Characterization of a multifunctional feather-degrading <Emphasis Type="Italic">Bacillus subtilis</Emphasis> isolated from forest soil

In this study, we isolated and characterized a novel feather-degrading bacterium that shows keratinolytic, antifungal and plant growth-promoting activities. A bacterium S8 was isolated from forest soil and confirmed to belong to Bacillus subtilis by BIOLOG system and 16S rRNA gene analysis. The improved culture conditions for the production of keratinolytic protease were 0.1% (w/v) sorbitol, 0.3% (w/v) KNO₃, 0.1% (w/v) K₂HPO₄, 0.06% (w/v) KH₂PO₄ and 0.04% (w/v) MgCl₂·6H₂O (pH 8.0 and 30°C), respectively. In the improved medium containing 0.1% (w/v) feather, keratinolytic protease production was around 53.3 ± 0.3 U/ml at 4 day; this value was 10-fold higher than the yield in the basal feather medium (5.3 ± 0.1 U/ml). After cultivation for 5 days in the improved medium, intact feather was completely degraded. Feather degradation resulted in free –SH group, soluble protein and amino acids production. The concentration of free –SH group in the culture medium was 15.5 ± 0.2 μM at 4 days. Nineteen amino acids including all essential amino acids were produced in the culture medium; the concentration of total amino acid produced was 3360.4 μM. Proline (2809.9 μM), histidine (371.3 μM) and phenylalanine (172.0 μM) were the major amino acids released in the culture medium. B. subtilis S8 showed the properties related to plant growth promotion: hydrolytic enzymes, ammonification, indoleacetic acid (IAA), phosphate solubilization, and broad-spectrum antimicrobial activity. Interestingly, the strain S8 grown in the improved medium produced IAA and antifungal activity, indicating simultaneous production of keratinolytic and antifungal activities and IAA by B. subtilis S8. These results suggest that B. subtilis S8 could be not only used to improve the nutritional value of feather wastes but also is useful in situ biodegradation of feather wastes. Furthermore, it could also be a potential biofertilizer or biocontrol agent applicable to crop plant soil.     

Adsorption of major endoglucanase from <Emphasis Type="Italic">Thermoascus aurantiacus</Emphasis> on cellulosic substrates

A thermostable endoglucanase (EndoI) was produced by the thermophilic fungus Thermoascus aurantiacus when grown on cellulosic materials under submerged culture (SC) and solid-state fermentation (SSF). In both cultivation techniques a considerable amount of enzyme activity remained adsorbed onto solid particles, and this was taken into consideration when modeling enzyme production. The results were compatible with the assumption that, following its synthesis, an amount of EndoI was bound on substrate and gradually released into the liquid medium. Adsorption of the enzyme on crystalline cellulose was confirmed in vitro by experiments with purified endoglucanase, which was isolated by anion exchange chromatography. The Langmuir isotherm could efficiently describe the adsorption kinetics, and the estimated A _max and K _ad values compared with those obtained for cellulases bearing a binding domain. EndoI displayed high affinity for crystalline cellulose and low binding capacity, which could be beneficial in textile processing.     

Effect of simple and complex carbon sources,low temperature culture and complex carbon feeding policies on poly-3-hydroxybutyric acid (PHB) content and molecular weight (Mw) from Azotobacter chroococcum 6B

The molecular weight (M _w) of poly-3-hydroxybutyrate (PHB), produced by shake-flask culture of Azotobacter chroococcum showed little variation with increasing glucose concentration as carbon source (being in the range of 400–500 kDa), while M _w increased from 300–400 to 640 kDa when grown with increasing concentration of sugar cane molasses. Molecular weight increased nearly 30% from 48 to 72 h culture time when 5% molasses as carbon source was used, while with glucose the highest M _w was reached at 48 h. Under fermentor cultivation A. chroococcum produced PHB with a relatively high M _w of 1590 kDa at 53 h culture time when grown in modified Burk's medium with glucose as carbon source at an initial C/N ratio (molar basis) of 69 under fermentor cultivation. A batch glucose-grown ammonium-limited fermentor culture was repeatedly fed with sugar cane molasses (initial C/N ratio 69) and it was observed that PHB content curve decreased at a slower rate than in the fed-batch culture in which glucose and sucrose were not consumed in the culture medium after the feed.     

