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Journal Abstract Search


247 related items for PubMed ID: 35354766

  • 1. Optimization of an Industrial Medium and Culture Conditions for Probiotic Weissella cibaria JW15 Biomass Using the Plackett-Burman Design and Response Surface Methodology.
    Yu HS, Lee NK, Kim WJ, Lee DU, Kim JH, Paik HD.
    J Microbiol Biotechnol; 2022 May 28; 32(5):630-637. PubMed ID: 35354766
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  • 3. Optimization of the medium for Lactobacillus acidophilus by Plackett-Burman and steepest ascent experiment.
    Chen H, Niu J, Qin T, Ma Q, Wang L, Shu G.
    Acta Sci Pol Technol Aliment; 2015 May 28; 14(3):227-232. PubMed ID: 28068030
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  • 4. Enhanced mycelial biomass production of the hairy bracket mushroom, Trametes hirsuta (Higher Basidiomycetes), by optimizing medium component with Plackett-Burman design and response surface methodology.
    Yang R, Liu X, Zhao X, Xu Y, Ma R.
    Int J Med Mushrooms; 2013 May 28; 15(6):595-605. PubMed ID: 24266383
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  • 5. Vegan grade medium component screening and concentration optimization for the fermentation of the probiotic strain Lactobacillus paracasei IMC 502® using Design of Experiments.
    Parecha D, Alfano A, Cimini D, Schiraldi C.
    J Ind Microbiol Biotechnol; 2024 Jan 09; 51():. PubMed ID: 38658186
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  • 7. Optimization of dextran production by Weissella cibaria NITCSK4 using Response Surface Methodology-Genetic Algorithm based technology.
    Kanimozhi J, Moorthy IG, Sivashankar R, Sivasubramanian V.
    Carbohydr Polym; 2017 Oct 15; 174():103-110. PubMed ID: 28821024
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  • 10. Optimal conditions for the encapsulation of Weissella cibaria JW15 using alginate and chicory root and evaluation of capsule stability in a simulated gastrointestinal system.
    Kim M, Nam DG, Im P, Choe JS, Choi AJ.
    J Food Sci; 2020 Feb 15; 85(2):394-403. PubMed ID: 31976556
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  • 11. The Plackett-Burman design in optimization of media components for biomass production of Lactobacillus rhamnosus OXY.
    Waśko A, Kordowska-Wiater M, Podleśny M, Polak-Berecka M, Targoński Z, Kubik-Komar A.
    Acta Biol Hung; 2010 Sep 15; 61(3):344-55. PubMed ID: 20724280
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  • 12. Dextran Utilization During Its Synthesis by Weissella cibaria RBA12 Can Be Overcome by Fed-Batch Fermentation in a Bioreactor.
    Baruah R, Deka B, Kashyap N, Goyal A.
    Appl Biochem Biotechnol; 2018 Jan 15; 184(1):1-11. PubMed ID: 28573604
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  • 14. Anti-Inflammatory Potential of Probiotic Strain Weissella cibaria JW15 Isolated from Kimchi through Regulation of NF-κB and MAPKs Pathways in LPS-Induced RAW 264.7 Cells.
    Yu HS, Lee NK, Choi AJ, Choe JS, Bae CH, Paik HD.
    J Microbiol Biotechnol; 2019 Jul 28; 29(7):1022-1032. PubMed ID: 31216608
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  • 15. The immune-modulating effects of viable Weissella cibaria JW15 on RAW 264.7 macrophage cells.
    Park HE, Do KH, Lee WK.
    J Biomed Res; 2019 Nov 28; 34(1):36-43. PubMed ID: 35081681
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  • 16. Antagonistic and antioxidant effect of probiotic Weissella cibaria JW15.
    Yu HS, Lee NK, Choi AJ, Choe JS, Bae CH, Paik HD.
    Food Sci Biotechnol; 2019 Jun 28; 28(3):851-855. PubMed ID: 31093443
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  • 18. An economic approach for L-(+) lactic acid fermentation by Lactobacillus amylophilus GV6 using inexpensive carbon and nitrogen sources.
    Altaf M, Venkateshwar M, Srijana M, Reddy G.
    J Appl Microbiol; 2007 Aug 28; 103(2):372-80. PubMed ID: 17650197
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  • 19. Optimization of probiotic and lactic acid production by Lactobacillus plantarum in submerged bioreactor systems.
    Brinques GB, do Carmo Peralba M, Ayub MA.
    J Ind Microbiol Biotechnol; 2010 Feb 28; 37(2):205-12. PubMed ID: 19936814
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