sg:pub.10.1007/bf00226875 - Springer Nature SciGraph

Article Info

DATE

1990-05

AUTHORS

T. M. Spencer, W. J. Gordon-Kamm, R. J. Daines, W. G. Start, P. G. Lemaux

ABSTRACT

Stable transformed Black Mexican Sweet (BMS) maize callus was recovered from suspension culture cells bombarded with plasmid DNA that conferred resistance to the herbicide bialaphos. Suspension culture cells were bombarded with a mixture of two plasmids. One plasmid contained a selectable marker gene, bar, which encoded phosphinothricin acetyl transferase (PAT), and the other plasmid encoded a screenable marker for β-glucuronidase (GUS). Bombarded cells were selected on medium containing the herbicide bialaphos, which is cleaved in plant cells to yield phosphinothricin (PPT), an inhibitor of glutamine synthetase. The bialaphos-resistant callus contained the bar gene and expressed PAT as assayed by PPT inactivation. Transformants that expressed high levels of PAT grew more rapidly on increasing concentrations of bialaphos than transformants expressing low levels of PAT. Fifty percent of the bialaphos-resistant transformants tested (8 of 16) expressed the nonselected gene encoding GUS. More... »

PAGES

625-631

References to SciGraph publications

1987-12. Assaying chimeric genes in plants: The GUS gene fusion system in PLANT MOLECULAR BIOLOGY REPORTER

1988-07. Transient expression of foreign genes in rice, wheat and soybean cells following particle bombardment in PLANT MOLECULAR BIOLOGY

1989-08. Stable co-transformation of maize protoplasts with gusA and neo genes in PLANT MOLECULAR BIOLOGY

1988-08. Stable Transformation of Soybean (Glycine Max) by Particle Acceleration in NATURE BIOTECHNOLOGY

1988-10. Production of kanamycin resistant rice tissues following DNA uptake into protoplasts in PLANT CELL REPORTS

1987-09. A simple and rapid method for minipreparation of DNA from tissue cultured plant cells in PLANT MOLECULAR BIOLOGY REPORTER

1986-02. Stable transformation of maize after gene transfer by electroporation in NATURE

1985-05. Gene transfer to cereal cells mediated by protoplast transformation in MOLECULAR GENETICS AND GENOMICS

1989-03. Fertile transgenic rice plants regenerated from transformed protoplasts in NATURE

1989-06. Plant Regeneration and Recovery of Fertile Plants from Protoplasts of Maize (Zea Mays L.) in NATURE BIOTECHNOLOGY

1986-12. Experession and integration of genes introduced into highly synchronized plant protoplasts in MOLECULAR GENETICS AND GENOMICS

1988-05. Factors Influencing Gene Delivery into Zea Mays Cells by High–Velocity Microprojectiles in NATURE BIOTECHNOLOGY

1987-05. High-velocity microprojectiles for delivering nucleic acids into living cells in NATURE

1989-07. Delivery of foreign genes to intact barley cells by high-velocity microprojectiles in THEORETICAL AND APPLIED GENETICS

1989-06. Regeneration of Fertile Plants from Protoplasts of Elite Inbread Maize. in NATURE BIOTECHNOLOGY

Journal

TITLE

Theoretical and Applied Genetics

ISSUE

VOLUME

Subjects

FOR: Crop And Pasture Production

FOR: Agricultural And Veterinary Sciences

Related Patents

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/bf00226875

DOI

http://dx.doi.org/10.1007/bf00226875

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1027306292

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/24226576

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38	″	schema:description	Stable transformed Black Mexican Sweet (BMS) maize callus was recovered from suspension culture cells bombarded with plasmid DNA that conferred resistance to the herbicide bialaphos. Suspension culture cells were bombarded with a mixture of two plasmids. One plasmid contained a selectable marker gene, bar, which encoded phosphinothricin acetyl transferase (PAT), and the other plasmid encoded a screenable marker for β-glucuronidase (GUS). Bombarded cells were selected on medium containing the herbicide bialaphos, which is cleaved in plant cells to yield phosphinothricin (PPT), an inhibitor of glutamine synthetase. The bialaphos-resistant callus contained the bar gene and expressed PAT as assayed by PPT inactivation. Transformants that expressed high levels of PAT grew more rapidly on increasing concentrations of bialaphos than transformants expressing low levels of PAT. Fifty percent of the bialaphos-resistant transformants tested (8 of 16) expressed the nonselected gene encoding GUS.
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