In vitro seed germination and cultivation of the aromatic medicinal <Emphasis Type="Italic">Salvia stenophylla</Emphasis> (Burch. ex Benth.) provides an alternative source of α-bisabolol

The aromatic medicinal plant Salvia stenophylla contains α-bisabolol, making this plant an important contributor to the aromatherapy and cosmetic industries in South Africa. Due to its commercial importance, the cultivation of this plant using an in vitro system was considered. Firstly, seedlings were raised in vitro after breaking dormancy with light, smoke-water or chemical scarification treatments. Germination improved when seeds were smoke-treated or soaked in 70% (v/v) H₂SO₄. Vigorous plantlet regeneration was achieved when seedling explants were cultured on Murashige and Skoog (1962) medium with 5.7 μM IAA and 8.9 μM BA. The potential regeneration capacity for this protocol was estimated and over 1,000 plantlets can be produced from a single shoot (6.67 cm with 4–6 nodes) over a period of 3 months. Plants rooted easily regardless of their growth medium. This was followed by their successful rapid establishment and normal growth out of culture (75%). Finally, the volatile compounds in in vitro plants were compared to ex vitro plants via headspace solid phase microextraction linked to gas chromatography–mass spectrometry. The chemical complexity of microplants was similar to wild plants with in vitro plants continuing to produce α-bisabolol (21%) at high levels.     

Angiostrongylus cantonensis (Nematode: Metastrongiloidea): In Vitro Cultivation of Infective Third-Stage Larvae to Fourth-Stage Larvae

The present study to attempt to cultivate Angiostrongylus cantonensis from third-stage larvae (AcL3) to fourth-stage larvae (AcL4) in vitro in defined complete culture medium that contained with Minimum Essential Medium Eagle (MEM), supplemented amino acid (AA), amine (AM), fatty acid (FA), carbohydrate (CA) and 20% fetal calf serum (FCS) was successful. When AcL3 were cultured in the defined complete culture medium at 37°C in a 5% CO₂ atmosphere, the larvae began to develop to AcL4 after 30 days of cultivation, and were enclosed within the sheaths of the third molts of the life cycle. Under these conditions, the larvae developed uniformly and reached to the fourth-stage 36 days. The morphology of AcL3 develop to AcL4 were recording and analyzing. Then comparison of A. cantonensis larval morphology and development between in vitro cultivation in defined complete culture medium and in vivo cultivation in infective BALB/c mice. The larvae that had been cultivated in vitro were smaller than AcL4 of infective BALB/c mice. However the AcL3 that were cultured using defined incomplete culture medium (MEM plus 20% FCS with AA+AM, FA, CA, AA+AM+FA, FA+CA, CA+AA+AM or not) did not adequately survive and develop. Accordingly, the inference is made that only the defined complete medium enable AcL3 develop to AcL4 in vitro. Some nematodes have been successfully cultured into mature worms but only a few researches have been made to cultivate A. cantonensis in vitro. The present study is the first to have succeeded in developing AcL3 to AcL4 by in vitro cultivation. Finally, the results of in vitro cultivation studies herein contribute to improving media for the effective development and growth of A. cantonensis. The gap in the A. cantonensis life cycle when the larvae are cultivated in vitro from third-stage larvae to fourth-stage larvae can thus be solved.     

