A new thermophilic species of Conidiobolus from India.

A Conidiobolus isolate growing optimally at 40 degrees C was isolated from decomposing leaf litter and has been designated as a new species, Conidiobolus thermophilus. Colony growth, conidial discharge and smooth zygospore formation was rapid at 40 degrees C, while comparative growth at 35 and 45 degrees C was slower. On the basis of its thermophilic character and morphological distinctness from all other species, the isolate is considered as a species new to science. There have been no published reports of any thermophilic or thermotolerant strains of Conidiobolus. The present fungus was isolated as part of an ongoing programme of selective isolation of unusual/rare thermophilic fungi from compost and decomposed terrestrial plant materials.

Biodegradation of γ-hexachlorocyclohexane (Lindane) by a non-white rot fungus conidiobolus 03-1-56 isolated from litter.

Biodegradation of chlorinated pesticide γ-hexachlorocyclohexane (lindane) by a nonwhite rot fungus Conidiobolus 03-1-56 is reported for the first time. Conidiobolus 03-1-56, a phycomyceteous fungus isolated from litter, completely degraded lindane on the 5th day of incubation in the culture medium, and GC-ECD studies confirmed that lindane removal did not occur via adsorption on the fungal biomass. Degradation studies using different medium compositions showed that nitrogen/carbon limiting conditions (stress conditions) and presence of veratryl alcohol, induced the secretion of extracellular oxidative enzymes, which enhanced the rate of lindance biodegradation. Under optimum nutrient-limiting conditions, GC-ECD and GC-MS analysis showed complete absence of any degradation metabolite, indicating that lindane was completely mineralized. Assays for tannic acid utilization and lignin peroxidase showed similar enzymatic profiles between Conidiobolus 03-1-56 and standard white rot fungi Pleurotus ostreatus 1200 and Trametes versicolor 1086. Although Conidiobolus 03-1-56 showed a reduced enzyme activity compared to white rot fungi, preliminary evidence indicates that enzymes responsible for lignin degradation by white rots play a key role in lindane degradation by Conidiobolus 03-1-56.

Identification and characterization of a library of microheterogeneous cyclohexadepsipeptides from the fungus Isaria.

Ten new cyclic hexadepsipeptides, six isariins and four isaridins, from the fungus Isaria have been identified and characterized by high-performance liquid chromatography, coupled to tandem electrospray ionization mass spectrometry (LC-ESIMS/MS). The isariins possess a beta-hydroxy acid residue and five alpha-amino acids, while isaridins contain a beta-amino acid, an alpha-hydroxy acid, and four alpha-amino acids. One- and two-dimensional NMR spectroscopy confirmed the chemical identity of some of the isariin fractions. Mass spectral fragmentation patterns of [M + H]+ ions reveal clear diagnostic fragment ions for the isariins and isaridins. Previously described cyclic depsipeptides, isarfelins from Isaria felina (Guo, Y. X.; Liu, Q. H.; Ng, T. B.; Wang H. X. Peptides 2005, 26, 2384), are now reassigned as members of the isaridin family. Examination of isaridin sequences revealed significant similarities with cyclic hexadepsipeptides such as destruxins and roseotoxins. The structure of an isariin (isariin A) investigated by NMR spectroscopy indicated the presence of a hybrid alphabeta C11 turn, formed by the beta-hydroxy acid and glycine residues and a D Leu-L Ala type II' beta-turn. Additionally, the inhibitory effect of isariins and an isaridin on the intra-erythrocytic growth of Plasmodium falciparum is presented.

Significance of NADP/NAD glutamate dehydrogenase ratio in the dimorphic behavior of Benjaminiella poitrasii and its morphological mutants.

Studies on the levels of glutamate dehydrogenase (GDH), glutamine synthetase, and glutamate synthase were carried out as a function of temperature, nutritional conditions, and the morphological (yeast or mycelium) form of Benjaminiella poitrasii. Since both NAD- and NADP-dependent GDH activities were found in B. poitrasii, the quantitative relation between these two enzymes expressed as the NADP-GDH/NAD-GDH activity ratio (GDH ratio) was studied to evaluate its possible role in the morphogenesis. In the yeast-to-mycelium transition, a decrease in the GDH ratio occurred (between 1 and 2 h) and germ tube formation could be observed only at 3 h. Under similar sets of experimental conditions, exogenous addition 1.0 mM of alpha-ketoglutarate delayed germ tube emergence (4 h) compared with the control. On the other hand, in the presence of 1.0 mM glutamate an earlier onset of the germ tube formation was noted. The morphological (monomorphic) mutants, Y-2 and Y-5, showed a high GDH ratio and maintained the yeast morphology.

Evidence for controlled autoproteolysis of alkaline protease. A mechanism for physiological regulation of conidial discharge in Conidiobolus coronatus.

The alkaline serine protease of Conidiobolus coronatus was shown to be involved in its conidial discharge [Phadatare, S., Srinivasan, M. C., Deshpande, M. (1989) Arch. Microbiol. 153, 47-49]. To understand the regulation of conidial discharge, the mechanism of control of protease activity was investigated, which revealed the presence of two electrophoretically separable intracellular proteases (protease I and protease II). The formation of smaller and less-active protease II coincided with the decrease in conidial discharge. In order to trace the origin of protease II, the corresponding purified extracellular enzymes were compared with respect to their biochemical, physiochemical and immunological properties. The biochemical properties, such as optimum pH and temperature, stability, sensitivity to metal ions and substrate specificity were closely similar for both proteases. Amino acid analysis revealed that protease II is completely similar to protease I, though protease I contains an additional portion which is not contained in protease II. Western-blot ELISA, immunotitration and determination of antigenic valencies also revealed the structural similarity between the two proteases. Purified protease I showed partial degradation to protease II in vitro, the process being sensitive to phenylmethylsulfonyl fluoride, indicating its proteolytic nature. These results suggest that the formation of a less-active protease by autoproteolysis represents a novel means of physiological regulation of protease activity, which in turn regulates the conidial discharge in C. coronatus.

