about
The spermatogonial stem cell niche in testicular germ cell tumorsGerminal tumor invasion and the role of the testicular stroma.Histone deacetylase inhibitors induce invasion of human melanoma cells in vitro via differential regulation of N-cadherin expression and RhoA activity.Hypoxia and pluripotency in embryonic and embryonal carcinoma stem cell biology.Vascularization of testicular germ cell tumours: evidence from experimental teratocarcinomas.Peritubular myoid cell-derived factors and its potential role in the progression of testicular germ cell tumours.Implication of mitochondria-derived ROS and cardiolipin peroxidation in N-(4-hydroxyphenyl)retinamide-induced apoptosisVasculogenesis and angiogenesis in nonseminomatous testicular germ cell tumors.Imprinting of mammalian male gametes is gene specific and does not occur at a single stage of differentiation.Testis peritubular myoid cells increase their motility and express matrix-metalloproteinase 9 (MMP-9) after interaction with embryonal carcinoma cells.Interleukin-2 induces the proliferation of mouse primordial germ cells in vitro.Adenylate Cyclase Toxin promotes bacterial internalisation into non phagocytic cells.Angiogenesis and vascular network of teratocarcinoma from embryonic stem cell transplant into seminiferous tubules.Suppression of spermatogenesis for cell transplantation in adult mice.Localization of importin alpha (Rch1) at the plasma membrane and subcellular redistribution during lymphocyte activation.Evidence for a role of matrix metalloproteinases and their inhibitors in primordial germ cell migration.Structural and functional preservation of specific sequences of DNA and mRNA in apoptotic bodies from ES cells.Spanish scientific journals; the forgotten investment.Polyploidization and exit from cell cycle as mechanisms of cultured melanoma cell resistance to methotrexate.Nucleoporins redistribute inside the nucleus after cell cycle arrest induced by histone deacetylases inhibition.Above the borderland between normal and neoplastic development.A glance at Spanish embryology and teratology during the XX century through the academic life of Francisco Orts-Llorca (1905-1993).The nuclear basket of the nuclear pore complex is part of a higher-order filamentous network that is related to chromatin.A small great history of the sister Societies of Developmental Biology in Spain and Portugal.Early bases of modern embryology in Spain: microscopical anatomy and the introduction of cell theory and histology in their scientific and social European context.Nucleoplasmin binds to nuclear pore filaments and accumulates in specific regions of the nucleolar cortex.Science in Hispania: Spain and Portugal on the main route again.Transglutaminase (TG) involvement in early embryogenesis.Embryonic stem cell transplantation into seminiferous tubules: a model for the study of invasive germ cell tumors of the testis.Epigenetic regulation of the imprinted U2af1-rs1 gene during retinoic acid-induced differentiation of embryonic stem cells.The fate of embryonal-carcinoma cells in mouse blastocystsApoptosis during retinoic acid-induced differentiation of F9 embryonal carcinoma cellsThe Turbidity of Cell Nuclei in Suspension: A Complex Case of Light Scattering[Prestige and profitability of Spanish scientific journals depend on international use of their contents]Anatomical basis for cell transplantation into mouse seminiferous tubules
P50
Q26822859-69CC6992-470B-4110-9561-1161FDB28C49Q35878924-0CD4B721-6037-4F82-918C-40C16A8191D9Q36109506-1CB7A9F7-5791-4B7D-BAA7-BF9A171C523FQ37552202-B2B6BA54-D241-4C8C-9C9F-4954A5D00578Q37760257-5FDED956-79D2-4C02-9244-839EEFD43CB8Q37882002-442C1DC2-B9C9-4F09-93C8-7FECE7C42A04Q38283683-9862DF69-602C-4913-AF43-52068E5D1824Q38378779-D9BC5AB5-006A-4700-96B7-81B4565757F1Q38386226-44B2C0DD-2A3A-48A6-BF88-DFBEA2E795C6Q38808407-172EDA81-A09E-419A-82A8-E860BB6081CAQ40067257-A212FEC3-5621-4B61-A788-FD8C58D91123Q41012029-89BAB720-9516-4FB2-A292-ABD23745F900Q42277222-5AF683DA-0777-4BB1-A2D5-5C2DC64323AFQ43814946-F8B1DA6D-2F99-4408-B183-CEB77775E02AQ44182771-CAD0092F-5CF9-4C55-8C51-8783B5829730Q45096075-B7870AC0-77F9-4F16-9B2A-526FA86507EDQ46448400-074D4F3B-895D-4F9D-B1B4-CE3CD688D644Q47424066-79B3DAEB-B598-4E92-87AE-4A964604377BQ47893403-5B8B1F43-3D95-4271-A880-12E25621C9B7Q48144118-449AA033-99DB-4C8B-A7E5-67D180ABACD1Q48404761-A7EA99B4-37D0-4549-BC48-93BE6DEE70ABQ48476278-FF491767-A14C-4394-80D8-1BCD18C0D354Q48924307-57D5D5BF-2D13-4EAD-A281-9B748049E417Q48951495-9CBDB7D4-60FA-448E-93EB-A6D2D258E53EQ48951530-4FD66344-D386-4528-9CE4-D7C8FE54F58BQ50716413-F5C81A54-4917-4A7F-845C-F84A657FA467Q51922279-90423E3D-7427-4C96-A1C1-C79C8FDC9B0EQ52259988-5C76C113-93A5-4185-ACFF-2B1658B99823Q53293658-3ED4DAB2-088C-43DD-A15E-29D9988634E9Q53608718-14650513-6555-4CB1-B112-D63A9C76291CQ69057876-6889B277-B16D-432A-A4B5-F71F6019285DQ72716153-037B634F-0EEA-442A-B70F-A48AD583B263Q78232939-CC1A9B23-C60E-4DC2-A243-A5DD592A1BEEQ83538845-2AFC1BE3-9B14-430C-89A3-5F18626107B0Q84510683-BDCA1F90-3549-4257-B38D-A71CCF135711
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Juan Aréchaga
@ast
Juan Aréchaga
@en
Juan Aréchaga
@es
Juan Aréchaga
@fr
Juan Aréchaga
@nl
Juan Aréchaga
@sl
type
label
Juan Aréchaga
@ast
Juan Aréchaga
@en
Juan Aréchaga
@es
Juan Aréchaga
@fr
Juan Aréchaga
@nl
Juan Aréchaga
@sl
altLabel
Juan Arechaga
@en
Juan M. Arechaga
@en
Juan M. Aréchaga Martínez
@en
Juan M. Aréchaga
@en
Juan Miguel Aréchaga Martínez
@en
prefLabel
Juan Aréchaga
@ast
Juan Aréchaga
@en
Juan Aréchaga
@es
Juan Aréchaga
@fr
Juan Aréchaga
@nl
Juan Aréchaga
@sl
P1053
F-3040-2016
P106
P21
P31
P3829
P496
0000-0001-8356-3578