Introduction to Hierarchical, Heterogeneous, Polyscale Cell Biology and its Applications

Cell is a Multiscale, Multiphysics Subject to Study **

Top-Down Structural Elements of Mammalian Cell in Need and Used for Polyscale Identification of Cell's Functions. Conceptual Physical and Mathematical Models **

Biomacromolecules - Are They Singled out in a Cell, Tissue or should be Polyscaled? **

Macromolecular Assemblies Hold and Controlled by Collective Interaction - Consequently Modeled Should be with the HSP-VAT Mathematics and Simulation **

Polyphase Fluid Flow (as of Cytosol) in the Intracellular (and Extracellular) Soft Porous Transient Elastic and ViscoElastic Scaled Media **

Cytoskeleton and other Polyscale Soft Porous Transient Elastic and ViscoElastic Biomedia **

First Sprouts of Two-Scale Subcellular Structural Elements (Collagen, ..) Concerned and Modeled as the Hierarchical Heterogeneous Medium - Not so Correct, But Well Addressed **

Mitochondria HS Function in the Muscle Cellular Tissue: HS Understanding and Modeling **

Enzyme (Ferment) Catalysis as the Heterogeneous Processes in a Cell. Scaled Modeling **

Active Transport (Motility, Translocation) as the HS One in Animal and Plant Cells **

Motor Proteins are those NANOBOTS. What Does Control them? Another Protein or? **

Reprogramming Ordinary Cells Into iPS Cells Has Been Done with the Heterogeneous Technique **

Differentiation is a Collective Change in Cells. How Many Scales Involved? **

Chemotaxis is the Polyphase 4-scale (at Least) Biomedia Phenomena and Process. Physical and Mathematical HSP-VAT Model **