Factors Affecting the Antigenicity of Trichophyton rubrum

Nitrogen determinations, performed upon the mycelia of Trichophyton rubrum, indicated that both the total nitrogen to mycelial weight ratio and the protein nitrogen to mycelial weight ratio decreased as the age of the mycelia increased. An increase in nitrogen concentration in the medium produced an increase in the total nitrogen to mycelia weight ratio, but did not necessarily increase the protein nitrogen to mycelial weight ratio. The optimal nitrogen source concentration which produced the highest protein nitrogen to mycelium ratio was found to be considerably less than that recommended in most standard Sabouraud medium formulations. Antisera to antigen preparations, grown on low concentrations of Multipeptone, produced more lines in the gel diffusion reaction than did antisera to antigens grown on standard concentrations of Multipeptone. Antisera to antigenic preparations from 2-week-old mycelia exhibited better and sometimes more lines than those of antigens prepared from 1- or 3-week-old mycelia, regardless of the nitrogen concentration in the medium. Dialysis and storage of the antigen produced no change in the quality of the precipitin lines, even though both processes involved considerable loss of Lowry protein. Immunofluorescence studies showed that young mycelia were more antigenic than the old mycelia, since a substantial degree of cell wall fluorescence was exhibited by the young mycelia, especially at the hyphal tips. Older mycelia lacked this fluorescence. An extracellular antigen was also found to be associated with the young mycelia, but cytoplasmic fluorescence was not observed.     

Continuous Culture of Ruminal Microorganisms in Chemically Defined Medium: II. Culture Medium Studies

Ruminal ciliates have been grown in continuous culture in chemically defined media and in the absence of viable bacteria. Oligotrichic ruminal ciliates seem to require insoluble carbohydrates for growth; the holotrichic ciliates require soluble carbohydrates, but at low concentrations. Both groups of ciliates utilize amino acids as their principal nitrogen source when these are supplied in micromolar concentrations; at millimolar concentrations, amino acids are toxic, possibly from excessive ammonia formation arising from ciliate deaminase activity. Holotrichic ruminal ciliates are destroyed by overdeposition of amylopectin when glucose is present above 0.1% concentration in the medium. Ecological requirements of ruminal ciliates are also described.     

草菇培养物中粗三萜和黄酮含量及抗氧化抗肿瘤活性研究

采用液体摇瓶法培养草菇菌丝体,并用不同有机溶剂对培养液及菌丝体中的代谢成分分别进行分离提取,获得了不同来源的次生代谢提取物。对各提取物的成分分析表明,石油醚相、乙酸乙酯相和乙醇相提取物中均含有粗三萜和黄酮类物质,但菌丝体提取物中粗三萜和黄酮含量明显高于培养液提取物中的含量。石油醚抽提菌丝体获得的提取物中粗三萜含量最高,达17%,而乙酸乙酯抽提菌丝体获得的提取物中黄酮含量最高,达9.31%。抗氧化活性检测结果显示,石油醚相、乙酸乙酯相、乙醇相中的代谢提取物均有较高的抗氧化活性,但乙酸乙酯相提取物的抗氧化活性明显高于石油醚相提取物,具最高抗氧化活性的提取物分别来自乙酸乙酯、乙醇对菌丝体的抽提物。MTT法检测各提取物对胃癌细胞增殖的抑制作用,结果显示各组分均有较高的抗肿瘤活性,且抗肿瘤活性与提取物浓度存在明显的量效关系。     

