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Author Title [ Type(Asc)] Year
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Journal Article
Castro, H., Sousa, C., Novais, M., Santos, M., et al. (2004). Two linked genes of Leishmania infantum encode tryparedoxins localised to cytosol and mitochondrion. Molecular and Biochemical Parasitology, 136(2), 137 - 147.
Marani, M. M., Perez, L. O., de Araujo, A. R., Plácido, A., et al. (2017). Thaulin-1: The first antimicrobial peptide isolated from the skin of a Patagonian frog Pleurodema thaul (Anura: Leptodactylidae: Leiuperinae) with activity against Escherichia coli. Gene, 605, 70 - 80.
Fialho, R. N., Martins, L., Pinheiro, J. P., Bettencourt, B. F., et al. (2009). Role of human leukocyte antigen, killer-cell immunoglobulin-like receptors, and cytokine gene polymorphisms in leptospirosis. Human Immunology, 70(11), 915 - 920.
Tomás, A. M., & Castro, H. (2013). Redox metabolism in mitochondria of trypanosomatids. Antioxidants and Redox Signaling, 19(7), 696 - 707.
Silva, M. S., Ferreira, A. E. N., Tomás, A. M., Cordeiro, C., & Freire, A. P. (2005). Quantitative assessment of the glyoxalase pathway in Leishmania infantum as a therapeutic target by modelling and computer simulation. FEBS Journal, 272(10), 2388 - 2398.
Barata, L., Sousa Silva, M., Trincão, J., Carvalho, S., et al. (2006). Purification, crystallization and preliminary X-ray diffraction analysis of the glyoxalase II from Leishmania infantum. Acta Crystallographica Section F: Structural Biology and Crystallization Communications, 62(8), 805 - 807.
Toubarro, D. N., Ralha, D., Carvalho, S., Tomás, A. M., & Almeida, P. G. (2010). A possible key molecule for the invasion of the Plasmodium berghei ookinetes into the midgut epithelium of anopheles gambiae mosquitoes. In Vivo, 24(3), 271 - 280.
Castro, H., & Tomás, A. M. (2008). Peroxidases of trypanosomatids. Antioxidants and Redox Signaling, 10(9), 1593 - 1606.
Oliveira, M., Gomes-Alves, A. G., Sousa, C., M. Marani, M., et al. (2016). Ocellatin-PT antimicrobial peptides: High-resolution microscopy studies in antileishmania models and interactions with mimetic membrane systems. Biopolymers, 873 - 886.
Marques, C. S., Passero, L. F. D., Vale-Gato, I., Rodrigues, A., et al. (2015). New insights into neutrophil and Leishmania infantum in vitro immune interactions. Comparative Immunology, Microbiology and Infectious Diseases, 40, 19 - 29.
Castro, H., Romao, S., Carvalho, S., Teixeira, F., et al. (2010). Mitochondrial redox metabolism in trypanosomatids is independent of tryparedoxin activity. PLoS ONE, 5(9), 1 - 12.
Teixeira, F., Castro, H., Cruz, T., Tse, E., et al. (2015). Mitochondrial peroxiredoxin functions as crucial chaperone reservoir in Leishmania infantum. Proceedings of the National Academy of Sciences of the United States of America, 112(7), E616 - E624.
Carvalho, S., Barreira da Silva, R., Shawki, A., Castro, H., et al. (2015). LiZIP3 is a cellular zinc transporter that mediates the tightly regulated import of zinc in Leishmania infantum parasites. Molecular Microbiology, 96(3), 581 - 595.
Castro, H., Teixeira, F., Romao, S., Santos, M., et al. (2011). Leishmania mitochondrial peroxiredoxin plays a crucial peroxidase-unrelated role during infection: Insight into its novel chaperone activity. PLoS Pathogens, 7(10).
Castro, H., Romao, S., Gadelha, F. R., & Tomás, A. M. (2008). Leishmania infantum: Provision of reducing equivalents to the mitochondrial tryparedoxin/tryparedoxin peroxidase system. Experimental Parasitology, 120(4), 421 - 423.
Rodrigues, A., Santos-Mateus, D., Alexandre-Pires, G., Valério-Bolas, A., et al. (2017). Leishmania infantum exerts immunomodulation in canine Kupffer cells reverted by meglumine antimoniate. Comparative Immunology, Microbiology and Infectious Diseases, 55, 42 - 52.
Rodrigues, A., Claro, M., Alexandre-Pires, G., Santos-Mateus, D., et al. (2017). Leishmania infantum antigens modulate memory cell subsets of liver resident T lymphocyte. Immunobiology, 222(2), 409 - 422.
Carvalho, S., Cruz, T., Santarém, N., Castro, H., et al. (2009). Heme as a source of iron to Leishmania infantum amastigotes. Acta Tropica, 109(2), 131 - 135.
Sousa Silva, M., Ferreira, A. E. N., Gomes, R., Tomás, A. M., et al. (2012). The glyoxalase pathway in protozoan parasites. International Journal of Medical Microbiology, 302(4-5), 225 - 229.
Barata, L., Sousa Silva, M., Schuldt, L., Ferreira, A. E. N., et al. (2011). Enlightening the molecular basis of trypanothione specificity in trypanosomatids: Mutagenesis of Leishmania infantum glyoxalase II. Experimental Parasitology, 129(4), 402 - 408.
V. Pérez, G., García-Hernandez, R., Corpas-López, V., Tomás, A. M., et al. (2016). Decreased antimony uptake and overexpression of genes of thiol metabolism are associated with drug resistance in a canine isolate of Leishmania infantum. International Journal for Parasitology: Drugs and Drug Resistance, 6(2), 133 - 139.
Romao, S., Castro, H., Sousa, C., Carvalho, S., & Tomás, A. M. (2009). The cytosolic tryparedoxin of Leishmania infantum is essential for parasite survival. International Journal for Parasitology, 39(6), 703 - 711.
Nascimento, D. S., Vale, A. D., Tomás, A. M., Zou, J., et al. (2007). Cloning, promoter analysis and expression in response to bacterial exposure of sea bass (Dicentrarchus labrax L.) interleukin-12 p40 and p35 subunits. Molecular Immunology, 44(9), 2277 - 2291.
Barata, L., Sousa Silva, M., Schuldt, L., Da Costa, G., et al. (2010). Cloning, expression, purification, crystallization and preliminary X-ray diffraction analysis of glyoxalase i from Leishmania infantum. Acta Crystallographica Section F: Structural Biology and Crystallization Communications, 66(5), 571 - 574.
Silva, M. S., Barata, L., Ferreira, A. E. N., Romão, S., et al. (2008). Catalysis and structural properties of Leishmania infantum glyoxalase II: Trypanothione specificity and phylogeny. Biochemistry, 47(1), 195 - 204.

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