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Minimal Pathway for the Regeneration of Redox Cofactors:
Michele Partipilo (11689122)
;
Eleanor J. Ewins (11689125)
;
Jacopo Frallicciardi (11689128)
...
https://figshare.com/articles/journal_contribution/Minimal_Pathway_for_the_Regeneration_of_Redox_Cofactors/17000604. , 2021
Link:
https://doi.org/10.1021/jacsau.1c00406.s001
RT Journal T1
Minimal Pathway for the Regeneration of Redox Cofactors
UL https://suche.suub.uni-bremen.de/peid=base-ftsmithonian:oai:figshare.com:article_17000604&Exemplar=1&LAN=DE A1 Michele Partipilo (11689122) A1 Eleanor J. Ewins (11689125) A1 Jacopo Frallicciardi (11689128) A1 Tom Robinson (1727026) A1 Bert Poolman (207772) A1 Dirk Jan Slotboom (2027497) YR 2021 K1 Biochemistry K1 Microbiology K1 Cell Biology K1 Genetics K1 Physiology K1 Pharmacology K1 Immunology K1 Infectious Diseases K1 Computational Biology K1 Biological Sciences not elsewhere classified K1 vitro systems mimicking K1 sup >+</ sup K1 large unilamellar vesicles K1 giant unilamellar vesicles K1 formic acid permeates K1 externally provided formate K1 thereby making nad K1 nicotinamide cofactors nadh K1 downstream biochemical process K1 carbon dioxide diffuses K1 carbon dioxide K1 thereby providing K1 form nadh K1 biochemical complexity K1 versatile set K1 several tens K1 remains active K1 reductive metabolism K1 reducing equivalents K1 redox status K1 pathways require K1 metabolic branch K1 living cells K1 hundred nanometers K1 glutathione disulfide K1 first reaction K1 electron donors K1 7 days JF https://figshare.com/articles/journal_contribution/Minimal_Pathway_for_the_Regeneration_of_Redox_Cofactors/17000604 LK http://dx.doi.org/https://doi.org/10.1021/jacsau.1c00406.s001 DO https://doi.org/10.1021/jacsau.1c00406.s001 SF ELIB - SuUB Bremen
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