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Journal article
Target sequence capture of Barnadesioideae (Compositae) demonstrates the utility of low coverage loci in phylogenomic analyses.
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Journal article
Comparison of Magnoliaceae Plastomes: Adding Neotropical Magnolia to the Discussion.
Chloroplast genomes are considered to be highly conserved. Nevertheless, differences in their sequences are an important source of phylogenetically informative data. Chloroplast genomes are increasingly applied in evolutionary studies of angiosperms, including Magnoliaceae. Recent studies have focused on resolving the previously debated classification of the family using a phylogenomic approach... -
Journal article
Phylogenetics of Ochna (Ochnaceae) and a new infrageneric classification.
Advances in high-throughput DNA sequencing are allowing faster and more affordable generation of molecular phylogenetic trees for many organisms. However, resolving relationships at species level is still challenging, particularly for taxonomically difficult groups. Until recently, the classification of Ochna had been based only on morphological data. Here, we present the...Shah, Toral ; Mashimba, Fandey H. ; Suleiman, Haji O. ; Mbailwa, Yahya S ; Schneider, Julio V …
Systematics, Style branching, Ochna, Phylogenomics, Anther dehiscence, Taxonomic revision, and HybSeq
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Journal article
A customised target capture sequencing tool for molecular identification of Aloe vera and relatives.
Plant molecular identification studies have, until recently, been limited to the use of highly conserved markers from plastid and other organellar genomes, compromising resolution in highly diverse plant clades. Due to their higher evolutionary rates and reduced paralogy, low-copy nuclear genes overcome this limitation but are difficult to sequence with...Woudstra, Yannick ; Viruel, Juan ; Fritzsche, Martin ; Bleazard, Thomas ; Mate, Ryan …
Aloe vera, Genetic markers, Phylogenomics, Plant genetics, and Next-generation sequencing
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Journal article
Introgression across evolutionary scales suggests reticulation contributes to Amazonian tree diversity
Hybridisation has the potential to generate or homogenize biodiversity and is a particularly common phenomenon in plants, with an estimated 25% of plant species undergoing inter‐specific gene flow. However, hybridisation in Amazonia’s megadiverse tree flora was assumed to be extremely rare despite extensive sympatry between closely related species, and its...
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