Calibration Choice, Rate Smoothing, and the Pattern of Tetrapod Diversification According to the Long Nuclear Gene RAG-1

Hugall, Andrew F.; Foster, R. Nelson; Lee, Michael S. Y.

doi:10.1080/10635150701477825

Cited by 274 publications

(301 citation statements)

References 97 publications

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“…Our rooted tree indicates that snake hepadnaviruses are probably paraphyletic and that bird hepadnaviruses (endogenous þ exogenous) are closer to mammalian than to snake hepadnaviruses, which is incongruent with the host phylogeny (in which birds are closer to snakes than to mammals [64]). This suggests that these viruses probably jumped between vertebrate hosts as well.…”

Section: Discussionmentioning

confidence: 89%

Endogenous hepadnaviruses, bornaviruses and circoviruses in snakes

et al. 2014

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We report the discovery of endogenous viral elements (EVEs) from Hepadnaviridae, Bornaviridae and Circoviridae in the speckled rattlesnake, Crotalus mitchellii, the first viperid snake for which a draft whole genome sequence assembly is available. Analysis of the draft assembly reveals genome fragments from the three virus families were inserted into the genome of this snake over the past 50 Myr. Cross-species PCR screening of orthologous loci and computational scanning of the python and king cobra genomes reveals that circoviruses integrated most recently (within the last approx. 10 Myr), whereas bornaviruses and hepadnaviruses integrated at least approximately 13 and approximately 50 Ma, respectively. This is, to our knowledge, the first report of circo-, borna-and hepadnaviruses in snakes and the first characterization of non-retroviral EVEs in non-avian reptiles. Our study provides a window into the historical dynamics of viruses in these host lineages and shows that their evolution involved multiple host-switches between mammals and reptiles.

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Section: Discussionmentioning

confidence: 89%

Endogenous hepadnaviruses, bornaviruses and circoviruses in snakes

et al. 2014

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“…Cytb has frequently been used in mammals to assess phylogenetic relationships above the family level (e.g., Agnarsson et al 2011) and has been shown to be surprisingly effective at these deeper nodes (Tobe et al 2010). As noted earlier, although saturation may introduce systemic bias in age estimates (Hugall et al 2007, Dornburg et al 2014, such bias should influence both the chipmunk and Holarctic ground squirrel clades equally as long as no calibrating fossils are incorporated a priori. At present, the best available dataset (Cytb) provides a compelling and unambiguous argument that the three chipmunk lineages exhibit genus-level genetic differentiation.…”

Section: Resultsmentioning

confidence: 99%

“…Systemic bias in molecular age estimates has been demonstrated in numerous studies (Ho and Jermiin 2004, Jansa et al 2006, Norris et al 2015. Deep branches may be underestimated relative to more recent branches (Ho and Larson 2006), especially in situations where fast-evolving genes have become saturated (Hugall et al 2007, Dornburg et al 2014). If such systemic bias is present, it may affect both chipmunks and Holarctic ground squirrels equally, but the bias would be corrected only for the Holarctic ground squirrels, thanks to the presence of a calibrating fossil.…”

Section: Introductionmentioning

confidence: 99%

Towards a uniform nomenclature for ground squirrels: the status of the Holarctic chipmunks

Patterson

Norris

2016

Mammalia

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Abstract:The chipmunks are a Holarctic group of ground squirrels currently allocated to the genus Tamias within the tribe Marmotini (Rodentia: Sciuridae). Cranial, postcranial, and genital morphology, cytogenetics, and genetics each separate them into three distinctive and monophyletic lineages now treated as subgenera. These groups are found in eastern North America, western North America, and Asia, respectively. However, available genetic data (mainly from mitochondrial cytochrome b) demonstrate that the chipmunk lineages diverged early in the evolution of the Marmotini, well before various widely accepted genera of marmotine ground squirrels. Comparisons of genetic distances also indicate that the chipmunk lineages are as or more distinctive from one another as are most ground squirrel genera. Chipmunk fossils were present in the late Oligocene of North America and shortly afterwards in Asia, prior to the main radiation of Holarctic ground squirrels. Because they are coordinate in morphological, genetic, and chronologic terms with ground squirrel genera, the three chipmunk lineages should be recognized as three distinct genera, namely, Tamias Illiger, 1811, Eutamias Trouessart, 1880, and Neotamias A. H. Howell, 1929. Each is unambiguously diagnosable on the basis of cranial, post-cranial, and external morphology.

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“…One outgroup taxon was included (the rhynchocephalian, Sphenodon punctatus), and this species is widely recognized as the living sister group to extant Squamata (e.g. Hugall et al, 2007;Alfaro et al, 2009;Mulcahy et al, 2012). Previous studies have estimated the crown-group of living Squamata to be roughly 180-240 Myr old (review in Mulcahy et al, 2012).…”

Section: Design Of Subsampling Experimentsmentioning

confidence: 99%

Do missing data influence the accuracy of divergence-time estimation with BEAST?

Wiens

2015

Molecular Phylogenetics and Evolution

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Calibration Choice, Rate Smoothing, and the Pattern of Tetrapod Diversification According to the Long Nuclear Gene RAG-1

Cited by 274 publications

References 97 publications

Endogenous hepadnaviruses, bornaviruses and circoviruses in snakes

Endogenous hepadnaviruses, bornaviruses and circoviruses in snakes

Towards a uniform nomenclature for ground squirrels: the status of the Holarctic chipmunks

Do missing data influence the accuracy of divergence-time estimation with BEAST?

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