麦芽糖诱导软化芽孢杆菌α-环糊精葡萄糖基转移酶在枯草杆菌中的表达

通过PCR扩增软化芽孢杆菌α-环糊精葡萄糖基转移酶基因,将基因片段克隆到大肠杆菌-枯草杆菌穿梭载体pGJ103中,转化枯草杆菌WB600得基因工程菌进行外源表达。在1.5%的麦芽糖初始发酵培养基上摇瓶培养,48 h后重组枯草杆菌产酶活性为6.1U/ml。通过单因素分析和响应面分析对重组枯草杆菌产CGT酶摇瓶发酵条件进行优化。分析得到培养基关键组分麦芽糖,玉米淀粉和酵母粉三者最佳浓度分别为:15.5g/L,13g/L和20g/L。在此条件下,摇瓶培养36h后α-CGT酶活性为17.6U/ml,5L罐分批发酵30h后酶活达到20U/ml (水解活性为1.4×10⁴ IU/ml)。     

Enhanced production of heteropolysaccharide-7 by <Emphasis Type="Italic">Beijerinckia indica</Emphasis> HS-2001 in repeated batch culture with optimized substitution of culture medium

In this study, a process of removing a half volume of culture broth and replacing it with an equal volume of substituted solution was developed to enhance the production of heteropolysaccharide-7 (PS-7) by Beijerinckia indica HS-2001. The optimal substitution time and volume of the substituted solution were found to be 48 h after cultivation and 50% of the initial volume of the culture broth. The optimal composition of the substituted solution was determined to be 20.0 g/L glucose, 10.0 g/L soybean pomace, 0.1 g/L MgSO₄·7H₂O, 0.9 g/L NH₄NO₃, and 5.0 g/L potassium phosphate, which was the same composition as the medium developed in a previous study for the production of PS-7 by B. indica HS-2001. The total amount and productivity of PS-7 by B. indica HS-2001 with a substitution under optimized conditions in a 7 L bioreactor for 96 h were 49.28 g and 0.51 g/h, respectively, which were 1.76 and 1.31-foldgreater values than those without a substitution for 72 h.     

<Emphasis Type="Italic">In vitro</Emphasis> stem elongation of stemless carline thistle

In vitro culture of stemless carline thistle was established using immature zygotic embryos. A satisfactory bud multiplication was achieved on MS medium supplemented with BAP (1 mg L^–1) and IAA (0.2 mg L^–1). Maximum rooting of buds was induced upon short cultivation (4 or 8 days) on an auxin-supplemented medium. Highest number of roots was obtained with NAA in the medium while the longest roots developed on the IAA-supplemented medium. Plantlets that subsequently developed were in rosette form if grown in light (16/8 h light to darkness photoperiod) and with elongated stems if raised in darkness. Light grown plantlets treated with GA₃ showed dose dependent stem increase in length, reaching maximum at the concentration of 10^–4 M. This was correlated with the length and the average number of internodes. If cultivated in the presence of ancymidol, dark grown plantlets showed reduced stem length. However, the inhibitory effect of the growth retardant on stem elongation was completely overcome by the addition of GA₃.     

Optimization of culture medium and growth conditions for production of L-arabinose isomerase and D-xylose isomerase by <Emphasis Type="Italic">Lactobacillus bifermentans</Emphasis>

Lactobacillus bifermentans was used to produce the intracellular enzymes L-arabinose isomerase and D-xylose isomerase. Various factors of cultivation (temperature, pH, and incubation period) and culture medium composition (mineral salts, carbon source, and nitrogen source) were studied to select the conditions that maximize production of these enzymes. Arabinose isomerase and xylose isomerase activities were 9.4 and 7.24 U/ml, respectively. They were highest at 9 h of cultivation in the optimized medium, 1.6 times higher than that in the basic MRS broth. The optimal medium composition and cultivation conditions were determined. For optimal growth, the strain required Tween 80 (1 g/l) and a source of inorganic nitrogen (e.g., ammonium citrate). The bacterium had no requirement for sodium acetate for either growth or production of isomerases. The production rate of enzymes was increased when metal ions were added, primarily manganese (2.5 mM). The text was submitted by the authors in English.     

