Relations between grapevine replant disease and root colonization of grapevine (Vitis sp.) by fluorescent pseudomonads and endomycorrhizal fungi

In pot experiments cuttings of grapevine rootstock cultivar 5C were grown on a soil from a grapevine nursery affected with replant disease (replant soil) and on a similar soil that had not been planted with grapevines before (non-replant soil). Plants were also inoculated with the vesicular-arbuscular (VA) mycorrhizal fungus,Glomus mosseae, or left without mycorrhizal fungus inoculation. Shoot and root growth, mycorrhization of roots and numbers of total aerobic bacteria and fluorescent pseudomonads on the rhizoplane of grapevines were determined at several sampling dates. On replant soil, numbers of fluorescent pseudomonads on the rhizoplane were higher compared to non-replant soil, before differences in shoot and root weight between replant and non-replant soil occurred. Without inoculation withG. mosseae, the mycorrhization of roots was much lower on replant soil (13%) than on non-replant soil (51%). On replant soil, inoculation withG. mosseae increased mycorrhization to 39% and increased shoot length, leaf area and shoot weight. The beneficial effect of VA-fungus inoculation on replant soil was not due to increased nutrient concentrations in leaves. On replant soil, the inoculation withG. mosseae reduced the number of fluorescent pseudomonads on rhizoplane of grapevine, while the numbers of total aerobic bacteria were not influenced by inoculation withG. mosseae. These results suggest a direct or indirect role of fluorescent pseudomonads in replant disease of grapevine.     

Lightmicroscopical histochemistry of hydrolases in the root tip of lima beans,Phaseolus lunatus L., in relation to cell differentiation and wound regeneration

Summary Acid phosphatase, -glucosidase, -galactosidase, glucosaminidase, nonspecific esterase and leucine aminopeptidase were determined histochemically in Lima bean root tips. Highest enzyme activities were observed in terminally differentiating cells, such as xylem and root cap cells and also in the rhizodermis. Meristematic and parenchymatic cells contained the lowest hydrolase activity. The histochemical enzyme pattern of developing lateral roots resembled in all details that of the main root. tip. Regenerating root tissue contained increased levels of acid phosphatase, glucose-6-phosphate dehydrogenase, -glucosidase, naphthol--galactosidase and nonspecific esterase. Changes in the activity of indoxyl--galactosidase, -glucosaminidase, and leucine aminopeptidase were not observed during wound regeneration. Cell viability was monitored histochemically with succinic dehydrogenase, glucose-6-phosphate dehydrogenase, and cytochrome C oxidase.     

α-and β-Glycosidases in maize roots

Four glycosidases were analyzed in 10 mm apical segments prepared from growing roots (15 mm) of Zea mays L. The pH optima were found to be 5.8 for -glucosidase, 4.4 for -galactosidase, 6.4 for -glucosidase and 6.0 for -galactosidase. The -glucosidase showed 4-fold higher activity than the -galactosidase. The distribution of the -glucosidase activity was signifcantly different from that of the -galactosidase, -glucosidase and -galactosidase.Abbreviations -Glu -glucosidase - -Gal -galactosidase - -Glu -glucosidase - -Gal -galactosidase     

Effects of soil pH and associated cations on growth of apple trees planted in old orchard soil

Summary Trunk circumferences were measured on apple trees which had been grown for 5 to 10 years on land previously in apple orchard. Soil beneath each tree was analysed for soil acidity characteristics and basic cations. Tree growth (trunk circumference), was generally retarded but highly variable, but correlated well with the soil measurements in four of the six orchards investigated. Size of Delicious, Tydeman and Rome Beauty cultivars correlated positively with soil pH and negatively with 0.02M CaCl₂-soluble Al and Mn, while that of McIntosh grown adjacent to the Delicious and Tydeman trees in two of those orchards correlated little or not at all with these soil acidity characteristics. However, in the three orchards where McIntosh trees were grown, their size correlated (r=0.72^**, 0.71^**, 0.54^**) well with exchangeable soil Mg. The effects of soil acidity and associated nutrient deficiencies on growth of young apple trees is discussed.Contribution No. 602.     

