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911.
Effects of soil resistance to root penetration on leaf expansion in wheat (Triticum aestivum L.): kinematic analysis of leaf elongation 总被引:1,自引:0,他引:1
Beemster Gerrit T.S.; Masle Josette; Williamson Richard E.; Farquhar Graham D. 《Journal of experimental botany》1996,47(11):1663-1678
Wheat leaves (Triticum aestivum L.) elongated 50% more slowlywhen plants were grown in soils with high mechanical resistanceto penetration (Rs. The profiles of epidermal cell lengths alongthe growth zone of expanding leaves and the locations of newlyformed walls were recorded in order to compare the kineticsof elongation and partitioning of both meristematic and non-meristematiccells. In leaf 5, which completely developed under stress, highRs, did not affect the flux of mature cells through the elongationzone; leaf elongation was reduced only because these cells wereshorter. This reduced size reflected a reduction in cell lengthat partitioning, associated with shorter cycling time. The relativerates of cell elongation before and after partitioning wereunchanged. Cell fluxes were similar because the population ofmeristematic cells was reduced, offsetting their increased partitioningrate. In contrast, in leaf 1, high Rs, had no effect on thenumber of dividing cells; elongation rate was reduced becauseof slower relative cell expansion rate and slower cell partitioningrate. These differences could reflect differences in the stageat which successive leaves perceived root stress and also time-dependentchanges in the responsiveness of leaf development to stress-inducedroot signals or in the nature of these signals. The data reveal that cell cycling time may in fact be decreasedby unfavourable growth conditions and is not directly relatedto cell expansion rates; they also show that the elongationrate of meristematic cells is partly independently controlledfrom that of non-meristematic cells. Key words: Wheat, kinematics of leaf expansion, cell partitioning, cell elongation, root impedance 相似文献
912.
913.
Distribution of Hydrogenase Genes in Desulfovibrio spp. and Their Use in Identification of Species from the Oil Field Environment 总被引:9,自引:6,他引:3
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Gerrit Voordouw Vincent Niviere F. Grant Ferris Phillip M. Fedorak Donald W. S. Westlake 《Applied microbiology》1990,56(12):3748-3754
The distribution of genes for [Fe], [NiFe], and [NiFeSe] hydrogenases was determined for 22 Desulfovibrio species. The genes for [NiFe] hydrogenase were present in all species, whereas those for the [Fe] and [NiFeSe] hydrogenases had a more limited distribution. Sulfate-reducing bacteria from 16S rRNA groups other than the genus Desulfovibrio (R. Devereux, M. Delaney, F. Widdel, and D. A. Stahl, J. Bacteriol. 171:6689-6695, 1989) did not react with the [NiFe] hydrogenase gene probe, which could be used to identify different Desulfovibrio species in oil field samples following growth on lactate-sulfate medium. 相似文献
914.
Gerrit Smit Saskia Swart Ben J. J. Lugtenberg Jan Willem Kijne 《Molecular microbiology》1992,6(20):2897-2903
Attachment of bacteria to plant cells is one of the earliest steps in many plant-bacterium interactions. This review covers the current knowledge on one of the best-studied examples of bacterium-plant attachment, namely the molecular mechanism by which Rhizobium bacteria adhere to plant roots. Despite differences in several studies with regard to growth conditions of bacteria and plants and to methods used for measuring attachment, an overall consensus can be drawn from the available data. Rhizobial attachment to plant root hairs appears to be a two-step process. A bacterial Ca(2+)-binding protein, designated as rhicadhesin, is involved in direct attachment of bacteria to the surface of the root hair cell. Besides this step, there is another step which results mainly in accumulation and anchoring of the bacteria to the surface of the root hair. This leads to so-called firm attachment. Depending on the growth conditions of the bacteria, the latter step is mediated by plant lectins and/or by bacterial appendages such as cellulose fibrils and fimbriae. The possible role of these adhesions in root nodule formation is discussed. 相似文献
915.
Dirk-Jan Wijbenga Gerrit Beldman Anko Veen Doede J. Binnema 《Applied microbiology and biotechnology》1991,35(2):180-184
Summary A bacterium belonging to the Bacillus firmus/lentus-complex and capable of growth on native potato starch was isolated from sludge of a pilot plant unit for potato-starch production. Utilization of a crude enzyme preparation obtained from the culture fluid after growth of the microorganism on native starch, resulted in complete degradation of native starch granules from potato, maize and wheat at a temperature of 37°C. Glucose was found as a major product. Production of maltose, maltotriose and maltotetraose was also observed. Native-starch-degrading activity (NSDA) could be selectively adsorbed on potato-starch granules, whereas soluble-starch-degrading activity (SSDA) remained mainly in solution. The use of such a starch-adsorbed enzyme preparation on native starch resulted in a completely changed product pattern. An increase in oligosaccharides concomitant with less glucose formation was observed. An increased conversion of soluble starch to maltopentaose was possible with this starch-adsorbed enzyme preparation. It is concluded that NSDA comes from -amylase(s) and SSDA from glucoamylase(s) and/or -glucosidase(s). Cultivation of B. firmus/lentus on glucose, maltose, or soluble starch resulted in substantially smaller quantities of (native) starch-degrading activity.Offprint requests to: D. J. Wijbenga 相似文献
916.