Improved Culture Media for Embryogenic Callus Generation in Sorghum [<i>Sorghum bicolor</i> (L.) Moench]

Many attempts on optimization of sorghum [Sorghum bicolor (L.) Moench] tissue culture induction media have been made, but the culture system remains with some bottlenecks compared to that of other crops. This study aimed at assessing the suitability of various induction media to produce embryogenic callus (yellow and friable) with high induction rates and reduced phenolic exudation. The six culture medium modifications: 3 based on Murashige and Skoog (MS) medium and one each based on Chu N6, Gamborg B5 and 190-2 media respectively were applied in the culture of mature embryos from 10 sorghum genotypes. Although there was a genotype influence on the attainment of a yellow callus, friability of the callus was determined to be dependent on the culture medium and not the genotype. Half strength MS medium with 0.2 mg/l 2,4-D with 2.8 g/l Gelrite® as the gelling agent modified with 1.0 g/l KH₂PO₄, 1.0 g/l L-proline, 1.0 g/l L-asparagine and 0.16 mg/l CuSO₄·5H₂O (type E) was found to be the most effective resulting in about 60% yellow coloured callus induction with 25% friability. Addition of CuSO₄·5H₂O, KH₂PO₄, L-proline and L-asparagine significantly reduced the phenolic production. Half strength MS medium was observed to contribute to quality callus production when compared to full strength MS media modified with the compounds. The half strength MS medium was also observed to suppress phenolic production. Medium 190-2 produced the highest regeneration frequency (40%) among the 3-regeneration media tested. The results provide information on a suitable sorghum callus induction medium necessary for embryogenesis.     

Improved β‐Glucanase Production by a Recombinant Escherichia coli Strain using Zinc‐Ion Supplemented Medium

In order to investigate the suitability of different metal chelates for affinity chromatography, an expression vector was constructed. It contained a hybrid β‐glucanase as a model protein fused with a His₆‐tag and a secretion cassette providing the ability to secrete β‐glucanase into the culture medium. Supplementation of zinc to the medium led to a rapidly increased expression and release of the target protein into the cultivation medium. Results in respect to the supplementation of the commonly used Terrific Broth “TB‐medium” with different metal ions are reported with special emphasis on the influence of zinc ions. A concentration of zinc ions in the order of about 0.175 mM led to optimal results. Batch cultivation under well‐controlled conditions showed that the growth behavior did not change significantly by adding zinc ions. Growth in a stirred tank bioreactor was much faster in unsupplemented TB‐medium compared to shake flask experiments leading to a much higher biomass concentration (15 g/L instead of 3 g/L). The secretion of β‐glucanase under theses conditions started at the transition into the stationary phase and increased to yield an extracellular activity of 1350 U/mL at the end of the fermentation process. An even higher yield of extracellular β‐glucanase (2800 U/mL) was reached when the fermentation was carried out with TB‐medium supplemented with 0.175 mM ZnSO₄.     

The effect of gibberellic acid on the <Emphasis Type="Italic">in vitro</Emphasis> germination of coconut zygotic embryos and their conversion into plantlets

