Monoallelically expressed noncoding RNAs form nucleolar territories on NOR-containing chromosomes and regulate rRNA expression.
Qinyu HaoMinxue LiuSwapna Vidhur DaulatabadSaba GaffariYou Jin SongRajneesh SrivastavaShivang BhaskarAnurupa MoitraHazel ManganElizabeth TsengRachel B GilmoreSusan M FrierXin ChenChengliang WangSui HuangStormy ChamberlainHong JinJonas KorlachBrian McStaySaurabh SinhaSarath Chandra JangaSupriya G PrasanthKannanganattu V PrasanthPublished in: eLife (2024)
Out of the several hundred copies of rRNA genes arranged in the nucleolar organizing regions (NOR) of the five human acrocentric chromosomes, ~50% remain transcriptionally inactive. NOR-associated sequences and epigenetic modifications contribute to the differential expression of rRNAs. However, the mechanism(s) controlling the dosage of active versus inactive rRNA genes within each NOR in mammals is yet to be determined. We have discovered a family of ncRNAs, SNULs ( S ingle NU cleolus L ocalized RNA), which form constrained sub-nucleolar territories on individual NORs and influence rRNA expression. Individual members of the SNULs monoallelically associate with specific NOR-containing chromosomes. SNULs share sequence similarity to pre-rRNA and localize in the sub-nucleolar compartment with pre-rRNA. Finally, SNULs control rRNA expression by influencing pre-rRNA sorting to the DFC compartment and pre-rRNA processing. Our study discovered a novel class of ncRNAs influencing rRNA expression by forming constrained nucleolar territories on individual NORs.