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MacEdo, M. F., De Sousa, M., Ned, R. M., Mascarenhas, C., et al. (2004). Transferrin is required for early T-cell differentiation. Immunology, 112(4), 543 - 549.
Almeida, A. M., Villalobos, E., Araújo, S. S., Leyman, B., et al. (2005). Transformation of tobacco with an Arabidopsis thaliana gene involved in trehalose biosynthesis increases tolerance to several abiotic stresses. Euphytica, 146(1-2), 165 - 176.
Bonekamp, N. A., Sampaio, P., de Abreu, F. V., Lüers, G. H., & Schrader, M. (2012). Transient Complex Interactions of Mammalian Peroxisomes Without Exchange of Matrix or Membrane Marker Proteins. Traffic, 13(7), 960 - 978.
Ferreira, P. G., Costa-e-Silva, A., Monteiro, E., Oliveira, M. J. R., & Águas, A. P. (2004). Transient decrease in blood heterophils and sustained liver damage caused by calicivirus infection of young rabbits that are naturally resistant to rabbit haemorrhagic disease. Research in Veterinary Science, 76(1), 83 - 94.
Avelino, A., Charrua, A., Frias, B., Cruz, C., et al. (2013). Transient receptor potential channels in bladder function. Acta Physiologica, 207(1), 110 - 122.
Frias, B., Charrua, A., Avelino, A., Michel, M. C., et al. (2012). Transient receptor potential vanilloid 1 mediates nerve growth factor-induced bladder hyperactivity and noxious input. BJU International.
Charrua, A., Cruz, C. D., Cruz, F., & Avelino, A. (2007). Transient Receptor Potential Vanilloid Subfamily 1 is Essential for the Generation of Noxious Bladder Input and Bladder Overactivity in Cystitis. Journal of Urology, 177(4), 1537 - 1541.
Santos, S. F. A., Luz, L. L., Szucs, P., Lima, D., et al. (2009). Transmission efficacy and plasticity in glutamatergic synapses formed by excitatory interneurons of the substantia gelatinosa in the rat spinal cord. PLoS ONE, 4(11).
Pinto, R. D., Pereira, P. J. B., & dos Santos, N. M. S. (2011). Transporters associated with antigen processing (TAP) in sea bass (Dicentrarchus labrax, L.): Molecular cloning and characterization of TAP1 and TAP2. Developmental and Comparative Immunology, 35(11), 1173 - 1181.
Vieira, M., & Saraiva, M. J. (2014). Transthyretin: A multifaceted protein. Biomolecular Concepts, 5(1), 45 - 54.
Liz, M. A., Faro, C. J., Saraiva, M. J., & Sousa, M. M. (2004). Transthyretin, a new cryptic protease. Journal of Biological Chemistry, 279(20), 21431 - 21438.
Sousa, J. C., Cardoso, I., Marques, F., Saraiva, M. J., & Palha, J. A. (2007). Transthyretin and Alzheimer's disease: Where in the brain?. Neurobiology of Aging, 28(5), 713 - 718.
Costa, R., Gonçalves, A., Saraiva, M. J., & Cardoso, I. (2008). Transthyretin binding to A-Beta peptide - Impact on A-Beta fibrillogenesis and toxicity. FEBS Letters, 582(6), 936 - 942.
Ferreira, N., Pereira-Henriques, A., & Almeida, M. R. (2015). Transthyretin chemical chaperoning by flavonoids: Structure-activity insights towards the design of potent amyloidosis inhibitors. Biochemistry and Biophysics Reports, 3, 123 - 133.
Ribeiro, C. A., Santana, I., Oliveira, C., Baldeiras, I., et al. (2012). Transthyretin decrease in plasma of MCI and AD patients: Investigation of mechanisms for disease modulation. Current Alzheimer Research, 9(8), 881 - 889.
Saraiva, M. J., Magalhaes, J., Ferreira, N., & Almeida, M. R. (2012). Transthyretin deposition in familial amyloidotic polyneuropathy. Current Medicinal Chemistry, 19(15), 2304 - 2311.
Fleming, C. E., Saraiva, M. J., & Sousa, M. M. (2007). Transthyretin enhances nerve regeneration. Journal of Neurochemistry, 103(2), 831 - 839.
Mar, F. M., Franquinho, F., Fleming, C. E., & Sousa, M. M. (2009). Transthyretin in peripheral nerve regeneration. Future Neurology, 4(6), 723 - 730.
Vieira, M., Gomes, J. R., & Saraiva, M. J. (2015). Transthyretin Induces Insulin-like Growth Factor I Nuclear Translocation Regulating Its Levels in the Hippocampus. Molecular Neurobiology, 51(3), 1468 - 1479.
Fleming, C. E., Mar, F. M., Franquinho, F., Saraiva, M. J., & Sousa, M. M. (2009). Transthyretin internalization by sensory neurons is megalin mediated and necessary for its neuritogenic activity. Journal of Neuroscience, 29(10), 3220 - 3232.
Liz, M. A., Leite, S. C., Juliano, L., Saraiva, M. J., et al. (2012). Transthyretin is a metallopeptidase with an inducible active site. Biochemical Journal, 443(3), 769 - 778.
Carlos Sousa, J., Grandela, C., Fernández-Ruiz, J., De Miguel, R., et al. (2004). Transthyretin is involved in depression-like behaviour and exploratory activity. Journal of Neurochemistry, 88(5), 1052 - 1058.
Sousa, M. M., & Saraiva, M. J. (2008). Transthyretin is not expressed by dorsal root ganglia cells. Experimental Neurology, 214(2), 362 - 365.
Sousa, J. C., Morreale de Escobar, G., Oliveira, P., Saraiva, M. J., & Palha, J. A. (2005). Transthyretin is not necessary for thyroid hormone metabolism in conditions of increased hormone demand. Journal of Endocrinology, 187(2), 257 - 266.
Nunes, A. F., Montero, M., Franquinho, F., Santos, S. D., et al. (2009). Transthyretin knockout mice display decreased susceptibility to AMPA-induced neurodegeneration. Neurochemistry International, 55(7), 454 - 457.


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