84 results on '"enzymatic process"'
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2. Enzymatic processes for animal hide/skin collagen fiber purification processing: Recent progress, challenges and recommendations
- Author
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Zhang, Xu, Gao, Mengchu, Zhang, Chunxiao, and Peng, Biyu
- Published
- 2025
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3. Biodegradation mechanism of chlorpyrifos by halophilic bacterium Hortaea sp. B15
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Hadibarata, Tony, Kristanti, Risky Ayu, Bilal, Muhammad, Yilmaz, Murat, and Sathishkumar, Palanivel
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- 2023
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4. 富含花青素紫马铃薯汁护色研究及酶解工艺优化.
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张露, 王新惠, 冉凌云, 杨婷婷, 赵乐乐, and 吴明阳
- Abstract
Copyright of China Brewing is the property of China Brewing Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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- 2024
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5. Editorial: Fermentation and enzymatic processes for the production of functional food
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Cid R. Gonzalez-Gonzalez, Guiomar Melgar-Lalanne, Diana Luazi Oliveira, and Nasser Al-Habsi
- Subjects
fermentation ,enzymatic process ,probiotic ,prebiotic ,food waste ,functional food ,Nutrition. Foods and food supply ,TX341-641 ,Food processing and manufacture ,TP368-456 - Published
- 2023
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6. The Enzymatic Process of Macroalgae for Conversion into High-tech Bioproducts.
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Han, JooHee, Jo, YeWon, Sun, Habin, Lee, EunSeo, Chae, UnJung, Han, Sung Ok, Kim, Jong Hun, and Hyeon, Jeong Eun
- Subjects
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MARINE algae , *BROWN algae , *CHEMICAL processes , *RED algae , *GREEN algae , *CARRAGEENANS , *MONOSACCHARIDES - Abstract
Macroalgae are one of various groups of multicellular algae include some types of Rhodophyta (red), Phaeophyta (brown), and Chlorophyta (green) macroalgae. They are now a source for biorefineries, as they contribute to energy production as biomass. Algae are worth noting because of their high content in compounds with separate biological activities, including agar, agarose, and carrageenan in red algae; alginates, laminarin, and fucoidan in brown algae; and ulvan, sulfated galactans, and xylans in green algae. Skeletal polysaccharides of red algae are composed of cellulose 1,β-1,3-mannan and β-1,4-acrylic acid. More than half of the dry weight of brown algae is made up of the polysaccharides alginate, laminarin, and fucoidan, and this percentage can even exceed 70% in some species. They are converted to monosaccharides that can be easily used by using polysaccharide hydrolysis enzymes. This process has the potential to maximize biofuel yields. Compared with the enzymatic depolymerization of brown and red algae polysaccharides, the depolymerization of green algae polysaccharides has been less extensively investigated. However, the use of ulvan lyase is very promising because it can degrade ulvan with good specificity, high efficiency, and mild reaction conditions, and it can well maintain the rare sugar structure properties of ulvan. The depolymerization process of macroalgae by chemical hydrolysis requires high cost, causes environmental pollution, and has limited use due to problems such as low yield. Therefore, an environmentally friendly, energy efficient and economical enzymatic depolymerization process of macroalgae using degrading enzyme will be needed. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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7. A unique biochemical reaction pathway towards trehalulose synthesis by an amylosucrase isolated from Deinococcus deserti.
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Bae, Jaehun, Jun, Su-Jin, Chang, Pahn-Shick, and Yoo, Sang-Ho
- Subjects
- *
INDUSTRIAL enzymology , *FRUCTOSE , *SUCROSE , *DISACCHARIDES - Abstract
The aim of this study was to establish an efficient bioprocess for the synthesis of trehalulose as a novel sweetener. This disaccharide has 70% of the sweetness of sucrose and bioactive properties such as anti-cariogenicity and anti-oxidizing activity. In this study, amylosucrase from the Deinococcus deserti (Dd AS) gene was expressed and purified. When Dd AS was reacted with 2 M sucrose at 35 °C for 120 h, the yield ratio of trehalulose to turanose was approximately 2:1. The trehalulose yield increased when extrinsic fructose was added. Under optimum conditions for trehalulose synthesis, the yield reached 36% (246 g/L, sucrose basis) starting with 2 M sucrose + 0.75 M fructose and showed the highest trehalulose productivity (1.94 g/L/h). As a result, a novel amylosucrase that synthesized trehalulose as the major product was developed, in contrast to other studied amylosucrase-type enzymes. Dd AS could be utilized industrially in a bioprocess for producing trehalulose as a functional sucrose alternative. • A novel amylosucrase was found to synthesize trehalulose as a main product. • The enzyme from Deinococcus sp. was expressed in E. coli. • Yield ratio of trehalulose to turanose was 2:1 with 2 M sucrose at 35 °C and pH7.5. • Maximum trehalulose yield reached 36% with 2 M sucrose + 0.75 M fructose. • Industrial application of this enzyme may lead to development of a valuable sweetener. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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8. Effect of enzymatic process on characteristics of cottonized industrial hemp fibre.
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Sahi, Ashutosh Kumar, Singh, Mukesh Kumar, and Das, Apurba
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This paper reports an investigation on the bacteria-based enzyme's cottonization of industrial hemp fibre. The industrial hemp fibres are enzyme processed to eliminate massive non-cellulosic portions from the fibre to enhance their fineness and softness. Box-Behnken response surface methodology is applied to optimize the effect of different concentrations, temperature and time by using enzymes on chemical and physical properties, like weight loss, average strength, length, chemical composition, and surface modification to simulate cotton feel touch. The results show that the pectin, lignin, hemicellulose, and other impurities are removed under the enzyme and alkali refining processes. The effect of the enzyme concentration, treatment time, and treatment temperature is found significant on weight loss, fibre diameter, crystallinity, cellulose, hemicelluloses content, and tenacity. The effluent load of the enzyme process by measuring COD is also found less than that of the alkali processing for industrial hemp fibre. Industrial hemp fibre can be a perfect model of the sustainability of fibre from the plant's inception into the entire life cycle, leading to the biodegradable product reducing less effluent load in an environment. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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9. An enzymatic hydrolysis-based platform technology for the efficient high-yield production of cellulose nanospheres.
- Author
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Yupanqui-Mendoza, Sergio Luis and Arantes, Valdeir
- Subjects
- *
ATOMIC force microscopy , *CELLULOSE nanocrystals , *CELLULOSE fibers , *CELLULOSE , *ENERGY consumption - Abstract
This study evaluates the feasibility of using enzymatic technology to produce novel nanostructures of cellulose nanomaterials, specifically cellulose nanospheres (CNS), through enzymatic hydrolysis with endoglucanase and xylanase of pre-treated cellulose fibers. A statistical experimental design facilitated a comprehensive understanding of the process parameters, which enabled high yields of up to 82.7 %, while maintaining a uniform diameter of 54 nm and slightly improved crystallinity and thermal stability. Atomic force microscopy analyses revealed a distinct CNS formation mechanism, where initial fragmentation of rod-like nanoparticles and subsequent self-assembly of shorter rod-shaped nanoparticles led to CNS formation. Additionally, adjustments in process parameters allowed precise control over the CNS diameter, ranging from 20 to 100 nm, highlighting the potential for customization in high-performance applications. Furthermore, this study demonstrates how the process framework, originally developed for cellulose nanocrystals (CNC) production, was successfully adapted and optimized for CNS production, ensuring scalability and efficiency. In conclusion, this study emphasizes the versatility and efficiency of the enzyme-based platform for producing high-quality CNS, providing valuable insights into energy consumption for large-scale economic and environmental assessments. [Display omitted] • The same enzyme-based process can produce nanomaterials with distinct morphologies. • The diameter of the cellulose nanospheres can be tailored, ranging from 20 to 100 nm. • The maximum production yield of cellulose nanospheres reached 82.7 %. • The specific surface area of cellulose was the most significant variable in CNS production. • A high CNS yield was associated with low energy consumption (39.36 kWh/Kg). [ABSTRACT FROM AUTHOR]
- Published
- 2024
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10. Biological Soil Crusts as Ecosystem Engineers in Antarctic Ecosystem.
- Author
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Barrera, Andrea, Acuña-Rodríguez, Ian S., Ballesteros, Gabriel I., Atala, Cristian, and Molina-Montenegro, Marco A.
