Abstracts

INDUSTRIAL MICROBIOLOGY

Production of endoglucanase by the native strains of Streptomyces isolates in submerged fermentation

Produção de endoglucanase por cepas nativas de Streptomyces em fermentação submersa

Chellapandi P.^* * Corresponding Author. Mailing address: Department of Bioinformatics, School of Life Sciences, Bharathidasan University, Tiruchirappalli, 620024, Tamilnadu, India. Phone: +91-431-2407072; Fax: +91 431-2407045. E-mail: pchellapandi@gmail.com ; Himanshu M. Jani

Biogas Research Centre, Gujarat Vidyapith, Gujarat, India

ABSTRACT

Cellulase is a complex enzyme system, commercially produced by filamentous fungi under solid-state and submerged cultivation. It has wide applicability in textile, food and beverage industry for effective saccharification process. In this study, cellulolytic enzyme activity, particularly endoglucanase of 26 Streptomyces strains isolated from garden soil was examined, including two isolates selected on the basis of potential cellulolytic activity on Bennett's agar medium. To enhance the endoglucanase formation in broth culture, different conditions including carbon and nitrogen sources, and growth conditions were tested. The maximum endoglucanase activity (11.25-11.90 U/mL) was achieved within 72-88 h in fermentation medium containing Tween-80, followed by phosphate sources. Both cellulolytic Streptomyces isolates gave almost equal quantity of enzyme in all trials. However the effect of medium ingredients on endoglucanase induction diverged with strains in some extent.

Key-words: Endoglucanase, Streptomyces isolates, Submerged cultivation, Media optimization, Cellulase, CMCase.

RESUMO

A celulase é um sistema enzimático complexo, produzido comercialmente a partir de fungos filamentosos através de cultivo em estádio sólido e submerso. Tem uma grande aplicação na indústria têxtil e de alimentos e bebidas no processo de sacarificação. Nesse estudo, examinou-se a atividade celulolítica, especialmente de englucanase, de 26 cepas de Streptomyces isoladas de solo, incluindo duas cepas selecionadas por sua atividade celulolítica no ágar Bennett. Para estimular a produção de englucanase em meio de cultura, diferentes condições de cultivo, incluindo fonte de carbono e nitrogênio e condições de crescimento, foram avaliadas. A atividade máxima de glucanase (11,25 a 11,90 U/mL) foi obtida em 72-88h em meio de cultura contendo Tween-80, seguido por fontes de fosfato. Ambas as cepas celulolíticas de Streptomyces produziram quase a mesma quantidade de enzima em todos os experimentos. Entretanto, o efeito dos ingredientes do meio na indução da glucanase divergiu de acordo com a cepa.

Palavras-chave: endoglucanase, Streptomyces, fermentação submersa, otimização de meios, celulase, CMCase.

INTRODUCTION

Cellulase is an industrially important enzyme, which is extensively used for increasing yield of juice in food industry, decreasing discoloration and fuzzing effects of cloth in textile industry, strengthening and whitening of paper pulp in paper industry, and to bio-fuel generation through saccharification process (2-3,15,23). Cellulose is composed of glucose units linked together by a 1.4-D-b glycoside bond (8). Cellulase is a synergistic enzyme that is used to break up cellulose into glucose or other oligosaccharide compounds. It has three major components viz. endo 1.4-b-glucanase (E.C.3.2.1.4), exo 1.4-b-glucanase (E.C.3.2.1.91), and b-glucosidase (E.C.3.2.1.21), on which endoglucanase is known as a well recognized component (7).

Many cellulolytic aerobic and anaerobic bacteria (8) have been isolated from decomposed soil, (9,14) for biotechnological applications. Furthermore, the production of this enzyme has been studied in many filamentous fungi, particularly in Trichoderma, Aspergillus, Fusariumn, and Penicillium groups (15,17). Although, a little work has been done on bacterial cellulase and a limited attention is being on Streptomyces groups. Because of the production yield and stability of bacterial cellulases are comparatively lesser than fungal cellulases, a detailed study on exploitation of this enzyme from Streptomyces species have been hindered. However, soil isolates Streptomyces lividens (9), S. albaduncus (5-6), S. reticuli (16), Streptomyces sp. strain M7a & strain M7b (17), and Streptomyces sp. F2621 (19) have already reported to produce extracellular endoglucanase significantly in optimized culture media using cellulose powder as carbon source under shaking conditions. Culture conditions, therefore, play a prominent role on formation of endoglucanase from bacteria (10,11). Since, this present paper investigated how the different media ingredients and culture conditions would be influenced on native strains of Streptomyces isolates for enhancing endoglucanase yield.