The effect of gibberellic acid (GA₃) was tested on germination of coconut zygotic embryos, their conversion into plantlets and ex vitro survival. There were four treatments consisting of 5 wk of culture in semi-solid medium or liquid medium, with or without GA₃. Embryos were then transferred to GA₃ free-liquid medium for the rest of a 32-wk culture. Germination and conversion percentages were higher in semi-solid medium than in liquid medium, and with both media percentages increased with GA₃ treatment (with the exception of the highest GA₃ concentration). Embryos of two varieties (MGD and MYD) were used. The following are the results with MGD embryos. Optimum GA₃ concentration in liquid medium was 0.46 μM, with 80% germination (62% in the control without GA₃) and 4.6 μM in semi-solid medium with 98% germination (71% in the control). With GA₃ treatment, germination was also faster. Conversion in semi-solid medium with GA₃ was 87% (60% in the control), and 45% in liquid medium with GA₃ (25% in the control). Once the plantlets had at least three bifid leaves and three primary roots at the time of transfer to ex vitro, they survived independently of the treatment. When MYD embryos were used, germination and conversion percentages were higher in semi-solid medium than in liquid medium, and they increased when GA₃ was used, although percentages were lower than those obtained with MGD embryos. The results showed that the use of GA₃ benefited coconut embryos in culture because it favored germination and conversion to plants on semi-solid medium, and hence improved previous protocols.     

Optimization of diphtheria toxin production by <Emphasis Type="Italic">Corynebacterium diphtheriae</Emphasis> using a casein-based medium in a fermenter

The Td-based combined vaccine contains only small amounts of the diphtheria toxoid antigen. However, a high level of purity is necessary for this antigen. The diphtheria toxin is produced by growing Corynebacterium diphtheriae in a semisynthetic, casein-based medium in a fermenter. In order to obtain a highly pure diphtheria toxoid, the optimal conditions to express the toxin at 300 Lf/mL in a fermenter culture were determined. When C. diphtheriae was cultivated in a fermenter and a high concentration of toxin was obtained, specific patterns for the pH and dissolved oxygen levels identified. Overall, the fermenter cultivation process was divided into four stages according to variations in the pH. A specific range of K _La in the fermenter (0.0092 ~ 0.0093/sec) was required to produce high level expression of diphtheria toxin. The amount of toxin expression varied significantly according to culture conditions. Agitation and aeration in the fermenter affected toxin expression, even when the optimal K _La value for toxin production was maintained. A previous study has reported that the amounts of agitation and aeration are important factors when cultivating fungus in the fermenter to produce chitinolytic enzyme. A mass production of diphtheria toxoid with a purity level greater than 2,500 Lf/ mgPN was obtained through purification and detoxification from this optimized toxin production.     

Production of lignocellulose-degrading enzymes employing <Emphasis Type="Italic">Fusarium solani</Emphasis> F-552

In this work, capability of Fusarium solani F-552 of producing lignocellulose-degrading enzymes in submerged fermentation was investigated. The enzyme cocktail includes hydrolases (cellulases, xylanases, and proteinases) as well as ligninolytic enzymes: manganese-dependent peroxidase (MnP), lignin peroxidase (LiP), and laccase (Lac). To our knowledge, this is the first report on production of MnP, LiP, and Lac together by one F. solani strain. The enzyme productions were significantly influenced by application of either lignocellulosic material or chemical inducers into the fermentation medium. Among them, corn bran significantly enhanced especially productions of cellulases and xylanases (248 and 170 U/mL, respectively) as compared to control culture (11.7 and 29.2 U/mL, respectively). High MnP activity (9.43 U/mL, control 0.45 U/mL) was observed when (+)-catechin was applied into the medium, the yield of LiP was maximal (33.06 U/mL, control 2.69 U/mL) in gallic acid, and Lac was efficiently induced by, 2,2′-azino-bis-[3-ethyltiazoline-6-sulfonate] (6.74 U/mL, not detected in control). Finally, in order to maximize the ligninolytic enzymes yields, a novel strategy of introduction of mild oxidative stress conditions caused by hydrogen peroxide into the fermentation broth was tested. Hydrogen peroxide significantly increased activities of MnP, LiP, and Lac which may indicate that these enzymes could be partially involved in stress response against H₂O₂. The concentration of H₂O₂ and the time of the stress application were optimized; hence, when 10 mmol/L H₂O₂ was applied at the second and sixth day of cultivation, the MnP, LiP, and Lac yields reached 21.67, 77.42, and 12.04 U/mL, respectively.     

