To ensure proper chromosome segregation during cell division, the centromere in many organisms is transcribed to produce a low level of long non-coding RNA to regulate the activity of the kinetochore. In the budding yeast point centromere, our recent work has shown that the level of centromeric RNAs (cenRNAs) is tightly regulated and repressed by the kinetochore protein Cbf1 and histone H2A variant H2A.ZHtz1, and de-repressed during S phase of the cell cycle. Too little or too much cenRNAs will disrupt centromere activity. Here, we discuss the current advance in the understanding of the action and regulation of cenRNAs at the point centromere of Saccharomyces cerevisiae. We further show that budding yeast cenRNAs are cryptic unstable transcripts (CUTs) that can be degraded by the nuclear RNA decay pathway. CenRNA provides an example that even CUTs, when present at the right time with the right level, can serve important cellular functions.
Keywords: Centromere-binding factor Cbf1; Centromeric histone variant CENP-A; Centromeric transcription; Chromosome instability; Histone H2A variant Htz1; Long non-coding RNA.