UMLS:C0040822 - FACTA Search

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Query: UMLS:C0040822 (tremor)
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Eight fungal species characterized by chitinolytic activity were isolated from Egyptian black sand collected from Rosetta coast. Genus Aspergillus and Alternaria alternata exhibited the highest density (> 40% of the total count, each) on the isolation plates containing different treatments of native shrimp shell chitin. Genus Aspergillus was represented by A. flavus, A. niger, A. foetidus and A. tungius, with the former species being the most dominant. The other species were Cladosporium herbarum, Fusarium equisitum (5.71% of the total count, each) and Dendryphiella vinosa (3.21% of the total count). The isolated species were screened for chitinase production on agar plates containing 0.2% colloidal chitin. The chitinolytic activity of each individual was not always correlated with its density on the isolation plates. Alternaria alternata was the most promising species for chitinase excretion. The use of colloidal chitin (1.5%) as a sole carbon source was superior for the enzyme production by A. alternata. Maximum enzyme yield was obtained after 7 days incubation at 30 degrees C with shaking (150 rev min(-1)), with an initial pH value of the growth medium at 5.0. Presence of NaNO3 (0.3%), the best nitrogen source, and CaCl2 (100 microg/ml) stimulated the induction of the enzyme. The crude A. alternata chitinase revealed a potential insecticidal effect on the larvae of fruitfly (82% mortality) and could degrade crude shrimp shell waste.
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PMID:A potent chitinolytic activity of Alternaria alternata isolated from Egyptian black sand. 1620 8

A plasmid, pNT4553, was constructed for high level production of N-carbamyl-d-amino acid amidohydrolase (DCase), the thermostability of which has been improved by amino acid substitution. The DCase activity and the stability of the plasmid in the host cells were dependent on the Escherichia coli strains used. E. coli HB101 was the most suitable host strain among the 13 types of E. coli tested. E. coli HB101 exhibited the highest activity, i.e. 6.36 units/ml of culture broth in 2YT medium (1.6% tryptone, 1.0% yeast extract, and 0.5% NaCl, pH 7.0), and the plasmid was stably maintained by cultivation in 5 types of E. coli including HB101. Casamino acids, NZ-amine, peptone, and protein extract (a mixture of hydrolyzates of corn gluten, wheat gluten and soybean), were found to be suitable as natural nitrogen sources for both enzyme activity and growth. When cultivation was carried out in the presence of high concentrations of glycerol (6.5%) as the carbon source, and protein extract (3.0%) as the nitrogen source, in a small volume of the medium (20 ml of medium in a 500-ml shaking flask), in which the aeration level was estimated to be high, growth and activity reached OD550=63.8 (17.1 mg of dry cell weight/ml of culture broth) and 22.9 units/ml of culture broth, respectively. The economical hyperproduction of DCase using only inexpensive constituents for the medium was achieved.
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PMID:Production of thermotolerant N-carbamyl-D-amino acid amidohydrolase by recombinant Escherichia coli. 1623 42

alpha-Glucosidase was produced using recombinant Aspergillus oryzae by membrane-surface liquid culture (MSLC), a method previously developed by the authors and the results compared with other methods, including shaking flask culture (SFC), agar-plate culture (APC), culture on urethane sponge supports (USC), and liquid surface culture (LSC) to determine possible reasons for the advantageous features of MSLC. When yeast extract was used as a nitrogen source, the amount of enzyme produced by MSLC was 5 or more times higher than those for SFC and LSC, but similar to that using APC. Enzyme production in USC was slightly lower than in MSLC and APC. Cell growth was similar irrespective of the cultivation method used. When NaNO3, a typical inorganic nitrogen source was used, enzyme production in all the cultures was lower than that using yeast extract. However, even using NaNO3, the amount of the enzyme produced by MSLC was 8 to 20 times higher than those by SFC, APC, USC, and LSC. Although cell growth using NaNO3 was similar to that for yeast extract in MSLC, it was markedly decreased in SFC, APC, and LSC. The reason for the difference in enzyme productivity for various cultivation methods using yeast extract and NaNO3 as a nitrogen source is discussed, on the basis of the experimental findings. The role of the oxygen transfer effect and gene expression levels in enzyme production were also examined.
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PMID:Characteristics of alpha-glucosidase production from recombinant Aspergillus oryzae by membrane-surface liquid culture in comparison with various cultivation methods. 1623 90

