Jeffrey R. Lane scite author profile

Bovine trypsin (EC 3.4.21.4) is an enzyme that is widely used for commercial purposes to digest or process other proteins, including some therapeutic proteins. The biopharmaceutical industry is trying to eliminate animal-derived proteins from manufacturing processes due to the possible contamination of these products by human pathogens. Recombinant trypsin has been produced in a number of systems, including cell culture, bacteria and yeast. To date, these expression systems have not produced trypsin on a scale sufficient to fulfill the need of biopharmaceutical manufacturers where kilogram quantities are often required. The present paper describes commercial-level production of trypsin in transgenic maize (Zea mays) and its physical and functional characterization. This protease, the first enzyme to be produced on a large-scale using transgenic plant technology, is functionally equivalent to native bovine pancreatic trypsin. The availability of this reagent should allow for the replacement of animal-derived trypsin in the processing of pharmaceutical proteins.

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Corn as a production system for human and animal vaccines

Streatfield¹,

Lane²,

Brooks³

et al. 2003

Vaccine

120

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Expression of the sweet protein brazzein in maize for production of a new commercial sweetener

Lamphear¹,

Barker²,

Brooks³

et al. 2004

Plant Biotechnology Journal

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SummaryThe availability of foods low in sugar content yet high in flavour is critically important to millions of individuals conscious of carbohydrate intake for diabetic or dietetic purposes.Brazzein is a sweet protein occurring naturally in a tropical plant that is impractical to produce economically on a large scale, thus limiting its availability for food products. We report here the use of a maize expression system for the production of this naturally sweet protein. High expression of brazzein was obtained, with accumulation of up to 4% total soluble protein in maize seed. Purified corn brazzein possessed a sweetness intensity of up to 1200 times that of sucrose on a per weight basis. In addition, application tests demonstrated that brazzein-containing maize germ flour could be used directly in food applications, providing product sweetness. These results demonstrate that high-intensity sweet protein engineered into food products can give sweetener attributes useful in the food industry.

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Improved recovery of active recombinant laccase from maize seed

Bailey¹,

Woodard²,

Callaway³

et al. 2004

Applied Microbiology and Biotechnology

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Lignolytic enzymes such as laccase have been difficult to over-express in an active form. This paper describes the expression, characterization, and application of a fungal laccase in maize seed. The transgenic seed contains immobilized and extractable laccase. Fifty ppm dry weight of aqueously extractable laccase was obtained, and the remaining solids contained a significant amount of immobilized laccase that was active. Although a portion of the extractable laccase was produced as inactive apoenzyme, laccase activity was recovered by treatment with copper and chloride. In addition to allowing the apoenzyme to regain activity, treatment with copper also provided a partial purification step by precipitating other endogenous corn proteins while leaving >90% of the laccase in solution. The data also demonstrate the application of maize-produced laccase as a polymerization agent. The apparent concentration of laccase in ground, defatted corn germ is approximately 0.20% of dry weight.

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Use of hi ii-elite inbred hybrids in Agrobacterium-based transformation of maize

Horn

Harkey

Vinas

et al. 2006

In Vitro Cell. Dev. Biol. - Plant

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Jeffrey R. Lane

Maize (Zea mays)‐derived bovine trypsin: characterization of the first large‐scale, commercial protein product from transgenic plants

Corn as a production system for human and animal vaccines

Expression of the sweet protein brazzein in maize for production of a new commercial sweetener

Improved recovery of active recombinant laccase from maize seed

Use of hi ii-elite inbred hybrids in Agrobacterium-based transformation of maize

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