic peroxidase

Leaves of transgenic sweetgum (Liquidambar styraciflua) trees that expressed tobacco anionic peroxidase were compared with leaves of L. styraciflua trees that did not express the tobacco enzyme. Leaves of the transgenic trees were generally more resistant to feeding by caterpillars and beetles than...

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Veröffentlicht in:	Cellular and molecular life sciences : CMLS 1998-07, Vol.54 (7), p.712-720
Hauptverfasser:	Dowd, P.F. (Bioactive Agents Research Unit, USDA, ARS, National Center for Agricultural Utilization Research, Peoria, IL.), Lagrimini, L.M, Herms, D.A
Format:	Artikel
Sprache:	eng
Schlagworte:	ADN Animals BIOASSAYS BIOLOGICAL DIFFERENCES COMPLEMENTARY DNA DIFERENCIAS BIOLOGICAS DIFFERENCE BIOLOGIQUE DNA ENSAYO BIOLOGICO Enzymes EXPRESION GENICA EXPRESSION DES GENES Foliage GENE EXPRESSION GENE TRANSFER GENETIC RESISTANCE Genetics HELICOVERPA ZEA HYPHANTRIA CUNEA Insecta - parasitology Insects Larva - metabolism Larvae LASIODERMA SERRICORNE Leaves LIQUIDAMBAR STYRACIFLUA LYMANTRIA DISPAR MALACOSOMA AMERICANUM Molecular biology Nicotiana - enzymology NICOTIANA TABACUM Nutritive value OSTRINIA NUBILALIS PEROXIDASAS PEROXIDASES Peroxidases - genetics PEROXYDASE Pest Control, Biological PEST RESISTANCE Plant Leaves - parasitology Plant Proteins - metabolism Plant resistance Plant species PLANTAS TRANSGENICAS PLANTE TRANSGENIQUE Plants, Genetically Modified Plants, Toxic RESISTANCE AUX ORGANISMES NUISIBLES RESISTANCE GENETIQUE RESISTENCIA A LAS PLAGAS RESISTENCIA GENETICA SPECIES DIFFERENCES SPODOPTERA FRUGIPERDA TEST BIOLOGIQUE Tobacco Tomatoes TOXICIDAD TOXICITE TOXICITY TRANSFERENCIA DE GENES TRANSFERT DE GENE TRANSGENIC PLANTS Trees - genetics Trees - parasitology
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container_issue	7
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container_title	Cellular and molecular life sciences : CMLS
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creator	Dowd, P.F. (Bioactive Agents Research Unit, USDA, ARS, National Center for Agricultural Utilization Research, Peoria, IL.) Lagrimini, L.M Herms, D.A
description	Leaves of transgenic sweetgum (Liquidambar styraciflua) trees that expressed tobacco anionic peroxidase were compared with leaves of L. styraciflua trees that did not express the tobacco enzyme. Leaves of the transgenic trees were generally more resistant to feeding by caterpillars and beetles than wild-type leaves. However, as for past studies with transgenic tobacco and tomato expressing the tobacco anionic peroxidase, the degree of relative resistance depended on the size of insect used and the maturity of the leaf. Decreased growth of gypsy moth larvae appeared mainly due to decreased consumption, and not changes in the nutritional quality of the foliage. Transgenic leaves were more susceptible to feeding by the corn earworm, Helicoverpa zea. Thus, it appears the tobacco anionic peroxidase can contribute to insect resistance, but its effects are more predictable when it is expressed in plant species more closely related to the original gene source.
