Production of Pectate Lyases and Cellulases by Chryseomonas luteola Strain MFCL0 Depends on the Growth Temperature and the Nature of the Culture Medium: Evidence for Two Critical Temperatures

Several extracellular enzymes that are responsible for plant tissue maceration were detected in culture supernatant of the psychrotrophic bacterium Chryseomonas luteola MFCL0. Isoelectrofocusing experiments showed that pectate lyase (PL) activity resulted from the cumulative action of three major isoenzymes, designated PLI, PLII, and PLIII. Cellulolytic activity was also detected in culture supernatants. These enzymes exhibited different behaviors with respect to growth temperature. PLII was not regulated by temperature, whereas PLI and PLIII were regulated similarly by growth temperature. Maximal levels of PLI and PLIII were produced at 14°C when cells were grown in polygalacturonate-containing synthetic medium and at around 20 to 24°C in nutrient broth. In contrast, thermoregulation of cellulolytic activity production differed from thermoregulation of PL. The level of cellulolytic activity was low in all media at temperatures up to 20°C, and then it increased dramatically until the temperature was 28°C, which is the optimal temperature for growth of C. luteola. Previously, we defined the critical temperature by using the modified Arrhenius equation to characterize bacterial behavior. This approach consists of monitoring changes in the maximal specific growth rate as a function of temperature. Our most striking result was the finding that the temperature at which maximum levels of PLI and PLIII were produced in two different media was the same as the critical temperature for growth observed in these two media.     

Biochemical characterization of pectate lyases produced by fluorescent pseudomonads associated with spoilage of fresh fruits and vegetables

An improved method for purification of pectate lyases (PLI and PLII) from culture fluids of Pseudomonas fluorescens CY091 and Ps. viridiflava PJ-08-6 by using a phosphocellulose cation exchanger was described. Analysis of purified PLI and PLII by sodium dodecyl sulphate-polyacrylamide and isoelectric focusing gel electrophoresis revealed that both enzymes had been purified to near homogeneity. Optimal Ca²⁺ concentration required for PLI and PLII activity was determined to be 0·5 mmol l⁻¹. The Ca²⁺ requirement could not be replaced by other metal cations such as Mg²⁺, Cu²⁺, Zn²⁺, Fe³⁺ and Co²⁺. Optimal pH for activity was determined to be between 8·5 and 9·0. The K _m values for sodium polygalacturonate were 1·28 and 1·11 mg ml⁻¹ for PLI and PLII, respectively. Both PLI and PLII were stable at low temperatures (25°C or below) for at least 1 month. However, at 37°C, the activity decreased 50% in 36 h. Optimal temperatures for activity were estimated to be 46° and 52°C for PLI and PLII, respectively. Thermal stability of both enzymes at elevated temperatures (48°C or higher) increased when CaCl₂ or a positively charged molecule such as polylysine was present, but decreased when polygalacturonate or a negatively charged molecule such as heparin was present. PLI and PLII exhibit differential degrees of sensitivity to group-specific inhibitors, including iodoacetic acid and diethylpyrocarbonate. This result suggests that both sulphydryl and imidazole groups are important for the catalytic function of PLI and PLII.     

Purification to homogeneity of extracellular polygalacturonase and isoenzymes of pectate lyase of Erwinia carotovora subsp. atroseptica by column chromatography

Extracellular polygalacturonase (PG) and two pectate lyase isoenzymes (PLI and PLII) produced by a 48 h culture of Erwinia carotovora subsp. atroseptica in pectate-based medium were purified 2027, 2036 and 2374-fold respectively to homogeneity with corresponding 59%, 61% and 32% recovery. This was achieved first by ion exchange chromatography on a S-Sepharose fast flow column with 20 mmol/1 Tris at pH 8.0 followed by elution of bound proteins with a 1 mol/1 NaCl gradient which separated PG from PL. The two enzymes were then further purified to homogeneity (assessed by SDS-PAGE) by selective adsorption chromatography on a hydroxyapatite column equilibrated with distilled water; PG was eluted with a 3 mol/1 KCl gradient and PLI with a 3 mol/1 KCl gradient followed by a 1.2 mol/1 PO₄ buffer pH 6.5 gradient to elute PLII. The Mr of the three enzymes determined by SDS-PAGE was 39 kDa and the pI values for PG, PLI and PII were 10.3, 10.3 and 10.0 respectively as determined by isoelectric focusing (IEF)-gel electrophoresis followed by activity staining.     

