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Author Title [ Type(Desc)] Year
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Journal Article
do Vale, A., Silva, M. T., dos Santos, N. M. S., Nascimento, D. S., et al. (2005). AIP56, a novel plasmid-encoded virulence factor of Photobacterium damselae subsp. piscicida with apoptogenic activity against sea bass macrophages and neutrophils. Molecular Microbiology, 58(4), 1025 - 1038.
Silva, D. S., Pereira, L. M. G., Moreira, A. R., Ferreira-Da-Silva, F., et al. (2013). The Apoptogenic Toxin AIP56 Is a Metalloprotease A-B Toxin that Cleaves NF-κb P65. PLoS Pathogens, 9(2).
Francisco, T., Rodrigues, T. A., Freitas, M. O., Grou, C. P., et al. (2013). A cargo-centered perspective on the PEX5 receptor-mediated peroxisomal protein import pathway. Journal of Biological Chemistry, 288(40), 29151 - 29159.
Reis, M. I. R., do Vale, A., Pereira, P. J. B., Azevedo, J. E., & dos Santos, N. M. S. (2012). Caspase-1 and IL-1β Processing in a Teleost Fish. PLoS ONE, 7(11).
Rodrigues, T. A., Francisco, T., Dias, A. F., Pedrosa, A. G., et al. (2016). A cell-free organelle-based in vitro system for studying the peroxisomal protein import machinery. Nature Protocols, 11(12), 2454 - 2469.
de Almeida, S. F., Picarote, G., Fleming, J. V., Carmo-Fonseca, M., et al. (2007). Chemical chaperones reduce endoplasmic reticulum stress and prevent mutant HFE aggregate formation. Journal of Biological Chemistry, 282(38), 27905 - 27912.
Pinto, M. P., Grou, C. P., Fransen, M., Sá-Miranda, C., & Azevedo, J. E. (2009). The cytosolic domain of PEX3, a protein involved in the biogenesis of peroxisomes, binds membrane lipids. Biochimica et Biophysica Acta - Molecular Cell Research, 1793(11), 1669 - 1675.
Grou, C. P., Pinto, M. P., Mendes, A. V., Domingues, P., & Azevedo, J. E. (2015). The de novo synthesis of ubiquitin: Identification of deubiquitinases acting on ubiquitin precursors. Scientific Reports, 5.
Mendes, A. V., Grou, C. P., Azevedo, J. E., & Pinto, M. P. (2016). Evaluation of the activity and substrate specificity of the human SENP family of SUMO proteases. Biochimica et Biophysica Acta - Molecular Cell Research, 1863(1), 139 - 147.
Dias, A. F., Francisco, T., Rodrigues, T. A., Grou, C. P., & Azevedo, J. E. (2016). The first minutes in the life of a peroxisomal matrix protein. Biochimica et Biophysica Acta - Molecular Cell Research, 1863(5), 814 - 820.
Carvalho, A. F., Grou, C. P., Pinto, M. P., Alencastre, I. S., et al. (2007). Functional characterization of two missense mutations in Pex5p-C11S and N526K. Biochimica et Biophysica Acta - Molecular Cell Research, 1773(7), 1141 - 1148.
Pinto, M. P., Carvalho, A. F., Grou, C. P., Rodríguez-Borges, J. E., et al. (2012). Heat shock induces a massive but differential inactivation of SUMO-specific proteases. Biochimica et Biophysica Acta - Molecular Cell Research, 1823(10), 1958 - 1966.
de Almeida, S. F., Carvalho, I. F., Cardoso, C. S., Cordeiro, J. V., et al. (2005). HFE cross-talks with the MHC class I antigen presentation pathway. Blood, 106(3), 971 - 977.
Grou, C. P., Francisco, T., Rodrigues, T. A., Freitas, M. O., et al. (2012). Identification of ubiquitin-specific protease 9X (USP9X) as a deubiquitinase acting on ubiquitin-peroxin 5 (PEX5) thioester conjugate. Journal of Biological Chemistry, 287(16), 12815 - 12827.
Pinto, M. P., Grou, C. P., Alencastre, I. S., Oliveira, M. E., et al. (2006). The import competence of a peroxisomal membrane protein is determined by Pex19p before the docking step. Journal of Biological Chemistry, 281(45), 34492 - 34502.
Alencastre, I. S., Rodrigues, T. A., Grou, C. P., Fransen, M., et al. (2009). Mapping the cargo protein membrane translocation step into the PEX5 cycling pathway. Journal of Biological Chemistry, 284(40), 27243 - 27251.
Guimarães, C. P., Domingues, P., Aubourg, P., Fouquet, F., et al. (2004). Mouse liver PMP70 and ALDP: Homomeric interactions prevail in vivo. Biochimica et Biophysica Acta - Molecular Basis of Disease, 1689(3), 235 - 243.
Costa-Rodrigues, J., Carvalho, A. F., Gouveia, A. M., Fransen, M., et al. (2004). The N terminus of the peroxisomal cycling receptor, Pex5p, is required for redirecting the peroxisome-associated peroxin back to the cytosol. Journal of Biological Chemistry, 279(45), 46573 - 46579.
Balreira, A., Gaspar, P., Caiola, D., Chaves, J., et al. (2008). A nonsense mutation in the LIMP-2 gene associated with progressive myoclonic epilepsy and nephrotic syndrome. Human Molecular Genetics, 17(14), 2238 - 2243.
Carvalho, A. F., Costa-Rodrigues, J., Correia, I., Costa Pessoa, J., et al. (2006). The N-terminal half of the peroxisomal cycling receptor Pex5p is a natively unfolded domain. Journal of Molecular Biology, 356(4), 864 - 875.
Dias, A. F., Rodrigues, T. A., Pedrosa, A. G., Barros-Barbosa, A., et al. (2017). The peroxisomal matrix protein translocon is a large cavity-forming protein assembly into which PEX5 protein enters to release its cargo. Journal of Biological Chemistry, 292(37), 15287 - 15300.
Grou, C. P., Carvalho, A. F., Pinto, M. P., Alencastre, I. S., et al. (2009). The peroxisomal protein import machinery - A case report of transient ubiquitination with a new flavor. Cellular and Molecular Life Sciences, 66(2), 254 - 262.
Freitas, M. O., Francisco, T., Rodrigues, T. A., Lismont, C., et al. (2015). The peroxisomal protein import machinery displays a preference for monomeric substrates. Open Biology, 5(4).
Azevedo, J. E., & Schliebs, W. (2006). Pex14p, more than just a docking protein. Biochimica et Biophysica Acta - Molecular Cell Research, 1763(12), 1574 - 1584.

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