Joel E. Ream scite author profile

In the gibberellin (GA) biosynthesis pathway, 20-oxidase catalyzes the oxidation and elimination of carbon-20 to give rise to C 19 -GAs. All bioactive GAs are C 19 -GAs. We have overexpressed a cDNA encoding 20-oxidase isolated from Arabidopsis seedlings in transgenic Arabidopsis plants. These transgenic plants display a phenotype that may be attributed to the overproduction of GA. The phenotype includes a longer hypocotyl, lighter-green leaves, increased stem elongation, earlier flowering, and decreased seed dormancy. However, the fertility of the transgenic plants is not affected. Increased levels of endogenous GA 1 , GA 9 , and GA 20 were detected in seedlings of the transgenic line examined. GA 4 , which is thought to be the predominantly active GA in Arabidopsis, was not present at increased levels in this line. These results suggest that the overexpression of this 20-oxidase increases the levels of some endogenous GAs in transgenic seedlings, which causes the GAoverproduction phenotype.

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The Expressed Protein in Glyphosate-Tolerant Soybean, 5-Enolypyruvylshikimate-3-Phosphate Synthase from Agrobacterium sp. Strain CP4, Is Rapidly Digested In Vitro and Is not Toxic to Acutely Gavaged Mice

Harrison

Bailey

Naylor

et al. 1996

The Journal of Nutrition

162

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The safety of 5-enolpyruvylshikimate-3-phosphate synthase enzyme derived from Agrobacterium sp. strain CP4 (CP4 EPSPS) was assessed. CP4 EPSPS is the only protein introduced by genetic manipulation that is expressed in glyphosate-tolerant soybeans, which are being developed to provide new weed-control options for farmers. Expression of this protein in plants imparts high levels of glyphosate tolerance. The safety of CP4 EPSPS was ascertained by evaluating both physical and functional characteristics. CP4 EPSPS degrades readily in simulated gastric and intestinal fluids, suggesting that this protein will be degraded in the mammalian digestive tract upon ingestion as a component of food or feed, There were no deleterious effects due to the acute administration of CP4 EPSPS to mice by gavage at a high dosage of 572 mg/kg body wt, which exceeds 1000-fold tha anticipated consumption level of food products potentially containing CP4 EPSPS protein. CP4 EPSPS does not pose any important allergen concerns because this protein does not possess characteristics typical of allergenic proteins. These data, in combination with seed compositional analysis and animal feeding studies, support the conclusion that glyphosate-tolerant soybean are as safe and nutritious as traditional soybeans currently being marketed.

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Soil Inactivation of the Bacillus thuringiensis Subsp. kurstaki CryIIA Insecticidal Protein within Transgenic Cotton Tissue: Laboratory Microcosm and Field Studies

Sims

Ream

1997

J. Agric. Food Chem.

101

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The environmental fate of Bacillus thuringiensis subsp. kurstaki CryIIA insecticidal protein expressed within transgenic cotton plant tissue (= Bt-cotton) was evaluated by determining reduction in the biological activity of the protein incubated in soil for 120 days. Studies were conducted in a laboratory microcosm and under field conditions during the fall and winter of 1995−1996 in St. Louis, MO. An insect bioassay, based on growth inhibition of larval Heliothis virescens (F.), was used to estimate DT50 values (50% dissipation time = “half-life” of bioactivity) of the CryIIA protein. DT50 values were 15.5 and 31.7 days for the laboratory and field, respectively. The percentages of initial CryIIA protein bioactivity remaining after 40 days of incubation were similar for the laboratory and field samples. In both environments, <25% of the initial bioactivity remained after 120 days. These results indicate that the biological activity of CryIIA protein, as a component of postharvest Bt-cotton plants, readily dissipates when cultivated into soil and suggest that laboratory soil microcosms can be useful for estimating the rate at which dissipation occurs in the field. Keywords: Soil degradation; transgenic cotton; CryIIA insecticidal protein; Heliothis virescens

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Safety Assessment of the Neomycin Phosphotransferase II (NPTII) Protein

et al. 1993

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Two approaches were used to assess the safety of the NPTII protein for human consumption using purified E. coli produced NPTII protein that was shown to be chemically and functionally equivalent to the NPTII protein produced in genetically engineered cotton seed, potato tubers and tomato fruit. The NPTII protein was shown, as expected, to degrade rapidly under simulated mammalian digestive conditions. An acute mouse gavage study confirmed that the NPTII protein caused no deleterious effects when administered by gavage at a cumulative target dosage of up to 5000 mg/kg of body weight. This dosage correlates to at least a million fold safety factor relative to the average daily consumption of potato or tomato, assuming all the potatoes or tomatoes consumed contained the NPTII protein. These results, along with previously published information, confirm that ingestion of genetically engineered plants expressing the NPTII protein poses no safety concerns.

