Opsin Repertoire and Expression Patterns in Horseshoe Crabs: Evidence from the Genome of Limulus polyphemus (Arthropoda: Chelicerata)

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Author(s)Battelle,Barbara-Anne
Author(s)Ryan,Joseph F.
Author(s)Kempler,Karen E.
Author(s)Saraf,Spencer R.
Author(s)Marten,Catherine E.
Author(s)Warren,Wesley C.
Author(s)Minx,Patrick J.
Author(s)Montague,Michael J.
Author(s)Green,Pamela J.
Author(s)Schmidt,Skye A.
Author(s)Fulton,Lucinda
Author(s)Patel,Nipam H.
Author(s)Protas,Meredith E.
Author(s)Wilson,Richard K.
Author(s)Porter,Megan L.
Ordered AuthorBarbara-Anne Battelle, Joseph F. Ryan, Karen E. Kempler, Spencer R. Saraf, Catherine E. Marten, Wesley C. Warren, Patrick J. Minx, Michael J. Montague, Pamela J. Green, Skye A. Schmidt, Lucinda Fulton, Nipam H. Patel, Meredith E. Protas, Richard K. Wilson and Megan L. Porter
UD AuthorGreen, Pamela J
Date Accessioned2017-07-24T18:41:02Z
Date Available2017-07-24T18:41:02Z
Copyright DateThe Author 2016
Publication Date4/29/16
DescriptionPublisher's PDF
AbstractHorseshoe crabs are xiphosuran chelicerates, the sister group to arachnids. As such, they are important for understanding the most recent common ancestor of Euchelicerata and the evolution and diversification of Arthropoda. Limulus polyphemus is the most investigated of the four extant species of horseshoe crabs, and the structure and function of its visual system have long been a major focus of studies critical for understanding the evolution of visual systems in arthropods. Likewise, studies of genes encoding Limulus opsins, the protein component of the visual pigments, are critical for understanding opsin evolution and diversification among chelicerates, where knowledge of opsins is limited, and more broadly among arthropods. In the present study, we sequenced and assembled a high quality nuclear genomic sequence of L. polyphemus and used these data to annotate the full repertoire of Limulus opsins. We conducted a detailed phylogenetic analysis of Limulus opsins, including using gene structure and synteny information to identify relationships among different opsin classes. We used our phylogeny to identify significant genomic events that shaped opsin evolution and therefore the visual system of Limulus. We also describe the tissue expression patterns of the 18 opsins identified and show that transcripts encoding a number, including a peropsin, are present throughout the central nervous system. In addition to significantly extending our understanding of photosensitivity in Limulus and providing critical insight into the genomic evolution of horseshoe crab opsins, this work provides a valuable genomic resource for addressing myriad questions related to xiphosuran physiology and arthropod evolution.
DepartmentUniversity of Delaware, Delaware Biotechnoly Institute, School of Marine Science and Policy, Department of Plant and Soil Sciences
CitationBattelle, B., Ryan, J. F., Kempler, K. E., Saraf, S. R., Marten, C. E., Warren, W. C., Porter, M. L. (2016). Opsin repertoire and expression patterns in horseshoe crabs: Evidence from the genome of limulus polyphemus (arthropoda: Chelicerata). Genome Biology and Evolution, 8(5), 1571-1589. doi:10.1093/gbe/ewv100
DOI10.1093/gbe/ewv100
ISSN1759-6653
URLhttp://udspace.udel.edu/handle/19716/21580
LanguageEnglish
PublisherOxford University Press
dc.rightsCC BY 4.0
dc.sourceGenome Biology and Evolution
dc.source.urihttps://academic.oup.com/gbe
TitleOpsin Repertoire and Expression Patterns in Horseshoe Crabs: Evidence from the Genome of Limulus polyphemus (Arthropoda: Chelicerata)
TypeArticle
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