Abstract
BackgroundHuman chromosome 19 has many unique characteristics including gene density more than double the genome-wide average and 20 large tandemly clustered gene families. It also has the highest GC content of any chromosome, especially outside gene clusters. The high GC content and concomitant high content of hypermutable CpG sites raises the possibility chromosome 19 exhibits higher levels of nucleotide diversity both within and between species, and may possess greater variation in DNA methylation that regulates gene expression.ResultsWe examined GC and CpG content of chromosome 19 orthologs across representatives of the primate order. In all 12 primate species with suitable genome assemblies, chromosome 19 orthologs have the highest GC content of any chromosome. CpG dinucleotides and CpG islands are also more prevalent in chromosome 19 orthologs than other chromosomes. GC and CpG content are generally higher outside the gene clusters. Intra-species variation based on SNPs in human common dbSNP, rhesus, crab eating macaque, baboon and marmoset datasets is most prevalent on chromosome 19 and its orthologs. Inter-species comparisons based on phyloP conservation show accelerated nucleotide evolution for chromosome 19 promoter flanking and enhancer regions. These same regulatory regions show the highest CpG density of any chromosome suggesting they possess considerable methylome regulatory potential.ConclusionsThe pattern of high GC and CpG content in chromosome 19 orthologs, particularly outside gene clusters, is present from human to mouse lemur representing 74 million years of primate evolution. Much CpG variation exists both within and between primate species with a portion of this variation occurring in regulatory regions.
Highlights
Human chromosome has many unique characteristics including gene density more than double the genome-wide average and large tandemly clustered gene families
Guanine Cytosine (GC) content and Cytosine phosphate Guanine (CpG) density In order to establish the patterns of chromosomal GC content across humans and nonhuman primates (NHP), we identified the orthologs of human chromosome 19 in 11 NHP genome assemblies that have scaffolds assigned to chromosomes (Table S1)
We conclude that many of the features that make human chromosome 19 unusual among human chromosomes are shared across a wide range of primate orthologs
Summary
Human chromosome has many unique characteristics including gene density more than double the genome-wide average and large tandemly clustered gene families. It has the highest GC content of any chromosome, especially outside gene clusters. One unusual aspect of human chromosome is a gene density more than double the genome-wide average including large tandemly clustered gene families [1]. Sequence divergence between intrachromosomal segmental duplications suggests that many of the duplications occurred between 30 and 40 million years ago (MYA) This falls within the time range proposed for the anthropoid primate radiation with 40 MYA being close to the proposed Old World monkey/New World monkey divergence time of 43 MYA [2]. Chromosome 19 has an unusually high repeat content of 55%, consisting largely of Alu repeats, which comprise 26% of the chromosome [1]
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