Xylanolytic Activity of Clostridium acetobutylicum

Of 20 strains of Clostridium spp. screened, 17 hydrolyzed larch wood xylan. Two strains of Clostridium acetobutylicum, NRRL B527 and ATCC 824, hydrolyzed xylan but failed to grow on solid media with larch xylan as the sole carbon source; however, strain ATCC 824 was subsequently found to grow on xylan under specified conditions in a chemostat. These two strains possessed cellulolytic activity and were therefore selected for further studies. In cellobiose-limited continuous cultures, strain NRRL B527 produced maximum xylanase activity at pH 5.2. Strain ATCC 824 produced higher xylanase, xylopyranosidase, and arabinofuranosidase activities in chemostat culture with xylose than with any other soluble carbon source as the limiting nutrient. The activities of these enzymes were markedly reduced when the cells were grown in the presence of excess glucose. The xylanase showed maximum activity at pH 5.8 to 6.0 and 65°C. The enzyme was stable on the alkaline side of pH 5.2 but was unstable below this pH value. The extracellular xylanolytic activity from strain ATCC 824 hydrolyzed 12% of the larch wood xylan during a 24-h incubation period, yielding xylose, xylobiose, and xylotriose as the major hydrolysis products. Strain ATCC 824, after being induced to grow in batch culture in xylan medium supplemented with a low concentration of xylose, failed to grow reproducibly in unsupplemented xylan medium. A mutant obtained by mutagenesis with ethyl methanesulfonate was able to grow reproducibly in batch culture on xylan. Both the parent strain and the mutant were able to grow with xylan as the sole source of carbohydrate in continuous culture with the pH maintained at either 5.2 or 6.0. Under these conditions, the cells utilized approximately 50% of the xylan.     

Insertion of Tn916 into Bacillus pumilus plasmid pMGD302 and evidence for plasmid transfer by conjugation.

As part of an effort to develop systems for genetic analysis of strains of Bacillus pumilus which are being used as a microbial hay preservative, we introduced the conjugative Enterococcus faecalis transposon Tn916 into B. pumilus ATCC 1 and two naturally occurring hay isolates of B. pumilus. B. pumilus transconjugants resistant to tetracycline were detected at a frequency of approximately 6.5 x 10(-7) per recipient after filter mating with E. faecalis CG110. Southern hybridization confirmed the insertion of Tn916 into several different sites in the B. pumilus chromosome. Transfer of Tn916 also was observed between strains of B. pumilus in filter matings, and one donor strain transferred tetracycline resistance to recipients in broth matings at high frequency (up to 3.4 x 10(-5) per recipient). Transfer from this donor strain in broth matings was DNase-resistant and was not mediated by culture filtrates. Transconjugants from these broth matings contained derivatives of a cryptic plasmid (pMGD302, approx 60 kb) from the donor strain with Tn916 inserted at various sites. The plasmids containing Tn916 insertions transferred to a B. pumilus recipient strain at frequencies of approx 5 x 10(-6) per recipient. This evidence suggests that pMGD302 can transfer by a process resembling conjugation between strains of B. pumilus.     

Heterologous expression, purification, crystallization, X-ray analysis and phasing of the acetyl xylan esterase from Bacillus pumilus

Bacillus pumilus PS213 acetyl xylan esterase (AXE) acts as an accessory enzyme in the plant cell wall hemicellulose biodegradation pathway. It belongs to the carbohydrate esterase family 7 and hydrolyses the ester linkages of the acetyl groups in position 2 and/or 3 of the xylose moieties of the acetylated xylan fragments from hardwood. The enzyme displays activity towards a broad range of acetylated compounds including the antibiotic cephalosporin-C. In this study we report the heterologous expression, purification, physicochemical characterization and crystallization of the recombinant B. pumilus AXE. Remarkable improvement of the crystal quality was achieved by setting up crystallization conditions, at first established using the hanging drop vapor diffusion method, in a micro-batch experiment. Rod-like diffraction quality crystals were obtained using 10% PEG 6000, 0.1 M MES pH 6.0 and a wide range of LiCl concentrations (0.2-1.0 M) as precipitant agent. Two different crystal forms, both belonging to space group P2(1), were characterized, diffracting X-rays to 2.5 and 1.9 angstrom resolution. Successful molecular replacement showed 12 molecules in the asymmetric unit of either crystal forms that are arranged as two doughnut-like hexamers, each one encompassing a local 32 symmetry. A catalytic inactive mutant Ser181Ala of B. pumilus AXE was also engineered, expressed, purified and crystallized for functional and structural studies.     

