Probing sesquiterpene hydroxylase activities in a coupled assay with terpene synthases

5-epi-Aristolochene dihydroxylase (EAH) catalyzes unique stereo- and regiospecific hydroxylations of a bicyclic sesquiterpene hydrocarbon to generate capsidiol. To define functional and mechanistic features of the EAH enzyme, the utility of a coupled assay using readily available sesquiterpene synthases and microsomes from yeast overexpressing the EAH enzyme was determined. Capsidiol and deoxycapsidiol biosyntheses were readily measured in coupled assays consisting of 5-epi-aristolochene synthase and EAH as determined by the incorporation of radiolabeled farnesyl diphosphate into thin-layer chromatography-isolated products and verified by gas chromatography-mass spectrometry analysis. The assays were dependent on the amounts of synthase and hydroxylase protein added, the incubation times, and the presence of nicotinamide adenine dinucleotide phosphate. The utility of this coupled assay was extended by examining the relative efficiency of the EAH enzyme to catalyze hydroxylations of different sesquiterpene skeletons generated by other terpene synthases.     

Multiple interactions of NaHER1 protein with abscisic acid signaling in Nicotiana attenuata plants

Previously, we identified a novel herbivore elicitor-regulated protein in Nicotiana attenuata (NaHER1) that is required to suppress abscisic acid (ABA) catabolism during herbivore attack and activate a full defense response against herbivores. ABA, in addition to its newly defined role in defense activation, mainly controls seed germination and stomatal function of land plants. Here we show that N. attenuata seeds silenced in the expression of NaHER1 by RNA interference (irHER1) accumulated less ABA during germination, and germinated faster on ABA-containing media compared to WT. Curiously, epidermal cells of irHER1 plants were wrinkled, possibly due to the previously demonstrated increase in transpiration of irHER1 plants that may affect turgor and cause wrinkling of the cells. We conclude that NaHER1 is a highly pleiotropic regulator of ABA responses in N. attenuata plants.     

HSPRO acts via SnRK1-mediated signaling in the regulation of Nicotiana attenuata seedling growth promoted by Piriformospora indica

Nicotiana attenuata HSPRO (NaHSPRO) is a negative regulator of seedling growth promoted by the fungus Piriformospora indica. Homologs of NaHSPRO in Arabidopsis thaliana (i.e., AtHSPRO1 and AtHSPRO2) are known to physically interact with the AKINβγ subunit of the SnRK1 complex.² To investigate whether NaHSPRO is associated with SnRK1 function during the stimulation of seedling growth by P. indica, we studied N. attenuata plants silenced in the expression of NaGAL83 (as-gal83 plants)—a gene that encodes for the regulatory β-subunit of SnRK1—and plants silenced in the expression of both NaHSPRO and NaGAL83 (ir-hspro/as-gal83 plants). The results showed that P. indica differentially stimulated the growth of both as-gal83 and ir-hspro/as-gal83 seedlings compared with control seedlings, with a magnitude similar to that observed in ir-hspro seedlings. Thus, we showed that, similar to NaHSPRO, NaGAL83 is a negative regulator of seedling growth stimulated by P. indica. We propose that the effect of NaHSPRO on seedling growth is associated with SnRK1 signaling.     

Non-AUG translation initiation of mRNA encoding plastid-targeted phage-type RNA polymerase in Nicotiana sylvestris

A third nuclear gene encoding a bacteriophage T7-type RNA polymerase, NsRpoT-C, was isolated and characterized from Nicotiana sylvestris. The gene, NsRpoT-C, consists of 21 exons and 20 introns and encodes a polypeptide of 977 amino acid residues. The predicted NsRpoT-C protein shows the highest identity (72% amino acid identity) with Arabidopsis thaliana RpoT;3 which is a plastid-targeted protein. Surprisingly, comparison of the deduced amino acid sequence of NsRpoT-C with that of A. thaliana RpoT;3 predicted that the NsRpoT-C starts at a CUG triplet, a rare translation initiation codon. Transient expression assays in protoplasts from tobacco leaves demonstrated that the putative N-terminal transit peptide of NsRpoT-C encodes a targeting signal directing the protein into chloroplasts. This strongly suggests that NsRpoT-C functions as an RNA polymerase transcribing plastid-encoded genes. We have designated this protein NsRpoTp.     

