fbpx
Wikipedia

Potassium in biology

February 15, 2024

Potassium is the main intracellular ion for all types of cells, while having a major role in maintenance of fluid and electrolyte balance.[1][2] Potassium is necessary for the function of all living cells, and is thus present in all plant and animal tissues. It is found in especially high concentrations within plant cells, and in a mixed diet, it is most highly concentrated in fruits. The high concentration of potassium in plants, associated with comparatively very low amounts of sodium there, historically resulted in potassium first being isolated from the ashes of plants (potash), which in turn gave the element its modern name. The high concentration of potassium in plants means that heavy crop production rapidly depletes soils of potassium, and agricultural fertilizers consume 93% of the potassium chemical production of the modern world economy.

The Sodium–potassium pump a critical enzyme for regulating Sodium and Potassium levels in cells

The functions of potassium and sodium in living organisms are quite different. Animals, in particular, employ sodium and potassium differentially to generate electrical potentials in animal cells, especially in nervous tissue. Potassium depletion in animals, including humans, results in various neurological dysfunctions. Characteristic concentrations of potassium in model organisms are: 30–300mM in E. coli, 300mM in budding yeast, 100mM in mammalian cell and 4mM in blood plasma.[3]

Function in plants edit

See also: Potassium deficiency (plants)

The main role of potassium in plants is to provide the ionic environment for metabolic processes in the cytosol, and as such functions as a regulator of various processes including growth regulation.[4] Plants require potassium ions (K+) for protein synthesis and for the opening and closing of stomata, which is regulated by proton pumps to make surrounding guard cells either turgid or flaccid. A deficiency of potassium ions can impair a plant's ability to maintain these processes. Potassium also functions in other physiological processes such as photosynthesis, protein synthesis, activation of some enzymes, phloem solute transport of photoassimilates into source organs, and maintenance of cation:anion balance in the cytosol and vacuole.[5]

Function in animals edit

Potassium is the major cation (K+, a positive ion) inside animal cells, while sodium (Na+) is the major cation outside animal cells. The difference between the concentrations of these charged particles causes a difference in electric potential between the inside and outside of cells, known as the membrane potential. The balance between potassium and sodium is maintained by ion transporters in the cell membrane. All potassium ion channels are tetramers with several conserved secondary structural elements. A number of potassium channel structures have been solved including voltage gated,[6][7][8] ligand gated,[9][10][11][12][13] tandem-pore,[14][15][16] and inwardly rectifying channels,[17][18][19][20][21] from prokaryotes and eukaryotes. The cell membrane potential created by potassium and sodium ions allows the cell to generate an action potential—a "spike" of electrical discharge. The ability of cells to produce electrical discharge is critical for body functions such as neurotransmission, muscle contraction, and heart function.[22]

Dietary recommendations edit

The U.S. National Academy of Medicine (NAM), on behalf of both the U.S. and Canada, sets Dietary Reference Intakes, including Estimated Average Requirements (EARs) and Recommended Dietary Allowances (RDAs), or Adequate Intakes (AIs) for when there is not sufficient information to set EARs and RDAs.

For both males and females under 9 years of age, the AIs for potassium are: 400 mg of potassium for 0 to 6-month-old infants, 860 mg of potassium for 7 to 12-month-old infants, 2,000 mg of potassium for 1 to 3-year-old children, and 2,300 mg of potassium for 4 to 8-year-old children.

For males 9 years of age and older, the AIs for potassium are: 2,500 mg of potassium for 9 to 13-year-old males, 3,000 mg of potassium for 14 to 18-year-old males, and 3,400 mg for males that are 19 years of age and older.

For females 9 years of age and older, the AIs for potassium are: 2,300 mg of potassium for 9 to 18-year-old females, and 2,600 mg of potassium for females that are 19 years of age and older.

