Jacob B. Bade scite author profile

SummaryThe superior regeneration capacity of Lycopersicon peruvianum was introduced into the cultivated tomato Lycopersicon esculentum by backcrossing hybrid material with the tomato genotype VF11. In segregating material derived from these backcrosses, the ability to regenerate shoots on root explants cultured on a zeatin-containing medium, was highly correlated with the ability to regenerate shoots on established callus cultures. The efficient shoot-regenerating root explant system permitted us to study the genetics of this trait and to locate the genes involved, using a set of morphological markers defining all 12 tomato chromosomes. Depending on the tomato genotype, mono, -di-or trigenic ratios were observed. It is concluded that a dominant L. peruvianurn allele at a locus (Rg-7) near the middle of chromosome 3 determines efficient shoot regeneration on root explants in tomato in combination with dominant alleles at one or two other loci of either L. peruvianum or L. esculentum origin. The map location of the Rg-7 locus was refined further using a number of chromosome-3-specific RFLPs. The addition of new classical and RFLP linkage data to existing literature data and subsequent processing resulted in a revised and integrated map of tomato chromosome 3. From a morphological and physiological analysis of genotypes differing in Rg phenotype, it is concluded that the genetic component associated with regeneration determines the maintenance of morphogenetic competence and not the sensitivity to hormones.

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Bade¹,

Grinsven²,

Custers

et al. 2003

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A simple strategy to identify and isolate new promoters suitable for driving the expression of selectable marker genes is described. By employing a Brassica napus hypocotyl transformation protocol and a promoterless gus::nptII tagging construct, a series of 20 kanamycin-resistant tagged lines was produced. Most of the regenerated plants showed hardly any GUS activity in leaf, stem and root tissues. However, expression was readily restored in callus tissue induced on in vitro leaf segments. Genomic sequences upstream of the gus::nptII insertions were isolated via plasmid rescue. Three clones originating from single copy T-DNA lines were selected for further evaluation. The rescued plasmids were cloned as linear fragments in binary vectors and re-transformed to Brassica napus hypocotyl and Solanum tuberosum stem segments. The new sequences maintained their promoter activity, demonstrated by transient and stable GUS activity after transformation. Furthermore, the promoters provided sufficient expression of the nptII gene to yield transgenic plants when using kanamycin as selective agent. Database searching (BLASTN) revealed that the promoters have significant homology with three Arabidopsis BAC clones, one Arabidopsis cDNA and one Brassica napus cDNA. The results presented in this paper illustrate the strength of combined methods for identification, isolation and testing of new plant promoters.

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Ponstein

Bade

Verwoerd

et al. 2002

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Introduction II Agrobacterium-rhizogenes,a Natural Transformation System

Bade¹,

Damm²

1995

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T‐DNA tagging of a pathogen inducible promoter in Arabidopsis thaliana

Custers

Melchers

Tigelaar

et al. 2002

Molecular Plant Pathology

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Summary Many events associated with the plant defence responses are regulated on the transcriptional level. Here we report the results of a promoter tagging approach to identify promoters that are induced upon pathogen attack in Arabidopsis thaliana. A line was identified in a T-DNA UidA tagged Arabidopsis library with induced GUS expression after Botrytis cinerea infection around the site of fungal infection. The upstream sequence was isolated and fused to the UidA gene and tested in transgenic Arabidopsis thaliana and Brassica napus plants. Promoter function was very similar to the expression pattern found in the original promoter tagged line. We found that the promoter sequence was located on Arabidopsis chromosome III and linked to a predicted open reading frame in the reverse orientation. The predicted gene codes for a putative receptor serine threonine protein kinase of 383 amino acids in size. The clone contains a protein kinase ATP binding region, a protein kinase active site, a region with similarity to motifs found in Alpha Isopropylmalate/homocitrate synthase enzymes and a putative leucine zipper motif. Analysis of the expression pattern of the gene using RT-PCR demonstrated that the putative receptor serine threonine protein kinase is up-regulated after Salicylic acid treatment and Botrytis infection.

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Jacob B. Bade

Characterization and mapping of a gene controlling shoot regeneration in tomato

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Untitled

Introduction II Agrobacterium-rhizogenes,a Natural Transformation System

T‐DNA tagging of a pathogen inducible promoter in Arabidopsis thaliana

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