doi_str_mv	10.1007/s000180050198
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(Bioactive Agents Research Unit, USDA, ARS, National Center for Agricultural Utilization Research, Peoria, IL.) ; Lagrimini, L.M ; Herms, D.A</creator><creatorcontrib>Dowd, P.F. (Bioactive Agents Research Unit, USDA, ARS, National Center for Agricultural Utilization Research, Peoria, IL.) ; Lagrimini, L.M ; Herms, D.A</creatorcontrib><description>Leaves of transgenic sweetgum (Liquidambar styraciflua) trees that expressed tobacco anionic peroxidase were compared with leaves of L. styraciflua trees that did not express the tobacco enzyme. Leaves of the transgenic trees were generally more resistant to feeding by caterpillars and beetles than wild-type leaves. However, as for past studies with transgenic tobacco and tomato expressing the tobacco anionic peroxidase, the degree of relative resistance depended on the size of insect used and the maturity of the leaf. Decreased growth of gypsy moth larvae appeared mainly due to decreased consumption, and not changes in the nutritional quality of the foliage. Transgenic leaves were more susceptible to feeding by the corn earworm, Helicoverpa zea. 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(Bioactive Agents Research Unit, USDA, ARS, National Center for Agricultural Utilization Research, Peoria, IL.)</creatorcontrib><creatorcontrib>Lagrimini, L.M</creatorcontrib><creatorcontrib>Herms, D.A</creatorcontrib><title>Differential leaf resistance to insects of transgenic sweetgum (Liquidambar styraciflua) expressing tobacco anionic peroxidase</title><title>Cellular and molecular life sciences : CMLS</title><addtitle>Cell Mol Life Sci</addtitle><description>Leaves of transgenic sweetgum (Liquidambar styraciflua) trees that expressed tobacco anionic peroxidase were compared with leaves of L. styraciflua trees that did not express the tobacco enzyme. Leaves of the transgenic trees were generally more resistant to feeding by caterpillars and beetles than wild-type leaves. However, as for past studies with transgenic tobacco and tomato expressing the tobacco anionic peroxidase, the degree of relative resistance depended on the size of insect used and the maturity of the leaf. Decreased growth of gypsy moth larvae appeared mainly due to decreased consumption, and not changes in the nutritional quality of the foliage. Transgenic leaves were more susceptible to feeding by the corn earworm, Helicoverpa zea. Thus, it appears the tobacco anionic peroxidase can contribute to insect resistance, but its effects are more predictable when it is expressed in plant species more closely related to the original gene source.</description><subject>ADN</subject><subject>Animals</subject><subject>BIOASSAYS</subject><subject>BIOLOGICAL DIFFERENCES</subject><subject>COMPLEMENTARY DNA</subject><subject>DIFERENCIAS BIOLOGICAS</subject><subject>DIFFERENCE BIOLOGIQUE</subject><subject>DNA</subject><subject>ENSAYO BIOLOGICO</subject><subject>Enzymes</subject><subject>EXPRESION GENICA</subject><subject>EXPRESSION DES GENES</subject><subject>Foliage</subject><subject>GENE EXPRESSION</subject><subject>GENE TRANSFER</subject><subject>GENETIC RESISTANCE</subject><subject>Genetics</subject><subject>HELICOVERPA ZEA</subject><subject>HYPHANTRIA CUNEA</subject><subject>Insecta - parasitology</subject><subject>Insects</subject><subject>Larva - metabolism</subject><subject>Larvae</subject><subject>LASIODERMA