The pan-ErbB negative regulator Lrig1 is an intestinal stem cell marker that functions as a tumor suppressor
about
Wnt signaling in cancer stem cells and colon cancer metastasisColorectal cancer models for novel drug discoveryUnderstanding epithelial homeostasis in the intestine: An old battlefield of ideas, recent breakthroughs and remaining controversiesMicroenvironmental control of stem cell fate in intestinal homeostasis and diseaseDefining hierarchies of stemness in the intestine: evidence from biomarkers and regulatory pathwaysChemopreventive drugs: mechanisms via inhibition of cancer stem cells in colorectal cancerPaneth cells in intestinal homeostasis and tissue injuryIn vivo analysis of Lrig genes reveals redundant and independent functions in the inner earIdentification of quiescent, stem-like cells in the distal female reproductive tractCurrent understanding concerning intestinal stem cellsStem cell dynamics and pretumor progression in the intestinal tractUse of Cancer Stem Cells to Investigate the Pathogenesis of Colitis-associated CancerIntestinal crypt homeostasis revealed at single-stem-cell level by in vivo live imaging.Lrig2-deficient mice are protected against PDGFB-induced gliomaA calibrated agent-based computer model of stochastic cell dynamics in normal human colon crypts useful for in silico experiments.Pathobiology of Helicobacter pylori-Induced Gastric Cancer.Unraveling intestinal stem cell behavior with models of crypt dynamicsA central role for vesicle trafficking in epithelial neoplasia: intracellular highways to carcinogenesis.Prolonged Absence of Mechanoluminal Stimulation in Human Intestine Alters the Transcriptome and Intestinal Stem Cell NicheThe Origins of Gastric Cancer From Gastric Stem Cells: Lessons From Mouse Models.Notch as a Driver of Gastric Epithelial Cell Proliferation.Resolving stem and progenitor cells in the adult mouse incisor through gene co-expression analysisYY1 is indispensable for Lgr5+ intestinal stem cell renewal.Concise Review: The Potential Use of Intestinal Stem Cells to Treat Patients with Intestinal Failure.An Inducible, Large-Intestine-Specific Transgenic Mouse Model for Colitis and Colitis-Induced Colon Cancer ResearchInducible loss of one Apc allele in Lrig1-expressing progenitor cells results in multiple distal colonic tumors with features of familial adenomatous polyposis.The LRIG family: enigmatic regulators of growth factor receptor signaling.The Lgr5 intestinal stem cell signature: robust expression of proposed quiescent '+4' cell markersMapping early fate determination in Lgr5+ crypt stem cells using a novel Ki67-RFP alleleTranscription factor Oct1 is a somatic and cancer stem cell determinant.Localized intestinal radiation and liquid diet enhance survival and permit evaluation of long-term intestinal responses to high dose radiation in miceKrüppel-like Factor 4 Modulates Development of BMI1(+) Intestinal Stem Cell-Derived Lineage Following γ-Radiation-Induced Gut Injury in Mice.Helicobacter pylori promotes the expression of Krüppel-like factor 5, a mediator of carcinogenesis, in vitro and in vivo.Expression of LGR-5, MSI-1 and DCAMKL-1, putative stem cell markers, in the early phases of 1,2-dimethylhydrazine-induced rat colon carcinogenesis: correlation with nuclear β-catenin.BID mediates selective killing of APC-deficient cells in intestinal tumor suppression by nonsteroidal antiinflammatory drugs.Epiprofin orchestrates epidermal keratinocyte proliferation and differentiationCell lineage identification and stem cell culture in a porcine model for the study of intestinal epithelial regeneration.EMT-induced stemness and tumorigenicity are fueled by the EGFR/Ras pathway.Deletion of intestinal epithelial insulin receptor attenuates high-fat diet-induced elevations in cholesterol and stem, enteroendocrine, and Paneth cell mRNAs.Vitamin D is a determinant of mouse intestinal Lgr5 stem cell functions
