Knock-out mutants from an En-1 mutagenized Arabidopsis thaliana population generate phenylpropanoid biosynthesis phenotypes

A collection of 8,000 Arabidopsis thaliana plants carrying 48,000 insertions of the maize transposable element En-1 has been generated. This population was used for reverse genetic analyses to identify insertions in individual gene loci. By using a PCR-based screening protocol, insertions were found in 55 genes. En-1 showed no preference for transcribed or untranscribed regions nor for a particular orientation relative to the gene of interest. In several cases, En-1 was inserted within a few kilobases upstream or downstream of the gene. En-1 was mobilized from such positions into the respective gene to cause gene disruption. Knock-out alleles of genes involved in flavonoid biosynthesis were generated. One mutant line contained an En-1 insertion in the flavonol synthase gene (FLS) and showed drastically reduced levels of kaempferol. Allelism tests with other lines containing En-1 insertions in the flavanone 3-hydroxylase gene (F3H) demonstrated that TRANSPARENT TESTA 6 (TT6) encodes flavanone 3-hydroxylase. The f3h and fls null mutants complete the set of A. thaliana lines defective in early steps of the flavonoid pathway. These experiments demonstrate the efficiency of the screening method and gene disruption strategy used for assigning functions to genes defined only by sequence.

KAT1 is not essential for stomatal opening

It is generally accepted that K+ uptake into guard cells via inward-rectifying K+ channels is required for stomatal opening. To test whether the guard cell K+ channel KAT1 is essential for stomatal opening, a knockout mutant, KAT1∷En-1, was isolated from an En-1 mutagenized Arabidopsis thaliana population. Stomatal action and K+ uptake, however, were not impaired in KAT1-deficient plants. Reverse transcription–PCR experiments with isolated guard cell protoplasts showed that in addition to KAT1, the K+ channels AKT1, AKT2/3, AtKC1, and KAT2 were expressed in this cell type. In impalement measurements, intact guard cells exhibited inward-rectifying K+ currents across the plasma membrane of both wild-type and KAT1∷En-1 plants. This study demonstrates that multiple K+ channel transcripts exist in guard cells and that KAT1 is not essential for stomatal action.