Molecular and genetic characterization of elite transgenic rice plants produced by electric-discharge particle acceleration.

The recovery of transgenic rice plants expressing a number of exogenous genes was reported previously. Using immature embryo explants as the target tissue, plasmids containing both selectable and screenable marker genes were introduced into elite rice varieties via electric-discharge particle acceleration. Co-integration, copy number, expression, and inheritance of these genes were analyzed.

Cotransformation frequencies of foreign genes in soybean cell cultures.

Through the use of electroporation and a soybean (Glycine max L.) protoplast system, we generated stably transformed cell lines expressing a number of foreign genes (neomycin phosphotransferase,β-glucuronidase, chloramphenicol acetyl transferase, and phosphinothricin acetyl transferase). Selected and unselected marker genes were cointroduced either linked on a single plasmid or as separate plasmids.

Inheritance and expression of foreign genes in transgenic soybean plants.

DNA-coated gold particles were introduced into meristems of immature soybean seeds using electric discharge particle acceleration to produce transgenic fertile soybean plants. The lineages of integrated foreign DNA in two independently transformed plants were followed in the first (R(1)) and second (R(2)) generation of self-pollinated progeny. One plant (4615) was transformed with the Escherichia coli genes for beta-glucuronidase and neomycin phosphotransferase II; the other (3993) was transformed only with the gene for beta-glucuronidase.

Cytokinin antagonist activity of substituted phenethylamines in plant cell culture.

A series of structurally related substituted phenethylamines shows extreme toxicity toward wild-type callus tissue cultures of tobacco (Nicotiana tabacum), soybean (Glycine max), corn (Zea mays), and sunflower (Helianthus annuus L.), but tobacco crown gall cultures are resistant to the compounds. The essential components that result in toxicity of the phenethylamines include one aromatic hydroxyl and one primary aliphatic amino group.

Habituation in in vitro soybean cultures.

The habituation of soybean (Glycine max) callus can be induced rapidly, by exposing the tissue to small amounts (10(-9)molar) of compounds including 2.4-dinitrophenol and phenoxyisobutyric acid for brief periods of time. Such compounds reportedly exhibit antiauxin activity.

Stable Transformation of Soybean Callus by DNA-Coated Gold Particles.

Immature soybean (Glycine max L.) embryos from commercially important cultivars were the targets of rapidly accelerated, DNA-coated, gold particles. Protoplasts were prepared from these tissues and propagated in culture under selection conditions for the introduced neomycin phosphotransferase II gene.

Stable transformation of soybean by electroporation and root formation from transformed callus.

Soybean protoplasts from a number of commercially important cultivars have been genetically engineered by way of electroporation using chimeric genes coding for resistance to the aminoglycoside antibiotics kanamycin and G418. Effective electroporation conditions were determined by monitoring transient expression from aminoglycoside 3'-phosphotransferase II (APHII) expression plasmids. Electroporation of protoplasts with a chimeric APHII gene and subsequent selection on media supplemented with kanamycin resulted in the recovery of calli resistant to the antibiotic.

Detection of opines by colorimetric assay.

A colorimetric procedure for confirming the presence of arginine-derived opines (nopaline and octopine) in plant tissue extracts is described. Those materials are widely used as markers of plant cell transformation and tumorigenesis mediated by the tumor-inducing plasmids of Agrobacterium tumefaciens. Nopaline and octopine are generally detected, following resolution by paper electrophoresis, by observation of the uv-fluorescent products formed upon reaction with phenanthrenequinone.

Opine synthesis in wild-type plant tissue.

Opine production is associated with crown gall tissue, a neoplastic growth caused by infection of dicotyledonous plants with Agrobacterium tumefaciens. Recent publications have claimed that tissues of certain monocotyledonous plants can also be infected by Agrobacterium. Following infection, a part of the Agrobacterium Ti plasmid, T-DNA, is integrated into the chromosome of the infected plant.