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O2k-Publications: Protists

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O2k-Publications: Protists

O2k-Publications in the MiPMap

»O2k-Publications: Topics

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 Was published in yearReferenceOrganismTissue;cell
Opperdoes 2024 BMC Genomics2024Opperdoes FR, Záhonová K, Škodová-Sveráková I, Bučková B, Chmelová Ľ, Lukeš J, Yurchenko V (2024) In silico prediction of the metabolism of Blastocrithidia nonstop, a trypanosomatid with non-canonical genetic code. BMC Genomics 25:184. https://doi.org/10.1186/s12864-024-10094-8Protists
Silva Dias Vieira 2023 PLoS Negl Trop Dis2023Silva Dias Vieira C, Pinheiro Aguiar R, de Almeida Nogueira NP, Costa Dos Santos Junior G, Paes MC (2023) Glucose metabolism sustains heme-induced Trypanosoma cruzi epimastigote growth in vitro. https://doi.org/10.1371/journal.pntd.0011725Protists
Arbon 2022 Antimicrob Agents Chemother2022Arbon D, Ženíšková K, Šubrtová K, Mach J, Štursa J, Machado M, Zahedifard F, Leštinová T, Hierro-Yap C, Neuzil J, Volf P, Ganter M, Zoltner M, Zíková A, Werner L, Sutak R (2022) Repurposing of MitoTam: Novel anti-cancer drug candidate exhibits potent activity against major protozoan and fungal pathogens. https://doi.org/10.1128/aac.00727-22Protists
Sleda 2022 mBio2022Sleda MA, Li ZH, Behera R, Baierna B, Li C, Jumpathong J, Malwal SR, Kawamukai M, Oldfield E, Moreno SNJ (2022) The heptaprenyl diphosphate synthase (Coq1) is the target of a lipophilic bisphosphonate that protects mice against toxoplasma gondii infection. https://doi.org/10.1128/mbio.01966-22Protists
Saraiva 2022 Pathogens2022Saraiva FMS, Cosentino-Gomes D, Inacio JDF, Almeida-Amaral EE, Louzada-Neto O, Rossini A, Nogueira NP, Meyer-Fernandes JR, Paes MC (2022) Hypoxia effects on Trypanosoma cruzi epimastigotes proliferation, differentiation, and energy metabolism. https://doi.org/10.3390/pathogens11080897Protists
Pinho 2022 Antioxidants (Basel)2022Pinho N, Bombaça AC, Wiśniewski JR, Dias-Lopes G, Saboia-Vahia L, Cupolillo E, de Jesus JB, de Almeida RP, Padrón G, Menna-Barreto R, Cuervo P (2022) Nitric oxide resistance in Leishmania (Viannia) braziliensis involves regulation of glucose consumption, glutathione metabolism and abundance of pentose phosphate pathway enzymes. https://doi.org/10.3390/antiox11020277Protists
Hierro-Yap 2021 J Biol Chem2021Hierro-Yap C, Šubrtová K, Gahura O, Panicucci B, Dewar C, Chinopoulos C, Schnaufer A, Zíková A (2021) Bioenergetic consequences of FoF1-ATP synthase/ATPase deficiency in two life cycle stages of Trypanosoma brucei. J Biol Chem 296:100357.Protists
Fattore 2021 Physiol Plant2021Fattore N, Savio S, Vera-Vives AM, Battistuzzi M, Moro I, La Rocca N, Morosinotto T (2021) Acclimation of photosynthetic apparatus in the mesophilic red alga Dixoniella giordanoi. https://doi.org/10.1111/ppl.13489Protists
Herraez 2021 Pharmaceutics2021Herraez R, Quesada R, Dahdah N, Vinas M, Vinuesa T (2021) Tambjamines and prodiginines: Biocidal activity against Trypanosoma cruzi. Pharmaceutics 13:705.Protists
Pinho 2020 PLoS Negl Trop Dis2020Pinho N, Wiśniewski JR, Dias-Lopes G, Saboia-Vahia L, Bombaça ACS, Mesquita-Rodrigues C, Menna-Barreto R, Cupolillo E, de Jesus JB, Padrón G, Cuervo P (2020) In-depth quantitative proteomics uncovers specie-specific metabolic programs in Leishmania (Viannia) species. PLoS Negl Trop Dis 14:e0008509.ProtistsOther cell lines
