Articles
PRELIMINARY EVALUATION OF TRANSGENIC TOMATO PLANTS EXPRESSING A YERSINIA PESTIS ANTIGEN FUSION PROTEIN F1-V GROWN IN A GREENHOUSE
Article number
797_54
Pages
381 – 385
Language
English
Abstract
Transgenic plants expressing high-value pharmaceutical protein have great potential for inexpensive and scalable protein production systems.
Greenhouse tomato production is a suitable platform for such high-value protein production, achieving high biomass yield, increased containment and environmental control capacity.
Our ultimate goal is to develop a greenhouse-based efficient protein production system.
In this study, using transgenic tomato plants expressing a predominant antigen fusion protein F1-V against plague as a model system, we characterized growth and development of the transgenic plants under typical semiarid greenhouse conditions and evaluated fruit and protein productivity.
Two transgenic lines, T22.11 and T3D1.2, carrying the transgene f1-v and two non-transgenic tomato cultivars, TA234 (wild type) and Durinta (commercial cultivar as reference), were used as the plant material.
All plants were grown hydroponically in a greenhouse equipped with a temperature control system from September 2007 to March 2008. Cumulative fruit yield per plant was significantly higher in Durinta than in T22.11, T3D1.2 and TA234, while total soluble-protein (TSP) concentration of fruits of Durinta was significantly lower than those of the other lines.
As a result, estimated cumulative TSP production was the lowest in Durinta. This suggests that a tomato cultivar having high biomass productivity is not necessarily suitable for high-value protein production.
Greenhouse tomato production is a suitable platform for such high-value protein production, achieving high biomass yield, increased containment and environmental control capacity.
Our ultimate goal is to develop a greenhouse-based efficient protein production system.
In this study, using transgenic tomato plants expressing a predominant antigen fusion protein F1-V against plague as a model system, we characterized growth and development of the transgenic plants under typical semiarid greenhouse conditions and evaluated fruit and protein productivity.
Two transgenic lines, T22.11 and T3D1.2, carrying the transgene f1-v and two non-transgenic tomato cultivars, TA234 (wild type) and Durinta (commercial cultivar as reference), were used as the plant material.
All plants were grown hydroponically in a greenhouse equipped with a temperature control system from September 2007 to March 2008. Cumulative fruit yield per plant was significantly higher in Durinta than in T22.11, T3D1.2 and TA234, while total soluble-protein (TSP) concentration of fruits of Durinta was significantly lower than those of the other lines.
As a result, estimated cumulative TSP production was the lowest in Durinta. This suggests that a tomato cultivar having high biomass productivity is not necessarily suitable for high-value protein production.
Publication
Authors
R. Matsuda, C. Kubota, L.M. Alvarez, G.A. Cardineau
Keywords
controlled environment agriculture, molecular farming, plague vaccine, plant-made pharmaceuticals, Solanum lycopersicum L.
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