| scholarly article | Q13442814 |
| P356 | DOI | 10.1038/S41598-022-15372-7 |
| P953 | full work available at URL | http://dx.doi.org/10.1038/s41598-022-15372-7 |
| https://www.nature.com/articles/s41598-022-15372-7.pdf |
| P50 | author | O. Roger Anderson | Q88843003 |
| P2093 | author name string | Fang Wang | |
| Yonas I. Tekle | |||
| Alexey Smirnov | |||
| Fiona C. Wood | |||
| P2860 | cites work | Phylogenomics reshuffles the eukaryotic supergroups | Q21092240 |
| Broadly sampled multigene trees of eukaryotes | Q21192746 | ||
| Analysis of phylogenomic datasets reveals conflict, concordance, and gene duplications with examples from animals and plants. | Q35736389 | ||
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| Mycamoeba gemmipara nov. gen., nov. sp., the First Cultured Member of the Environmental Dermamoebidae Clade LKM74 and its Unusual Life Cycle. | Q36108413 | ||
| Off the hook--how bacteria survive protozoan grazing | Q36151453 | ||
| Computing the Internode Certainty and Related Measures from Partial Gene Trees | Q36904232 | ||
| Longamoebia is not monophyletic: Phylogenomic and cytoskeleton analyses provide novel and well-resolved relationships of amoebozoan subclades | Q38697740 | ||
| Between a Pod and a Hard Test: The Deep Evolution of Amoebae. | Q38785706 | ||
| Single-Copy Genes as Molecular Markers for Phylogenomic Studies in Seed Plants | Q38810987 | ||
| Phylogenomics of 'Discosea': A new molecular phylogenetic perspective on Amoebozoa with flat body forms | Q39888475 | ||
| The flagellar apparatus of Breviata anathema, a eukaryote without a clear supergroup affinity. | Q42436129 | ||
| Phylogeny of lobose amoebae based on actin and small-subunit ribosomal RNA genes | Q47654397 | ||
| A molecular reassessment of the Leptomyxid amoebae | Q47814336 | ||
| Microbiology: eukaryotic diversity in Spain's River of Fire. | Q47886439 | ||
| Squamamoeba japonica n. g. n. sp. (Amoebozoa): a deep-sea amoeba from the Sea of Japan with a novel cell coat structure | Q48046440 | ||
| Evolution of dark-spored Myxomycetes (slime-molds): molecules versus morphology | Q48075329 | ||
| A revised six-kingdom system of life | Q22065662 | ||
| Microbially Induced Sedimentary Structures Recording an Ancient Ecosystem in the ca. 3.48 Billion-Year-Old Dresser Formation, Pilbara, Western Australia | Q22066102 | ||
| The evolution of eukaryotic cilia and flagella as motile and sensory organelles | Q24601190 | ||
| Estimating the timing of early eukaryotic diversification with multigene molecular clocks | Q24614721 | ||
| Only six kingdoms of life | Q24678252 | ||
| MAFFT Multiple Sequence Alignment Software Version 7: Improvements in Performance and Usability | Q27860817 | ||
| SSU rRNA-based phylogenetic position of the genera Amoeba and Chaos (Lobosea, Gymnamoebia): the origin of gymnamoebae revisited | Q28207286 | ||
| The phagotrophic origin of eukaryotes and phylogenetic classification of Protozoa | Q28212529 | ||
| Evolution: revisiting the root of the eukaryote tree | Q28236351 | ||
| A revised classification of naked lobose amoebae (Amoebozoa: lobosa) | Q28244321 | ||
| Stromatolite reef from the Early Archaean era of Australia | Q28244909 | ||
| Phylogenomics and the reconstruction of the tree of life | Q28247594 | ||
| IQ-TREE: a fast and effective stochastic algorithm for estimating maximum-likelihood phylogenies | Q28250973 | ||
| Molecular phylogeny and classification of the lobose amoebae | Q28273073 | ||
| The testate lobose amoebae (order Arcellinida Kent, 1880) finally find their home within Amoebozoa | Q28273084 | ||
| Cytoskeletal architecture and its evolutionary significance in amoeboid eukaryotes and their mode of locomotion | Q28598165 | ||