Lysis of Lactococcus lactis subsp. cremoris SK110 and Its Nisin-Immune Transconjugant in Relation to Flavor Development in Cheese 总被引:1,自引:0,他引:1
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Wilco Meijer Bert van de Bunt Marja Twigt Boudewijn de Jonge Gerrit Smit Jeroen Hugenholtz 《Applied microbiology》1998,64(5):1950-1953
To develop a nisin-producing cheese starter, Lactococcus lactis subsp. cremoris SK110 was conjugated with transposon Tn5276-NI, which codes for nisin immunity but not for nisin production. Cheese made with transconjugant SK110::Tn5276-NI as the starter was bitter. The muropeptide of the transconjugant contained a significantly greater amount of tetrapeptides than the muropeptide of strain SK110, which could have decreased the susceptibility of the cells to lysis and thereby the release of intracellular debittering enzymes. 相似文献
917.
Jan van Brederode Jean Chopin John Kamsteeg Gerrit van Nigtevecht Ria Heinsbroek 《Phytochemistry》1979,18(4):655-656
In Silene alba plants the dominant allele of gene Fg controls an enzyme which catalyses the formation of isovitexin 2″-O-glucoside both in petals and green parts. Both isovitexin and isoorientin can act as substrate. Kmvalues for the isovitexin glucosylation are 0.09 mM for isovitexin and 0.3 mM for UDP-glucose, Vmax 0.17 nmol min?1 mg protein?1. For the isoorientin glucosylation Km values of 0.45 mM for isoorientin, of 0.75 mM for UDP-glucose and Vmax of 0.27 nmol min?1 mg protein?1 are found. The pH optima for both substrates differ markedly. For the substrate with one hydroxyl in the B-ring, isovitexin, the pH optimum is pH 8.5. For isoorientin, which has two hydroxyls in the B-ring, a pH optimum of 7.5 is found. These results suggest that the B-ring hydroxylation pattern influences the pH at which the substrate has optimal affinity for the enzyme. The location of the carbon-carbon bound glucose on a the flavonoid skeleton is of importance for enzyme activity as well. Vitexin, which has glucose at the 8-position, was not a substrate. The glucosylation of vitexin could, however, be demonstrated in enzyme extracts of petals of plants, grown from seed collected in Armenia; in these petals apart from isovitexin glycosides, vitexin glycosides are found as well. 相似文献
918.
Peter de Bruijn Jaap Verweij Walter J. Loos Kees Nooter Gerrit Stoter Alex Sparreboom 《Journal of chromatography. B, Analytical technologies in the biomedical and life sciences》1997,698(1-2)
Sensitive high-performance liquid chromatographic assays have been develope to determine the levels of the lactone and lactone plus carboxylate (total) forms of the antitumor agent irinotecan (CPT-11) and its active metabolite SN-38, in human plasma. The related compound camptothecin was used as the internal standard. The selective sample pretreatment for the lactone forms involved a single solvent extraction with acetonitrile-n-butyl chloride (1:4,v/v), whereas the sample clean-up for the total forms was a simple protein precipitation with aqueous perchloric acid-methanol (1:1, v/v), which results in the conversion of the carboxylate to the lactone forms. Chromatography was carried out on a Hypersil ODS column, with detection performed fluorimetrically. The methods have been validated, and stability tests under various conditions have been performed. The lower limits of quantitation are 0.5 and 2.0 ng/ml for the lactone and total forms, respectively. The assays have been used in a single pharmacokinetic experiment in a patient to investigate the applicability of the method in vivo. 相似文献
919.
920.
Shawna Johnston Shiping Lin Phoebe Lee Sean M. Caffrey Janine Wildschut Johanna K. Voordouw Sofia M. da Silva Ines A. C. Pereira Gerrit Voordouw 《Environmental microbiology》2009,11(4):981-991
A 47 kb genomic island (GEI) bracketed by 50 bp direct repeats, containing 52 annotated genes, was found to delete spontaneously from the genome of Desulfovibrio vulgaris Hildenborough. The island contains genes for site-specific recombinases and transposases, rubredoxin:oxygen oxidoreductase-1 (Roo1) and hybrid cluster protein-1 (Hcp1), which promote survival in air and nitrite stress. The numbering distinguishes these from the Roo2 and Hcp2 homologues for which the genes are located elsewhere in the genome. Cells with and without the island (GEI+ and GEI- cells respectively) were obtained by colony purification. GEI- cells arise in anaerobic cultures of colony-purified GEI+ cells, indicating that the site-specific recombinases encoded by the island actively delete this region. GEI+ cells survive better in microaerophilic conditions due to the presence of Roo1, whereas the Hcps appear to prevent inhibition by sulfur and polysulfide, which are formed by chemical reaction of sulfide and nitrite. Hence, the island confers resistance to oxygen and nitrite stress. However, GEI- cells have a higher growth rate in anaerobic media. Microarrays and enzyme activity stains indicated that the GEI- cells have increased expression of genes, which promote anaerobic energy conservation, explaining the higher growth rate. Hence, while lowering the efficiency of anaerobic metabolism, the GEI increases the fitness of D. vulgaris under stress conditions, a feature reminiscent of pathogenicity islands which allow more effective colonization of environments provided by the targeted hosts. 相似文献