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De novo reconstruction of satellite repeat units from sequence data

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arxiv 2304.09729 v1 pith:RJTJ4V3O submitted 2023-04-19 q-bio.GN

De novo reconstruction of satellite repeat units from sequence data

classification q-bio.GN
keywords satelliterepeatrepeatsgenomehorsassembliesdatasatellites
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Satellite DNA are long tandemly repeating sequences in a genome and may be organized as high-order repeats (HORs). They are enriched in centromeres and are challenging to assemble. Existing algorithms for identifying satellite repeats either require the complete assembly of satellites or only work for simple repeat structures without HORs. Here we describe Satellite Repeat Finder (SRF), a new algorithm for reconstructing satellite repeat units and HORs from accurate reads or assemblies without prior knowledge on repeat structures. Applying SRF to real sequence data, we showed that SRF could reconstruct known satellites in human and well-studied model organisms. We also found satellite repeats are pervasive in various other species, accounting for up to 12% of their genome contents but are often underrepresented in assemblies. With the rapid progress on genome sequencing, SRF will help the annotation of new genomes and the study of satellite DNA evolution even if such repeats are not fully assembled.

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