Facile synthesis of saponins containing 2,3-branched oligosaccharides by using partially protected glycosyl donors.
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Two natural saponins 1 and 2, isolated from Solanum indicum L., and containing 2,3-branched sugar moieties, have been efficiently synthesized. Partially protected monosaccharide and disaccharide donors were used to facilitate target synthesis. Stereo factors were critical in incorporating 2,3-branched sugars on steroid aglycones. Saponin 1 was synthesized in five steps and 30% overall yield, while saponin 2 was obtained using six straightforward sequential reactions in 31% overall yield. Saponin 2 shows promising cytotoxic activity toward human hepatocellular carcinoma BEL-7402 with an IC50 of <6 microg/mL. (+info)
Zooming in on a quantitative trait for tomato yield using interspecific introgressions.
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To explore natural biodiversity we developed and examined introgression lines (ILs) containing chromosome segments of wild species (Solanum pennellii) in the background of the cultivated tomato (S. lycopersicum). We identified Brix9-2-5, which is a S. pennellii quantitative trait locus (QTL) that increases sugar yield of tomatoes and was mapped within a flower- and fruit-specific invertase (LIN5). QTL analysis representing five different tomato species delimited the functional polymorphism of Brix9-2-5 to an amino acid near the catalytic site of the invertase crystal, affecting enzyme kinetics and fruit sink strength. These results underline the power of diverse ILs for high-resolution perspectives on complex phenotypes. (+info)
Heterogeneous evolutionary processes affect R gene diversity in natural populations of Solanum pimpinellifolium.
(11/177)
Resistance (R) genes of plants are responsible for pathogen recognition and encode proteins that trigger a cascade of responses when a pathogen invades a plant. R genes are assumed to be under strong selection, but there is limited knowledge of the processes affecting R gene diversity in the wild. In this study, DNA sequence variation of Cf-2 homologs was surveyed in populations of Solanum pimpinellifolium, a wild relative of the cultivated tomato. The Cf-2 locus is involved in resistance to strains of the fungus Cladosporium fulvum. At least 26 different Cf-2 homologs were detected in natural populations of S. pimpinellifolium. These homologs differ by single base pair substitutions as well as indels in regions coding for leucine-rich repeats. Molecular population genetic analyses suggest that natural selection has acted heterogeneously on Cf-2 homologs, with selection against amino acid substitutions occurring in the 5' portion of the genes, and possible restricted positive selection in the 3' end. Balancing selection may have maintained haplotypes at the 5' end of the genes. Limited sequence exchange between genes has also contributed to sequence variation. S. pimpinellifolium individuals differ in the number of Cf-2 homologs they contain, obscuring the relationships of orthology and paralogy. This survey of Cf-2 variation in S. pimpinellifolium illustrates the wealth of R gene diversity that exists in wild plant populations, as well as the complexity of interacting genetic and evolutionary processes that generate such diversity. (+info)
More than a leak sealant. The mechanical properties of callose in pollen tubes.
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While callose is a well-known permeability barrier and leak sealant in plant cells, it is largely unknown whether this cell wall polymer can also serve as a load-bearing structure. Since callose occurs in exceptionally large amounts in pollen, we assessed its role for resisting tension and compression stress in this cell. The effect of callose digestion in Solanum chacoense and Lilium orientalis pollen grains demonstrated that, depending on the species, this cell wall polymer represents a major stress-bearing structure at the aperture area of germinating grains. In the pollen tube, it is involved in cell wall resistance to circumferential tension stress, and despite its absence at the growing apex, callose is indirectly involved in the establishment of tension stress resistance in this area. To investigate whether or not callose is able to provide mechanical resistance against compression stress, we subjected pollen tubes to local deformation by microindentation. The data revealed that lowering the amount of callose resulted in reduced cellular stiffness and increased viscoelasticity, thus indicating clearly that callose is able to resist compression stress. Whether this function is relevant for pollen tube mechanics, however, is unclear, as stiffened growth medium caused a decrease in callose deposition. Together, our data provide clear evidence for the capacity of cell wall callose to resist tension and compression stress, thus demonstrating that this amorphous cell wall substance can have a mechanical role in growing plant cells. (+info)
Anti-fungal sesquiterpenoid from the root exudate of Solanum abutiloides.
