Low copy repeats

Low copy repeats (LCRs), also known as segmental duplications (SDs), or duplicons, are DNA sequences present in multiple locations within a genome that share high levels of sequence identity.

Repeats

The repeats, or duplications, are typically 10–300 kb in length, and bear greater than 95% sequence identity. Though rare in most mammals, LCRs comprise a large portion of the human genome owing to a significant expansion during primate evolution.^[1] In humans, chromosomes Y and 22 have the greatest proportion of SDs: 50.4% and 11.9% respectively.^[2] SRGAP2 is an SD.

Misalignment of LCRs during non-allelic homologous recombination (NAHR)^[3] is an important mechanism underlying the chromosomal microdeletion disorders as well as their reciprocal duplication partners.^[4] Many LCRs are concentrated in "hotspots", such as the 17p11-12 region, 27% of which is composed of LCR sequence. NAHR and non-homologous end joining (NHEJ) within this region are responsible for a wide range of disorders, including Charcot–Marie–Tooth syndrome type 1A,^[5] hereditary neuropathy with liability to pressure palsies,^[5] Smith–Magenis syndrome,^[6] and Potocki–Lupski syndrome.^[3]

Detection

The two widely accepted methods for SD detection^[7] are:

1. Whole-genome assembly comparison (WGAC), in which regions of homology within the assembly are identified.
2. Whole-genome shotgun sequence detection (WSSD), in which the duplication of regions is inferred by increased read coverage at the site of segmental duplication.

References

^ Johnson, M.E. (2008). Primate Gene and Genome Evolution Driven by Segmental Duplication of Chromosome 16 (PDF) (Ph.D.). Case Western Reserve University.
^ Bailey, Jeffrey A.; Eichler, EE (2006). "Primate segmental duplications: crucibles of evolution, diversity and disease". Nature Reviews Genetics. 7 (7): 552–64. doi:10.1038/nrg1895. PMID 16770338. S2CID 3203768.
^ ^a ^b Zhang, F; Potocki, L; Sampson, JB; Liu, P; Sanchez-Valle, A; Robbins-Furman, P; Navarro, AD; Wheeler, PG; Spence, JE; Brasington, CK; Withers, MA; Lupski, JR (12 March 2010). "Identification of uncommon recurrent Potocki-Lupski syndrome-associated duplications and the distribution of rearrangement types and mechanisms in PTLS". American Journal of Human Genetics. 86 (3): 462–70. doi:10.1016/j.ajhg.2010.02.001. PMC 2833368. PMID 20188345.
^ Shaikh, TH; Kurahashi, H; Saitta, SC; O'Hare, AM; Hu, P; Roe, BA; Driscoll, DA; McDonald-McGinn, DM; Zackai, EH; Budarf, ML; Emanuel, BS (1 March 2000). "Chromosome 22-specific low copy repeats and the 22q11.2 deletion syndrome: genomic organization and deletion endpoint analysis". Human Molecular Genetics. 9 (4): 489–501. doi:10.1093/hmg/9.4.489. PMID 10699172.
^ ^a ^b Inoue, K; Dewar, K; Katsanis, N; Reiter, LT; Lander, ES; Devon, KL; Wyman, DW; Lupski, JR; Birren, B (June 2001). "The 1.4-Mb CMT1A duplication/HNPP deletion genomic region reveals unique genome architectural features and provides insights into the recent evolution of new genes". Genome Research. 11 (6): 1018–33. doi:10.1101/gr.180401. PMC 311111. PMID 11381029.
^ Shaw, CJ; Withers, MA; Lupski, JR (July 2004). "Uncommon deletions of the Smith-Magenis syndrome region can be recurrent when alternate low-copy repeats act as homologous recombination substrates". American Journal of Human Genetics. 75 (1): 75–81. doi:10.1086/422016. PMC 1182010. PMID 15148657.
^ "Genome-wide detection of segmental duplications".

[1] Johnson, M.E. (2008). Primate Gene and Genome Evolution Driven by Segmental Duplication of Chromosome 16 (PDF) (Ph.D.). Case Western Reserve University.

[2] Bailey, Jeffrey A.; Eichler, EE (2006). "Primate segmental duplications: crucibles of evolution, diversity and disease". Nature Reviews Genetics. 7 (7): 552–64. doi:10.1038/nrg1895. PMID 16770338. S2CID 3203768.

[pmid20188345-3] Zhang, F; Potocki, L; Sampson, JB; Liu, P; Sanchez-Valle, A; Robbins-Furman, P; Navarro, AD; Wheeler, PG; Spence, JE; Brasington, CK; Withers, MA; Lupski, JR (12 March 2010). "Identification of uncommon recurrent Potocki-Lupski syndrome-associated duplications and the distribution of rearrangement types and mechanisms in PTLS". American Journal of Human Genetics. 86 (3): 462–70. doi:10.1016/j.ajhg.2010.02.001. PMC 2833368. PMID 20188345.

[4] Shaikh, TH; Kurahashi, H; Saitta, SC; O'Hare, AM; Hu, P; Roe, BA; Driscoll, DA; McDonald-McGinn, DM; Zackai, EH; Budarf, ML; Emanuel, BS (1 March 2000). "Chromosome 22-specific low copy repeats and the 22q11.2 deletion syndrome: genomic organization and deletion endpoint analysis". Human Molecular Genetics. 9 (4): 489–501. doi:10.1093/hmg/9.4.489. PMID 10699172.

[pmid11381029-5] Inoue, K; Dewar, K; Katsanis, N; Reiter, LT; Lander, ES; Devon, KL; Wyman, DW; Lupski, JR; Birren, B (June 2001). "The 1.4-Mb CMT1A duplication/HNPP deletion genomic region reveals unique genome architectural features and provides insights into the recent evolution of new genes". Genome Research. 11 (6): 1018–33. doi:10.1101/gr.180401. PMC 311111. PMID 11381029.

[pmid15148657-6] Shaw, CJ; Withers, MA; Lupski, JR (July 2004). "Uncommon deletions of the Smith-Magenis syndrome region can be recurrent when alternate low-copy repeats act as homologous recombination substrates". American Journal of Human Genetics. 75 (1): 75–81. doi:10.1086/422016. PMC 1182010. PMID 15148657.

[7] "Genome-wide detection of segmental duplications".

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Low copy repeats

Repeats

Detection

See also

References

Wikious

Boobota

Sagapedia