Carvalho-Kelly 2020 J Bioenerg Biomembr2020Carvalho-Kelly LF, Pralon CF, Rocco-Machado N, Nascimento MT, Carvalho-de-Araujo AD, Meyer-Fernandes JR (2020) Acanthamoeba castellanii phosphate transporter (AcPHS) is important to maintain inorganic phosphate influx and is related to trophozoite metabolic processes. J Bioenerg Biomembr 52:93-102.Protists
Bombaca 2020 Free Radic Biol Med2020Bombaça ACS, Brunoro GVF, Dias-Lopes G, Ennes-Vidal V, Carvalho PC, Perales J, d'Avila-Levy CM, Valente RH, Menna-Barreto RFS (2020) Glycolytic profile shift and antioxidant triggering in symbiont-free and H2O2-resistant Strigomonas culicis. Free Radic Biol Med 146:392-401.Protists
Luevano-Martinez 2020 FEBS Lett2020Luévano-Martínez LA, Girard RMBM, Alencar MB, Silber AM (2020) ATP regulates the activity of an alternative oxidase in Trypanosoma brucei. FEBS Lett [Epub ahead of print].Protists
Barsottini 2020 Commun Biol2020Barsottini MRO, Copsey A, Young L, Baroni RM, Cordeiro AT, Pereira GAG, Moore AL (2020) Biochemical characterization and inhibition of the alternative oxidase enzyme from the fungal phytopathogen Moniliophthora perniciosa. Commun Biol 3:263.Protists
Dolezelova 2020 PLoS Biol2020Doleželová E, Kunzová M, Dejung M, Levin M, Panicucci B, Regnault C, Janzen CJ, Barrett MP, Butter F, Zíková A (2020) Cell-based and multi-omics profiling reveals dynamic metabolic repurposing of mitochondria to drive developmental progression of Trypanosoma brucei. PLoS Biol 18:e3000741.Protists
Rocco-Machado 2019 Free Radic Biol Med2019Rocco-Machado N, Cosentino-Gomes D, Nascimento MT, Paes-Vieira L, Khan YA, Mittra B, Andrews NW, Meyer-Fernandes JR (2019) Leishmania amazonensis ferric iron reductase (LFR1) is a bifunctional enzyme: Unveiling a NADPH oxidase activity. https://doi.org/10.1016/j.freeradbiomed.2019.08.026Protists
Lerchner 2019 Anal Bioanal Chem2019Lerchner J, Sartori MR, Volpe POL, Lander N, Mertens F, Vercesi AE (2019) Direct determination of anaerobe contributions to the energy metabolism of Trypanosoma cruzi by chip calorimetry. Anal Bioanal Chem 411:3763-68.Protists
Bertolini 2019 MBio2019Bertolini MS, Chiurillo MA, Lander N, Vercesi AE, Docampo R (2019) MICU1 and MICU2 play an essential role in mitochondrial Ca2+ uptake, growth, and infectivity of the human pathogen Trypanosoma cruzi. MBio 10:e00348-19.Protists
Chiurillo 2019 Mol Biol Cell2019Chiurillo MA, Lander N, Bertolini MS, Vercesi AE, Docampo R (2019) Functional analysis and importance for host cell infection of the Ca2+-conducting subunits of the mitochondrial calcium uniporter of Trypanosoma cruzi. Mol Biol Cell 30:1676-90.Protists
Lander 2018 J Biol Chem2018Lander N, Chiurillo MA, Bertolini MS, Storey M, Vercesi AE, Docampo R (2018) Calcium-sensitive pyruvate dehydrogenase phosphatase is required for energy metabolism, growth, differentiation, and infectivity of Trypanosoma cruzi. J Biol Chem 293:17402-17.Protists
Pineda 2018 PLoS Pathog2018Pineda E, Thonnus M, Mazet M, Mourier A, Cahoreau E, Kulyk H, Dupuy JW, Biran M, Masante C, Allmann S, Rivière L, Rotureau B, Portais JC, Bringaud F (2018) Glycerol supports growth of the Trypanosoma brucei bloodstream forms in the absence of glucose: Analysis of metabolic adaptations on glycerol-rich conditions. PLoS Pathog 14:e1007412.Protists
Bombaca 2018 Free Radic Biol Med2018Bombaça ACS, Viana PG, Santos ACC, Silva TL, Rodrigues ABM, Guimarães ACR, Goulart MOF, Da Silva Júnior EN, Menna-Barreto RFS (2018) Mitochondrial disfunction and ROS production are essential for anti-Trypanosoma cruzi activity of β-lapachone-derived naphthoimidazoles. Free Radic Biol Med 130:408-18.Protists
Santos Bertolini 2018 Thesis2018Santos Bertolini M (2018) Functional study of MICU1 and MICU2 proteins in calcium signaling of Trypanosoma cruzi. Master's Thesis 108.Protists