Evaluation of structural and physiological plant characteristics in relation to the distribution of cadmium in maize inbred lines

To establish the structural and physiological characteristics related to the genotypic variation in Cd distribution between maize inbred lines (shoot Cd excluders and non-shoot Cd excluders), shoot and root morphological parameters were studied on plants grown in nutrient solution. Furthermore, the xylem sap composition and the desorbability of Cd from roots of these inbreds have been compared. No relationship between the morphological characteristics of either shoot (specific leaf area and leaf area ratio) or root (specific root length, specific surface area, and average diameter) and Cd distribution could be assessed. Cadmium concentrations in the xylem exudates from non-shoot Cd excluders were higher than those from shoot Cd excluders, but not related to citrate and malate concentrations. The absolute and relative amounts of Cd desorbed from roots of shoot Cd excluders were about twice as high compared to those of the non-shoot Cd excluders, especially at the lowest Cd concentration in solution. The absence of a relationship between shoot or root morphological parameters and Cd partitioning and the differences between both groups in the amounts of Cd desorbed, even at similar root Cd concentrations, indicate that the differential Cd distribution between shoot Cd excluders and non-shoot Cd excluders may be related to the observed differences in root Cd concentration, desorption characteristics and binding capacity of Cd inside and/or outside the root and its distribution within the roots.     

Comparative amino acid sequence analysis of Thermotoga maritima β-glucosidase (BglA) deduced from the nucleotide sequence of the gene indicates distant relationship between β-glucosidases of the BGA family and other families of β-1,4-glycosyl hydrolases

The primary structure of the bglA gene region encoding a -glucosidase of Thermotoga maritima strain MSB8 was determined. The bglA gene has the potential to code for a polypeptide of 446 amino acids with a predicted molecular mass of 51545 Da. The T, maritima -glucosidase (BglA) was overexpressed in E. coli at a level comprising approximately 15–20% of soluble cellular protein. Based on its amino acid sequence, as deduced from the nucleotide sequence of the gene, BglA can be classified as a broad-specificity -glucosidase and as a member of the -glucosidase family BGA, in agreement with the results of enzymatic characterization of the recombinant protein. Comparative sequence analysis revealed distant amino acid sequence similarities between BGA family -glucosidases, a -xylosidase, -1,4-glycanases of the enzyme family F (mostly xylanases), and other families of -1,4-glycosyl hydrolases. This result indicates that BGA -glucosidases may comprise one enzyme family within a large enzyme order of retaining -glycosyl hydrolases, and that the members of these enzyme groups may be inter-related at the level of active site architecture and perhaps even on the level of overall three-dimensional fold.     

Accumulation of silver by growing and non-growing populations of Citrobacter intermedius B6

Summary Accumulation of silver is reported for growing and non-growing populations of Citrobacter intermedius B6. In non-growing cultures a maximum uptake of 4.35% (w/w) was observed at an initial silver concentration of 2111.2 mol Ag⁺ l^-1. In contrast the maximum uptake of silver by growing bacteria was 2.81% (w/w) at an effective concentration of silver of 217.8 mol·l^-1. Silver accumulation rates in both resting (460 mol Ag⁺ g^-1 per hour) and continuously grown (41 mol Ag⁺ g^-1 per hour) bacteria are higher than previously reported. Cell fractionation and electron microscopy of continuously grown bacteria indicated that accumulation of silver was associated with the cell envelope, in the form of dense deposits of macromolecular proportions. This observation discounts simple surface adsorption as the process of accumulation in growing cultures.     