The Influence of pH and Temperature on Cellulolytic and Pectolytic Activity of Cylindrocarpon destructans (Zins.) Scholt.

In studies on the effect of pH and temperature on cellulolytic and pectolytic activity of C. destructans, it was found that the isolates used produced only endoglucanases. The temperature and pH affected the synthesis of these enzymes. Fungi cultured at 26°C produced more of these enzymes than those grown at the two other temperatures. At 10°C, only one isolate produced minute amounts of endoglucanases. None of fungi studied exhibited cellulolytic activity in cultures grown at 20°C. Cellulolytic activity was found only in acidic media (pH 5.0). The fungi studied exhibited higher pectolytic than cellulolytic activity. In the post culture liquids of these organisms, both types of pectolytic enzymes (exo- and endo-PMG) were detected. Different temperature and pH values affected the production of these enzymes differently in various isolates.     

Method for the rapid screening of cellulolytic streptomycetes and their mutants.

A method for the rapid screening of cellulolytic streptomycetes and their mutants is reported. The technique consists of a plate assay on media containing filter paper fibres as cellulose substrate. The cellulolytic activity is detected and measured by the formation of clearing zones around the streptomycete colonies. The sensitivity of the method is increased considerably by subjecting the plates to an additional incubation period at 43 degrees C in the presence of a buffer at pH 5.3. by replicating these colonies on other Petri plates containing the appropriate media, it is possible to assess rapidly, not only the degree of catabolic repression of the cellulase production by glucose, but also, in a semiquantitative way, the amount of enzymes produced.     

Thermophilic Myceliophthora thermophila decomposes cellulose

A thermophilic microscopic fungus was isolated from cattle rumen and identified as Myceliophthora thermophila (Apinis) van Oorschot. The culture synthesized cellulolytic enzymes and xylanase when it was grown in media containing cellulase at 50 degrees C under the conditions of submerged cultivation. The morphological and physiological characteristics of the culture are described and its taxonomic position is discussed.     

Strain-dependent effects of environmental signals on the production of extracellular phospholipase by Cryptococcus neoformans

Extracellular phospholipase (PL) activities comprising phospholipase B, lysophospholipase and lysophospholipase transacylase have been identified in culture supernatants of Cryptococcus neoformans and contribute to virulence. We found that PL production was optimal after fungal growth at 30 degrees C and secretion at 37 degrees C for all six C. neoformans isolates studied (four C. neoformans var. neoformans and two C. neoformans var. gattii). No increase in PL activity was found in one strain, NU-2, in low iron or tissue culture media, conditions where upregulation of other virulence factors has been reported. The most virulent strains in an intravenous mouse model of infection were best able to produce PL at growth and secretion temperatures of 37 degrees C, in tissue culture media and under assay conditions of pH 7.0.     

Cellulases and xylanase of an anaerobic rumen fungus grown on wheat straw, wheat straw holocellulose, cellulose, and xylan.

