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How complete are “complete” genome assemblies?—An avian perspective

Author:
Peona, Valentina, Weissensteiner, Matthias H., Suh, Alexander
Source:
Molecular ecology resources 2018 v.18 no.6 pp. 1188-1195
ISSN:
1755-098X
Subject:
DNA, centromeres, chickens, genome, genome assembly, genomics, satellite DNA, transposons
Abstract:
The genomics revolution has led to the sequencing of a large variety of nonmodel organisms often referred to as “whole” or “complete” genome assemblies. But how complete are these, really? Here, we use birds as an example for nonmodel vertebrates and find that, although suitable in principle for genomic studies, the current standard of short‐read assemblies misses a significant proportion of the expected genome size (7% to 42%; mean 20 ± 9%). In particular, regions with strongly deviating nucleotide composition (e.g., guanine‐cytosine‐[GC]‐rich) and regions highly enriched in repetitive DNA (e.g., transposable elements and satellite DNA) are usually underrepresented in assemblies. However, long‐read sequencing technologies successfully characterize many of these underrepresented GC‐rich or repeat‐rich regions in several bird genomes. For instance, only ~2% of the expected total base pairs are missing in the last chicken reference (galGal5). These assemblies still contain thousands of gaps (i.e., fragmented sequences) because some chromosomal structures (e.g., centromeres) likely contain arrays of repetitive DNA that are too long to bridge with currently available technologies. We discuss how to minimize the number of assembly gaps by combining the latest available technologies with complementary strengths. At last, we emphasize the importance of knowing the location, size and potential content of assembly gaps when making population genetic inferences about adjacent genomic regions.
Agid:
6198354