Position of de novo purine biosynthesis gene disruptions shapes purine-starvation phenotypes in Saccharomyces cerevisiae

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Abstract

Purine starvation induces a quiescence-like and stress-resistant physiological state in Saccharomyces cerevisiae , but it remains unclear whether this response is uniform across all disruptions of the de novo adenine biosynthetic pathway. Here, we used a pathway-position series of adenine-biosynthesis deletion mutants to test how the location of the metabolic blockage shapes cellular adaptation to purine starvation, using nitrogen starvation as a reference condition. Across mutants, purine starvation induced a shared core response marked by reduced growth, repression of ribosome-biogenesis and rRNA-processing modules, and accumulation of cells in G1/G0 phase. However, the magnitude and composition of the response varied systematically with pathway position. Early-pathway mutants showed the strongest desiccation tolerance and stress-associated transcriptional remodelling, whereas late-pathway mutants showed weaker protection. The ade16Δade17Δ double mutant was a distinct outlier, with altered carbon-flux distribution and limited stress resilience, suggesting that late-pathway disruption produces a physiologically different starvation state. Transcriptome analysis showed partial overlap with nitrogen starvation, but also pathway-position-dependent regulation of metabolic, ribosome-related, mitochondrial, and stress-response modules. Together, these results indicate that purine starvation is not a single physiological condition, but a set of related starvation states shaped by the position of the metabolic block within the purine biosynthetic pathway.

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last seen: 2026-05-20T01:45:00.602351+00:00