For pregnant and lactating females, the AIs for potassium are: 2,600 mg of potassium for 14 to 18-year-old pregnant females, 2,900 mg for pregnant females that are 19 years of age and older; furthermore, 2,500 mg of potassium for 14 to 18-year-old lactating females, and 2,800 mg for lactating females that are 19 years of age and older. As for safety, the NAM also sets tolerable upper intake levels (ULs) for vitamins and minerals, but for potassium the evidence was insufficient, so no UL was established.[23][24]

In 2019, the National Academies of Sciences, Engineering, and Medicine revised the Adequate Intake for potassium to 2,600 mg/day for females 19 years of age and older who are not pregnant or lactating, and 3,400 mg/day for males 19 years of age and older.[25][26]

The European Food Safety Authority (EFSA) refers to the collective set of information as Dietary Reference Values, with Population Reference Intake (PRI) instead of RDA, and Average Requirement instead of EAR. AI and UL defined the same as in United States. For people ages 15 and older the AI is set at 3,500 mg/day. AIs for pregnancy is 3,500 mg/day, for lactation 4,000 mg/day. For children ages 1–14 years the AIs increase with age from 800 to 2,700 mg/day. These AIs are lower than the U.S. RDAs.[27] The EFSA reviewed the same safety question and decided that there was insufficient data to establish a UL for potassium.[28]

Labeling edit

For U.S. food and dietary supplement labeling purposes the amount in a serving is expressed as a percent of Daily Value (%DV). For potassium labeling purposes 100% of the Daily Value was 3500 mg, but as of May 2016, it has been revised to 4700 mg.[29][30] A table of the old and new adult Daily Values is provided at Reference Daily Intake.

Supplements edit

20 mEq (781 mg) potassium from potassium gluconate (4680 mg), or potassium citrate (2040 mg), mixed a half-cup (1.12 dL) water, taken two to four times a day, may be used on daily basis.[31][32]

Labeling edit

Because of the risk of small-bowel lesions, the US FDA requires some potassium salts (for example potassium chloride) containing more than 99 mg (about 1.3 mEq) to be labeled with a warning.[33]

Food sources edit

Eating a variety of foods that contain potassium is the best way to get an adequate amount. Foods with high sources of potassium include kiwifruit, orange juice, potatoes, coconut, avocados, apricots, parsnips and turnips, although many other fruits, vegetables, legumes, and meats contain potassium.

Common foods very high in potassium:[34]

  • beans (white beans and others)
  • dark leafy greens (spinach, Swiss chard, and others)
  • baked potatoes
  • dried fruit (apricots, peaches, prunes, raisins; figs and dates)
  • baked squash
  • yogurt
  • fish (salmon)
  • avocado
  • nuts (pistachios, almonds, walnuts, etc.)
  • seeds (squash, pumpkin, sunflower)

Foods containing the highest concentration:[34]

  • dried herbs
  • sun dried tomatoes
  • cocoa solids[35]
  • whey powder
  • paprika
  • yeast extract
  • rice bran
  • molasses
  • dry roasted soybeans

Deficiency edit

High blood pressure/Hypertension edit

Diets low in potassium increase risk of hypertension, stroke and cardiovascular disease.[36][37]

Hypokalemia edit

A severe shortage of potassium in body fluids may cause a potentially fatal condition known as hypokalemia. Hypokalemia typically results from loss of potassium through diarrhea, diuresis, or vomiting. Symptoms are related to alterations in membrane potential and cellular metabolism. Symptoms include muscle weakness and cramps, paralytic ileus, ECG abnormalities, intestinal paralysis, decreased reflex response and (in severe cases) respiratory paralysis, alkalosis and arrhythmia.

In rare cases, habitual consumption of large amounts of black licorice has resulted in hypokalemia. Licorice contains a compound (Glycyrrhizin) that increases urinary excretion of potassium.[38]

Insufficient intake edit

Adult women in the United States consume on average half the AI, for men two-thirds. For all adults, fewer than 5% exceed the AI.[39] Similarly, in the European Union, insufficient potassium intake is widespread.[40]

Side effects and toxicity edit

Gastrointestinal symptoms are the most common side effects of potassium supplements, including nausea, vomiting, abdominal discomfort, and diarrhea. Taking potassium with meals or taking a microencapsulated form of potassium may reduce gastrointestinal side effects.

Hyperkalemia is the most serious adverse reaction to potassium. Hyperkalemia occurs when potassium builds up faster than the kidneys can remove it. It is most common in individuals with renal failure. Symptoms of hyperkalemia may include tingling of the hands and feet, muscular weakness, and temporary paralysis. The most serious complication of hyperkalemia is the development of an abnormal heart rhythm (arrhythmia), which can lead to cardiac arrest.

