Genomic methods take the plunge: Recent advances in high-throughput sequencing of marine mammals

TitleGenomic methods take the plunge: Recent advances in high-throughput sequencing of marine mammals
Publication TypeJournal Article
Year of Publication2016
AuthorsCammen K.M, Andrews KR, Carroll E.L, Foote A.D, Humble E., Khudyakov J.I, Louis M., McGowen M.R, Olsen M.T, Van Cise A.M
JournalJournal of Heredity
Volume107
Pagination481-495
Date Published2016/11
Type of ArticleReview
ISBN Number0022-1503
Accession NumberWOS:000384249400001
Keywordsantarctic fur-seal; approximate bayesian; bottle-nosed dolphins; complete mitochondrial; computation; de-novo; differential expression analysis; dolphins tursiops-truncatus; genome; non-model organisms; population genomics; RADseq; rna-seq data; RNAseq; SNP array; target sequence capture; whole genome sequencing
Abstract

The dramatic increase in the application of genomic techniques to non-model organisms (NMOs) over the past decade has yielded numerous valuable contributions to evolutionary biology and ecology, many of which would not have been possible with traditional genetic markers. We review this recent progression with a particular focus on genomic studies of marine mammals, a group of taxa that represent key macroevolutionary transitions from terrestrial to marine environments and for which available genomic resources have recently undergone notable rapid growth. Genomic studies of NMOs utilize an expanding range of approaches, including whole genome sequencing, restriction site-associated DNA sequencing, array-based sequencing of single nucleotide polymorphisms and target sequence probes (e.g., exomes), and transcriptome sequencing. These approaches generate different types and quantities of data, and many can be applied with limited or no prior genomic resources, thus overcoming one traditional limitation of research on NMOs. Within marine mammals, such studies have thus far yielded significant contributions to the fields of phylogenomics and comparative genomics, as well as enabled investigations of fitness, demography, and population structure. Here we review the primary options for generating genomic data, introduce several emerging techniques, and discuss the suitability of each approach for different applications in the study of NMOs.

DOI10.1093/jhered/esw044
Short TitleJ. Hered.
Student Publication: 
Yes
Student: 
sharknado