SERRICORNE</subject><subject>Leaves</subject><subject>LIQUIDAMBAR STYRACIFLUA</subject><subject>LYMANTRIA DISPAR</subject><subject>MALACOSOMA AMERICANUM</subject><subject>Molecular biology</subject><subject>Nicotiana - enzymology</subject><subject>NICOTIANA TABACUM</subject><subject>Nutritive value</subject><subject>OSTRINIA NUBILALIS</subject><subject>PEROXIDASAS</subject><subject>PEROXIDASES</subject><subject>Peroxidases - genetics</subject><subject>PEROXYDASE</subject><subject>Pest Control, Biological</subject><subject>PEST RESISTANCE</subject><subject>Plant Leaves - parasitology</subject><subject>Plant Proteins - metabolism</subject><subject>Plant resistance</subject><subject>Plant species</subject><subject>PLANTAS TRANSGENICAS</subject><subject>PLANTE TRANSGENIQUE</subject><subject>Plants, Genetically Modified</subject><subject>Plants, Toxic</subject><subject>RESISTANCE AUX ORGANISMES NUISIBLES</subject><subject>RESISTANCE GENETIQUE</subject><subject>RESISTENCIA A LAS PLAGAS</subject><subject>RESISTENCIA GENETICA</subject><subject>SPECIES DIFFERENCES</subject><subject>SPODOPTERA FRUGIPERDA</subject><subject>TEST BIOLOGIQUE</subject><subject>Tobacco</subject><subject>Tomatoes</subject><subject>TOXICIDAD</subject><subject>TOXICITE</subject><subject>TOXICITY</subject><subject>TRANSFERENCIA DE GENES</subject><subject>TRANSFERT DE GENE</subject><subject>TRANSGENIC PLANTS</subject><subject>Trees - genetics</subject><subject>Trees - parasitology</subject><issn>1420-682X</issn><issn>1420-9071</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1998</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><sourceid>8G5</sourceid><sourceid>BENPR</sourceid><sourceid>GUQSH</sourceid><sourceid>M2O</sourceid><recordid>eNpdkU1v1DAQhiMEKqVw5IhkcUBwCNiOEzunCpVPaSUOUImbNXHGwVXW3noSaC_8drzqqlBOtjTP-2hGb1U9Ffy14Fy_Ic65MJy3XPTmXnUslOR1z7W4f_h3Rn5_WD0iuihga2R3VB31WgjZ6OPq97vgPWaMS4CZzQieZaRAC0SHbEksREK3EEueLRkiTRiDY_QLcZnWLXu5CZdrGGE7QGa0XGdwwc8rvGJ4tSsmCnEqmgGcSwxiSPv0DnO6KiHCx9UDDzPhk8N7Up1_eP_t7FO9-fLx89nbTe1U1yx1Y3znjXYohO87PyrucGgHNchBSjOOyul-8NCbBjQf5YDjqJX2rRa96Fqlm5Pq9Ma7W4ctjq7cm2G2uxy2kK9tgmDvTmL4Yaf00wohSrzpiuHFwZDT5Yq02G0gh_MMEdNKVmjRtJ3cg8__Ay_SmmO5zhqjOsUbLQtU30AuJ6KM_nYVwe2-Vnun1sI_-3f_W_rQ49-5h2RhyoHs-VfR95prbZRp_gB-1Knd</recordid><startdate>19980701</startdate><enddate>19980701</enddate><creator>Dowd, P.F. 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(Bioactive Agents Research Unit, USDA, ARS, National Center for Agricultural Utilization Research, Peoria, IL.) ; Lagrimini, L.M ; Herms, D.A</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c463t-38f6f87ce11f96fd40ceb5b4b2b228dd4c79bfa983a70d2bedd747f5719165473</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1998</creationdate><topic>ADN</topic><topic>Animals</topic><topic>BIOASSAYS</topic><topic>BIOLOGICAL DIFFERENCES</topic><topic>COMPLEMENTARY DNA</topic><topic>DIFERENCIAS BIOLOGICAS</topic><topic>DIFFERENCE BIOLOGIQUE</topic><topic>DNA</topic><topic>ENSAYO BIOLOGICO</topic><topic>Enzymes</topic><topic>EXPRESION GENICA</topic><topic>EXPRESSION DES GENES</topic><topic>Foliage</topic><topic>GENE EXPRESSION</topic><topic>GENE TRANSFER</topic><topic>GENETIC RESISTANCE</topic><topic>Genetics</topic><topic>HELICOVERPA ZEA</topic><topic>HYPHANTRIA CUNEA</topic><topic>Insecta - parasitology</topic><topic>Insects</topic><topic>Larva - metabolism</topic><topic>Larvae</topic><topic>LASIODERMA SERRICORNE</topic><topic>Leaves</topic><topic>LIQUIDAMBAR STYRACIFLUA</topic><topic>LYMANTRIA