The book presents the first comprehensive molecular theory of the living cell ever published since the cell doctrine was formulated in 1838-1839. It introduces into cell biology over three dozens of key concepts, principles and laws imported from physics, chemistry, computer science, linguistics, semiotics and philosophy. The author formulates physically, chemically and enzymologically realistic molecular mechanisms to account for basic living processes such as ligand-receptor interactions, enzymic catalysis, force-generating mechanisms in molecular motors, chromatin remodelling, and...
The book presents the first comprehensive molecular theory of the living cell ever published since the cell doctrine was formulated in 1838-1839. I...
This book describes the first molecular theory of the genotype-phenotype coupling (or cell language) based on two key concepts: the conformon, the packet of free energy and genetic information stored in biopolymers; and, the intracellular dissipative structures, the concentration gradients in the cell that drive all cell functions. Conformons provide the driving forces for all molecular machines in the cell including ATP-dependent chromatin remodeling proteins, and dissipative structures coordinate cell-wide processes such as gene expression and cell cycle. One prediction of the new theory is...
This book describes the first molecular theory of the genotype-phenotype coupling (or cell language) based on two key concepts: the conformon, the pac...
This book offers the first comprehensive molecular theory of the living cell since the cell doctrine was formulated in 1839. The author formulates physically, chemically and enzymologically realistic molecular mechanisms to describe basic living processes.
This book offers the first comprehensive molecular theory of the living cell since the cell doctrine was formulated in 1839. The author formulates phy...