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CRUST vegetation ,ECOSYSTEMS ,PLANT communities ,SOIL formation ,WATER supply - Abstract
Biological soil crusts (BSC) are considered as pivotal ecological elements among different ecosystems of the world. The effects of these BSC at the micro-site scale have been related to the development of diverse plant species that, otherwise, might be strongly limited by the harsh abiotic conditions found in environments with low water availability. Here, we describe for the first time the bacterial composition of BSCs found in the proximities of Admiralty Bay (Maritime Antarctica) through 16S metabarcoding. In addition, we evaluated their effect on soils (nutrient levels, enzymatic activity, and water retention), and on the fitness and performance of Colobanthus quitensis , one of the two native Antarctic vascular plants. This was achieved by comparing the photochemical performance, foliar nutrient, biomass, and reproductive investment between C. quitensis plants growing with or without the influence of BSC. Our results revealed a high diversity of prokaryotes present in these soil communities, although we found differences in terms of their abundances. We also found that the presence of BSCs is linked to a significant increase in soils' water retention, nutrient levels, and enzymatic activity when comparing with control soils (without BSCs). In the case of C. quitensis , we found that measured ecophysiological performance parameters were significantly higher on plants growing in association with BSCs. Taken together, our results suggest that BSCs in Antarctic soils are playing a key role in various biochemical processes involved in soil development, while also having a positive effect on the accompanying vascular flora. Therefore, BSCs would be effectively acting as ecosystem engineers for the terrestrial Antarctic ecosystem. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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11. Removal efficiency of Enzyme Horseradish Peroxidase in Removal of Tetracycline and Ciprofloxacin from Synthetic Wastewater
- Author
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Farzaneh Javan, Mohammad Ali Zazouli, Esmaeil Babanezhad, and Fathollah Gholami-Borujeni
- Subjects
enzyme horseradish peroxidase ,enzymatic process ,tetracycline ,ciprofloxacin ,synthetic wastewater ,Medicine ,Medicine (General) ,R5-920 - Abstract
Background and purpose: So far, different methods have been used to remove residual antibiotics from aquatic environments. This study investigated the efficiency of enzyme horseradish peroxidase (HRP) in presence of hydrogen peroxide in removal of Tetracycline and Ciprofloxacin in a batch system. Materials and methods: In an experimental study on laboratory scale, the effects of contact time, concentrations of H2O2, the antibiotics, and enzyme, and reaction pH on the performance of pure HRP enzyme in the presence of H2O2, were investigated. To measure the efficiency of the enzymatic process, the residual antibiotics were measured using HPLC equipped with a reverse phase column (C-18, 5% micrometer, 250 * 4.6 mm). The flow rate was 1 ml/min and the injection volume was 40 μl. The mobile phase of Tetracycline was 0.1 M TFA- methanol (60:40) used at 254 nm and the mobile phase of ciprofloxacin was 0.01 M acetonitrile- phosphate (8:92) at 220 nm. All experiments were performed in a discontinuous system at laboratory temperature. Results: Removal efficiencies of Tetracycline and Ciprofloxacin were 40% and 95%, respectively, at 10 mg/l initial concentrations of antibiotics, 10-min contact time, Tetracycline pH= 4, and Ciprofloxacin pH= 7. The removal efficiency of Ciprofloxacin was two times more than that of Tetracycline. Conclusion: The free HRP could be used as an effective process in removing Tetracycline and Ciprofloxacin from wastewater.
- Published
- 2020
12. Biological Soil Crusts as Ecosystem Engineers in Antarctic Ecosystem
- Author
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Andrea Barrera, Ian S. Acuña-Rodríguez, Gabriel I. Ballesteros, Cristian Atala, and Marco A. Molina-Montenegro
- Subjects
soil biocrusts ,Colobanthus quitensis ,enzymatic process ,metabarcoding ,Antarctic ecosystem ,Microbiology ,QR1-502 - Abstract
Biological soil crusts (BSC) are considered as pivotal ecological elements among different ecosystems of the world. The effects of these BSC at the micro-site scale have been related to the development of diverse plant species that, otherwise, might be strongly limited by the harsh abiotic conditions found in environments with low water availability. Here, we describe for the first time the bacterial composition of BSCs found in the proximities of Admiralty Bay (Maritime Antarctica) through 16S metabarcoding. In addition, we evaluated their effect on soils (nutrient levels, enzymatic activity, and water retention), and on the fitness and performance of Colobanthus quitensis, one of the two native Antarctic vascular plants. This was achieved by comparing the photochemical performance, foliar nutrient, biomass, and reproductive investment between C. quitensis plants growing with or without the influence of BSC. Our results revealed a high diversity of prokaryotes present in these soil communities, although we found differences in terms of their abundances. We also found that the presence of BSCs is linked to a significant increase in soils’ water retention, nutrient levels, and enzymatic activity when comparing with control soils (without BSCs). In the case of C. quitensis, we found that measured ecophysiological performance parameters were significantly higher on plants growing in association with BSCs. Taken together, our results suggest that BSCs in Antarctic soils are playing a key role in various biochemical processes involved in soil development, while also having a positive effect on the accompanying vascular flora. Therefore, BSCs would be effectively acting as ecosystem engineers for the terrestrial Antarctic ecosystem.
- Published
- 2022
- Full Text
- View/download PDF
13. 两步法精制生物柴油工艺流程模拟Simulation of two-step process for refining biodiesel
- Author
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张旗,郝小红,索航,杜肃ZHANG Qi,HAO Xiaohong,SUO Hang,DU Su
- Subjects
生物柴油;流程模拟;精制;酶法工艺 ,biodiesel ,process simulation ,refining ,enzymatic process ,Oils, fats, and waxes ,TP670-699 - Abstract
以油酸和三油酸甘油酯混合物(酸值(KOH)42.52 mg/g)为原料,利用两步法生产精制生物柴油。采用Aspen Plus V10软件对整个工艺流程进行模拟,先以超声辅助低共熔溶剂酶法制备粗生物柴油,再以乙醇、甘油等为携带剂精馏分离游离脂肪酸,并对精馏工艺进行优化。结果表明:制备粗生物柴油过程中油酸和三油酸甘油酯转化率分别为88.19%与 92.71%,粗生物柴油酸值(KOH)为5.07 mg/g;最佳精馏工艺条件为压力0.9 MPa、回流比0.7、理论塔板数31、粗生物柴油进料为第14块塔板、携带剂进料为第2块塔板,在此条件下精制生物柴油酸值(KOH)降至0.36 mg/g,精馏得率为95.27%。 A two-step process was developed to refine biodiesel with oleic acid (C18H34O2) and triolein (C57H104O6) mixture (acid value 42.52 mgKOH/g). The whole process was simulated by Aspen Plus V10. Firstly, crude biodiesel was prepared by ultrasound-assisted deep eutectic solvent enzymatic method, and then free fatty acids were separated by distillation with ethanol and glycerol as carrier agent, and the distillation process was optimized. The results showed that the conversion rates of oleic acid and triolein were 88.19% and 92.71% respectively, and the acid value of crude biodiesel was 5.07 mgKOH/g. The optimal distillation process conditions were obtained as follows: pressure 0.9 MPa, reflux ratio 0.7, theoretical tray number 31, crude biodiesel feed from the 14th tray and carrier agent feed from the second tray. Under the optimal conditions, the acid value of refined biodiesel reduced to 0.36 mgKOH/g, and the yield of distillation was 95.27%.
- Published
- 2022
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14. Optimisation of Cytochrome P450 BM3 Assisted by Consensus-Guided Evolution.
