Highly active chromosome regions preferentially associate with two perispeckle networks that partition the interchromatin space

Abstract

A subset of highly active chromosomal "hot zones" reproducibly positions adjacent to nuclear speckles (NS). Genes within these regions amplify their expression only with NS contact. However, gene expression differences inversely correlate with differences in NS distance, genome-wide. We hypothesized the existence of additional gene expression "niches" away from, but spatially correlated with, NS. Here we report the identification of two dynamic perispeckle patterns of protein concentrations extending outwards from NS and persisting even after NS are eliminated. Highly active chromosome regions which weakly associate with NS instead show close, NS-independent association with these perispeckle patterns. Additionally, transcripts from model intron-containing versus intronless genes associate differentially with these two patterns. While genes within NS-associated genomic regions are predominantly downregulated upon NS depletion, genes associated with perispeckle patterns are biased towards upregulation. We suggest the interchromatin space is partitioned into additional gene expression "niches"- surrounding and extending from NS - that may be involved in mRNA and gene dynamics.