Fermentation of xylans byButyrivibrio fibrisolvens andThermoanaerobacter strain B6A: Utilization of uronic acids and xylanolytic activites

Butyrivibrio fibrisolvens andThermoanaerobacter strain B6A are xylanolytic anaerobes isolated from rumen and geothermal sources respectively. Both organisms fermented larchwood xylan, oatspelt xylan, or 4-O-methylglucuronoaxylan, extensively utilizing both the monosaccharide (glucose, xylose, arabinose) and uronic acid components. Citrus pectin or polygalacturonate also supported growth of both organisms, but onlyB. fibrisolvens was able to use the monomers glucuronate or galacturonate as the sole added energy source. Strain B6A was able to utilize these two uronic acids when glucose, xylose, arabinose, or oatspelt xylan was also provided as a second energy source. Xylanase, xylosidase, and arabinofuranosidase activities were found to be produced by strain B6A, but the levels and distribution (cell bound vs. culture fluid) were influenced by growth substrate. The highest levels were observed with growth on xylans when xylanase activity was mainly extracellular, but the other two activities were mostly cell bound. Apparently,Thermoanaerobacter strain B6A, but notB. fibrisolvens, requires xylan degradation products generated by these three activities to provide energy sources to utilize the uronic acid components on xylans.The mention of firm names or trade products does not imply that they are endorsed or recommended by the U.S. Department of Agriculture over other firms or similar products not mentioned.     

Production of alkaline xylanase by a newly isolated alkaliphilic Bacillus sp. strain 41M-1

Alkaliphilic Bacillus sp. strain 41M-1, isolated from soil, produced xylan-degrading enzymes extracellularly. Optimum pH for the crude xylanase preparation was about pH 9, confirming the production of novel alkaline xylanase(s) by the isolate. Xylanases were induced by xylan, but were not produced in the presence of xylose, arabinose or glucose. Xylanase productivity was influenced by culture pH, and production at pH 10.5 was higher than that at pH 8.0. Zymogram analysis of the culture supernatant showed the alkaline xylanase with a molecular mass of 36 kDa.     

Xylanase production by Aspergillus awamori. Development of a medium and optimization of the fermentation parameters for the production of extracellular xylanase and beta-xylosidase while maintaining low protease production

A growth medium was developed for maximal production in batch culture of extracellular xylanase and beta-xylosidase by Aspergillus awamori CMI 142717 and a mutant (AANTG 43) derived from the wild-type strain. The optimum pH for the production of xylanase and beta-xylosidase was 4.0. The best temperature of xylanase production was 30 degrees C; 35 degrees C was optimal for beta-xylosidase. Protease production was never completely suppressed under any of the conditions tested. However, protease titre was 3.5-fold less than the control in medium in which proteose peptone and yeast extract were omitted: the level of xylanase was not affected (8.6 U mL(-1)) but beta-xylosidase titre was increased 4.7-fold to 1.5 U mL(-1). When corn steep liquor was used as the sole nitrogen source, xylanse and beta-xylosidase titres were further increased by 1.5- and 1.9-fold, respectively. Of the carbon sources investigated, ball-milled oat straw or oat spelt xylan produced the highest titres of xylanse and beta-xylosidase. None of the soluble carbon sources investigated produced the high titres of xylanase or beta-xylosidase induced by either oat straw for xylanse and beta-xylosidase was 2% and the optimum spore inoculum was between 10(6) and 10(7) spores/mL(-1) final concentration. The level of xylanse activity obtained in the culture filtrates of the mutant was a remarkable 820 U mL(-1) when the reducing sugar released was measured by the dinitrosalicylic acid method. This enzyme titre would appear to be the highest reported so far. The xylanases system contained the correct balance of enzymes to effect extensive hydrolysis of oat spelt xylan. The protease titre was very low.     

