about
Tracking the evolution of cancer cell populations through the mathematical lens of phenotype-structured equations.Top-down models in biology: explanation and control of complex living systems above the molecular levelRe-membering the body: applications of computational neuroscience to the top-down control of regeneration of limbs and other complex organsAnalysis of distribution of DNA methylation in kidney-renal-clear-cell-carcinoma specific genes using entropyProteomic indicators of oxidation and hydration state in colorectal cancerIn vivo collective cell migration requires an LPAR2-dependent increase in tissue fluidityPhase transitions in pancreatic islet cellular networks and implications for type-1 diabetes.Endogenous Voltage Potentials and the Microenvironment: Bioelectric Signals that Reveal, Induce and Normalize Cancer.Is cancer a pure growth curve or does it follow a kinetics of dynamical structural transformation?Antitumor effects of electrochemical treatment.A physical sciences network characterization of non-tumorigenic and metastatic cellsAn integrated multidisciplinary model describing initiation of cancer and the Warburg hypothesis.Self-organization and entropy reduction in a living cell.Plant Lectins as Medical Tools against Digestive System Cancers.The cellular Ising model: a framework for phase transitions in multicellular environments.Cell cycle progression is regulated by intertwined redox oscillatorsSystems Biology Approach and Mathematical Modeling for Analyzing Phase-Space Switch During Epithelial-Mesenchymal Transition.Parameters Estimation in Phase-Space Landscape Reconstruction of Cell Fate: A Systems Biology Approach.Symmetry and symmetry breaking in cancer: a foundational approach to the cancer problem.Dynamical analysis of cellular ageing by modeling of gene regulatory network based attractor landscape.Microenvironment Dependent Photobiomodulation on Function-Specific Signal Transduction Pathways
P2860
Q27335464-C9890355-2D33-4E17-B625-ED3EDDD4FFE3Q28073689-751C3A38-5EA2-4425-9AB2-0B7F745612B0Q28084675-5EEAE5E7-B6C2-45F8-95B9-4043AC47FCE5Q28821026-A1B102A4-91FE-4740-992A-10E6F80C8372Q28829212-CA415227-1603-4DC2-A50D-783386CEE213Q30583159-B8D302B7-C400-494E-92B9-9241C0211046Q34234603-680E3E97-AAC9-45C1-BA16-DA43BC3C3BA5Q34710990-2CC67E67-1794-4FB3-9FB4-610A7920232CQ36300112-F29EFCDF-C30C-4CA9-8274-05B866E0C7E2Q36767642-B08C33CF-0371-415F-8929-603D8BED0041Q36795613-E5D92306-44BC-4581-921A-E9D4FD9BE127Q36945512-937BF69F-B76B-4C3A-A8C0-2A5D704F0B8EQ37016779-AAA55FB8-911B-452C-A5E8-014E5463704FQ38696887-01232109-F9D9-4DB4-B326-098F5FE31A56Q42158249-4393295E-5C68-4A3B-80DC-DEA1991AC6B2Q42592610-FD7113FD-1322-4C37-85D7-5CAEBDAB4C3EQ47614608-46A40B33-DEBA-47D0-9DB1-4FDC99540FADQ50100328-1DB8A507-D982-4491-876F-0C30D1361112Q52353605-6B009FB1-B0BB-4092-B692-A68FEB6FD461Q55345411-8AD188CC-0F16-4A36-9CFA-649DB5BF4FE7Q59046302-92FE2832-CA61-4406-84AD-C78082CEEF83
P2860
description
2011 nî lūn-bûn
@nan
2011 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
name
Cancer as a dynamical phase transition.
@ast
Cancer as a dynamical phase transition.
@en
type
label
Cancer as a dynamical phase transition.
@ast
Cancer as a dynamical phase transition.
@en
prefLabel
Cancer as a dynamical phase transition.
@ast
Cancer as a dynamical phase transition.
@en
P2093
P2860
P356
P1476
Cancer as a dynamical phase transition.
@en
P2093
Jack A Tuszynski
Lloyd Demetrius
Paul Cw Davies
P2860
P2888
P356
10.1186/1742-4682-8-30
P577
2011-08-25T00:00:00Z
P5875
P6179
1010434088