Results 281 to 290 of about 3,504,331 (315)
Analysis of the singularity cells controlling the pattern formation in multi-cellular systems. [PDF]
Biophys PhysicobiolHorikawa K, Takemoto T.
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Molecular Oncology, EarlyView.Single circulating tumor cells (sCTCs) from high‐grade serous ovarian cancer patients were enriched, imaged, and genomically profiled using WGA and NGS at different time points during treatment. sCTCs revealed enrichment of alterations in Chromosomes 2, 7, and 12 as well as persistent or emerging oncogenic CNAs, supporting sCTC identity.
Carolin Salmon +9 more
wiley +1 more source
Redox regulation meets metabolism: targeting PRDX2 to prevent hepatocellular carcinoma
Molecular Oncology, EarlyView.PRDX2 acts as a central redox hub linking metabolic dysfunction‐associated steatohepatitis (MASH) to hepatocellular carcinoma (HCC). In normal hepatocytes, PRDX2 maintains redox balance and metabolic homeostasis under oxidative stress. In contrast, during malignant transformation, PRDX2 promotes oncogenic signaling, stemness, and tumor initiation ...
Naroa Goikoetxea‐Usandizaga +2 more
wiley +1 more source
Turing Pattern Formation in Reaction-Cross-Diffusion Systems with a Bilayer Geometry. [PDF]
Bull Math BiolDiez A +4 more
europepmc +1 more source
Pattern formation along signaling gradients driven by active droplet behaviour of cell groups
Ford HZ +8 more
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Hierarchical pattern formation
Physica A: Statistical Mechanics and its Applications, 1998Abstract We consider a hierarchical set of dynamical systems, each of which may support individual pattern formation processes. In the limit case of weak top-down interactions it provides a suitable framework for the design of self-organizing scenarios both from constructional and evolutionary perspective.
Or-Guil, M., Bär, M., Bode, M.
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Biochemistry, 2019
A fundamental question in biology is how biological patterns emerge. Because of the presence of numerous confounding factors, it is tremendously challenging to elucidate the mechanisms underlying pattern formation solely on the basis of studies of natural biological systems.
Nan Luo, Shangying Wang, Lingchong You
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A fundamental question in biology is how biological patterns emerge. Because of the presence of numerous confounding factors, it is tremendously challenging to elucidate the mechanisms underlying pattern formation solely on the basis of studies of natural biological systems.
Nan Luo, Shangying Wang, Lingchong You
openaire +2 more sources
2017
This chapter examines the complex nature of pattern formation in excitable systems. Many physical, chemical, and biological systems are considered excitable, in which two “components” interact in such a way as to alter each other's state through (nonlinear) processes of inhibition or amplification.
Karl-Peter Hadeler, Johannes Müller
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This chapter examines the complex nature of pattern formation in excitable systems. Many physical, chemical, and biological systems are considered excitable, in which two “components” interact in such a way as to alter each other's state through (nonlinear) processes of inhibition or amplification.
Karl-Peter Hadeler, Johannes Müller
+4 more sources