Figure 2.
Figure 2. TRMA cells without thiamine exhibit decreased RNA ribose synthesis via transketolase. The fraction of RNA ribose derived from the oxidative (G6PD) and nonoxidative (TK) pathways is shown on the x-axis. The figure shows the significant rearrangement of oxidative/nonoxidative ribose synthesis pathways in TRMA cells, primarily shifting toward oxidative synthesis, while wild-type cells maintain metabolic activities and identical substrate flow in the pentose cycle after thiamine depletion. (Mean ± SD; n = 9) *P < .001.

TRMA cells without thiamine exhibit decreased RNA ribose synthesis via transketolase. The fraction of RNA ribose derived from the oxidative (G6PD) and nonoxidative (TK) pathways is shown on the x-axis. The figure shows the significant rearrangement of oxidative/nonoxidative ribose synthesis pathways in TRMA cells, primarily shifting toward oxidative synthesis, while wild-type cells maintain metabolic activities and identical substrate flow in the pentose cycle after thiamine depletion. (Mean ± SD; n = 9) *P < .001.

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