FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1980780818> ?p ?o ?g. }

• W1980780818 endingPage "642" @default.
• W1980780818 startingPage "636" @default.
• W1980780818 abstract "Phylogenomic advances provide more rigorous estimates for the timing of evolutionary divergences than previously available (e.g., Bayesian relaxed-clock estimates with soft fossil constraints). However, because many family-level clades and higher, as well as model species within those clades, have not been included in phylogenomic studies, the literature presents temporal estimates likely harboring substantial errors. Blindly using such dates can substantially retard scientific advancement. We suggest a way forward by conducting analyses that minimize prior assumptions and use large datasets, and demonstrate how using such a phylogenomic approach can lead to significantly more parsimonious conclusions without a good fossil record. We suggest that such an approach calls for research into the biological causes of conflict between molecular and fossil signatures. Phylogenomic advances provide more rigorous estimates for the timing of evolutionary divergences than previously available (e.g., Bayesian relaxed-clock estimates with soft fossil constraints). However, because many family-level clades and higher, as well as model species within those clades, have not been included in phylogenomic studies, the literature presents temporal estimates likely harboring substantial errors. Blindly using such dates can substantially retard scientific advancement. We suggest a way forward by conducting analyses that minimize prior assumptions and use large datasets, and demonstrate how using such a phylogenomic approach can lead to significantly more parsimonious conclusions without a good fossil record. We suggest that such an approach calls for research into the biological causes of conflict between molecular and fossil signatures. a part of a phylogenetic tree where independent branches connect, usually bifurcating, and representative of an evolutionary divergence event. analyzing data to estimate the evolutionary relationships of a group of organisms. Modern techniques are based on increasingly sophisticated models of evolution, primarily relying on DNA sequence data. phylogenetics based on genomic-level data. In practice, any study that uses multiple (10s to 100s) molecular markers (e.g., protein-coding genes) to infer phylogenetic relationships. a single date assigned to a given node with no associated error. When used in analyses, this makes a strong claim that the exact time of divergence between two lineages is known without error. the use of fossil or other extrinsic information to calibrate relaxed clock models to estimate absolute times of divergence of lineages. the distribution of dates from which values are drawn that are used in an analysis to construct, together with the likelihood calculated from the data, the posterior distribution. In the context of a Bayesian relaxed-clock analysis, prior distributions reflect the range of age values from which an analysis program will sample values, assess them based on their likelihood, and produce a set of values of the posterior distribution for estimation of the ages in question. the use of results from previous studies (that used primary calibrations) to calibrate relaxed clock models to estimate absolute times of divergence of lineages." @default.
• W1980780818 created "2016-06-24" @default.
• W1980780818 creator A5009538432 @default.
• W1980780818 creator A5018968292 @default.
• W1980780818 date "2013-11-01" @default.
• W1980780818 modified "2023-09-26" @default.
• W1980780818 title "Critiquing blind dating: the dangers of over-confident date estimates in comparative genomics" @default.
• W1980780818 cites W1534406401 @default.
• W1980780818 cites W1940358234 @default.
• W1980780818 cites W1994589056 @default.
• W1980780818 cites W2010297651 @default.
• W1980780818 cites W2017641297 @default.
• W1980780818 cites W2023182268 @default.
• W1980780818 cites W2036628186 @default.
• W1980780818 cites W2045904572 @default.
• W1980780818 cites W2061352595 @default.
• W1980780818 cites W2062150244 @default.
• W1980780818 cites W2074131636 @default.
• W1980780818 cites W2076320557 @default.
• W1980780818 cites W2079495531 @default.
• W1980780818 cites W2081432226 @default.
• W1980780818 cites W2094939159 @default.
• W1980780818 cites W2097588807 @default.
• W1980780818 cites W2099517971 @default.
• W1980780818 cites W2099762535 @default.
• W1980780818 cites W2100473357 @default.
• W1980780818 cites W2104988583 @default.
