Camelia R. Smith scite author profile

Camelia R. Smith

4Publications

36Citation Statements Received

0Citation Statements Given

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109

Affiliations

Beltsville Agricultural Research Center, Plant (United States)

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Rapid optimization of electroporation conditions for plant cells, protoplasts, and pollen

et al. 1995

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The optimization of electroporation conditions for maximal uptake of DNA during direct gene transfer experiments is critical to achieve high levels of gene expression in transformed plant cells. Two stains, trypan blue and fluorescein diacetate, have been applied to optimize electroporation conditions for three plant cell types, using different square wave and exponential wave electroporation devices. The different cell types included protoplasts from tobacco, a stable mixotrophic suspension cell culture from soybean with intact cell walls, and germinating pollen from alfalfa and tobacco. Successful electroporation of each of these cell types was obtained, even in the presence of an intact cell wall when conditions were optimized for the electroporation pulse. The optimal field strength for each of these cells differs, protoplasts having the lowest optimal pulse field strength, followed by suspension cells and finally germinating pollen requiring the strongest electroporation pulse. A rapid procedure is described for optimizing electroporation parameters using different types of cells from different plant sources.

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Replication footprint analysis of cucumber mosaic virus electroporated into tomato protoplasts

Smith¹,

Tousignant²,

Kaper³

1992

Analytical Biochemistry

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Expression of GUS and CAT activities using electrotransformed pollen

et al. 1994

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Successful Gene Transfer in Plants Using Electroporation and Electrofusion

Saunders

Wert

Smith

et al. 1992

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Camelia R. Smith

Rapid optimization of electroporation conditions for plant cells, protoplasts, and pollen

Replication footprint analysis of cucumber mosaic virus electroporated into tomato protoplasts

Expression of GUS and CAT activities using electrotransformed pollen

Successful Gene Transfer in Plants Using Electroporation and Electrofusion

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