Stimulation of xylanase synthesis in Cryptococcus albidus by cyclic AMP

Cryptococcus albidus secretes a xylanase when induced by xylan or beta-methylxyloside, a non-metabolizable inducer, and production of the enzyme is repressed by xylose. The effect of exogenous cAMP on xylanase production was tested under different growth conditions. The cAMP elicited a 1.5 to 2 fold increase in xylanase production during the induction by xylan and B-methylxyloside but did not relieve the repression observed during growth on xylose. Cyclic AMP also affected the growth rate of the cells and did not modulate the activity of pure xylanase in vitro. A 15-nucleotide sequence located upstream from the xylanase gene could be part of a cAMP regulatory sequence.     

Induction of xylanase by β-methylxyloside in Cryptococcus albidus

Abstract The compound β-methylxyloside (β-MX) was found to induce the production of extracellular xylanase (EC 3.2.1.8) by the yeast Cryptococcus albidus . The induction of xylanase by β-MX requires de novo protein synthesis and proceeds via de novo accumulation of translatable mRNA coding for xylanase as demonstrated by the addition of cycloheximide. In vitro translation of cellular messenger RNA followed by immunoprecipitation with xylanase-specific antibodies reveals that the stimulation leads to the appearance of xylanase-coding mRNA. In vivo labeling experiments show that the β-MX induces specifically the 48 kDa xylanase, and that the addition of xylose in the culture medium reverses the β-MX action by suppressing completely the production of xylanase by the cells.     

Effect of tunicamycin on xylanase secretion in the yeast Cryptococcus albidus

The yeast Cryptococcus albidus secretes a glycosylated xylanase (48 kDa) in the culture medium in response to beta-methylxyloside as inducer. Addition of tunicamycin to the medium results in the formation of a modified xylanase (40 kDa) which is depleted in carbohydrate content and whose enzymatic activity is 2.5 times less than that of the glycosylated xylanase. The secretion of xylanase was followed under both conditions by pulse-chase experiments. The half-time of secretion of the glycosylated and nonglycosylated forms was 5 and 2 h, respectively. Cell-associated xylanase activity was not detected when the cells were treated with the antibiotic. The absence of cell wall-associated xylanase, after tunicamycin treatment, was confirmed by immunolocalization with anti-xylanase antibodies at the electron microscopic level. The results suggest that the interactions of carbohydrate moiety within the cell wall retarded the secretion of the enzyme to the medium.     

The xylanase introns from Cryptococcus albidus are accurately spliced in transgenic tobacco plants

The xylanase gene from Cryptococcus albidus contains seven introns. Genomic and cDNA clones under the control of the CaMV 35S promoter were transferred into tobacco plants using Agrobacterium-mediated cell transformation. The genes were transcribed and the mRNAs were amplified by the polymerase chain reaction using primers on each side of the intron region. About 90% of the amplification products from plants transformed with the genomic clone corresponded to the size of the pre-mRNA (1.2 kb) and 10% represented the spliced product (0.85 kb). The 0.85 kb fragment was cloned and sequenced and the result indicated that the introns from the xylanase gene were accurately spliced by the plant cells.     

Ploidy differences in Cryptococcus albidus

Presumed haploid and diploid cultures ofCryptococcus albidus were analysed for their DNA content per cell. A ratio of approximately 1:2 was obtained by relating the DNA content per cell of the two phases to ploidy. As the diplophase formed neither longitudinally septated cells nor ballistoconidia, the earlier suggestions thatCryptococcus is closely related toTremella seems less likely. On the assumption that the metabasidia ofCryptococcus are gastromycetoid, a closer relationship between this genus and the tulasnelloid fungi appears more probable.Microbiology Research Group, South African Council for Scientific and Industrial Research, Pretoria, South Africa.     

Cloning and expression in Escherichia coli of a xylanase-encoding gene from the yeast Cryptococcus albidus.

In the yeast, Cryptococcus albidus, a comparison between the sequence of the xylanase (XLN)-encoding chromosomal gene (XLN) and the cDNA sequence reveals the presence of seven introns, ranging in length from 51 to 69 bp. One of their 5' splice site sequences is similar to the consensus sequence for yeast, while the other six resemble the consensus sequence for higher eukaryotes. Their 3' end splice site sequences are representative of the conserved sequence found in eukaryotes. Their putative branching point sequences are different from the well-known conserved sequence, 5'-TACTAAC, observed in yeast, but again resemble the mammalian one. The cDNA encoding XLN is expressed by Escherichia coli, under the control of the lacZ promoter. The gene product remains inside the cell and has a molecular size of 40 kDa, which matches the size of the nonglycosylated protein. When compared to the glycosylated enzyme, the nonglycosylated XLN from E. coli shows twofold less affinity for substrate and its Vmax is 100-fold lower. Moreover, the nonglycosylated XLN only acts on large xylan polymers and very slightly on xylohexaose.     

