Annual growth of invasive Larix kaempferi seedlings with reference to microhabitat and ectomycorrhizal colonization on a volcano.

To investigate the seedling growth of a biologically invasive larch Larix kaempferi (Lamb.) Carr. on Mount Koma, Japan, seedlings were excavated from three microhabitats (bareground = BA, Salix reinii patch = SP, and Larix understory = LU) in three elevational zones. Seedlings showed the highest ectomycorrhizal (ECM) colonization percentage in the most shaded microhabitat, LU. ECM colonization percentages in BA and SP were found to decrease with decreasing elevation. These results inferred that the ECM colonization percentages were related to seedling growth, particularly in BA and SP. However, the annual seedling growth was not synchronized with the increases in either elevational gradients. Although ECM colonization was most evident in LU, the seedling growth was the lowest. We concluded that the effects of ECM colonization on seedling growth were reduced mostly by microhabitat characteristics.

Recombinant production of docosahexaenoic acid in a polyketide biosynthesis mode in Escherichia coli.

The docosahexaenoic acid (DHA) biosynthesis gene cluster (pDHA3) from the DHA-producing Moritella marina strain MP-1 includes the genes pfaA, pfaB, pfaC, and pfaD, which are similar to the genes of polyketide biosynthesis. When this cluster was co-expressed in Escherichia coli with M. marina MP-1 pfaE, which encodes phosphopantetheinyl transferase, DHA was biosynthesized. The maximum production of DHA (5% of total fatty acids) was observed at 15 degrees C. This is the first report of the recombinant production of DHA in a polyketide biosynthesis mode.

A phosphopantetheinyl transferase gene essential for biosynthesis of n-3 polyunsaturated fatty acids from Moritella marina strain MP-1.

A phosphopantetheinyl transferase (PPTase) gene (pfaE), cloned from the docosahexaenoic acid (DHA)-producing bacterium Moritella marina strain MP-1, has an open reading frame of 861 bp encoding a 287-amino acid protein. When the pfaE gene was expressed with pfaA-D, which are four out of five essential genes for biosynthesis of eicosapentaenoic acid (EPA) derived from Shewanella pneumatophori SCRC-2738 in Escherichia coli, the recombinant produced 12% EPA of total fatty acids. This suggests that pfaE encodes a PPTase required for producing n-3 polyunsaturated fatty acids, which is probably involved in the synthesis of DHA in M. marina strain MP-1.

Distribution of different mycorrhizal classes on Mount Koma, northern Japan.

To investigate the role of mycorrhizae in nutrient-poor primary successional volcanic ecosystems, we surveyed mycorrhizal frequencies on the volcano Mount Koma (42 degrees 04'N, 140 degrees 42'E, 1,140 m elevation) in northern Japan. After the 1929 eruptions, plant community development started at the base of the volcano. Ammonia and nitrate levels, along with plant cover, decreased with increasing elevation, whereas phosphorus did not. In total, 305 individuals of 56 seed plant species were investigated in three elevational zones (550-600 m, 650-700 m, and 750-800 m). Five mycorrhizal classes were classified based on morphological traits: ecto- (ECM), arbuscular (AM), arbutoid, ericoid, and orchid mycorrhiza. All plant species were mycorrhizal to at least some extent, with most widespread tree species being heavily ectomycorrhizal. In addition, of 16 tree species collected in all three zones, 6 differed in the frequencies of ECM on roots between elevational zones, and 3 of these 6 species increased in frequency with increasing elevation. These results suggest that ECM colonization in some tree species is related to establishment in nutrient-poor habitats. All species of Ericaceae and Pyrolaceae had ericoid mycorrhizae, and an Orchidaceae species had orchid mycorrhizae. Herbaceous species, except for the low mycorrhizal frequency of Carex oxyandra and two Polygonaceae species, and ericoid and orchid mycorrhizal species, were generally AM. Of herbaceous species, Anaphalis margaritacea var. angustior increased AM frequency and decreased ECM frequency with increasing elevation, and Hieracium umbellatum increased ECM frequency. In total, the establishment of herbaceous species was not sufficiently explained by AM colonization on roots. Tree individuals developed 2-3 classes of mycorrhizae more than herbs at each elevational zone. We conclude that the symbiosis between seed plants and mycorrhizae, ECM in particular, greatly influences plant community structures on Mount Koma. Not only a single mycorrhizal class, but combinations of mycorrhizal classes should be studied to clarify effects on plant community dynamics.

