Tri-trophic effects of transgenic insect-resistant tobacco expressing a protease inhibitor or a biotin-binding protein on adults of the predatory carabid beetle Ctenognathus novaezelandiae

Tri-trophic impacts on adult predatory carabid beetles, Ctenognathus novaezelandiae, of insect-resistant transgenic tobacco plants expressing a serine protease inhibitor, bovine spleen trypsin inhibitor (BSTI), or a biotin-binding protein, avidin, were investigated. Both proteins could potentially a...

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Veröffentlicht in:	Journal of insect physiology 2008-02, Vol.54 (2), p.518-528
Hauptverfasser:	Burgess, E.P.J., Philip, B.A., Christeller, J.T., Page, N.E.M., Marshall, R.K., Wohlers, M.W.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Aprotinin (BPTI) Avidin Avidin - genetics Avidin - metabolism Avidin - pharmacology biotin-binding proteins Bovine spleen trypsin inhibitor (BSTI) Carabid beetle Carabidae Carrier Proteins - genetics Carrier Proteins - metabolism Carrier Proteins - pharmacology Coleoptera - drug effects digestive enzymes fecundity Female insect growth Larva - drug effects Male mortality Moths - drug effects Nicotiana - genetics Nicotiana - metabolism Nicotiana - parasitology Nicotiana tabacum nontarget organisms Pest Control, Biological pest resistance Plants, Genetically Modified predation Predatory Behavior - drug effects predatory insects prey-mediated effects proteinase inhibitors Reproduction - drug effects serine protease inhibitor Spodoptera litura Time Factors tobacco Transgenic plant transgenic plants Tri-trophic non-target impacts tritrophic interactions Trypsin Inhibitors - metabolism Trypsin Inhibitors - pharmacology
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container_end_page	528
container_issue	2
container_start_page	518
container_title	Journal of insect physiology
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creator	Burgess, E.P.J. Philip, B.A. Christeller, J.T. Page, N.E.M. Marshall, R.K. Wohlers, M.W.
description	Tri-trophic impacts on adult predatory carabid beetles, Ctenognathus novaezelandiae, of insect-resistant transgenic tobacco plants expressing a serine protease inhibitor, bovine spleen trypsin inhibitor (BSTI), or a biotin-binding protein, avidin, were investigated. Both proteins could potentially affect this beetle, since avidin is known to be insecticidal to many beetle species and C. novaezelandiae midguts were shown to contain high levels of trypsin, a protease powerfully inhibited by bovine pancreatic trypsin inhibitor (a BSTI homologue) in vitro. Newly emerged field-collected adult C. novaezelandiae were fed exclusively for 280 days on Spodoptera litura larvae raised either on non-transgenic control, transgenic avidin (55ppm) or transgenic BSTI (68ppm) tobacco. Despite this long-term exclusive diet, there was no treatment effect on survival or fecundity and only minor and transient effects on beetles were observed. Data pooled across time and genders showed control-prey-fed beetles weighed 3% more than BSTI-prey-fed beetles and avidin-prey-fed beetles consumed 3–4% fewer prey than control- or BSTI-prey-fed individuals. Females in all treatments gained more mass and survived longer than males. Low exposure to the proteins because of dilution and deactivation within the prey is the most likely explanation for the lack of tri-trophic effects observed. Aditionally, the presence of a digestive chymotrypsin only partially inhibited by BSTI may provide an alternative path for proteolysis.
