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Journal Abstract Search

131 related items for PubMed ID: 39281443

  • 21. Substrate selectivity of Gluconobacter oxydans for production of 2,5-diketo-D-gluconic acid and synthesis of 2-keto-L-gulonic acid in a multienzyme system.
    Ji A, Gao P.
    Appl Biochem Biotechnol; 2001 Jun; 94(3):213-23. PubMed ID: 11563824
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  • 24. [Biosynthesis of α-lipoic acid in Gluconobacter oxydans increases the production of vitamin C by one-step fermentation].
    Liu Y, Wang E, Pan C, Dong X, Ding M.
    Sheng Wu Gong Cheng Xue Bao; 2019 Jul 25; 35(7):1266-1276. PubMed ID: 31328483
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  • 27. Biotransformation of glucose to 5-keto-D-gluconic acid by recombinant Gluconobacter oxydans DSM 2343.
    Herrmann U, Merfort M, Jeude M, Bringer-Meyer S, Sahm H.
    Appl Microbiol Biotechnol; 2004 Mar 25; 64(1):86-90. PubMed ID: 14564486
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  • 28. High-Yield Production of Dihydroxyacetone from Crude Glycerol in Fed-Batch Cultures of Gluconobacter oxydans.
    Górska K, Garncarek Z.
    Molecules; 2024 Jun 20; 29(12):. PubMed ID: 38930996
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  • 30. A facile process for adipic acid production in high yield by oxidation of 1,6-hexanediol using the resting cells of Gluconobacter oxydans.
    Pyo SH, Sayed M, Örn OE, Amorrortu Gallo J, Fernandez Ros N, Hatti-Kaul R.
    Microb Cell Fact; 2022 Oct 28; 21(1):223. PubMed ID: 36307807
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  • 33. Efficient 1,3-dihydroxyacetone biosynthesis in Gluconobacter oxydans using metabolic engineering and a fed-batch strategy.
    Zeng W, Shan X, Liu L, Zhou J.
    Bioresour Bioprocess; 2022 Nov 26; 9(1):121. PubMed ID: 38647819
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  • 34. Process for the successive production of calcium galactonate crystals by Gluconobacter oxydans.
    Zhou X, Hua X, Zhou X, Xu Y.
    Bioresour Technol; 2018 Aug 26; 261():458-460. PubMed ID: 29685484
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  • 35. Incapability of Gluconobacter oxydans to produce tartaric acid.
    Klasen R, Bringer-Meyer S, Sahm H.
    Biotechnol Bioeng; 1992 Jun 05; 40(1):183-6. PubMed ID: 18601061
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  • 36. Stepwise metabolic engineering of Gluconobacter oxydans WSH-003 for the direct production of 2-keto-L-gulonic acid from D-sorbitol.
    Gao L, Hu Y, Liu J, Du G, Zhou J, Chen J.
    Metab Eng; 2014 Jul 05; 24():30-7. PubMed ID: 24792618
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  • 37. Efficient coproduction of gluconic acid and xylonic acid from lignocellulosic hydrolysate by Zn(II)-selective inhibition on whole-cell catalysis by Gluconobacter oxydans.
    Zhou X, Zhou X, Huang L, Cao R, Xu Y.
    Bioresour Technol; 2017 Nov 05; 243():855-859. PubMed ID: 28724257
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  • 38. Engineered Expression Vectors Significantly Enhanced the Production of 2-Keto-D-gluconic Acid by Gluconobacter oxidans.
    Shi YY, Li KF, Lin JP, Yang SL, Wei DZ.
    J Agric Food Chem; 2015 Jun 10; 63(22):5492-8. PubMed ID: 26009934
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  • 39. Improving the production yield and productivity of 1,3-dihydroxyacetone from glycerol fermentation using Gluconobacter oxydans NL71 in a compressed oxygen supply-sealed and stirred tank reactor (COS-SSTR).
    Zhou X, Zhou X, Xu Y, Yu S.
    Bioprocess Biosyst Eng; 2016 Aug 10; 39(8):1315-8. PubMed ID: 27021347
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  • 40. Enhanced production of l-sorbose by systematic engineering of dehydrogenases in Gluconobacter oxydans.
    Liu L, Chen Y, Yu S, Chen J, Zhou J.
    Synth Syst Biotechnol; 2022 Jun 10; 7(2):730-737. PubMed ID: 35356389
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