Jan Fahleson

The HD-Zip gene ATHB6 in Arabidopsis is expressed in developing leaves, roots and carpels and up-regulated by water deficit conditions

Homeodomain-leucine zipper (HD-Zip) proteins are transcription factors as yet found only in plants. We have characterized one HD-Zip gene, ATHB6, from Arabidopsis thaliana. ATHB6 was expressed constitutively in seedlings, but significantly up-regulated in seedlings subjected to water deficit, osmotic stress or exogenous treatment with abscisic acid (ABA), an induction being detectable within 30 min. The ATHB6 induction was impaired in the two ABA-insensitive mutants, abi1 and abi2, but unaffected in the abi3 mutation. The induction was ABA-dependent, since no increase in ATHB6 transcript was detected in the ABA-deficient mutant aba-3 subjected to drought treatment. These results suggest that ATHB6 may act downstream to both ABI1 and ABI2 in a signal transduction pathway mediating a drought stress response. A translational fusion of the ATHB6 promoter with the reporter gene GUS (ATHB6::GUS) in transgenic A. thaliana plants showed high-level expression in leaf primordia. Expression in developing cotyledons, leaves, roots and carpels was restricted to regions of cell division and/or differentiation. The expression in the cotyledons was detectable in the epidermis and high in the stomatal cells. In mature cotyledons and leaves the marker gene was expressed only in the vascular tissue. These expression data suggest ATHB6 to have a function related to cell division and/or differentiation in developing organs.

Correlation between flow cytometric determination of nuclear DNA content and chromosome number in somatic hybrids within Brassicaceae.

SummaryFourty-one somatic hybrids from two species combinations, Brassica oleracea + B. campestris and B. napus + Eruca sativa, were analysed for chromosome number and nuclear DNA content. The DNA content was measured in a flow cytometer using two internal standards as references and when related to the chromosome number a correlation of 0.91 was found. The chromosome number of the hybrids could be determined with an accuracy of ±10% by using flow cytometry, and the smallest statistically significant difference in DNA content between two individuals was 0.23 pg DNA/cell.

Identification of the causal agent of Verticillium wilt of winter oilseed rape in Sweden, V. longisporum

Morphological characters and genetic relationships were studied among 36 Verticillium isolates derived from different host species. Conidial length varied from 3.5 μm to 12 μm and the DNA content ranged from 0.028 pg to 0.078 pg with a bias towards large conidia and higher DNA content among the Swedish and German isolates from Brassica napus. Ability to produce nitrate nonutilising ( nit ) mutants was also assayed. Of all 36 isolates tested, eight V. dahliae isolates from non- Brassica hosts and two from B. napus, V. nigrescens from flax and V. albo-atrum from tomato generated nit mutants. To facilitate disease diagnosis, a species-specific PCR primer pair was developed, aiming towards a PCR-based analysis to confirm Verticillium wilt infection in Brassica plants. To identify useful DNA templates for the PCR primer design, random genomic clones from isolates VD12 and VD17 were used as probes in RFLP analysis. The RFLP results were also utilized in phenetic analysis and data from 29 isolates revealed three major groups. The first group consisted of seven non- Brassica V. dahliae isolates and the V. nigrescens isolate. The second group contained the two V. albo-atrum isolates and the V. dahliae isolate from red clover. Finally, the third group contained all the 18 isolates of Verticillium from B. napus. In the third group, two subgroups were identified, separating the three French isolates from the German and Swedish isolates. The dendrogram indicated that the isolates in the latter subgroup were closely related to each other. Based on the above mentioned criteria, we confirm that the isolates of Verticillium from B. napus in Sweden and Germany should be classified as V. longisporum.

Intertribal somatic hybrids between Brassica napus and Thlaspi perfoliatum with high content of the T. perfoliatum-specific nervonic acid

Protoplast fusions were performed between hypocotyl protoplasts of Brassica napus and mesophyll protoplasts of Thlaspi perfoliatum. The two species are members of the Lepidieae and Brassiceae tribes, respectively, in the family of Brassicaceae. Seeds of T. perfoliatum are rich in the fatty acid C24∶1 (nervonic acid), an oil valuable for technical purposes. In the search for renewable oils to replace the mineral oils, plant breeders have been trying to develop oil crops with a high content of long-chain fatty acids. After fusion of B. napus protoplasts with non-irradiated as well as irradiated protoplasts of T. perfoliatum selection was carried out by flow cytometry and cell sorting. Of the shoots regenerated from different calli 27 were verified as hybrids or partial hybrids using the isoenzyme phosphoglucose isomerase (PGI) as a marker. Another 6 plants were identified as partial hybrids using a T. perfoliatum-specific repetitive DNA sequence. Slot blot experiments were performed to estimate the copy number of the repetitive DNA sequence in the parental species and in the hybrids. In T. perfoliatum there were approximately 105 copies per haploid genome, and the range in the hybrids was 1–37% of the value in T. perfoliatum. When the nuclear DNA content of the regenerated shoots was analysed we found partial as well as symmetric hybrids. Even though the rooting and establishment of hybrid shoots in the greenhouse were difficult, resulting in the death of many plants, 19 plants were cultured to full maturity. Seeds obtained from 15 plants were analysed to determine whether they contained nervonic acid, and 5 of the hybrids were found to contain significantly greater amounts of nervonic acid than B. napus.

