Field performance of chitinase transgenic silver birches (Betula pendula): resistance to fungal diseases.

A field trial of 15 transgenic birch lines expressing a sugar beet chitinase IV gene and the corresponding controls was established in southern Finland to study the effects of the level of sugar beet chitinase IV expression on birch resistance to fungal diseases. The symptoms caused by natural infections of two fungal pathogens, Pyrenopeziza betulicola (leaf spot disease) and Melampsoridium betulinum (birch rust), were analysed in the field during a period of 3 years. The lines that had shown a high level of sugar beet chitinase IV mRNA accumulation in the greenhouse also showed high sugar beet chitinase IV expression after 3 years in the field. The level of sugar beet chitinase IV expression did not significantly improve the resistance of transgenic birches to leaf spot disease. Instead, some transgenic lines were significantly more susceptible to leaf spot than the controls. The level of sugar beet chitinase IV expression did have an improving effect on most parameters of birch rust; the groups of lines showing high or intermediate transgene expression were more resistant to birch rust than those showing low expression. This result indicates that the tested transformation may provide a tool for increasing the resistance of silver birch to birch rust.

Antifungal activity of stilbenes in in vitro bioassays and in transgenic Populus expressing a gene encoding pinosylvin synthase.

The effect of two stilbene compounds, pinosylvin and resveratrol, on the growth of several fungi was evaluated in plate tests. Wood decay tests were carried out with birch and aspen samples impregnated with the two stilbenes. In plate experiments, resveratrol had an enhancing effect on growth at concentrations where pinosylvin was already enough to prevent the growth of most fungi studied. Pinosylvin impregnated at 0.2% (w/w) concentration significantly reduced the decay caused by all fungi except Phellinus tremulae. In contrast, a resveratrol content of 0.8%, did not protect the wood from decay. A pinosylvin-synthase-encoding gene from Pinus sylvestris was transferred into aspen ( Populus tremula) and two hybrid aspen clones ( Populus tremulax tremuloides) by Agrobacterium tumefaciens-mediated transformation. Transgenic plants accumulated pinosylvin synthase-specific mRNA and showed stilbene synthase enzyme activity in vitro. Transgenic aspen line H4 showed increased resistance to Phellinus tremulae, while two hybrid aspen transformants decayed faster than the control trees. However, we were unable to detect the accumulation of stilbenes in the transgenic plantlets.

Comparisons of the efficiency of some promoters in silver birch (Betula pendula).

The efficiency of several promoters (pin2 from potato, ubiquitin from sunflower, rolC from Agrobacterium rhizogenes, act1 from rice and CaMV 35S from cauliflower mosaic virus) fused to the uidA reporter gene was measured after biolistic bombardment of birch leaves (Betula pendula L.). The highest level of ß-glucuronidase (GUS) activity was achieved with the pin2 promoter and the lowest activity with the CaMV 35S promoter. The activity of the potato wound-inducible promoter (pin2) was also tested in stably transformed birch. The promoter showed induced activity after mechanical wounding and feeding by leaf weevils. The systemic effect was confirmed by enhanced GUS activity in non-wounded leaves. The results of this study indicated that the potato wound-inducible promoter maintains its function in birch and would be a suitable promoter in studies of insect-birch interaction at the molecular level.

Activity of the CaMV 35S promoter in various parts of transgenic early flowering birch clones.

Early flowering together with small size would be useful for various biotechnical or genetic studies on trees. We report here the selection and micropropagation of early flowering birch (Betula pendula) clones (BPM1-12) obtained from seeds of birches bred elsewhere for early flowering. Under conditions that accelerate flowering (a high CO2 level, strong and continuous illumination), the first male inflorescences emerged in 3-5 months, the trees then being 20-80 cm high. Transgenic lines (CaMV 35S-GUS INT) were produced through Agrobacterium-mediated gene transfer from BPM2, BPM5 and JR1/4 (a normally flowering birch). ß-Glucuronidase (GUS) activities in the different lines, assayed 1-1.5 years after transformation, varied greatly. During further in vitro culture for 10 months, the activities decreased to 0.3-7% of the original values. GUS activities were detected in all organs studied, including the developing male inflorescences; the highest activity was in the roots.