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1.
Acid proteinase production by the fungus Humicola lutea 120-5 in continuous culture was studied. The maximum activity of the culture broth reached 2200 U/ml at a dilution rate (D) of 0.05/h. The continuous process was carried out for 1 month without any bacterial contamination, due to low pH (3.0–3.5) during the cultivation. 相似文献
2.
Aleksieva P Spasova D Radoevska S 《Zeitschrift für Naturforschung. C, Journal of biosciences》2003,58(3-4):239-243
Acid phosphatase activities in a culture liquid and mycelial extract were studied in submerged cultures of the filamentous fungus Humicola lutea 120-5 in casein-containingmedia with and without inorganic phosphate (Pi). The Pi-repressible influence on the phosphatase formation was demonstrated. Significant changes in the distribution of acid phosphatase between the mycelial extract and culture liquid were observed at the transition of the strain from exponential to stationary phase. Some differences in the cytochemical localization of phosphatase in dependence of Pi in the media and the role of the enzyme in the release of available phosphorus from the phosphoprotein casein for fungal growth were discussed. 相似文献
3.
P. Aleksieva E. Petricheva Ch. Konstantinov M. Robeva S. Mutafov 《Engineering in Life Science》1991,11(3):255-261
The spores of Humicola lutea entrapped in polyhydroxyethylmethacrylate gel were precultivated in production medium for mycelial formation. The immobilized mycelium was reused in batch mode for acid proteinases production. The influence of precultivation time, initial inoculum gel volume, and gel particle size on the enzyme activity and proteinases production half-life were studied. After 70 h precultivation of the entrapped spores (10 ml initial inoculum volume, 12–27 mm3 gel particle size) maximum proteinases activity of 100–140% (compared with free cells) was registered in 15 reaction cycles. Under the same condition the half-life time was 18 cycles, while for the free cells it was 5 cycles. The main advantage of the polyhydroxyethylmethacylate immobilized H. lutea was the long acid proteinases production half-life at a low concentration of outgrowing cells in the medium. 相似文献
4.
B. Tchorbanov P. Aleksieva N. Dambadarja G. Dyulgerova 《Engineering in Life Science》1996,16(1):65-71
Extracellular acid phosphatase was studied as a minor enzyme of the fungal strain Humicola lutea 120–5 having a clear relation to the secretion of acid proteinases. A medium lacking in mineral orthophosphates ensured a fivefold higher yield of phosphatase while the proteinase production was reduced. An acid phosphatase fraction free of proteinase activity was isolated demonstrating a maximum hydrolysis of 4-nitrophenyl-phosphate at a pH of 4.0 and 50°C. The phosphatase catalyzed a partial dephosphorylation of up to 30% of casein at a pH of 3.0 causing a complete substrate precipitation. Both proteinase and phosphatase biosynthesis increased twofold when natural casein was replaced by partially dephosphorylated casein in the cultivation medium. 相似文献
5.
Ivanova V Kolarova M Aleksieva K Dornberger KJ Haertl A Moellmann U Dahse HM Chipev N 《Preparative biochemistry & biotechnology》2007,37(4):343-352
Sanionins A (1) and B (2) were isolated from the moss Sanionia georgico-uncinata, collected on the Antarctic Livingston Island. The compounds 1 and 2 were purified by solvent extraction, silica gel column chromatography, and preparative HPLC, consecutively. The structures of the both compounds were elucidated by 1D and 2D NMR experiments and mass spectrometric investigations. These compounds showed activity against important Gram-positive pathogens, such as mycobacteria, multiresistant staphylococci, and vancomycin resistant enterococci. This activity is combined with antiinflammatoric activity and low cytotoxicity. 相似文献
6.
