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Furthermore, enoA transcript levels in glycolytic conditions are higher than in gluconeogenic conditions. Conversely, acuN is more highly transcribed in gluconeogenic conditions. This suggests that the stringent usage of alternative TSSs and higher transcription in glycolytic conditions in enoA may reflect that the A. oryzae evolutionary genetic background was domesticated by exclusive growth in starch-rich environments. These findings provide novel insights into the complexity and diversity of transcriptional regulation of glycolytic/