- Author
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Vincent, Thierry, Gaillet, Bruno, and Garnier, Alain
- Abstract
Cytochrome P450 enzymes have attracted much interest over the years given their ability to insert oxygen into saturated carbon-hydrogen bonds, a difficult feat to accomplish by traditional chemistry. Much of the activity in this field has centered on the bacterial enzyme CYP102A1, or BM3, from Bacillus megaterium, as it has shown itself capable of hydroxylating/acting upon a wide range of substrates, thereby producing industrially relevant pharmaceuticals, fine chemicals, and hormones. In addition, unlike most cytochromes, BM3 is both soluble and fused to its natural redox partner, thus facilitating its use. The industrial use of BM3 is however stifled by its instability and its requirement for the expensive NADPH cofactor. In this work, we added several mutations to the BM3 mutant R966D/W1046S that enhanced the turnover number achievable with the inexpensive cofactors NADH and NBAH. These new mutations, A769S, S847G, S850R, E852P, and V978L, are localized on the reductase domain of BM3 thus leaving the oxidase domain intact. For NBAH-driven reactions by new mutant NTD5, this led to a 5.24-fold increase in total product output when compared to the BM3 mutant R966D/W1046S. For reactions driven by NADH by new mutant NTD6, this enhanced total product output by as much as 2.3-fold when compared to the BM3 mutant R966D/W1046S. We also demonstrated that reactions driven by NADH with the NTD6 mutant not only surpassed total product output achievable by wild-type BM3 with NADPH but also retained the ability to use this latter cofactor with greater total product output as well. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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- View/download PDF
15. Pistachio (Pistacia vera) shell as a new candidate for enzymatic production of xylooligosaccharides.
- Author
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Hesam, Faride, Tarzi, Babak Ghiassi, Honarvar, Masoud, and Jahadi, Mahshid
- Subjects
PISTACHIO ,HYDROGEN peroxide ,XYLANS ,XYLANASES ,LIGNINS - Abstract
Every year, considerable amount of pistachio by-products is generated in pistachio processing industry which their disposal is an important challenge. Our study aimed to produce valuable prebiotic xylooligosaccharides (XOS) from pistachio shell (PS) that have no particular uses. Alkaline hydrogen peroxide application yielded 32.85% xylan with low residual lignin content (2.48%). Structural characterization of mentioned xylan determined. Enzymatic hydrolysis of xylan with commercial endoxylanase afforded breakdown into XOS containing xylobiose and xylotriose. Response surface methodology (RSM) disclosed the optimized condition as: enzyme dose of 85 (U/g), the concentration of substrate (6%) and the reaction time (10 h) corresponding to maximum yield of xylobiose (1.86 mg/ml) and xylotriose (0.818 mg/ml). Application of the two-step process consisting of xylan extraction pursued by enzymatic hydrolysis enabled prebiotic XOS production for food and pharmaceutical industrial uses, from the pistachio shell as a novel raw material. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
16. کارایی آنزیم هورس رادیش پراکسیداز(HRP(در حذف آنتی بیوتیک هاي تتراسایکلین وسیپروفلوکساسین ازفاضلاب مصنوعی.
- Author
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فرزانه جوان, محمد علی ززولی, اسماعیل بابانژا&, and فتح اله غلامی برو
- Abstract
Background and purpose: So far, different methods have been used to remove residual antibiotics from aquatic environments. This study investigated the efficiency of enzyme horseradish peroxidase (HRP) in presence of hydrogen peroxide in removal of Tetracycline and Ciprofloxacin in a batch system. Materials and methods: In an experimental study on laboratory scale, the effects of contact time, concentrations of H2O2, the antibiotics, and enzyme, and reaction pH on the performance of pure HRP enzyme in the presence of H2O2, were investigated. To measure the efficiency of the enzymatic process, the residual antibiotics were measured using HPLC equipped with a reverse phase column (C-18, 5% micrometer, 250 * 4.6 mm). The flow rate was 1 ml/min and the injection volume was 40 μl. The mobile phase of Tetracycline was 0.1 M TFA- methanol (60:40) used at 254 nm and the mobile phase of ciprofloxacin was 0.01 M acetonitrile- phosphate (8:92) at 220 nm. All experiments were performed in a discontinuous system at laboratory temperature. Results: Removal efficiencies of Tetracycline and Ciprofloxacin were 40% and 95%, respectively, at 10 mg/l initial concentrations of antibiotics, 10-min contact time, Tetracycline pH= 4, and Ciprofloxacin pH= 7. The removal efficiency of Ciprofloxacin was two times more than that of Tetracycline. Conclusion: The free HRP could be used as an effective process in removing Tetracycline and Ciprofloxacin from wastewater. [ABSTRACT FROM AUTHOR]
- Published
- 2020
17. PENGHILANGAN HEMISELULOSA SERAT BAMBU SECARA ENZIMATIK UNTUK PEMBUATAN SERAT BAMBU
- Author
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Ono Suparno and Roberto Danieli
- Subjects
bamboo fibre ,cellulase ,xylanase ,hydrolysis ,enzymatic process ,Agricultural industries ,HD9000-9495 - Abstract
Hemicellulose and lignin removal process or degumming of bamboo fibre using cellulase and xylanase was conducted. The objectives of the study were to obtain suitable type of bamboo used in the enzymatic degumming process and to determine the optimum xylanase concentration for the hemicellulose hydrolysis of the selected bamboo. The types of bamboos used in this study were yellow bamboo,ropebamboo,and black bamboo. The study was conducted by enzymatic hydrolyses of the bamboo fibres, and measuring the yield, cellulose content, hemicellulose content, and reducing sugar content. Fibre hydrolysis used the cellulase concentration of 25 U/g and xylanase concentrationsof 50 to 500 U/g. The result showed that yellow bamboo contained cellulose and hemicellulose contents which most susceptible to hydrolysis resulting in reducing sugars, and decreasing cellulose and hemicellule contents of 6.40 % and 12.71%, respectively. The optimum xilanase concentration for the yellow bamboohydolysis was 400 U/g which could hydrolyze hemicellulose by 54.31% in 24 hours.
- Published
- 2017
- Full Text
- View/download PDF
18. Potential of enzymatic process as an innovative technology to remove anticancer drugs in wastewater.
- Author
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Pereira, Camila Senna, Kelbert, Maikon, Daronch, Naionara Ariete, Michels, Camila, de Oliveira, Débora, and Soares, Hugo Moreira
- Subjects
- *
ANTINEOPLASTIC agents , *WASTEWATER treatment , *DIRECT action , *DOSAGE forms of drugs , *FUNGAL growth - Abstract
Anticancer drugs are a class of pharmaceutical compounds that have been found in hospital, domestic, and industrial wastewaters and also in surface waters. They have been showing recalcitrance to conventional wastewater treatment technologies and present a potential risk to environment and human health, since they exhibit cytotoxic, teratogenic, and carcinogenic among other effects in higher organisms, even at low concentrations. The presence of these compounds in the environment is a recent challenge for wastewater treatment and some alternative strategies to remove them were already studied, such as white-rot fungi (WRF) technologies. Despite promising results, processes involving fungi are complex, have high reaction times, and require nutrient addition for fungus growth and maintenance. Due to this potential, strategies to make the technology feasible were studied, such as the possibility for direct application of enzymes secreted by WRF. Enzymatic processes were studied in the removal of other pharmaceuticals such as antibiotics, anti-inflammatory, and steroid hormones; however, to the best of our knowledge, there is a gap on literature about their direct action on anticancer drugs. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
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19. Enzymatic hydrolysis increases ginsenoside content in Korean red ginseng (Panax ginseng CA Meyer) and its biotransformation under hydrostatic pressure.
- Author
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Kim, Hyo Won, Han, Sung Hee, Lee, Seog‐Won, Choi, Hyeon‐Son, Suh, Hyung Joo, and Hong, Ki‐Bae
- Subjects
- *
HYDROSTATIC pressure , *GINSENG , *SKIN permeability , *HYDROLYSIS , *ATMOSPHERIC pressure , *BIOTRANSFORMATION (Metabolism) - Abstract
BACKGROUND: Enzymatic hydrolysis and high hydrostatic pressure (HHP) are common processing techniques in the extraction of active compounds from food materials. The aim of this study was to investigate the effects of enzymatic hydrolysis combined with HHP treatments on ginsenoside metabolites in red ginseng. RESULTS: The yield and changes in the levels of polyphenol and ginsenoside were measured in red ginseng treated with commercial enzymes such as Ultraflo L, Viscozyme, Cytolase PCL5, Rapidase and Econase E at atmospheric pressure (0.1 MPa), 50 MPa, and 100 MPa. β‐Glucosidase activity of Cytolase was the highest at 4258.2 mg−1, whereas Viscozyme showed the lowest activity at 10.6 mg−1. Pressure of 100 MPa did not affect the stability or the activity of the β‐glucosidase. Treatment of red ginseng with Cytolase and Econase at 100 MPa significantly increased the dry weight and polyphenol content of red ginseng, compared with treatments at 0.1 MPa and 50 MPa (P < 0.05). The amounts of ginsenoside and ginsenoside metabolites derived from red ginseng processed using Cytolase were higher than those derived from red ginseng treated with the other enzymes. Treatment with Cytolase also significantly increased the skin and intestinal permeability of red ginseng‐derived polyphenols. CONCLUSION: Cytolase could be useful as an enzymatic treatment to enhance the yield of bioactive compounds from ginseng under HHP. In addition, ginsenoside metabolites obtained by Cytolase hydrolysis combined with HHP are functional substances with increased intestinal and skin permeability. © 2019 Society of Chemical Industry [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