MATERIAL AND METHODS

Sources of media and analytical chemicals

All chemicals used were of analytical grade. Media and chemicals used in this study were purchased from HiMedia, Qualigen, and SD Fine Chemicals, India.

Screening and isolation of cellulolytic Streptomycetes

The microbial strains were isolated from decomposed garden soil in Gujarat Vidyapith, Sadra, India. Approximately 5 g soil was collected and diluted with 10 mL sterile distilled water, and then homogenized by constant shaking. The supernatant was collected after centrifugation at 6000 rpm for 15 min, which was further serial diluted with Bennett's broth containing the following in g/L: Maltose, 10; N-Z amine, Type A, 2.0; Beef extract, 1.0; Yeast extract, 1.0, and pH was adjusted to 7.4. 0.1 mL of this diluted sample was inoculated on Bennett's agar medium supplemented with 1% (w/w) cellulose, and then incubated at 30ºC for 24 h. Actinomycetes whose grow were vigorously appeared have selected for secondary screening in broth culture. Streptomyces spores were scrapped from plates and diluted with 1 mL sterile distilled water, homogenized. In 25 ml Bennett's broth incorporated with 1% (v/v) Walsath cellulose, 1 mL of diluted Streptomyces spores were inoculated and incubated at 30ºC for 3 days. According to potential cellulolytic activity in cell-free culture supernatant as assayed by method described below, 26 Streptomyces isolates were screened out of which two isolates with high CMCase activity have selected. These strains were preserved on the same agar medium at 4ºC with periodic sub-culturing. Morphological and biochemical characteristics of these selected isolates were used for preliminary identification according to Bergey's manual.

Production of endoglucanase in broth culture

Two mL of sterile distilled water added to the four day old culture and slightly scratch with a loop to obtain spore suspension. 0.1 mL of this suspension was used as inoculum and transferred to 25 mL Bennett's broth in a 150 mL conical flask and then incubated at 30ºC for 72 h in a rotary shaker with 130 rpm (Remi, India). One mL of this pre-grown culture was homogenized and used as seed inoculums in all experiments. The production medium was prepared by adding 20 mL Vogel's minimal medium (22), 3 g yeast extract and 10 g Walsath cellulose (85% phosphoric acid swollen), and finally made up to 1 L with distilled water. The Vogel's minimal medium containing the following composition in g/L of 50X salts: Water, 750 ml; Na₃ citrate.2H₂O, 130; KNO₃, 126; (NH₄) H₂PO₄, 144; KH₂PO₄, 80; MgSO₄.7H₂O, 10; CaCl₂. 2H₂O, 5g in 20 mL distilled water, add drop wise; trace elements solution, 5 ml; biotin solution (0.1 mg/ml), 2.5 mL and no adjustment of pH was necessary or desirable. Trace elements have composition of following recipe: Distilled water, 95 ml; Citric acid. H₂O, 5 g; ZnSO₄.7H₂O 5 g; Fe(NH₄)₂(SO₄) ₂.6 H₂O, 1 g; CuSO₄.5 H₂O, 250 mg; MnSO₄.H₂O, 50 mg; H₃BO_3, 50 mg; Na₂MoO₄.2H₂O, 50 mg. This medium was prepared separately, autoclaved and stored at 4ºC in a refrigerator until the use. The above seed inoculum (1 mL) was introduced into 50 mL production medium in a 250 mL conical flask and then incubated at 30ºC for 120 h a rotary shaking of 130 rpm. The culture broth was withdrawn aseptically at periodic intervals, filtered through Whatman number one filter paper and then centrifuged at 6000 rpm for 15 min. The culture supernatant was used as enzyme source.

