Kirsten rat sarcoma inhibitors in clinical development against nonsmall cell lung cancer

uses a variant Bt Cry3Bb1 insecticidal protein (Donovan et al., 1992). Cry3Bb1 is known to be biologically active The corn rootworm (CRW; Diabrotica spp.) is one of the most against several species within the Coleopteran family serious pests of corn in the USA. Chemical insecticides and crop rotation have been the only two options available to growers for Chrysomelidae, including the western corn rootworm, managing CRW. Unfortunately, both of these tactics can be ineffective Diabrotica virgifera virgifera LeConte (Rupar et al., as a result of either resistance or behavioral modifications. In this 1991). The biological activity of this protein against D. paper, we describe transgenic maize (Zea mays L.) hybrids that control virgifera virgifera suggested its potential use in creating CRW. These hybrids were created with a Cry3Bb1 Bacillus thurintransgenic plants expressing Cry3Bb1 that would confer giensis (Bt) variant that is approximately eight times more lethal to protection to corn root tissue from larval feeding damcorn rootworm larvae than the wild-type protein. A DNA vector age. To further augment protection of the root system containing the modified cry3Bb1 gene was placed under control of a from larval feeding damage, modifications were introroot-enhanced promoter (4-AS1) and was introduced into embryonic duced in the cry3Bb1 gene that gave rise to an amino acid maize cells by microprojectile bombardment. Described here is the variant Cry3Bb1 protein with an eight-fold increase in molecular genetic characterization, protein expression levels, and field performance of the recently commercialized MON863 hybrids.

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Development and Characterization of a CP4 EPSPS-Based, Glyphosate-Tolerant Corn Event

Heck

Armstrong

Astwood

et al. 2005

Crop Science

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5‐Enol‐pyruvylshikimate‐3‐phosphate synthase from Agrobacterium sp. CP4 (CP4 EPSPS) confers tolerance to the nonselective herbicide glyphosate (marketed under the trade name Roundup1) when sufficiently expressed in transgenic plants. Dual CP4 EPSPS transgene cassettes were transformed into corn (Zea mays L.) under the transcriptional regulatory control of the rice (Oryza sativa L.) actin 1 (P‐Ract1) and the enhanced Cauliflower mosaic virus 35S (P‐e35S) promoters, respectively, to impart fully constitutive expression in corn. Resulting events were tested for lack of chlorosis and malformation injury after two sequential applications of 1.68 kg acid equivalents (a.e.) ha−1 glyphosate. Agronomic parameters, male fertility, appropriate Mendelian segregation of the trait, plus characteristics of the transgenic integration site were also evaluated. From this selection process, the NK603 event was chosen for commercialization as the event that embodied the most optimal profile of tolerance, agronomics, and molecular characteristics. The NK603 event exhibited high glyphosate tolerance from one transgenic locus bearing a single copy of the dual cassettes integrated into the corn genome with a minimum of target sequence disruption. Trait expression in the NK603 event has remained stable over more than eight generations as shown through tolerance testing, western blots of CP4 EPSPS accumulation, and Southern blot analysis of the transgene.

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Tracey Cavato

A Method of Controlling Corn Rootworm Feeding Using a Bacillus thuringiensis Protein Expressed in Transgenic Maize

Development and Characterization of a CP4 EPSPS-Based, Glyphosate-Tolerant Corn Event

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