20. Enzymatic preparation of fructooligosaccharides-rich burdock syrup with enhanced antioxidative properties.
- Author
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Kangming Tian, Jun Wang, Zhimeng Zhang, Lei Cheng, Peng Jin, Singh, Suren, Prior, Bernard A., and Zheng-Xiang Wang
- Subjects
- *
FRUCTOOLIGOSACCHARIDES , *OXIDANT status , *XYLANASES , *SYRUPS , *HYDROXYL group , *FARM produce - Abstract
Background: Burdock (Arctium lappa L.) is a fructan-rich plant with prebiotic potential. The aimof this study was to develop an efficient enzymatic route to prepare fructooligosaccharides (FOS)-rich and highly antioxidative syrup using burdock root as a raw material. Results: Endo-inulinase significantly improved the yield of FOS 2.4-fold while tannase pretreatment further increased the yield of FOS 2.8-fold. Other enzymes, including endo-polygalacturonase, endo-glucanase and endo-xylanase, were able to increase the yield of total soluble sugar by 11.1% (w/w). By this process, a new enzymatic process for burdock syrup was developed and the yield of burdock syrup increased by 25% (w/w), whereas with FOS, total soluble sugars, total soluble protein and total soluble polyphenols were enhanced to 28.8%, 53.3%, 8.9% and 3.3% (w/w), respectively. Additionally, the scavenging abilities of DPPH and hydroxyl radicals, and total antioxidant capacity of the syrup were increased by 23.7%, 51.8% and 35.4%, respectively. Conclusions: Our results could be applied to the development of efficient extraction of valuable products from agricultural materials using enzyme-mediated methods. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
21. Characterization of technical grade carbonic anhydrase as biocatalyst for CO2 capture in potassium carbonate solutions.
- Author
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Peirce, Sara, Perfetto, Rosa, Russo, Maria Elena, Capasso, Clemente, Rossi, Mosè, Salatino, Piero, and Marzocchella, Antonio
- Subjects
CARBONIC anhydrase ,ZINC enzymes ,LYASES ,PHYSIOLOGICAL effects of carbon dioxide ,ABSORPTION (Physiology) ,THERAPEUTICS - Abstract
Abstract: Reactive absorption promoted by carbonic anhydrase (CA, E.C. 4.2.1.1.) catalysis has been proposed for CO
2 capture from exhaust gas as an alternative to the reactive absorption in amine solutions. Potassium carbonate solutions allow feasible CO2 capture assisted by CA. This paper reports on the characterization of a CA form supplied by Novozymes as a catalyst for CO2 capture in K2 CO3 solutions at operating conditions relevant for industrial processes (2–3 M K2 CO3 , 298–313 K, 0–40% carbonate to bicarbonate conversion). CO2 absorption tests were carried out in a batch‐stirred cell apparatus at constant gas volume and temperature by measuring gas pressure decay. The enhancement ratio between CO2 absorption rate with and without the enzyme at biocatalyst concentration above 0.3 kg m−3 ranged between 5 and 8 depending on the solvent composition and temperature. Active enzyme aggregates formed at protein concentration larger than 0.3 kg/m3 and their contribution to the absorption rate enhancement was remarkable. Assessment of enzyme kinetics in homogeneous solutions at enzyme concentration lower than 0.018 kg·m−3 showed thatk increased with both temperature and salt concentration.cat /KM k ranged between 9.0·10cat /KM 3 and 7.0·104 m3 ·kg−1 ·s−1 in agreement with literature data on carbonic anhydrase kinetics. Reliability of the adopted method for kinetic characterization was confirmed. The activity of enzyme aggregates formed in the carbonate solvent was verified and CA aggregates can be used to select the proper CA based biocatalyst for CO2 capture application as an alternative to free and immobilized enzyme. © 2017 Society of Chemical Industry and John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]- Published
- 2018
- Full Text
- View/download PDF
22. 碳酸盐矿化菌固结重金属离子Cu2+ 的研究.
- Author
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赵兴青, 成艳, 孙秀云, and 王莲莲
- Abstract
A Cu-tolerant strain, isolated from the soil of Mountain Qixia in Nanjing, was selected and used for enzyme digestion and identification. The was decomposited urea by enzymatic process during its growth and metabolism to produce CO3M2-, and combined with Cu2++ in solution to turned to precipitation, which were analyzed using EDS, XRD, SEM and other analytical methods. The results showed that the strain Cu11 is a carbonate mineralization microbe and identified as Cupriavidus necator, the main products are CuCO3 and Cu2+(OH)2CO3. The analysis of different influence on the rate of consolidation of Cu2++ showed that the Cu2++ consolidation rate increased with the increase of pH, and it reached 97% when pH was 13, the difference of inoculation amount of Cu2++ on Cu2++ consolidation rate was small, which was maintained at 85%-90%, the Cu2++ consolidation rate could reach 97.7% when the Cu2++ concentration being lower(0.005, 0.01 mol/L), while the Cu2++ concentration was high(0.03-0.09 mol/L), the Cu2++ concentration rate was only stable at about 80%, With the increase of substrate concentration, the Cu2++ consolidation rate increased first and then decreased, reaching a maximum of 96% at 25 g/L. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
23. The development of seaweed-derived bioactive compounds for use as prebiotics and nutraceuticals using enzyme technologies.
- Author
-
Charoensiddhi, Suvimol, Conlon, Michael A., Franco, Christopher M.M., and Zhang, Wei
- Subjects
- *
MARINE algae , *FOOD safety , *BIOACTIVE compounds , *PREBIOTICS , *FUNCTIONAL foods - Abstract
Background Seaweeds are a large and diverse group of photosynthetic macro-algae found across the world's oceans. There is a growing recognition that they are important sources of bioactive compounds with a variety of biological activities that could potentially contribute to functional food and nutraceutical industries. Scope and approach The complex structure and distinctive components of seaweed cell walls, which differ significantly from terrestrial plants, presents a major challenge for the effective extraction of bioactive compounds from inside the cells. Enzyme technologies have been used to improve the extraction, hydrolysis, and structure modification efficiently with a high degree of environmental sustainability. This review critically analyses the advances, challenges, and future directions in applying enzyme technologies to improve the extraction and processing of bioactive compounds from seaweeds and their potential applications in functional foods and nutraceuticals. Key findings and conclusions Different enzymatic processes have been demonstrated to (1) assist the extraction by breaking down the seaweed cell walls, and (2) degrade or hydrolyse macromolecules including polysaccharides and proteins. These enzymatic processes improve the yield and recovery of bioactive compounds and enhance their biological properties with regard to prebiotic, antioxidant, ACE inhibitory, anti-inflammatory, and antiviral effects. Seaweed-derived bioactive compounds from these processes present significant new opportunities in developing novel food applications. The current food regulations and safety requirements for seaweeds and their products are addressed for commercial product development. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
24. Value addition of corn husks through enzymatic production of xylooligosaccharides
- Author
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Ashis Kumar Samanta, A.P. Kolte, A.V. Elangovan, A. Dhali, S. Senani, M. Sridhar, K.P. Suresh, N. Jayapal, C. Jayaram, and Sohini Roy
- Subjects
Corn waste ,xylan extraction ,prebiotic ,enzymatic process ,XOS ,Biotechnology ,TP248.13-248.65 - Abstract
ABSTRACT Corn husks are the major wastes of corn industries with meagre economic significance. The present study was planned for value addition of corn husk through extraction of xylan, followed by its enzymatic hydrolysis into xylooligosaccharides, a pentose based prebiotic. Compositional analysis of corn husks revealed neutral detergent fibre 68.87%, acid detergent fibre 31.48%, hemicelluloses 37.39%, cellulose 29.07% and crude protein 2.68%. Irrespective of the extraction conditions, sodium hydroxide was found to be more effective in maximizing the yield of xylan from corn husks than potassium hydroxide (84% vs. 66%). Application of xylanase over the xylan of corn husks resulted into production of xylooligosaccharides with different degree of polymerization namely, xylobiose and xylotriose in addition to xylose monomer. On the basis of response surface model analysis, the maximum yield of xylobiose (1.9 mg/ml) was achieved with the enzymatic hydrolysis conditions of pH 5.8, temperature 44°C, enzyme dose 5.7U/ml and hydrolysis time of 17.5h. Therefore, the corn husks could be used as raw material for xylan extraction vis a vis its translation into prebiotic xylooligosaccharides.
