Feather keratin hydrolysis by a Vibrio sp. strain kr2

The aim of the study was to characterize feather-degrading bacteria isolated from poultry industry waste. A Vibrio sp. strain kr2 producing a high keratinolytic activity when cultured on native feather-containing broth was isolated. The bacterium grew with an optimum at pH 6.0 and 30 degrees C, where maximum featherdegrading activity was also observed. Keratinase production was similar at both 25 and 30 degrees C, while the maximum concentration of soluble protein was reached at 30 degrees C. Reduction of disulphide bridges was also observed, increasing with cultivation time. The keratinase of strain kr2 was active on azokeratin, azocasein, benzoyl-arginine-p-nitroanilide and Ala-Ala-p-nitroanilide as substrates. The amino acid composition of the feather hydrolysate was determined, presenting similarities with that reported for feather lysate, feather meal and raw feathers. A novel feather-degrading bacterium was isolated and characterized, showing high keratinolytic activity. Complete feather degradation was achieved during cultivation. Strain kr2 shows potential for use for biotechnological processes involving keratin hydrolysis.     

Nutritional regulation of keratinolytic activity in Bacillus pumilis

Bacillus pumilis F3-4 utilized feather as a sole source of carbon, nitrogen and sulfur. Supplementation of the feather medium with glucose or MgSO₄ · 7H₂O increased keratinolytic protease production (14.6–16.7 U/mg). The synthesis of keratinolytic protease was repressed by an exogenous nitrogen source. Keratinolytic protease was produced in the absence of feather (9.4 U/mg). Feather degradation resulted in sulfhydryl group formation (0.8–2.6 μM). B. pumilis F3-4 effectively degraded chicken feather (75%), duck feather (81%) and feather meal (97%), whereas human nails, human hair and sheep wool under went less degradation (9–15%). An erratum to this article can be found at     

Production of feather protein hydrolysate by keratinolytic bacterium Vibrio sp. kr2

A feather protein hydrolysate was produced using the keratinolytic bacterium Vibrio sp. strain kr2. Complete feather degradation was observed in medium containing up to 60 g L(-1) raw feathers. Cultivation on 40, 60 or 80 g L(-1) feathers for five days resulted in similar amounts of soluble protein, reaching maximum values around 2.5 g L(-1). Maximum yields of soluble protein were achieved at 30 degrees C and initial pH ranging from 6.0 to 8.0. Strain kr2 was effective in producing keratin hydrolysate from chicken feathers. Bacterial feather hydrolysate has the potential for utilization as an ingredient in animal feed or as organic fertilizer, thereby reducing the environmental impact of feather waste from the poultry industry.     

Fermentation characteristics and secretion of proteases of a new keratinolytic strain of Bacillus licheniformis

A keratin-degrading strain of Bacillus licheniformis (K-508) was isolated from partially-degraded feathers and characterised. It had high chicken feather-degrading activity when cultured in feather-containing broth, with a growth optimum at pH 7 and 47 °C. Broth filtrates were active towards N-Bz-Phe-Val-Arg-p-nitroanilide and N-Suc-Ala-Ala-Pro-Phe-p-nitroanilide, as chromogenic protease substrates at pH 8. Strain K-508 displays keratinolytic activity against native feather keratin (without any pretreatment) in the presence of SH-reducing compounds. It constitutively secreted both trypsin-like and chymotrypsin-like proteases.     

Biosynthesis of protease by Pseudomonas aeruginosa MN7 grown on fish substrate

Fish powders and fish protein hydrolysates (FPH) from sardinella (Sardinella aurita) were prepared and tested as growth media for alkaline protease production by Pseudomonas aeruginosa MN7. Cultivated in fish substrate as carbon source, the strain exhibited a slightly greater protease production (about 7800 U ml^–1) than that obtained with commercial peptones (about 7222 U ml^–1). Furthermore, P. aeruginosa MN7 produced the same amount of protease when cultivated in medium containing only fish substrate or that containing all ingredients, indicating that the strain can obtain its carbon and nitrogen requirements directly from whole fish proteins. Moreover, it was found that extensive hydrolysis of fish proteins did not increase protease formation. Protease production in media containing only FPH prepared by Alcalase was about 70% of those obtained with MN7 protease digest of fish protein or with meat-fish powder. These results indicate that sardinella substrates are an excellent carbon and nitrogen source for the growth of P. aeruginosa MN7 and the production of protease.     