Although hyperkalemia is rare in healthy individuals, oral doses greater than 18 grams taken at one time in individuals not accustomed to high intakes can lead to hyperkalemia.

See also edit

References edit

  1. ^ Pohl, Hanna R.; Wheeler, John S.; Murray, H. Edward (2013). "Chapter 2. Sodium and Potassium in Health and Disease". In Astrid Sigel, Helmut Sigel and Roland K. O. Sigel (ed.). Interrelations between Essential Metal Ions and Human Diseases. Metal Ions in Life Sciences. Vol. 13. Springer. pp. 29–47. doi:10.1007/978-94-007-7500-8_2. PMID 24470088.
  2. ^ *Clausen, Michael Jakob Voldsgaard; Poulsen, Hanne (2013). "Sodium/Potassium Homeostasis in the Cell". In Banci, Lucia (ed.). Metallomics and the Cell. Metal Ions in Life Sciences. Vol. 12. Springer. pp. 41–67. doi:10.1007/978-94-007-5561-1_3. ISBN 978-94-007-5560-4. PMID 23595670. electronic-book ISBN 978-94-007-5561-1 ISSN 1559-0836 electronic-ISSN 1868-0402
  3. ^ Milo, Ron; Philips, Rob. "Cell Biology by the Numbers: What are the concentrations of different ions in cells?". book.bionumbers.org. from the original on 20 April 2017. Retrieved 23 March 2017.
  4. ^ Leigh, R. A.; Wyn Jones, R. G. (1984). "A Hypothesis Relating Critical Potassium Concentrations for Growth to the Distribution and Functions of This Ion in the Plant Cell" (PDF). New Phytologist. 97 (1): 1–13. doi:10.1111/j.1469-8137.1984.tb04103.x. JSTOR 2434189.
  5. ^ Hopkins, W.G. and Huner, N.P.A. Introduction to Plant Physiology 4th edition
  6. ^ Santoss JS, Asmar-Rovira GA, Han GW, Liu W, Syeda R, Cherezov V, Baker KA, Stevens RC, Montal M (Dec 2012). "Crystal structure of a voltage-gateds K+ channel pore module in a closed state in lipid membranes". J Biol Chem. 287 (51): 43063–70. doi:10.1074/jbc.M112.415091. PMC 3522301. PMID 23095758.
  7. ^ Long SB, Campbell EB, Mackinnon R (August 2005). "Crystal structure of a mammalian voltage-dependent Shaker family K+ channel". Science. 309 (5736): 897–903. Bibcode:2005Sci...309..897L. doi:10.1126/science.1116269. PMID 16002581. S2CID 6072007.
  8. ^ Jiang Y, Lee A, Chen J, et al. (May 2003). "X-ray structure of a voltage-dependent K+ channel". Nature. 423 (6935): 33–41. Bibcode:2003Natur.423...33J. doi:10.1038/nature01580. PMID 12721618. S2CID 4347957.
  9. ^ Jiang Y, Lee A, Chen J, Cadene M, Chait BT, MacKinnon R (May 2002). "Crystal structure and mechanism of a calcium-gated potassium channel". Nature. 417 (6888): 515–22. Bibcode:2002Natur.417..515J. doi:10.1038/417515a. PMID 12037559. S2CID 205029269.
  10. ^ Yuan P, Leonetti MD, Pico AR, Hsiung Y, MacKinnon R (July 2010). "Structure of the human BK channel Ca2+-activation apparatus at 3.0 A resolution". Science. 329 (5988): 182–6. Bibcode:2010Sci...329..182Y. doi:10.1126/science.1190414. PMC 3022345. PMID 20508092.
  11. ^ Wu Y, Yang Y, Ye S, Jiang Y (July 2010). "Structure of the gating ring from the human large-conductance Ca(2+)-gated K(+) channel". Nature. 466 (7304): 393–7. doi:10.1038/nature09252. PMC 2910425. PMID 20574420.