Contribution to the knowledge of the enzymatic activity of yeasts of clinical interest

The determination of the enzymatic activity of the yeasts has been applied to the identification of species, specially that ofCandida albicans. In order to know its usefulness in species of clinical interest, we have tested the commercial system API ZYM (Bio Mérieux) on 500 isolated strains of different organic samples, belonging to eight genera and twenty species. All the strains showed positivity to Phosphatase alcaline, Esterase (C4), Esterase lipase (C8), Leucine arylamidase and Phosphatase acid, and negativity to Lipase (C14), Trypsin, Chymotrypsin, -galactosidase, -glucoronidase, -manosidase and -fucosidase. Fourteen enzymatic activity patterns were obtained considering the substrates with variable results for the whole of the strains: Valine arylamidase, Cystine arylamidase, Naphthol-AS-BI-phosphohydrolase, -galactosidase, -glucosidase, -glucosidase and N-acetyl--glucosaminidase. In the majority of the species, the enzymatic profile did not have very specific results since it is usually shared by more than one species.C. albicans is that which presents the greatest number of enzymatic variations, some of these are similar to those of other common clinical species, such asCandida krusei, Candida parapsilosis andCandida tropicalis. This system is proposed as a rapid method for identification and as an epidemiological marker of medically important yeasts.Abbreviations AGL -glucosidase - BGA -galactosidase - BGL -glucosidase - CAA Cystine arylamidase - NAG N.Acetyl--glucosaminidase - PHO Naphthol-AS-BI-phosphohydrolase - VAA Valine arylamidase     

Purification and characterization of two intracellular β-glucosidases from the Neurospora crassa mutant cell-1

Two intracellular -glucosidases (E.C. 3.2.1.21) were purified from the filamentous fungus Neurospora crassa, mutant cell-1 (FGSC no. 4335) and characterized. The extent of purification were 2.55- and 28.89-fold for -glucosidase A and -glucosidase B, respectively. -Glucosidase A was a dimeric protein, and B a monomeric protein, with molecular masses of 178 and 106 kDa, respectively. Both isoenzymes were glycoproteins with relatively high carbohydrate contents (-glucosidase A, 29.2%; -glucosidase B, 34.2%). The isoelectric points determined by IEF were 6.27 and 4.72, respectively. pH optima for activity were determined to be 5.0 and 5.5, and temperature optima to be 55 and 60 °C, for -glucosidases A and B, respectively. Both purified -glucosidases. especially -glucosidase B, showed relatively high stability against pH and temperature. Both enzymes were stable in the pH range of 5.0–9.0. The activities were completely retained up to 48 h at temperatures below 40 °C. At higher temperatures, enzymes were relatively unstable and lost their activities at 60 °C after 24 h. Both -glucosidases were highly activated by CuCl₂, and inhibited by SnCl₂ and KMnO₄. Hg²⁺ and Ag⁺ also inhibited severely -glucosidase B. The K _m and V _max values of the isoenzymes against cellobiose as substrate were 1.50 mM and 12.2mol min^–1 mg^–1 for -glucosidase A and 2.76 mM and 143.5 mol min^–1 mg^–1 for -glucosidase B.     

Allelopathy in black walnut (Juglans nigra L.) alley cropping. I. Spatio-temporal variation in soil juglone in a black walnut–corn (Zea maysL.) alley cropping system in the midwestern USA

A study was conducted to quantify the spatial and temporal variation in soil juglone (5-hydroxy-1,4-naphthoquinone) in a 10-year-old black walnut (Juglans nigra L.)–corn (Zea mays L.) alley cropping system. Two treatments (root barrier and no barrier) were applied to determine if soil juglone in the alley can be minimized by preventing black walnut root growth into the alley. Although no significant seasonal variation in soil juglone existed, a distinct spatial pattern was observed. Juglone concentration decreased as much as 80% as the distance increased to 4.25 m from the tree row. Installation of polyethylene root barriers minimized juglone concentration to trace levels in the alley. However, this treatment increased juglone levels within the tree row as compared to the no barrier treatment, probably as a result of increased rooting density within a limited volume of soil.     

