scholarly article | Q13442814 |
P356 | DOI | 10.1111/1749-4877.12116 |
P698 | PubMed publication ID | 25311886 |
P2093 | author name string | Ming Li | |
Guang Yang | |||
Shixia Xu | |||
Fengming Sun | |||
Xuming Zhou | |||
P2860 | cites work | A molecular phylogeny of living primates | Q21092430 |
OrthoMaM: a database of orthologous genomic markers for placental mammal phylogenetics | Q21093422 | ||
Colugos: obscure mammals glide into the evolutionary limelight | Q21146751 | ||
MUSCLE: a multiple sequence alignment method with reduced time and space complexity | Q21284290 | ||
Using the fossil record to estimate the age of the last common ancestor of extant primates | Q22122344 | ||
Pegasoferae, an unexpected mammalian clade revealed by tracking ancient retroposon insertions | Q24548318 | ||
Placental mammal diversification and the Cretaceous-Tertiary boundary | Q24598359 | ||
Phylogenomic analysis resolves the interordinal relationships and rapid diversification of the laurasiatherian mammals | Q24624478 | ||
Confirming the phylogeny of mammals by use of large comparative sequence data sets | Q24644629 | ||
MEGA4: Molecular Evolutionary Genetics Analysis (MEGA) Software Version 4.0 | Q26778434 | ||
MRBAYES: Bayesian inference of phylogenetic trees | Q27860538 | ||
BEAST: Bayesian evolutionary analysis by sampling trees | Q27860723 | ||
RAxML-VI-HPC: maximum likelihood-based phylogenetic analyses with thousands of taxa and mixed models | Q27860746 | ||
Selection of conserved blocks from multiple alignments for their use in phylogenetic analysis | Q27860925 | ||
Molecular phylogenetics and the origins of placental mammals | Q28201892 | ||
Towards resolving the interordinal relationships of placental mammals | Q28206255 | ||
Resolution of the early placental mammal radiation using Bayesian phylogenetics | Q28211064 | ||
Phylogenomics and the reconstruction of the tree of life | Q28247594 | ||
Impacts of the Cretaceous Terrestrial Revolution and KPg extinction on mammal diversification | Q28248919 | ||
Molecular and genomic data identify the closest living relative of primates | Q28255582 | ||
Genome-scale phylogeny and the detection of systematic biases | Q28256558 | ||
The guinea-pig is not a rodent | Q28279579 | ||
Is the guinea-pig a rodent? | Q28284161 | ||
The placental mammal ancestor and the post-K-Pg radiation of placentals | Q28285168 | ||
The delayed rise of present-day mammals | Q28295486 | ||
Ultraconserved elements are novel phylogenomic markers that resolve placental mammal phylogeny when combined with species-tree analysis | Q28730813 | ||
Mammalian evolution may not be strictly bifurcating | Q28748473 | ||
Flying lemurs--the 'flying tree shrews'? Molecular cytogenetic evidence for a Scandentia-Dermoptera sister clade | Q28754554 | ||
New Paleocene skeletons and the relationship of plesiadapiforms to crown-clade primates | Q28763757 | ||
Testing macro-evolutionary models using incomplete molecular phylogenies | Q28765821 | ||
CONSEL: for assessing the confidence of phylogenetic tree selection | Q29547244 | ||
An approximately unbiased test of phylogenetic tree selection | Q29547508 | ||
AWTY (are we there yet?): a system for graphical exploration of MCMC convergence in Bayesian phylogenetics | Q29547751 | ||
Parallel adaptive radiations in two major clades of placental mammals | Q29618233 | ||
Mammalian phylogenomics comes of age | Q29618520 | ||
Molecules consolidate the placental mammal tree | Q29618555 | ||
Phylogenetic assessment of molecular and morphological data for eutherian mammals | Q30699757 | ||
Reanalysis of Murphy et al.'s data gives various mammalian phylogenies and suggests overcredibility of Bayesian trees | Q30910727 | ||
Mammalian phylogeny: shaking the tree | Q31117807 | ||
Intraordinal phylogenetics of treeshrews (Mammalia: Scandentia) based on evidence from the mitochondrial 12S rRNA gene | Q31170773 | ||
Higher taxonomic relationships among extant mammals based on morphology, with selected comparisons of results from molecular data | Q32052910 | ||
