about
The Revised Classification of EukaryotesAmphitremida (poche, 1913) is a new major, ubiquitous labyrinthulomycete cladeCBOL protist working group: barcoding eukaryotic richness beyond the animal, plant, and fungal kingdomsThe chastity of amoebae: re-evaluating evidence for sex in amoeboid organismsRibosomal RNA genes challenge the monophyly of the Hyalospheniidae (Amoebozoa: Arcellinida)The Phanerozoic diversification of silica-cycling testate amoebae and its possible links to changes in terrestrial ecosystemsSphenoderiidae (fam. nov.), a new clade of euglyphid testate amoebae characterized by small, round scales surrounding the aperture.Eight species in the Nebela collaris complex: Nebela gimlii (Arcellinida, Hyalospheniidae), a new species described from a Swiss raised bog.Multiple barcode assessment within the Saprolegnia-Achlya clade (Saprolegniales, Oomycota, Straminipila) brings order in a neglected group of pathogens.From Environmental Sequences to Morphology: Observation and Characterisation of a Paulinellid Testate Amoeba (Micropyxidiella edaphonis gen. nov. sp. nov. Euglyphida, Paulinellidae) from Soil using Fluorescent in situ Hybridization.An unexpected role for mixotrophs in the response of peatland carbon cycling to climate warming.Andalucia (n. gen.)--the deepest branch within jakobids (Jakobida; Excavata), based on morphological and molecular study of a new flagellate from soil.SSU rRNA reveals a sequential increase in shell complexity among the euglyphid testate amoebae (Rhizaria: Euglyphida).Nebela jiuhuensis nov. sp. (Amoebozoa; Arcellinida; Hyalospheniidae): A New Member of the Nebela saccifera - equicalceus - ansata Group Described from Sphagnum Peatlands in South-Central China.Cultivation-independent analysis reveals a shift in ciliate 18S rRNA gene diversity in a polycyclic aromatic hydrocarbon-polluted soil.Pan-oceanic distribution of new highly diverse clades of deep-sea diplonemids.Highly diverse and seasonally dynamic protist community in a pristine peat bog.COI barcoding of Nebelid testate amoebae (Amoebozoa: Arcellinida): extensive cryptic diversity and redefinition of the Hyalospheniidae Schultze.SSU rRNA phylogeny of Arcellinida (Amoebozoa) reveals that the largest Arcellinid genus, Difflugia Leclerc 1815, is not monophyletic.Using DNA-barcoding for sorting out protist species complexes: a case study of the Nebela tincta-collaris-bohemica group (Amoebozoa; Arcellinida, Hyalospheniidae).Checklist, diversity and distribution of testate amoebae in Chile.Lateral transfer of the gene for a widely used marker, alpha-tubulin, indicated by a multi-protein study of the phylogenetic position of Andalucia (Excavata).The environmental clade LKM11 and Rozella form the deepest branching clade of fungi.Ocean plankton. Eukaryotic plankton diversity in the sunlit ocean.Environmental DNA COI barcoding for quantitative analysis of protists communities: A test using the Nebela collaris complex (Amoebozoa; Arcellinida; Hyalospheniidae).Mycamoeba gemmipara nov. gen., nov. sp., the First Cultured Member of the Environmental Dermamoebidae Clade LKM74 and its Unusual Life Cycle.Microbial eukaryote communities exhibit robust biogeographical patterns along a gradient of Patagonian and Antarctic lakes.Meeting Report: 8th International Symposium on Testate Amoebae, Ilhabela, São Paulo, Brazil, 12-14 September 2016.NAD9/NAD7 (mitochondrial nicotinamide adenine dinucleotide dehydrogenase gene)-A new "Holy Grail" phylogenetic and DNA-barcoding marker for Arcellinida (Amoebozoa)?Genetic Determinism vs. Phenotypic Plasticity in Protist Morphology.A contribution to the phylogeny of agglutinating Arcellinida (Amoebozoa) based on SSU rRNA gene sequences.The Protist Ribosomal Reference database (PR2): a catalog of unicellular eukaryote small sub-unit rRNA sequences with curated taxonomy.Current and future perspectives on the systematics, taxonomy and nomenclature of testate amoebae.Secondary metabolites help biocontrol strain Pseudomonas fluorescens CHA0 to escape protozoan grazingMolecular phylogeny of euglyphid testate amoebae (Cercozoa: Euglyphida) suggests transitions between marine supralittoral and freshwater/terrestrial environments are infrequent.Comparing potential COI and SSU rDNA barcodes for assessing the diversity and phylogenetic relationships of cyphoderiid testate amoebae (Rhizaria: Euglyphida).Quadrulella texcalense sp. nov. from a Mexican desert: An unexpected new environment for hyalospheniid testate amoebae.Application of the denaturing gradient gel electrophoresis (DGGE) technique as an efficient diagnostic tool for ciliate communities in soil.Morphological and molecular diversification of Asian endemic Difflugia tuberspinifera (Amoebozoa, Arcellinida): a case of fast morphological evolution in protists?Response of forest soil euglyphid testate amoebae (Rhizaria: Cercozoa) to pig cadavers assessed by high-throughput sequencing.