P2860
Q26748552-37E98259-89AA-4777-899B-A70724A7FFEAQ26795724-03745AE1-EBE2-48A3-A05F-AB976BA05733Q26991584-99CECB3B-10F2-4DBF-92D3-1C65303756C7Q26999226-68891730-5921-41DF-888B-EA15149C17B1Q27006804-B38249AD-E8E1-4F7F-9556-EEE4C180C64DQ27026428-C79F65D2-939A-4E06-96C4-66E9C716F7E0Q27301104-F8067429-6561-4BDE-9D32-B742B61F4710Q27320101-D2483027-8738-40AC-A7F2-B9DDD8BAAED4Q27334330-34412AA4-54E5-4967-832F-64D375C99065Q27694486-7E1D2515-A5CD-4AC6-A86B-49CAF88C794CQ28076017-5D9E89D1-0FF1-45AF-AD19-C68BB7B83BBDQ28079356-29FFA7B0-C5C9-4D84-AB03-B512D6823403Q28307731-BF1E4551-3DB4-4DF3-9BBC-57EDE2CA12CAQ28506352-CA4BF168-1695-4ADB-B8A3-A2E0E9E205CAQ30561752-9FB068B1-E7F4-4AF0-A35A-625E72469213Q33361550-211A3703-1EAD-477A-A76E-0B106AF80CFAQ33556378-99B15CA1-CBF5-4C55-93D7-E1AC60164AAAQ33573318-1F63D38E-179B-4AA5-BE02-ED3E59408D8CQ33600412-724FE6BC-05B8-4845-97E7-EE46D1BD7CF4Q33600436-9811B0D4-0782-4493-A2E2-8F1B351DAD9EQ33600442-39F1C96E-F6E4-4827-9BF3-F3393493D235Q33643570-CB0E2512-112E-47D0-B862-D00489D64336Q33694349-2A160D97-CF1A-440E-A4AF-E823FCBAA9ADQ33722414-102AD03E-07CD-49E8-B419-1652DADFAA35Q33811920-B238DAB5-7852-4297-B1B0-4254460E7F40Q33840012-450EE136-8F9F-438E-9911-F6803F5EAAF3Q34276176-65B24569-A4C4-4CA4-805F-C4CE151F4A54Q34280882-CA9033E2-2919-4670-BBB5-CF35CF100380Q34332458-67598FE3-425D-48CD-8901-82179D23D198Q34473592-43337E0D-9CA1-45D2-886A-AF12CC4AC608Q34510853-9760C245-8AA7-4F29-BD9B-0FDFB20791F8Q34528697-76ABDC24-355E-42A3-A55F-F38A9509588DQ34571124-C0EAEB22-EA78-4AD5-8B22-41DDAF8C59E0Q34572166-A88BD455-248B-4013-9A5D-A652A61DBF23Q34581082-7ABABD4B-BB64-4FC1-953F-721F707F8FB0Q34698562-7D9CE68C-41DB-4AB4-9BF1-C21955CA8CF8Q34805506-5B5E772E-9518-46D4-A4C4-FB3F5A5CF313Q34946856-BC3129F8-A6F4-4D25-894E-F171DB5BDFFCQ34980692-43E34BDC-9F61-404E-8FD1-91A0D192BE1AQ35003527-A8051CD3-862E-4FDC-A46E-3CC366B36D54
P2860
The pan-ErbB negative regulator Lrig1 is an intestinal stem cell marker that functions as a tumor suppressor
description
2012 nî lūn-bûn
@nan
2012 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի մարտին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
The pan-ErbB negative regulato ...... unctions as a tumor suppressor
@ast
The pan-ErbB negative regulato ...... unctions as a tumor suppressor
@en
The pan-ErbB negative regulato ...... unctions as a tumor suppressor
@nl
type
label
The pan-ErbB negative regulato ...... unctions as a tumor suppressor
@ast
The pan-ErbB negative regulato ...... unctions as a tumor suppressor
@en
The pan-ErbB negative regulato ...... unctions as a tumor suppressor
@nl
prefLabel
The pan-ErbB negative regulato ...... unctions as a tumor suppressor
@ast
The pan-ErbB negative regulato ...... unctions as a tumor suppressor
@en
The pan-ErbB negative regulato ...... unctions as a tumor suppressor
@nl
P2093
P2860
P50
P1433
P1476
The pan-ErbB negative regulato ...... unctions as a tumor suppressor
@en
P2093
Alwin Juchheim
Anna L Means
Anne E Powell
Emily J Poulin
James N Higginbotham
Jeffrey L Franklin
Kevin M Haigis
Mary K Washington
Robert J Coffey
P2860
P304
P356
10.1016/J.CELL.2012.02.042
P407
P577
2012-03-01T00:00:00Z