The acetylene reduction assay for the measurement of N(2) fixation in a water-saturated paddy soil is limited by the slow diffusion of acetylene and ethylene. In laboratory incubation tests, vigorous shaking after the assay period is needed to release ethylene into the gas within the assay vials. Shaking prior to the incubation is also effective for dissolving acetylene in the water-saturated soil. However, a water-saturated soil depth of less than 10 mm during incubation is recommended. In field assays, some amounts of ethylene remain in the water-saturated soil phase of the acetylene reduction assay chamber, but stirring the water-saturated soil before sampling reduces the amount of ethylene remaining in soil. Evidence of a downward movement of acetylene and an upward movement of ethylene through rice plants was obtained. Because of the rapid transfer of acetylene to rice plant roots, an in situ acetylene reduction assay covering a rice hill is likely to detect nitrogen fixation in the proximity of roots where acetylene is easily accessible. Acetylene introduction to the water-saturated soil phase prior to assay did not greatly increase the acetylene reduction rate. Carbon dioxide enrichment in the assay chamber did not enhance nitrogen fixation in a paddy including rice and algae during a 1-day cycle.
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PMID:Problems of the acetylene reduction technique applied to water-saturated paddy soils. 1634 57

Azospirillum brasilense, a nitrogen-fixing bacterium found in the rhizosphere of various grass species, was investigated to establish the effect on plant growth of growth substances produced by the bacteria. Thin-layer chromatography, high-pressure liquid chromatography, and bioassay were used to separate and identify plant growth substances produced by the bacteria in liquid culture. Indole acetic acid and indole lactic acid were produced by A. brasilense from tryptophan. Indole acetic acid production increased with increasing tryptophan concentration from 1 to 100 mug/ml. Indole acetic acid concentration also increased with the age of the culture until bacteria reached the stationary phase. Shaking favored the production of indole acetic acid, especially in a medium containing nitrogen. A small but biologically significant amount of gibberellin was detected in the culture medium. Also at least three cytokinin-like substances, equivalent to about 0.001 mug of kinetin per ml, were present. The morphology of pearl millet roots changed when plants in solution culture were inoculated. The number of lateral roots was increased, and all lateral roots were densely covered with root hairs. Experiments with pure plant hormones showed that gibberellin causes increased production of lateral roots. Cytokinin stimulated root hair formation, but reduced lateral root production and elongation of the main root. Combinations of indole acetic acid, gibberellin, and kinetin produced changes in root morphology of pearl millet similar to those produced by inoculation with A. brasilense.
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PMID:Plant Growth Substances Produced by Azospirillum brasilense and Their Effect on the Growth of Pearl Millet (Pennisetum americanum L.). 1634 72

The time course of hydrogen formation by Anabaena cylindrica was followed beneath an argon atmosphere alone and also beneath atmospheres of argon, nitrogen, and air in the presence of carbon monoxide (0.2%) and acetylene (5%). Hydrogen production beneath argon alone was comparable in rate and duration (7 to 12 days) to that which occurred beneath air in the presence of carbon monoxide (0.2%) and acetylene (5%). However, much greater longevity (16 to 26 days) and improved rates of hydrogen formation were obtained when algae were incubated beneath argon and particularly nitrogen, each supplemented with carbon monoxide and acetylene. The total hydrogen produced by these cultures was up to three times as much as that released by cultures incubated beneath argon alone. Hydrogen-oxygen ratios for argon cultures either with or without carbon monoxide and acetylene were initially 1:5 but approximated 1:2 when measured over the entire incubation period. In each case oxygen production and nitrogenase activity (acetylene reduction) continued at reduced rates after hydrogen evolution had ceased. The effects of methionine sulfoximine (2 muM), ammonium ions (0.5 mM), or both on oxygen production were generally negligible, while effects on hydrogen production were variable depending on the atmosphere used; in most cases, eventual destabilization of the system occurred. A brief comparison was made of the time courses of anaerobic and aerobic hydrogen formation by the marine cyanobacterium Calothrix membranacea. It was found that shaking of cultures was beneficial for hydrogen production but not strictly necessary. It is concluded that hydrogen production by A. cylindrica in air and particularly nitrogen in the presence of carbon monoxide and acetylene offers the best potential of the atmospheres considered on the basis of four criteria: rates and longevity of hydrogen formation, practicality of the atmosphere used, and tolerance of hydrogen evolution to slight changes in composition of the atmosphere.
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PMID:Duration of Hydrogen Formation by Anabaena cylindrica B629 in Atmospheres of Argon, Air, and Nitrogen. 1634 38

