| Celkem nalezeno: 515 záznamů |
Castro Machado F., Bittencourt-Cunha P., Malvezzi A.M., Arico M. , Radio S., Smircich P., Zoltner M.,
Field M., Schenkman S. (2020) EIF2 alpha phosphorylation is regulated in intracellular amastigotes for the generation of infectiveTrypanosoma cruzitrypomastigote forms Cellular Microbiology
22: e13243.
DOI: 10.1111/cmi.13243
Dokumenty ke stažení:
CastroMachado_2020_CellMicrob (pdf)
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Chambouvet A., Smilansky V.,
Jirků M., Isidoro-Ayza M., Itoiz S., Derrelle E. , Monier A., Gower D., Wilkinson M., Yabsley M.,
Lukeš J., Richards T. (2020) Diverse alveolate infections of tadpoles, a new threat to frogs? PLoS Pathogens
16: e1008107.
DOI: 10.1371/journal.ppat.1008107
Dokumenty ke stažení:
Chambouvet_2020_PLoSPathog (pdf)
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D'avila-Levy C., Bearzatto B., Ambroise J., Helaers R. ,
Butenko A., Yurchenko V., Morelli K., Santos H., Brouillard P., Grellier P., Gala J.-L., Vikkula M. (2020) First draft genome of the Trypanosomatid Herpetomonas muscarum ingenoplastis through MinION Oxford nanopore technology and illumina sequencing Tropical Medicine and Infectious Disease
5: 25.
DOI: 10.3390/tropicalmed5010025
Dokumenty ke stažení:
dAvila-Levy_2020_TropMedInfDis (pdf)
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Dixit S., Alfonzo J.,
Lukeš J. (2020) RNA-binding proteins and their targets in Trypanosoma brucei: single nucleotide resolution using iCLIP and iCLAP In P.A.M. Michels, M. Ginger, D. Zilberstein (Eds.), Trypanosomatids. Methods in Molecular Biology. Springer Nature, New York
2116: 303–323.
DOI: 10.1007/978-1-0716-0294-2_19
Dokumenty ke stažení:
Chapter_Dixit_2020_Trypanosomatids (pdf)
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Durante I.,
Butenko A.,
Rašková V., Charyyeva A.,
Svobodová M., Yurchenko V.,
Hashimi H.,
Lukeš J. (2020) Large-Scale Phylogenetic Analysis of Trypanosomatid Adenylate Cyclases Reveals Associations with Extracellular Lifestyle and Host-Pathogen Interplay Genome Biology and Evolution
12: 2403–2416.
DOI: 10.1093/gbe/evaa226
Dokumenty ke stažení:
Durante_2020_GenomeBiolEvol (pdf)
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Faktorová D.,
Kaur B., Valach M., Graf L.,
Benz C., Burger G.,
Lukeš J. (2020) Targeted integration by homologous recombination enables in situ tagging and replacement of genes in the marine microeukaryote Diplonema papillatum Environmental Microbiology
22: 3660–3670.
DOI: 10.1111/1462-2920.15130
Dokumenty ke stažení:
Faktorová_2020_Env_Microbiology (pdf)
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Faktorová D., Nisbet E.R.,
Kachale A.,
Kaur B., et al.,
Lukeš J. (2020) Genetic tool development in marine protists: emerging model organisms for experimental cell biology Nature Methods
17: 481–494.
DOI: 10.1038/s41592-020-0796-x
Dokumenty ke stažení:
Faktorova_2020_NatureMethods (pdf)
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Flegontova O., Flegontov P.,
Castaňeda Londoňo P., Walczowski W., Śantić D., Edgcomb V.,
Lukeš J.,
Horák A. (2020) Environmental determinants of the distribution of planktonic diplonemids and kinetoplastids in the oceans Environmental Microbiology
22: 4014–4031.
DOI: 10.1111/1462-2920.15190
Dokumenty ke stažení:
Flegontova_2020_EnvMicrob (pdf)
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Füssy Z.,
Záhonová K.,
Tomčala A., Krajčovič J., Yurchenko V.,
Oborník M., Eliáš M. (2020) The Cryptic Plastid of Euglena longa Defines a New Type of Nonphotosynthetic Plastid Organelle mSphere
5: e00675-20.
DOI: 10.1128/mSphere.00675-20
Dokumenty ke stažení:
Fussy_2020_mSphere (pdf)
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George E.E., Husník F.,
Tashyreva D.,
Prokopchuk G.,
Horák A., Kwong W.K.,
Lukeš J., Keeling P. (2020) Highly Reduced Genomes of Protist Endosymbionts Show Evolutionary Convergence Current Biology
30: 925-933.