P50
Q17792525-B2CBD468-F3CE-4383-9503-85632439B45FQ21133779-6F7BABBB-4678-4D4C-91B3-06F4A72E37ABQ21145731-48DE9768-49B0-450D-84A4-FA25F1BCE479Q22065937-F3D96006-FA95-4873-98BC-8DF34022463DQ28257963-574016A5-8A47-40E6-AFDA-8C27FE5C0EE7Q28603293-19FBA13F-E9AB-469E-8919-FD08F22186C4Q30683308-10E17A6C-5B4B-4CC0-8C6D-F530DA8A1B24Q30882574-2A79169F-E43B-4B7A-9BF3-402A15C0D50FQ30903143-7D1BB9E3-E066-4358-8C45-9CE61F53EEE4Q30942720-888A4FE2-419D-4727-AC3F-43F9C189B402Q31027991-4C6DF0DF-6A9E-432F-AF4D-35B70CA944D6Q31035586-C4AB94EE-6AF2-4BA1-A7E1-9EF22B13AB9BQ31099993-BBAE8AEC-5D6F-4644-B0B4-A80F545CE822Q31126698-4AA50898-9C89-4665-9663-E44C4D603A4DQ33303243-72D653EB-202C-4598-A1B2-5D25491E514DQ33370633-C48BE191-6109-4854-B4AA-DD9F4D8FBA2BQ33652234-D58FCAAE-64CA-4409-A318-4CA6D484EE43Q34087178-EE1CDBF3-CFBB-4243-BF10-A6E46010F613Q34253742-CFC65930-5D8D-4A8D-8C3A-DCA6A2112EE0Q34455764-849AF2C9-F470-4B20-87F4-C123C9E0D364Q34492585-6C760CEC-3AB2-4132-B96D-DFE35E9A2E1AQ34742810-6AE9A107-42E4-4EA9-BFB7-CED2734970E9Q34997013-B315F8C7-5CAE-42E1-A62D-D08522F5382BQ35638935-C256CA93-2F2D-453C-977F-53A75212F357Q35702607-C3CDC236-614A-4C5B-802A-B6C7AA169366Q36108413-B9FEA32B-AD26-449F-82CC-5902646A81C0Q36154736-2CC1AF80-667A-4A7F-AE0F-79DDFFA6BF9EQ36207556-F7DDAA44-90EB-4F1D-9C76-1298FAEE6C09Q36286989-B8422949-EFB9-4C0F-835A-5716030CBB15Q36288749-FF1777CA-2A62-4E22-91BB-4FFD67408719Q36354294-6FF0E706-CEA4-46B1-817B-743BF567D2BBQ36491346-FBEA668C-99A9-499D-8BE7-543CF533064FQ38891559-573E82CC-3890-4706-9D06-AEFA614AB53EQ39106819-59A157BF-F148-48B6-8246-5727BA230D55Q39108538-F48D62EB-E157-456F-B6F4-F6EB3F961DF8Q39110999-DAABAC79-1A4F-428A-BB34-C9646BB0BBAEQ39372710-2663B1BA-A6E7-48B4-9A5F-FB00C48871A9Q39931439-D2612F7D-851A-48AD-97B7-78FF8FB49973Q40249998-96B74B9D-CB38-4462-81C9-8980AB01366FQ41072287-0E3057BE-BA4B-41B6-BAFE-85EA1B7C4FEB
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Enrique Lara
@ast
Enrique Lara
@en
Enrique Lara
@es
Enrique Lara
@nl
Enrique Lara
@sl
type
label
Enrique Lara
@ast
Enrique Lara
@en
Enrique Lara
@es
Enrique Lara
@nl
Enrique Lara
@sl
prefLabel
Enrique Lara
@ast
Enrique Lara
@en
Enrique Lara
@es
Enrique Lara
@nl
Enrique Lara
@sl
P1053
N-3679-2017
P106
P1153
23982938200
P21
P31
P3829
P496
0000-0001-8500-522X
P569
2000-01-01T00:00:00Z