草菇培养物中粗三萜和黄酮含量及抗氧化抗肿瘤活性研究

采用液体摇瓶法培养草菇菌丝体,并用不同有机溶剂对培养液及菌丝体中的代谢成分分别进行分离提取,获得了不同来源的次生代谢提取物。对各提取物的成分分析表明,石油醚相、乙酸乙酯相和乙醇相提取物中均含有粗三萜和黄酮类物质,但菌丝体提取物中粗三萜和黄酮含量明显高于培养液提取物中的含量。石油醚抽提菌丝体获得的提取物中粗三萜含量最高,达17%,而乙酸乙酯抽提菌丝体获得的提取物中黄酮含量最高,达9.31%。抗氧化活性检测结果显示,石油醚相、乙酸乙酯相、乙醇相中的代谢提取物均有较高的抗氧化活性,但乙酸乙酯相提取物的抗氧化活性明显高于石油醚相提取物,具最高抗氧化活性的提取物分别来自乙酸乙酯、乙醇对菌丝体的抽提物。MTT法检测各提取物对胃癌细胞增殖的抑制作用,结果显示各组分均有较高的抗肿瘤活性,且抗肿瘤活性与提取物浓度存在明显的量效关系。     

菌龄与培养基组分对曲霉原生质体释放的影响

培养基组分显著影响曲霉菌丝原生质体的释放,降低培养基中碳素或氮素养分供给量能显著促进原生质体的释放,且降低碳素养分的促效更大。菌龄与原生质体释放量之间的关系因培养基种类而异,在完全培养基上营养体生物量累积曲线具典型正S型曲线特征,原生质体释放量与菌龄呈明显反比例关系,在本研究条件下12 h龄固培菌丝体最宜制备原生质体。在酪素培养基上,原生质体释放量与菌龄无关,12~26 h菌龄期间的固培菌丝体均可释放出大量原生质体。     

Shigella dysenteriae 60R strain adheres to and invades tissue culture cells in the absence of virulence plasmid

The influence of various carbon and nitrogen sources on fusarin C synthesis was examined in submerged cultures of Fusarium moniliforme NRRL 13616. Using a zinc-deficient, synthetic medium, highest levels of fusarin C were produced by cultures grown with urea or ammonium sulfate as the nitrogen source and fructose, sucrose, or glucose as the carbon source. In media supplemented with various concentrations of glucose and ammonium sulfate, glucose concentrations which provided excess carbohydrate significantly increased fusarin C synthesis, regardless of the ammonium sulfate concentration.     

The Utilization of Carbohydrate and Nitrogen Reserves by Taxus During Its Spring Growth Period

The spring growth and the utilization of carbohydrate and nitrogen reserves in this growth was studied in Taxus media cv. Hicksii plants 0, 2, 4 and 6 weeks after the plants started growing in the spring. The effect of nitrogen applied the previous season on the storage and utilization of the carbohydrate and nitrogen reserves during spring growth was determined. The plants were separated into buds (all new growth), stems, needles (those produced the previous season) and roots and analyzed for changes in total nitrogen, basic and non-basic amino acids, total available carbohydrate, sugars, hemicelluloses, organic acids and chlorophyll. The bulk of the soluble nitrogen reserves were stored as arginine in the stems and old needles. With the onset of spring growth, arginine nitrogen was converted to other amino acids which accumulated in the new growth (buds). The roots, stems and needles of plants grown under high nitrogen levels always contained more total nitrogen than those grown under low nitrogen levels. The bulk of the carbohydrate reserves were stored as hemicelluloses. The plants grown under high nitrogen levels utilized the bulk of the carbohydrate reserves from the roots and smaller amounts from the stems and old needles, while plants grown under low nitrogen levels used only the reserves in the roots. In the low nitrogen plants, carbohydrates accumulated in the needles and stems. Both the carbohydrate and nitrogen reserves were important in the dry weight increase due to spring growth. However, the nitrogen reserves were the limiting factor and the high nitrogen plants grew twice as much, produced more chlorophyll, and utilized more nitrogen and carbohydrate reserve in spring growth than low nitrogen plants. The additional chlorophyll allowed the production of more carbohydrates and these additional carbohydrates were used in increased growth rates, while in the low nitrogen plants the carbohydrate produced was less and accumulated within the plant.     