- Published
- 2016
- Full Text
- View/download PDF
25. Enzymatic process optimization for the in vitro production of isoprene from mevalonate.
- Author
-
Tao Cheng, Hui Liu, Huibin Zou, Ningning Chen, Mengxun Shi, Congxia Xie, Guang Zhao, and Mo Xian
- Subjects
- *
ENZYMATIC analysis , *PROCESS optimization , *IN vitro studies , *ISOPRENE , *MEVALONATE kinase , *BIOSYNTHESIS - Abstract
Background: As an important bulk chemical for synthetic rubber, isoprene can be biosynthesized by robust microbes. But rational engineering and optimization are often demanded to make the in vivo process feasible due to the complexities of cellular metabolism. Alternative synthetic biochemistry strategies are in fast development to produce isoprene or isoprenoids in vitro. Results: This study set up an in vitro enzyme synthetic chemistry process using 5 enzymes in the lower mevalonate pathway to produce isoprene from mevalonate. We found the level and ratio of individual enzymes would significantly affect the efficiency of the whole system. The optimized process using 10 balanced enzyme unites (5.0 μM of MVK, PMK, MVD; 10.0 μM of IDI, 80.0 μM of ISPS) could produce 6323.5 μmol/L/h (430 mg/L/h) isoprene in a 2 ml in vitro system. In a scale up process (50 ml) only using 1 balanced enzyme unit (0.5 μM of MVK, PMK, MVD; 1.0 μM of IDI, 8.0 μM of ISPS), the system could produce 302 mg/L isoprene in 40 h, which showed higher production rate and longer reaction phase with comparison of the in vivo control. Conclusions: By optimizing the enzyme levels of lower MVA pathway, synthetic biochemistry methods could be set up for the enzymatic production of isoprene or isoprenoids from mevalonate. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
26. Preparation of maltotriitol-rich malto-oligosaccharide alcohol from starch.
- Author
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Niu, Dandan, Li, Pujun, Huang, Yongsheng, Tian, Kangming, Liu, Xiaoguang, Singh, Suren, and Lu, Fuping
- Subjects
- *
OLIGOSACCHARIDES , *SUGAR alcohols , *STARCH , *SWEETENERS , *HYDROGENATION , *BACILLUS licheniformis , *PHARMACEUTICAL industry - Abstract
Malto-oligosaccharide alcohols (MOSA) are one of the most important sugar alcohols widely used as sweetener in food, cosmetic, and pharmaceutical industries in recent years, of which maltotriitol-rich MOSA is much more recognized. With the aim of preparing maltotriitol-rich MOSA from starch, a novel process was developed and optimized. Starch was first liquefied with thermostable Bacillus licheniformis α-amylase. The liquefied starch was then saccharified to yield maltotriose-rich malto-oligosaccharides under the cooperative actions of Bacillus naganoensis pullulanase, Bacillus amyloliquefaciens α-amylase, and barley bran β-amylase. The maltotriitol-rich MOSA was finally prepared by chemical hydrogenation. Under the optimized conditions, maltotriitol-rich MOSA containing 42.18% maltotriitol was obtained with a conversion rate of 104.57% from starch. The process can be employed for large-scale preparation of maltotriitol-rich MOSA, and a further modification of the process can lead to the formulation of various types of MOSA with different percentages of components of sugar alcohols. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
27. RECOVERY OF POLYHYDROXYALKANOATES (PHAs) FROM BACTERIAL CELLS USING ENZYMATIC PROCESS
- Author
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S. Marsudi
- Subjects
culture broth ,enzymatic process ,recovery of PHAs ,Chemical engineering ,TP155-156 - Abstract
Polyhydroxyalkanoates (PHAs) are intracellular material accumulated by several bacteria. Commercial production of PHAs faces the issue of high production cost especially substrate cost and recovery/separation cost. An alternative to reduce the production cost is to use enzyme and or chemical to recover PHAs from bacterial cells. Recovery of PHAs from bacterial cells was done using enzyme, chemical, and a mixture of enzyme and chemical. Enzyme (s) and or chemical(s) were added into culture broth to disrupt cells after adjusting pH and temperature of the culture broth. Treatment by adding enzyme or chemical only into culture broth showed a low level of PHAs recovered from bacterial cells. Treatment by adding a mixture of enzymes and chemicals showed the best result among 22 examined combinations, i.e. a mixture of EDTA, lisozyme, papain enzyme, and SDS. This combination gave a PHA recovery of 65 % w/w.
- Published
- 2006
- Full Text
- View/download PDF
28. Bioethanol production from coconuts and cactus pretreated by autohydrolysis.
- Author
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Gonçalves, Fabiano Avelino, Ruiz, Héctor A., dos Santos, Everaldo Silvino, Teixeira, José A., and de Macedo, Gorete Ribeiro
- Subjects
- *
ETHANOL as fuel , *COCONUT products , *CACTUS , *HYDROLYSIS , *FERMENTATION - Abstract
The use of coconut fiber mature, green coconut shell, mature coconut shell and cactus is an important alternative as substrates for bioethanol production, since these lignocellulosic materials (LCMs) are abundant in Brazil, mainly in the Northeast Region. The first objective of this work was to evaluate the autohydrolysis pretreatment (AP) on these LCMs and the susceptibility of the treated materials to enzymatic hydrolysis (EH). The second part of the work deals with the application of semi-simultaneous saccharification and fermentation (SSSF) and simultaneous saccharification and fermentation (SSF) using Zymomonas mobilis , Pichia stipitis, Saccharomyces cerevisiae and as substrate the green coconut shell (selected according to the results obtained in the first part of the work). The LCMs after AP using the highest severity factor (4.64) showed changes in the chemical composition in comparison to the untreated LCMs: between the LCMs the cellulose increase was 48.55%, the hemicellulose decrease was 76.77% and an increase of 62.26% was observed for lignin. The green coconut shell was characterized by SEM, X-ray and FTIR after AP and its EH conversion into glucose was 92.52%. The best results on ethanol yield (90.09%) and ethanol productivity (0.21 g/(L h)) from green coconut shell were obtained by S. cerevisiae using SSSF. Overall, an efficient process for the bioethanol production from green coconut shell was developed. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
29. Catalase immobilized in capsules in microorganisms removal from drinking water, milk, and beverages.
- Author
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Trusek-Holownia, Anna and Noworyta, Andrzej
- Subjects
MICROBIAL removal (Water purification) ,HYDROGEN peroxide ,CHEMICAL decomposition ,CATALASE ,ALGINATES ,HYDROGEN-ion concentration - Abstract
A method for removing microbiological contaminants (bacteria, fungi) present in water, milk, or beverages can be an addition of hydrogen peroxide. The method is known in the literature as “cold pasteurization” and has been used so far in the purification of milk. A possibility of H2O2application in the purification of water and other beverages was considered. Hydrogen peroxide present in liquids must be removed before their application in food and drinks industry. An efficient method of its decomposition is the enzymatic reaction involving catalase. Catalase was immobilized into alginate capsules. Characteristics of the immobilized catalase such as the temperature-activity curve, pH-activity curve, and operational and storage stability were evaluated. Various applications of the preparation were considered. Suitability of the preparation was also investigated using a plug-flow reactor. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
30. MODEL-BASED OPTIMIZATION OF BIOCHEMICAL REACTORS INCLUDING INTERCONNECTED COMPLEX ENZYMATIC PROCESSES.
- Author
-
CRIŞAN, Mara and MARIA, Gheorghe
- Subjects
ENZYMES ,BIOSYNTHESIS ,OXIDATION ,PYRANOSES ,BIOREACTORS - Abstract
Due to the overwhelming contribution of the enzyme cost (including its immobilization/stabilization) in the final product selling cost for most of the industrial biosyntheses, the study is focused on applying a modular screening procedure for selecting and optimizing the operation of enzymatic reactors for a completely specified enzymatic process. The case study refers to the complex oxidation of D-glucose (DG) to 2-keto-D-glucose (kDG), the optimal reactor policy corresponding to the minimum amount of required P2Ox (pyranose 2- oxidase) and catalase that ensures an imposed reaction conversion and reactor productivity under various technological constraints. [ABSTRACT FROM AUTHOR]
- Published
- 2015
31. Environmentally benign process for the preparation of antimicrobial α-methylene-β-hydroxy-γ-butyrolactone (tulipalin B) from tulip biomass.