Induction of high affinity phosphate transporter in the duckweed Spirodela oligorrhiza.

Duckweed plants (Spirodela oligorrhiza) grown under phosphate (Pi)-deficient conditions (- P plants) exhibited more than 50-fold higher Pi uptake activity than plants grown under Pi-sufficient conditions (+ P plants). The Pi uptake activity of - P plants measured using (32)Pi was significantly inhibited by carbonylcyanide m-chlorophenylhydrazone, indicating that Pi uptake is energized by the electrochemical proton gradient across the plasma membrane (PM). When Pi uptake was examined at various concentrations of Pi, more active uptake of Pi was observed in - P plants than in + P plants, irrespective of the Pi concentrations. An immunoblot analysis of the PM proteins using antiserum against the conserved sequence of the high-affinity Pi transporter recognized the occurrence and large accumulation of a novel protein band at 48 kDa in - P plants. The protein was almost completely extracted with chloroform-methanol (2:1, v/v), but only a trace amount of the protein was detected in + P plants. Immunohistochemical studies of plant roots using the same antiserum demonstrated a large accumulation of high-affinity Pi transporters at the outermost cortical cells of - P plants, but not of + P plants. When an immunoblot analysis of PM proteins was performed using antiserum against the PM H(+)-ATPase, a positive band of about 96 kDa was detected in both plants with a similar signal intensity. Furthermore, ATP-hydrolytic and ATP-dependent H(+)-transporting activities of PM H(+)-ATPase in - P plants were not higher than those in + P plants. However, kinetic analyses showed that the PM H(+)-ATPase in - P plants had a lower K(m) value and a higher coupling efficiency between ATP hydrolysis and H(+) pumping than the corresponding values in + P plants. These results suggest that the significant stimulation of Pi uptake in - P plants may be due mainly to the induction and accumulation of the high-affinity Pi transporter in the PM, and that the electrochemical proton gradient across the PM may be generated by the high-ATP-affinity and energy-efficient H(+) pump in - P plants. This would facilitate the acquisition of Pi in S. oligorrhiza under Pi-depleted conditions.

Cloning and characterization of cDNA of the GPI-anchored purple acid phosphatase and its root tissue distribution in Spirodela oligorrhiza.

A cDNA clone of the glycosylphosphatidylinositol (GPI)-anchored purple acid phosphatase (PAP) has been obtained by a combination of cDNA library screening and 5' rapid amplification of cDNA ends from Spirodela oligorrhiza plants grown under phosphate-deficient (-P) conditions. The open reading frame of the S. oligorrhiza PAP cDNA consists of 1 365 bp encoding a 455 amino acid protein. Its deduced amino acid sequence shows 82 and 80% similarity to Arabidopsis thaliana and Phaseolus vulgaris PAP, respectively. The amino acid residue, Ala439, followed by two more small amino acid residues, Asp and Ser, is predicted to be the GPI-anchoring (omega) site. The absence of a dibasic motif upstream of the putative omega site suggests that the PAP is a cell wall protein. This presumption is supported by the finding that PAP was released by digestion of the cell wall fraction with cellulase. The GPI anchor is speculated to be a signal for transporting PAP to the cell wall. Immunohistochemical results using -P plant roots demonstrate that PAP is preferentially distributed in the outermost cortical cells of roots but not in the epidermis, suggesting its role in acquiring inorganic phosphate under phosphate-deficient conditions. Northern blot analysis using the S. oligorrhiza PAP cDNA as a probe demonstrates that expression of the PAP gene increased during growth of -P plants and this time-dependent occurrence in mRNA levels of the PAP in -P plants was also observed in their protein and activity levels.