Abstract
Centromeric and pericentromeric chromosome regions are occupied by satellite DNA. Satellite DNAs play essential roles in chromosome segregation, and, thanks to their extensive sequence variability, to some extent, they can also be used as phylogenetic markers. In this paper, we isolated and sequenced satellite DNA I-IV in 11 species of Cervidae. The obtained satellite DNA sequences and their chromosomal distribution were compared among the analysed representatives of cervid subfamilies Cervinae and Capreolinae. Only satI and satII sequences are probably present in all analysed species with high abundance. On the other hand, fluorescence in situ hybridisation (FISH) with satIII and satIV probes showed signals only in a part of the analysed species, indicating interspecies copy number variations. Several indices, including FISH patterns, the high guanine and cytosine (GC) content, and the presence of centromere protein B (CENP-B) binding motif, suggest that the satII DNA may represent the most important satellite DNA family that might be involved in the centromeric function in Cervidae. The absence or low intensity of satellite DNA FISH signals on biarmed chromosomes probably reflects the evolutionary reduction of heterochromatin following the formation of chromosome fusions. The phylogenetic trees constructed on the basis of the satellite I-IV DNA relationships generally support the present cervid taxonomy.
Highlights
The Cervidae (Ruminantia, Mammalia) family includes more than fifty different species divided into three subfamilies: Cervinae, Capreolinae, and Hydropotinae [1]
It is known that a significant proportion of eukaryotic genomes consists of constitutive heterochromatin, a genomic fraction that includes satellite DNAs, short interspersed nuclear elements (SINEs), long interspersed nuclear elements (LINEs), and other repetitive elements
SatI, satII, and satIV DNAs were isolated from the seven species of Cervinae, and satI-IV were analysed in the four species of Capreolinae
Summary
The Cervidae (Ruminantia, Mammalia) family includes more than fifty different species divided into three subfamilies: Cervinae, Capreolinae, and Hydropotinae [1]. Two tribes (Cervini and Muntiacini) are recognised among Cervinae [2]. The diploid chromosome number ranges from 2n = 70 in Capreolinae and Hydropotinae and up to 2n = 6 in the Indian muntjac (Muntiacus muntjak vaginalis) female [3,4,5]. Chromosomal evolution in Cervidae is largely attributable to Robertsonian fusions, muntjacs (Muntiacini) are known for tandem fusions reducing their diploid numbers from 2n = 46 in Chinese muntjac (Muntiacus reevesi) to 2n = 6/7 in M. vaginalis [6,7,8].
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