Evergreen Foliage Contributions to the Spring Growth of Taxus

Taxus media cv. Hicksii plants were grown one season under a low and high level of nitrogen fertilization. Before growth in the spring the plants were divided into two groups, one of which was defoliated and the other left intact. The growth and spring utilization of the nitrogen and carbohydrate reserves of defoliated plants were compared to the intact plants 0, 2, 4 and 6 weeks after growth started in the spring. The plants were separated into buds (all new growth), roots and stems and analyzed for changes in total nitrogen, basic and non-basic amino acids, hemicelluloses, soluble sugars, organic acids and chlorophyll. The older evergreen needles from plants grown under low nitrogen levels contain 20 % of the carbohydrate and 24% of the nitrogen used in spring growth. The needles from plants grown under high nitrogen levels contained 56% of the carbohydrate and 49% of the nitrogen used in spring growth. Removal of the old needles before spring growth removed this nitrogen and carbohydrate reserve and reduced the total plant chlorophyll content after 6 weeks of growth to 50% of that found in intact plants, with the result that defoliated plants did not show a growth response to nitrogen. Amino acids accumulated in the stems and buds of defoliated plants as carbohydrates became limiting. The defoliated plants removed 25% more available carbohydrates from the roots and stems than intact plants and their buds contained 50% less available carbohydrates. Plants without old needles showed similar growth rates under low and high nitrogen regimes and produced 33% of the dry weight of intact plants grown under high nitrogen levels and 66% of the dry weight of intact plants grown under low nitrogen levels. The old needles of taxus plants contain substantial amounts of reserve nitrogen and carbohydrate and these needles greatly influence the extent and rapidness of growth in the spring. When the needles are removed, the other tissues can supply an adequate amount of nitrogen but the carbohydrate supply becomes limiting for spring growth.     

Biochemical studies on the effect of various carbon sources on growth,nitrogen fixtion,and main cellular constituents of azotobacter vinelandii,strain IV grown under various cultivation conditions

The accessibility of different carbon compounds to Azotobacter vinelandii and the productivity of nitrogen fixation were studied under static and shaking culture conditions. The nature of the carbon source applied was found to affect the yield of bacterial mass and nitrogen metabolism of the tested organism. On the basis of the efficiency of dinitrogen fixation and the yield efficiency ratio it was obvious that (sucrose + mannitol) as a source of carbon is optimum for both growth and dinitrogen fixation by A. vinelandii grown under static and shaking culture conditions. Furthermore, it was found that the highest crude protein efficiency ratio (14.6) and total carbohydrates efficiency ratio (4.3) were obtained with (sucrose + mannitol) as energy source for this organism under shaking culture condition. The experimental organism is able to convert the soluble nitrogenus substances present in molasses into more complex protein as well as to utilize the molasses as a source of energy for the fixtion of atmospheric nitrogen. The tested organism was unable to utilize sodium salicylate as the sole source of carbon.     

Investigations on the carbohydrate moieties of glycoprotein allergens

Many allergens are glycoproteins and their carbohydrate structure can contribute to the IgE reactivity. Therefore it is of great interest to study the carbohydrate structures of these particular antigens. Here, we present an overview of methods combining basic procedures in glycochemistry with various applications of electrophoresis that allow investigating single allergens in crude extracts. Various allergen extracts, e.g. from tomato, grass pollen and bacteria were analysed and the suitability of the tests are discussed.     

Gas-exchange activity,carbohydrate status,and protein turnover in root nodule subpopulations of field pea (Pisum sativum L. cv. Century)