Bacillus pumilus WL-11木聚糖酶A的纯化、鉴定及其底物降解方式

对一株BacilluspumilusWL_11木聚糖酶的纯化、酶学性质及其底物降解模式进行了研究。经过硫酸铵盐析、CM_Sephadex及SephadexG_75层析分离纯化,获得一种纯化的WL_11木聚糖酶A ,其分子量为2 6 0kD ,pI值9 5 ,以燕麦木聚糖为底物时的表观Km 值为16 6mg mL ,Vmax值为12 6 3μmol (min·mg)。木聚糖酶A的pH稳定范围为6 0至10 4 ,最适作用pH范围则在7 2至8 0之间,是耐碱性木聚糖酶;最适作用温度为4 5℃～5 5℃,在37℃、4 5℃以下时该酶热稳定性均较好;5 0℃保温时,该酶活力的半衰期大约为2h ,在超过5 0℃的环境下,该酶的热稳定较差,5 5℃和6 0℃时的酶活半衰期分别为35min和15min。WL_11木聚糖酶A对来源于燕麦、桦木和榉木的可溶性木聚糖的酶解结果发现,木聚糖酶A对几种不同来源的木聚糖的降解过程并不一致。采用HPLC法分析上述底物的降解产物生成过程发现木聚糖酶A为内切型木聚糖酶,不同底物的降解产物中都无单糖的积累,且三糖的积累量都较高;与禾本科的燕麦木聚糖底物降解不同的是,木聚糖酶A对硬木木聚糖降解形成的五糖的继续降解能力较强。采用TLC法分析了WL_11粗木聚糖酶降解燕麦木聚糖的过程,结果表明燕麦木聚糖能够被WL_11粗木聚糖酶降解生成系列木寡糖,未检出木糖,这说明WL_11主要合成内切型木聚     

Biofilm-specific cross-species induction of antimicrobial compounds in bacilli

An air-membrane surface (AMS) bioreactor was designed to allow bacteria to grow attached to a surface as a biofilm in contact with air. When Bacillus licheniformis strain EI-34-6, isolated from the surface of a marine alga, was grown in this reactor, cells produced antimicrobial compounds which they did not produce when they were grown in shake flask cultures. An unidentified red pigment was also produced by surface-grown cells but not by planktonically grown cells. Glycerol and ferric iron were important for the production of antimicrobial compounds and the red pigment. Release of these secondary metabolites was not due to the onset of sporulation. Cell-free spent medium recovered from beneath the reactor membrane could induce production of antimicrobial compounds and red pigment in shake flask cultures. Neither glycerol nor ferric iron was required for production of these inducer compounds. Spent medium from beneath the membrane of an AMS bioreactor culture of Bacillus subtilis strain DSM10(T) and Bacillus pumilus strain EI-25-8 could also induce production of antimicrobial compounds and a red pigment in B. licheniformis isolate EI-34-6 grown in shake flask cultures; however, the corresponding spent medium from shake flask cultures of DSM10(T) and EI-25-8 could not. These results suggest that there is a biofilm-specific cross-species signaling system which can induce planktonically grown cells to behave as if they were in a biofilm by regulating the expression of pigments and antimicrobial compounds.     