Characterization of a new keratinolytic bacterium that completely degrades native feather keratin

A novel feather-degrading microorganism was isolated from poultry waste, producing a high keratinolytic activity when cultured on broth containing native feather. Complete feather degradation was achieved during cultivation. The bacterium presents potential use for biotechnological processes involving keratin hydrolysis. Chryseobacterium sp. strain kr6 was identified based on morphological and biochemical tests and 16S rRNA sequencing. The bacterium presented optimum growth at pH 8.0 and 30 degrees C; under these conditions, maximum feather-degrading activity was also achieved. Maximum keratinase production was reached at 25 degrees C, while concentration of soluble protein was similar at both 25 and 30 degrees C. Reduction of disulfide bridges was also observed, increasing with cultivation time. The keratinase of strain kr6 was active on azokeratin and azocasein as substrates, and presented optimum pH and temperature of 7.5 and 55 degrees C, respectively. The keratinase activity was inhibited by 1,10-phenanthroline, EDTA, Hg(2+), and Cu(2+) and stimulated by Ca(2+).     

Rational development of a simple synthetic medium for the sustained growth of Lactococcus lactis

The growth of two strains of Lactococcus lactis subsp. lactis from vegetable (NCDO 2118) and dairy origin (IL 1403) were compared on various culture media. Both strains grew more rapidly on a complex organic medium than on a defined synthetic medium. The best growth was obtained under nitrogen gas phase. The single omission technique was applied to each component of a non-optimized synthetic medium in order to determine the true nutritional requirements. Requirements for macro-elements, oligo-elements, bases and vitamins were identical for the two strains. As expected, the dairy strain (IL 1403) was seen to be auxotrophic for some amino acids, whereas the vegetable strain (NCDO 2118) was seen to be prototrophic for all amino acids when using the single omission technique. Growth was then characterized on progressively simplified media and the composition of the absolute minimal media for the growth of both strains was defined. Sustained growth of the vegetable strain was only possible in minimal media supplemented with six amino acids (Glu, Met, Ile, Leu, Val, Ser), indicating that the definition of prototrophy/auxotrophy is partly dependent upon the medium composition. The dairy strain showed a requirement for Arg, His and Thr in addition to the six amino acids necessary for growth of the vegetable strain. The removal of ammonium salt from the medium did not affect the growth, illustrating that the amino acids may satisfy the totality of the nitrogen requirement for biomass synthesis.     

Optimal protease production condition for Prevotella ruminicola 23 and characterization of its extracellular crude protease

In this study, Prevotella ruminicola 23 (ATCC 19189), a ruminal proteolytic bacterium, was used as protease producer to examine the optimal condition for protease production. The best carbon and nitrogen sources for the maximum growth were glucose with peptone. Both sucrose and glucose could stimulate high protease production. Casein and peptone are better nitrogen sources for protease production than other choice in this study. The best enzyme production condition was 18-20 h incubation which was at late log phase in the broth of 5% glucose or sucrose as carbon source with 0.1% ammonium chloride and 0.2% peptone as nitrogen sources. Most of the protease activity was secreted into broth (65%) and on cell surface (18%). The optimal temperature and pH for protease reaction were 40 degrees C and pH 6.8, respectively. After incubation for 6h, the crude extract maintained 50% of original protease activity at 30 and 50 degrees C, and protease activity was stable between pH 6 and 8. The protease inhibitor test showed that serine, aspartic acid and metallo-protease inhibitors could cause inhibition of proteolysis. Protein feedstuff degradation experiments suggested that protease in crude extract had higher degradation ability on fish meal, whey, and feather meal (2.39, 2.60 and 1.76 micromol aminoacid/mg enzyme/h) in comparison to soybean meal and blood meal (1.11 and 1.09 micromol aminoacid/mg enzyme/h). The protease in the crude extract should have application potential in term of improving utilization of fish meal and feather meal for monogastric animals.     