Phanerochaete chrysosporium metabolized the radiolabeled lignin model compounds [gamma-C]guaiacylglycerol-beta-guaiacyl ether and [4-methoxy-C]veratrylglycerol-beta-guaiacyl ether (VI) to CO(2) in stationary and in shaking cultures. CO(2) evolution was greater in stationary culture. CO(2) evolution from [gamma-C]guaiacyl-glycerol-beta-guaiacyl ether and [4-methoxy-C]veratrylglycerol-beta-guaiacyl ether in stationary cultures was two- to threefold greater when 100% O(2) rather than air (21% O(2)) was the gas phase above the cultures. CO(2) evolution from the metabolism of the substrates occurred only as the culture entered the stationary phase of growth. The presence of substrate levels of nitrogen in the medium suppressed CO(2) evolution from both substrates in stationary cultures. [C]veratryl alcohol and 4-ethoxy-3-methoxybenzyl alcohol were formed as products of the metabolism of VI and 4-ethoxy-3-methoxyphenylglycerol-beta-guaiacyl ether, respectively.
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PMID:Metabolism of Radiolabeled beta-Guaiacyl Ether-Linked Lignin Dimeric Compounds by Phanerochaete chrysosporium. 1634 27

The purpose of the present study was to examine the removal of ammoniacal nitrogen (NH4-N) from synthetic wastewater using limestone (LS) and granular activated carbon (GAC) mixture as low cost adsorbent. In batch study, optimum shaking and settling times were 150 and 120 min, respectively. The LS-GAC mixture ratio of 25:15 removed about 58% NH4-N. The smaller particle size of medium yielded higher adsorption capacity. The equilibrium adsorption data followed the Freundlich isotherm (R2 > 0.98) but it showed weak bond. Adsorption kinetics were well described by the pseudo second-order rate model (R2 > 0.93). The upflow column showed that higher flow rate and initial concentration resulted in shorter column saturation time. The study showed that the usage of GAC could be reduced by combining GAC with LS for the removal of NH4-N from wastewater; thus reducing the cost of treatment.
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PMID:Physico-chemical method for ammonia removal from synthetic wastewater using limestone and GAC in batch and column studies. 1671 87

In vitro shoot-tips of three cultivars of tropical taro (Colocasia esculenta var. esculenta (L.) Schott) were successfully cryopreserved by vitrification. Different conditioning treatments were required for each of the cultivars, while the vitrification protocol was constant for all. For the cultivars E399 and CPUK, shoot-tips from three-month-old in vitro plants grown on solidified MS were preconditioned on MS with 0.3 M sucrose in the dark for 16 h at 25 degree C. For the cultivar TNS, donor plants were preconditioned on solid MS with 90 g per liter sucrose for seven weeks before cryopreservation. For vitrification, the shoot-tips were loaded with a solution of 2 M glycerol plus 0.4 M sucrose for 20 min at 25 degree C, dehydrated with PVS2 for 12 min at 25 degree C and plunged in liquid nitrogen. Vials were warmed by rapid shaking in a water bath at 40 degree C for 1 min 30. Shoot-tips were rehydrated in liquid MS with 1.2 M sucrose for 15 min at 25 degree C then plated on recovery medium. Shoot-tips resumed growth within a week and developed into plantlets six to eight weeks later without any callus formation. The best mean recoveries for the three cultivars were 21, 29 and 30 percent for E399, CPUK and TNS, respectively. This protocol was evaluated with five other taro cultivars with no success. However, this study has shown that vitrification has potential for cryopreserving tropical taro.
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PMID:Cryopreservation of in vitro-grown shoot-tips of tropical taro (Colocasia esculenta var. esculenta) by vitrification. 1689 62

Effect of various fermentation media, carbon sources, nitrogen sources, phosphate concentration and culture requirements includes inoculum levels and age were determined on gentamicin production and biomass dry weight production for Micromonospora echinospora, a gentamicin producing strain. Of the substrates tested, starch as a sole carbon source promoted maximal gentamicin production, while maltose promoted maximal growth. Yeast extract as a sole nitrogen source promoted maximal growth, while soyabean meal for gentamicin production. Increasing phosphate concentration enhanced gentamicin production and observed optimum production at 1.2 g/1 (6% v/v) of phosphate having 72 h old inoculum in the medium. Highest gentamicin production was obtained after cultivation with shaking for 120 h in a medium containing starch 0.75% (w/v), soyabean meal 0.5%, K2HPO4 0.12%, CaCO3 0.4%, FeSO4 0.003% and CoCl2 0.0001%. The gentamicin production was 1.2-fold in this medium as compared to basal medium.
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PMID:Optimization of nutritional requirements for gentamicin production by Micromonospora echinospora. 1713 16

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