Structure and expression of genes coding for xylan-degrading enzymes of Bacillus pumilus

The complete nucleotide sequence of the beta-xylosidase gene (xynB) of Bacillus pumilus IPO and its flanking regions was established. A 1617-bp open reading frame for beta-xylosidase, a homodimer enzyme, was observed. The amino acid sequence of the N-terminal region and the molecular mass 62607 Da) of the beta-xylosidase subunit, deduced from the DNA sequence, agreed with the result obtained with the purified enzyme. The Shine-Dalgarno sequence was found 8 bp upstream of the initiation codon, ATG. The xylanase gene (xynA) of the same strain was 4.6 kbp downstream of the 3' end of xynB, and its DNA sequence was reported in our previous paper [Fukusaki, E., Panbangred, W., Shinmyo, A. & Okada, H. (1984) FEBS Lett. 171, 197-201]. The results of the Northern hybridization suggested that the mRNA of xynA and xynB were produced separately. The 5' and 3' ends of the xynA and xynB gene were mapped with nuclease S1. The '-10' regions for promoter sequences of both genes were similar to the consensus sequence for B. subtilis RNA polymerases, the '-35' regions were different from all the known promoters for B. subtilis RNA polymerases.     

Purification and characterization of an extracellular alkaline serine protease with dehairing function from Bacillus pumilus

An extracellular alkaline serine protease (called DHAP), produced by a Bacillus pumilus strain, demonstrates significant dehairing function. This protease is purified by hydrophobic interaction chromatography, ion exchange, and gel filtration. DHAP had a pI of 9.0 and a molecular weight of approximately 32,000 Dalton. It shows maximal activity at pH 10 and with a temperature of 55 degrees C; the enzyme activity can be completely inhibited by phenylmethylsulfonyl fluoride (PMSF) and diisopropyl fluorophosphates (DFP). The first 20 amino acid residues of the purified DHAP have been determined with a sequence of AQTVPYGIPQIKAPAVHAQG. Alignment of this sequence with other alkaline protease demonstrates its high homology with protease from another B. pumilus strain.     

Purification and mode of action of an alkali-resistant endo-1, 4-beta-glucanase from Bacillus pumilus

Alkaline endo-1,4-beta-d-glucanase was secreted by Bacillus pumilus grown in submerged culture on a combination of oat spelt xylan and corn starch as carbon sources. The enzyme was purified to homogeneity by Sephacryl S-200 and Q-Sepharose column chromatography. The protein corresponded to molecular mass and pI values of 67 kDa and 3.7, respectively. The enzyme was optimally active at pH 7.0-8.0 and 60 degrees C and retained 50% of its optimum activity at pH 12. The most notable characteristic of the endoglucanase was its high stability up to pH 12 for 20 h at 30 degrees C. The enzyme hydrolyzed carboxymethylcellulose (CMC) and cello-oligosaccharides but was inactive on cellobiose, cellotriose, Avicel, xylan, 4-nitrophenyl-beta-d-glucoside, 4-nitrophenyl-beta-d-cellobioside, and 4-nitrophenyl-beta-d-xyloside. Analysis of reaction mixtures by HPLC revealed that the enzyme produced almost exclusively cellotriose when acted on CMC and appeared to hydrolyze cello-oligosaccharides by successively releasing cellotriose. The use of 4-methylumbelliferyl cello-oligosaccharides and the determination of bond cleavage frequency revealed that the enzyme preferentially hydrolyzed the third glycosidic bond adjacent to the glycon. The enzyme mediated a decrease in the viscosity of CMC associated with a release of only small amounts of reducing sugar. The enzyme activity was not inhibited by metal ions, surfactants, and chelating agents used as components of laundry detergents.     