A parametric study ot protease production in batch and fed-batch cultures of Bacillus firmus

Proteolytic enzymes produced by Bacillus species find a wide variety of applications in brewing, detergent, food, and leather industries. Owing to significant differences normally observed in culture conditions promoting cell growth and those promoting production of metabolites such as enzymes, for increased efficacy of bioreactor operations it is essential to identify these sets of conditions (including medium formulation). This study is focused on formulation of a semidefined medium that substantially enhances synthesis and secretion of an alkaline protease in batch cultures of Bacillus firmus NRS 783, a known superior producer of this enzyme. The series of experiments conducted to identify culture conditions that lead to improved protease production also enables investigation of the regulatory effects of important culture parameters including pH, dissolved oxygen, and concentrations of nitrogen and phosphorous sources and yeast extract in the medium on cell growth, synthesis and secretion of protease, and production of two major nonbiomass products, viz., acetic acid and ethanol. Cell growth and formation of the three nonbiomass products are hampered significantly under nitrogen, phosphorous, or oxygen limitation, with the cells being unable to grow in an oxygen-free environment. Improvement in protease production is achieved with respect to each culture parameter, leading in the process to 80% enhancement in protease activity over that attained using media reported in the literature. Results of a few fed-batch experiments with constant feed rate, conducted to examine possible enhancement in protease production and to further investigate repression of protease synthesis by excess of the principal carbon and nitrogen sources, are also discussed. The detailed investigation of stimulatory and repressory effects of simple and complex nutrients on protease production and metabolism of Bacillus firmus conducted in this study will provide useful guidelines for design of bioreactors for production of protease and bulk chemicals by this bacterium.     

Production of keratinolytic enzyme by a newly isolated feather-degrading Stenotrophomonas maltophilia that produces plant growth-promoting activity

A novel feather-degrading Stenotrophomonas maltophilia R13 was isolated from rhizospheric soil of reed. The strain R13 produces keratinolytic enzyme using chicken feather as the sole carbon and nitrogen source. Addition of 0.1% glucose and 0.12% polypeptone to the feather medium increased the enzyme production. The optimum temperature and initial pH for the enzyme production were 30 °C and 7.0. The maximum yield of the enzyme was 82.3 ± 1.0 U/ml in the optimal feather medium; this value was about 5.5-fold higher than the yield in the basal feather medium. S. maltophilia R13 possessed disulfide reductase activity along with keratinolytic activity. As a result of feather degradation, 18 free amino acids were produced in the culture; the concentration of total amino acid was 2298.8 μM. The strain R13 produced IAA in the optimal feather medium without l-tryptophan supplementation, indicating simultaneous production of keratinolytic activity and IAA by S. maltophilia R13. The strain R13 grown in the optimal feather medium also inhibited mycelial growth of some phytopathogenic fungi. This result suggests that antifungal activity of the strain R13 could be produced in the same conditions observed for keratinolytic activity. Thus, S. maltophilia R13 could be not only used to enhance the nutritional value of feather meal but is also a potential bioinoculant in agricultural environments.     

