Studien über dieJungermannioideae (Hepaticae) 8.Jungermannia subg.Plectocolea und subg.Solenostoma in Australien,Neuseeland und Ozeanien

Die achte Studie über die SubfamilieJungermannioideae (Jungermanniaceae, Hepaticae) ist dén Arten der GattungJungermannia L. emend.Dum., die in Australien, Neuseeland und Ozeanien vorkommen, gewidmet. Die meist endemischen Arten, die auf Hawaii vorkommen, werden als eine selbständige (neunte) Studie bearbeitet. Im genannten Gebiet wurden 13 Arten der GattungJungermannia L. emend.Dum. festgestellt.J. (P.) hasskarliana (Nees) Steph.,J. (P.) obliquifolia (Schiffn.) Váňa,J. (P.) tetragona Lindenb.,J. (P.) hirticalyx Steph.,J. (P.) minutiverrucosa Amak.,J. (P.) wattsiana Steph.,J. (S.) ariadne Tayl.,J. (S.) totipapillosa Hodgs.,J. (S.) inundata Hook. fil. etTayl. emend.Mitt. undJ. (S.) orbiculata (Col.) Grolle sind eingehend taxonomisch bearbeitet,J. (P.) micrantha (Mitt.) Steph. wird in die nächste Studie eingereiht.J. (P.) boninensis (Horik.) Inoue wurde vonInoue (Inoue etIwatsuki 1969) eingehend beschrieben und abgebildet,Haplozia comptonii Pears. wurde schon im 2. Teil diskutiert. Die anderen aus dem Gebiet bekannten Arten sind mit den obenerwähnten Arten synonymisiert oder zu anderen Gattungen gestellt.     

Purification and characterization of a nitrilase from Fusarium solani O1

An intracellular nitrilase was purified from a Fusarium solani O1 culture, in which the enzyme (up to 3000 U L⁻¹) was induced by 2-cyanopyridine. SDS-PAGE revealed one major band corresponding to a molecular weight of approximately 40 kDa. Peptide mass fingerprinting suggested a high similarity of the protein with the putative nitrilase from Gibberella moniliformis. Electron microscopy revealed that the enzyme molecules associated into extended rods. The enzyme showed high specific activities towards benzonitrile (156 U mg⁻¹) and 4-cyanopyridine (203 U mg⁻¹). Other aromatic nitriles (3-chlorobenzonitrile, 3-hydroxybenzonitrile) also served as good substrates for the enzyme. The rates of hydrolysis of aliphatic nitriles (methacrylonitrile, propionitrile, butyronitrile, valeronitrile) were 14–26% of that of benzonitrile. The nitrilase was active within pH 5–10 and at up to 50 °C with optima at pH 8.0 and 40–45 °C. Its activity was strongly inhibited by Hg²⁺ and Ag⁺ ions. More than half of the enzyme activity was preserved at up to 50% of n-hexane or n-heptane or at up to 15% of xylene or ethanol. Operational stability of the enzyme was examined by the conversion of 45 mM 4-cyanopyridine in a continuous and stirred ultrafiltration-membrane reactor. The nitrilase half-life was 277 and 10.5 h at 35 and 45 °C, respectively.     

The influence of EDTA on the mutagenic activity of ethyl methanesulphonate (EMS) inArabidopsis thaliana

Nebyl prokázán sensibilizující ú?inek EDTA na muta?ní aktivitu EMS uArabidopsis thaliana.     

Lineage specific composition of cyclin D–CDK4/CDK6–p27 complexes reveals distinct functions of CDK4, CDK6 and individual D‐type cyclins in differentiating cells of embryonic origin

Abstract. Objectives: This article is to study the role of G₁/S regulators in differentiation of pluripotent embryonic cells. Materials and methods: We established a P19 embryonal carcinoma cell‐based experimental system, which profits from two similar differentiation protocols producing endodermal or neuroectodermal lineages. The levels, mutual interactions, activities, and localization of G₁/S regulators were analysed with respect to growth and differentiation parameters of the cells. Results and Conclusions: We demonstrate that proliferation parameters of differentiating cells correlate with the activity and structure of cyclin A/E–CDK2 but not of cyclin D–CDK4/6–p27 complexes. In an exponentially growing P19 cell population, the cyclin D1–CDK4 complex is detected, which is replaced by cyclin D2/3–CDK4/6–p27 complex following density arrest. During endodermal differentiation kinase‐inactive cyclin D2/D3–CDK4–p27 complexes are formed. Neural differentiation specifically induces cyclin D1 at the expense of cyclin D3 and results in predominant formation of cyclin D1/D2–CDK4–p27 complexes. Differentiation is accompanied by cytoplasmic accumulation of cyclin Ds and CDK4/6, which in neural cells are associated with neural outgrowths. Most phenomena found here can be reproduced in mouse embryonic stem cells. In summary, our data demonstrate (i) that individual cyclin D isoforms are utilized in cells lineage specifically, (ii) that fundamental difference in the function of CDK4 and CDK6 exists, and (iii) that cyclin D–CDK4/6 complexes function in the cytoplasm of differentiated cells. Our study unravels another level of complexity in G₁/S transition‐regulating machinery in early embryonic cells.     

Production of taxanes by Taxus baccata plant cells

In callus cultures of Taxus baccata grown on agar media according to Murashige and Skoog supplemented with different growth hormones 8 taxol analogues were identified.     

Species-specific evolution of telomeric and rDNA repeats in the tobacco composite genome

In order to investigate possible interactions between parental genomes in the composite genome of Nicotiana tabacum we have analyzed the organization of telomeric (TTTAGGG)_n and ribosomal gene (rDNA) repeats in the progenitor genomes Nicotiana sylvestris and Nicotiana tomentosiformis or Nicotiana otophora. Telomeric arrays in the Nicotiana species tested are heterogeneous in length ranging from 20 to 200 kb in N. sylvestris, from 20 to 50 kb in N. tomentosiformis, from 15 to 100kb in N. otophora, and from 40 to 160kb in N. tabacum. The patterns of rDNA repeats (18S, 5.8S, 25S RNA) appeared to be highly homogeneous and speciesspecific; no parental rDNA units corresponding to N. sylvestris, N. tomentosiformis or N. otophora were found in the genome of N. tabacum by Southern hybridization. The results provide evidence for a species-specific evolution of telomeric and ribosomal repeats in the tobacco composite genome.