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|Title:||Uptake and transfer of a Bt toxin by a lepidoptera to Its eggs and effects on Its offspring.|
|Authors:||PAULA, D. P.|
ANDOW, D. A.
TIMBÓ, R. V.
SUJII, E. R.
PIRES, C. S. S.
|Affiliation:||DEBORA PIRES PAULA, CENARGEN; DAVID A. ANDOW, UNIVERSITY OF MINNESOTA, USA; RENATA VELOZO TIMBÓ, UNB; EDISON RYOITI SUJII, CENARGEN; CARMEN SILVIA SOARES PIRES, CENARGEN.|
|Citation:||PLoS ONE, v. 9, n. 4, 2014. (Open access).|
|Description:||Research on non-target effects of transgenic crop plants has focused primarily on bitrophic, tritrophic and indirect effects of entomotoxins from Bacillus thuringiensis, but little work has considered intergenerational transfer of Cry proteins. This work reports a lepidopteran (Chlosyne lacinia) taking up a Bt entomotoxin when exposed to sublethal or low concentrations, transferring the entomotoxin to eggs, and having adverse effects on the first filial generation (F1) offspring. Two bioassays were conducted using a sublethal concentration of toxin (100.0 ng/ml Cry1Ac) for adults and a concentration equal to the LC10 (2.0 ng/ml Cry1Ac) for larvae. Cry1Ac is the most common entomotoxin expressed in Bt cotton in Brazil. In the adult diet bioassay there was no adverse effect on the parental generation (P0) adults, but the F1 larvae had higher mortality and longer development time compared to F1 larvae of parents that did not ingest Cry1Ac. For the 3rd instar larvae, there was no measurable effect on the P0 larvae, pupae and adults, but the F1 larvae had higher mortality and longer development time. Using chemiluminescent Western Blot, Cry1Ac was detected in F1 eggs laid by P0 butterflies from both bioassays. Our study indicates that, at least for this species and these experimental conditions, a ,65 kDa insecticidal protein can be taken up and transferred to descendants where it can increase mortality and development time.|
|Type of Material:||Separatas|
|Appears in Collections:||Artigo em periódico indexado (CENARGEN)|