Phylogenetic analysis of Verticillium species based on nuclear and mitochondrial sequences

Three different genes were sequenced from isolates of five plant-pathogenic Verticillium species, Verticillium albo-atrum, Verticillium dahliae, Verticillium longisporum, Verticillium nigrescens, and Verticillium tricorpus. The sequences covered parts of the mitochondrial cytochrome b gene (cob), the mitochondrial small subunit rRNA gene (rns) and the nuclear ITS2 region. When the sequences were combined, the five species clustered in five monophyletic groups, with V. nigrescens distantly related to the other species while V. tricorpus displayed a somewhat closer relationship to the three remaining species. V. albo-atrum, V. dahliae and V. longisporum were found to be very similar to each other, with V. albo-atrum and V. longisporum displaying the closest relationship. The species affiliation of V. longisporum is discussed.

Characterization of somatic hybrids between Brassica napus and Eruca sativa using species-specific repetitive sequences and genomic in situ hybridization

Abstract To analyze inheritance and presence of donor DNA from Eruca sativa in progenies derived from somatic hybrids between Eruca sativa × Brassica napus , two E. sativa specific repetitive DNA sequences were isolated and characterized by DNA sequencing. One of the sequences, ESR64, showed 100% similarity with a part of the E. sativa rDNA intergenic spacer. In situ hybridization to metaphase chromosomes of E. sativa revealed six sites of hybridization, indicating that E. sativa has three rDNA loci. The other clone, ESR92, was shown to be a tandemly repeated element located close to the telomeres on at least ten chromosomes. Analysis of progenies derived from the somatic hybrids, using these two repetitive sequences as probes, revealed the presence of E. sativa DNA. Furthermore, cytogenetic analyses with genomic in situ hybridization (GISH), was performed, using differently labelled total DNA from the two parental species, in combination with a preannealing step to remove common sequences. These experiments showed that labelling in B. napus was restricted to the centromeric regions while a uniform distribution over the chromosomes was found in E. sativa . With the GISH technique it was also revealed that the somatic hybrid progeny contained one or two complete E. sativa chromosomes, but no intergenomic translocations could be detected.

Estimation of Genetic Variation Among Verticillium Isolates using AFLP Analysis

Amplified fragment length polymorphism (AFLP) analysis was used to study genetic variation among 76 isolates of Verticillium. A dendrogram based on the AFLP data revealed three main groups. One group consisted of 35 European isolates derived from Brassica napus together with five Californian isolates taken from B. oleracea. This group displayed a high degree of genetic similarity and included three isolates earlier classified as Verticillium longisporum, indicating that all isolates in this group probably should be regarded as members of V. longisporum. V. dahliae isolates constituted the second group while the third group contained four V. albo-atrum isolates. In addition to these three groups, a cluster of six V. nigrescens isolates was observed. However, the genetic distances between the isolates of V. nigrescens were much higher than those between members in the other groups and the bootstrap value for the V. nigrescens cluster was subsequently low. Four isolates classified as V. tricorpus were highly diverse and did not cluster together. Analysis of molecular variance revealed that the isolates of V. longisporum were separated into four subgroups, based on geographic origin. The study furthermore shows that AFLP is a suitable method for studying population structure in Verticillium.

Intertribal somatic hybrids between Brassica napus and Barbarea vulgaris - production of in vitro plantlets.

Intertribal somatic hybrids were produced between Brassica napus and Barbarea vulgaris. The two species belong to the tribes Arabidae and Brassiceae, respectively, B. vulgaris is known to be cold tolerant and of interest to use as a gene donor to rapeseed. Of the plants produced in five fusion experiments six plants were verified to be hybrids by RFLP analysis utilizing one B. vulgaris-specific repetitive DNA sequence and two nuclear probes (rDNA and cruciferin) as markers. When analysing nuclear DNA content in four of these six hybrids, all had a higher DNA content than B. napus. However, mature plants could not be established outside in vitro conditions, indicating problems with compatibility between the species.

Genetic variability and genomic divergence of Elymus repens and related species

SummaryIn order to study the genetic variation and phylogenetic relationship in Elymus repens, amplified fragment length polymorphism (AFLP) were used, together with sequence data for the nuclear gene phytochrome B, phyB, and the chloroplast ribosomal protein encoding gene rps4. A total of 83 collected E. repens samples, 3 E. repens reference samples and 18 related species accessions were analysed and compared with 13 GenBank sequences. AMOVA analysis revealed a moderate genetic differentiation between the populations of E. repens in the three Swedish provinces investigated, while no differentiation was observed due to landscape type. A moderate genetic differentiation was also found when samples from different fields in one province were compared to samples from a selected field. A common female origin was found in E. repens and seven other Elymus species, Pseudoroegneria spicata, Thinopyrum intermedium, T. junceum, Hordeum bogdanii and H. stenostachys. The latter two both harbour the H genome. Taken together, the data suggest that the Swedish E. repens population is slightly heterogeneous and comprises multiple origins of genome donors; a nuclear genome with contributions from Pseudoroegneria (St), Hordeum (H), Thinopyrum (E) and Y with an unknown donor together with a maternal genome donated from Pseudoroegneria.