- Author
-
Taiji Nomura, Emiko Hayashi, Shohei Kawakami, Shinjiro Ogita, and Yasuo Kato
- Subjects
- *
ANTIFUNGAL agent synthesis , *TULIPS , *ANTI-infective agents , *TRICHLOROETHYLENE , *ACTIVATED carbon - Abstract
The article discusses research on preparation of tulipalin B, antimicrobial α-methylene-β-hydroxy-γ-butyrolactone (PaB), antimicrobial natural product occurring in tulip (Tulipa gesneriana), from tulip biomass. It presents a description of an environmentally benign and facile process for the preparation of PaB based on reaction catalyzed by TCE (trichloroethylene). It also discusses purification of flower extracts with aqueous ethanol with activated charcoal.
- Published
- 2015
- Full Text
- View/download PDF
32. Enzymatic process for the fractionation of baker’s yeast cell wall (Saccharomyces cerevisiae).
- Author
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Borchani, Chema, Fonteyn, Fabienne, Jamin, Guilhem, Paquot, Michel, Blecker, Christophe, and Thonart, Philippe
- Subjects
- *
SACCHAROMYCES cerevisiae , *FUNGAL cell walls , *MICROBIAL enzymes , *GLUCANS , *COMPARATIVE studies - Abstract
Highlights: [•] In our study, the source of β-glucans is the cell wall of yeasts, especially the baker’s yeast Saccharomyces cerevisiae. [•] An enzymatic process for the isolation of glucans from yeast cell walls was established. [•] Results showed high yield of β-glucan compared to traditional isolation methods. [Copyright &y& Elsevier]
- Published
- 2014
- Full Text
- View/download PDF
33. Optimization of Wash Bath Temperature for Effective Biopolishing of Textile Garments.
- Author
-
Thiyagarajan, Samaraj S. and Hari, K.
- Abstract
Over the past several decades, various methods have been used by the garment industry to enhance the value of their products. The primary method has been through the use of chemicals. In the t-shirt manufacturing industry, the predominant method for adding value has been biopolishing. Pilling in cotton garments can negatively affect the appearance and durability of the garments. Improving the drapability and increasing the durability of the garments at low cost had gained traction as an alternative to the costly mercerizing process. Cellulase, a naturally occurring product made from microorganisms, has been beneficial for this use. Removing fuzz and making the fabric pill resistant is one of the main applications of microbial cellulase. Identifying an optimum wash bath temperature for biopolishing, and subsequent processing, will provide a strong economical reason for the garment processing industry to adopt this value-adding process. [ABSTRACT FROM AUTHOR]
- Published
- 2014
34. Chapter Ten - Enzymatic Recovery of Metabolites from Seaweeds: Potential Applications.
- Author
-
Hardouin, Kevin, Bedoux, Gilles, Burlot, Anne-Sophie, Nyvall-Collén, Pi, and Bourgougnon, Nathalie
- Subjects
- *
MARINE algae , *PLANT metabolites , *BIOACTIVE compounds , *ENZYMATIC analysis , *BIOTECHNOLOGY , *BIOSYNTHESIS - Abstract
Seaweeds are the basis of a multibillion-dollar economy with an impact on highly diverse sectors, including food, feed, textile, pharmaceutical, nutraceutical, cosmetic, chemistry, bioactive compounds, and biotechnological sectors like bioenergy. Molecules from seaweed have provided promising drug leads, offered new targets for synthetic chemists, and provided opportunities for the elucidation of unusual biosynthetic pathways. Seaweed farming has developed all over the world. Simultaneously, the increasing report of outbreaks of 'green tides' ('brown or red tides'), fouling species and large piles of decomposing biomass which appear along shallow sandy bays represent a true economic constraint for the affected communities. Harvesting of invasive and proliferative species is an opportunity for collecting an important biomass for research of new compounds of interest. This review describes enzymatic processing of seaweeds as reported for the last 20 years. At this time when sustainable development and environmental protection are regarded as key factors, studies about innovative extraction processes of active compounds from natural products have attracted special attention. The use of enzyme treatment as a tool to improve the extraction efficiency of bioactive compounds from seaweeds shows several benefits. This chapter presents a synthesis of the conditions applied for seaweed cracking. Three different types of hydrolysis are used depending on the process design and the nature of the enzymes. Biochemical composition of hydrolysates, enzymatic hydrolysis efficiency, and biological activities depend on the nature of the macroalgae, the enzyme activity, the experimental conditions and the design process. Among the biological properties, the hydrolysates show various activities: antioxidant, antiviral, antiproliferative, antihypertensive and anticoagulative. These data demonstrate some potential applications of seaweed metabolites obtained by enzymatic hydrolysis and of the prospects for the future. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
35. Chitin and Chitosan Extracted from Shrimp Waste Using Fish Proteases Aided Process: Efficiency of Chitosan in the Treatment of Unhairing Effluents.
- Author
-
Sila, Assaâd, Mlaik, Najwa, Sayari, Nadhem, Balti, Rafik, and Bougatef, Ali
- Subjects
CHITIN ,CHITOSAN ,EXTRACTION (Chemistry) ,FISH waste ,SEWAGE purification ,DEPOLYMERIZATION - Abstract
Extraction and depolymerisation of chitin and chitosan from shrimp waste material was carried out using fish proteases aided process. A high deproteinization level (80 %) was recorded with an Enzyme/Substrate ratio of 10 U/mg. The demineralization of shrimp waste was completely achieved within 6 h at room temperature in HCl 1.25 M, and the residual content of calcium in chitin was below 0.01 %. The degree of N-acetylation, calculated from the C CP/MAS-NMR spectrum, was 85 %. The chitin obtained was converted to chitosan by N-deacetylation. X-ray diffraction patterns also indicated two characteristics crystalline peaks approximately at 10° and 20° (2θ). Chitosan was then evaluated in the treatment of unhairing effluents from the tanning industry. A result showed that chitosan as a coagulant has good performance in alkaline pH and at concentration of 0.5 g/L. Within these conditions, chitosan could decrease turbidity value, total suspended solids (89 % at 1.5 g/L), biological oxygen demand (33.3 % at 1.5 g/L) and chemical oxygen demand (58.7 % at 1.5 g/L). [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
36. Dextrin Production by Enzimatic Process from Various Sweet Potatoes in Pontianak
- Author
-
Nana Supriyatna
- Subjects
dextrins ,enzymatic process ,sweet potato ,Chemical technology ,TP1-1185 - Abstract
Dextrin is a modified starch that widely used in food and pharmaceutical industries. One of the starch source that could be used for dextrin production is sweet potatoes that widely cultivated in Pontianak. The aims of this study is to produce dextrins enzymatically using different types of sweet potatoes that available in Pontianak. Dextrin production optimization performed on 0.1%, 0.2%, and 0.3% of alpha amylase concentrations and liquification at 95°C for 1, 1.5 and 2 hours. Three varieties of sweet potatoes used: white, yellow, and purple. The results showed that the highest dextrin production is at 0.3% concentration with 2 hours of liquification. The characteristics of the dextrose produced are: fairly soluble in water, dextrose content range 4.14%–4.41%, water content was 10.5% –11.0%, yield range 7%–12%, and 80 mesh filter pass between 91–95%. Dextrins production has met SNI 01-2593-1992 standard dextrin for the food industry.
- Published
- 2012
37. Debittering of Pontianak Orange Juice using Naringinase Enzyme
- Author
-
Farid Salahudin
- Subjects
debitter ,naringinase ,orange juice ,enzymatic process ,Chemical technology ,TP1-1185 - Abstract
The goal of this research is debittering of orange juices with enzimatic process. Naringinase enzim is produced with Penicillium decumbens. The research metode is complete random design with two variabel. The first variabel is concentration of enzim : 0,0; 200; 400 ppm and the second variabel is time of incubation : 1, 2 and 3 hours. The product of this research is tested ascorbic acid, Total Plate Count and organoleptic test. The result showed concentration of naringinase enzim 400 ppm and incubation 3 hours can eliminated the after taste of orangge juice without reduce the ascorbic acid and colour of orange juice.