A maximum pseudo-likelihood approach for estimating species trees under the coalescent model | Q33714988 | ||
Phylogenomic analyses and improved resolution of Cetartiodactyla | Q33818837 | ||
Molecular phylogeny of treeshrews (Mammalia: Scandentia) and the timescale of diversification in Southeast Asia | Q33897482 | ||
Evidence on mammalian phylogeny from sequences of exon 28 of the von Willebrand factor gene | Q34385996 | ||
Evolutionary history of 7SL RNA-derived SINEs in Supraprimates | Q34575794 | ||
Evaluating placental inter-ordinal phylogenies with novel sequences including RAG1, gamma-fibrinogen, ND6, and mt-tRNA, plus MCMC-driven nucleotide, amino acid, and codon models | Q38702244 | ||
Molecular and morphological supertrees for eutherian (placental) mammals | Q40721525 | ||
Rejection of the "flying primate" hypothesis by phylogenetic evidence from the epsilon-globin gene | Q41081217 | ||
The molecular taxonomy and evolution of the guinea pig. | Q41126853 | ||
Molecular phylogeny of living xenarthrans and the impact of character and taxon sampling on the placental tree rooting | Q42526233 | ||
Genome of the Chinese tree shrew | Q42988951 | ||
Rabbits, if anything, are likely Glires | Q43971285 | ||
Complete mitochondrial DNA sequence of the fat dormouse, Glis glis: further evidence of rodent paraphyly | Q46528542 | ||
Lagomorphs misplaced by more characters and fewer taxa | Q46781963 | ||
Genetic analysis of group composition and relatedness in white-headed langurs | Q46958652 | ||
Paleontology. Primate origins nailed | Q47418415 | ||
Revisiting the Glires concept--phylogenetic analysis of nuclear sequences | Q47739860 | ||
RNA-based phylogenetic methods: application to mammalian mitochondrial RNA sequences | Q47739891 | ||
The complete mitochondrial genome of Tupaia belangeri and the phylogenetic affiliation of scandentia to other eutherian orders | Q47834789 | ||
Characterization of novel Alu- and tRNA-related SINEs from the tree shrew and evolutionary implications of their origins | Q48275570 | ||
Pika and vole mitochondrial genomes increase support for both rodent monophyly and glires | Q48282916 | ||
Estimating species phylogenies using coalescence times among sequences. | Q51612381 | ||
New views on tree shrews: The role of Tupaiids in primate supraordinal relationships | Q56515516 | ||
Phylogenetic Systematics of the Primatomorpha, with Special Reference to Dermoptera | Q59294907 | ||
P433 | issue | 2 | |
P921 | main subject | Euarchonta | Q728566 |
phylogenomics | Q3381973 | ||
P304 | page(s) | 186-198 | |
P577 | publication date | 2015-03-01 | |
P1433 | published in | Integrative Zoology | Q15766189 |
P1476 | title | The position of tree shrews in the mammalian tree: Comparing multi-gene analyses with phylogenomic results leaves monophyly of Euarchonta doubtful | |
P478 | volume | 10 |
Q100464781 | A glance at the gut microbiota of five experimental animal species through fecal samples |
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Q47106664 | Characterization of tree shrew (Tupaia belangeri) interleukin-6 and its expression pattern in response to exogenous challenge |
Q38718144 | Contextualising primate origins--an ecomorphological framework |
Q33766924 | Creating animal models, why not use the Chinese tree shrew (Tupaia belangeri chinensis)? |
Q64083377 | Detection and genome characterization of two novel papillomaviruses and a novel polyomavirus in tree shrew (Tupaia belangeri chinensis) in China |
Q36065638 | Dietary specialization drives multiple independent losses and gains in the bitter taste gene repertoire of Laurasiatherian Mammals |
Q46241487 | Distribution and diversity of intrinsically photosensitive retinal ganglion cells in tree shrew |
Q49195626 | Evolutionary insight on localization of 18S, 28S rDNA genes on homologous chromosomes in Primates genomes. |
Q30659313 | The formation and extinction of fear memory in tree shrews |
Q100682326 | The wide distribution and horizontal transfers of beta satellite DNA in eukaryotes |
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