Altered utilization patterns of young and old soil C by microorganisms caused by temperature shifts and N additions

To determine if changes in microbial community composition and metabolic capacity alter decomposition patterns of young and old soil carbon pools, we incubated soils under conditions of varying temperature, N-availability, and water content. We used a soil from a pineapple plantation (CAM; ¹³C litter = –14.1) that had previously been under tropical forest (C3; ¹³C soil carbon = –26.5). Forest derived carbon represented 'old' carbon and plantation inputs represented 'new' carbon. In order to differentiate utilization of young (< 14 years) and old (> 14 years) soil carbon, we measured the ¹³C of respired CO₂ and microbial phospholipid fatty acids (PLFAs) during a 103 day laboratory incubation. We determined community composition (PLFA and bacterial intergenic transcribed spacer (ITS) analysis) in addition to carbon degrading and nutrient releasing enzyme activities. We observed that greater quantities of older carbon were respired at higher temperatures (20 and 35°C) compared to the lower temperature (5°C). This effect could be explained by changes in microbial community composition and accompanying changes in enzyme activities that affect C degradation. Nitrogen addition stimulated the utilization of older soil carbon, possibly due to greater peroxidase activity, but microbial community composition was unaffected by this treatment. Increasing soil moisture had no effect on the utilization of older SOM, but enzyme activity typically declined. Increased oxidative enzyme activities in response to elevated temperature and nitrogen additions point to a plausible mechanism for alterations in C resource utilization patterns.     

The Biometric Analysis of Bacterial Cells in Soil

The biometric analysis of bacterial cells in soil by light, fluorescence, and scanning electron microscopy showed that their average size is 0.8 m in diameter, 1.4 m in length, and 0.7 m³ in volume. In soil loci with enhanced microbiological activity (the rhizoplane of plants and the intestinal tract of soil invertebrates), the average size of bacterial cells was found to be 40% smaller than that of cells occurring in other parts of soil. This is the first experimental evidence showing that the metabolic activity of soil bacteria, their concentration, and allometric parameters are related.     

Non-invasive imaging of roots with high resolution X-ray micro-tomography

X-ray micro-tomography is a well-established technique for non-invasive imaging and evaluation of heterogeneous materials. An inexpensive X-ray micro-tomography system has been designed and built for the specific purposes of examining root growth and root/soil interactions. The system uses a silver target X-ray source with a focal spot diameter of 80 m, an X-ray image intensifier with a sampling aperture of about 100 m, and a sample with a diameter of 25 mm. Pre-germinated wheat and rape seeds were grown for up to 8–10 days in plastic containers in a sandy loam soil sieved to < 250 m, and imaged with the X-ray system at regular intervals. The quality of 3 D image obtained was good allowing the development and growth of both root axes and some first-order laterals to be observed. The satisfactory discrimination between soil and roots enabled measurements of root diameter (wheat values were 0.48–1.22 mm) in individual tomographic slices and, by tracking from slice to slice, root lengths were also measured. The measurements obtained were generally within 10% of those obtained from destructive samples measured manually and with a flat-bed scanner. Further developments of the system will allow more detailed examination of the root:soil interface.     

Development of alfalfa strains with differential tolerance to aluminum toxicity

Summary Aluminum toxicity limits root growth in acid subsoils that are difficult to lime. An alternative to subsoil liming is the development of plants having greater tolerance to Al. Alfalfa (Medicago sativa L.) is considered an Al-susceptible species. Preliminary studies indicated that alfalfa cultivars differ in Al tolerance, but the extreme plant-to-plant variation within cultivars prevented the establishment of clearcut cultivar differences.Tolerant and susceptible plants were selected from each of six cultivars (DuPuits, Atlantic, Team, Buffalo, Grimm, and Sirsa 9) grown on an Al-toxic Bladen soil at pH 4.1 to 4.3. The tolerant selections were repotted and interpollinated to form one population of polycross seed. Susceptible selections were treated similarly to form a second population. These two populations, tolerant and susceptible, were subjected to an additional cycle of recurrent phenotypic selection for tolerance and susceptibility, respectively, to Al-toxic Bladen soil at pH 4.6.Plants from the population selected for tolerance to the acid Bladen soil were significantly higher in both root and top vigor on Al-toxic Tatum soil than plants from the population selected for susceptibility. The results indicated that Al tolerance is a heritable trait in these alfalfa populations and that recurrent selection can be used effectively to develop strains having differential tolerance to Al-toxic soils. The observation that only 2% of the plants from the tolerant population were in the most tolerant class suggests a good opportunity for more progress in selecting toward Al tolerance.     