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EPSP synthase: binding studies using isothermal titration microcalorimetry and equilibrium dialysis and their implications for ligand recognition and kinetic mechanism

Ream

Yuen²,

Frazier³

et al. 1992

Biochemistry

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Isothermal titration calorimetry measurements are reported which give important new binding constant (Kd) information for various substrate and inhibitor complexes of Escherichia coli EPSP synthase (EPSPS). The validity of this technique was first verified by determining Kd's for the known binary complex with the substrate, shikimate 3-phosphate (S3P), as well as the herbicidal ternary complex with S3P and glyphosate (EPSPS.S3P.glyphosate). The observed Kd's agreed very well with those from previous independently determined kinetic and fluorescence binding measurements. Further applications unequivocally demonstrate for the first time a fairly tight interaction between phosphoenolpyruvate (PEP) and free enzyme (Kd = 390 microM) as well as a correspondingly weak affinity for glyphosate (Kd = 12 mM) alone with enzyme. The formation of the EPSPS.PEP binary complex was independently corroborated using equilibrium dialysis. These results strongly suggest that S3P synergizes glyphosate binding much more effectively than it does PEP binding. These observations add important new evidence to support the hypothesis that glyphosate acts as a transition-state analogue of PEP. However, the formation of a catalytically productive PEP binary complex is inconsistent with the previously reported compulsory binding order process required for catalysis and has led to new studies which completely revise the overall EPSPS kinetic mechanism. A previously postulated ternary complex between S3P and inorganic phosphate (EPSPS.S3P.Pi, Kd = 4 mM) was also detected for the first time. Quantitative binding enthalpies and entropies were also determined for each ligand complex from the microcalorimetry data. These values demonstrate a clear difference in thermodynamic parameters for recognition at the S3P site versus those observed for the PEP, Pi, and glyphosate sites.

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The Composition of Insect-Protected Cottonseed Is Equivalent to That of Conventional Cottonseed

Berberich

Ream

Jackson

et al. 1996

J. Agric. Food Chem.

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Cotton plants have been developed that control the major lepidopteran insect pests of cotton by the stable introduction of a gene encoding an insecticidal protein from Bacillus thuringiensis subsp. kurstaki. These plants provide season-long protection against cotton bollworm, tobacco budworm, and pink bollworm. An important component of the safety and product assessment of these lines was the comparison of the nutrient and antinutrient levels in the seed both to the parental variety and to published values for other commercial cotton varieties. Compositional equivalence confirms the appropriateness of these cotton lines for use in food and feed products. The insect-protected lines and the parental control were shown to contain levels of nutrients comparable to those of other commercial varieties. Nutrients included protein, fat, carbohydrate, moisture, ash, amino acids, and fatty acids. The levels of the antinutrients gossypol, cyclopropenoid fatty acids, and aflatoxin in the seed from the insect-protected lines were similar to or lower than the levels present in the parental variety and reported for other commercial varieties. These analyses demonstrate that seed from the insect-protected cotton lines is compositionally equivalent to and as nutritious as seed from the parental and other commercial cotton varieties.

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EPSP Synthase: The Design and Synthesis of Bisubstrate Inhibitors Incorporating Novel 3-Phosphate Mimics

Sikorski¹,

Miller

Braccolino

et al. 1993

Phosphorus, Sulfur, and Silicon and the Related Elements

131

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Synthesis and evaluation of two new inhibitors of EPSP synthase

Pansegrau

Anderson

Widlanski

et al. 1991

Tetrahedron Letters

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12 3

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Joel E. Ream

Overexpression of 20-Oxidase Confers a Gibberellin-Overproduction Phenotype in Arabidopsis

The Expressed Protein in Glyphosate-Tolerant Soybean, 5-Enolypyruvylshikimate-3-Phosphate Synthase from Agrobacterium sp. Strain CP4, Is Rapidly Digested In Vitro and Is not Toxic to Acutely Gavaged Mice

Soil Inactivation of the Bacillus thuringiensis Subsp. kurstaki CryIIA Insecticidal Protein within Transgenic Cotton Tissue: Laboratory Microcosm and Field Studies

Safety Assessment of the Neomycin Phosphotransferase II (NPTII) Protein

EPSP synthase: binding studies using isothermal titration microcalorimetry and equilibrium dialysis and their implications for ligand recognition and kinetic mechanism

The Composition of Insect-Protected Cottonseed Is Equivalent to That of Conventional Cottonseed

EPSP Synthase: The Design and Synthesis of Bisubstrate Inhibitors Incorporating Novel 3-Phosphate Mimics

Synthesis and evaluation of two new inhibitors of EPSP synthase

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