Anabolic activities such as ribosome biogenesis and protein synthesis are linked to aging. Ribosomal RNA (rRNA) synthesis is the limiting step of ribosome biogenesis, thus dictating the number of ribosomes in cells and, consequently, the capacity for mRNA translation. Knockdown of the rRNA synthesis repressor, NCL-1, accelerated aging, whereas knocking down the transcription initiation factor C36E8.1 promoted longevity. This suggested that rRNA synthesis has a negative correlation with lifespan. To investigate the metabolic changes upon manipulation of rRNA synthesis the proteome of NCL-1 KD and C36E8.1 KD were analyzed at young, middle, and old age (AD2, AD6, AD12).