Pages that link to "Q34646711"

The following pages link to A biopolymer transistor: electrical amplification by microtubules (Q34646711):

Displaying 34 items.

• Long range physical cell-to-cell signalling via mitochondria inside membrane nanotubes: a hypothesis. (Q26748642) (← links)
• An Overview of Sub-Cellular Mechanisms Involved in the Action of TTFields. (Q28067498) (← links)
• The natural history of consciousness, and the question of whether plants are conscious, in relation to the Hameroff-Penrose quantum-physical 'Orch OR' theory of universal consciousness (Q30401040) (← links)
• Molecular bioelectricity: how endogenous voltage potentials control cell behavior and instruct pattern regulation in vivo (Q34572217) (← links)
• "Nanosized voltmeter" enables cellular-wide electric field mapping (Q35906108) (← links)
• Microtubule ionic conduction and its implications for higher cognitive functions (Q37768755) (← links)
• Emission of mitochondrial biophotons and their effect on electrical activity of membrane via microtubules. (Q37855763) (← links)
• Roles of ion transport in control of cell motility (Q38110508) (← links)
• Nature's Electric Potential: A Systematic Review of the Role of Bioelectricity in Wound Healing and Regenerative Processes in Animals, Humans, and Plants (Q41473396) (← links)
• Insights into plant consciousness from neuroscience, physics and mathematics: a role for quasicrystals? (Q41478300) (← links)
• Response to Alternating Electric Fields of Tubulin Dimers and Microtubule Ensembles in Electrolytic Solutions. (Q41547378) (← links)
• Aerogel Poly(butylene succinate) Biomaterial Substrate for RF and Microwave Applications (Q42413704) (← links)
• Electrical Oscillations in Two-Dimensional Microtubular Structures (Q42743458) (← links)
• A critical assessment of the information processing capabilities of neuronal microtubules using coherent excitations (Q42956509) (← links)
• Neural cytoskeleton capabilities for learning and memory. (Q42956513) (← links)
• Effect of calcium on electrical energy transfer by microtubules (Q43166833) (← links)
• Postulates on electromagnetic activity in biological systems and cancer (Q48908548) (← links)
• Actin filaments as the fast pathways for calcium ions involved in auditory processes (Q50351962) (← links)
• Waves transmission and amplification in an electrical model of microtubules (Q50634964) (← links)
• Nonlinear ionic pulses along microtubules. (Q51565861) (← links)
• A nonlinear model of ionic wave propagation along microtubules. (Q51787612) (← links)
• Effects of static magnetic fields on the structure, polymerization, and bioelectric of tubulin assemblies. (Q52977337) (← links)
• Model of ionic currents through microtubule nanopores and the lumen. (Q53716806) (← links)
• Bundles of Brain Microtubules Generate Electrical Oscillations (Q58793722) (← links)
• Signal transmission through elements of the cytoskeleton form an optimized information network in eukaryotic cells (Q64110765) (← links)
• Investigation of the Electrical Properties of Microtubule Ensembles under Cell-Like Conditions (Q89598623) (← links)
• Microtubules as Sub-Cellular Memristors (Q89602264) (← links)
• Bioelectrical and cytoskeletal patterns correlate with altered axial polarity in the follicular epithelium of the Drosophila mutant gurken (Q90309935) (← links)
• Physical energies to the rescue of damaged tissues (Q91783609) (← links)
• Ion-Based Cellular Signal Transmission, Principles of Minimum Information Loss, and Evolution by Natural Selection (Q92153322) (← links)
• The Role of Cell Membrane Information Reception, Processing, and Communication in the Structure and Function of Multicellular Tissue (Q92177480) (← links)
• Actin filaments modulate electrical activity of brain microtubule protein two-dimensional sheets (Q92743199) (← links)
• Two-Dimensional Brain Microtubule Structures Behave as Memristive Devices (Q92913871) (← links)
• When Stiffness Matters: Mechanosensing in Heart Development and Disease (Q97526629) (← links)