Root nodule ontogeny was followed in different parts of the root system of field peas (Pisum sativum L. cv. Century) to investigate the contribution to total nitrogen fixation by different nodule subpopulations. Seed-inoculated plants were grown to maturity in controlled-environment growth chambers. In a flow-through system nitrogenase activity (H₂-evolution in air) and nodulated-root respiration (net CO₂-evolution) were measured weekly or biweekly in different parts (top and mid) of the root system. Root nodule extracts were assayed for total soluble cytosolic protein, total heme, proteolytic capacity (at pH 7.0), soluble carbohydrates and starch. Total nitrogenase activity and nodule respiration were higher in the top zone, which was explained by differences in root and nodule mass. Nodule specific nitrogenase activity was similar in both zones, and gradually declined throughout the experiment. No differences were found between nodule subpopulations in the dry-matter specific concentrations of glucose, fructose, sucrose or starch. Neither did nodule concentrations of protein or leghemoglobin differ between the zones. Throughout reproductive growth, no decline was found in total or nodule specific nitrogenase activity, in any of the nodule subpopulations. Growth of the root nodules continued throughout the experiment, though growth of shoot and roots had ceased. The data gives no support for carbohydrate limitation in root nodules during pod-filling, since nodule respiration remained high, the concentration of soluble carbohydrates increased significantly, and the amount of starch was not reduced. We conclude that when this symbiosis is grown under controlled conditions, nitrogenase activity in nodules sub-sampled from the crown part of the root system is representative for the whole nodule population.     

Growth and fat formation of Aspergillus oryzae and Aspergillus terreus on enzyme-hydrolyzed sweet potatoes

Two fungi, namely,Aspergillus oryzae andAspergillus terreus, have been grown on enzyme-hydrolyzed sweet potato medium either as such or supplemented with an external source of nitrogen in the form of ammonium carbonate, sodium nitrate, or asparagine. Hydrolysis alone promoted carbohydrate uptake, growth as well as fat formation to a remarkable extent in both fungi.Addition of an external supply of nitrogen to the hydrolyzed media increased further carbohydrate absorption which continued until the potato media were almost completely depleted; on unhydrolysed potato media, appreciable amounts of carbohydrates always remained unutilized. It also accelerated the rate of building up so that the dry mycelium increased by more than 4 times in some cases. Fat formation was consequently remarkably enhanced specially in the presence of ammonium carbonate or asparagine.     

Utilization of kerosene by a hydrocarbon-assimilating strain of Fusarium oxisporum

Fusarium oxysporum IFO 6384 was grown in three different media, one containing glucose and two containing kerosene as carbon source. One of the kerosene media contained also Tween 60. The harvested dry mats were weighed at various stages of growth. Substitution of glucose with kerosene led to a sharp drop in the production of fungal mycelia. Analysis of the mat samples representing maximum yields indicated that the mycelia grown in the kerosene media were richer in free amino acid and poorer in protein as well as in polymeric and low-molecular weight carbohydrates than those grown in the glucose medium. Treatment of the culture filtrates with three volumes of acetone led to the separation of two fractions. In the first, acetone soluble fraction the free sugars and amino acids were determined, whereas the second, acetone precipitable one, was examined for its proteolytic activity. The gelatinase activity of the acetone precipitable material (APM) obtained from the kerosene media was lower than that from the glucose medium. The former activity, in contrast to the latter reached its maximum and minimum values at pHs 4 and 9, respectively.     

Purification of cytoplasmic antigens from the mycelial phase of Candida albicans: Possible advantages of its use in Candida serology

The serology of candidiasis is complicated by the use of poorly defined antigens. Total extracts of the yeast phase have been commonly used as cytoplasmic antigen, without regard to the significant amounts of carbohydrate that may contaminate such preparations. This is particularly true in the case of commercially available antigens that have been used as cytoplasmic antigens but actually are richer in carbohydrate than in protein. Affinity chromatography in concanavalin A — Sepharose provides a simple procedure to separate carbohydrates, mainly mannan, from protein antigens in whole Candida extracts. By using mannan-poor antigens, the specificity of serological reactions can be increased considerably, since both the positive reactions seen in asymptomatic donors and the cross-reactions seen in patients infected with other fungi are due to anti-mannan antibodies. In contrast, both anti-mannan and anti-cytoplasmic antigen antibodies can be detected in patients suspected of systemic candidiasis. On the other hand, absolute specificity may never be achieved for systemic candidiasis. We have found antibodies against cytoplasmic antigen in a patient allergic to C. albicans, in whom the microorganism was isolated from fecal material. It appears that, under favorable conditions, mucosal sensitization may also trigger a systemic reaction directed against both mannan and cytoplasmic antigens.Publication no. 341 from The Department of Basic and Clinical Immunology and Microbiology, Medical University of South Carolina.     