Studies on the effects of a flanking repetitive sequence on the expression of single-copy transgenes in Nicotiana sylvestris and in N. sylvestris-N. tomentosiformis hybrids

To test the influence of a Nicotiana tomentosiformis repetitive sequence (R8.3) on transgene expression in N. sylvestris and in N. sylvestris-N. tomentosiformis hybrids, the R8.3 sequence was placed upstream of a nopaline synthase promoter (NOSpro)-NPTII reporter gene in a T-DNA construct. A number of transgenic N. sylvestris lines were produced and in most, the NPTII gene was expressed. In one line, however, the NPTII gene became silenced and methylated in the NOSpro region. The silenced locus was able to trans-inactivate and induce methylation of two stably expressed transgene loci comprising a similar construct. Nucleotide sequence analyses of the three transgene loci revealed that they each contained a single incomplete copy of the T-DNA, which had sustained deletions of varying sizes in the R8.3 region. Paradoxically, the R8.3 DNA upstream of the two active, unmethylated NOSpro-NPTII genes was highly methylated, whereas the R8.3 DNA upstream of the silenced, methylated NOSpro-NPTII gene was less methylated. The methylated portions of the R8.3 sequence corresponded to retroelement remnants. An active NOSpro-NPTII gene downstream of a nearly intact R8.3 sequence did not become methylated in N. sylvestris-N. tomentosiformis hybrids. Thus, methylation in the R8.3 sequence did not spread into adjoining transgene promoters and the effect of the R8.3 dispersed repeat family on transgene expression was negligible. The silencing phenomena observed with the three single-copy transgene loci are discussed in the context of other possible triggers of silencing.     

Lysine overproducer mutants with an altered dihydrodipicolinate synthase from protoplast culture of Nicotiana sylvestris (Spegazzini and Comes)

Summary Two S-(2-aminoethyl)L-cysteine (AEC) resistant lines were isolated by screening mutagenized protoplasts from diploid N. sylvestris plants. Both lines accumulated free lysine at levels 10 to 20-fold higher than in controls. Lysine overproduction and AEC-resistance were also expressed in plants regenerated from the variant cultures. A feedback insensitive form of dihydrodipicolinate synthase (DHPS), the pathway specific control enzyme for lysine synthesis, was detected in callus cultures and leaf extracts from the resistant lines. Aspartate kinase (AK), the other key enzyme in the regulation of lysine biosynthesis, was unaltered in the mutants. Crosses with wild type plants indicated that the mutation conferring insensitivity to feedback in DHPS, with as result overproduction of lysine and resistance to AEC, was inherited as a single dominant nuclear gene.Abbreviations AK aspartate kinase (EC 2.7.2.4) - DHPS dihydrodipicolinate synthase (EC 4.2.1.52) - AEC S-(2-aminoethyl)L-cysteine     

Nicotinic acid decarboxylation in tobacco roots

An enzyme system which catalyzes the O₂ dependent release of ¹⁴CO₂ from nicotinic acid-7-¹⁴C is present in tobacco roots. The enzyme is not present in tobacco leaves and stems. The nature of reaction catalyzed and its tissue distribution suggest that this enzyme may be involved in nicotine biosynthesis.     

