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Listar por autor "Saldivia, Natalia"
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Ascorbic acid and its transporter SVCT2, affect radial glia cells differentiation in postnatal stages
Saldivia, Natalia; Salazar, Katterine; Cifuentes-Rueda, Manuel; Espinoza, Francisca; Harrison, Fiona E.; Nualart, Francisco[et al.] (Wiley, 2024-01-05)Radial glia (RG) cells generate neurons and glial cells that make up the cerebral cortex. Both in rodents and humans, these stem cells remain for a specific time after birth, named late radial glia (lRG). The knowledge of ... -
Ascorbic acid and its transporter SVCT2, affect radial glia cells differentiation in postnatal stages
Saldivia, Natalia; Salazar, Katterine; Cifuentes-Rueda, Manuel; Espinoza, F; Harrison, FE; Nualart, Francisco[et al.] (Wiley, 2024-04)Radial glia (RG) cells generate neurons and glial cells that make up the cerebral cortex. Both in rodents and humans, these stem cells remain for a specific time after birth, named late radial glia (lRG). The knowledge of ... -
Basal Sodium-Dependent Vitamin C Transporter 2 polarization in choroid plexus explant cells in normal or scorbutic conditions
Ulloa, Viviana; Saldivia, Natalia; Ferrada, Luciano; Salazar, Katherine; Martínez, Fernando; Silva-Álvarez, Carmen; Magdalena, Rocío; Oviedo, María José; Montecinos, Hernán; Torres-Vergara, Pablo; Cifuentes-Rueda, Manuel; Nualart, Francisco[et al.] (Springer Nature, 2019-10)Vitamin C is incorporated into the cerebrospinal fluid (CSF) through choroid plexus cells. While the transfer of vitamin C from the blood to the brain has been studied functionally, the vitamin C transporter, SVCT2, has ... -
IIIG9 inhibition in adult ependymal cells changes adherens junctions structure and induces cellular detachment.
Baeza, Víctor; Cifuentes-Rueda, Manuel; Martínez, Fernando; Ramírez, Eder; Nualart, Francisco; Ferrada, Luciano; Oviedo, María José; De Lima, Isabelle; Troncoso, Ninoschka; Saldivia, Natalia; Salazar, Katty[et al.] (Springer Nature, 2021)Ependymal cells have multiple apical cilia that line the ventricular surfaces and the central canal of spinal cord. In cancer, the loss of ependymal cell polarity promotes the formation of different types of tumors, such ...