Cross-Species Induction of Antimicrobial Compounds, Biosurfactants and Quorum-Sensing Inhibitors in Tropical Marine Epibiotic Bacteria by Pathogens and Biofouling Microorganisms

Enhancement or induction of antimicrobial, biosurfactant, and quorum-sensing inhibition property in marine bacteria due to cross-species and cross-genera interactions was investigated. Four marine epibiotic bacteria (Bacillus sp. S3, B. pumilus S8, B. licheniformis D1, and Serratia marcescens V1) displaying antimicrobial activity against pathogenic or biofouling fungi (Candida albicans CA and Yarrowia lipolytica YL), and bacteria (Pseudomonas aeruginosa PA and Bacillus pumilus BP) were chosen for this study. The marine epibiotic bacteria when co-cultivated with the aforementioned fungi or bacteria showed induction or enhancement in antimicrobial activity, biosurfactant production, and quorum-sensing inhibition. Antifungal activity against Y. lipolytica YL was induced by co-cultivation of the pathogens or biofouling strains with the marine Bacillus sp. S3, B. pumilus S8, or B. licheniformis D1. Antibacterial activity against Ps. aeruginosa PA or B. pumilus BP was enhanced in most of the marine isolates after co-cultivation. Biosurfactant activity was significantly increased when cells of B. pumilus BP were co-cultivated with S. marcescens V1, B. pumilus S8, or B. licheniformis D1. Pigment reduction in the quorum-sensing inhibition indicator strain Chromobacterium violaceum 12472 was evident when the marine strain of Bacillus sp. S3 was grown in the presence of the inducer strain Ps. aeruginosa PA, suggesting quorum-sensing inhibition. The study has important ecological and biotechnological implications in terms of microbial competition in natural environments and enhancement of secondary metabolite production.     

Production, Partial Purification and Characterization of Extracelluar Xylanase from Chaetomium globosum

Culture conditions for efficient production of extracellular xylanase by fungus, Chaetomium globosum isolate Cg2, have been standardized. Further, xylanase has been partially purified and characterized. Xylanase activity was maximum after 9 days of incubation when amended in medium with 1.5 % xylan as carbon source and 0.6% NH₄H₂PO₄ as nitrogen source. Partial purification of the xylanase was accomplished by ammonium sulphate precipitation, followed by further purification by anion exchange chromatography on DEAE-Sephadex A-50 column. The partially purified enzyme was electrophoresed on SDS-PAGE and a single band produced corresponded to molecular weight, 32 kD. The optimum temperature and pH for maximum activity of purified xylanase were 30°C and 5.5, respectively. Both the purified xylanase and culture filtrate have shown the antifungal activity against Bipolaris sorokiniana, a causal organism of spot blotch of wheat. Purified xylanase at 100 μg ml^?1 concentration caused 100 per cent inhibition of conidia germination of B. sorokiniana, whereas the culture filtrate was able to inhibit germination up to 67.5 per cent.     

Isolation of two beta-xylosidase genes of Bacillus pumilus and comparison of their gene products

The chromosomal DNA fragments of Bacillus pumilus IPO, a potent xylan-hydrolyzing bacterium, were ligated to a vector plasmid, pBR322, and used to transform Escherichia coli C600 cells. Two hybrid plasmids, pOXD28 and pOXN29, were found to enable the transformants to produce beta-xylosidase. The former was found to contain a 2.6-MDa Bg/II fragment and the latter, a 7.7-MDa PstI fragment, both coding beta-xylosidase, but xylanase is coded only on the latter hybrid plasmid. The DNAs inserted in both plasmids originated from the B. pumilus chromosome, but from different regions, as shown by Southern hybridization and the analysis of restriction fragments. beta-Xylosidases I and II, coded on pOXN29 and pOXD28 respectively, were purified to homogeneous preparations and compared. Both were dimer enzymes consisting of 65000-70000-Da subunits. Specific activity and the Km value of beta-xylosidase I to p-nitrophenyl beta-D-xyloside as substrate were respectively 100 and 1/40 times those of beta-xylosidase II. The mobilities of beta-xylosidases I and II on polyacrylamide gel electrophoresis were also different. beta-Xylosidase I, the gene of which is located near the xylanase gene on pOXN29, can convert xylooligosaccharides to xylose, but beta-xylosidase II had little activity on xylobiose. These results suggest that beta-xylosidase I is the main enzyme for xylan hydrolysis in B. pumilus.     

