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Items: 6


A comparative transcriptomic, fluxomic and metabolomic analysis of the response of Saccharomyces cerevisiae to increases in NADPH oxidation.

Celton M, Sanchez I, Goelzer A, Fromion V, Camarasa C, Dequin S.

BMC Genomics. 2012 Jul 17;13:317. doi: 10.1186/1471-2164-13-317.


NADPH-generating systems in bacteria and archaea.

Spaans SK, Weusthuis RA, van der Oost J, Kengen SW.

Front Microbiol. 2015 Jul 29;6:742. doi: 10.3389/fmicb.2015.00742. eCollection 2015. Review.


Metabolic control of redox and redox control of metabolism in plants.

Geigenberger P, Fernie AR.

Antioxid Redox Signal. 2014 Sep 20;21(9):1389-421. doi: 10.1089/ars.2014.6018. Epub 2014 Jul 31. Review.


Engineering redox homeostasis to develop efficient alcohol-producing microbial cell factories.

Zhao C, Zhao Q, Li Y, Zhang Y.

Microb Cell Fact. 2017 Jun 24;16(1):115. doi: 10.1186/s12934-017-0728-3. Review.


The impact of metagenomic interplay on the mosquito redox homeostasis.

Champion CJ, Xu J.

Free Radic Biol Med. 2017 Apr;105:79-85. doi: 10.1016/j.freeradbiomed.2016.11.031. Epub 2016 Nov 20. Review.


Time and Demand are Two Critical Dimensions of Immunometabolism: The Process of Macrophage Activation and the Pentose Phosphate Pathway.

Nagy C, Haschemi A.

Front Immunol. 2015 Apr 8;6:164. doi: 10.3389/fimmu.2015.00164. eCollection 2015. Review.

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