| 187-gene phylogeny of protozoan phylum Amoebozoa reveals a new class (Cutosea) of deep-branching, ultrastructurally unique, enveloped marine Lobosa and clarifies amoeba evolution | Q28601015 | ||
| On the age of eukaryotes: evaluating evidence from fossils and molecular clocks | Q28655429 | ||
| Did terrestrial diversification of amoebas (amoebozoa) occur in synchrony with land plants? | Q28680791 | ||
| Molecular phylogeny of Amoebozoa and the evolutionary significance of the unikont Phalansterium | Q29399107 | ||
| RAxML-III: a fast program for maximum likelihood-based inference of large phylogenetic trees | Q29547265 | ||
| Search and clustering orders of magnitude faster than BLAST | Q29547431 | ||
| An approximately unbiased test of phylogenetic tree selection | Q29547508 | ||
| trimAl: a tool for automated alignment trimming in large-scale phylogenetic analyses | Q29547690 | ||
| Rooting the eukaryote tree by using a derived gene fusion | Q33960025 | ||
| Broadly sampled multigene analyses yield a well-resolved eukaryotic tree of life | Q34179699 | ||
| Early evolution of eukaryote feeding modes, cell structural diversity, and classification of the protozoan phyla Loukozoa, Sulcozoa, and Choanozoa | Q34307318 | ||
| Molecular phylogeny of the free-living archezoan Trepomonas agilis and the nature of the first eukaryote | Q34413248 | ||
| Multigene phylogeny resolves deep branching of Amoebozoa | Q34434704 | ||
| Bacterial proteins pinpoint a single eukaryotic root | Q34461057 | ||
| Phylogenetic placement of diverse amoebae inferred from multigene analyses and assessment of clade stability within 'Amoebozoa' upon removal of varying rate classes of SSU-rDNA. | Q34733875 | ||
| Biofilm architecture | Q34979267 | ||
| Expansion of the 'Reticulosphere': Diversity of Novel Branching and Network-forming Amoebae Helps to Define Variosea (Amoebozoa). | Q35627848 | ||
| Naked amoebae in biofilms collected from a temperate freshwater pond. | Q51531512 | ||
| Protist phylogeny and the high-level classification of Protozoa | Q54213675 | ||
| Phylogenomics demonstrates that breviate flagellates are related to opisthokonts and apusomonads | Q55030863 | ||
| Predators and nutrient availability favor protozoa-resisting bacteria in aquatic systems. | Q55174964 | ||
| Life at low Reynolds number | Q55880142 | ||
| Revisions to the Classification, Nomenclature, and Diversity of Eukaryotes | Q57086550 | ||
| A Non-Flagellated Member of the Myxogastria and Expansion of the Echinosteliida | Q57453560 | ||
| Gene Trees in Species Trees | Q59699645 | ||
| Phylogenomics and Morphological Reconstruction of Arcellinida Testate Amoebae Highlight Diversity of Microbial Eukaryotes in the Neoproterozoic | Q63378911 | ||
| Quartet-Based Computations of Internode Certainty Provide Robust Measures of Phylogenetic Incongruence | Q90030688 | ||
| Busting biofilms: free-living amoebae disrupt preformed methicillin-resistant Staphylococcus aureus (MRSA) and Mycobacterium bovis biofilms | Q95851030 | ||
| The Classification of ‘Naked’ Amoebae (Phylum Rhizopoda) | Q104049131 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 1 | |
| P577 | publication date | 2022-07-01 | |
| P1433 | published in | Scientific Reports | Q2261792 |
| P1545 | series ordinal | 11173 | |
| P859 | sponsor | National Science Foundation | Q304878 |
| National Institutes of Health | Q390551 | ||
| Russian Science Support Foundation | Q30272950 | ||
| P1476 | title | New insights on the evolutionary relationships between the major lineages of Amoebozoa | |
| P478 | volume | 12 |
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