Abstract
A significant fraction of active chromosome regions and genes reproducibly position near nuclear speckles, but the functional significance of this positioning is unknown. Here we show that Hsp70 BAC transgenes and endogenous genes turn on 2-4 mins after heat shock irrespective of their distance to nuclear speckles. However, we observe 12-56-fold and 3-7-fold higher transcription levels for speckle-associated Hsp70 transgenes and endogenous genes, respectively, after 1-2 hrs heat shock. Several fold higher transcription levels for several genes flanking the Hsp70 locus also correlate with speckle-association at 37 °C. Live-cell imaging reveals this modulation of Hsp70 transcription temporally correlates with speckle association/disassociation. Our results demonstrate stochastic gene expression dependent on positioning relative to a liquid-droplet nuclear compartment through a “transcriptional amplification” mechanism distinct from transcriptional bursting.