DISPAR</topic><topic>MALACOSOMA AMERICANUM</topic><topic>Molecular biology</topic><topic>Nicotiana - enzymology</topic><topic>NICOTIANA TABACUM</topic><topic>Nutritive value</topic><topic>OSTRINIA NUBILALIS</topic><topic>PEROXIDASAS</topic><topic>PEROXIDASES</topic><topic>Peroxidases - genetics</topic><topic>PEROXYDASE</topic><topic>Pest Control, Biological</topic><topic>PEST RESISTANCE</topic><topic>Plant Leaves - parasitology</topic><topic>Plant Proteins - metabolism</topic><topic>Plant resistance</topic><topic>Plant species</topic><topic>PLANTAS TRANSGENICAS</topic><topic>PLANTE TRANSGENIQUE</topic><topic>Plants, Genetically Modified</topic><topic>Plants, Toxic</topic><topic>RESISTANCE AUX ORGANISMES NUISIBLES</topic><topic>RESISTANCE GENETIQUE</topic><topic>RESISTENCIA A LAS PLAGAS</topic><topic>RESISTENCIA GENETICA</topic><topic>SPECIES DIFFERENCES</topic><topic>SPODOPTERA FRUGIPERDA</topic><topic>TEST BIOLOGIQUE</topic><topic>Tobacco</topic><topic>Tomatoes</topic><topic>TOXICIDAD</topic><topic>TOXICITE</topic><topic>TOXICITY</topic><topic>TRANSFERENCIA DE GENES</topic><topic>TRANSFERT DE GENE</topic><topic>TRANSGENIC PLANTS</topic><topic>Trees - genetics</topic><topic>Trees - parasitology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Dowd, P.F. 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However, as for past studies with transgenic tobacco and tomato expressing the tobacco anionic peroxidase, the degree of relative resistance depended on the size of insect used and the maturity of the leaf. Decreased growth of gypsy moth larvae appeared mainly due to decreased consumption, and not changes in the nutritional quality of the foliage. Transgenic leaves were more susceptible to feeding by the corn earworm, Helicoverpa zea. Thus, it appears the tobacco anionic peroxidase can contribute to insect resistance, but its effects are more predictable when it is expressed in plant species more closely related to the original gene source.</abstract><cop>Switzerland</cop><pub>Springer Nature B.V</pub><pmid>9711237</pmid><doi>10.1007/s000180050198</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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subjects	ADN Animals BIOASSAYS BIOLOGICAL DIFFERENCES COMPLEMENTARY DNA DIFERENCIAS BIOLOGICAS DIFFERENCE BIOLOGIQUE DNA ENSAYO BIOLOGICO Enzymes EXPRESION GENICA EXPRESSION DES GENES Foliage GENE EXPRESSION GENE TRANSFER GENETIC RESISTANCE Genetics HELICOVERPA ZEA HYPHANTRIA CUNEA Insecta - parasitology Insects Larva - metabolism Larvae LASIODERMA SERRICORNE Leaves LIQUIDAMBAR STYRACIFLUA LYMANTRIA DISPAR MALACOSOMA AMERICANUM Molecular biology Nicotiana - enzymology NICOTIANA TABACUM Nutritive value OSTRINIA NUBILALIS PEROXIDASAS PEROXIDASES Peroxidases - genetics PEROXYDASE Pest Control, Biological PEST RESISTANCE Plant Leaves - parasitology Plant Proteins - metabolism Plant resistance Plant species PLANTAS TRANSGENICAS PLANTE TRANSGENIQUE Plants, Genetically Modified Plants, Toxic RESISTANCE AUX ORGANISMES NUISIBLES RESISTANCE GENETIQUE RESISTENCIA A LAS PLAGAS RESISTENCIA GENETICA SPECIES DIFFERENCES SPODOPTERA FRUGIPERDA TEST BIOLOGIQUE Tobacco Tomatoes TOXICIDAD TOXICITE TOXICITY TRANSFERENCIA DE GENES TRANSFERT DE GENE TRANSGENIC PLANTS Trees - genetics Trees - parasitology
title	Differential leaf resistance to insects of transgenic sweetgum (Liquidambar styraciflua) expressing tobacco anionic peroxidase
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