Blütenmorphologische und palynologische Untersuchungen an Littorella

In the monograph of the Plantaginaceae by Pilger (1937) Littorella is looked upon as a genus with three species. The indigenous Littorella uniflora (L.) Aschers. — native to the Atlantic Europe — is closely related to L. americana Fern., distributed in Eastern North America. In South America there occurs the most interesting species, L. australis Griseb., in two part-areas (in Southern Chile near Panguipulli-Lake and more southern near Lake San Martin to Seno de Ultima Esperenza and on Eastern Falkland-Island). Littorella is a perennial water-or swamp plant, growing on sandy and muddy soils. It can be living submersely throughout life without flowering and propagating by runners in this case. Its occurence, the structure of its inflorescence and ovary apparently quite different and the position of the male flower gave repeatedly rise in literature to the opinion, to seperate Littorella and Plantago far from each other. Indeed, in Littorella as well as in Plantago and the third genus Bougueria, native to the Andes of Peru and Bolivia, the leaves are arranged in rosettes, but the steams are extremely compressed. In the first enumerated genera, the axillary leafless main-axis is ending into a spherical to cylindrical ear, whereas in Littorella there is only one male flower (rarely two!) at the base of which there are sitting several female ones. These different opinions on the inflorescence of Littorella and its relationships to Plantago are discussed. In this connection, a flower- and pollenmorphological elaboration of the three species of the genus seemed to be useful. An evaluation of numerous flowers furnished the proof, that, also here, the ostensibly strict fourfoldness of the corolla is broken through and thus, indications for a possible derivation from a pentamere structure of the flower are to be found.     

A pheromone bouquet controls the reproductive behaviour of the male shore crab,Carcinus maenas

Aquatic Ecology - The reproduction of many brachyuran crustaceans involves the formation of mating pairs often around the time of the female moult with attraction of a sexual partner and mating...     

UV-Repair is impaired in fibroblasts from patients with Fanconi's anemia

Summary Fanconi's anemia, a hereditary autosomal disease with chromosomal instability, elevated incidence of cancer and clinical symptoms is accompanied by a DNA repair deficiency. Fibroblasts from patients with Fanconi's anemia were found to be impaired in the DNA repair of UV damage. Nucleoid decondensation and recondensation after UV irradiation were less efficient in fibroblasts from patients with Fanconi's anemia than in those from a healthy proband. These data confirm our earlier findings that DNA ligase is deficient in Fanconi's anemia.     

The plant growth retardant CCC as inhibitor of gibberellin biosynthesis inFusarium moniliforme

Summary Gibberellin (GA) production inFusarium moniliforme (Gibberella fujikuroi) is suppresed by adding the plant growth retardant CCC [(2-chloroethyl)trimethylammonium chloride] to the culture medium. A concentration of 0.1 mg/l of CCC causes 50% inhibition whereas 10 mg/l and higher concentrations fully suppress GA production. Dry weight of the mycelium is not, or only slightly reduced in the presence of CCC.Thin-layer chromatography of acidic fractions of CCC-free cultures reveals fluorescent spots at 4 differentR _f values. No fluorescent spots can be detected on chromatograms of acidic fractions obtained from CCC cultures, thus demonstrating that production of all GA's is inhibited by CCC.If CCC is added to the medium 2 or 3 days after inoculation, further GA production is blocked, but the level of GA present at the time of CCC application is maintained. CCC does not enhance inactivation of GA₃ in sterile culture medium, nor in the presence of the fungus. It is therefore concluded that CCC inhibits the biosynthesis of GA in the fungus.Transfer of thoroughly washed mycelium from medium with CCC to fresh medium does not result in GA production because sufficient CCC is carried over in the mycelium to block GA biosynthesis completely.