- Published
- 2010
38. Co-immobilization of Candida rugosa and Rhyzopus oryzae lipases and biodiesel production.
- Author
-
Lee, Jong, Kim, Sung, Yoo, Hah, Lee, Ja, Han, Sung, Park, Chulhwan, and Kim, Seung
- Abstract
Candida rugosa lipase and Ryzopus oryzae lipase were simultaneously immobilized on silica gel following enzyme pretreatment. The factors affecting the co-immobilization process, such as reaction time and enzyme ratio, were investigated. Biodiesel was then produced by using the co-immobilized enzyme matrix. A batch system was employed with stepwise methanol feeding, and the continuous process involved a packed-bed reactor. Under optimal immobilization conditions, the activity was approximately 16,000 U/g·matrix. When co-immobilized enzyme was used with optimized stepwise methanol feeding, conversion of biodiesel reached about 99% at 3 h and was maintained at a level of over 90% for about 30 reuses. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
39. Application of Pigeon Pea ( Cajanus cajan) Stalks as Raw Material for Xylooligosaccharides Production.
- Author
-
Samanta, A., Jayapal, Natasha, Kolte, A., Senani, S., Sridhar, Manpal, Mishra, Sukriti, Prasad, C., and Suresh, K.
- Abstract
Pigeon pea ( Cajanus cajan) is a perennial plant widely cultivated in tropical and subtropical regions of many countries. The present studies aimed to produce xylooligosaccharides (XOS) from pigeon pea stalks in order to do value addition. The chemical analysis of stalks revealed 18.33 ± 1.40 % hemicelluloses in addition to cellulose, protein, and lignin. Sodium hydroxide coupled with steam application enabled almost 96 % recovery of original xylan, present in the pigeon pea stalks. Enzymatic hydrolysis of xylan led to production of XOS namely, xylobiose and xylotriose. Response surface model indicated a maximum yield of xylobiose (0.502 mg/ml) under the hydrolysis conditions of pH 4.91, temperature at 48.11 °C, enzyme dose at 11.01 U, and incubation time at 15.65 h. The ideal conditions for higher xylotriose yield (0.204 mg/ml) were pH 5.44, temperature at 39.29 °C, enzyme dose at 3.23 U, and incubation time at 15.26 h. The present investigation was successful in assessing the prospect of using pigeon pea stalks as a raw material for xylan extraction vis-à-vis XOS production. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
40. An application of β-glycosidase to transformation of ginsenosides for the effective production of specific ginsenosides with biological efficacy.
- Author
-
Her, Youl, Lee, Young-Chul, Oh, Jin-Hwan, Choi, Yoon-E, Lee, Chang-Woo, Kim, Jin-Suk, Kim, Hwan, and Yang, Ji-Won
- Abstract
Over the past several decades, the pharmacological effects of ginsenosides in Panax ginseng roots have been extensively investigated. Here, we developed a method for producing specific ginsenosides (F1 and F2) with good yields (F1:162 mg/g, F2:305 mg/g) using β-glycosidase purified from Aspergillus niger. In addition, each ginsenoside (at least 25 species) was separated and purified by high performance liquid chromatography (HPLC) using five different types of solvents and different purification steps. In addition, the Rg3:Rh2 mixture (1:1, w/w) was shown to inhibit a specific lung cancer cell line (NCI-H232) in vivo, displaying an anticancer effect at a dose lower than achieved using treatments with single Rg3 or Rh2. This finding suggests that the combination of ginsenosides for targeting anticancer is more effective than the use of a single ginsenoside from ginseng or red ginseng. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
41. A novel use for sugarcane bagasse hemicellulosic fraction: Xylitol enzymatic production
- Author
-
de Freitas Branco, Ricardo, dos Santos, Julio C., and da Silva, Silvio S.
- Subjects
- *
SUGARCANE , *BAGASSE , *HEMICELLULOSE , *XYLITOL , *LIGNOCELLULOSE , *ENZYMATIC analysis , *BIOLOGICAL products , *HYDROLYSIS - Abstract
Abstract: The excess of sugarcane bagasse (SCB) from the sugar-alcohol industry is considered a by-product with great potential for many bioproducts production. This work had as objective to verify the performance of sugarcane bagasse hemicellulosic hydrolysate (SCBHH) as source of sugars for enzymatic or in vitro xylitol production. For this purpose, xylitol enzymatic production was evaluated using different concentrations of treated SCBHH in the commercial reaction media. The weak acid hydrolysis of SCB provided a hydrolysate with 18 g L−1 and 6 g L−1 of xylose and glucose, respectively. Considering the reactions, changes at xylose–xylitol conversion efficiency and volumetric productivity in xylitol were not observed for the control experiment and using 20 and 40% v.v−1 of SCBHH in the reaction media. The conversion efficiency achieved 100% in all the experiments tested. The results showed that treated SCBHH is suitable as xylose and glucose source for the enzymatic xylitol production and that this process has potential as an alternative for traditional xylitol production ways. [Copyright &y& Elsevier]
- Published
- 2011
- Full Text
- View/download PDF
42. Contribution of Tris Buffer on Xylitol Enzymatic Production.
- Author
-
Branco, Ricardo de Freitas and Silva, Silvio S.
- Abstract
Xylitol enzymatic production can be an alternative to chemical and microbial processes, because of advantages like higher conversion efficiency. However, for an adequate conversion, it is necessary to investigate the effect of many parameters, such as buffer initial concentration, pH, temperature, agitation, etc. In this context, the objective of this work was to evaluate xylitol enzymatic production under different Tris buffer initial concentrations in order to determine the best condition for this parameter to begin the reaction. The best results were obtained when Tris buffer initial concentration was 0.22 M, reaching 0.31 g L h xylitol volumetric productivity with 99% xylose–xylitol conversion efficiency. Although the increase in buffer concentration allowed better pH maintenance, it hindered the catalysis. The results demonstrate that this bioreaction is greatly influenced by involved ions concentrations. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
43. A techno-economic comparison between two technologies for bioethanol production from lignocellulose
- Author
-
Piccolo, Chiara and Bezzo, Fabrizio
- Subjects
- *
BIOMASS conversion , *BIOMASS energy , *ETHANOL as fuel , *LIGNOCELLULOSE - Abstract
Abstract: The conversion of biomass into biofuels can reduce the strategic vulnerability of petroleum-based transportation systems. Bioethanol has received considerable attention over the last years as a fuel extender or even as a neat liquid fuel. Lignocellulosic materials are very attractive substrates for the production of bioethanol because of their low cost and their great potential availability. Two different process alternatives (i.e. the enzymatic hydrolysis and fermentation process and the gasification and fermentation process) for the production of fuel ethanol from lignocellulosic feedstock are considered and analysed. After a rigorous mass and energy balance, design optimisation is carried out. Both processes are assessed in terms of ethanol yield and power generation as well as from a financial point of view. A sensitivity analysis on critical parameters of the processes'' productivity and profitability is performed. [Copyright &y& Elsevier]
- Published
- 2009
- Full Text
- View/download PDF
44. PROCESS STUDY ON ENZYMATIC HYDROLYSIS OF CRAMBE OIL FOR ERUCIC ACID ISOLATION.
- Author
-
Tao, C. and He, B.