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The Solanum abutiloides plant is highly resistant to soil-borne pathogens such as Fusarium oxysporum f. sp. melongenae, Verticillium dahliae, and Ralstonia solanacearum. This species is utilized as a mating source of resistant cultivars and is also used as a rootstock. The root exudate of Solanum abutiloides was extracted from a soil system composed of charcoal and vermiculite. Anti-fungal activity was found in the extract, and an active ingredient was isolated. The chemical structure of the active compound was determined to be 3-beta-acetoxysolavetivone, a new sesquiterpenoid. The anti-fungal activity of 3-beta-acetoxysolavetivone examined by the inhibition of spore germination of Fusarium oxysporum was close to that of lubimin, and higher than that of solavetivone. (+info)
Transcriptional expression of a Solanum sogarandium pGT::Dhn10 gene fusion in cucumber, and its correlation with chilling tolerance in transgenic seedlings.
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The expression pattern of a Solanum sogarandinum pGT::Dhn10 gene fusion encoding a dehydrin DHN10 protein and the potential role of that protein in cold tolerance in cucumber were analysed in three T1transgenic lines. An accumulation of Dhn10 mRNA was detected in the leaves, cotyledons, hypocotyls and roots of the transgenic seedlings both under the control conditions and after a cold treatment at 6 degrees C for 24 h. This was confirmed by RT-PCR. However, no DHN10 protein was detected by the alkaline phosphatase-conjugated antibody. The transgenic lines exhibited different levels of chilling tolerance. The TCC5/1 line showed a significant increase in its chilling tolerance compared to the non-transgenic line. No chilling injury was observed when the cold hardened (6 degrees C, 24 h) TCC5/1 plants were subsequently exposed to a temperature of 2 degrees C for 6 h. The other two transgenic lines, TCC2/1 and TCC3/2, exhibited a comparable level of chilling tolerance to that of the non-transgenic control. The transgenic lines showed similar or significantly decreased freezing tolerance compared to the non-transgenic control, as evaluated by an electrolyte leakage test. We concluded that the S. sogarandnium GT promoter is functional in the chilling sensitive species Cucumis sativus L., and that the pGT::Dhn10 gene fusion is expressed at the transcriptional level. (+info)
The late blight resistance locus Rpi-bib3 from Solanum bulbocastanum belongs to a major late blight R gene cluster on chromosome 4 of potato.
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Late blight, caused by Phytophthora infestans, is one of the most devastating diseases in cultivated potato. Breeding of new potato cultivars with high levels of resistance to P. infestans is considered the most durable strategy for future potato cultivation. In this study, we report the identification of a new late-blight resistance (R) locus from the wild potato species Solanum bulbocastanum. Using several different approaches, a high-resolution genetic map of the new locus was generated, delimiting Rpi-blb3 to a 0.93 cM interval on chromosome 4. One amplification fragment length polymorphism marker was identified that cosegregated in 1,396 progeny plants of an intraspecific mapping population with Rpi-blb3. For comparative genomics purposes, markers linked to Rpi-blb3 were tested in mapping populations used to map the three other late-blight R loci Rpi-abpt, R2, and R2-like also to chromosome 4. Marker order and allelic conservation suggest that Rpi-blb3, Rpi-abpt, R2, and R2-like reside in the same R gene cluster on chromosome 4 and likely belong to the same gene family. Our findings provide novel insights in the evolution of R gene clusters conferring late-blight resistance in Solanum spp. (+info)
Three unusual 22-beta-O-23-hydroxy-(5 alpha)-spirostanol glycosides from the fruits of Solanum torvum.
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Three novel 22-beta-O-spirostanol oligoglycosides, torvosides J (1), K (2) and L (3) have been isolated from the fruits of Solanum torvum SWARTZ and their chemical structures have been characterized based on the spectroscopic means. They are worth of note as rare 22-beta-O-spirostanol glycosides. (+info)