1. The X Chromosome Frequently Lags Behind in Female Lymphocyte Anaphase
- Author
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Ghita C.-M. Falck, Julia Catalán, and Hannu Norppa
- Subjects
DNA Replication ,medicine.medical_specialty ,Time Factors ,X Chromosome ,Chromosome X ,Mironuclei ,Biology ,Inactivation ,Chromosome Painting ,FISH ,Report ,Dosage Compensation, Genetic ,medicine ,Genetics ,Humans ,Genetics(clinical) ,Lymphocytes ,Telophase ,Mitosis ,Genetics (clinical) ,X chromosome ,Cells, Cultured ,In Situ Hybridization, Fluorescence ,Micronuclei, Chromosome-Defective ,Anaphase ,Chromosome Aberrations ,Autosome ,Dosage compensation ,Cytogenetics ,Chromosome ,DNA ,Middle Aged ,Molecular biology ,Micronucleus test ,Anaphase, Aberrant ,Female - Abstract
Summary Pancentromeric FISH and X-chromosome painting were used to characterize anaphase aberrations in 2,048 cultured lymphocytes from a healthy 62-year-old woman. Of 163 aberrant anaphases, 66.9% contained either chromosomes or their fragments that lagged behind. Characterization of 200 laggards showed that 49% were autosomes, 33.5% were autosomal fragments, and 17.5% were X chromosomes. The X chromosome represented one-fourth of all lagging chromosomes and was involved much more often than would be expected by chance (1/23). Labeling of the late-replicating inactive X chromosome with 5-bromo-2′-deoxyuridine revealed that both X homologues contributed equally to the laggards. Among 200 micronuclei examined from interphase cells, the proportion of the X chromosome (31%) and autosomal fragments (50%) was higher than among anaphase laggards, whereas autosomes were involved less often (19%). These findings may reflect either selection or the fact that lagging autosomes, which were more proximal to the poles than were lagging X chromosomes, were more frequently included within the main nucleus. Our results suggest that the well-known high micronucleation and loss of the X chromosome in women's lymphocytes is the result of frequent distal lagging behind in anaphase and effective micronucleation of this chromosome. This lagging appears to affect the inactive and active X chromosomes equally.
- Published
- 2000