Outline of biophysics
The following outline is provided as an overview of and topical guide to biophysics:
Biophysics – interdisciplinary science that uses the methods of physical science to study biological systems.[1]
Nature of biophysics
Biophysics is
- An academic discipline – branch of knowledge that is taught and researched at the college or university level. Disciplines are defined (in part), and recognized by the academic journals in which research is published, and the learned societies and academic departments or faculties to which their practitioners belong.
- A scientific field (a branch of science) – widely-recognized category of specialized expertise within science, and typically embodies its own terminology and nomenclature. Such a field will usually be represented by one or more scientific journals, where peer reviewed research is published.
- An interdisciplinary field – field of science that overlaps with other sciences
Scope of biophysics research
- Biomolecular scale
- Environmental scale
Biophysics research overlaps with
Branches of biophysics
- Astrobiophysics –
- Medical biophysics – uses physics to describe and control biological processes for diagnostic and therapeutic applications. See also, medical physics.
- Clinical biophysics – studies the process and effects of non-ionising physical energies utilised for diagnostic and therapeutic purposes.[2][3]
- Membrane biophysics – study of biological membranes using physical, computational, mathematical, and biophysical methods.
- Molecular biophysics – interdisciplinary field that applies methods and concepts from physics, chemistry, engineering, mathematics and biology[4] to understand biomolecular systems and explain biological function in terms of molecular structure, structural organization, and dynamic behaviour at various levels of complexity, from single molecules to supramolecular]structures, viruses and small living systems.
Biophysical techniques
Biophysical techniques – methods used for gaining information about biological systems on an atomic or molecular level. They overlap with methods from many other branches of science.
- Biophotonics –
- Biosensor and Bioelectronics –
- Calcium imaging –
- Calorimetry –
- Chromatography – various techniques from this field are used for the purification and analysis of biological molecules
- Circular Dichroism –
- Computational chemistry – use of numerical methods to probe the structure and dynamical equilibrium in biological systems.
- Cryobiology –
- Dual Polarisation Interferometry – analytical technique used to measure the real-time conformation and activity of a wide range of biomolecules and their interactions.
- Electrophysiology – studies electrical properties of cell membranes and provide functional data, often related to systematic changes in structure.
- Electron microscopy – used to gain high-resolution images of subcellular structures
- Fluorescence spectroscopy – for detecting structural rearrangements, as well as interactions of biomolecules. See also, Fluorescence.
- Force spectroscopy – probes the mechanical properties of individual molecules or macromolecular assemblies using small flexible cantilevers, focused laser light, or magnetic fields.
- Gel electrophoresis – determines the mass, the charge and the interactions of biological molecules
- Imaging –
- Isothermal Titration Calorimetry (ITC) – measures the heat effects caused by interactions
- Mass spectrometry – technique that gives the molecular mass with great accuracy.
- Microscale Thermophoresis (MST) – method to measure binding affinities, enzymatic activities, changes in molecule conformation and changes in size, charge or hydration entropy.
- Microscopy – used in many ways, for example, to enabled the use of laser instruments for scanning and transmission.
- Neuroimaging –
- Neutron spin echo spectroscopy –
- Optical tweezers and Magnetic tweezers – allow for the manipulation of single molecules, providing information about DNA and its interaction with proteins and molecular motors, such as Helicase and RNA polymerase.
- Patch clamping –
- NMR spectroscopy – provides information about the exact structure of biological molecules, as well as on dynamics
- Single molecule spectroscopy – general term applied to a class of techniques that are sensitive enough to detect single molecules and often incorporates fluorescence detection.
- Small angle X-ray scattering (SAXS) – technique that gives a rough low resolution molecular structure.
- Spectrophotometry – measurement of the transmission of light through different solutions or substances at different wavelengths of light.
- Spectroscopy &nd*Circular dichroism – method for detecting chiral groups in molecules, especially to determine the secondary structure of proteins
- Ultracentrifugation – gives information on the shape and mass of molecules
- X-ray crystallography – method to determin the exact structure of molecules with atomic resolution
Applications
Biophysical structures and phenomena
In molecular biophysics
In cellular biophysics
Biophysics organizations
Biophysics publications
Persons influential in biophysics
See also
References
External links
Outlines
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