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A survey of current methods to detect and genotype inversions

Vincent C. T. Hanlon, Peter M. Lansdorp, Victor Guryev

2022Human Mutation26 citationsDOIOpen Access PDF

Abstract

Polymorphic inversions are ubiquitous in humans and they have been linked to both adaptation and disease. Following their discovery in Drosophila more than a century ago, inversions have proved to be more elusive than other structural variants. A wide variety of methods for the detection and genotyping of inversions have recently been developed: multiple techniques based on selective amplification by PCR, short- and long-read sequencing approaches, principal component analysis of small variant haplotypes, template strand sequencing, optical mapping, and various genome assembly methods. Many methods apply complex wet lab protocols or increasingly refined bioinformatic analyses. This review is an attempt to provide a practical summary and comparison of the methods that are in current use, with a focus on metrics such as the maximum size of segmental duplications at inversion breakpoints that each method can tolerate, the size range of inversions that they recover, their throughput, and whether the locations of putative inversions must be known beforehand.

Topics & Concepts

BiologyGenotypingComputational biologyStructural variationHaplotypeGenomeGeneticsEvolutionary biologyGenotypeGeneGenomic variations and chromosomal abnormalitiesGene expression and cancer classificationRNA and protein synthesis mechanisms
A survey of current methods to detect and genotype inversions | Litcius