Plant clonality: Biology and diversity

The current approaches to the study of clonal plants are reviewed. Most studies concentrate at the level of the ramet and clonal fragment exploring the “microscopic” view of clonal plants, dealing with the translocation of resources, clonal integration, plasticity of growth etc. The information gained, by this approach can be used in the understanding of higher levels of organization within the clonal system either with the help of spatially explicit modelling techniques, or by using means and distributions of size within a population instead of studying individual ramets separately. Plant scientists use the term clone with two meanings, viz. (a) a set of physiologically connected, but potentially independent ramets, and (b) a set of genetically identical, but potentially physically separated individuals. The overlap of these terms differs between individual plant species, depending on the extent of physical separation of the ramets and the degree of physiological integration between the ramets; the lower the frequency of ramet separation, the closer are the physiological and genetic concepts of the clone. Three critical areas seem to be neglected in clonal plant research: (a) the interrelationship between hierarchical levels in clonal plants, (b) the particular spatial structure of their environment, and (c) the importance of clonal plants in different ecological communities.     

Induction of berberine biosynthesis by cytokinins in Thalictrum minus cell suspension cultures

Production of berberine could be induced by adding 6-benzylaminopurine (BAP) to Thalictrum minus cells, cultured in suspension in a medium containing 2,4-dichlorophenoxyacetic acid (2,4-D), early in the growth cycle. In the presence of BAP, the precursor, L-tyrosine, was rapidly converted into berberine which was then released into the medium, whereas substantial amounts of the intermediates, tyramine and dopamine, accumulated in non-berberine-producing cells grown in the same 2,4-D-containing medium without BAP. These results suggest that BAP activated enzymatic reactions subsequent to the formation of the amines in the biosynthesis of berberine.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - BAP 6-benzylaminopurine - NAA 1-naphthaleneacetic acid - IAP 6-isopentenylaminopurine - LS medium Linsmaier-Skoog medium - Growth medium LS medium containing 10^-6 M 2,4-D     

Antithrombotic effect of topically applied 3-Oxa-Methano-prostaglandin I1 in the microcirculation and antiplatelet functions of its active form

The antithrombotic effect of topical application of the 3-oxamethano-prostaglandin (PG) I₁ analog, SM-10902 in the microcirculation and in vitro antiplatelet functions of its active form SM-10906 were estimated in comparison with PGI₂ and PGE₁. In rat platelets, SM-10906 evoked accumulation of intracellular cyclic adenosine 3′,5′-monophosphate, and exhibited antiaggregatory and disaggregatory activities, which were all enhanced by the phosphodiesterase inhibitor theophylline. Additionally, SM-10906 was shown to inhibit platelet adhesion to collagen in human platelet-rich plasma. PGI₂ and PGE₁ also showed in vitro antiplatelet effects in the order of PGI₂ > SM-10906 ≥ PGE₁. SM-10902 exhibited a dose-dependent antithrombotic effect in the guinea pig mesenteric arteriole by a topical application, and this activity might be exerted by the antiplatelet functions of SM-10906. Although SM-10906, PGI₂ and PGE₁ also showed the antithrombotic effects, SM-10902 was the most potent. In conclusion, the present studies indicate that an external topical preparation of SM-10902 may be useful for the therapy of peripheral circulatory insufficiency.     

Cloning and expression of a porcine UDP-GalNAc: polypeptideN-acetylgalactosaminyl transferase

By employing a bovine UDP-N-acetylgalactosamine: polypeptideN-acetylgalactosaminyl transferase (O-GalNAc transferase) cDNA as a probe, we isolated four overlapping cDNAs from a porcine lung cDNA library. Both the nucleotide sequence of the porcine cDNA and the predicted primary structure of the protein (559 amino acids) proved to be very similar to those of the bovine enzyme (95% and 99% identity, respectively). Transient expression of the clone in COS-7 cells, followed by enzymatic activity assays, demonstrated that this cDNA sequence encodes a porcine O-GalNAc transferase. The intracellular O-GalNAc transferase activity was increased approximately 100-fold by transfecting cells with the porcine cDNA.Abbreviations O-GalNAc transferase UDP-N-acetylgalactosamine: polypeptideN-acetylgalactosaminyltransferase - PCR polymerase chain reaction - SDS sodium dodecyl sulfate - PAGE polyacrylamide gel electrophoresis - GnT-III UDP-N-acetylglucosamine: -mannoside -1,4N-acetylglucosaminyltransferase III     

Poliovirus surveillance: isolation of polioviruses in Japan, 1980-1991. A report of the National Epidemiological Surveillance of Infectious Agents in Japan.

This report presents an overall distribution of poliovirus isolations in Japan, where poliomyelitis has been under control over two decades as a result of legal administration of two doses of the trivalent live oral poliovirus vaccine of the Sabin strains (OPV) to children under 48 months of age. During the past 12 years from 1980 through 1991, a total of 1,126 poliovirus isolations from humans and 268 isolations from sewage/river water were reported by respectively 49 and nine of the participating laboratories. Type 2 was most frequently isolated from children after administration of one dose of OPV, followed by type 1 and type 3. On the contrary, after the second dose of OPV, the rate of isolation of type 3 exceeded those of type 2 and type 1. Seasonal and age distribution of poliovirus isolations from both humans and sewage/river water paralleled the OPV vaccination schedule in Japan. One percent of the isolations were, however, from infants younger than the vaccination-scheduled ages and 5% were from children older than those ages, including one each from 15 and 16 years olds. The data indicate that the poliovirus has silently been disseminated from vaccinated children to others and the community, thus suggesting repeated transmission of the viruses. The fact that some elder children had poliovirus colonization in their alimentary tracts indicates a potential risk of infection of such a population when exposed to a wild virus and of becoming a source of transmission to others.     

