Peter N. Scherer scite author profile

A family of novel binary insecticidal crystal proteins, with activity against western corn rootworm, Diabrotica virgifera virgifera LeConte, was identified from Bacillus thuringiensis Berliner. A binary insecticidal crystal protein (bICP) from B. thuringiensis strain PS149B1 is composed of a 14-kDa protein (Cry34Abl) and a 44-kDaprotein (Cry35Ab1). These proteins have been co-expressed in transgenic maize plants, Zea mays L., and effectively control western corn rootworm larvae under field conditions. Laboratory experiments were conducted to better understand the contribution of each component protein to the in vivo activity of the bICP. The 14-kDa protein is active alone against southern corn rootworm, Diabrotica undecimpunctata howardi Barber, and was synergized by the 44-kDa protein. In mixtures, the concentration of the 14-kDa protein had a greater impact on efficacy than the 44-kDa component. Although both proteins are clearly required for maximal insecticidal activity, laboratory results did not support the formation of a stable, fixed-ratio complex of the two component proteins.

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Evaluation of logistic and polynomial models for fitting sandwich-ELISA calibration curves

Herman¹,

Scherer²,

Shan³

2008

Journal of Immunological Methods

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Rapid Degradation of a Binary, Ps149B1, &dgr;-Endotoxin ofBacillus thuringiensisin Soil, and a Novel Mathematical Model for Fitting Curve-Linear Decay

Herman¹,

Scherer²,

Wolt³

2002

Environ Entomol

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Stacking transgenic event DAS‐Ø15Ø7‐1 alters maize composition less than traditional breeding

Herman¹,

Fast²,

Scherer³

et al. 2017

Plant Biotechnology Journal

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SummaryThe impact of crossing (‘stacking’) genetically modified (GM) events on maize‐grain biochemical composition was compared with the impact of generating nonGM hybrids. The compositional similarity of seven GM stacks containing event DAS‐Ø15Ø7‐1, and their matched nonGM near‐isogenic hybrids (iso‐hybrids) was compared with the compositional similarity of concurrently grown nonGM hybrids and these same iso‐hybrids. Scatter plots were used to visualize comparisons among hybrids and a coefficient of identity (per cent of variation explained by line of identity) was calculated to quantify the relationships within analyte profiles. The composition of GM breeding stacks was more similar to the composition of iso‐hybrids than was the composition of nonGM hybrids. NonGM breeding more strongly influenced crop composition than did transgenesis or stacking of GM events. These findings call into question the value of uniquely requiring composition studies for GM crops, especially for breeding stacks composed of GM events previously found to be compositionally normal.

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Peter N. Scherer

Testing for Association in Contingency Tables with Multiple Column Responses

Binary Insecticidal Crystal Protein from <I>Bacillus thuringiensis,</I> Strain PS149B1: Effects of Individual Protein Components and Mixtures in Laboratory Bioassays

Evaluation of logistic and polynomial models for fitting sandwich-ELISA calibration curves

Rapid Degradation of a Binary, Ps149B1, &dgr;-Endotoxin ofBacillus thuringiensisin Soil, and a Novel Mathematical Model for Fitting Curve-Linear Decay

Stacking transgenic event DAS‐Ø15Ø7‐1 alters maize composition less than traditional breeding

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