Abstract
Many genes localize at the nuclear periphery through physical interaction with the nuclear pore complex (NPC). We have found that the yeast INO1 gene is targeted to the NPC both upon activation and for several generations after repression, a phenomenon called epigenetic transcriptional memory. Targeting of INO1 to the NPC requires distinct cis-acting promoter DNA zip codes under activating conditions and under memory conditions. When at the nuclear periphery, active INO1 clusters with itself and with other genes that share the GRS I zip code. Here, we show that during memory, the two alleles of INO1 cluster in diploids and endogenous INO1 clusters with an ectopic INO1 in haploids. After repression, INO1 does not cluster with GRS I - containing genes. Furthermore, clustering during memory requires Nup100 and two sets of DNA zip codes, those that target INO1 to the periphery when active and those that target it to the periphery after repression. Therefore, the interchromosomal clustering of INO1 that occurs during transcriptional memory is dependent upon, but mechanistically distinct from, the clustering of active INO1. Finally, while localization to the nuclear periphery is not regulated through the cell cycle during memory, clustering of INO1 during memory is regulated through the cell cycle.
Highlights
Mutations in nuclear pore proteins (Nups) block targeting to the periphery [6, 8,9,10] and genome-wide ChIP experiments in yeast, flies, and mammalian cells indicates that hundreds to thousands of genes interact with nuclear pore complex (NPC) or nuclear pore proteins [3, 1114]
Unlike targeting to the periphery [16], INO1 clustering is regulated through the cell cycle under both activating and memory conditions. These results show that interchromosomal clustering of INO1 during transcriptional memory is zip code-dependent but represents a molecular event that is distinct from targeting to the NPC
We previously showed that INO1 clusters with an ectopic copy of INO1 integrated near the URA3 locus in a haploid cell upon recruitment to the nuclear periphery [7]
Summary
A well-studied phenomenon that illustrates this point and that serves as an excellent model is the movement of yeast genes from the nucleoplasm to the nuclear periphery upon activation [2, 3]. Inducible genes such as INO1, GAL1-10, GAL2, TSA2, HSP104 and HXT1 move to the nuclear periphery and physically interact with the NPC upon activation [2,3,4,5,6,7]. Interaction with the NPC leads to changes in gene positioning
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