Chicken feathers: a complex substrate for the co-production of α-amylase and proteases by <Emphasis Type="Italic">B. licheniformis</Emphasis> NH1

This study is concerned with the co-production of alkaline proteases and thermostable α-amylase by some feather-degrading Bacillus strains: B. mojavensis A21, B. licheniformis NH1, B. subtilis A26, B. amyloliquefaciens An6 and B. pumilus A1. All strains produced both enzymes, except B. pumilus A1, which did not exhibit amylolytic activity. The best enzyme co-production was obtained by the NH1 strain when chicken feathers were used as nitrogen and carbon sources in the fermentation medium. The higher co-production of both enzymes by B. licheniformis NH1 strain was achieved in the presence of 7.5 g/l chicken feathers and 1 g/l yeast extract. Strong catabolic repression on protease and α-amylase production was observed with glucose. Addition of 0.5% glucose to the feather medium suppressed enzyme production by B. licheniformis NH1. The growth of B. licheniformis NH1 using chicken feathers as nitrogen and carbon sources resulted in its complete degradation after 24 h of incubation at 37°C. However, maximum protease and amylase activities were attained after 30 h and 48 h, respectively. Proteolytic activity profiles of NH1 enzymatic preparation grown on chicken feather or casein-based medium are different. As far as we know, this is the first contribution towards the co-production of α-amylase and proteases using keratinous waste. Strain NH1 shows potential use for biotechnological processes involving keratin hydrolysis and industrial α-amylase and proteases co-production. Thus, the utilization of chicken feathers may result in a cost-effective process suitable for large-scale production.     

Molasses supplementation promotes conidiation but suppresses aflatoxin production by small sclerotial Aspergillus flavus

AIMS: To find a supplemental ingredient that can be added to routinely used growth media to increase conidial production and decrease aflatoxin biosynthesis in small sclerotial (S strain) isolates of Aspergillus flavus. METHODS AND RESULTS: Molasses was added to three commonly used culture media: coconut agar (CAM), potato dextrose agar (PDA), and vegetable juice agar (V8) and production of conidia, sclerotia, and aflatoxins by A. flavus isolate CA43 was determined. The effect of nitrogen sources in molasses medium (MM) on production of conidia, sclerotia and aflatoxins was examined. Water activity and medium pH were also measured. Conidia harvested from agar plates were counted using a haemocytometer. Sclerotia were weighed after drying at 45 degrees C for 5 days. Aflatoxins B(1) and B(2) were quantified by high-performance liquid chromatography. Addition of molasses to the media did not change water activity or the pH significantly. Supplementing CAM and PDA with molasses increased conidial production and decreased aflatoxins. Two-fold increased yield of conidia was found on MM, which, like V8, did not support aflatoxin production. Adding ammonium to MM significantly increased the production of sclerotia and aflatoxins, but slightly decreased conidial production. Adding urea to MM significantly increased the production of conidia, sclerotia and aflatoxins. CONCLUSIONS: Molasses stimulated conidial production and inhibited aflatoxin production. Its effect on sclerotial production was medium-dependent. Water activity and medium pH were not related to changes in conidial, sclerotial or aflatoxin production. Medium containing molasses alone or molasses plus V8 juice were ideal for conidial production by S strain A. flavus. SIGNIFICANCE AND IMPACT OF THE STUDY: Insight into molecular events associated with the utilization of molasses may help to elucidate the mechanism(s) that decreases aflatoxin biosynthesis. Targeting genetic parameters in S strain A. flavus isolates may reduce aflatoxin contamination of crops by reducing the survival and toxigenicity of these strains.     

Cuticle-Degrading Proteases Produced by <Emphasis Type="Italic">Metarhizium anisopliae</Emphasis> and Their Induction in Different Media

Protease production by fourteen M. anisopliae isolates differing in geographical origin and host insect were investigated. Highest protease activity was observed during 4–8 days of culture incubation. Pr1 and Pr2 activity was investigated in various media containing different carbon and nitrogen source to evaluate the induction mechanism of these enzymes. Basal levels of Pr1 and Pr2 activity were observed in minimal medium suggesting constitutive production. Casein (1%) as an exogenous protein supplement was not able to induce significant release of Pr1 and Pr2 enzymes, whereas high levels of activity were observed in the medium containing colloidal chitin (2%) as sole carbon and nitrogen source. The pH, ammonia and oxalic acid production in in vitro conditions was also investigated and the alteration in pH for protease production was not significant in the different media used except for the medium containing casein (1%) as a supplement.     