A cyto-biochemical study of the ‘canal’ formation in the yeast cell wall

Summary A distinction between the chemical composition of ultrastructurally modified regions and the rest of the cell wall (canals) of the yeast Schwanniomyces occidentalis was shown by cytochemical staining of cell wall polysaccharides. The formation of canals was induced by cultivation of yeasts on hydrocarbons and was parallelled by the enhancement of -glucosidase, -glucanase and -mannosidase activities which were all capable of degrading cell wall polysaccharides. The presence of cycloheximide prevented canal formation. We assume that these hydrolases modified definite cell wall regions transforming them into canals.     

Continuous glucose production using encapsulated mycelial-associated β-glucosidase from Trichoderma E58

Summary Cellobiose and salicin were continuously hydrolysed in a packed bed reactor containing Trichoderma sp. E-58, encapsulated in calcium alginate beads. Continuous -glucosidase activities were measured using inlet substrate concentrations of 10 mM and 35 mM for cellobiose and salicin respectively. Maximal activities achieved using the described immobilization procedure were between 70 and 90 moles substrate reacted per minute per liter of bead volume. Immobilized mycelial-associated -glucosidase activity was shown to have a half-life of greater than 1000 hours when operating continuously at 50°C.     

Uptake of Zn++ and aflatoxin from perlite and liquid culture by Zea mays seedlings

The present paper reports our attempts to determine whether the inclusion of 0.0014 mM Zn⁺⁺ within a hydroponic culture medium affects the ability of 12-day-old Zea mays, cv. SS-522 to take-up [³H]-aflatoxin B₁. Data from the corollary experiment, i.e., whether inclusion of aflatoxin affects the ability of Zea mays, cvs. Truckers White, X-Sweet and Merit to take-up ⁶⁵ZnCl₂ are presented also. This report is a preliminary to one regarding an in-progress analysis of whether pollutant levels of Zn⁺⁺ affect aflatoxin uptake and distribution. In the absence of irrigating seedlings, which were grown in Perlite containing ⁶⁵ZnCl₂, with a solution containing mixed aflatoxins, the stem contained the greatest amount of label with root plus seed the next highest and the leaf the least for each of the cvs. In contrast, when the seedlings were irrigated with a solution containing mixed aflatoxins, the root plus seed contained either an amount nearly identical to (cv. Truckers White) or in excess of that within the stem (cvs. X-Sweet and Merit). Calculation of the percentages of aflatoxin-induced diminutions in leaf, stem and root label suggested that the aflatoxins interfered with the translocation of ⁶⁵ZnCl₂ from the root to the stem and leaf, at least for cvs X-Sweet and Merit. When 0.0014mM Zn⁺⁺ as ZnSO₄ was added to an incubation medium in which 12-day-old seedlings were suspended and plant growth assessed over 72 hours, a 15% increase (significant at 0.05 level) in seedling height over that of Zn⁺⁺-deficient plants was observed. No differences in [³H]-aflatoxin B₁ uptake were noted between those seedlings which were grown in either Zn⁺⁺-containing or lacking media. Less than one % of the[³H]-aflatoxin B₁ which was taken-up was recovered within chloroform extracts of the seedlings. The distributions of radioactivity from [³H]-aflatoxin B₁ for leaf, stem, seed and root were 0, 57, 26 and 19% and 0, 26, 58 and 18% for Zn⁺⁺-containing and -lacking media, respectively.     

