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Bridging the Gap between Vertebrate Cytogenetics and Genomics with Single-Chromosome Sequencing (ChromSeq)

Alessio Iannucci, Alex Makunin, Artem Lisachov, Claúdio Ciofi, Roscoe Stanyon, Marta Svartman, Vladimir A. Trifonov

2021Genes26 citationsDOIOpen Access PDF

Abstract

The study of vertebrate genome evolution is currently facing a revolution, brought about by next generation sequencing technologies that allow researchers to produce nearly complete and error-free genome assemblies. Novel approaches however do not always provide a direct link with information on vertebrate genome evolution gained from cytogenetic approaches. It is useful to preserve and link cytogenetic data with novel genomic discoveries. Sequencing of DNA from single isolated chromosomes (ChromSeq) is an elegant approach to determine the chromosome content and assign genome assemblies to chromosomes, thus bridging the gap between cytogenetics and genomics. The aim of this paper is to describe how ChromSeq can support the study of vertebrate genome evolution and how it can help link cytogenetic and genomic data. We show key examples of ChromSeq application in the refinement of vertebrate genome assemblies and in the study of vertebrate chromosome and karyotype evolution. We also provide a general overview of the approach and a concrete example of genome refinement using this method in the species Anolis carolinensis.

Topics & Concepts

GenomeVertebrateBiologyGenomicsKaryotypeDNA sequencingChromosomeGeneticsCytogeneticsComputational biologyEvolutionary biologyGeneChromosomal and Genetic VariationsGenomics and Phylogenetic StudiesGenetic diversity and population structure
Bridging the Gap between Vertebrate Cytogenetics and Genomics with Single-Chromosome Sequencing (ChromSeq) | Litcius