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16 results on '"Najdrová, Vladimíra"'

1. Efficient CRISPR/Cas9-mediated gene disruption in the tetraploid protist Giardia intestinalis

Author

Horáčková, Vendula, Voleman, Luboš, Hagen, Kari D, Petrů, Markéta, Vinopalová, Martina, Weisz, Filip, Janowicz, Natalia, Marková, Lenka, Motyčková, Alžběta, Najdrová, Vladimíra, Tůmová, Pavla, Dawson, Scott C, and Doležal, Pavel

Subjects
Genetics, Infectious Diseases, Biotechnology, Human Genome, CRISPR-Cas Systems, Gene Editing, Giardia lamblia, Humans, RNA, Guide, Kinetoplastida, Tetraploidy, Giardia, CRISPR, Cas9, gene knockout, multiploid, CRISPR/Cas9, Biochemistry and Cell Biology, Microbiology, Immunology
Abstract

CRISPR/Cas9-mediated genome editing has become an extremely powerful technique used to modify gene expression in many organisms, including parasitic protists. Giardia intestinalis, a protist parasite that infects approximately 280 million people around the world each year, has been eluding the use of CRISPR/Cas9 to generate knockout cell lines due to its tetraploid genome. In this work, we show the ability of the in vitro assembled CRISPR/Cas9 components to successfully edit the genome of G. intestinalis. The cell line that stably expresses Cas9 in both nuclei of G. intestinalis showed effective recombination of the cassette containing the transcription units for the gRNA and the resistance marker. This highly efficient process led to the removal of all gene copies at once for three independent experimental genes, mem, cwp1 and mlf1. The method was also applicable to incomplete disruption of the essential gene, as evidenced by significantly reduced expression of tom40. Finally, testing the efficiency of Cas9-induced recombination revealed that homologous arms as short as 150 bp can be sufficient to establish a complete knockout cell line in G. intestinalis.

Published
2022

3. Adaptation of the late ISC pathway in the anaerobic mitochondrial organelles of Giardia intestinalis

Author

Motyčková, Alžběta, primary, Voleman, Luboš, additional, Najdrová, Vladimíra, additional, Arbonová, Lenka, additional, Benda, Martin, additional, Dohnálek, Vít, additional, Janowicz, Natalia, additional, Malych, Ronald, additional, Šuťák, Róbert, additional, Ettema, Thijs J. G., additional, Svärd, Staffan, additional, Stairs, Courtney W., additional, and Doležal, Pavel, additional

Published
2023
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5. Adaptation of the late ISC pathway in the anaerobic mitochondrial organelles of Giardia intestinalis

Author

Motyčková, Alžběta, Voleman, Luboš, Najdrová, Vladimíra, Arbonová, Lenka, Benda, Martin, Dohnálek, Vít, Janowicz, Natalia, Malych, Ronald, Šuťák, Róbert, Ettema, Thijs J.G., Svärd, Staffan, Stairs, Courtney W., Doležal, Pavel, Motyčková, Alžběta, Voleman, Luboš, Najdrová, Vladimíra, Arbonová, Lenka, Benda, Martin, Dohnálek, Vít, Janowicz, Natalia, Malych, Ronald, Šuťák, Róbert, Ettema, Thijs J.G., Svärd, Staffan, Stairs, Courtney W., and Doležal, Pavel

Abstract

Mitochondrial metabolism is entirely dependent on the biosynthesis of the [4Fe-4S] clusters, which are part of the subunits of the respiratory chain. The mitochondrial late ISC pathway mediates the formation of these clusters from simpler [2Fe-2S] molecules and transfers them to client proteins. Here, we characterized the late ISC pathway in one of the simplest mitochondria, mitosomes, of the anaerobic protist Giardia intestinalis that lost the respiratory chain and other hallmarks of mitochondria. In addition to IscA2, Nfu1 and Grx5 we identified a novel BolA1 homologue in G. intestinalis mitosomes. It specifically interacts with Grx5 and according to the high-affinity pulldown also with other core mitosomal components. Using CRISPR/Cas9 we were able to establish full bolA1 knock out, the first cell line lacking a mitosomal protein. Despite the ISC pathway being the only metabolic role of the mitosome no significant changes in the mitosome biology could be observed as neither the number of the mitosomes or their capability to form [2Fe-2S] clusters in vitro was affected. We failed to identify natural client proteins that would require the [2Fe-2S] or [4Fe-4S] cluster within the mitosomes, with the exception of [2Fe-2S] ferredoxin, which is itself part of the ISC pathway. The overall uptake of iron into the cellular proteins remained unchanged as also observed for the grx5 knock out cell line. The pull-downs of all late ISC components were used to build the interactome of the pathway showing specific position of IscA2 due to its interaction with the outer mitosomal membrane proteins. Finally, the comparative analysis across Metamonada species suggested that the adaptation of the late ISC pathway identified in G. intestinalis occurred early in the evolution this of supergroup of eukaryotes.