Low-temperature-induced changes in trehalose,mannitol and arabitol associated with enhanced tolerance to freezing in ectomycorrhizal basidiomycetes (<Emphasis Type="Italic">Hebeloma</Emphasis> spp.)

Ectomycorrhizal fungi have been shown to survive sub-zero temperatures in axenic culture and in the field. However, the physiological basis for resistance to freezing is poorly understood. In order to survive freezing, mycelia must synthesise compounds that protect the cells from frost damage, and certain fungal-specific soluble carbohydrates have been implicated in this role. Tissue concentrations of arabitol, mannitol and trehalose were measured in axenic cultures of eight Hebeloma strains of arctic and temperate origin grown at 22, 12, 6 and 2 degrees C. In a separate experiment, mycelia were frozen to -5 degrees C after pre-conditioning at either 2 degrees C or 22 degrees C. For some, especially temperate strains, there was a clear increase in specific soluble carbohydrates at lower growth temperatures. Trehalose and mannitol were present in all strains and the highest concentrations (close to 2.5% and 0.5% dry wt.) were recorded only after a cold period. Arabitol was found in four strains only when grown at low temperature. Cold pre-conditioning enhanced recovery of mycelia following freezing. In four out of eight strains, this was paralleled by increases in mannitol and trehalose concentration at low temperature that presumably contribute towards cryoprotection. The results are discussed in an ecological context with regard to mycelial overwintering in soil.     

Carbohydrate Metabolism in Leaf Meristems of Tall Fescue : II. Relationship to Leaf Elongation Rates Modified by Nitrogen Fertilization

Our objective was to examine alterations in carbohydrate status of leaf meristems that are associated with nitrogen-induced changes in leaf elongation rates of tall fescue (Festuca arundinacea Schreb.). Dark respiration rates, concentrations of nonstructural carbohydrates, and soluble proteins were measured in leaf intercalary meristems and adjacent segments of elongating leaves. The two genotypes used differed by 43% in leaf elongation rate. Application of high nitrogen (336 kilograms per hectare) resulted in 140% higher leaf elongation rate when compared to plants receiving low nitrogen (22 kilograms per hectare). Leaf meristems of plants receiving high and low nitrogen had dark respiration rates of 5.4 and 2.9 microliters O₂ consumed per milligram structural dry weight per hour, respectively. Concentrations of soluble proteins were lower while concentrations of fructan tended to be slightly higher in leaf meristems of low-nitrogen plants when compared to high-nitrogen plants. Concentrations of reducing sugars, nonreducing sugars, and takadiastase-soluble carbohydrate of leaf meristems were not affected by nitrogen treatment. Total nonstructural carbohydrates of leaf meristems averaged 44 and 39% of dry weight for low- and high-nitrogen plants, respectively. Within the leaf meristem, approximately 74 and 34% of the pool of total nonstructural carbohydrate could be consumed per day in high- and low-nitrogen plants, respectively, assuming no carbohydrate import to the meristem occurred. Plants were able to maintain high concentrations of nonstructural carbohydrates in leaf meristems despite a 3-fold range in leaf elongation rates, suggesting that carbohydrate synthesis and transport to leaf intercalary meristems may not limit leaf growth of these genotypes.     

Neisseria gonorrhoeae: evaluation of some methods used for carbohydrate utilization.

A total of 989 Neisseria gonorrhoeae cultures were examined for acid production from dextrose in seven different carbohydrate media. Four of these media were found to be quite accurate for this purpose. Some pitfalls in the preparation and usage of cystine trypticase agar carbohydrate media are discussed. The term 'fermentation' of carbohydrates by Neisseria species is inaccurate and responsible for some N. gonorrhoeae false-dextrose-negative results.     