Carboxyphosphonoenolpyruvate phosphonomutase, a novel enzyme catalyzing C-P bond formation.

An enzyme catalyzing the formation of an unusual C-P bond that is involved in the biosynthesis of the antibiotic bialaphos (BA) was isolated from the cell extract of a mutant (NP71) of Streptomyces hygroscopicus SF1293. This enzyme, carboxyphosphonoenolpyruvate (CPEP) phosphonomutase, was first identified as a protein lacking in a mutant (NP213) defective in one of the steps in the pathway to BA. The first 30 residues of the amino terminus of this protein were identical to those predicted by the nucleotide sequence of the gene that restored BA production to NP213. The substrate of the enzyme, a P-carboxylated derivative of phosphoenolpyruvate named CPEP, was also isolated from the broth filtrate of NP213 as a new biosynthetic intermediate of BA. CPEP phosphonomutase catalyzes the rearrangement of the carboxyphosphono group of CPEP to form the C-P bond of phosphinopyruvate.     

Cloning and nucleotide sequence of the ispA gene responsible for farnesyl diphosphate synthase activity in Escherichia coli

The molecular cloning and the determination of the nucleotide sequence of the ispA gene responsible for farnesyl diphosphate (FPP) synthase [EC 2.5.1.1] activity in Escherichia coli are described. E. coli ispA strains have temperature-sensitive FPP synthase, and the defective gene is located at about min 10 on the chromosome. The wild-type ispA gene was subcloned from a lambda phage clone containing the chromosomal fragment around min 10, picked up from the aligned genomic library of Kohara et al. [Kohara, Y., Akiyama, K., & Isono, K. (1987) Cell 50, 495-508]. The cloned gene was identified as the ispA gene by the recovery and amplification of FPP synthase activity in an ispA strain. A 1,452-nucleotide sequence of the cloned fragment was determined. This sequence specifies two open reading frames, ORF-1 and ORF-2, encoding proteins with the expected molecular weights of 8,951 and 32,158, respectively. A part of the deduced amino acid sequence of ORF-2 showed similarity to the sequences of eucaryotic FPP synthases and of crtE product of a photosynthetic bacterium. The plasmid carrying ORF-2 downstream of the lac promoter complemented the defect of FPP synthase activity of the ispA mutant, showing that the product encoded by ORF-2 is the ispA product. The maxicell analysis indicated that a protein of molecular weight 36,000, approximately consistent with the molecular weight of the deduced ORF-2-encoded protein, is the gene product.     

Covalent modification and single-strand scission of DNA by a new antitumor antibiotic kapurimycin A3

Kapurimycin A3 is a new antitumor antibiotic isolated from a Streptomyces. It contains the anthrapyrone skeleton and a beta,gamma-unsaturated delta-keto carboxylic acid moiety in the structure. In vitro, kapurimycin causes single-strand cleavage of supercoiled pBR322 DNA. The diminished cytotoxicity and DNA cleaving activity for 13-decarboxykapurimycin A3 indicates that the beta, gamma-unsaturated delta-keto carboxylic acid moiety is important for the activity of kapurimycin. Kapurimycin A3 binds to calf thymus DNA at 4 degrees C, and the thermal treatment of this adduct results in release of a guanine covalently attached to C-16 of kapurimycin via one of its nitrogen atoms. Thus, the epoxide is the alkylating functional group of kapurimycin, and this is consistent with the lack of DNA cleaving and cytotoxic activities for 14,16-deoxy-14,16-dihydroxykapurimycin. These findings have revealed that DNA strand scission by kapurimycin is due to the alkylation of guanine by ring opening of the epoxide group of kapurimycin, depurination of modified guanine, and presumably subsequent hydrolysis of the phosphate ester backbone at the resultant apurinic sites.     

Pumpkin (Cucurbita sp.) seed globulin VI. Proteolytic activities appearing in germinating cotyledons

N--benzoyl D,L-arginine p-nitroanilide (BAPA), leucine p-nitroanilide(LPA) and casein hydrolytic activities were assayed in germinatingcotyledons. BAPA hydrolytic activity was not detected in dryseeds, but increased rapidly from 1 to 4 days of germinationand then decreased. LPA and casein hydrolytic activities weredetected in dry seeds and increased from 2 to 4 days. Caseinhydrolytic activity decreased faster than the other two activities. BAPA hydrolytic enzyme was partially purified. It was inhibitedby p-chloromercuribenzoate and activated by ß-mercaptoethanoland dithiothreitol, but was not affected by EDTA, phenylmethylsulfonylfluoride, pumpkin trypsin inhibitor and several divalent cations.It had no ability to hydrolyze globulin or the chain to produce F_ß or smaller polypeptides,respectively, which was referred to as proteolytic activityI in the preceding paper (14), but released small peptides andamino acids from the chain and F_ß. However, it wasdifferent from proteolytic enzyme II which was present in dryseeds and inhibited by EDTA (14). Pumpkin trypsin inhibitor was purified. Its molecular weightwas estimated to be 10,500 by gel filtration. It did not inhibitthe BAPA hydrolytic enzyme. Both proteolytic activities I andII were also not reduced by the inhibitor (14). The inhibitoryactivity decreased gradually during germination. (Received November 9, 1979; )