Original Paper | Published:

Chimeric amplicons containing the c-myc gene in HL60 cells

Oncogene volume 17, pages 27712777 (26 November 1998) | Download Citation

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Abstract

The major amplicon present in HL60 cells is chimeric in nature being composed of 70 kb of DNA sequence derived from the MYC locus linked to 80 kb of novel DNA sequence derived from a non contiguous region located telomeric to the c-myc gene at 8q24 (). Here we show by fluorescence in situ hybridization (FISH) that these coamplified sequences, MCR (Myc Coamplified Region), are derived from a locus located 3–4 Mb telomeric to the c-myc gene in the q24.2-24.3 region of chromosome 8. Genomic cloning and Southern blot analysis indicate the arrangement of chimeric amplicons are in tandem arrays. Analysis of the DNA sequences at the juncture of the MYC locus and the MCR suggest that these non syntenic regions were joined by nonhomologous recombination events. Visualization of the organization of the amplified DNA by fiber-FISH analysis illustrates we have cloned the complete amplicon. This is the first complete mammalian amplicon to be cloned and have its structure visualized. In addition to the major class of tandemly repeated amplicons, a second class of amplicons was detected by fiber-FISH in which the extent of the MCR component is about twice the size of the MCR component in the major amplicon. These longer amplicons most likely contain inverted repeats of MCR and MYC region sequences. Whether the amplicons contain mixtures of these two types of structures or separate amplicons only contain one type of structure has not yet been resolved. Properties of the MCR sequences responsible for retention in the chimeric HL60 amplicons upon long term passage are discussed.

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Affiliations

  1. Dipartimento di Biologia Cellulare e dello Sviluppo, Università di Palermo, Italy

    • Raffaella Mangano
    • , Eugenia Piddini
    • , Letizia Carramusa
    •  & Salvatore Feo
  2. Centro di Oncobiologia Sperimentale, Viale delle Scienze, 90123 Palermo Italy

    • Salvatore Feo
  3. Imperial Cancer Research Fund, Lincoln's Inn Fields, WC2A 3PX, London, UK

    • Trevor Duhig
    •  & Mike Fried
  4. Current address: Laboratory of Cell Biology, EMBL, Heidelberg, Germany

    • Eugenia Piddini

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Corresponding author

Correspondence to Mike Fried.

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DOI

https://doi.org/10.1038/sj.onc.1202434

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