Girard 2018 mSphere2018Girard RMBM, Crispim M, Alencar MB, Silber AM (2018) Uptake of L-alanine and its distinct roles in the bioenergetics of Trypanosoma cruzi. mSphere pii:e00338-18.Protists
Bombaca 2017 Free Radic Biol Med2017Bombaça ACS, Dias FA, Ennes-Vidal V, Garcia-Gomes ADS, Sorgine MHF, d'Avila-Levy CM, Menna-Barreto RFS (2017) Hydrogen peroxide resistance in Strigomonas culicis: Effects on mitochondrial functionality and Aedes aegypti interaction. Free Radic Biol Med 113:255-66.Protists
Nogueira 2017 Free Radic Biol Med2017Nogueira NP, Saraiva FMS, Oliveira MP, Mendonca APM, Inacio JDF, Almeida-Amaral EE, Menna-Barreto RF, Laranja GAT, Lopes Torres EJ, Oliveira MF, Paes MC (2017) Heme modulates Trypanosoma cruzi bioenergetics inducing mitochondrial ROS production. Free Radic Biol Med 108:183-91.Protists
Mantilla 2017 PLOS Pathog2017Mantilla BS, Marchese L, Casas-Sánchez A, Dyer NA, Ejeh N, Biran M, Bringaud F, Lehane MJ, Acosta-Serrano A, Silber AM (2017) Proline metabolism is essential for Trypanosoma brucei brucei survival in the tsetse vector. PLOS Pathog 13:e1006158.Protists
Dutra 2016 Acta Trop2016Dutra FL, Oliveira MM, Santos RS, Silva WS, Alviano DS, Vieira DP, Lopes AH (2016) Effects of linalool and eugenol on the survival of Leishmania (L.) infantum chagasi within macrophages. Acta Trop 164:69-76.Protists
Fonseca-Berzal 2016 Parasitology2016Fonseca-Berzal C, DA Silva CF, Menna-Barreto RF, Batista MM, Escario JA, Arán VJ, Gómez-Barrio A, Soeiro Mde N (2016) Biological approaches to characterize the mode of action of two 5-nitroindazolinone prototypes on Trypanosoma cruzi bloodstream trypomastigotes. Parasitology 143:1469-78.Protists
Barison 2016 J Bioenerg Biomembr2016Barisón MJ, Damasceno FS, Mantilla BS, Silber AM (2016) The active transport of histidine and its role in ATP production in Trypanosoma cruzi. J Bioenerg Biomembr 48:437-49.Protists
Mesquita 2016 Thesis2016Mesquita Rodrigues C (2016) Efeito da depleção de ferro sobre Leishmania (Viannia) braziliensisuma análise ultraestrutural, proteômica e interação com matrizes de colágeno sintéticas. Doctoral Dissertation p210.Protists
Goncalves 2014 J Biol Chem2014Goncalves VL, Vicente JB, Pinto L, Romao CV, Frazao C, Sarti P, Giuffre A, Teixeira M (2014) Flavodiiron oxygen reductase from entamoeba histolytica: modulation of substrate preference by tyrosine 271 and lysine 53. J Biol Chem 289:28260-70.Protists
Mastronicola 2011 IUBMB Life2011Mastronicola D, Giuffrè A, Testa F, Mura A, Forte E, Bordi E, Pucillo LP, Fiori PL, Sarti P (2011) Giardia intestinalis escapes oxidative stress by colonizing the small intestine: A molecular hypothesis. IUBMB Life 63:21-5.Protists
Menna-Barreto 2009 Free Radic Biol Med2009Menna-Barreto RF, Goncalves RL, Costa EM, Silva RS, Pinto AV, Oliveira MF, de Castro SL (2009) The effects on Trypanosoma cruzi of novel synthetic naphthoquinones are mediated by mitochondrial dysfunction. Free Radic Biol Med 47:644-53.Protists
DiMatteo 2008 J Biol Chem2008Di Matteo A, Scandurra FM, Testa F, Forte E, Sarti P, Brunori M, Giuffrè A (2008) The O2-scavenging flavodiiron protein in the human parasite Giardia intestinalis. J Biol Chem 283:4061-8.Human
Protists
Jarmuszkiewicz 2005 Biochim Biophys Acta2005Jarmuszkiewicz W, Czarna M, Sluse FE (2005) Substrate kinetics of the Acanthamoeba castellanii alternative oxidase and the effects of GMP. Biochim Biophys Acta 1708:71-8.Protists
Murphy 1997 Exp Parasitol1997Murphy AD, Doeller JE, Lang-Unnasch N (1997) Plasmodium falciparum: Cyanide-resistant oxygen consumption. Exp Parasitol 87:112-20.Protists
O2k-Publications in the MiPMap