Nutritional requirements ofLysobacter lactamgenus for the production of cephabacins

Summary To optimize the fermentation medium for the production of new cephem compounds, cephabacins, by an eubacteriaLysobacter lactamgenus IFO 14,288, the effects of medium components on cephabacin production were investigated. Supplementation of glucose as a sole carbon source in liquid media was the best for the antibiotic production as well as for the cell growth. Casamino acid was the best nitrogen source for antibiotic biosynthesis and cell growth among nitrogen sources tested, and this strain could utilize sulfate or thiosulfate as a sulfur source. No significant effects of growth factors (vitamins) on the antibiotic production and cell growth were observed, but ferrous, magnesium and nickel ions slightly enhanced the cephabacin production.     

Biosynthesis of extracellular low-molecular-mass papain and trypsin inhibitors by Streptomyces sp. 22: effect of cultural conditions

The production of extracellular inhibitors of papain and trypsin by Streptomyces sp. 22 was studied under different cultural conditions including complex and defined media, temperatures ranging from 18 °C to 37 °C and a variety of sole carbon and nitrogen sources. In complex nutritionally rich medium, maximal specific growth rates were obtained at 37 °C, whereas the highest specific production rates for both papain and trypsin inhibitors were registered at 18 °C. Studies on the effect of different carbon and nitrogen sources in defined media underline the importance of the nitrogen source as a strong regulator of the biosynthesis of both inhibitors. Enhanced formation of the inhibitory compounds occurred in the presence of casein. The dynamics of the formation of both inhibitors in defined media showed close association with growth. However, a partial separation of production phases for papain and trypsin inhibitors was observed in complex medium. The results imply differences in the regulation of biosynthesis of the two inhibitors.     

Repression of alkaline protease in salt-tolerant alkaliphilic <Emphasis Type="Italic">Streptomyces clavuligerus</Emphasis> strain Mit-1 under the influence of amino acids in minimal medium

A salt-tolerant alkaliphilic actinomycete (strain Mit-1) was isolated from Mithapur (Western Coast, Gujarat, India) and identified as Streptomyces clavuligerus. Based on 16S rRNA gene sequence (EU146061) homology, it was found to be related to Streptomyces sp. (AY641538.1). The strain secreted alkaline protease optimally at 5% NaCl and pH 9 during the early stationary phase and could utilize the amino acids methionine, alanine, leucine, phenylalanine, tyrosine, tryptophan, arginine, asparagine, histidine, and glutamic acid as the sole source of nitrogen. Above their threshold levels, these amino acids caused repression of alkaline protease production. Protease production with methionine (120 U/mL), histidine (140 U/mL), and aspartic acid (118 U/mL) was comparable to that with complex medium (130 U/mL). However, the production increased with an increasing number of different amino acids in the growth medium. Repression of protease production as influenced by the amino acids generated valuable information on enzyme synthesis in actinomycetes, as such data is scarce. Optimization of the conditions for enzyme production by actinomycetes in general, and in haloalkaliphilic actinomycetes in particular, appears to be an attractive proposition for biocatalysis.     

Stringent response and initiation of secondary metabolism in Streptomyces clavuligerus

Cephalosporin biosynthetic activity and extracellular protease production increased during growth of Streptomyces clavuligerus in defined medium, while the level of guanosine 5'-diphosphate 3'-diphosphate (ppGpp) remained very low and stable. Cephalosporin biosynthesis (measured in resting cell systems) was initiated during early exponential growth in complex media, without appreciable change in the small ppGpp pool. Nutritional shift-down induced by withdrawal of Casamino acids caused a transient increase in ppGpp and a reduction of RNA accumulation. The increase in ppGpp was small in very young cultures, but increased as the culture aged. Twenty-seven spontaneous thiostrepton-resistant mutants were isolated and partially characterized. Most of them had a reduced ppGpp-forming ability and gave normal titres of cephalosporin. However, in complex medium, some mutants did not produce cephalosporins or extracellular protease, whereas others overproduced cephalosporins. The results indicate that, in S. clavuligerus, there is no obligatory relationship between the initiation of secondary metabolism and the stringent response.     

