about
Animal cell differentiation patterns suppress somatic evolutionHigher percentage of CD133+ cells is associated with poor prognosis in colon carcinoma patients with stage IIIBLung cancer stem cells: progress and prospectsA novel validation algorithm allows for automated cell tracking and the extraction of biologically meaningful parametersA simple mathematical model based on the cancer stem cell hypothesis suggests kinetic commonalities in solid tumor growthCancer in light of experimental evolutionStochastic dynamics and the evolution of mutations in stem cellsCompartmental architecture and dynamics of hematopoiesis.Individual fates of mesenchymal stem cells in vitro.The protective role of symmetric stem cell division on the accumulation of heritable damageA mathematical-biological joint effort to investigate the tumor-initiating ability of Cancer Stem Cells.Clonal hematopoiesis, with and without candidate driver mutations, is common in the elderly.Age-dependent transition from cell-level to population-level control in murine intestinal homeostasis revealed by coalescence analysis.Symmetric vs. asymmetric stem cell divisions: an adaptation against cancer?ER-α36-mediated rapid estrogen signaling positively regulates ER-positive breast cancer stem/progenitor cellsA 3D multiscale model of cancer stem cell in tumor development.Effect of dedifferentiation on time to mutation acquisition in stem cell-driven cancers.Organ aging and susceptibility to cancer may be related to the geometry of the stem cell niche.A versatile mathematical work-flow to explore how Cancer Stem Cell fate influences tumor progression.A multicellular basis for the origination of blast crisis in chronic myeloid leukemiaApplying ecological and evolutionary theory to cancer: a long and winding road.An evolutionary explanation for the presence of cancer nonstem cells in neoplasms.Age-related changes in Drosophila midgut are associated with PVF2, a PDGF/VEGF-like growth factorCancer Stem Cells: A Minor Cancer Subpopulation that Redefines Global Cancer Features.Asymmetric division of activated latently infected cells may explain the decay kinetics of the HIV-1 latent reservoir and intermittent viral blips.The role of cell location and spatial gradients in the evolutionary dynamics of colon and intestinal cryptsTargeting the leukemic stem cell: the Holy Grail of leukemia therapyThe ecology of cancer from an evolutionary game theory perspective.Cancer stem cells: small subpopulation or evolving fraction?Dynamical models of mutated chronic myelogenous leukemia cells for a post-imatinib treatment scenario: Response to dasatinib or nilotinib therapy.Agent-Based Modeling of Cancer Stem Cell Driven Solid Tumor Growth.Robustness of differentiation cascades with symmetric stem cell divisionDynamics of mutant cells in hierarchical organized tissues.Disruption of a Quorum Sensing mechanism triggers tumorigenesis: a simple discrete model corroborated by experiments in mammary cancer stem cellsPopulation dynamics of cancer cells with cell state conversionsImmune response to mutant neo-antigens: Cancer's lessons for aging.Cancer stem cell, niche and EGFR decide tumor development and treatment response: A bio-computational simulation studyEvolutionary dynamics of chronic myeloid leukemia.Cancer Stem Cell Plasticity as Tumor Growth Promoter and Catalyst of Population CollapsePathways to tumorigenesis--modeling mutation acquisition in stem cells and their progeny.
P2860
Q21145656-6C8A311F-78D3-49AF-A1FB-A69CF5379A74Q24645020-916348A3-7980-4F12-96E4-865EF0A13B0AQ26827654-AB6B2669-4A50-4EB6-847E-E7A4D7668E77Q27313407-5EB66BBC-3D7A-41C0-A2CF-58F9EDD6A3F8Q28480928-B8E09D6F-BA46-4E1D-B350-D32C8832E41CQ28727500-A0704188-8014-4B3C-82C5-EB2C28097CC3Q31017219-690927F8-E00A-44BE-ADC8-821B215AEF76Q33280998-A551C196-753B-477E-A8D5-D3B75D005491Q33589320-2D9E59BE-8C21-49AC-AE62-57FFA7F814D8Q34045721-8E096BF8-86D7-4467-ABB8-A6779DE1E987Q34128350-8C877C9D-86B7-49C6-9446-C66299E8636DQ34556382-F07A0B87-943A-4DD5-A85F-437BE633C665Q34611233-8A39A1E3-39E9-4F23-897F-766E6F1E4A21Q35034585-176B45E9-7082-4F49-80B4-AB0E173119A1Q35099499-96B5EC71-1FD8-4515-A0D6-1B4FA4ED6353Q35101916-9D6C9026-C4A1-4B59-9BEA-36FD936FDA29Q35112649-723F336B-B6AA-48EC-8506-1EC0E15ED0FDQ35585865-04205860-0774-41DE-A8A1-5916159BAEA0Q35655551-6B33E814-49E6-4D90-BC13-AF661E7CC638Q36509949-96B5708A-3F44-4787-B88F-66EC6B117932Q36595749-A73A4C44-0525-4D05-A4C5-22429881F401Q36595770-88984A87-09AA-49BF-982B-0D28B5A0B338Q36691494-9B0CF2AC-E20A-4777-8F95-1231F84D11C5Q36763883-A8133C71-8B27-4B14-BC2A-FB198E1A812AQ37133236-70EE5C93-1F67-489D-8E75-B6A3D88807BDQ37196171-4C59A3FA-49BE-437F-B168-F0DF6DD4F39EQ37272565-26D7B219-E8EC-484B-AC04-C281A521EFF5Q38237394-CD1F2C8A-BCA7-4A4B-8973-DB43E6E6F316Q38264074-087D34AF-22BA-4A73-BF24-50E1B9424664Q38692847-66A98356-37FF-4C43-BF81-5C5DA9D5B041Q38780807-A3770E18-8415-4B8B-8E8A-D67AD7CA3619Q39112166-2595C6FF-3F4B-4CC5-8E2C-F4648AC83F76Q39535374-33DE3032-156B-473C-808F-9190F8AE1650Q40687831-99A95209-D454-4AD8-A9CA-D93B3256B315Q40824776-B412236A-CEE5-46E7-91F1-8F852ACCBDD2Q41851271-35035BBF-BBB0-4730-BA67-0386F97E4F14Q41868891-599A8D4D-6438-41C1-9DAF-EB18E0364E97Q42067716-F92FDCBC-DDAA-42ED-84E4-53F4A754E5D5Q42743965-715180F1-44FD-4458-B020-EF9669664488Q43250252-086882C2-97C5-4EA6-8616-BB667BEA9150
P2860
description
2007 nî lūn-bûn
@nan
2007 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
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
name
(A)symmetric stem cell replication and cancer
@ast
(A)symmetric stem cell replication and cancer
@en
type
label
(A)symmetric stem cell replication and cancer
@ast
(A)symmetric stem cell replication and cancer
@en
prefLabel
(A)symmetric stem cell replication and cancer
@ast
(A)symmetric stem cell replication and cancer
@en
P2860
P1476
(A)symmetric stem cell replication and cancer
@en
P2093
Arne Traulsen
Franziska Michor
P2860
P356
10.1371/JOURNAL.PCBI.0030053
P50
P577
2007-02-01T00:00:00Z