DOI: 10.1016/j.cub.2019.12.070
Dokumenty ke stažení:
George_2020_CurrentBiology (pdf)
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Hammond M.,
Nenarokova A.,
Butenko A., Zoltner M.,
Lacová Dobáková E.,
Field M.,
Lukeš J. (2020) A uniquely complex mitochondrial proteome from Euglena gracilis. Molecular Biology and Evolution
37: 2173–2191.
DOI: 10.1093/molbev/msaa061
Dokumenty ke stažení:
Hammond_2020_MolBiolEvol (pdf)
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Henrici R.C., Edwards R.L., Zoltner M., van Schalkwyk D.A., Hart M.N., Mohring F., Nofal S.D., Patel A., Flueck C., Baker D.A., Odom J.A.R.,
Field M., Sutherland C.J. (2020) The Plasmodium falciparum Artemisinin Susceptibility-Associated AP-2 Adaptin μ Subunit is Clathrin Independent and Essential for Schizont Maturation. mBio
11: e02918-19.
DOI: 10.1128/mBio.02918-19
Dokumenty ke stažení:
Henrici_2020_mBio (pdf)
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Horáková E.,
Faktorová D., Kraeva N.,
Kaur B., Van Den Abbeele J., Yurchenko V.,
Lukeš J. (2020) Catalase compromises the development of the insect and mammalian stages of Trypanosoma brucei FEBS Journal
287: 964–977.
DOI: 10.1111/febs.15083
Dokumenty ke stažení:
Horakova_2020_FEBSJournal (pdf)
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Hrazdilová K., Rybářová M., Široký P.,
Votýpka J., Zintl A., Burgess H., Steinbauer V., Žákovčík V.,
Modrý D. (2020) Diversity of Babesia spp. in cervid ungulates based on the 18S rDNA and cytochrome c oxidase subunit I phylogenies Infection, Genetics and Evolution
77: 104060.
DOI: 10.1016/j.meegid.2019.104060
Dokumenty ke stažení:
Hrazdilova_2020_Infection, Genetics and Evolution (pdf)
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Kaur B.,
Záhonová K., Valach M.,
Faktorová D.,
Prokopchuk G., Burger G.,
Lukeš J. (2020) Gene fragmentation and RNA editing without borders: eccentric mitochondrial genomes of diplonemids Nucleic Acids Research
48: 2694–2708.
DOI: 10.1093/nar/gkz1215
Dokumenty ke stažení:
Kaur_2020_Nucleic Acids Research (pdf)
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Kolísko M.,
Flegontova O., Karnkowska A., Lax G., Maritz J.M., Pánek T.,
Táborský P., Carlton J.M., Čepička I.,
Horák A.,
Lukeš J., Simpson A., Tai V. (2020) EukRef-excavates: seven curated SSU ribosomal RNA gene databases Database
2020: baaa080.
DOI: 10.1093/database/baaa080
Dokumenty ke stažení:
Kolisko_2020_Database (pdf)
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Kostygov A., Frolov A., Malysheva M., Ganyukova A., Chistyakova L.V.,
Tashyreva D.,
Tesařová M., Spodareva V.V., Režnarová J., Macedo D.H.,
Butenko A., d’Avila-Levy C.,
Lukeš J., Yurchenko V. (2020) Vickermania gen. nov., trypanosomatids that use two joined flagella to resist midgut peristaltic flow within the fly host BMC biology
18: 187.
DOI: 10.1186/s12915-020-00916-y
Dokumenty ke stažení:
Kostygov_2020_BMC (pdf)
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Li S.-J., Zhang X.,
Lukeš J., Li B.-Q., Wang J.-F., Qu L.-H., Hide G., Lun Z., Lai D. (2020) Novel organization of mitochondrial minicircles and guide RNAs in the zoonotic pathogen Trypanosoma lewisi Nucleic Acids Research
48: 9747-9761.
DOI: 10.1093/nar/gkaa700
Dokumenty ke stažení:
Li_2020_NAR (pdf)
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Linhart P., Bandouchová H., Zukal J.,
Votýpka J., Kokurewicz T., Dundarova H., Apoznanski G., Heger T., Kubickova A., Němcová M., Piacek V., Sedláčková J., Seidlová V., Berková H., Hanzal V., Pikula J. (2020) Trypanosomes in eastern and central European bats Acta Veterinaria Brno
89: 69-78.
DOI: 10.2754/avb202089010069
Dokumenty ke stažení:
Linhart_2020_ActVet (pdf)
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Lukeš J.,
Votýpka J. (2020) Field Isolation and Cultivation of Trypanosomatids from Insects. In P.A.M. Michels, M. Ginger, D. Zilberstein (Eds.), Trypanosomatids. Methods in Molecular Biology. Springer Nature, New York
2116: 3–21.
DOI: 10.1007/978-1-0716-0294-2_1
Dokumenty ke stažení:
Chapter_Lukes_2020_Trypanosomatids (pdf)
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