- Subjects
- *
BIODIESEL fuels , *FEEDSTOCK , *LIPASES , *HYDROLYSIS , *SOLVOLYSIS - Abstract
High erucic acid (HEA) seed oils can be processed enzymatically to produce biodiesel and erucic acid (EA), a valuable industrial feedstock. This study aimed to conduct a research on an effective reaction pathway to isolate EA from other fatty acids in HEA oils utilizing appropriate lipase specificities. Crambe oil was chosen as the model working feedstock. Rhizomucor miehei lipase was chosen to selectively hydrolyze crambe oil to liberate EA from the HEA oil directly into free EA. The effects of reaction parameters, including water content, lipase concentration, mixing intensity, and reaction temperature, were studied. Experimental results of an orthogonal design showed that the effect of process parameters was significant for the reaction rate, but insignificant for the reaction selectivity. Further statistical analysis revealed that lipase concentration had the most significant effect on the reaction rate, while water content showed a negative effect on the hydrolysis. Individual effects of aqueous phase ratio, initial lipase concentration, and mixing intensity were further investigated separately at the optimal lipase activity temperature. Results showed that water played a role mainly in affecting the specific interracial area in the heterogeneous process of crambe oil hydrolysis. The interracial reaction rate increased with the increase in initial lipase concentration, but was limited by a critical value. Mixing intensity affected the hydrolysis to a certain extent and then leveled off due to the lack of further size reduction of the discrete phase. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
- View/download PDF
45. Enzymatic recovery and purification of polyhydroxybutyrate produced by Ralstonia eutropha
- Author
-
Kapritchkoff, Fernanda M., Viotti, Alexandre P., Alli, Rita C.P., Zuccolo, Marisa, Pradella, José G.C., Maiorano, Alfredo E., Miranda, Everson A., and Bonomi, Antonio
- Subjects
- *
ENZYMES , *PROTEINS , *CATALYSTS , *PANCREATIC secretions - Abstract
Abstract: Polyhydroxybutyrate (PHB) is the most studied among a wide variety of polyhydroxyalkanoates, bacterial biodegradable polymers known as potential substitutes for conventional plastics. This work aimed at evaluating the use of enzymes to recover and purify the PHB produced by Ralstonia eutropha DSM545. Screening experiments allowed the selection of trypsin, bromelain and lysozyme among six enzymes, based on their efficiency in lysing cells of a non-PHB producing R. eutropha strain. Then, process conditions for high efficiency in PHB purification from the DSM545 cells were searched for the enzymes previously selected. The best result was achieved with 2.0% of bromelain (enzyme mass per biomass), equivalent to 14.1Uml−1, at 50°C and pH 9.0, resulting in 88.8% PHB purity. Aiming at improving the process efficiency and reducing the enzyme cost, experiments were carried out with pancreatin, leading to 90.0% polymer purity and an enzyme cost three times lower than the one obtained with bromelain. The molecular mass analysis of PHB showed no polymer degradation. Therefore, this work demonstrates the potential of using enzymes in order to recover and purify PHB and bacterial biopolymers in general. [Copyright &y& Elsevier]
- Published
- 2006
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46. CAROTENOPROTEIN FROM TROPICAL BROWN SHRIMP SHELL WASTE BY ENZYMATIC PROCESS.
- Author
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Chakrabarti, Rupsankar
- Subjects
- *
PROTEINS , *CAROTENOIDS , *BODY covering (Anatomy) , *SHRIMPS - Abstract
While extraction of carotenoprotein from brown shrimp (Metapenaeus monoceros) shell waste, trypsin showed maximum recovery (55%) of carotenoid pigment in 4 hours at (28 ± 2°C); but pepsin and papain showed about 50% recovery during the same period. The yield of protein paste by trypsin was maximum. The average protein content in the protein paste was about 450 g kg[sup -1]. The percent of recovery of protein by papain and pepsin was close to that of trypsin. During storage at ambient temperature (28 ± 5°C) loss of carotenoids from cake prepared by trypsin was minimum. The cost of trypsin is twenty times that of papain. Thus papain, easily available and the cheapest enzyme, can be used suitably for moderate recovery of carotenoids and good recovery of protein from shrimp shell waste at tropical ambient temperature. The dried colorless solid residue after extraction of carotenoprotein and protein, can be used as raw materials for chitin/chitosan. [ABSTRACT FROM AUTHOR]
- Published
- 2002
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47. Flavor components of olive oil—A review.
- Author
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Kiritsakis, A.
- Abstract
The unique and delicate flavor of olive oil is attributed to a number of volatile components. Aldehydes, alcohols, esters, hydrocarbons, ketones, furans, and other compounds have been quantitated and identified by gas chromatography-mass spectrometry in good-quality olive oil. The presence of flavor compounds in olive oil is closely related to its sensory quality. Hexanal, trans-2-hexenal, 1-hexanol, and 3-methylbutan-1-ol are the major volatile compounds of olive oil. Volatile flavor compounds are formed in the olive fruit through an enzymatic process. Olive cultivar, origin, maturity stage of fruit, storage conditions of fruit, and olive fruit processing influence the flavor components of olive oil and therefore its taste and aroma. The components octanal, nonala, and 2-hexenal, as well as the volatile alcohols propanol, amyl alcohols, 2-hexenol, 2-hexanol, and heptanol, characterize the olive cultivar. There are some slight changes in the flavor components in olive oil obtained from the same oil cultivar grown in different areas. The highest concentration of volatile components appears at the optimal maturity stage of fruit. During storage of olive fruit, volatile flavor components, such as aldehydes and esters, decrease. Phenolic compounds also have a significant effect on olive oil flavor. There is a good correlation between aroma and flavor of olive oil and its polyphenol content. Hydroxytyrosol, tyrosol, caffeic acid, coumaric acid, and p-hydroxybenzoic acid influence mostly the sensory characteristics of olive oil. Hydroxytyrosol is present in good-quality olive oil, while tyrosol and some phenolic acids are found in olive oil of poor quality. Various off-flavor compounds are formed by oxidation, which may be initiated in the olive fruit. Pentanal, hexanal, octanal, and nonanal are the major compounds formed in oxidized olive oil, but 2-pentenal and 2-heptenal are mainly responsible for the off-flavor. [ABSTRACT FROM AUTHOR]
- Published
- 1998
- Full Text
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48. Modern processing of rapeseed.
- Author
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Ohlson, Ragnar
- Abstract
The various processing steps for rapeseed into finished oil and meal products have been reviewed. Particular attention has been given to recent developments, such as the inclusion of an extruder step in oil extraction, an aqueous enzymatic process to separate flakes into oil, flour and molasses, the TOP total degumming process, and the new Centri-Ad process to eliminate small quantities of impurities (dissolved or emulsified) from large volumes of liquid by a continuous adsorption-centrifugation technique. [ABSTRACT FROM AUTHOR]
- Published
- 1992
- Full Text
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49. Alternative Process for Production of Sweet Potato Distilled Beverage
- Author
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Caroline Trevisan Weber, Tiago Casagrande, Gabriela Candido, Luciane Ferreira Trierweiler, and Jorge Otávio Trierweiler
- Subjects
tuber crops ,ethanol ,alcoholic beverage ,shochu ,enzymatic process ,Biotechnology ,TP248.13-248.65 - Abstract
Abstract Shochu is the most widely consumed spirit in Japan. In its manufacture is used koji, a solid fungus culture traditional of the Asian countries, but that makes the production process slow. Shochu can be produced from a variety of starchy sources, including sweet potato. About 7% of the world’s sweet potato production is wasted due to imperfections that make it unsuitable for consumption. However, this material can be used in ethanol production. Considering the high productivity of sweet potato in Brazil, an opportunity to add value to this raw material is perceived. An alternative process for the production of sweet potato distillate similar to shochu was proposed. Koji was replaced by a mixture of alpha-amylase and glucoamylase. Process time was reduced from 14 to only 1 day. Composition analyses were performed by HPLC and GC. The experimental yield of alcoholic fermentation using pectinase enzyme reached 67.31-73.65%, but methanol was above the limits of the legislation. Without the addition of pectinase, no methanol was formed. However, there was a decrease in yield (51.65-54.75%), due to the incomplete disintegration of sweet potatoes. The distillate produced and the commercial shochu presented the same absorption bands in FTIR analysis, identifying the similarity between them.
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50. Value addition of corn husks through enzymatic production of xylooligosaccharides
- Author
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Ashis Kumar Samanta, A.P. Kolte, A.V. Elangovan, A. Dhali, S. Senani, M. Sridhar, K.P. Suresh, N. Jayapal, C. Jayaram, and Sohini Roy
- Subjects
Corn waste ,xylan extraction ,prebiotic ,enzymatic process ,XOS ,Biotechnology ,TP248.13-248.65 - Abstract
ABSTRACT Corn husks are the major wastes of corn industries with meagre economic significance. The present study was planned for value addition of corn husk through extraction of xylan, followed by its enzymatic hydrolysis into xylooligosaccharides, a pentose based prebiotic. Compositional analysis of corn husks revealed neutral detergent fibre 68.87%, acid detergent fibre 31.48%, hemicelluloses 37.39%, cellulose 29.07% and crude protein 2.68%. Irrespective of the extraction conditions, sodium hydroxide was found to be more effective in maximizing the yield of xylan from corn husks than potassium hydroxide (84% vs. 66%). Application of xylanase over the xylan of corn husks resulted into production of xylooligosaccharides with different degree of polymerization namely, xylobiose and xylotriose in addition to xylose monomer. On the basis of response surface model analysis, the maximum yield of xylobiose (1.9 mg/ml) was achieved with the enzymatic hydrolysis conditions of pH 5.8, temperature 44°C, enzyme dose 5.7U/ml and hydrolysis time of 17.5h. Therefore, the corn husks could be used as raw material for xylan extraction vis a vis its translation into prebiotic xylooligosaccharides.
- Full Text
- View/download PDF
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