• W1980780818 cites W2105487208 @default.
• W1980780818 cites W2110522871 @default.
• W1980780818 cites W2113565291 @default.
• W1980780818 cites W2118533197 @default.
• W1980780818 cites W2120828809 @default.
• W1980780818 cites W2121190890 @default.
• W1980780818 cites W2123125502 @default.
• W1980780818 cites W2125241803 @default.
• W1980780818 cites W2125865118 @default.
• W1980780818 cites W2131961145 @default.
• W1980780818 cites W2141506506 @default.
• W1980780818 cites W2143158972 @default.
• W1980780818 cites W2149409778 @default.
• W1980780818 cites W2150933014 @default.
• W1980780818 cites W2155483147 @default.
• W1980780818 cites W2155913339 @default.
• W1980780818 cites W2157277050 @default.
• W1980780818 cites W2160354623 @default.
• W1980780818 cites W2166029367 @default.
• W1980780818 cites W2169252967 @default.
• W1980780818 cites W2169752264 @default.
• W1980780818 cites W2171574782 @default.
• W1980780818 cites W4231070980 @default.
• W1980780818 cites W4247332402 @default.
• W1980780818 cites W4248722194 @default.
• W1980780818 doi "https://doi.org/10.1016/j.tree.2013.07.007" @default.
• W1980780818 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23973265" @default.
• W1980780818 hasPublicationYear "2013" @default.
• W1980780818 type Work @default.
• W1980780818 sameAs 1980780818 @default.
• W1980780818 citedByCount "23" @default.
• W1980780818 countsByYear W19807808182014 @default.
• W1980780818 countsByYear W19807808182015 @default.
• W1980780818 countsByYear W19807808182016 @default.
• W1980780818 countsByYear W19807808182017 @default.
• W1980780818 countsByYear W19807808182018 @default.
• W1980780818 countsByYear W19807808182020 @default.
• W1980780818 countsByYear W19807808182021 @default.
• W1980780818 countsByYear W19807808182022 @default.
• W1980780818 countsByYear W19807808182023 @default.
• W1980780818 crossrefType "journal-article" @default.
• W1980780818 hasAuthorship W1980780818A5009538432 @default.
• W1980780818 hasAuthorship W1980780818A5018968292 @default.
• W1980780818 hasConcept C104317684 @default.
• W1980780818 hasConcept C107673813 @default.
• W1980780818 hasConcept C119857082 @default.
• W1980780818 hasConcept C151730666 @default.
• W1980780818 hasConcept C154945302 @default.
• W1980780818 hasConcept C160234255 @default.
• W1980780818 hasConcept C193252679 @default.
• W1980780818 hasConcept C196662502 @default.
• W1980780818 hasConcept C2776110070 @default.
• W1980780818 hasConcept C41008148 @default.
• W1980780818 hasConcept C44465124 @default.
• W1980780818 hasConcept C54355233 @default.
• W1980780818 hasConcept C70343354 @default.
• W1980780818 hasConcept C78458016 @default.
• W1980780818 hasConcept C86803240 @default.
• W1980780818 hasConcept C90132467 @default.
• W1980780818 hasConceptScore W1980780818C104317684 @default.
• W1980780818 hasConceptScore W1980780818C107673813 @default.
• W1980780818 hasConceptScore W1980780818C119857082 @default.
• W1980780818 hasConceptScore W1980780818C151730666 @default.
• W1980780818 hasConceptScore W1980780818C154945302 @default.
• W1980780818 hasConceptScore W1980780818C160234255 @default.
• W1980780818 hasConceptScore W1980780818C193252679 @default.
• W1980780818 hasConceptScore W1980780818C196662502 @default.
• W1980780818 hasConceptScore W1980780818C2776110070 @default.
• W1980780818 hasConceptScore W1980780818C41008148 @default.
• W1980780818 hasConceptScore W1980780818C44465124 @default.
• W1980780818 hasConceptScore W1980780818C54355233 @default.

• next