Hypoxia and pluripotency in embryonic and embryonal carcinoma stem cell biology.
about
Tumor Budding, Micropapillary Pattern, and Polyploidy Giant Cancer Cells in Colorectal Cancer: Current Status and Future ProspectsThe cancer stem cell niche--there goes the neighborhood?Epithelial-mesenchymal transition and cancer stemness: the Twist1-Bmi1 connectionThe hypoxic microenvironment maintains glioblastoma stem cells and promotes reprogramming towards a cancer stem cell phenotype.p53 dependent apoptotic cell death induces embryonic malformation in Carassius auratus under chronic hypoxia.An integrated analysis of the SOX2 microRNA response program in human pluripotent and nullipotent stem cell lines.Severe hypoxia exerts parallel and cell-specific regulation of gene expression and alternative splicing in human mesenchymal stem cells.The gap junction as a "Biological Rosetta Stone": implications of evolution, stem cells to homeostatic regulation of health and disease in the Barker hypothesis.Exosomes/microvesicles from induced pluripotent stem cells deliver cardioprotective miRNAs and prevent cardiomyocyte apoptosis in the ischemic myocardium.Suppression of cancer stemness p21-regulating mRNA and microRNA signatures in recurrent ovarian cancer patient samples.Reciprocal regulation of Akt and Oct4 promotes the self-renewal and survival of embryonal carcinoma cells.Hypoxia increases genome-wide bivalent epigenetic marking by specific gain of H3K27me3.Tumor-initiating cells of breast and prostate origin show alterations in the expression of genes related to iron metabolism.Glioblastoma Stem Cells: A Neuropathologist's View.Using living cells to transport therapeutic genes for cancer treatment.Peritubular myoid cell-derived factors and its potential role in the progression of testicular germ cell tumours.Stem cell-based tissue engineering approaches for musculoskeletal regeneration.Hypoxia activates the notch signaling pathway in cells of the intervertebral disc: implications in degenerative disc disease.HIF-2α regulates CDCP1 to promote PKCδ-mediated migration in hepatocellular carcinoma.From tumor hypoxia to cancer progression: the implications of hypoxia-inducible factor-1 expression in cancersMetabolically conditioned media derived from bone marrow stromal cells or human skin fibroblasts act as effective chemoattractants for mesenchymal stem cells.Asymmetric cell division in polyploid giant cancer cells and low eukaryotic cells.Low-oxygen culture conditions extend the multipotent properties of human retinal progenitor cells.
P2860
Q28075498-306246BF-901D-4D7D-9230-D03701F21C70Q28244178-39500206-582E-4D60-8CA7-9289F6B3DA8FQ28248085-5CC08534-8238-41D4-924B-6CD84B533C6CQ33674720-68CC3F1E-F46E-4FA6-98F0-40EDB4D24F26Q33960973-FEE8F6D3-911D-4E9C-B7B8-2A018A526A5AQ34174419-AFD31E8A-1970-4536-AEEB-B2EE3C2A7174Q34525611-E86B7BEC-D033-4DF8-A9F6-6774176C65D8Q34678350-F1359CE0-9C86-444E-8E35-3F72EC67E2DDQ35748408-A9ECA31F-1DF3-49CE-A240-D93B0B01FF6AQ35772988-ADEE7A07-DDAB-4F00-8AB6-C34B50E733A0Q36697271-15DC690C-E0E9-44B3-B00F-CFE2D60DBBCBQ37367234-7F759943-64EA-45D4-B7EF-D7C4275A0308Q37701609-36280760-65EB-40AD-B5E0-1797DA9B3BCDQ37807263-CE5F08F5-6082-4635-98C4-4E5C7A46FAEDQ37829108-58A4B056-E410-43DD-B9D3-D5ED0D05A7FDQ37882002-EE7FBFF8-B473-4F84-8629-347BB22721ADQ38083814-39364AB3-DBB5-466A-A6CB-6C7033170D2AQ39475834-24496356-3225-495B-9D74-E1880D0DA4B1Q40607212-441448D6-8BAC-4500-BADB-E6522C6E4F81Q41767159-870C9542-1DCC-432B-9B68-F96D0A0F7909Q42046136-C4CBB156-A195-4E95-8005-B9A8BECB2707Q42727153-FBE02502-35B3-4851-B524-57E3C8AF502EQ42942232-D693F597-62B5-48A1-B72E-EE86BE0C5214
P2860
Hypoxia and pluripotency in embryonic and embryonal carcinoma stem cell biology.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 14 July 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Hypoxia and pluripotency in embryonic and embryonal carcinoma stem cell biology.
@en
Hypoxia and pluripotency in embryonic and embryonal carcinoma stem cell biology.
@nl
type
label
Hypoxia and pluripotency in embryonic and embryonal carcinoma stem cell biology.
@en
Hypoxia and pluripotency in embryonic and embryonal carcinoma stem cell biology.
@nl
prefLabel
Hypoxia and pluripotency in embryonic and embryonal carcinoma stem cell biology.
@en
Hypoxia and pluripotency in embryonic and embryonal carcinoma stem cell biology.
@nl
P2093
P1433
P1476
Hypoxia and pluripotency in embryonic and embryonal carcinoma stem cell biology
@en
P2093
Alejandro Díez-Torre
Jon Arluzea
Margarita Silió
Ricardo Andrade
P304
P356
10.1016/J.DIFF.2009.06.002
P577
2009-07-14T00:00:00Z