Target selected insertional mutagenesis on chromosome IV of Arabidopsis using the En-I transposon system.

Reverse genetics using insertional mutagenesis is an efficient experimental strategy for assessing gene functions. The maize Enhancer-Inhibitor (En-I) transposable element system was used to develop an effective reverse genetics strategy in Arabidopsis based on transposons. To generate insertion mutations in a specific chromosomal region we developed a strategy for local transposition mutagenesis.

A two-component enhancer-inhibitor transposon mutagenesis system for functional analysis of the Arabidopsis genome.

A modified Enhancer-Inhibitor transposon system was used to generate a series of mutant lines by single-seed descent such that multiple I insertions occurred per plant. The distribution of original insertions in the population was assessed by isolating transposon-flanking DNA, and a database of insertion sites was created. Approximately three-quarters of the identified insertion sites show similarity to sequences stored in public databases, which demonstrates the power of this regimen of insertional mutagenesis.

Function search in a large transcription factor gene family in Arabidopsis: assessing the potential of reverse genetics to identify insertional mutations in R2R3 MYB genes.

More than 92 genes encoding MYB transcription factors of the R2R3 class have been described in Arabidopsis. The functions of a few members of this large gene family have been described, indicating important roles for R2R3 MYB transcription factors in the regulation of secondary metabolism, cell shape, and disease resistance, and in responses to growth regulators and stresses. For the majority of the genes in this family, however, little functional information is available.

Disease resistance gene homologs correlate with disease resistance loci of Arabidopsis thaliana.

The disease resistance genes RPS2 of Arabidopsis and N of tobacco, among other recently cloned resistance genes, share several conserved sequences. Degenerate oligonucleotide primers, based on conserved sequences in the nucleotide binding site (NBS) and a weak hydrophobic domain of RPS2 and N, were used to amplify homologous sequences from Arabidopsis thaliana. Amplification products were obtained that were similar in sequence to the disease resistance genes RPS2, RPM1, N and L6.

GA3-regulated cDNAs from Hordeum vulgare leaves.

The barley mutant dbg 576 shows an extreme vegetative dwarf phenotype. This is reversed after the application of GA3 which also induces the mutant florets to become partly fertile. cDNA clones ES1A and ES2A were isolated by differential screening with subtracted probes from a DNA library prepared from mutant leaf blades after GA3 treatment.