The activities of cellulolytic and xylanolytic enzymes produced by an anaerobic fungus (R1) which resembled Neocallimastix sp. were investigated. Carboxymethylcellulase (CMCase), cellobiase, and filter paper (FPase) activities had pH optima of 6.0, 5.5, and 6.0, respectively. CMCase and cellobiase activities both had a temperature optimum of 50 degrees C, whereas FPase had an optimum of 45 degrees C. The pH and temperature optima for xylanase activity were pH 6.0 and 50 degrees C, respectively. Growth of the fungus on wheat straw, wheat straw holocellulose, or cellulose resulted in substantial colonization, with at least 43 to 58% losses in substrate dry matter and accumulation of comparable amounts of formate. This end product was correlated to apparent loss of substrate dry weight and could be used as an indicator of fungal growth. Milling of wheat straw did not enhance the rate or extent of substrate degradation. Growth of the R1 isolate on the above substrates or xylan also resulted in accumulation of high levels of xylanase activity and lower cellulase activities. Of the cellulases, CMCase was the most active and was associated with either low or trace amounts of cellobiase and FPase activities. During growth on xylan, reducing sugars, including arabinose and xylose, rapidly accumulated in the medium. Xylose and other reducing sugars, but not arabinose, were subsequently used for growth. Reducing sugars also accumulated, but not as rapidly, when the fungus was grown on wheat straw, wheat straw holocellulose, or cellulose. Xylanase activities detected during growth of R1 on media containing glucose, xylose, or cellobiose suggested that enzyme production was constitutive.(ABSTRACT TRUNCATED AT 250 WORDS)     

A novel cold-tolerant Clostridium strain PXYL1 isolated from a psychrophilic cattle manure digester that secretes thermolabile xylanase and cellulase

A Clostridium strain PXYL1 was isolated from a cold-adapted cattle manure biogas digester at 15 degrees C. It could grow at temperatures as low as 5 degrees C up to 50 degrees C with highest specific growth rate at 20 degrees C and is a psychrotroph. It produced extracellular hydrolytic enzymes namely xylanase, endoglucanase, beta-xylosidase, beta-glucosidase and filter paper cellulase, all of which had maximal activity at 20 degrees C. The induction of xylanase was highest on birch wood xylan (37 IU(mg protein)(-1)) compared with xylose (1.11 IU(mg protein)(-1)), cellobiose (1.43 IU(mg protein)(-1)) and glucose (no activity). The xylanase was thermolabile with a half-life of 30 min at 40 degrees C and 8 min at 50 degrees C but stable for over 2 h at 20 degrees C. The crude enzyme released reducing sugars (1.25 g l(-1)) from finger millet flour at 20 degrees C, while commercial food-grade xylanases showed no hydrolysis at this temperature. This is the first report of a Clostridium strain growing at 20 degrees C and producing an array of xylanolytic and cellulolytic enzymes, possessing low temperature optima of 20 degrees C, which may facilitate degradation of plant fibre under low-temperature conditions.     

Effect of temperature on the activity and synthesis of glucose-catabolizing enzymes in Pseudomonas fluorescens.

The activity of the enzymes of the oxidative non-phosphorylated pathway, glucose and gluconate dehydrogenases, were not significantly affected by changes in the assay temperature. Both enzymes demonstrated only a threefold difference in activity when compared at assay temperatures of 30 degrees C and 5 degrees C. In contrast, the enzymes involved in the direct phosphorylation and catabolism of glucose or its oxidation products, gluconate and 2-ketogluconate, exhibited a more pronounced response to decreasing assay temperatures. At least one enzyme in each pathway, involved in the direct phosphorylation and catabolism of glucose or 2-ketogluconate (2KG), demonstrated an eightfold decrease in activity with a decrease in assay temperature from 30 degrees C to 5 degrees C. A similar decrease in assay temperature resulted in a fivefold decrease in activity of the enzymes involved in the direct phosphorylation and catabolism of gluconate. The observed differential effect of temperature on the activity of the enzymes of glucose catabolism and on the accumulation of direct oxidation products during growth with glucose in P. fluorescens E-20 is discussed. Growth with glucose at 5 or 20 degrees C resulted in high induced levels of all glucose-catabolizing enzymes examined when compared with the levels of these same enzymes in pyruvate-grown cells. However, only low levels of glucose dehydrogenase were detected during growth at 30 degrees C with glucose, gluconate, or 2-KG. Similarly, only low levels of gluconate dehydrogenase were detected during growth with glucose at 30 degrees C, although a weak induction was observed during growth with gluconate or 2-KG at 30 degrees C. The levels of 2-KG kinase plus KPG reductase during growth at 30 degrees C were undetectable with glucose, weakly induced with gluconate, and fully induced with 2-KG. High induced levels of glucose dehydrogenase, gluconate dehydrogenase, and 2-KG kinase plus KPG reductase were present during growth at 20 degrees C with glucose or 2-KG. The low levels of glucose and gluconate dehydrogenases present at a growth temperature of 30 degrees C was not due to heat lability of the enzymes at this temperature. The low amounts of these two enzymes during growth with glucose at 30 degrees C probably prevented sufficient inducer(s) formation from glucose to allow induction of enzymes of 2-KG catabolism. The results demonstrated that temperature may regulate the pathways of glucose dissimilation by regulating, either directly or indirectly, the activity and synthesis of the enzymes involved in these pathways.     

