Biophysics

The study of the physical principles governing the behavior of biological systems.

Molecular biology: The study of biological activity at the molecular level, including the structure and function of proteins, DNA, RNA, and other biologically important molecules.

Biochemistry: The study of the chemical processes and substances that occur within living organisms, including enzymes, metabolism, and cellular respiration.

Cell biology: The study of cells, their structure, behavior, and function, including cell division, membrane transport, and signaling pathways.

Biomechanics: The study of the mechanical properties of living organisms, including movement, forces, and deformations.

Biomaterials: The study of materials that interact with biological systems, such as implants, prosthetics, and tissue engineering materials.

Biophysics: The application of physics principles to biological systems, including the study of forces, energy, and motion.

Structural biology: The study of the three-dimensional structure of biological molecules, including proteins, nucleic acids, and carbohydrates.

Immunology: The study of the immune system, including the recognition and elimination of pathogens and the role of immune cells in disease.

Genetics: The study of genes, their function, and their role in inherited traits and diseases.

Systems biology: The integration of different biological disciplines to study complex biological systems, including networks of genes, proteins, and cells.

Bioinformatics: The application of computational tools and methods to biological data, including the analysis of large-scale genomic and proteomic datasets.

Neurobiology: The study of the nervous system, including the structure and function of neurons, synapses, and neural circuits.

Biomedical engineering: The application of engineering principles to biology and medicine, including the design and development of medical devices and imaging techniques.

Pharmacology: The study of drugs and their effects on the body, including their mechanisms of action, pharmacokinetics, and therapeutic uses.

Physiology: The study of the function of living organisms and their parts, including the mechanisms of bodily functions, cellular metabolism, and homeostasis.

Structural biophysics: The study of the structure of biological molecules and their interactions with other molecules.

Computational biophysics: The use of computer simulations to study the behavior of biological molecules.

Single-molecule biophysics: The study of the behavior of individual molecules in real-time, often using techniques like fluorescence microscopy or force spectroscopy.

Protein biophysics: The study of the structure and function of proteins, including their folding, stability, and interactions with other molecules.

Membrane biophysics: The study of the structure and function of biological membranes, including their permeability and transport properties.

Cellular biophysics: The study of the physical properties of cells, including cell mechanics, adhesion, and transport processes.

Biomechanics: The study of the mechanics of biological systems and structures, including bones, muscles, and tissues.

Molecular dynamics: The study of the motion and interactions of molecules over time, often using computer simulations.

Photochemistry: The study of the chemical reactions that occur in biological molecules upon absorption of light.

Neurobiophysics: The study of physical processes in the nervous system, including the way neurons communicate with each other and how information is processed.

Pharmacology: The study of the effects of drugs on biological systems, including their interactions with specific molecular targets in cells.

Biomaterials: The study of the physical properties of materials used in medical implants, drug delivery systems, and tissue engineering.

Biosensors: The study of the design and use of sensors to detect biological molecules and cells.

Biophysics education: The teaching of biophysics and related subjects at all levels of education.

What is the definition of biophysics?

"Biophysics is an interdisciplinary science that applies approaches and methods traditionally used in physics to study biological phenomena."

What scales of biological organization does biophysics cover?

"Biophysics covers all scales of biological organization, from molecular to organismic and populations."

Which other scientific disciplines have significant overlap with biophysics?

"Biophysical research shares significant overlap with biochemistry, molecular biology, physical chemistry, physiology, nanotechnology, bioengineering, computational biology, biomechanics, developmental biology, and systems biology."

Who introduced the term biophysics and when?

"The term biophysics was originally introduced by Karl Pearson in 1892."

How is the term biophysics used in academia?

"The term biophysics is also regularly used in academia to indicate the study of the physical quantities in biological systems."

What are some examples of other biological sciences that perform research on the biophysical properties of living organisms?

"Other biological sciences also perform research on the biophysical properties of living organisms including molecular biology, cell biology, chemical biology, and biochemistry."

What is the aim of biophysics?

"To study biological phenomena through the application of physics approaches and methods."

What types of phenomena does biophysics investigate?

"Biophysics investigates biological phenomena at all scales of organization."

What are some areas of overlap between biophysics and other scientific disciplines?

"Biophysical research shares significant overlap with biochemistry, molecular biology, physical chemistry, physiology, nanotechnology, bioengineering, computational biology, biomechanics, developmental biology, and systems biology."

When was the term biophysics first introduced?

"The term biophysics was originally introduced by Karl Pearson in 1892."

What are the physical quantities studied in biophysical research?

"Biophysics is the study of the physical quantities (e.g. electric current, temperature, stress, entropy) in biological systems."

What are the different scales of biological organization covered by biophysics?

"Biophysics covers all scales of biological organization, from molecular to organismic and populations."

How does biophysics relate to biochemistry?

"Biophysics shares significant overlap with biochemistry."

What methods are traditionally used in physics that are applied in biophysics?

"Approaches and methods traditionally used in physics are applied in biophysics to study biological phenomena."

How does biophysics connect with nanotechnology?

"Biophysics shares significant overlap with nanotechnology."

What is the relationship between biophysics and computational biology?

"Biophysics shares significant overlap with computational biology."

What scientific disciplines study the biophysical properties of living organisms?

"Molecular biology, cell biology, chemical biology, and biochemistry perform research on the biophysical properties of living organisms."

What scientific discipline studies the physical properties of organisms?

"Biophysics studies the physical properties of organisms."

What are some subfields that contribute to biophysics?

"Physical chemistry, nanotechnology, bioengineering, and biomechanics are some subfields that contribute to biophysics research."

How would you describe the interdisciplinary nature of biophysics?

"Biophysics is an interdisciplinary science that applies approaches and methods traditionally used in physics to study biological phenomena."