Aleksieva P. Tchorbanov B. Michailova L. Nacheva L. 《World journal of microbiology & biotechnology》2003,19(3):247-253
Acid phosphatase production by the fungus Humicola lutea 120-5, immobilized in polyurethane sponge, was studied under semicontinuous shake flask fermentation and compared to the enzyme secretion by free cells. The effect of parameters such as the carrier content and the duration of the batch in repeated batch experiments on the phosphatase production half-life was investigated. The best results were obtained with 1.0 g of sponge cubes (about 1.0 cm per side) per culture flask using 72 h runs. In these conditions the half-life of enzyme production by immobilized biocatalyst was 15 sequential cycles (45 days) compared to three cycles (9 days) for the free mycelium. The maximal phosphatase titre registered in free cell fermentation was 2500 U/l (i.e. 100%), while the relative enzyme activity of the optimal immobilized system was over 100% during the whole half-life time of 45 days. Significant improvement (200–215%) in the yield was observed in one-third of this period or 15 days. The supernatant medium obtained at any stage of the repeated batch cultures did not contain free cells and, due to the low pH (3.0–3.5), the whole process was carried out without any bacterial contamination. In comparison with free cell fermentation, the significant improvement of the acid phosphatase production by polyurethane sponge-immobilized H. lutea mycelium as well as its operation stability was confirmed by scanning electron microscopy. 相似文献
7.
Casein hydrolysis was studied during the cultivation of immobilized Humicola lutea cells producing acid proteinases. By monitoring the cultivation with time, various casein hydrolysates could be obtained, from partially modified proteins (yield 80%) with improved emulsion properties to peptones (yield > 50%) with a degree of hydrolysis >40%. The casein from the fermentation medium appeared to be simultaneously a nitrogen source, an inducer of proteinase biosynthesis, and a substrate for the production of casein hydrolysates. Casein (4%) and glucose (2%) ensured optimal cultivation conditions. The fungal cells, immobilized in calcium alginate beads, required a short cultivation time and demonstrated comparable hydrolysis of casein during five to seven reuses in batch mode.
Correspondence to: B. Tchorbanov 相似文献
8.
P. Aleksieva A. Djerova B. Tchorbanov I. Grigorov 《Applied microbiology and biotechnology》1981,13(3):165-169
Summary It is demonstrated for the first time that a species from the genusHumicola is a potential source of acid protease. A strain was classified by morphological investigations asHumicola lutea. The influence of constituents of the culture medium on the growth and acid protease production ofH. lutea 72 in submerged cultivation in flasks was investigated. An improved medium was devised for future studies. The optimal aeration rate, inoculum level and cultivation time were determined. A maximal proteolytic activity of 670 g tyrosine liberated from casein ml–1 culture filtrate min–1 at pH 3.0 was obtained. 相似文献
9.
The morphology of the fungusHumicola lutea (strain 120–5), immobilized in polyacrylamide and polyhydroxyethylmethacrylate and used for the semicontinuous production
of acid proteinases, was examined by scanning electron microscopy. The fungus developed a dense mycelium below the bead surface
as well as in the bead interior after precultivation of entrapped spores. During maximal semicontinuous enzyme biosynthesis,
formation of numerous large bulbous cells with a different shape was observed. Lysis of the cells was observed mainly in the
centre of the gel beads after 13 successive fermentations with polyacrylamide-immobilized cells or after 21 re-uses of polyhydroxyethylmethacrylate-immobilized
mycelia, respectively. Growth and changes in the cellular morphology of immobilizedH. lutea, accompanying biosynthesis of acid proteinases, were comparable in both gel matrices but mycelia immobilized in polyhydroxyethylmethacrylate
maintained their productivity twice as long. 相似文献
10.
The feasibility of using proteinase producing fungus Humicola lutea 120-5 as a source of extracellular acid phosphatase was investigated. To enhance the acid phosphatase yield and significantly reduce the proteolytic activity the composition of casein-glucose medium containing inorganic phosphate (Pi) was modified. The regulation of phosphatase formation was controlled by Pi. The repression influence of Pi on the synthesis of phosphatase was established. A reduction of Pi (KH(2)PO(4)) concentration from 1.0 to 0.01 g/l caused approximately 5-fold increase of the phosphatase (1200 U/I) and 3-fold decrease of the proteinase (10 U/ml). The omission of Pi from the medium in which the casein (phosphoprotein) was the sole phosphatase source resulted in higher phosphatase yield (2000 U/l) and lower proteolytic activity (7.5 U/ml). Different concentrations of glucose and casein were tested to obtain the optimal medium for maximal acid phosphatase production and minimal level of proteinase. The highest acid phosphatase activity of 2500 U/l and the least amount of acid proteinase (5.5 U/ml) were achieved in 72 h shake-flask culture using Pi-free medium containing glucose and casein in concentrations of 20 and 4 g/l, respectively. The ability of the fungus H. lutea 120-5 to dephosphorylate casein providing orthophosphate for cell growth was discussed. 相似文献