Modelling Spatially Regulated -Catenin Dynamics and Invasion inIntestinal Crypts
暂无分享,去创建一个
Kwang-Hyun Cho | Helen M. Byrne | Gary R. Mirams | Philip K. Maini | Philip J. Murray | P. Maini | Kwang-Hyun Cho | H. Byrne | Sung-Young Shin | P. Murray | J. Kang | Jun Won Kang | Sung Young Shin
[1] M. Loeffler,et al. Cell migration and organization in the intestinal crypt using a lattice‐free model , 2001, Cell proliferation.
[2] Christopher S Potten,et al. The intestinal epithelial stem cell. , 2002, BioEssays : news and reviews in molecular, cellular and developmental biology.
[3] M. Nowak,et al. Linear Model of Colon Cancer Initiation , 2004, Cell cycle.
[4] H. Clevers,et al. Linking Colorectal Cancer to Wnt Signaling , 2000, Cell.
[5] M. Loeffler,et al. Stem cells: attributes, cycles, spirals, pitfalls and uncertainties. Lessons for and from the crypt. , 1990, Development.
[6] Reinhart Heinrich,et al. The Roles of APC and Axin Derived from Experimental and Theoretical Analysis of the Wnt Pathway , 2003, PLoS biology.
[7] K. Kinzler,et al. Top-down morphogenesis of colorectal tumors , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[8] G. R. van den Brink,et al. The morphogenetic code and colon cancer development. , 2007, Cancer cell.
[9] Shigui Ruan,et al. Structured population models in biology and epidemiology , 2008 .
[10] Martin A. Nowak,et al. The role of chromosomal instability in tumor initiation , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[11] Gary R. Mirams,et al. An integrative computational model for intestinal tissue renewal , 2009, Cell proliferation.
[12] D. Hanahan,et al. The Hallmarks of Cancer , 2000, Cell.
[13] H. Byrne. Dissecting cancer through mathematics: from the cell to the animal model , 2010, Nature Reviews Cancer.
[14] Laura C. Greaves,et al. Mitochondrial DNA mutations in human colonic crypt stem cells. , 2003, The Journal of clinical investigation.
[15] Hans Clevers,et al. Crypt stem cells as the cells-of-origin of intestinal cancer , 2009, Nature.
[16] Riccardo Fodde,et al. APC dosage effects in tumorigenesis and stem cell differentiation. , 2004, The International journal of developmental biology.
[17] B. Boman,et al. Computer modeling implicates stem cell overproduction in colon cancer initiation. , 2001, Cancer research.
[18] Hans Clevers,et al. Expression pattern of Wnt signaling components in the adult intestine. , 2005, Gastroenterology.
[19] Laura C. Greaves,et al. Clonal Expansion in the Human Gut: Mitochondrial DNA Mutations Show Us the Way , 2006, Cell cycle.
[20] D. Kim,et al. A hidden oncogenic positive feedback loop caused by crosstalk between Wnt and ERK Pathways , 2007, Oncogene.
[21] Hans Clevers,et al. Caught up in a Wnt storm: Wnt signaling in cancer. , 2003, Biochimica et biophysica acta.
[22] Michael Kühl,et al. Extended analyses of the Wnt/β‐catenin pathway: Robustness and oscillatory behaviour , 2007, FEBS letters.
[23] A. Franco,et al. The Bacteroides fragilis Toxin Binds to a Specific Intestinal Epithelial Cell Receptor , 2006, Infection and Immunity.
[24] P. Maini,et al. Mathematical oncology: Cancer summed up , 2003, Nature.
[25] T. Newman,et al. Modeling multicellular systems using subcellular elements. , 2005, Mathematical biosciences and engineering : MBE.
[26] G. F. Webb,et al. An age and spatially structured model of tumor invasion with haptotaxis , 2007 .
[27] P. Maini,et al. Mathematical modeling of cell population dynamics in the colonic crypt and in colorectal cancer , 2007, Proceedings of the National Academy of Sciences.
[28] H. Clevers,et al. Wnt signalling in stem cells and cancer , 2005, Nature.
[29] W. Bodmer,et al. Bottom-up histogenesis of colorectal adenomas: origin in the monocryptal adenoma and initial expansion by crypt fission. , 2003, Cancer research.
[30] J. Lloreta,et al. EphB–ephrin-B interactions suppress colorectal cancer progression by compartmentalizing tumor cells , 2007, Nature Genetics.
[31] Gary R. Mirams,et al. A multiple timescale analysis of a mathematical model of the Wnt/β-catenin signalling pathway , 2010, Journal of mathematical biology.
[32] O. Sieber,et al. Genomic instability — the engine of tumorigenesis? , 2003, Nature Reviews Cancer.
[33] Helen M. Byrne,et al. Continuum approximations of individual-based models for epithelial monolayers. , 2010, Mathematical medicine and biology : a journal of the IMA.
[34] Philip K Maini,et al. From a discrete to a continuum model of cell dynamics in one dimension. , 2009, Physical review. E, Statistical, nonlinear, and soft matter physics.
[35] Y. Kalaidzidis,et al. Kinetics of Morphogen Gradient Formation , 2007, Science.
[36] Kwang-Hyun Cho,et al. Wnt pathway mutations selected by optimal β‐catenin signaling for tumorigenesis , 2006 .
[37] Mark Alber,et al. Macroscopic dynamics of biological cells interacting via chemotaxis and direct contact. , 2008, Physical review. E, Statistical, nonlinear, and soft matter physics.
[38] Helen M Byrne,et al. Elucidating the interactions between the adhesive and transcriptional functions of beta-catenin in normal and cancerous cells. , 2007, Journal of theoretical biology.