doi_str_mv	10.1016/j.jinsphys.2007.12.002
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Both proteins could potentially affect this beetle, since avidin is known to be insecticidal to many beetle species and C. novaezelandiae midguts were shown to contain high levels of trypsin, a protease powerfully inhibited by bovine pancreatic trypsin inhibitor (a BSTI homologue) in vitro. Newly emerged field-collected adult C. novaezelandiae were fed exclusively for 280 days on Spodoptera litura larvae raised either on non-transgenic control, transgenic avidin (55ppm) or transgenic BSTI (68ppm) tobacco. Despite this long-term exclusive diet, there was no treatment effect on survival or fecundity and only minor and transient effects on beetles were observed. Data pooled across time and genders showed control-prey-fed beetles weighed 3% more than BSTI-prey-fed beetles and avidin-prey-fed beetles consumed 3–4% fewer prey than control- or BSTI-prey-fed individuals. Females in all treatments gained more mass and survived longer than males. 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Both proteins could potentially affect this beetle, since avidin is known to be insecticidal to many beetle species and C. novaezelandiae midguts were shown to contain high levels of trypsin, a protease powerfully inhibited by bovine pancreatic trypsin inhibitor (a BSTI homologue) in vitro. Newly emerged field-collected adult C. novaezelandiae were fed exclusively for 280 days on Spodoptera litura larvae raised either on non-transgenic control, transgenic avidin (55ppm) or transgenic BSTI (68ppm) tobacco. Despite this long-term exclusive diet, there was no treatment effect on survival or fecundity and only minor and transient effects on beetles were observed. Data pooled across time and genders showed control-prey-fed beetles weighed 3% more than BSTI-prey-fed beetles and avidin-prey-fed beetles consumed 3–4% fewer prey than control- or BSTI-prey-fed individuals. Females in all treatments gained more mass and survived longer than males. Low exposure to the proteins because of dilution and deactivation within the prey is the most likely explanation for the lack of tri-trophic effects observed. Aditionally, the presence of a digestive chymotrypsin only partially inhibited by BSTI may provide an alternative path for proteolysis.</description><subject>Animals</subject><subject>Aprotinin (BPTI)</subject><subject>Avidin</subject><subject>Avidin - genetics</subject><subject>Avidin - metabolism</subject><subject>Avidin - pharmacology</subject><subject>biotin-binding proteins</subject><subject>Bovine spleen trypsin inhibitor (BSTI)</subject><subject>Carabid beetle</subject><subject>Carabidae</subject><subject>Carrier Proteins - genetics</subject><subject>Carrier Proteins - metabolism</subject><subject>Carrier Proteins - pharmacology</subject><subject>Coleoptera - drug effects</subject><subject>digestive enzymes</subject><subject>fecundity</subject><subject>Female</subject><subject>insect growth</subject><subject>Larva - drug effects</subject><subject>Male</subject><subject>mortality</subject><subject>Moths - drug effects</subject><subject>Nicotiana - genetics</subject><subject>Nicotiana - metabolism</subject><subject>Nicotiana - parasitology</subject><subject>Nicotiana tabacum</subject><subject>nontarget organisms</subject><subject>Pest Control, Biological</subject><subject>pest resistance</subject><subject>Plants, Genetically Modified</subject><subject>predation</subject><subject>Predatory Behavior - drug effects</subject><subject>predatory insects</subject><subject>prey-mediated effects</subject><subject>proteinase inhibitors</subject><subject>Reproduction - drug effects</subject><subject>serine protease inhibitor</subject><subject>Spodoptera litura</subject><subject>Time Factors</subject><subject>tobacco</subject><subject>Transgenic plant</subject><subject>transgenic plants</subject><subject>Tri-trophic non-target impacts</subject><subject>tritrophic interactions</subject><subject>Trypsin Inhibitors - metabolism</subject><subject>Trypsin Inhibitors - pharmacology</subject><issn>0022-1910</issn><issn>1879-1611</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkc2OEzEQhEcIxIaFV1h84jaD27Hn5waK-JNW4kA4Wz12T8ZRYgfbWW14Nh4OhwRxRLJkqfx1V8lVVXfAG-DQvt02W-fTYT6lRnDeNSAazsWTagF9N9TQAjytFkURNQzAb6oXKW0556rt1fPqBnoYBqn4ovq1jq7OMRxmZxhNE5mcWJhYjujThnxRi09R60jJpYw-sxxGNCYwejwUMTm_YcgOMWTCRAWf3ehyiKwcZKML2fl6dN6ewT-Y8yx4hva4u5rNVB7IYpk6MYMRR2fZSJR3xFaZfNh4zPMxMR8ekH7SDss2pJfVswl3iV5d79tq_fHDevW5vv_66cvq_X1tpIBco-lsJ63kHQxCcSOEorGTcslHY4TsegIwcuh7JQGotUbJTtHQWbRTi7S8rd5c1pbwP46Ust67ZGhXUlA4Jg2DEgqULGB7AU0MKUWa9CG6PcaTBq7Ptemt_lubPtemQehSUhm8uzocxz3Zf2PXngrw-gJMGDRuokv6-zfBYcl5r_pWqkK8uxBUPuLBUdTJOPKGrIulPm2D-1-K3ybWu-E</recordid><startdate>20080201</startdate><enddate>20080201</enddate><creator>Burgess, E.P.J.</creator><creator>Philip, B.A.</creator><creator>Christeller, J.T.</creator><creator>Page, N.E.M.</creator><creator>Marshall, R.K.</creator><creator>Wohlers, M.W.</creator><general>Elsevier Ltd</general><scope>FBQ</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QO</scope><scope>7SS</scope><scope>8FD</scope><scope>FR3</scope><scope>P64</scope><scope>RC3</scope></search><sort><creationdate>20080201</creationdate><title>Tri-trophic effects of transgenic insect-resistant tobacco expressing a protease inhibitor or a biotin-binding protein on adults of the predatory carabid beetle Ctenognathus novaezelandiae</title><author>Burgess, E.P.J. ; 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Both proteins could potentially affect this beetle, since avidin is known to be insecticidal to many beetle species and C. novaezelandiae midguts were shown to contain high levels of trypsin, a protease powerfully inhibited by bovine pancreatic trypsin inhibitor (a BSTI homologue) in vitro. Newly emerged field-collected adult C. novaezelandiae were fed exclusively for 280 days on Spodoptera litura larvae raised either on non-transgenic control, transgenic avidin (55ppm) or transgenic BSTI (68ppm) tobacco. Despite this long-term exclusive diet, there was no treatment effect on survival or fecundity and only minor and transient effects on beetles were observed. Data pooled across time and genders showed control-prey-fed beetles weighed 3% more than BSTI-prey-fed beetles and avidin-prey-fed beetles consumed 3–4% fewer prey than control- or BSTI-prey-fed individuals. Females in all treatments gained more mass and survived longer than males. Low exposure to the proteins because of dilution and deactivation within the prey is the most likely explanation for the lack of tri-trophic effects observed. Aditionally, the presence of a digestive chymotrypsin only partially inhibited by BSTI may provide an alternative path for proteolysis.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>18199450</pmid><doi>10.1016/j.jinsphys.2007.12.002</doi><tpages>11</tpages></addata></record>
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subjects	Animals Aprotinin (BPTI) Avidin Avidin - genetics Avidin - metabolism Avidin - pharmacology biotin-binding proteins Bovine spleen trypsin inhibitor (BSTI) Carabid beetle Carabidae Carrier Proteins - genetics Carrier Proteins - metabolism Carrier Proteins - pharmacology Coleoptera - drug effects digestive enzymes fecundity Female insect growth Larva - drug effects Male mortality Moths - drug effects Nicotiana - genetics Nicotiana - metabolism Nicotiana - parasitology Nicotiana tabacum nontarget organisms Pest Control, Biological pest resistance Plants, Genetically Modified predation Predatory Behavior - drug effects predatory insects prey-mediated effects proteinase inhibitors Reproduction - drug effects serine protease inhibitor Spodoptera litura Time Factors tobacco Transgenic plant transgenic plants Tri-trophic non-target impacts tritrophic interactions Trypsin Inhibitors - metabolism Trypsin Inhibitors - pharmacology
title	Tri-trophic effects of transgenic insect-resistant tobacco expressing a protease inhibitor or a biotin-binding protein on adults of the predatory carabid beetle Ctenognathus novaezelandiae
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