Published
2023

6. The late ISC pathway interactome reveals mitosomal-cytoplasmic crosstalk in Giardia intestinalis

Author

Motyčková, Alžběta, primary, Voleman, Luboš, additional, Najdrová, Vladimíra, additional, Marková, Lenka, additional, Benda, Martin, additional, Dohnálek, Vít, additional, Janowicz, Natalia, additional, Malych, Ronald, additional, Šuťák, Róbert, additional, Ettema, Thijs J. G., additional, Svärd, Staffan, additional, Stairs, Courtney W., additional, and Doležal, Pavel, additional

Published
2022
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7. Conserved mechanism for targeting of Tail-anchored proteins in eukaryotes

Author

Najdrová, Vladimíra, Doležal, Pavel, Borgese, Nica, and Svärd, Staffan

Abstract

Approximately one-fourth of all cellular proteins represent integral membrane proteins (IMPs) that are transported through the cytosol across or into the organellar or plasma membrane. Transport of IMPs requires precise timing which needs to be precisely regulated for them to reach their final destination. Tail-anchored (TA) proteins represent specific class of membrane proteins that lack the N-terminal signal peptide, which targets the nascent polypeptide to the endoplasmic reticulum (ER) membrane for the co-translational transport. Instead, they possess single C-terminal transmembrane domain (TMD) that serves as their targeting signal. Therefore, TA proteins are transported only post-translationally when the C-terminal TMD appears from the ribosome. The Guided Entry of Tail-anchored proteins (GET) pathway is the dominant way of how TA proteins find their way into the ER membrane. It is a multistep process that is mediated by six (Sgt2, Get1-Get5) proteins in yeast and seven (plus Bag6) proteins in human, which involves recognition of a TA protein, its targeting to the ER membrane and the actual membrane insertion. In addition to the model cell systems, some of GET pathway components were studied in plants and recently in Plasmodium falciparum, which makes our knowledge on the distribution and the...

Published
2022

9. Additional file 3 of The evolution of the Puf superfamily of proteins across the tree of eukaryotes

Author

Najdrová, Vladimíra, Stairs, Courtney W., Vinopalová, Martina, Luboš Voleman, and Doležal, Pavel

Abstract

Additional file 3: Figure S1. Phylogenetic analysis NOP9, PUM3 and PUF proteins. Full phylogenies of maximum-likelihood analysis of PUM3, Nop9 and Puf proteins with SH-like approximate likelihood ratio test, ultrafast bootstrap supports, and with both non-parametric Felsenstein’s Bootstrap Proportion (FBP) supports (i.e., PMSF) and Transfer Bootstrap Expectation (TBE) supports as indicated. See Additional file 7 for alignment properties and model parameters.

Published
2020
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13. The role of untranslated mRNA regions in Giardia intestinalis

Author

Najdrová, Vladimíra, Doležal, Pavel, and Zubáčová, Zuzana

Subjects
localizace proteinů, protein localization, RNA vazebné protein, 3'UTR, RNA binding proteins
Abstract