Efficient enhancement of gallic acid accumulation in cell suspension cultures of <Emphasis Type="Italic">Barringtonia racemosa</Emphasis> L. by elicitation

The bioactive compound, bacoside A, has immense importance for the treatment of memory disorders and Alzheimer’s disease. Due to the growing commercial interest in the herb, Bacopa monnieri, it has been listed as highly endangered species. The present study was aimed at enhancing the production of bacoside A using an alternative technology of plant cell suspension culture. Initial experiments of docking simulations using bacoside A showed good inhibition of acetyl cholinesterase (binding energy value of ??20 kcal/mol), when comparison was made with other phytocompounds and the synthetic drug for Alzheimer’s disease. In vitro experiments established that B. monnieri cell suspension culture can be developed in Murashige and Skoog medium containing containing 0.1 mg/L benzylaminopurine and 0.5 mg/L naphthalene acetic acid. Plackett–Burman studies predicted that the most effective factors for maximum biomass production were inoculum size (t-value of 4.87), sucrose concentration (t-value of 0.25) and KH₂PO₄ concentration (t-value of 0.007). The nitrate to ammonium ratio (t-value of ? 0.42) did not have significant effect on the cell suspension biomass. The optimum concentration of the crucial variables obtained from a central composite design were—inoculum size of 2 g/L, sucrose concentration of 30 g/L and KH₂PO₄ concentration of 1.24 mM in one-sixth strength MS medium. The best model for optimum production of biomass and bacoside A was experimentally verified and the correlation between the predicted and actual values was found to be 99% for biomass and 94% for bacoside A production. The experimental results have been discussed in the present work.     

Azadirachtin production by hairy root cultivation of Azadirachta indica in a modified stirred tank reactor

Present investigation involves hairy root cultivation of Azadirachta indica in a modified stirred tank reactor under optimized culture conditions for maximum volumetric productivity of azadirachtin. The selected hairy root line (Az-35) was induced via Agrobacterium rhizogenes LBA 920-mediated transformation of A. indica leaf explants (Coimbatore variety, India). Liquid culture of the hairy roots was developed in a modified Murashige and Skoog medium (MM2). To further enhance the productivity of azadirachtin, selected growth regulators (1.0?mg/l IAA and 0.025?mg/l GA₃), permeabilizing agent (0.5?% v/v DNBP), a biotic elicitor (1?% v/v Curvularia (culture filtrate)) and an indirectly linked biosynthetic precursor (50?mg/l cholesterol) were added in the growth medium on 15th day of the hairy root cultivation period in shake flask. Highest azadirachtin production (113?mg/l) was obtained on 25th day of the growth cycle with a biomass of 21?g/l DW. Further, batch cultivation of hairy roots was carried out in a novel liquid-phase bioreactor configuration (modified stirred tank reactor with polyurethane foam as root support) to investigate the possible scale-up of the established A. indica hairy root culture. A biomass production of 15.2?g/l with azadirachtin accumulation in the hairy roots of 6.4?mg/g (97.28?mg/l) could be achieved after 25?days of the batch cultivation period, which was ~27 and ~14?% less biomass and azadirachtin concentration obtained respectively, in shake flasks. An overall volumetric productivity of 3.89?mg/(l?day) of azadirachtin was obtained in the bioreactor.     

Optimizing emulsan production of <Emphasis Type="Italic">A. venetianus</Emphasis> RAG-1 using response surface methodology

Statistical experimental design was used to optimize medium constituents for emulsan production by Acinetobacter venetianus RAG-1 in batch cultivation. The factors affecting emulsan production were screened by a two-level factorial design, and the optimal concentration of medium constituents for emulsan production were determined by the method of steepest path ascent and central composite experimental design. Experimental results showed that the optimal medium constituents were 9.16 g/L ethanol, 8.2 g/L KH₂PO₄, 23.32 g/L K₂HPO₄, 5.77 g/L (NH₄)₂SO₄ and 0.354 g/L MgSO₄•7H₂O. Under this optimal composition, the predicted emulsan production was 72.198 mg/L, and experimental value was 73.312 mg/L for 80 h culture in the shake flasks, and the emulsan yield by A. venetianus RAG-1 was enhanced nearly 1.48-fold (from 49.5 to 73.312 mg/L). Based on the results, we identify the optimal medium constituents for emulsan production and could take advantage of strategy for scale up the fermentation of emulsan production.     

