Novel Probiotic/Bacterial Cellulose Biocatalyst for the Development of Functional Dairy Beverage by Iliada K. Lappa, Vasiliki Kachrimanidou, Maria Alexandri, Aikaterini Papadaki, Nikolaos Kopsahelis

“…Lactic acid bacteria (LAB) cultures were evaluated for their fermentation efficiency, before and after freeze-drying, using cheese whey (CW) as a fermentation substrate and subsequent immobilization on bacteria cellulose (BC) to produce a novel biocatalyst. The biocatalyst was applied in functional sour milk production and compared with free cells via the assessment of physicochemical and microbiological properties and sensory evaluation. …”
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Evaluation of Lipases from Wild Microbial Strains as Biocatalysts in Biodiesel Production by Carlos Luna, Diego Luna, Felipa M. Bautista, Juan Calero, Antonio A. Romero, Alejandro Posadillo, Enrique D. Sancho, Rafael Estevez

“…Such extracts were directly used as biocatalysts in the transesterification reaction of sunflower oil with ethanol, attaining much better results (yield close to 100%) than those obtained with strains which were not submitted to the purification process (yields lower than 10%). …”
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Excelzyme: A Swiss University-Industry Collaboration for Accelerated Biocatalyst Development by Sumire Honda Malca, Peter Stockinger, Nadine Duss, Daniela Milbredt, Hans Iding, Rebecca Buller

“…Excelzyme, an enzyme engineering platform located at the Zurich University of Applied Sciences, is dedicated to accelerating the development of tailored biocatalysts for large-scale industrial applications. …”
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Editorial: Design and application of biocatalysts for biofuel and bio-based material production by Hossain M. Zabed, Sandip B. Bankar, Mohammad Rehan, Abdul-Sattar Nizami, Abdul-Sattar Nizami, Md. Asraful Alam, M. Mofijur, M. Mofijur

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Lipases as Effective Green Biocatalysts for Phytosterol Esters’ Production: A Review by Adejanildo da S. Pereira, Aline Habibe de Souza, Jully L. Fraga, Pierre Villeneuve, Alexandre G. Torres, Priscilla F. F. Amaral

“…Lipases are versatile enzymes widely used in the pharmaceutical, cosmetic, and food industries. They are green biocatalysts with a high potential for industrial use compared to traditional chemical methods. …”
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Prospects for Combined Applications of Nanostructured Catalysts and Biocatalysts for Elimination of Hydrocarbon Pollutants by Olga Maslova, Olga Senko, Marina A. Gladchenko, Sergey N. Gaydamaka, Elena Efremenko

“…The possibilities of highly efficient elimination of hydrocarbon pollutants as a result of the hybrid application of nanoparticles (graphene oxide, mesoporous silica, magnetic nanocatalysts, etc.) or catalytic nanocomposites for advanced oxidation processes and biocatalysts (enzymes, cells of bacteria, mycelial fungi, phototrophic microorganisms and natural or artificial microbial consortia) are analyzed.…”
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Integrated (Meta) Genomic and Synthetic Biology Approaches to Develop New Biocatalysts by María L. Parages, José A. Gutiérrez-Barranquero, F. Jerry Reen, Alan D.W. Dobson, Fergal O’Gara

“…Furthermore, biocatalysts are known to possess chiral selectivity and specificity, a key focus of pharmaceutical drug design. …”
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Editorial Catalysts: Special Issue on Novel Enzyme and Whole-Cell Biocatalysts by Anwar Sunna, Richard Daniellou

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Metagenomic Discovery and Characterization of Multi-Functional and Monomodular Processive Endoglucanases as Biocatalysts by Ming Z. Fan, Weijun Wang, Laurence Cheng, Jiali Chen, Wenyi Fan, Min Wang

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The role of biocatalysts in the synthesis of graphene nanosheets from sub-bituminous coal by Vivi Purwandari, Martha Rianna, Marpongahtun, Isnaeni Isnaeni, Yiming Zou, Mahyuni Harahap, Gratianus Halawa, Ronn Goei, Alfred Iing Yoong Tok

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Design and engineering of whole‐cell biocatalyst for efficient synthesis of (R)‐citronellal by Baoqi Zhang, Han Du, Yanqiu Zheng, Jiale Sun, Yu Shen, Jinping Lin, Dongzhi Wei