Isolation,identification and some cultural conditionsof a protease-producing thermophilic Streptomyces straingrown on chicken feather as a substrate

Six strains of thermophilic actinomycetes were isolated from soil using an enrichmenttechnique with feathers as the sole carbon and nitrogen source. They showed clear proteolyticactivity on casein agar medium. The most active strain was tentatively identified as Streptomycesthermonitrificans. This isolate was grown in a basal medium with feathers and:or other carbon andnitrogen sources. Supernatant from centrifuged cultures was examined for protease activity andtemperature and pH optima were determined for enzyme activity. Optimum proteolytic activity onbasal liquid medium containing 1% chicken feather pieces was obtained at 50°C, in a mediumadjusted at pH8 and incubated for 72 h at 150 rpm. Proteolytic activity was further increased by1.5% feather pieces and the time required for maximal activity was 96 h. The keratinolytic activityof S. thermonitrificans was examined by incubation with native chicken feather pieces and it wasfound that it is significantly active. The degradation of whole intact feathers by S.thermonitrificans was obtained after 48 h of incubation at 50°C. The pH and temperature optimafor proteolytic activity were 9.0 and 50°C, respectively. The proteolytic activity was stable at40°C for 1 h. The proteolytic activity was inhibited by DFP but not by EDTA or pCMB. Theseresults inidicated that the enzyme(s) can be classified as an alkaline protease. 1999 ElsevierScience Ltd. All rights reserved.     

短小芽孢杆菌(Bacillus pumilus) WHK4以羽毛粉为底物产蛋白酶条件的优化

探索Bacillus pumilusWHK4以羽毛粉为底物产酶的最佳条件和最佳培养基组成。以羽毛粉发酵培养基为基础,首先采用单因子试验考察底物浓度、初始pH、接种量、外加碳源、外加氮源对WHK4产酶活力的影响。在单因子试验的基础上采用正交试验设计对底物浓度、温度、初始pH、接种量、外加(NH4)2SO4、外加麦芽糖进行优化。结果显示:Bacillus pumilusWHK4最佳的产酶条件为初始pH7.38,菌龄16 h,接种量5%,37℃。最佳的培养基组成为:1 L基础发酵培养基,40.0 g羽毛粉,10.0 g(NH4)2SO4和10.0 g麦芽糖。在优化的条件下Bacillus pumilusWHK4 24 h产蛋白酶活力为每毫升90 U。对培养条件和培养基的优化为Bacillus pumilusWHK4产蛋白酶的分离纯化奠定了基础。     

Regulation of extracellular protease production in Streptomyces clavuligerus

Summary The production of extracellular protease by Streptomyces clavuligerus was strongly influenced by the nature of the nitrogen source. Production took place in batch cultures during growth at low or intermediate growth rates, but was delayed to the post-exponential phase in media supporting high growth rates. Protease formation could be initiated by a nutritional shift-down induced by casamino acids deprivation. Under both types of conditions maximal production was related to the growth rates of the cultures and was stimulated by low concentrations of casamino acids or yeast extract. Some purine compounds also influenced production in shift-down conditions. Ammonium interfered with protease formation whenever it was added to the medium. Some mutants with ltered nitrogen control of primary metabolism were also affected in the production of protease. A partial characterization of the activity indicated that it was due to a single metalloprotease with an apparent molecular mass of 41,700 Da.Offprint requests to: A. F. Braña