The low efficiencies of most plant transformation methods necessitate the use of selectable marker genes to identify those cells that successfully integrate and express transferred DNA. Genes conferring resistance to various antibiotics or herbicides are commonly used in laboratory transformation research. They encode proteins that detoxify corresponding selection agents and allow the preferential growth of transformed cells. This chapter describes the application of two selection systems on the transformation of wheat. One is based on the nptII gene and corresponding aminoglycoside antibiotics, the other is based on the bar gene and corresponding glufosinate ammonium herbicides.</p
Key words: cereal transformation, hygromycin, selective agents Transgenic wheat plants without the s...
In this review, the use of the most common selection marker genes on plant transformation and the ef...
Plant cells are sensitive to the antibiotic bleomycin, a DNA damaging lycopeptide. A bleomycin resis...
The low efficiencies of most plant transformation methods necessitate the use of selectable marker g...
The low frequency and randomness of transgene integration into host cells, combined with the signifi...
Genes conferring resistance to antibiotics have been widely used as markers for the selection of tra...
<p>Genes conferring resistance to antibiotics have been widely used as markers for the selecti...
Antibiotic-free, efficient in vitro selection in plant genetic engineering can improve risk percepti...
The most commonly used markers for selection of transgenic Arabidopsis are resistance to the antibio...
Selectable marker genes are widely used for the efficient transformation of crop plants. In most cas...
Transgenic plants of Nicotiana tabacum were regenerated by leaf disc transformation using a bar gene...
The use of herbicides has revolutionized weed control in many crop production systems. However, with...
Nowadays, gene transformation methods play an important role in plant improvement. Herbicides are an...
A variety of expression systems and selection régimes have been developed to transform plants such a...
Phosphinothricin (PPT) is a potent inhibitor of glutamine synthetase in plants and is used as a non-...
Key words: cereal transformation, hygromycin, selective agents Transgenic wheat plants without the s...
In this review, the use of the most common selection marker genes on plant transformation and the ef...
Plant cells are sensitive to the antibiotic bleomycin, a DNA damaging lycopeptide. A bleomycin resis...
The low efficiencies of most plant transformation methods necessitate the use of selectable marker g...
The low frequency and randomness of transgene integration into host cells, combined with the signifi...
Genes conferring resistance to antibiotics have been widely used as markers for the selection of tra...
<p>Genes conferring resistance to antibiotics have been widely used as markers for the selecti...
Antibiotic-free, efficient in vitro selection in plant genetic engineering can improve risk percepti...
The most commonly used markers for selection of transgenic Arabidopsis are resistance to the antibio...
Selectable marker genes are widely used for the efficient transformation of crop plants. In most cas...
Transgenic plants of Nicotiana tabacum were regenerated by leaf disc transformation using a bar gene...
The use of herbicides has revolutionized weed control in many crop production systems. However, with...
Nowadays, gene transformation methods play an important role in plant improvement. Herbicides are an...
A variety of expression systems and selection régimes have been developed to transform plants such a...
Phosphinothricin (PPT) is a potent inhibitor of glutamine synthetase in plants and is used as a non-...
Key words: cereal transformation, hygromycin, selective agents Transgenic wheat plants without the s...
In this review, the use of the most common selection marker genes on plant transformation and the ef...
Plant cells are sensitive to the antibiotic bleomycin, a DNA damaging lycopeptide. A bleomycin resis...