Conventional and Spectral Karyotyping of Murine Cerebellar Granule Neuron Progenitors.

Karyotyping remains an invaluable tool to researchers exploring the cause and consequence of genomic instability in biologic systems. It allows investigators to survey the entire chromosome complement in individual cells and in a single experiment, visualize, and measure different forms or features of instability such as aneuploidy, ongoing chromosomal instability, DNA damage/mis-repair, telomere erosion, chromosome mis-segregation, or defects in cell cycle progression. This chapter describes the combined use of conventional (DAPI-banding) and spectral karyotyping (SKY) to characterize genomic instability in murine cerebellar granule neuron progenitors (CGNPs), using CGNPs with conditional deletion of Atr as a positive control for chromosomal rearrangements. Protocols for preparing slides (metaphase spreads) from fixed cell suspension, DAPI-banding, and spectral karyotyping (SKY) are included. Pertinent aspects of image acquisition and analysis are detailed. These protocols can likely be adapted to other tissue types (murine or human).