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RESEARCH PRODUCT

The Sea Urchin sns Insulator Blocks CMV Enhancer following Integration in Human Cells

Giovanni SpinelliAldo Di LeonardoRaffaella MelfiPaola Di SimoneGiorgia Costanzo

subject

animal structuresSea UrchinVirus IntegrationTransgeneMolecular Sequence DataBiophysicsCytomegalovirusSettore BIO/11 - Biologia MolecolareSimian virus 40BiologyTransfectionPolymerase Chain ReactionBiochemistrySodium ChannelsNAV1.8 Voltage-Gated Sodium ChannelPlasmidTumor Cells CulturedAnimalsHumansEnhancer trapDNA Polymerase Chain ReactionEnhancerBinding Sites; DNA Polymerase Chain Reaction; Recombinant Proteins; Sea Urchins;Tumor Cells Cultured; Enhancer Elements Genetic; Virus Integration;Molecular BiologyVirus IntegrationSouthern blotBinding SitesBase SequenceBinding SiteCell BiologyTransfectionRecombinant ProteinMolecular biologyRecombinant ProteinsChromatinSettore BIO/18 - GeneticaEnhancer Elements GeneticSea UrchinsDNA Viral

description

Insulators are a new class of genetic elements that attenuate enhancer function directionally. Previously, we characterized in sea urchin a 265-bp-long insulator, termed sns. To test insulator activity following stable integration in human cells, we placed sns between the CMV enhancer and a tk promoter up-stream of a GFP transgene of plasmid or retroviral vectors. In contrast to controls, cells transfected or transduced with insulated constructs displayed a barely detectable fluorescence. Southern blot and PCR ruled out vector rearrangement following integration into host DNA; RNase protection confirmed the enhancer blocking activity. Finally, we demonstrate that two cis-acting sequences, previously characterized in sea urchin, are also specific binding sites for human proteins. We conclude that sns interferes with enhancer promoter interaction also in a human chromatin context. The relatively small size, evolutionary conservation and apparent lack of enhancer specificity might result useful in gene transfer experiments in human cells. © 2001 Academic Press.

yearjournalcountryeditionlanguage
2001-01-01Biochemical and Biophysical Research Communications
https://doi.org/10.1006/bbrc.2001.5082