Alpha-amylase inhibitors from mycelium of an oyster mushroom

Abstract

The α-Amylase and α-glucosidase are two main enzymes involved in carbohydrate metabolism. This study was aimed at detecting alpha-amylase inhibitory activity from edible mushroom mycelia. Oyster mushroom was collected from a natural source, from Indian Institute of Technology (Banaras Hindu University) campus and was maintained in vitro in mycelial form. Chloroform, acetone, methanol, and water were used separately for extraction of an active constituent from mycelial cells grown, for 7?days, in potato dextrose broth. The extracts were tested for alpha-amylase inhibitory activity. Chloroform, acetone, and methanol extracts were found to have alpha-amylase inhibitory activity, with IC₅₀ values of 1.71, 224, and 383?μg/mL, respectively. Aqueous extract had no enzyme inhibitory activity. The acetone extract inhibited α-amylase non-competitively whereas chloroform extract showed competitive inhibition. Acetone extraction yielded highest total phenolic content (TPC) of 0.524?mM of gallic acid equivalent, whereas chloroform extraction resulted in lowest TPC of 0.006?mM. The HPLC and absorbance maxima of acetone and chloroform extracts suggest that the bioactive component responsible for enzyme inhibition could be glycoproteins in chloroform extract and catechins (flavonoids) in acetone extract. Thus, the mushroom mycelia under study may be exploited for production and purification of a lead compound for the development of the α-amylase inhibitory drug.     

Effect of carbon and nitrogen nutrition on pleomorphism in Trichophyton mentagrophytes

Pleomorphism in granular strains of Trichophyton mentagrophytes can be increased or decreased by modifying the nutritional environment. The presence of one of several carbohydrates is necessary and may be the controlling nutritional parameter determining whether or not mutant pleomorphic patches appear, although concentration of the nitrogen source is also important in the pleomorphic response. None of the non-carbohydrate carbon-containing compounds tested supported pleomorphism. The activity of any one compound, carbon or nitrogen, appears to be unrelated to the dry weight attainable in the presence of that compound; although a certain level of growth is necessary, it is not a sufficient requisite for pleomorphism. Data presented here give no clue as to the specific grouping or configuration of the carbohydrate which might be required for development of the pleomorphic patch. Some strains develop mutant patches readily when grown at 36 C on a medium containing a suitable source of carbohydrate and nitrogen. Other strains form patches on a more restricted range of these compounds; a few strains show no pleomorphic activity.     

Growth, soluble carbohydrates, and aloin concentration of Aloe vera plants exposed to three irradiance levels

Research was conducted on Aloe vera, a traditional medicinal plant, to investigate the effects of light on growth, carbon allocation, and the concentrations of organic solutes, including soluble carbohydrates and aloin. The plants were vegetatively propagated and grown under three irradiances: full sunlight, partial (30% full sunlight), and deep shade (10% full sunlight) for 12-18 months. After 1 year of growth, five plants from each treatment were harvested to determine total above- and below ground dry mass. Four plants from the full sunlight and the partial shade treatments were harvested after 18 months to assess the soluble carbohydrate, organic acid and aloin concentrations of the clear parenchyma gel and the yellow leaf exudate, separately. Plants grown under full sunlight produced more numerous and larger axillary shoots, resulting in twice the total dry mass than those grown under partial shade. The dry mass of the plants grown under deep shade was 8.6% that of plants grown under full sunlight. Partial shade increased the number and length of leaves produced on the primary shoot, but leaf dry mass was still reduced to 66% of that in full sunlight. In contrast, partial and deep shade reduced root dry mass to 28 and 13%, respectively, of that under full sunlight, indicating that carbon allocation to roots was restricted under low light conditions. When plants were sampled 6 months later, there were only minor treatment effects on the concentration of soluble carbohydrates and aloin in the leaf exudate and gel. Soluble carbohydrate concentrations were greater in the gel than in the exudate, with glucose the most abundant soluble carbohydrate. Aloin was present only in the leaf exudate and higher irradiance did not induce a higher concentration. Limitation in light availability primarily affected total dry mass production and allocation, without substantial effects on either primary or secondary carbon metabolites.