Study on the effect of culture conditions

A study on the influence of different nutrients include carbon, nitrogen, sulfur, phosphorus and detergents on endoglucanase synthesis was examined by replacing appropriate sources in the above production medium. The effect of pH on endoglucanase production was studied by incubating culture in production medium at different initial pH (5-8.5) under shaking condition at 30ºC. The culture broth was also subjected to incubate at different temperature (20, 26, 30 and 37ºC) to study on the effect of incubation temperature for endoglucanase synthesis. The cell-fee culture supernatants were used to estimate enzyme activity.

Endoglucanase assay

Endoglucanase activity in culture supernatant was determined according to Mandels et al. (12). A reactive mixture of 0.5 mL of 1% (w/v) carboxymethyl cellulose (CMC, high viscosity, HiMedia, India) solution in 0.1 M citrate buffer (pH 4.8), and 0.5 mL of culture supernatant was incubated at 50ºC. After incubation for 30 min the reducing sugars released were assayed by adding 1 mL of 3, 5-dinitrosalicyclic acid (DNSA reagent). Controls were prepared with 10 min boiled enzyme. One unit of endoglucanase activity was expressed as the amount of enzyme required to release 1 µmol reducing sugars per mL under the above assay conditions by using glucose as standard curve.

RESULTS AND DISCUSSION

The cellulase producing microbes have been isolated from decaying wood, forest residues and decomposed leaf in soil (18). Fully decomposed leaves and grasses in soil served a good resource for isolating cellulolytic S. albogriseoulus C2-221 and S. nitrosporeus N2-14 (20), and Streptomyces sp. strain M7a & strain M7b (17) using microcrystalline cellulose. Thus, we noted a decomposed nature of lignocellulosic residues (leaf, stalks and stems of garden plants) in garden soil from where cellulolytic microorganisms isolated for our study. Morphological and biochemical properties of these isolates studied, indicating closely resemblances with Streptomyces groups as represented in Bergey's manual. Accordingly, the isolated microbial strains assigned to be named as Streptomyces sp. BRC1 and Streptomyces sp. BRC2 in this study. The traditional morphological and biochemical methods used for the identification of aerobic actinomycetes are laborious, time-consuming and often require a series of specialized tests at species level confirmation (1).

Streptomycetes sp. with potential cellulolytic activity subjected to produce endoglucanase in liquid culture and a study on the effect incubation time on enzyme yield is depicted in Fig. 1. It observed that both Streptomyces isolates gradually raised endoglucanase synthesis and reached maximum activity (6.4-6.6 U/mL) at 72-88 h, after that enzyme activity slowly decreased. Similar results have been found in S. flavogriseus (7), S. nitrosporeus (20) and S. albaduncus (5,6) for endoglucanase production in broth culture. At initial growth phase Streptomyces sp. would not prefer to use cellulose powder as a sole carbon source due to availability of other enriched simple nutrients in growth media. Therefore, microorganisms may be desired to excrete cellulase for hydrolyzing the cellulose only if other media ingredients become exhausted.

Comparison in terms of enzyme activity is difficult to establish because the prokaryotic cellulases may present very different action from those of fungi, with best temperature and pH varying among them (8). Harchand and Singh (6) also investigated a profound effect of pH on cellulase activity of S. albaduncus. As shown in Figs. 2 and 3, we found that the pH and temperature optima for endoglucanase productivity of both isolates were 7-7.5 (7.9 U/mL) and 26ºC (7.1 U/mL) respectively. Beyond this limit of pH and temperature these isolates did not show substantial enzyme activity. Similarly, Streptomyces sp. F2621 (19) and S. albogriseous (20) also exhibited maximum endoglucanase activity at 26-30ºC with initial pH of 6.5-7.0.

