Abstract
Transgenic Bt-cotton expresses insecticidal Cry proteins via Cry genes, introduced from the soil bacterium Bacillus thuringiensis (Bt). Data on levels of Cry proteins expressed in transgenic Bt-crops is important for assessing levels of environmental exposure. During investigations into the rhizosphere impacts of Cry proteins from GM cotton we found that Cry1Ac expression throughout the season was significantly lower in roots of glasshouse-reared cotton plants (average of 0.03 µg/g in the roots) compared to the same Bt-cotton varieties grown in the field (0.14 µg/g in the roots). We subsequently undertook a whole plant field assessment of both Cry1Ac and Cry2Ac expression in stem, leaves, root, and flowers, squares and bolls of Australian cotton varieties Sicot 289 Bollgard®II (289B) and Sicot 289 Bollgard®II Roundup Ready (289BR) over an entire season. Significant differences in the expression levels of Cry1Ac versus Cry2Ac occurred in the whole plant throughout the season. Cry1Ac levels remained relatively constant at an average of 6.1 µg/g whilst Cry2Ab levels averaged 29.0 µg/g, but decreased over time. Analysis of whole plant expression levels, plant stand densities, and aspects of crop management, estimated that levels of Cry1Ac and Cry2Ab deposited in the soil at the end of the season were 0.26 and 0.16 µg/g soil, respectively. The undertaken experiments highlight that assessments of environmental loading of proteins from GM plants would be improved with the use of field grown plants, whole plant assessments, increased knowledge on fate and persistence of GM proteins in the soil, and refinement of current ELISA methodologies.
Highlights
Reliable estimates of transgenic protein expression in genetically modified (GM) crops can provide a valuable tool in assisting with understanding the development and management of resistance, non-target implications, economic performance and environmental loading of the transgenic proteins [1,2,3]
We present information on relative variation in the expression of Cry1Ac and Cry2Ab in commercially available field-grown Australian cotton varieties throughout a growing season
Analysis of Cry1Ac protein in glasshouse and field grown cotton suggested that environmental factors contributed to both plant physiology and expression levels of transgenic proteins within roots
Summary
Reliable estimates of transgenic protein expression in genetically modified (GM) crops can provide a valuable tool in assisting with understanding the development and management of resistance, non-target implications, economic performance and environmental loading of the transgenic proteins [1,2,3]. GM cotton, Gossypium hirsutum, expressing the insecticidal Cry1Ac gene, from the soil bacterium Bacillus thuringiensis (Bt), was introduced commercially in Australia in 1996 [4]. The main target for this GM product was control of Helicoverpa armigera, which demonstrated ability to develop resistance to Cry1Ac under a laboratory imposed selection regime [5]. These observations, in addition to a reported decline in Cry1Ac expression in cotton over a season [6, 7], suggested that the risk of H. armigera evolving resistance to a single Cry protein Bt crop in Australia was high.
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