Purification and some properties of an alkaline xylanase from alkaliphilic Bacillus sp. strain 41M-1.

An alkaliphilic Bacillus sp. strain, 41M-1, isolated from soil produced multiple xylanases extracellularly. One of these xylanases was purified to homogeneity by ammonium sulfate fractionation and anion-exchange chromatography. The moleculr mass of this enzyme (xylanase J) was 36 kDa, and the isoelectric point was pH 5.3. Xylanase J was most active at pH 9.0. The optimum temperature for the activity at pH 9.0 was around 50 degrees C. The enzyme was stable up to 55 degrees C at pH 9.0 for 30 min. Xylanase J was completely inhibited by the Hg2+ion and N-bromosuccinimide. The predominant products of xylan hydrolysate were xylobiose, xylotriose, and higher oligosaccharides, indicating that the enzyme was an endoxylanase. The apparent Km and Vmax values on xylan were 3.3 mg/ml and 1,100 micromol-1 mg-1, respectively. Xylanase J showed high sequence homology with the xylanases from Bacillus pumilus and Clostridium acetobutylicum in the N-terminal region. Xylanase J acted on neither crystalline cellulose nor carboxymethyl cellulose, indicating a possible application of the enzyme in biobleaching processes.     

Toxic Bacillus pumilus from indoor air, recycled paper pulp, Norway spruce, food poisoning outbreaks and clinical samples

Forty-four B. pumilus isolates of food poisoning, clinical, environmental and industrial origins were investigated for toxin production using the boar spermatozoan motility assay, previously shown to be a sensitive method for detecting non-protein toxins from B. cereus and B. licheniformis. The three toxic isolates originated from live tree, indoor air and recycled paper pulp and were more toxic than the previously described food poisoning isolates of B. licheniformis, whereas the B. pumilus food poisoning and clinical isolates were lower in toxicity. The type strain also produced inhibitory substances. The toxic substances were insensitive to heat (100 degrees C, 20 min), to pH 2 or pH 10 and to digestion with pronase. The substances were readily soluble in methanol and chloroform, but less soluble in toluene. Exposure of boar spermatozoa to 1-10 microg ml(-1) (EC50) of methanol soluble substance from the four strains disrupted the plasma membrane permeability barrier, induced abnormalities in the postacrosomal sheath, collapsed the mitochondrial and suppressed cytoplasmic NAD reduction. No change was observed in human peripheral blood lymphocytes exposed to concentrations of B. pumilus extract that affected spermatozoa. The toxin producing isolates were 99.4 to 99.6% similar in 16SrDNA (500 bp) to the type strain and could not be distinguished from the 41 non-toxic isolates by biochemical properties or whole cell fatty acid composition.     

Purification and characterization of a thermostable alkaline protease from alkalophilic Bacillus pumilus

AIMS: An investigation was carried out on the purification and characterization of an alkaline protease from Bacillus pumilus MK6-5. METHODS AND RESULTS: An alkalophilic Bacillus pumilus MK6-5 was grown in a laboratory fermenter containing 1% reverse osmosis concentrated cheese whey powder, 0.25% corn steep liquor, 1% glucose, 0.5% tryptone, 1% sodium citrate, 0.02% MgSO4.7H2O and 0.65% Na2CO3 at 35 degrees C and pH 9.6, agitation at 250 rev min(-1) and aeration of 1 vvm for 60 h. When the enzyme was purified using ammonium sulphate precipitation, ion exchange and gel filtration chromatographies, a 26.2% recovery of enzyme with 36.6-fold purification was recorded. The purified protease was found to be homogenous by SDS-PAGE with molecular mass estimate of 28 kDa. The enzyme was optimally active at pH 11.5 and temperature of 55-60 degrees C. The Km and kcat values observed with synthetic substrates at 37 degrees C and pH 8.0 were 1.1 mmol l(-1) and 624 s(-1) for Glu-Gly-Ala-Phe-pNA and 3.7 mmol l(-1) and 826 s(-1) for Glu-Ala-Ala-Ala-pNA, respectively. The kinetic data revealed that small aliphatic and aromatic residues were the preferred residues at the P1 position. Inhibition profile exhibited by PMSF suggested the B. pumilus protease to be an alkaline serine protease. CONCLUSIONS: Bacillus pumilus MK6-5 produced a calcium-dependent, thermostable alkaline serine protease. SIGNIFICANCE AND IMPACT OF THE STUDY: The thermostable alkaline protease from Bacillus pumilus MK6-5 will be extremely useful in ultrafiltration membrane cleaning due to its ability to work in broad pH and temperature ranges, and tolerance to detergents, unlike the mesophilic proteases which face these limitations.     