To maximize endoglucanase yield, the effect of additional carbon supplements in production medium have examined and are presented in Table 1. Among these, starch and maltose repressed endoglucanase production by Streptomyces sp. BRC1 and BRC2 respectively and its activity further reduced to 80%. Glucose and cellobiose showed as good inducers to form endoglucanase by these isolates. In addition, cellulose and carboxymethyl cellulose also exhibited extensive role to enzyme yield. Apart from these, other carbon sources did not show a significant improvement on enzyme productivity. The extracellular endoglucanase synthesis is cyclic dependent and therefore subject to catabolite repression by soluble sugar accumulation. Cellulase synthesis of S. reticuli is regulated by inductive and repressive action of metabolizable sugars on catalytic domain (16). Cellotriose and cellotetraose for Streptomyces sp. (4), and cellobiose and crystalline cellulose for Trametes trogii (10) are investigated as inducers for endoglucanase production. Therefore, only some soluble sugars as reported here are suggested for optimistic enzyme synthesis in the production media.

Considering the effect nitrogen source on endoglucanase formation as shown in Table 2, we found that meat extract and tryptone served as intensive sources to Streptomyces sp. BRC1. Yeast extract suited for enhanced production of this enzyme by Streptomyces sp. BRC2. When the production media incorporated with different inorganic nitrogen source, KNO₃ (6.36 U/mL) and (NH₄)₂SO₄ (6.65 U/mL) supported to bring more endoglucanase activity by Streptomyces sp. BRC1 and BRC2 respectively. Yeast extract for Streptomyces sp. F2621 (19) whereas KNO₃ for filamentous fungi are reported as potential nitrogen sources for endoglucanase production (18).

Among phosphate and sulfur sources examined as shown in Table 3, NaH₂PO₄ for Streptomyces sp. BRC1 and KH₂PO₄ for Streptomyces sp. BRC2 found to be good for improved endoglucanase activity. Under the same culture conditions, enzyme synthesis by both isolates profoundly improved in culture broth when incorporated with MgSO₄ and (NH₄)₂SO₄. This revealed that the salts with defined concentration can promote the growth of organisms, but not to simulate physiological conditions corresponding to synthesis of a specific extracellular enzyme in production medium. Obviously, it suggested that adding relevant nutrient supplements with optimistic concentrations are desirable to bring a favorable condition for these Streptomyces isolates so as to increase endoglucanase yield.

Apart from nutrient and environmental factors, surfactants are considered as good inductive sources while production media optimization. Surfactants are used to increase the permeability of bacterial cell membrane by which enhancing membrane transport and excretion of extracellular enzymes into the production media (13). Consequently, the maximum endoglucanase production was achieved (11.93 U/mL) at 84 h by both isolates when the production medium supplemented with Tween-80 (Table 4). Additionally, Tween-20, Tween-40, sodium deoxycholate and SDS also exhibited a stimulatory effect (1.6-fold increase) for endoglucanase production. It pointed out the detergents are comparatively better ingredient than use of other supplements for Streptomyces cellulase synthesis.

CONCLUSIONS

Optimization of fermentation media ingredients and environmental factors for enzyme production is a more convenient and effective strategy, compared to other recent approaches like molecular techniques, to manifest the physiological characteristics to synthesis endoglucanase (10, 20). Among different media ingredients optimized, detergents in production medium are showed a reasonable inductive response on endoglucanase production. Both Streptomyces strains comparatively studied for evaluating their independent capacities on cellulase formation, it divulging a new insight for a strong suitability of these isolates for endoglucanase production in large scale fermentation. A profitable enhancement of endoglucanase activity is recorded as 12 U/mL at 84 h with 1.6-fold increase in the production yield. Thus, the results enlighten the optimized environmental and cultural conditions are prominent needs for producing extracellular endoglucanase by these soil isolates. These strains are promising for industrial application since they grow quickly in broth condition in simple and of a low cost process to enhance production yield, and the secreted enzymes are frequently required for industrial applications. Moreover, the important noteworthy of these strains is that they are capable of producing endoglucanase alone with more yield apart from other cellulase components compared. Therefore, it is thought to be considered as potential industrial candidate for effective saccharification process.

ACKNOWLEDGMENTS

The authors are thankful to Vice-Chancellor and Registrar of Gujarat Vidyapith, Ahmedabad for permitting to carry out this investigation. This work was financially supported by University Grants Commission, New Delhi, India.

Submitted: October 12, 2007; Returned to authors for corrections: November 14, 2007; Approved: January 21, 2008.

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