Molecular expression of xylanase gene in Cryptococcus albidus

In the yeast Cryptococcus albidus, the utilization of xylan as compared to xylose requires at least an inducible endoxylanase enzyme, secreted in the culture medium. The endoxylanase induction was monitored by immunoprecipitation of in vivo and in vitro synthesized products. The mature endoxylanase is a highly glycosylated enzyme with an apparent molecular weight of 48000. Upon chemical deglycosylation with trifluoromethanesulfonic acid, the molecular weight was reduced to 40000. Addition of tunicamycin to the culture medium resulted in the synthesis of a modified polypeptide having a molecular weight of 40000. Poly(A)-containing RNA isolated from the yeast was translated in the rabbit reticulocyte protein-synthesizing system. The appearance of a translatable xylanase mRNA was observed in xylan-grown cells but not in xylose-grown cells. The polypeptide identified as xylanase had a molecular weight of 44000. This suggests that the xylanase is synthesized as a precursor, containing a peptide signal sequence of 35 residues.     

Ethylene production from l-methionine by Cryptococcus albidus

Cryptococcus albidus IFO 0939 was selected from microorganisms producing ethylene from l-methionine in a culture medium. When methionine was excluded from the culture medium of C. albidus, there was little production of ethylene. Ethylene production in a methionine-containing culture medium occurred for a brief period at the end of the growth phase. 2-oxo-4-methylthiobutyric acid (KMBA), a deaminated product of methionine, accumulated in the culture filtrate. An ethylene-forming enzyme was partially purified from C. albidus by means of DEAE-Sepharose CL-6B ion exchange chromatography, and a cell-free ethylene-forming system was constructed. Using this system, the precursor of ethylene was found to be KMBA and essential factors were NAD(P)H, Fe³⁺, EDTA and oxygen.     

Molecular cloning and expression of the xylanase gene from Chainia in Escherichia coli

A complete genomic library of Chainia was constructed in coliphage lambda vector gt10 and was screened for the xylanase gene using an 18-mer mixed oligonucleotide probe corresponding to a six-amino acid sequence of low molecular mass Chainia xylanase. Inserts from 11 putative clones, showing hybridization with the oligonucleotide probe at medium stringency, were subcloned in pUC8 and screened for xylanase gene expression using anti-xylanase antibodies. The restriction map of the insert (1.4 kb) from one of the four immunopositive clones (PVX8) showing detectable xylanase activity was constructed. The xylanase activity of PVX8 was not induced by IPTG or xylan. Reorientation of the insert by directional cloning into pUC9 had no effect on the xylanase activity suggesting that an indigenous promoter from Chainia is responsible for the xylanase activity.     

Characterization of laccase activity produced by Cryptococcus albidus

This study deals with the characterization of laccase enzyme activity produced by Cryptococcus albidus. Industrial wastes like effluent and sludge are complex mixtures of a number of chemicals. These chemicals can interfere with the proper functioning of the enzymes used for bioremediation. Thus, it is important to study the effect of such interfering solvents, detergents, metal chelators, and other chemicals on enzyme activity before industrial applications. Laccase showed maximum activity at pH 2.5 and temperature 20-30°C when ABTS was used as a substrate. The enzyme followed Michaelis-Menten kinetics: K(m) was 0.8158 mM and V(max) was 1527.74 U/mg. Laccase showed good thermostability with a half-life of 81 min at 25°C, 77 min at 35°C, 64 min at 45°C, 36 min at 55°C, and 21 min at 65°C. There was no effect of sodium dodceyl sulfate (SDS) (0.1-1.0%) and EDTA (0.1-0.5%) on laccase activity. Sodium azide and 2-mercaptoethanol showed complete inhibition of laccase activity at 0.1% concentration. At lower concentrations of acetone and acetonitrile, laccase was able to maintain its activity. However, the activity was completely inhibited at a concentration of 50% or above of acetone, methanol, 1,4-dioxan, and acetonitrile.     

