Location, location, location: the cancer stem cell niche.
about
Transglutaminase is a tumor cell and cancer stem cell survival factorThe cancer stem cell niche: how essential is the niche in regulating stemness of tumor cells?The three-layer concentric model of glioblastoma: cancer stem cells, microenvironmental regulation, and therapeutic implicationsConcise Review: Emerging Role of CD44 in Cancer Stem Cells: A Promising Biomarker and Therapeutic TargetThe difficulty of targeting cancer stem cell nichesUsing heterogeneity of the patient-derived xenograft model to identify the chemoresistant population in ovarian cancerMesenchymal precursor cells maintain the differentiation and proliferation potentials of breast epithelial cells.Concise review: breast cancer stem cells: regulatory networks, stem cell niches, and disease relevanceCancer associated fibroblasts (CAFs) in tumor microenvironment.Stem cell pathways contribute to clinical chemoresistance in ovarian cancerBone progenitor dysfunction induces myelodysplasia and secondary leukaemia.Imaging molecular dynamics in vivo--from cell biology to animal models.Targeting pediatric cancer stem cells with oncolytic virotherapyHuman non-CG methylation: are human stem cells plant-like?Embryonic stem cells markers SOX2, OCT4 and Nanog expression and their correlations with epithelial-mesenchymal transition in nasopharyngeal carcinoma.Stem cells and reproduction.Lipid droplets: a new player in colorectal cancer stem cells unveiled by spectroscopic imaging.Understanding tumor heterogeneity as functional compartments--superorganisms revisited.Oncolytic adenoviruses: A thorny path to glioma cureStem cells and female reproduction.Mechanisms governing metastatic dormancy and reactivation.A single cell functions as a tissue-specific stem cell and the in vitro niche-forming cell.Tumor heterogeneity: mechanisms and bases for a reliable application of molecular marker designDynamic epigenetic regulation of glioblastoma tumorigenicity through LSD1 modulation of MYC expression.Protracted dormancy of pre-leukemic stem cells.Elevated epidermal thymic stromal lymphopoietin levels establish an antitumor environment in the skinTargeting the perpetrator: breast cancer stem cell therapeuticsFoxO1-dependent induction of acute myeloid leukemia by osteoblasts in miceIdentification of CD146 as a marker enriched for tumor-propagating capacity reveals targetable pathways in primary human sarcomaThe metastatic niche: adapting the foreign soil.Acidic extracellular pH of tumors induces octamer-binding transcription factor 4 expression in murine fibroblasts in vitro and in vivo.Wnt/β-catenin signalling induces MLL to create epigenetic changes in salivary gland tumoursEssential gene pathways for glioblastoma stem cells: clinical implications for prevention of tumor recurrence.The controversial clinicobiological role of breast cancer stem cells.It takes a (dysfunctional) village to raise a tumorMultipotent stem cells in the Malpighian tubules of adult Drosophila melanogaster.Deciphering the function of canonical Wnt signals in development and disease: conditional loss- and gain-of-function mutations of beta-catenin in mice.In search of adrenocortical stem and progenitor cellsUpsides and downsides to polarity and asymmetric cell division in leukemia.The cancer stem cell microenvironment and anti-cancer therapy.
P2860
Q26799862-E343E3E9-8B58-433C-9C8D-62CE0632D47BQ26824147-178EB506-51B5-4118-BF7F-989975528AB4Q26829663-3213C38C-0711-4F35-A100-C506BF6AF54CQ28083115-55B9D32A-3C1A-4A24-9170-3852293C130CQ28744461-D5270FAC-3459-4BF5-82C6-B129ABF1A159Q30409503-FD123C89-43C2-4825-B729-8F20887E0368Q33892347-3361A338-CA07-47B4-9264-D6F5C6994536Q33975619-AC6E5A01-CAD0-42E5-A445-7C718C08AD6BQ33999773-FC0C0FBC-8E53-413E-88EA-5897A51F3027Q34092005-095CE468-654E-4FE7-9E9E-CE073242C88FQ34105744-737D54D9-8169-453B-9050-BC31B0FDFE71Q34211941-9E5C11C9-210C-441E-9E28-C8A8C3A6599AQ34262327-94E2EED3-15B1-4899-96C6-237EF7B61FB0Q34567688-E3311B94-565A-458A-8F15-47D76DD5AD24Q34592793-B1AAB5BC-8A76-4449-AFD6-7EA5413F71C1Q35023795-E9F60AD2-604D-4B2D-B1ED-4446B97429EAQ35030903-C3C15B91-509A-4E71-99B1-C60E16F594F5Q35054645-60D4140F-3C0B-4EED-8690-5DBC00EB581AQ35077747-CB5BB72F-4368-409C-9D8B-17CA9BB0C5B8Q35084713-805DAFAA-4409-484E-927D-686953E46D67Q35162521-23285CC1-A5FD-4B30-895F-6FBB37C3DD65Q35219887-D6354FE8-5236-4236-A7D7-27F478C7525BQ35795835-98C08CA1-ADE9-4653-B41E-0173E77DD1AFQ35910268-425A4D58-14A3-4F8D-A00C-2D78447A5BD2Q36045125-FE6E860D-2CA8-4923-9F43-5D2DAB22FCE4Q36345757-EDBF9938-6089-468A-82ED-496A1938FBE5Q36394964-E54D433F-99EC-4BD2-A374-0C57066A7270Q36404458-70E0D7C2-8B35-4277-A197-815364C8B1C0Q36545600-B8D28658-ED91-4B15-8EC9-56A5C1FEEFAAQ36928869-9F6F41B9-CF34-47AD-8EFF-3A9348EB644FQ37006135-4C68DB2E-E1D0-42BC-8E72-AA6BC59187CAQ37025924-B677CD9C-CBDB-4D9F-8B29-607C66C5230FQ37132697-99929C42-B9CC-4BCE-9A15-C926E9C5ED9BQ37134143-546D3F47-8B7E-4E91-8290-7D04C4AC80C3Q37219280-CD8D16B5-890B-4D19-8CDA-6351384699F3Q37235126-04BDF97F-8050-4700-BF2F-7ED91D78598CQ37259094-B14143D0-B7D8-4702-9983-2DD75AA52401Q37305066-2D1BBA6E-A91B-4D3B-A0CE-F4D746145542Q37333623-6C01ADB4-5555-4F48-AAE8-F25FD0196AD0Q37628729-057BEFDE-8553-40D1-BB95-755CAA7179F5
P2860
Location, location, location: the cancer stem cell niche.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Location, location, location: the cancer stem cell niche.
@en
type
label
Location, location, location: the cancer stem cell niche.
@en
prefLabel
Location, location, location: the cancer stem cell niche.
@en
P2860
P1433
P1476
Location, location, location: the cancer stem cell niche.
@en
P2093
Julie B Sneddon
P2860
P304
P356
10.1016/J.STEM.2007.11.009
P407
P50
P577
2007-12-01T00:00:00Z