An inexpensive inorganic medium for the mass cultivation of freshwater microalgae

A new and inexpensive inorganic medium (‘DS medium’) for the mass cultivation of freshwater blue-green algae (Cyanobacteria) and green algae has been developed. It consists basically of distilled or demineralized water (90%) and seawater (10%) and requires only little addition of pure purchasable chemicals (phosphate, trace elements, if necessary nitrate). No addition of macronutrients (NaCl, MgCl₂ or MgSO₄, KCl or K₂SO₄, CaCl₂) and of boron is required because they are sufficiently provided by the seawater. Decalcified water may also be suitable instead of demineralized water. For the cultivation of green algae, a higher trace element concentration is recommended than for blue-green algae. Because of its low total salt concentration the DS medium is freshwater-like. It is easy to prepare and effects rapid algal growth. It may be of special value for algal mass culture in regions which are close to the sea.     

Optimization of BY‐2 cell suspension culture medium for the production of a human antibody using a combination of fractional factorial designs and the response surface method

We have developed a strategy for the optimization of plant cell suspension culture media using a combination of fractional factorial designs (FFDs) and response surface methodology (RSM). This sequential approach was applied to transformed tobacco BY‐2 cells secreting a human antibody (M12) into the culture medium, in an effort to maximize yields. We found that the nutrients KNO₃, NH₄NO₃ and CaCl₂ and the hormones 2,4‐dichlorophenoxyacetic acid (2,4–D) and 6‐benzylaminopurine (BAP) had the most significant impact on antibody accumulation. The factorial screening revealed strong interactions within the nutrients group (KNO₃, NH₄NO₃ and CaCl₂) and also individually between 2,4‐D and three other components (KNO₃, NH₄NO₃ and BAP). The RSM design resulted in a fivefold increase in the antibody concentration after 5 days and a twofold reduction in the packed cell volume (PCV). Longer cultivation in the optimized medium led to the further accumulation of antibody M12 in the culture medium (up to 107 μg/mL, day 10). Because the packed cell volume was reduced in the optimized medium, this enhanced the overall yield by 20‐fold (day 7) and 31‐fold (day 10) compared to the conventional MS medium.     

Excretory overexpression of <Emphasis Type="Italic">Paenibacillus pabuli</Emphasis> US132 cyclodextrin glucanotransferase (CGTase) in <Emphasis Type="Italic">Escherichia coli</Emphasis>: gene cloning and optimization of the culture conditions using experimental design

The gene encoding the cyclodextrin glucanotransferase of Paenibacillus pabuli US132 was connected to the amylase signal peptide of Bacillus stearothermophilus. This leads to an efficient secretion of the recombinant enzyme into the culture medium of Escherichia coli as an active form contrasting with the native construction leading to a periplasmic production. The optimum cultivation conditions for the maximum expression were optimized, using a Box-Behnken design under the response surface methodology, and found to be a post-induction temperature of 24°C, an induction-starting A₆₀₀ nm of 0.85, an isopropyl-β-D-thiogalactopyranoside level of 0.045 mM and a post-induction time of 3.9 h. The screening of media components and their concentration were achieved using a Plackett-Burman and a Box-Behnken designs sequentially. Under the optimized conditions selected and in agreement with the predicted model, an activity of 6.03 U/mL was attained. This CGTase production was three-times higher than that using the non-optimized culture conditions (2 U/mL).