Trimethylation of histone lysine 4 (H3K4me3) is regarded as an active promoter mark across all eukaryotes. H3K4me3 is mainly deposited by an evolutionarily conserved COMPASS complex that contains two key subunits: SET-2, H3K4me3/2 methyltransferase, and CFP-1, a conserved CpG binding protein. Perturbation of this mark has been found to be associated with different diseases, development defects, and incorrect cell fate specification. However, it is unclear whether H3K4me3 play an instructive role in transcription or just a consequence of gene expression. To address this question, we phenotypically characterised and compared
cfp-1(
tm6369) mutants with a reported loss-of-function
set-2(
bn129) mutant allele. We observed dramatic loss of H3K4me3, poor fertility, slow growth and ectopic gene expression in both
cfp-1 and
set-2 mutants. We found that the role of H3K4me3 is to fine tune gene induction, likely by modulating other histone modifications that play an essential role in gene activation. Our results shed light on the role of H3K4me3 in chromatin regulation and function.