Abstract
BackgroundMammalian sex-chromosomes originated from a pair of autosomes. A step-wise cessation of recombination is necessary for the proper maintenance of sex-determination and, consequently, generates a four strata structure on the X chromosome. Each stratum shows a specific per-site nucleotide sequence difference (p-distance) between the X and Y chromosomes, depending on the time of recombination arrest. Stratum 4 covers the distal half of the human X chromosome short arm and the p-distance of the stratum is ~10%, on average. However, a 100-kb region, which includes KALX and VCX, in the middle of stratum 4 shows a significantly lower p-distance (1-5%), suggesting frequent sequence exchanges or gene conversions between the X and Y chromosomes in humans. To examine the evolutionary mechanism for this low p-distance region, sequences of a corresponding region including KALX/Y from seven species of non-human primates were analyzed.ResultsPhylogenetic analysis of this low p-distance region in humans and non-human primate species revealed that gene conversion like events have taken place at least ten times after the divergence of New World monkeys and Catarrhini (i.e., Old World monkeys and hominoids). A KALY-converted KALX allele in white-handed gibbons also suggests a possible recent gene conversion between the X and Y chromosomes. In these primate sequences, the proximal boundary of this low p-distance region is located in a LINE element shared between the X and Y chromosomes, suggesting the involvement of this element in frequent gene conversions. Together with a palindrome on the Y chromosome, a segmental palindrome structure on the X chromosome at the distal boundary near VCX, in humans and chimpanzees, may mediate frequent sequence exchanges between X and Y chromosomes.ConclusionGene conversion events between the X and Y homologous regions have been suggested, mainly in humans. Here, we found frequent gene conversions in the evolutionary course of primates. An insertion of a LINE element at the proximal end of the region may be a cause for these frequent conversions. This gene conversion in humans may also be one of the genetic causes of Kallmann syndrome.
Highlights
Mammalian sex-chromosomes originated from a pair of autosomes
The analysis showed that relatively frequent gene conversions between the X and Y chromosomes have occurred independently in each of the primate lineages
A region covering the middle of intron 9 to the 3’ flanking region of KALX shows a divergence with Kallmann syndrome sequence; (KALY) of p = 0.05
Summary
Mammalian sex-chromosomes originated from a pair of autosomes. A step-wise cessation of recombination is necessary for the proper maintenance of sex-determination and, generates a four strata structure on the X chromosome. The observed KS values of ~0.2 and ~0.1 suggest that stratum 3 formed before the mammalian divergence and that stratum 4 formed in the primate lineage after the divergence of prosimian and simian primates To confirm whether this step-wise divergence between X and Y chromosomes is observed in other non-coding regions on the X and Y chromosomes, Iwase et al [7] compared nucleotide sequences in the distal half of the short arm of the human X chromosome with a homologous region on the Y chromosome. This analysis revealed a step-wise change in the p-distances and confirmed the scenario of sex chromosome differentiation proposed by Lahn and Page [6]. The cause for this low p-distance has been argued to be gene conversion [8]
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