SET1: The SET1 gene in the budding yeast Saccharomyces cerevisiae was discovered by several laboratories as encoding the first known H3K4 methyltransferase, a catalytic function performed through its conserved SET domain. Yeast Set1, like its orthologs in higher eukaryotes (SET1A/B in humans), is recruited to chromatin by the serine 5-phosphorylated C-terminal domain of RNA polymerase II (pol II). This interaction with the initiating form of pol II results in the occupancy of Set1 near the 5’-end of active genes, which correlates closely with the peak of H3K4me3. (1)
In metazoans, SET1A/B proteins seem to function analogously to yeast Set1 in performing the majority of transcription-coupled H3K4 methylation found at active genes, presumably through co-transcriptional recruitment. Unlike their yeast counterpart, human SET1A/B proteins are also recruited to chromatin via an interaction with non-methylated CpG island sequences, mediated by the SET1A/B-associated protein CFP1.
Reference
1. Ernst P, Vakoc CR.WRAD: enabler of the SET1-family of H3K4 methyltransferases. Brief Funct Genomics.2012;11(3):217-226. PMID: 22652693.
There are 39 genes. Reviewed (0)
or Unreviewed (39) 
| No. | Status | WERAM ID | Gene/Alias Name |
|---|---|---|---|
| 1 | | ||
| 2 | | ||
| 3 | | ||
| 4 | | ||
| 5 | | ||
| 6 | | ||
| 7 | | ||
| 8 | | ||
| 9 | | ||
| 10 | | ||
| 11 | | ||
| 12 | | ||
| 13 | | ||
| 14 | | ||
| 15 | | ||
| 16 | | ||
| 17 | | ||
| 18 | | ||
| 19 | | ||
| 20 | | ||
| 21 | | ||
| 22 | | ||
| 23 | | ||
| 24 | | ||
| 25 | | ||
| 26 | | ||
| 27 | | ||
| 28 | | ||
| 29 | | ||
| 30 | | ||
| 31 | | ||
| 32 | | ||
| 33 | | ||
| 34 | | ||
| 35 | | ||
| 36 | | ||
| 37 | | ||
| 38 | | ||
| 39 | |