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W2148248435 endingPage "1685" @default.
W2148248435 startingPage "1666" @default.
W2148248435 abstract "• Premise of the study: We explored the utility of multiple nuclear orthologs for the taxonomic resolution of wild and cultivated carrot, Daucus species. • Methods: We studied the phylogeny of 92 accessions of 13 species and two subspecies of Daucus and 15 accessions of related genera (107 accessions total) with DNA sequences of 94 nuclear orthologs. Reiterative analyses examined data of both alleles using ambiguity codes or a single allele with the highest coverage, trimmed vs. untrimmed homopolymers; pure exonic vs. pure intronic data; the use of all 94 markers vs. a reduced subset of markers; and analysis of a concatenated data set vs. a coalescent (species tree) approach. • Key results: Our maximum parsimony and maximum likelihood trees were highly resolved, with 100% bootstrap support for most of the external and many of the internal clades. They resolved multiple accessions of many different species as monophyletic with strong support, but failed to support other species. The single allele analysis gave slightly better topological resolution; trimming homopolymers failed to increase taxonomic resolution; the exonic data had a smaller proportion of parsimony‐informative characters. Similar results demonstrating the same dominant topology can be obtained with many fewer markers. A Bayesian concordance analysis provided an overall similar phylogeny, but the coalescent analysis provided drastic changes in topology to all the above. • Conclusions: Our research highlights some difficult species groups in Daucus and misidentifications in germplasm collections. It highlights a useful subset of markers and approaches for future studies of dominant topologies in Daucus ." @default.
W2148248435 created "2016-06-24" @default.
W2148248435 creator A5008240226 @default.
W2148248435 creator A5055363037 @default.
W2148248435 creator A5069943124 @default.
W2148248435 creator A5073669436 @default.
W2148248435 creator A5079887163 @default.
W2148248435 date "2014-10-01" @default.
W2148248435 modified "2023-09-26" @default.
W2148248435 title "Phylogenomics of the carrot genus (<i>Daucus</i>, Apiaceae)" @default.
W2148248435 cites W1494644796 @default.
W2148248435 cites W1520480514 @default.
W2148248435 cites W1524433021 @default.
W2148248435 cites W1547821836 @default.
W2148248435 cites W1599148472 @default.
W2148248435 cites W1859810359 @default.
W2148248435 cites W1915699870 @default.
W2148248435 cites W1929783548 @default.
W2148248435 cites W195017829 @default.
W2148248435 cites W1964195485 @default.
W2148248435 cites W1965946014 @default.
W2148248435 cites W1969042907 @default.
W2148248435 cites W1969322128 @default.
W2148248435 cites W1975041634 @default.
W2148248435 cites W1975548496 @default.
W2148248435 cites W2000440788 @default.
W2148248435 cites W2005925580 @default.
W2148248435 cites W2006681603 @default.
W2148248435 cites W2008404189 @default.
W2148248435 cites W2012220164 @default.
W2148248435 cites W2019933943 @default.
W2148248435 cites W2028302194 @default.
W2148248435 cites W2030966943 @default.
W2148248435 cites W2034025270 @default.
W2148248435 cites W2035326297 @default.
W2148248435 cites W2037654474 @default.
W2148248435 cites W2043897063 @default.
W2148248435 cites W2048306434 @default.
W2148248435 cites W2049089966 @default.
W2148248435 cites W2054727788 @default.
W2148248435 cites W2055946385 @default.
W2148248435 cites W2056568233 @default.
W2148248435 cites W2061680337 @default.
W2148248435 cites W2067333455 @default.
W2148248435 cites W2067474031 @default.
W2148248435 cites W2068225247 @default.
W2148248435 cites W2077237334 @default.
W2148248435 cites W2077726229 @default.
W2148248435 cites W2081309644 @default.
W2148248435 cites W2085739415 @default.
W2148248435 cites W2090427748 @default.
W2148248435 cites W2090621781 @default.
W2148248435 cites W2096641211 @default.
W2148248435 cites W2099355889 @default.
W2148248435 cites W2103934714 @default.
W2148248435 cites W2106947130 @default.
W2148248435 cites W2107282968 @default.
W2148248435 cites W2107537542 @default.
W2148248435 cites W2111414304 @default.
W2148248435 cites W2112551642 @default.
W2148248435 cites W2114430361 @default.
W2148248435 cites W2115580647 @default.
W2148248435 cites W2117753040 @default.
W2148248435 cites W2118153007 @default.
W2148248435 cites W2118435402 @default.
W2148248435 cites W2125564314 @default.
W2148248435 cites W2128114769 @default.
W2148248435 cites W2128252278 @default.
W2148248435 cites W2130300124 @default.
W2148248435 cites W2130362098 @default.
W2148248435 cites W2137180017 @default.
W2148248435 cites W2138270253 @default.
W2148248435 cites W2138910980 @default.
W2148248435 cites W2141052558 @default.
W2148248435 cites W2142678478 @default.
W2148248435 cites W2145100181 @default.
W2148248435 cites W2146625968 @default.
W2148248435 cites W2147021949 @default.
W2148248435 cites W2148698435 @default.
W2148248435 cites W2157888653 @default.
W2148248435 cites W2161305024 @default.
W2148248435 cites W2161932947 @default.
W2148248435 cites W2162912451 @default.
W2148248435 cites W2165289460 @default.
W2148248435 cites W2167193190 @default.
W2148248435 cites W2169981472 @default.
W2148248435 cites W2186169612 @default.
W2148248435 cites W2318566372 @default.
W2148248435 cites W2329713876 @default.
W2148248435 cites W2342170703 @default.
W2148248435 cites W301487453 @default.
W2148248435 cites W4211040869 @default.
W2148248435 cites W4241196009 @default.
W2148248435 cites W4247437795 @default.
W2148248435 cites W4254717640 @default.
W2148248435 doi "https://doi.org/10.3732/ajb.1400106" @default.
W2148248435 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25077508" @default.
W2148248435 hasPublicationYear "2014" @default.