Fig. 7: Predicted H2 flux by metabolic modeling using representative high-quality genomes. | Nature Communications

Fig. 7: Predicted H2 flux by metabolic modeling using representative high-quality genomes.

From: Reduced methane emissions in transgenic rice genotypes are associated with altered rhizosphere microbial hydrogen cycling

Fig. 7: Predicted H2 flux by metabolic modeling using representative high-quality genomes.

Inferred H2 production (a–c) and H2 consumption (d–f) under varying PSY over-secreted exudate and O2 concentrations. Fold changes of over-secreted exudates and O2 are defined when compared to essential nutrients that do not differ across rice genotypes. Insets in a–c show details of H2 production at low over-secreted exudate concentrations. H2 consumption in d–f was calculated by subtracting final H2 concentrations from initial. Genome name abbreviations: Bacteroidia_37, REG_22_10_11_KiT_metabat2_37 in Supplementary Data 7; Ignavibacteriota_4780, REG_22_11_18_KiT_metabat2_4780; Moranbacteria_75, REG_22_11_18_KiT_metabat2_75; Acidobacteriota_95, REG_22_09_28_Psy117_metabat2_95; Proteobacteria_149, REG_22_10_11_Psy117_concoct_149; Deinococcota_10534, REG_22_09_28_KiT_vamb_10534. All detailed information of these genomes is present in Supplementary Data 7.

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