Production of an alkaline proteinase fromConidiobolus coronatus and its use to resolveDL-phenylalanine andDL-phenylglycine.

An isolate ofConidiobolus coronatus (NCIM 1238) showed high proteinase activity (20.1 U/ml) and productivity (600 U/l.h) when 1% (w/v) glucose or sucrose was used as the carbon source in shake flasks. Addition of organic nitrogen sources, casein (2%), soybean flour (4%), liver extract (2%) or Edamin-S (2%), enhanced growth and proteinase production up to three-fold and seven-fold, respectively. The system was successfully run up to 6 l in a laboratory fermenter with a productivity of 600 U/l.h. The proteinase was successfully used to resolve the recemic mixtures ofDL-phenylalanine andDL-phenylglycine and thus could replace the currently used subtilisin.

Cellulase-free xylanase production from an alkalophilicBacillus species.

An alkalophilicBacillus (NCL-87-6-10, NCIM 2128), with a high productivity for extracellular xylanase (EC 3.2.1.8) and free of cellulase, was isolated from soil containing coconut fibre detritus. When grown on a wheat bran/yeast extract medium in submerged culture for 48 h, it produced 100 to 120 IU of enzyme activity per ml. The crude enzyme consists of two fractions of apparent mol sizes of approx 10.4 and 29 kDa in the proportion of 90:10, as determined by native gel exclusion chromatography. Optimum activity of the xylanase was at 60°C and pH 8.0. A two-fold increase in enzyme activity was obtained when reducing agents, thioethanol and dithiothreitol, were included in the assay.

Physiology and nutritional aspects of actinomycetes: an overview.

A review is presented of the nutritional requirements and physiology of actinomycetes, with special emphasis on: (a) selective isolation of unusual forms; (b) colonial morphogenesis and induction of sporulation; (c) biosynthesis of secondary metabolites of value, with particular reference to antibiotics and industrial enzymes. The future potential of actinomycetes as major contributors of useful bioactive metabolites is also indicated.

Dimorphism of Benjaminiella poitrasii: isolation and biochemical studies of morphological mutants.

The yeast-mycelium dimorphism of the genus Benjaminiella poitrasii has been investigated. To understand the mechanism of dimorphism two stable yeast-phase mutants (Y-1 & Y-2) and one slow growing mycelial mutant (M-1) of B. poitrasii were isolated after NTG treatment of parent strain spores and studied for their biochemical characteristics. Effects of (i) kind and concentration of carbon source, (ii) presence of complex organic nitrogen and (iii) C:N ratio in the growth medium on the morphology of parent and mutant strains were carried out at 28 degrees C under shaking conditions. Ethanol induced morphological change and its reversal were studied in all the strains in order to elucidate the possible mechanism of morphogenesis.

Chemical modification of a xylanase from a thermotolerant Streptomyces. Evidence for essential tryptophan and cysteine residues at the active site.

Extracellular xylanase produced in submerged culture by a thermotolerant Streptomyces T7 growing at 37-50 degrees C was purified to homogeneity by chromatography on DEAE-cellulose and gel filtration on Sephadex G-50. The purified enzyme has an Mr of 20,463 and a pI of 7.8. The pH and temperature optima for the activity were 4.5-5.5 and 60 degrees C respectively. The enzyme retained 100% of its original activity on incubation at pH 5.0 for 6 days at 50 degrees C and for 11 days at 37 degrees C. The Km and Vmax. values, as determined with soluble larch-wood xylan, were 10 mg/ml and 7.6 x 10(3) mumol/min per mg of enzyme respectively. The xylanase was devoid of cellulase activity. It was completely inhibited by Hg2+ (2 x 10(-6) M). The enzyme degraded xylan, producing xylobiose, xylo-oligosaccharides and a small amount of xylose as end products, indicating that it is an endoxylanase. Chemical modification of xylanase with N-bromosuccinimide, 2-hydroxy-5-nitrobenzyl bromide and p-hydroxymercuribenzoate (PHMB) revealed that 1 mol each of tryptophan and cysteine per mol of enzyme were essential for the activity. Xylan completely protected the enzyme from inactivation by the above reagents, suggesting the presence of tryptophan and cysteine at the substrate-binding site. Inactivation of xylanase by PHMB could be restored by cysteine.

Purification and characterisation of glucose (xylose) isomerase from Chainia sp. (NCL 82-5-1).

Glucose (xylose) isomerase is an important enzyme in high fructose syrup industry. The enzyme generally occurs intracellularly and is specific for both glucose and xylose. A rare actinomycete Chainia sp. (NCL 82-5-1) produces extracellular specific glucose and xylose isomerases and an intracellular glucose (xylose) isomerase. The intracellular enzyme is isolated by cell autolysis and purified by preparative polyacrylamide gel electrophoresis. Its properties are studied and compared with those of extracellular specific xylose isomerase. The intracellular enzyme has a molecular weight of 1,58,000 daltons with four equal subunits of 40,700 daltons. The N-terminal amino acid sequence analysis shows Arg at the N-terminal. Diethylpyrocarbonate inhibited the enzyme and the inhibition kinetics study shows the presence of at least 2 essential His residues. The amino acid analysis shows the absence of Cys and a high proportion of hydrophobic and acidic amino acids.