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148 related items for PubMed ID: 17849411

  • 1. A comparative proteomic approach to understand the adaptations of an H+ -ATPase-defective mutant of Corynebacterium glutamicum ATCC14067 to energy deficiencies.
    Li L, Wada M, Yokota A.
    Proteomics; 2007 Sep; 7(18):3348-57. PubMed ID: 17849411
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  • 2. Mechanism of increased respiration in an H+-ATPase-defective mutant of Corynebacterium glutamicum.
    Sawada K, Kato Y, Imai K, Li L, Wada M, Matsushita K, Yokota A.
    J Biosci Bioeng; 2012 Apr; 113(4):467-73. PubMed ID: 22188772
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  • 4. Enhanced valine production in Corynebacterium glutamicum with defective H+-ATPase and C-terminal truncated acetohydroxyacid synthase.
    Wada M, Hijikata N, Aoki R, Takesue N, Yokota A.
    Biosci Biotechnol Biochem; 2008 Nov; 72(11):2959-65. PubMed ID: 18997402
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  • 6. Effect of NADH dehydrogenase-disruption and over-expression on respiration-related metabolism in Corynebacterium glutamicum KY9714.
    Nantapong N, Kugimiya Y, Toyama H, Adachi O, Matsushita K.
    Appl Microbiol Biotechnol; 2004 Dec; 66(2):187-93. PubMed ID: 15558275
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  • 7. Functions of the membrane-associated and cytoplasmic malate dehydrogenases in the citric acid cycle of Corynebacterium glutamicum.
    Molenaar D, van der Rest ME, Drysch A, Yücel R.
    J Bacteriol; 2000 Dec; 182(24):6884-91. PubMed ID: 11092846
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  • 9. [Glyoxylate cycle is required for the overproduction of glutamate but is not essential for Corynebacterium glutamicum growth on glucose].
    Yu BQ, Shen W, Wang ZX, Zhuge J.
    Sheng Wu Gong Cheng Xue Bao; 2005 Mar; 21(2):270-4. PubMed ID: 16013488
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  • 11. Comparative proteomes of Corynebacterium glutamicum grown on aromatic compounds revealed novel proteins involved in aromatic degradation and a clear link between aromatic catabolism and gluconeogenesis via fructose-1,6-bisphosphatase.
    Qi SW, Chaudhry MT, Zhang Y, Meng B, Huang Y, Zhao KX, Poetsch A, Jiang CY, Liu S, Liu SJ.
    Proteomics; 2007 Oct; 7(20):3775-87. PubMed ID: 17880007
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  • 13. Expression of glf Z.m. increases D-mannitol formation in whole cell biotransformation with resting cells of Corynebacterium glutamicum.
    Bäumchen C, Bringer-Meyer S.
    Appl Microbiol Biotechnol; 2007 Sep; 76(3):545-52. PubMed ID: 17503033
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  • 14. Characterization of citrate utilization in Corynebacterium glutamicum by transcriptome and proteome analysis.
    Polen T, Schluesener D, Poetsch A, Bott M, Wendisch VF.
    FEMS Microbiol Lett; 2007 Aug; 273(1):109-19. PubMed ID: 17559405
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  • 15. Physiology and global gene expression of a Corynebacterium glutamicum ΔF(1)F(O)-ATP synthase mutant devoid of oxidative phosphorylation.
    Koch-Koerfges A, Kabus A, Ochrombel I, Marin K, Bott M.
    Biochim Biophys Acta; 2012 Feb; 1817(2):370-80. PubMed ID: 22050934
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  • 17. Glucose consumption rate critically depends on redox state in Corynebacterium glutamicum under oxygen deprivation.
    Tsuge Y, Uematsu K, Yamamoto S, Suda M, Yukawa H, Inui M.
    Appl Microbiol Biotechnol; 2015 Jul; 99(13):5573-82. PubMed ID: 25808520
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  • 18. Correlation between proton translocation and growth: genetic analysis of the respiratory chain of Corynebacterium glutamicum.
    Kabashima Y, Kishikawa J, Kurokawa T, Sakamoto J.
    J Biochem; 2009 Dec; 146(6):845-55. PubMed ID: 19734178
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