Contribution of amino‐acid production to the catabolism of BCAAs and AAAs, and to ATP generation under slow‐growing conditions. Contribution of amino‐acid.

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Contribution of amino‐acid production to the catabolism of BCAAs and AAAs, and to ATP generation under slow‐growing conditions. Contribution of amino‐acid production to the catabolism of BCAAs and AAAs, and to ATP generation under slow‐growing conditions. (A) Effect of Arg, Asp, and Met production on ATP generation under conditions of constrained (closed bars) or unconstrained (open bars) ammonium efflux. FBA was used to maximize ATP production, using measured fluxes after 24 days under retentostat conditions (see section I.5 of Supplementary Dataset S1 for details). Scaled reduced costs were calculated as ri*qi/qATP, where qi represents the flux through reaction i, qATP is the objective function, and ri is the absolute reduced cost associated with reaction i. Note that Ala production was not included in this graph as it was not observed before 31 days in retentostat conditions. (B) Metabolic pathways associated with regeneration of 2‐ketoglutarate (2‐KG) for the conversion of BCAA and AAA into their cognate 2‐ketoacid (2‐KA). The color code represents the different solutions used for regenerating 2‐KG: green, glutamate dehydrogenase coupled to NH4+ efflux (dark green) or to other NH4+ dissipation reactions (light green); orange, acetyldiaminopimelate transaminase; light blue, Asp biosynthesis; dark blue, Asp biosynthesis coupled to excretion; purple, purine biosynthesis; light brown, Ala biosynthesis; dark brown; Ala biosynthesis coupled to excretion; red, Arg biosynthesis; dark red, Arg biosynthesis coupled to excretion. Extracellular metabolites are boxed. (C) Relative contribution of the different pathways involved in the regeneration of 2‐KG produced by the catabolism of BCAA and AAA during the course of retentostat cultivation. The color code is the same as in panel B. The contribution of the different pathways was calculated based on 2‐KG regeneration allowed by each pathway, as determined in section I.6 of Supplementary information. The contribution of individual reactions within each pathway is detailed in Supplementary Figure S4. Abbreviations: AcAOP, N‐acetyl‐l‐2‐amino‐6‐oxopimelate; AcDAP, N‐acetyl‐ll‐2,6‐diaminopimelate. Philippe Goffin et al. Mol Syst Biol 2010;6:413 © as stated in the article, figure or figure legend