CpG islands (CGIs) are an important group of CpG dinucleotides in the guanine- and cytosinerich regions as they harbour functionally relevant epigenetic loci for whole genome studies. As a matter of
fact, since there has not been a formal comparative analysis of CGIs in domestic even-toed ungulate genomes,
this study was performed to serve this comparison. The Hidden Markov Model was used to detect CGIs in the
genomes. The results indicated that the CGIs number and CGI densities had scant variations across genomes.
The goat genome had the highest number of CGIs (99 070), whereas the alpaca genome had the highest CGI
density (43.39 CGIs/Mb). Significant positive correlations were observed among CGI densities with chromosome pair number, observed CpG/expected CpG, recombination rate, and gene density. When the size of chromosomes increased, the CGI densities decreased and a trend of higher CGI densities in the telomeric regions
was observed. Only 10.96% of CGIs were methylated underscoring this postulation that the majority of CGIs
remains to be unmethylated. The highest amount of the methylated CGIs was observed in the introns, intergenic, and coding (CDS) regions and the lowest amount of the methylated CGIs was observed in the promoter
regions, implying that the DNA methylation of CGIs may control gene expression at the genome level. Detected
differences between even-toed ungulate and other vertebrate genomes showed that CGI densities varied greatly
among the genomes. These findings would contribute to better understanding the even-toed ungulate (epi)
genomes, the role of CGIs in epigenomic functions and molecular evolution.