Giardia intestinalis is an anaerobic protozoan pathogen, agent of the disease known as giardiasis. The regulation of gene expression during giardia cell- and life-cycle has been poorly studied so far, with the exception of variable surface proteins, which constitute the immunoprotective coat of the cell. In this diploma thesis, we focus on the possible role of the 3' untranslated region (3'UTR) of mRNA that mediate stability and localization of mRNA transcripts. We use RNA binding proteins of PUF family, which control the function of the target transcripts by their repression, activation or sequestration, to monitor and verify the role of 3'UTRs. These only eukaryotic proteins are highly evolutionarily conserved. Each of them contain highly conserved C-terminal domain, which specificly binds to 3'UTR of mRNAs. We have identified five different PUF proteins in the genome of G. intestinalis (GiPUF), cinfirmed their expression in G. intestinalis trophozoites and located all five proteins in the cytoplasm. GiPUF2, GiPUF3 and GiPUF5 show an additional affinity to the surface of the endoplasmic reticulum. We have identified the C-terminal binding domain in protein sequences of all GiPUF. The most conserved GiPUF4 contain eight binding sites, nearly identical to the binding site of human Pum1 protein,...

Published
2013

14. Buněčný transport proteinů a jeho úloha v patogenních procesech

Author

Najdrová, Vladimíra, Doležal, Pavel, and Uzlíková, Magdalena

Subjects
secretory pathway, signal sequence, Trypanosoma cruzi, signální sekvence, translocon, Toxoplasma gongii, Plasmodium falciparum, Giardia intestinalis, sekreční dráha, Leishmania spp, translokon, parasitic diseases
Abstract

The main topic of this thesis are the protein secretion processes in several important human parasites - Toxoplasma gondii, Plasmodium falciparum, Trypanosoma cruzi, Leishmania spp. and Giardia intestinalis. Described here are the parasite's and the host proteins which participate in the pathogenic processes involving the protein secretion. As shown here, the protein secretion into the host environment is one of key tools serving the parasite to survive within and manipulate the host organism. Interestingly, different parasitic organisms use functionally and evolutionary distinct strategies to fulfill this aim. Key words secretory pathway, translocon, signal sequence, Toxoplasma gongii, Plasmodium falciparum, Trypanosoma cruzi, Leishmania spp., Giardia intestinalis

Published
2011

15. Live imaging of mitosomes and hydrogenosomes by HaloTag technology

Author

UCL - SSS/DDUV - Institut de Duve, Martincová, Eva, Voleman, Luboš, Najdrová, Vladimíra, de Napoli, Maximiliano, Eshar, Shiri, Gualdron Lopez, Melisa, Hopp, Christine S., Sanin, David E., Tembo, Dumizulu L., van Tyne, Daria, Walker, Dawn, Marcinčiková, Michaela, Tachezy, Jan, Doležal, Pavel, UCL - SSS/DDUV - Institut de Duve, Martincová, Eva, Voleman, Luboš, Najdrová, Vladimíra, de Napoli, Maximiliano, Eshar, Shiri, Gualdron Lopez, Melisa, Hopp, Christine S., Sanin, David E., Tembo, Dumizulu L., van Tyne, Daria, Walker, Dawn, Marcinčiková, Michaela, Tachezy, Jan, and Doležal, Pavel

Abstract

Hydrogenosomes and mitosomes represent remarkable mitochondrial adaptations in the anaerobic parasitic protists such as Trichomonas vaginalis and Giardia intestinalis, respectively. In order to provide a tool to study these organelles in the live cells, the HaloTag was fused to G. intestinalis IscU and T. vaginalis frataxin and expressed in the mitosomes and hydrogenosomes, respectively. The incubation of the parasites with the fluorescent Halo-ligand resulted in highly specific organellar labeling, allowing live imaging of the organelles. With the array of available ligands the HaloTag technology offers a new tool to study the dynamics of mitochondria-related compartments as well as other cellular components in these intriguing unicellular eukaryotes. © 2012 Martincová et al.

Published
2012

16. Live Imaging of Mitosomes and Hydrogenosomes by HaloTag Technology

Author

Martincová, Eva, primary, Voleman, Luboš, additional, Najdrová, Vladimíra, additional, De Napoli, Maximiliano, additional, Eshar, Shiri, additional, Gualdron, Melisa, additional, Hopp, Christine S., additional, Sanin, David E., additional, Tembo, Dumizulu L., additional, Van Tyne, Daria, additional, Walker, Dawn, additional, Marcinčiková, Michaela, additional, Tachezy, Jan, additional, and Doležal, Pavel, additional

Published
2012
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