Abstract
Segmental duplications or low copy repeats (LCRs) constitute duplicated regions interspersed in the human genome, currently neglected in standard analyses due to their extreme complexity. Recent functional studies have indicated the potential of genes within LCRs in synaptogenesis, neuronal migration, and neocortical expansion in the human lineage. One of the regions with the highest proportion of duplicated sequence is the 22q11.2 locus, carrying eight LCRs (LCR22-A until LCR22-H), and rearrangements between them cause the 22q11.2 deletion syndrome. The LCR22-A block was recently reported to be hypervariable in the human population. It remains unknown whether this variability also exists in non-human primates, since research is strongly hampered by the presence of sequence gaps in the human and non-human primate reference genomes. To chart the LCR22 haplotypes and the associated inter- and intra-species variability, we de novo assembled the region in non-human primates by a combination of optical mapping techniques. A minimal and likely ancient haplotype is present in the chimpanzee, bonobo, and rhesus monkey without intra-species variation. In addition, the optical maps identified assembly errors and closed gaps in the orthologous chromosome 22 reference sequences. These findings indicate the LCR22 expansion to be unique to the human population, which might indicate involvement of the region in human evolution and adaptation. Those maps will enable LCR22-specific functional studies and investigate potential associations with the phenotypic variability in the 22q11.2 deletion syndrome.
Highlights
Segmental duplications or low copy repeats (LCRs) constitute over 5% of the genome (Numanagiæ et al, 2018) and are complex patchworks of duplicated DNA fragments varying in length with over 90% sequence identity (Bailey et al, 2001, 2002a)
FISH mapping studies of metaphase chromosomes from great apes using 22q11.2 Bacterial artificial chromosome (BAC) probes and analysis of sequencing data had demonstrated the low copy repeat on chromosome 22 (LCR22) expansion to precede the divergence of old and New world monkeys, and suggested species specific LCR22 variation had occurred during primate speciation (Shaikh et al, 2000; Bailey et al, 2002b; Babcock et al, 2007; Guo et al, 2011)
The evolutionary analysis of the complex segmental duplications on chromosome 22 in different members of each species reveals a human-specific expansion of the LCR22-A haplotype, subject to structural variation in the human population
Summary
Segmental duplications or low copy repeats (LCRs) constitute over 5% of the genome (Numanagiæ et al, 2018) and are complex patchworks of duplicated DNA fragments varying in length with over 90% sequence identity (Bailey et al, 2001, 2002a). This high sequence homology has so far impeded the accurate mapping and assembly of these regions in the human reference genome. LCRs remain poorly mapped and characterized, despite their functional importance in evolution and disease
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