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- ATP
Synthase - eine prächtige molekulare Maschine.
- Bioenergetics
(University of Arizona) - Online Lecture.
- Bioenergetics
(University of Leeds) - Brief orientation, The oxygen electrode, Oxygraph experiments,
The respiratory chain, Inhibitors, uncouplers and ionophores, Sub-mitochondrial
particles, The high-energy pool, Synthesis of ATP, Bioenergetics: Some basic physical
chemistry that you really ought to understand, Symports, antiports and electrogenic
uniports, Origin and evolution of mitochondria, Biogenesis of mitochondria, Mitochondrial
diseases, Chemical structures.
- Biomagnetism
and Bio-Electromagnetism - The Foundation of Life.
- Biophotons
- The Light in Our Cells - Text.
- Biophysical
Methods - Protein structure component (University of Guelph) - Secondary structure
of Proteins, Protein interactions leading to folding, Membrane Proteins, Membrane
Proteins - Porins.
- BioMagResBank
(University of Wisconsin) - A repository for data from NMR spectroscopy on proteins,
peptides, and nucleic acids.
- Biomechanics
Yellow Pages
- Biophysical
Chronology
- Biophysics
354 (University of Illinois) - Introduction to biological energy conversion,
overview and global perspective, Review of anaerobic metabolism (glycolysis),
Elementary chemical thermodynamics; thermodynamic functions; equilibrium constant,
pH, pK, enthalpy, entropy and free energy, Review of aerobic metabolism (citric
acid cycle), Coupling between reactions; DGo? for ATP hydrolysis; redox reactions;
electrode potential and relation to free energy, Electron transport chains; overview
and redox components, Effects of ligands, H+, on redox potential; Quinone redox
states; Redox potentiometry, Electron transport chains as proton pumps, Chemical
potential; electrochemical potential; membrane potential; coupling between electron
and proton transport, ATP synthesis and the ATP synthase, The proton circuit,
the membrane, and the interface (protodes), Proton conduction, stoichiometry,
Methodology, a brief review, Transport across biological membranes: metabolite
transport in the mitochondria, Transport systems in bacteria and eukaryote cells,
and the role in homeostasis, Motility: flagella, muscles, cilia, microtubules,
Chemical and mechanical work, Kinetics: simple rate equations, Kinetics: factors
determining the rate of reaction, Photosynthesis: overview, and light harvesting,
Fluorescence as a probe of photosynthetic function, Photochemical reaction centers,
Kinetics and thermodynamics of reaction centers, Photosystem II; Secondary acceptors
and donors, Oxygen evolution: details of mechanism, Photosynthetic electron transfer;
Photosystem I; coupling to metabolism, Coupling of the proton gradient to membrane
phenomena; coupling in the steady state; introduction to non-equilibrium thermodynamics.
- Biophysics
& Spectroscopy - Radiology (Karolinska Institutet, Sweden) - List of Links.
- Biophysik
- Gebiete der Biophysik, Wichtige Biophysiker.
- Biophysik
und Signalverarbeitung sensorischer Systeme (ETH Zürich) - Vorlsung (PDF).
- Cytoskeleton,
Cell Motility and Motors (WWWVL) - List of Links.
- Database
of Macromolecular Movements - This describes the motions that occur in proteins
and other macromolecules, particularly using movies. Associated with it are a
variety of free software tools and servers for structural analysis.
- Doppelhelix
wird fünfzig - Text und Abbildungen.
- Electrofusion
- Text and Image.
- Electrophysiology
and Molecular Basis of Excitability - This is a brief Textbook that covers
the basics of the initiation and propagation of the nerve impulse using equivalent
circuits with reference to ionic conductances. Voltage dependent conductances
are explained on the basis of single channel properties.
- Electrophysiology
of plant protoplasts in comparison of their intact cells - Text and Images.
- Enzyme
auf Oberflächen (Technische Universität Chemnitz) - PDF-Text.
- Graphische
Darstellung von Proteinstruktur (Botanik Online) - Text und Abbildungen.
- Guide
to Structure Prediction (Imperial Cancer Research Fund)
- Ion
Channels and Membrane Transport Proteins (University of Oxford) - Potassium
Channels, Glutamate Receptors, Nicotinic Acetylcholine Receptor, Channel Gating
Mechanisms, Viral Ion Channels, Bacterial Outer Membrane Proteins, Transport Proteins,
Membrane Protein Structure.
- Kinesiology
and Biomechanics - Guidelines and Tutorials.
- Lebensmittel-Biophotonen
- Strahlende Lebensmittel im Qualitätstest.
- Mechanismus
der Proteinfaltung - Text und Abbildungen.
- Membrane
Biophysics - Text and Images.
- Molecular
Biophysics (Boston University) - Biomolecular Structure and Dynamics, Energy
Transduction, Ion Transport and Signal Recognition, Biomembrane Technology &
Biomolecular Photonics.
- Muscle
contraction - Text and Images.
- Photobiologische
übungen - Photobiologie untersucht das Einwirken von Licht auf Organismen,
Lichtquellen, Spektroskopie, Photosynthese, Terrestrisches Strahlungsklima.
- Photosynthesis
and Entropy Generation in the Biome (University of Cincinnati) - Text.
- Physics
of Hearing (University of Cincinnati) - Text.
- Physikalsche
Kleinigkeiten - Biophysik.
- Proteinstruktur
und Proteinfaltungsanalysen mit Hilfe der Ramanspektroskopie (Universität
Bremen) - Online-Dissertation.
- Quantum
Biology - Text and Images.
- Quantum
Bio-physics in Living Organisms - Links.
- Simulating
Human Motion (Georgie Tech) - Text and Images.
- Simulations
of Ion Channels and Excitability - simulations of Na and K ionic and gating
currents, membrane potentials, equivalent circuit of the axon, nerve voltage clamp,
membrane and propagated action potentials.
- Spectral
Sensitivity of the Eye (University of Cincinnati) - Text and Images.
- Sprache
der Embryos - Angebliche Biophotonen-Strahlung entschlüsselt.
- Structural
Biophysics Web Resources - Links.
- Thermosynthesis
- Photosystem 0 - a postulated primitive photosystem that generates ATP in fluctuating
light.
- Was
das Leben leben lässt (1) - Meilenstein zum Verständnis der Photosynthese.
- Was
das Leben leben lässt (2) - Meilenstein zum Verständnis der Photosynthese.
- Was
ist Biomechanik ? - Definitionen.
- Wie
falten sich Proteine? - Text und Abbildung.
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