Mohannath Gireesha, Pontvianne Frederic, Pikaard Craig S
Department of Biology, Indiana University, Bloomington, IN 47405.
Department of Molecular and Cellular Biochemistry, Indiana University, Bloomington, IN 47405.
Proc Natl Acad Sci U S A. 2016 Nov 22;113(47):13426-13431. doi: 10.1073/pnas.1608140113. Epub 2016 Nov 7.
Nucleolus organizer regions (NORs) are chromosomal loci where hundreds of rRNA genes are clustered. Despite being nearly identical in sequence, specific rRNA genes are selected for silencing during development via choice mechanism(s) that remain unclear. In Arabidopsis thaliana, rRNA gene subtypes that are silenced during development were recently mapped to the NOR on chromosome 2, NOR2, whereas active rRNA genes map to NOR4, on chromosome 4. In a mutant line deficient for ATXR5 or ATXR6-dependent histone H3 lysine 27 (H3K27) monomethylation, we show that millions of base pairs of chromosome 4, including the telomere, TEL4N, and much of NOR4, have been converted to the corresponding sequences of chromosome 2. This genomic change places rRNA genes of NOR2, which are normally silenced, at the position on chromosome 4 where active rRNA genes are normally located. At their new location, NOR2-derived rRNA genes escape silencing, independent of the atxr mutations, indicating that selective rRNA gene silencing is chromosome 2-specific. The chromosome 2 position effect is not explained by the NOR2-associated telomere, TEL2N, which remains linked to the translocated NOR, implicating centromere-proximal sequences in silencing.
核仁组织区(NORs)是数百个rRNA基因成簇分布的染色体位点。尽管rRNA基因序列几乎相同,但在发育过程中,特定的rRNA基因会通过尚不清楚的选择机制被选择沉默。在拟南芥中,发育过程中沉默的rRNA基因亚型最近被定位到2号染色体上的NOR,即NOR2,而活跃的rRNA基因则定位到4号染色体上的NOR4。在一个缺乏ATXR5或ATXR6依赖的组蛋白H3赖氨酸27(H3K27)单甲基化的突变系中,我们发现4号染色体上数百万碱基对,包括端粒TEL4N和大部分NOR4,已被转化为2号染色体的相应序列。这种基因组变化使通常沉默的NOR2的rRNA基因位于4号染色体上活跃rRNA基因正常所在的位置。在它们的新位置,NOR2衍生的rRNA基因逃脱了沉默,与atxr突变无关,这表明选择性rRNA基因沉默是2号染色体特异性的。2号染色体的位置效应不能用与NOR2相关的端粒TEL2N来解释,TEL2N仍然与易位的NOR相连,这表明着丝粒近端序列参与了沉默。