Production of cellulases and xylanases by low-temperature basidiomycetes

Three of four isolates, representing phylogenetically distinct groupings of low-temperature basidiomycetes (LTB), were capable of utilizing wheat straw, and to a lesser extent conifer wood at 15 degrees C. A cottony snow mould LTB (LRS 013) and a fruit rot LTB (LRS 241) grown on straw significantly degraded filter paper, carboxymethylcellulose (CMC), p-nitrophenyl beta-glucopyranoside (i.e., beta-glucosidases), and xylan. Enzymes produced by Coprinus psychromorbidus (LRS 067) were limited to xylanases from straw and wood and beta-glucosidases from wood. A sclerotia-forming LTB (LRS 131) exhibited poor growth on both substrates, and did not produce detectable quantities of extracellular enzymes. None of the LTB isolates tested degraded avicel. The temperature optima of CMCases and xylanases in the filtrates from the straw medium ranged from 25 degrees C to 55 degrees C, and with the exception of LRS 067, significant activity was observed at 5 degrees C. Two cellulases (25 and 31 kDa) and two xylanases (24 and 34 kDa) were observed on zymograms for LRS 013 and 241. Reduction of enzymes with 2-mercaptoethanol adversely affected their activity on zymograms, and an additional cellulase band was observed for non-reduced samples. This study indicates that LTB produce an array of cellulolytic and xylanolytic enzymes, and that some of these enzymes possess low-temperature optima which may facilitate degradation of plant fibre under low-temperature conditions.     

Effect of different temperature and culture media on the growth of Macrophomina phaseolina

The charcoal root disease caused by Macrophomina phaseolina (Tassi) Goidanich may cause considerable damages in hot as well as in dry seasons. The effect of temperature and culture media were studied on the growing patterns of 35 M. phaseolina isolates, collected from different districts of Hungary. The isolates were grown at 10, 15, 20, 25, 30, 35 and 40 degrees C temperatures respectively, and additionally at 25 degrees C on potato-dextrose-, malt-extract-, Czapek-Dox-, Sabouraud-glucose-, maize-flour- and watery agar media, using 90 mm Petri-dishes, 4 repetitions in each case. For all the isolates the most favourable temperature regime was 25 to 35 degrees C and the most advantageous media was the malt-extract-, Sabouraud-glucose- and potato-dextrose-agar media. At these conditions (temperatures and culture media) mycelia growth and the diameter of microsclerotial colonies reached the 90 mm at the 5th day. Mycelia growth of the pathogen was very low at 10, 15 and 40 degrees C, and did not form microsclerotia. On watery agar microsclerotial colony seldom developed, it needed 14 days, and no continuous mycelia developed even in a 8th months culture. Diameter of microsclerotia measured on different culture media varied between 39-308 microm.     