2,3-Butanediol production from xylose and other hemicellulosic components by Bacillus polymyxa

In the xylose fermentation of Bacillus polymyxa strain 9035, best 2,3-butanediol yields were obtained with 1.0 % yeast extract, 4–6 % xylose, shaking at 125 rpm and incubation at 30°C. Under these conditions, mannose, galactose, L-arabinose, cellobiose, starch and glucose were readily metabolized and yielded significant amounts of diol. Diol production from xylan was also demonstrated. In addition, the screening of a number of B. polymyxa strains on xylose revealed that only strains 9031-1 and 9035 used xylose extensively and produced significant amounts of diol. The latter strain proved best under scaled-up conditions.NRCC #22775     

Cellulolytic properties of an extremely thermophilic anaerobe

Summary An extremely thermophilic anaerobe was isolated from a New Zealand hot spring by incubating bacterial mat strands in a medium containing xylan. The Gramreaction-negative organism that was subsequently purified had a temperature optimum of 70° C and a pH optimum of 7.0. The isolate, designated strain H173, grew on a restricted range of carbon sources. In batch culture H173 could degrade Avicel completely when supplied at 5 or 10 g l^–1. There was an initial growth phase, during which a cellulase complex was produced and carbohydrates fermented to form acetic and lactic acids, followed by a phase where cells were not metabolising but the cellulase complex actively converted cellulose to glucose. When co-cultured with strain Rt8.B1, an ethanologenic extreme thermophile, glucose was fermented to ethanol and acetate, and no reducing sugars accumulated in the medium. In pH controlled batch culture H173 produced an increased amount of lactate and acetate but there was again a phase when reducing sugars accumulated in the medium, and these were converted to ethanol by co-culture with Rt8.B1.     

Screening and mutagenesis of a novel Bacillus pumilus strain producing alkaline protease for dehairing

AIMS: To characterize and optimize a novel Bacillus pumilus strain isolated from biological waste which produces protease with excellent dehairing effect. This newly isolated strain could be utilized in the industrial leather dehairing process. METHODS AND RESULTS: Bacterial strains secreting proteases were screened from biological wastes. Positive clones were further characterized by analysing their efficacy in dehairing and effects on collagen integrity. Among 171 colonies tested, a strain BA06, identified as B. pumilus, was picked owing to its efficient dehairing capabilities with minimal impact on collagen. By combined mutagenesis using UV, N-methyl-N'-nitro-N-nitrosdguanidine and Co(60)-gamma-rays, this strain was further improved with regard to its alkaline protease production. The alkaline protease activity of the mutant strain SCU11was greatly improved up to 6000 U ml(-1), in comparison with its parent strain BA06 of 1200 U ml(-1). CONCLUSIONS: By using screening and mutagenesis methods, we have successfully created a B. pumilus strain that can produce high levels of alkaline proteases that are able to efficiently remove hair from skin with minimal damage on the collagen. SIGNIFICANCE AND IMPACT OF THE STUDY: This strain could be used in commercial alkaline protease production for leather dehairing.