We used fluorescence in situ hybridization (FISH) to detect c-myc RNA subspecies in human COLO 320DM tumor cells. Although the FISH procedure removed the majority of RNAs from the nucleolus, c-myc RNA continued to be detected in both the nucleoplasm and nucleolus. This finding suggests stable association between c-myc RNA and the nucleolus. Nucleolar accumulation of c-myc RNA appeared to be temporally regulated by cell-cycle progression. Hybridization with exon- and strand-specific RNA probes indicated that the non-protein coding exon 1 plays a novel role in determining the subnuclear localization of c-myc RNA. Antisense RNA targeting exon 2 localized only with nucleoplasmic foci, where it might interact with the sense strand. Thus, c-myc gene expression may be regulated by intranuclear localization of its RNA. (c) 2007 Elsevier Inc. All rights reserved.