“…The variant Y84V was then co‐expressed with glucose dehydrogenase from Bacillus megaterium in E. coli D4, in which competing prim‐alcohol dehydrogenase genes were deleted to prevent the undesired reduction in the aldehyde moiety of citral and citronellal. Employing this biocatalyst, 106 g l−1 (E/Z)‐citral was completely converted into (R)‐citronellal with 95.4% ee value and a high space‐time yield of 121.6 g l−1 day−1. …”
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The role of biocatalysts in the synthesis of graphene nanosheets from sub-bituminous coal by Purwandari, Vivi, Rianna, Martha, Marpongahtun, Isnaeni, Isnaeni, Zou, Yiming, Harahap, Mahyuni, Halawa, Gratianus, Goei, Ronn, Tok, Alfred Iing Yoong

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Silica-encapsulated nanomagnetic particle as a new recoverable biocatalyst carrier by Tsang, S, Yu, C, Gao, X, Tam, K

“…Enzymes are versatile biocatalysts with major advantages of ultrahigh reaction selectivity and specificity under mild conditions, which currently find increasing applications. …”

Silica-encapsulated nanomagnetic particle as a new recoverable biocatalyst carrier. by Tsang, S, Yu, C, Gao, X, Tam, K

“…Enzymes are versatile biocatalysts with major advantages of ultrahigh reaction selectivity and specificity under mild conditions, which currently find increasing applications. …”

Reaction kinetics of the esterification of lauric acid in Iso-octane using an immobilized biocatalyst / by 190440 Lima, F. Vazquez, Pyle, D. L., Asenjo, Juan A., 1949-

Immobilized Soybean Peroxidase Hybrid Biocatalysts for Efficient Degradation of Various Emerging Pollutants by Rana Morsi, Khadega A. Al-Maqdi, Muhammad Bilal, Hafiz M. N. Iqbal, Abbas Khaleel, Iltaf Shah, Syed Salman Ashraf

Subjects: “…biocatalysts…”
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Magnetic Nanomaterials as Biocatalyst Carriers for Biomass Processing: Immobilization Strategies, Reusability, and Applications by Mayra A. Mariño, Stephanie Fulaz, Ljubica Tasic

“…Numerous studies report the biocatalysts’ performance after covalent binding or adsorption on differently functionalized magnetic nanoparticles (MNPs). …”
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Novel Biocatalysts Based on Bromelain Immobilized on Functionalized Chitosans and Research on Their Structural Features by Marina G. Holyavka, Svetlana S. Goncharova, Andrey V. Sorokin, Maria S. Lavlinskaya, Yulia A. Redko, Dzhigangir A. Faizullin, Diana R. Baidamshina, Yuriy F. Zuev, Maxim S. Kondratyev, Airat R. Kayumov, Valeriy G. Artyukhov

“…In addition, all derivatives of chitosan studied in this work form hydrogen bonds with His158 located in the active site of bromelain (except <i>N</i>-(2-hydroxypropyl)-3-trimethylammonium chitosan), apparently explaining a significant decrease in the activity of biocatalysts. The <i>N</i>-(2-hydroxypropyl)-3-trimethylammonium chitosan displays only physical interactions with His158, thus possibly modulating the structure of the bromelain active site and leading to the hyperactivation of the enzyme, up to 208% of the total activity and 158% of the specific activity. …”
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Strategies to Use Nanofiber Scaffolds as Enzyme-Based Biocatalysts in Tissue Engineering Applications by Taha Umair Wani, Anjum Hamid Rather, Rumysa Saleem Khan, Mushtaq A. Beigh, Mira Park, Bishweshwar Pant, Faheem A. Sheikh

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The Arginine Kinase from the Tick <i>Rhipicephalus sanguineus</i> Is an Efficient Biocatalyst by Ana C. Gomez-Yanes, Elena N. Moreno-Cordova, Karina D. Garcia-Orozco, Aldana Laino, Maria A. Islas-Osuna, Alonso A. Lopez-Zavala, Jesus G. Valenzuela, Rogerio R. Sotelo-Mundo

“…The Michaelis-Menten kinetics confirmed that <i>Rs</i>AK is an efficient biocatalyst due to its high <i>k_cat</i>/<i>K_m</i> parameter. …”
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