Dean E. Engler scite author profile

SummaryA simple modi®cation to standard binary vector design has been utilized to enrich an Agrobacteriumtransformed population for plants containing only T-DNA sequences. A lethal gene was incorporated into the non-T-DNA portion of a binary vector, along with a screenable marker. The resulting class of vectors is designated as NTL T-DNA vectors (non-T-DNA lethal gene-containing T-DNA vectors). The lethal gene used here is a CaMV 35S-barnase gene with an intron in the coding sequence (barnase-INT); the screenable marker is a pMAS-luciferase gene with an intron in the coding sequence (LUC-int). To evaluate the utility of this vector design, tobacco plants were transformed with either the NTL T-DNA vector or a control vector from which most of the barnase-INT gene was deleted. Populations of 50 transgenic plants were scored for LUC expression. The results indicated a dramatic reduction in the presence of non-T-DNA sequences in the transgenic population using the NTL T-DNA vector. Only one transgenic plant was found to be LUC+ using the NTL vector, compared with 42 of 50 plants using the control vector. Importantly, the ef®ciency with which transformed tobacco plants was obtained was reduced by no more than 30%. The reduction in LUC+ transgenics was partially reversed when a barstar-expressing tobacco line was transformed, indicating that barnase expression was responsible for the reduced frequency of incorporating non-T-DNA sequences. Similar transformation results were obtained with tomato and grape. The incorporation of a barnase-INT gene outside the left border appears to provide a generally applicable tool for enriching an Agrobacterium-transformed population for plants containing only T-DNA sequences.

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Intron-mediated enhancement of gene expression in maize (Zea mays L.) and bluegrass (Poa pratensis L.)

Vain

Finer

Engler³

et al. 1996

Plant Cell Reports

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We report a strength comparison of a large variety of monocot and dicot intron-containing fragments inserted in the 5' untranslated leader, between the CaMV 35S promoter and the uidA gene (coding for the ß-glucuronidase: GUS). Relative strengths of the intron-containing fragments were evaluated by comparing transient GUS expression after particle bombardment in embryogenic maize and bluegrass suspension cultures. Our results confirm a dramatic dependence on the presence of an intron for chimeric gene expression in both species. On average, the maize first intron of ubi1 provided the highest enhancement of gene expression in maize and bluegrass (71- and 26-fold enhancement, respectively). Half of the introns tested affected gene expression differently in bluegrass and maize. This suggests that the intron-mediated enhancement of gene expression generally obtained with maize may not be fully applicable to all monocots. We also report enhancement of gene expression (92-fold) in a monocot species by a dicot intron (chsA intron).

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Variation in lettuce plants regenerated from protoplasts

Engler¹,

Grogan²

1984

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Intron-mediated enhancement of gene expression in maize ( Zea mays L.) and bluegrass ( Poa pratensis L.)

Vain

Finer

Engler³

et al. 1996

Plant Cell Reports

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Isolation, Culture and Regeneration of Lettuce Leaf Mesophyll Protoplasts

Engler

Grogan

1983

Plant Science Letters

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Dean E. Engler

A simple method to enrich an Agrobacterium‐transformed population for plants containing only T‐DNA sequences

Intron-mediated enhancement of gene expression in maize (Zea mays L.) and bluegrass (Poa pratensis L.)

Variation in lettuce plants regenerated from protoplasts

Intron-mediated enhancement of gene expression in maize ( Zea mays L.) and bluegrass ( Poa pratensis L.)

Isolation, Culture and Regeneration of Lettuce Leaf Mesophyll Protoplasts

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