Chromosomal assignment of six genes (EIF4G3, HSP90, RBBP6, IL8, TERT, and TERC) in four species of the genus Equus.

We mapped six genes (EIF4G3, HSP90, RBBP6, IL8, TERT, and TERC) on the chromosomes of Equus caballus, Equus asinus, Equus grevyi, and Equus burchelli by fluorescence in situ hybridization. Our results add six type I markers to the cytogenetic map of these species and provide new information on the comparative genomics of the genus Equus.

Uncoupling of satellite DNA and centromeric function in the genus Equus.

In a previous study, we showed that centromere repositioning, that is the shift along the chromosome of the centromeric function without DNA sequence rearrangement, has occurred frequently during the evolution of the genus Equus. In this work, the analysis of the chromosomal distribution of satellite tandem repeats in Equus caballus, E. asinus, E.

Evolutionary movement of centromeres in horse, donkey, and zebra.

Centromere repositioning (CR) is a recently discovered biological phenomenon consisting of the emergence of a new centromere along a chromosome and the inactivation of the old one. After a CR, the primary constriction and the centromeric function are localized in a new position while the order of physical markers on the chromosome remains unchanged. These events profoundly affect chromosomal architecture.

Amplification of the pericentromeric region of chromosome 1 in a newly established colon carcinoma cell line.

The LRWZ cell line was established from an ascitic effusion of a colon adenocarcinoma. We studied the karyotype of LRWZ cells using G-banding and chromosome painting. The cell line is near triploid and is characterized by several chromosome rearrangements and pronounced intermetaphase variation.

Molecular organization of internal telomeric sequences in Chinese hamster chromosomes.

In Chinese hamster extended blocks of telomeric-like repeats were previously detected by in situ hybridization at the pericentromeric region of most chromosomes and short arrays were localized at several interstitial sites. In this work, we analyzed the molecular organization of internal telomeric sequences (ITs) in the Chinese hamster genome. In genomic transfers hybridized with a telomeric probe, multiple Bal31 insensitive fragments were detected.