棉花黄萎病真菌Verticillium dahliae木聚糖酶基因的克隆、表达和酶学性质分析

[目的]从棉花黄萎病真菌Verticillium dahliae中克隆木聚糖酶基因,并在毕赤酵母中进行异源表达,研究酶学性质.[方法]通过多序列比对设计简并引物,扩增出真菌V. dahliae木聚糖酶基因片段,再采用基因组步行PCR技术获得全长木聚糖酶基因序列.经BLAST比对并结合GT-AG原则分析,该基因含有一个大小为63 bp的内含子,利用DpnI介导的缺失方法对含内含子的全长木聚糖酶基因进行剪接,获得该基因的全长cDNA.将克隆到的cDNA在毕赤酵母GS115进行了表达,重组酶经纯化后进行酶学性质分析.[结果]BLAST比对显示,该cDNA推测的氨基酸序列和已知木聚糖酶的最高一致性为72%.测得该酶最适反应温度为45℃,最适反应pH值为6,在pH5-9维持50%以上的活性,对山毛榉材木聚糖具有最好的水解效果.Mg2 和Ca2 对酶有激活作用,分别提高了33.7%和16.6%,EDTA,β-巯基乙醇和NaN3对酶的活性基本没有影响,Tween-80和DMSO使酶活性提高了28.4%和12.8%.[结论]本文从引起棉花黄萎病的真菌V. dahliae中克隆到的木聚糖酶基因是在GenBank上登录的第一个来自棉花黄萎病真菌的木聚糖酶基因序列.本文所用的克隆方法可以高效的从植物病原真菌和白腐真菌克隆只含一个内含子的11家族的新木聚糖酶基因,避免了摸索原始菌株酶表达诱导条件,检测酶的活性等繁琐的操作.酶学性质分析显示该酶在低聚木糖的制备,面包改良上有潜在的应用价值.     

ASSESSMENT OF Cryptococcus albidus FOR BIOPULPING OF EUCALYPTUS

Cryptococcus albidus shows delignification activity in nature. It was used for the biopulping of eucalyptus wood (Eucalyptus grandis) to access its potential for industrial application in the pulp and paper industry. Enzyme analysis on days 15, 30, and 60 showed the presence of laccase and xylanase as key enzymes. The production of endo-glucanase (CMCase) and exo-glucanase (FPase) was very low. Scanning electron microscopy (SEM) showed the surface colonization of wood and loosening of wood fibers in C. albidus-treated samples. Fourier-transformation infrared spectroscopy (FT-IR) indicated the chemical modification of eucalyptus wood. Denaturing gradient gel electrophoresis (DGGE) analysis on days 15, 30, and 60 confirmed the presence of C. albidus throughout the experiments. Cryptococcu albidus was able to suppress the growth of a native population. Further, after 60 days both the control and treated eucalyptus wood chips were given kraft pulping treatment. The kappa number of pulp of control wood was 21 and for treated wood was 17. Kappa number is considered a measure of lignin content in wood; hence the treatment of eucalyptus by C. albidus (biopulping) was effective in reducing its lignin content and can be used for biopulping in the pulp and paper industry.     

Comparison of serological and chemical characteristics of capsular polysaccharides of Cryptococcus neoformans var. neoformans serotype A and Cryptococcus albidus var. albidus

The antigenic formula and chemical structure of capsular polysaccharide (CPS) of Cryptococcus albidus var. albidus (C. albidus) were studied in relation to those of C. neoformans var. neoformans serotype A (C. neoformans A). The results of slide agglutination tests with factor sera and reciprocal adsorption experiments showed that antigenic formula of C. albidus was the same as that of C. neoformans A. The soluble CPSs from the two species were obtained from culture supernatants by precipitation with ethanol followed by purification by chromatography on DEAE-cellulose column. The structural analyses of such CPSs from the two species showed that the antigenic CPS fractions consisted of a backbone of alpha(1-3)-linked D-mannopyranosyl residues with a single branch of beta(1-2)-xylose or glucuronic acid, and mostly with O-acetyl groups, in which side chains and O-acetyl groups were responsible for antigenic specificity. It was found that there was a minor difference between the CPS of C. neoformans A and that of C. albidus; in the former, unsubstituted mannose residues existed in a low frequency, but in the latter none. Moreover, the 1H-nuclear magnetic resonance spectra of partially hydrolyzed acidic fragments of the two CPSs indicated that two xylose side chains were present between glucuronic acid side chains. Taken together, it was suggested that these two species of C. neoformans A and C. albidus are closely related to each other in their CPSs.     

Uptake and utilization of glutamic acid by Cryptococcus albidus

Cryptococcus albidus utilizes glutamate as a sole carbon source. The kinetics of uptake of this amino acid were studied. l-Glutamic acid was taken up by two saturable systems: a high affinity system with a Michaelis constant (K(m)) of 1.15 x 10(-5) M and a V(max) of 0.049 mumol per mg per h and a low affinity system with a K(m) of 2.5 x 10(-3) M and a V(max) of 3.61 mumol per mg per h. Both systems possessed characteristics of active transport which were dependent on temperature and pH and which required metabolic energy. Uptake was inhibited at 37 C but the temperature-sensitive step was reversible. Chemical fractionation of cells with 5% trichloroacetic acid showed that glutamic acid initially entered a soluble pool which decreased after 1 h as the amino acid was incorporated into the protein and nucleic acid fractions of the yeast. Some of the glutamate was completely oxidized and could be recovered as (14)CO(2). Therefore, the amino acid was also used as an energy source.     

beta-Xylosidases in the yeast Cryptococcus albidus var. aerius.

beta-xylosidase activity has been detected in cell-free extracts and in culture fluids when Cryptococcus albidus var. aerius was grown on glucose as the sole carbon source. The enzyme appears to be constitutive. Mild acid treatment of whole cells suggested that the total activity is located in the periplasmic space and some experiments indicated that it is partially associated with the cell walls. DEAE-Sephadex A50 chromatography has shown that there are two different forms of beta-xylosidase in the cell-free extracts, but only one form is present in the supernatants of culture.     