Extracellular enzymatic activities of basidiomycetous yeasts isolated from glacial and subglacial waters of northwest Patagonia (Argentina)

As part of a project aimed at the selection of cold-adapted yeasts expressing biotechnologically interesting features, the extracellular enzymatic activity (EEA) of basidiomycetous yeasts isolated from glacial and subglacial waters of northwest Patagonia (Argentina) was investigated. Ninety-one basidiomycetous yeasts (belonging to the genera Cryptococcus, Leucosporidiella, Dioszegia, Mrakia, Rhodotorula, Rhodosporidium, Sporobolomyces, Sporidiobolus, Cystofilobasidium, and Udeniomyces) were screened for extracellular amylolytic, proteolytic, lipolytic, esterasic, pectinolytic, chitinolytic, and cellulolytic activities. Over 15% of the strains exhibited three or more different EEAs at 4 degrees C and more than 63% had at least two EEAs at the same temperature. No chitinolytic or cellulolytic activities were detected at 4 and 20 degrees C. Cell-free supernatants exhibited significantly higher (P < 0.01) protease and lipase activities at < or = 10 degrees C, or even at 4 degrees C. In light of these findings, cold environments of Patagonia (Argentina) may be considered a potential source of cold-adapted yeasts producing industrially relevant cold-active enzymes.     

Correlation between Gliotoxin Production and Virulence of Aspergillus fumigatus in Galleria mellonella

Thanatephorus cucumeris is a ubiquitous fungus responsible for many types of plant diseases worldwide. All isolates from infected Hevea brasiliensis trees secreted pectolytic enzymes; polygalacturonase (PG), pectin lyase (PL) and cellulolytic enzymes; beta-glucosidase and cellobiase in culture. The extracts of the rubber tree leaf tissues, inoculated with T. cucumeris did not show any PG activity. However, PL activity was detected in tissue with the establishment of the infection. The levels of beta-glucosidase, an inherent enzyme in Hevea spp. increased rapidly following infection. However, cellobiase was detected only with the initiation of infection. Molecular weights of PG in all isolates were similar and in the range of 53,000 to 58,000. PL also followed the same pattern showing a molecular weight around 39,000.     

Cellulases and xylanase of an anaerobic rumen fungus grown on wheat straw, wheat straw holocellulose, cellulose, and xylan

The activities of cellulolytic and xylanolytic enzymes produced by an anaerobic fungus (R1) which resembled Neocallimastix sp. were investigated. Carboxymethylcellulase (CMCase), cellobiase, and filter paper (FPase) activities had pH optima of 6.0, 5.5, and 6.0, respectively. CMCase and cellobiase activities both had a temperature optimum of 50 degrees C, whereas FPase had an optimum of 45 degrees C. The pH and temperature optima for xylanase activity were pH 6.0 and 50 degrees C, respectively. Growth of the fungus on wheat straw, wheat straw holocellulose, or cellulose resulted in substantial colonization, with at least 43 to 58% losses in substrate dry matter and accumulation of comparable amounts of formate. This end product was correlated to apparent loss of substrate dry weight and could be used as an indicator of fungal growth. Milling of wheat straw did not enhance the rate or extent of substrate degradation. Growth of the R1 isolate on the above substrates or xylan also resulted in accumulation of high levels of xylanase activity and lower cellulase activities. Of the cellulases, CMCase was the most active and was associated with either low or trace amounts of cellobiase and FPase activities. During growth on xylan, reducing sugars, including arabinose and xylose, rapidly accumulated in the medium. Xylose and other reducing sugars, but not arabinose, were subsequently used for growth. Reducing sugars also accumulated, but not as rapidly, when the fungus was grown on wheat straw, wheat straw holocellulose, or cellulose. Xylanase activities detected during growth of R1 on media containing glucose, xylose, or cellobiose suggested that enzyme production was constitutive.(ABSTRACT TRUNCATED AT 250 WORDS)     

Investigations on the Activity of Cell Wall-degrading Enzymes in Young Wheat Plants After Infection with Pseudocercosporella herpotrichoides (From) Deighton

