Difference between revisions of "Osmosis"
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==Origin== | ==Origin== | ||
New Latin, short for ''endosmosis''. From the [[Greek]] words ένδον (''endon'' : within), έξο (''exo'' : outside), and ωσμος (''osmos'' : push, impulsion). | New Latin, short for ''endosmosis''. From the [[Greek]] words ένδον (''endon'' : within), έξο (''exo'' : outside), and ωσμος (''osmos'' : push, impulsion). | ||
| − | *[ | + | *[https://en.wikipedia.org/wiki/19th_century 1867] |
==Definitions== | ==Definitions== | ||
*1: movement of a solvent (as [[water]]) through a semipermeable membrane (as of a living [[cell]]) into a solution of higher solute [[concentration]] that tends to equalize the concentrations of solute on the two sides of the membrane | *1: movement of a solvent (as [[water]]) through a semipermeable membrane (as of a living [[cell]]) into a solution of higher solute [[concentration]] that tends to equalize the concentrations of solute on the two sides of the membrane | ||
*2: a [[process]] of [[absorption]] or [[diffusion]] suggestive of the [[flow]] of osmotic action; especially : a usually effortless often [[unconscious]] [[assimilation]] <learned a number of languages by osmosis — Roger Kimball> | *2: a [[process]] of [[absorption]] or [[diffusion]] suggestive of the [[flow]] of osmotic action; especially : a usually effortless often [[unconscious]] [[assimilation]] <learned a number of languages by osmosis — Roger Kimball> | ||
==Description== | ==Description== | ||
| − | '''Osmosis''' is the net movement of solvent [[molecules]] through a partially [ | + | '''Osmosis''' is the net movement of solvent [[molecules]] through a partially [https://en.wikipedia.org/wiki/Semipermeable_membrane permeable] membrane into a region of higher solute [[concentration]], in order to [[equalize]] the solute concentrations on the two sides. It may also be used to [[describe]] a [[physical]] [[process]] in which any solvent moves, without input of [[energy]], across a semipermeable membrane (permeable to the solvent, but not the solute) separating two solutions of different concentrations. Although osmosis does not require input of [[energy]], it does use [[kinetic energy]] and can be made to do work. |
| − | Net movement of solvent is from the less [[concentrated]] ([ | + | Net movement of solvent is from the less [[concentrated]] ([https://en.wikipedia.org/wiki/Tonicity#Hypotonicity hypotonic]) to the more concentrated ([https://en.wikipedia.org/wiki/Tonicity#Hypertonicity hypertonic]) solution, which tends to reduce the [[difference]] in [[concentrations]]. This [[effect]] can be countered by increasing the [[pressure]] of the hypertonic solution, with respect to the hypotonic. The [https://en.wikipedia.org/wiki/Osmotic_pressure osmotic pressure] is defined to be the [[pressure]] required to maintain an [[equilibrium]], with no net movement of solvent. Osmotic pressure is a [https://en.wikipedia.org/wiki/Colligative_properties colligative property], meaning that the osmotic pressure depends on the [https://en.wikipedia.org/wiki/Concentration#Molarity molar concentration] of the solute but not on its [[identity]]. |
| − | Osmosis is essential in [[biological]] systems, as [ | + | Osmosis is essential in [[biological]] systems, as [https://en.wikipedia.org/wiki/Biological_membrane biological membranes] are semipermeable. In general, these membranes are impermeable to large and polar [[molecules]], such as ions, proteins, and polysaccharides, while being permeable to non-polar and/or [https://en.wikipedia.org/wiki/Hydrophobic hydrophobic] molecules like lipids as well as to small molecules like oxygen, carbon dioxide, nitrogen, nitric oxide, etc. Permeability depends on solubility, charge, or [[chemistry]], as well as solute size. [[Water]] molecules travel through the plasma membrane, tonoplast membrane (vacuole) or protoplast by diffusing across the phospholipid bilayer via [https://en.wikipedia.org/wiki/Aquaporin aquaporins] (small transmembrane proteins similar to those in facilitated [[diffusion]] and in creating ion channels). Osmosis provides the primary means by which water is [[transported]] into and out of [[cells]]. The [https://en.wikipedia.org/wiki/Turgor turgor] pressure of a cell is largely maintained by osmosis, across the cell membrane, between the [[cell]] interior and its relatively hypotonic environment. |
| − | [ | + | [https://en.wikipedia.org/wiki/Jean-Antoine_Nollet Jean-Antoine Nollet] first documented observation of osmosis in 1748. The word "osmosis" descends from the words "endosmose" and "exosmose", which were coined by French physician [https://en.wikipedia.org/wiki/Henri_Dutrochet René Joachim Henri Dutrochet] (1776–1847) from the [[Greek]] words ένδον (endon : within), έξο (exo : outside), and ωσμος (osmos : push, impulsion). |
[[Category: Biology]] | [[Category: Biology]] | ||
Latest revision as of 01:30, 13 December 2020
Origin
New Latin, short for endosmosis. From the Greek words ένδον (endon : within), έξο (exo : outside), and ωσμος (osmos : push, impulsion).
Definitions
- 1: movement of a solvent (as water) through a semipermeable membrane (as of a living cell) into a solution of higher solute concentration that tends to equalize the concentrations of solute on the two sides of the membrane
- 2: a process of absorption or diffusion suggestive of the flow of osmotic action; especially : a usually effortless often unconscious assimilation <learned a number of languages by osmosis — Roger Kimball>
Description
Osmosis is the net movement of solvent molecules through a partially permeable membrane into a region of higher solute concentration, in order to equalize the solute concentrations on the two sides. It may also be used to describe a physical process in which any solvent moves, without input of energy, across a semipermeable membrane (permeable to the solvent, but not the solute) separating two solutions of different concentrations. Although osmosis does not require input of energy, it does use kinetic energy and can be made to do work.
Net movement of solvent is from the less concentrated (hypotonic) to the more concentrated (hypertonic) solution, which tends to reduce the difference in concentrations. This effect can be countered by increasing the pressure of the hypertonic solution, with respect to the hypotonic. The osmotic pressure is defined to be the pressure required to maintain an equilibrium, with no net movement of solvent. Osmotic pressure is a colligative property, meaning that the osmotic pressure depends on the molar concentration of the solute but not on its identity.
Osmosis is essential in biological systems, as biological membranes are semipermeable. In general, these membranes are impermeable to large and polar molecules, such as ions, proteins, and polysaccharides, while being permeable to non-polar and/or hydrophobic molecules like lipids as well as to small molecules like oxygen, carbon dioxide, nitrogen, nitric oxide, etc. Permeability depends on solubility, charge, or chemistry, as well as solute size. Water molecules travel through the plasma membrane, tonoplast membrane (vacuole) or protoplast by diffusing across the phospholipid bilayer via aquaporins (small transmembrane proteins similar to those in facilitated diffusion and in creating ion channels). Osmosis provides the primary means by which water is transported into and out of cells. The turgor pressure of a cell is largely maintained by osmosis, across the cell membrane, between the cell interior and its relatively hypotonic environment.
Jean-Antoine Nollet first documented observation of osmosis in 1748. The word "osmosis" descends from the words "endosmose" and "exosmose", which were coined by French physician René Joachim Henri Dutrochet (1776–1847) from the Greek words ένδον (endon : within), έξο (exo : outside), and ωσμος (osmos : push, impulsion).