Nicotine demethylation in Nicotiana cell suspension cultures: N'-formylnornicotine is not involved

Nicotine or nornicotine enriched with stable isotopes in either the N'-methyl group or the pyrrolidine-N were fed to Nicotiana plumbaginifolia suspension cell cultures that do not form endogenous nicotine. The metabolism of these compounds was investigated by analysing the incorporation of isotope into other alkaloids using gas chromatography-mass spectroscopy (GC-MS). Nicotine metabolism primarily resulted in the accumulation of nornicotine, the N'-demethylation product. In addition, six minor metabolites appeared during the course of nicotine metabolism, four of which were identified as cotinine, myosmine, N'-formylnornicotine and N'-carboethoxynornicotine. While cotinine was formed from [(13)C,(2)H(3)-methyl]nicotine without dilution of label, N'-formylnornicotine was labelled at only about 6% of the level of nicotine and N'-carboethoxynornicotine was unlabelled. Feeding with [1'-(15)N]nornicotine resulted in incorporation without dilution of label into both N'-formylnornicotine and N'-carboethoxynornicotine. This pattern strongly indicates that, while nornicotine and cotinine are derived directly from nicotine, N'-formylnornicotine and N'-carboethoxynornicotine are metabolites of nornicotine. Thus, it is directly demonstrated that N'-formylnornicotine is not an intermediate in nicotine demethylation.     

Identification of Vitis vinifera (-)-alpha-terpineol synthase by in silico screening of full-length cDNA ESTs and functional characterization of recombinant terpene synthase

The flavour and aroma of certain Vitis vinifera grape varieties is dominated by volatile terpenes and small volatile aldehydes. Monoterpenes contribute to the final grape and wine aroma and flavour in form of free volatiles and as glycoside conjugates of monoterpene alcohols. Typical monoterpenol components of the cultivar Gewürztraminer and other aroma-rich grape varieties are linalool, geraniol, nerol, citronellol, and alpha-terpineol. In a functional genomics effort to identify genes for the formation of monoterpene alcohols in V. vinifera, a database of full-length cDNA sequences was screened in silico and yielded two clones for putative monoterpene synthases. The gene products were functionally characterized by expression in Escherichia coli, in vitro enzyme assay and gas chromatography-mass spectrometry (GC-MS) product identification as multi-product (-)-alpha-terpineol synthases.     

Gorgoderina attenuata: cytochemical and biochemical observations on the digestive tracts of digenetic trematodes

Electron microscopy of the gastrodermis of Gorgoderina attenuata demonstrates a syncytial epithelium. Underlying the gastrodermis is a basal lamina in which are embedded circular and longitudinal muscles. The luminal surface is extended as digitiform cytoplasmic extensions that apparently aid in the absorption of nutrients. The cytoplasm demonstrates an extensive system of rough endoplasmic reticulum, Golgi areas, and numerous mitochondria. Three types of membrane-delimited vesicles are noted. They are designated DV₁, DV₂, and DV₃. DV₁ vesicles and DV₂ vesicles demonstrate acid phosphatase activity and are interpreted as lysosomes and cytolysomes, respectively. The basal plasmalemma is infolded at irregular intervals. No indication of endocytotic activity is noted.     

Isolation and characterization of a cDNA encoding a 3-hydroxy-3-methylglutaryl coenzyme A reductase from Nicotiana sylvestris

A cDNA library from freshly isolated mesophyll protoplasts of Nicotiana sylvestris was differentially screened using cDNAs from leaves, leaf strips submitted to the same stress as protoplasts during the isolation procedure, and cell suspension cultures. One of the selected clones (6P2) was found to encode a putative polypeptide highly homologous to previously characterized 3-hydroxy-3-methylglutaryl coenzyme A reductases. The C-terminal region of the polypeptide was highly conserved whereas its N-terminal region including the trans-membrane domains and the linker was more variable. Apart from protoplasts, the 6P2 gene was found to be expressed in apexes, anthers, roots, and in stressed leaf strips after 24h of culture, during the hypersensitive reaction to viral infection and after HgCl₂ treatment. This pattern of expression is consistent with a role in plant defence mechanisms.     