In earlier investigations, it has been demonstrated that Pseudocercosporella herpotrichoides (Fron) Deighton is capable of producing pectolytic and cellulolytic enzymes as well as hemicellulases in vitro. The investigation of enzyme activity in extracts from wheat plants infected with P. herpotrichoides (isolates 21e and R6) and from non-infected plants revealed the activity of the following enzymes: pectin methylesterase (PME), polymethylgalacturonase (PMG), pectin lyase (PL), carboxymethylcellulase (CMCase), xylanase and arabanase. Compared to non-infected plants, the enzyme activity in infected plants was considerably higher; in some experiments, only traces of enzyme activity could be found in control plants. The difference in the enzyme activity in infected as compared to non-infected plants was, in most cases, statistically significant, especially beginning at the end of the second week after inoculation.
The enzyme activity depended on the temperature during plant cultivation; with the exception of pectin methylesterase (PME), the activity of all investigated enzymes increased with temperature and the highest activity was found in plants grown at 20°C. The highest PME activity was measured in plants grown at 10°C; the activity of this enzyme was generally lower at 15 and 20°C.     

Carotenoid accumulation in the psychrotrophic bacterium Arthrobacter agilis in response to thermal and salt stress

A psychrotrophic strain of Arthrobacter agilis, isolated from Antarctic sea ice, grows from 5 degrees C to 40 degrees C and in culture media containing 0-10% (w/v) NaCl. Maximum growth rate occurred at 30-35 degrees C with a drastic decline as the cultivation temperatures diverged. Adaptation to extremes of low temperature may be partially attributed to the production of the C-50 carotenoid bacterioruberin, and its glycosylated derivatives. Lowering of the cultivation temperature resulted in a concomitant increase in carotenoid production, which may contribute to membrane stabilisation at low temperature. Maximum biomass accumulation occurred at 5-30 degrees C with a tenfold reduction at 40 degrees C. Changes in growth rates were minimal in culture media containing 0-2% (w/v) NaCl at 10 degrees C while a gradual decrease in growth rates occurred at higher salinity. Biomass accumulation at different salinity followed a trend similar to that observed with different cultivation temperatures. Maximum biomass accumulation was observed in culture media containing 0-5% (w/v) NaCl with a tenfold reduction at 10% (w/v) NaCl. Carotenoid production also decreased as salinity increased.     

The cellulolytic activity of the culture filtrates of egyptian mould fungi

Summary The cellulolytic activity of the culture filtrates of two strong cellulose decomposers namely Penicillium oxalicum and Helminthosporium cyclops was studied. The culture age influenced markedly the cellulolytic activity and two weeks of growth were found to establish the highest activity. The highest activity was recorded at p_H 4 and p_H 5 in case of Penicillium oxalicum and Helminthosporium cyclops respectively. In both experimental fungi, 40° C was the most suitable temperature for the cellulolytic action. The cellulase activity of the filtrate was found to be comparatively stable for a long time. The cellulase enzymes of both organisms were found to be strongly adaptive.     

Utilization of an exopolysaccharide produced by Chryseomonas luteola TEM05 in alginate beads for adsorption of cadmium and cobalt ions

Cadmium and cobalt adsorption from aqueous solution onto calcium alginate, sodium alginate with an extracellular polysaccharide (EPS) produced by the activated sludge bacterium Chryseomonas luteola TEM05 and immobilized C. luteola TEM05 was studied. In addition, solutions containing both of these ions were prepared and partial competitive adsorption of these mixtures was investigated. Metal adsorption onto gel beads was carried out at pH 6.0 and 25 degrees C. The maximum adsorption capacities determined by fitting Langmuir isotherms to the data for calcium alginate, calcium alginate+EPS, calcium alginate + C. luteola TEM05 and calcium alginate + EPS + C. luteola TEM05 were 45.87, 55.25, 49.26, 51.81 mg g(-1) for Co(II) and 52.91, 64.10, 62.5, 61.73 mg g(-1) for Cd(II), respectively. The biosorption capacity of the carrier for both metal ions together in competition was lower than those obtained when each was present alone.