Molecular cloning of a xylanase gene from Bacteroides succinogenes and its expression in Escherichia coli

A gene coding for xylanase synthesis in Bacteroides succinogenes was isolated by cloning, with Escherichia coli HB101 as the host. After partial digestion of B. succinogenes DNA with Sau3A, fragments were ligated into the BamHI site of pBR322 and transformed into E. coli HB101. Of 14,000 colonies screened, 4 produced clear halos on Remazol brilliant blue-xylan agar. Plasmids from two stable clones recovered exhibited identical restriction enzyme patterns, with the same 9.4-kilobase-pair (kbp) insert. The plasmid was designated pBX1. After subcloning of restriction enzyme fragments, a 3-kbp fragment was found to code for xylanase activity in either orientation when inserted into pUC18 and pUC19. The original clone possessed approximately 10-fold higher xylanase activity than did clones harboring the 3-kbp insert in pUC18, pUC19, or pBR322. The enzyme was partially secreted into the periplasmic space of E. coli. The periplasmic enzyme of the BX1 clone had 2% of the activity on carboxymethyl cellulose and less than 0.2% of the activity on p-nitrophenyl xyloside and a range of other substrates that it exhibited on xylan. The xylanase gene was not subject to catabolite repression by glucose or induction by either xylan or xylose. The xylanase activity migrated as a single broad band on nondenaturing polyacrylamide gels. The Km of the pBX1-encoded enzyme was 0.22% (wt/vol) of xylan, which was similar to that for the xylanase activity in an extracellular enzyme preparation from B. succinogenes. Based on these data it appears that the xylanase gene expressed in E. coli is fully functional and codes for an enzyme with properties similar to the B. succinogenes enzyme(s).     

Novel inducers of the xylan-degrading enzyme system of Cryptococcus albidus

A series of compounds structurally related to xylan and 1,4-beta-xylobiose were tested as inducers of the xylan-degrading enzyme system of Cryptococcus albidus. Washed, glucose-grown cells were incubated with alpha- and beta-linked xylobioses, 4-O-beta-D-xylopyranosyl-L-arabinopyranose, 3-O-beta-D-xylopyranosyl-xylobiose, 6-O-beta-D-xylopyranosyl-cellobiose, cellobiose, and methyl beta-D-xylopyranoside. All alpha-xylobioses and cellobiose were inactive as inducers of the xylan-degrading enzyme system. Other compounds served as inducers of varying efficiency, depending on their concentration in the induction medium and the time of incubation of cells. The most rapid response of the cells, i.e., the shortest induction period of beta-xyloside permease, beta-xylosidase (EC 3.2.1.37), and beta-xylanase (EC 3.2.1.8), was observed with 1,4-beta-xylobiose, which was the most efficient inducer at low concentrations (0.1 to 0.2 mM). At higher concentrations (2 to 10 mM) and after long incubations, the highest enzyme yields were obtained with 1,2-beta-xylobiose. The results represent a new example of efficient induction of polysaccharide-degrading enzyme systems by positional isomers of dimers derived from the polysaccharide.     

Influence of cultivation conditions on lipid production by Cryptococcus albidus

Summary Cryptococcus albidus var. albidus CBS 4517 was able to accumulate lipid under nitrogen-limited as well as excess-nitrogen conditions. The highest lipid-producting capacity was, however, observed in nitrogen-limited cultivations. In nitrogen-limited batch cultures, a lipid content of 34% (w/w) in biomass and a maximum specific lipid productivity of 37 mg lipid/g lipid-free biomass·h, was determined. The yield of lipid from glucose was about 0.15 g/g in nitrogen-limited and 0.11 g/g in excess-nitrogen cultures.In a nitrogen-limited fed-batch culture, 12.4 g/l lipid was produced at 90 h of cultivation and the cells contained 46.3% (w/w) lipid.Higher lipid yield and cellular lipid content were observed when inorganic nitrogen sources were used compared with organic. The choice of carbon source was seen to influence growth as well as lipid production and the highest yields of lipid were obtained when glucose, maltose or mannitol was used.A cultivation temperature of 20°C provided the highest lipid productivity compared to 25°C and 30°C. Addition of citrate to the growth medium was seen to have a stimulating effect on the specific lipid productivity.