O2k-Publications: Plants - Abstracts

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 ReferenceOrganismTissue;cell
Nogueira 2014 Abstract IOC 2014-04 SchroeckenNogueira NP, Baldow QCS, Costa DSS, Domingos J, Laranja GAT, Costa PRR, Dias AG, Paes MC (2014) The effect of nitrones upon clinically relevant forms of Trypanosoma cruzi. Mitochondr Physiol Network 19.02.Mouse
Protists
Macrophage-derived
Paes 2014 Abstract IOC 2014-04 SchroeckenPaes MC, Saraiva FMS, Nogueira NP, Laranja GAT, Coelho MGP, Oliveira MF (2014) Heme increases mitochondrial membrane potential and ROS production in Trypanosoma cruzi epimastigotes. Mitochondr Physiol Network 19.02.Protists
Vercesi 2013 Abstract MiP2013Vercesi AE (2013) Mitochondrial respiration, Ca2+ transport and oxidative stress: Fungi, trypanosomes, plants and mammals. Mitochondr Physiol Network 18.08.Rat
Other invertebrates
Fungi
Plants
Protists
Heart
Goncalves 2011 Abstract IOC65Gonçalves RL, Barretoc RFSM, Polycarpod CR, Castro SL, Gadelhae FR, Oliveira MF (2011) Comparative assessment of mitochondrial function on epimastigotes and bloodstream trypomastigotes of Trypanosoma cruzi. MiPNet16.03.Protists
Rosenfeld 2010 Abstract IOC60Rosenfeld E (2010) Abstract IOC60. MiPNet15.10.Saccharomyces cerevisiae
Fungi
Protists

Comparative: Mammals and model organisms

»Mammals and model organisms