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Coralsnake Venomics: Analyses of Venom Gland Transcriptomes and Proteomes of Six Brazilian Taxa

dc.contributor.authorAird, Steven D.
dc.contributor.authorda Silva Jr., Nelson Jorge
dc.contributor.authorQiu, Lijun
dc.contributor.authorVillar-Briones, Alejandro
dc.contributor.authorSaddi, Vera Aparecida
dc.contributor.authorPires de Campos Telles, Mariana
dc.contributor.authorGrau, Miguel L
dc.contributor.authorMikheyev, Alexander
dc.date.accessioned2021-06-01T06:16:43Z
dc.date.available2021-06-01T06:16:43Z
dc.date.issued2017
dc.date.updated2020-11-23T10:22:20Z
dc.description.abstractVenom gland transcriptomes and proteomes of six Micrurus taxa (M. corallinus, M. lemniscatus carvalhoi, M. lemniscatus lemniscatus, M. paraensis, M. spixii spixii, and M. surinamensis) were investigated, providing the most comprehensive, quantitative data on Micrurus venom composition to date, and more than tripling the number of Micrurus venom protein sequences previously available. The six venomes differ dramatically. All are dominated by 2–6 toxin classes that account for 91–99% of the toxin transcripts. The M. s. spixii venome is compositionally the simplest. In it, three-finger toxins (3FTxs) and phospholipases A2 (PLA2s) comprise >99% of the toxin transcripts, which include only four additional toxin families at levels ≥0.1%. Micrurus l. lemniscatus venom is the most complex, with at least 17 toxin families. However, in each venome, multiple structural subclasses of 3FTXs and PLA2s are present. These almost certainly differ in pharmacology as well. All venoms also contain phospholipase B and vascular endothelial growth factors. Minor components (0.1–2.0%) are found in all venoms except that of M. s. spixii. Other toxin families are present in all six venoms at trace levels (<0.005%). Minor and trace venom components differ in each venom. Numerous novel toxin chemistries include 3FTxs with previously unknown 8- and 10-cysteine arrangements, resulting in new 3D structures and target specificities. 9-cysteine toxins raise the possibility of covalent, homodimeric 3FTxs or heterodimeric toxins with unknown pharmacologies. Probable muscarinic sequences may be reptile-specific homologs that promote hypotension via vascular mAChRs. The first complete sequences are presented for 3FTxs putatively responsible for liberating glutamate from rat brain synaptosomes. Micrurus C-type lectin-like proteins may have 6–9 cysteine residues and may be monomers, or homo- or heterodimers of unknown pharmacology. Novel KSPIs, 3× longer than any seen previously, appear to have arisen in three species by gene duplication and fusion. Four species have transcripts homologous to the nociceptive toxin, (MitTx) α-subunit, but all six species had homologs to the β-subunit. The first non-neurotoxic, non-catalytic elapid phospholipase A2s are reported. All are probably myonecrotic. Phylogenetic analysis indicates that the six taxa diverged 15–35 million years ago and that they split from their last common ancestor with Old World elapines nearly 55 million years ago. Given their early diversification, many cryptic micrurine taxa are anticipated.en_AU
dc.format.mimetypeapplication/pdfen_AU
dc.identifier.issn2072-6651en_AU
dc.identifier.urihttp://hdl.handle.net/1885/235786
dc.language.isoen_AUen_AU
dc.provenanceThis article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).en_AU
dc.publisherMDPIen_AU
dc.rights© 2017 by the authors. Licensee MDPI, Basel, Switzerland.en_AU
dc.rights.licenseCreative Commons Attribution (CC BY) licenseen_AU
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/en_AU
dc.sourceToxinsen_AU
dc.subjectcoralsnakesen_AU
dc.subjectMicrurusen_AU
dc.subjectvenom gland transcriptomesen_AU
dc.subjectproteomesen_AU
dc.subject3FTxen_AU
dc.subjectphospholipase A2en_AU
dc.subjectmolecular modelsen_AU
dc.subjectnovel toxinsen_AU
dc.titleCoralsnake Venomics: Analyses of Venom Gland Transcriptomes and Proteomes of Six Brazilian Taxaen_AU
dc.typeJournal articleen_AU
dcterms.accessRightsOpen Accessen_AU
local.bibliographicCitation.issue6en_AU
local.bibliographicCitation.lastpage187en_AU
local.bibliographicCitation.startpage187en_AU
local.contributor.affiliationAird, Steven D., Okinawa Institute of Science and Technology Graduate Universityen_AU
local.contributor.affiliationda Silva Jr., Nelson Jorge, Pontifícia Universidade Católica de Goiásen_AU
local.contributor.affiliationQiu, Lijun, Okinawa Institute of Science and Technology Graduate Universityen_AU
local.contributor.affiliationVillar-Briones, Alejandro, Okinawa Institute of Science and Technology Graduate Universityen_AU
local.contributor.affiliationSaddi, Vera Aparecida, Pontifícia Universidade Católica de Goiásen_AU
local.contributor.affiliationPires de Campos Telles, Mariana, Universidade Federal de Goiasen_AU
local.contributor.affiliationGrau, Miguel L, Okinawa Institute of Science and Technology Graduate Universityen_AU
local.contributor.affiliationMikheyev, Sasha, College of Science, ANUen_AU
local.contributor.authoruidMikheyev, Sasha, u5611203en_AU
local.description.notesImported from ARIESen_AU
local.identifier.absfor060303 - Biological Adaptationen_AU
local.identifier.absfor060309 - Phylogeny and Comparative Analysisen_AU
local.identifier.ariespublicationu9511635xPUB1702en_AU
local.identifier.citationvolume9en_AU
local.identifier.doi10.3390/toxins9060187en_AU
local.identifier.thomsonID000404179400013
local.publisher.urlhttp://www.mdpi.com/journal/toxinsen_AU
local.type.statusPublished Versionen_AU

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