Purification and properties of recombinant β-glucosidase of the hyperthermophilic bacterium Thermotoga maritima

A -glucosidase of the hyperthermophilic bacterium Thermotoga maritima has been purified from a recombinant Escherichia coli clone expressing the corresponding gene. The enzyme was found to be a dimer with an apparent molecular mass of approximately 95 kDa as determined by size exclusion chromatography. It was composed of two apparently identical subunits of about 47 kDa (determined by sodium dodecyl sulphate-polyacrylamide gel electrophoresis). The enzyme had a bbroadsubstrate specificity and attacked -glucoside, -galactoside, -fucoside, and, to a very small extent, also -xyloside substrates. -Glycosidic bonds were not hydrolysed. Kinetic measurement of the hydrolysis of o-nitrophenyl--d-glucopyranoside (oNPGlc) and o-nitrophenyl--d-galactopyranoside (oNPGal) in the concentration ranges 0.05–20 mm and 0.1–10 mm, respectively, at 75°C resulted in non-linear Lineweaver-Burk and Eadie-Hofstee 3lots whereas cellobiose and lactose did not induce this type of effect. Lactose caused substrate inhibition above 350 mm. The enzyme was optimally active at about pH 6.1. The T. maritima -glucosidase represents the most thermostable -glucosidase described to date. In 50 mm sodium phosphate buffer, pH 6.2, at an enzyme concentration of 50 g/ml, the pure enzyme without additives retained more than 60% of its initial activity after a 6-h incubation at 95°C. Correspondence to: W. Liebl     

Pattern of enzymes involved in cyanogenesis and HCN metabolism in cell cultures of Phaseolus lunatus L. varieties

Callus and cell suspension cultures were established from root and shoot tips of aseptically-grown seedlings of highly cyanogenic Phaseolus lunatus L. varieties. The content of cyanogenic glucosides in the explanted seedling sections decreased during storage, the derived callus cells were free of cyanogenic glycosides. In spite of the non-existence of cyanogenic glucosides, the cyanogen degrading linamarase, the cyanide detoxifying enzyme -cyanoalanine synthase and also hydroxynitrile lyase were still present in suspension cultures. The linamarase activity equalled the total -glucosidase activity, of which up to 80% was found in the culture medium. In contrast the -cyanoalanine synthase and the hydroxy nitrile lyase were entirely localized in the cell biomass.~Botanical Institute, Technical University Braunschweig     

Spatial and temporal variation in soil CO2 efflux in an old-growth neotropical rain forest, La Selva, Costa Rica

Our objectives were to quantify and compare soil CO₂ efflux of two dominant soil types in an old-growth neotropical rain forest in the Atlantic zone of Costa Rica, and to evaluate the control of environmental factors on CO₂ release. We measured soil CO₂ efflux from eight permanent soil chambers on six Oxisol sites. Three sites were developed on old river terraces (old alluvium) and the other three were developed on old lava flows (residual). At the same time we measured soil CO₂ concentrations, soil water content and soil temperature at various depths in 6 soil shafts (3 m deep). Between old alluvium sites, the two-year average CO₂ flux rates ranged from 117.3 to 128.9 mg C m^–2 h^–1. Significantly higher soil CO₂ flux occurred on the residual sites (141.1 to 184.2 mg C m^–2 h^–1). Spatial differences in CO₂ efflux were related to fine root biomass, soil carbon and phosphorus concentration but also to soil water content. Spatial variability in CO₂ storage was high and the amount of CO₂ stored in the upper and lower soil profile was different between old alluvial and residual sites. The major factor identified for explaining temporal variations in soil CO₂ efflux was soil water content. During periods of high soil water content CO₂ emission decreased, probably due to lower diffusion and CO₂ production rates. During the 2-year study period inter-annual variation in soil CO₂ efflux was not detected.