Several nuclear genes control both male sterility and mitochondrial protein synthesis in Nicotiana sylvestris protoclones

Summary Male sterile plants appeared in the progeny of three fertile plants obtained after one cycle of protoplast culture from a fertile botanical line and two androgenetic lines ofNicotiana sylvestris. These plants showed the same foliar and floral abnormalities as the cytoplasmic male sterile (cms) mitochondrial variants obtained after two cycles of culture. We show that male sterility in these plants is controlled by three independent nuclear genes,ms1, ms2 andms3, while no changes can be seen in the mitochondrial genome. However, differences were found between thein organello mitochondrial protein synthesis patterns of male sterile and parent plants. Two reproducible changes were observed: the presence of a new 20 kDa polypeptide and the absence of a 40 kDa one. Such variations were described previously in mitochondrial protein synthesis patterns of the cms lines. Fertile hybrids of male sterile plants showed normal synthesis patterns. The male sterile plants are thus mutated in nuclear genes involved in changes observed in mitochondrial protein synthesis patterns.     

Characterisation and immunolocation of an 87 kDa polypeptide associated with UDP-glucuronic acid decarboxylase activity from differentiating tobacco cells (Nicotiana tabacum L.)

UDP-glucuronic acid decarboxylase catalyses the reaction responsible for the formation of UDP-xylose and commits assimilate for the biosynthesis of cell wall polysaccharides and glycosylation of proteins. Xylose-rich polymers such as xylans are a feature of dicot secondary walls. Thus a cell culture system of tobacco transformed with the ipt gene from Agrobacterium tumefaciens for cytokinin production and which when manipulated with auxin and sucrose leads to induction of xylogenesis, has been used as a source for purification of the enzyme. UDP-glucuronic acid decarboxylase was purified by ion-exchange, gel filtration and affinity chromatography on Reactive Brown-Agarose. The native enzyme had an apparent M(r) of 220,000 which yielded a single subunit of 87,000 when analysed on SDS-PAGE using silver staining. This appears to be a novel form of the enzyme since a gene family encoding polypeptides around M(r) 40,000 with homology to the fungal enzyme also exists in plants. Using an antibody raised to the native 87 kDa form of the enzyme, this decarboxylase was localised mainly to to cambium and differentiating vascular tissue in tobacco stem, consistent with a role in the provision of UDP-xylose for the synthesis of secondary wall xylan. Further analysis using immunogold electron microscopy localised the 87 kDa UDP-glucuronic acid decarboxylase to the cytosol of developing vascular tissue.     

First fungal community analyses of endophytic ascomycetes associated with Viscum album ssp. austriacum and its host Pinus sylvestris

The endophytic fungal communities in the hemi-parasitic epiphyte Viscum album and in its phorophyte Pinus sylvestris were compared to reveal the fungal distribution patterns in their hosts. The ITS nrDNA of 208 multiple-isolated fungal strains was sequenced and a newly designed process was applied for assigning taxon names to the obtained sequences. Furthermore, the isolates were grouped as clusters, by subjecting a sequence similarity matrix to various cluster analyses, the results of which were compared and verified by data from phylogenetic reconstructions. In contrast to a previously reported dominance of Leotiomycetes among Pinus inhabiting fungi, the endophytic communities of the two host plant species studied here were dominated by Xylariaceae (Sordariomycetes). This is in accordance with the finding that host selectivity was only a minor factor in explaining the distribution patterns of the endophytic fungi in Viscum and Pinus. Organ and, probably, tissue selectivity had a more pronounced effect. The composition and condition of the woods in the surrounding, however, are concluded to be the major determinants, due to the following circumstantial evidence: The highest similarities in fungal community compositions were found for the leaves of the two host plant species, especially when considering only the older leaves. The finding that the inhabitants of matured or senescent organs are less host-selective is in accordance with decreasing defence capabilities of ageing host plant tissue and an increased nutrient supply for saprobic taxa. Therefore, the composition of the fungal communities in ageing leaves seems to be predominantly ascribed to contagious spread and to depend on the spectrum of nearby sporulating fungal taxa. We suggest that because a broad range of suitable substrates for Xylariaceae was present in immediate vicinity of the study sites, these fungi also dominated among the recorded endophytic taxa.