  12. ^ Leonetti MD, Yuan P, Hsiung Y, Mackinnon R (Nov 2012). "Functional and structural analysis of the human SLO3 pH- and voltage-gated K+ channel". Proc Natl Acad Sci U S A. 109 (47): 19274–9. Bibcode:2012PNAS..10919274L. doi:10.1073/pnas.1215078109. PMC 3511096. PMID 23129643.
  13. ^ Kong C, Zeng W, Ye S, Chen L, Sauer DB, Lam Y, Derebe MG, Jiang Y (2012). "Distinct gating mechanisms revealed by the structures of a multi-ligand gated K(+) channel". eLife. 1: e00184. doi:10.7554/eLife.00184. PMC 3510474. PMID 23240087.
  14. ^ Brohawn SG, del Mármol J, MacKinnon R (January 2012). "Crystal structure of the human K2P TRAAK, a lipid- and mechano-sensitive K+ ion channel". Science. 335 (6067): 4s36–41. Bibcode:2012Sci...335..436B. doi:10.1126/science.1213808. PMC 3329120. PMID 22282805.
  15. ^ Miller AN, Long SB (January 2012). "Crystal structure of the human two-pore domain potassium channel K2P1". Science. 335 (6067): 432–6. Bibcode:2012Sci...335..432M. doi:10.1126/science.1213274. PMID 22282804. S2CID 206537279.
  16. ^ Dong YY, Pike AC, Mackenzie A, McClenaghan C, Aryal P, Dong L, Quigley A, Grieben M, Goubin S, Mukhopadhyay S, Ruda GF, Clausen MV, Cao L, Brennan PE, Burgess-Brown NA, Sansom MS, Tucker SJ, Carpenter EP (Mar 2015). "K2P channel gating mechanisms revealed by structures of TREK-2 and a complex with Prozac". Science. 347 (6227): 1256–9. Bibcode:2015Sci...347.1256D. doi:10.1126/science.1261512. PMC 6034649. PMID 25766236.
  17. ^ Clarke OB, Caputo AT, Hill AP, Vandenberg JI, Smith BJ, Gulbis JM (Jun 2010). "Domain reorientation and rotation of an intracellular assembly regulate conduction in Kir potassium channels". Cell. 141 (6): 1018–29. doi:10.1016/j.cell.2010.05.003. PMID 20564790. S2CID 14484301.
  18. ^ Kuo A, Gulbis JM, Antcliff JF, Rahman T, Lowe ED, Zimmer J, Cuthbertson J, Ashcroft FM, Ezaki T, Doyle DA (Jun 2003). "Crysstal structure of the potassium channel KirBac1.1 in the closed state". Science. 300 (5627): 1922–6. Bibcode:2003Sci...300.1922K. doi:10.1126/science.1085028. PMID 12738871. S2CID 2703162.
  19. ^ Whorton MR, MacKinnon R (Sep 2011). "Crystal structures of the mammalian GIRK2 K+ channel and gating regulation by G proteins, PIP2, and sodium". Cell. 147 (1): 199–208. doi:10.1016/j.cell.2011.07.046. PMC 3243363. PMID 21962516.
  20. ^ Nishida M, MacKinnon R (Dec 2002). "Structural basis of inward rectification: cytoplasmic pore of the G protein-gated inward rectifier GIRK1 at 1.8 A resolution". Cell. 111 (7): 957–65. doi:10.1016/S0092-8674(02)01227-8. PMID 12507423. S2CID 15788511.
  21. ^ Tao X, Avalos JL, Chen J, MacKinnon R (Dec 2009). "Crystal structure of the eukaryotic strong inward-rectifier K+ channel Kir2.2 at 3.1 A resolution". Science. 326 (5960): 1668–74. Bibcode:2009Sci...326.1668T. doi:10.1126/science.1180310. PMC 2819303. PMID 20019282.
  22. ^ Mikko Hellgren; Lars Sandberg; Olle Edholm (2006). "A comparison between two prokaryotic potassium channels (KirBac1.1 and KcsA) in a molecular dynamics (MD) simulation study". Biophys. Chem. 120 (1): 1–9. doi:10.1016/j.bpc.2005.10.002. PMID 16253415.
  23. ^ National Academies of Sciences, Engineering and Medicine (2019). "Potassium: Dietary Reference Intakes for Adequacy". In Stallings, Virginia A; Harrison, Meghan; Oria, Maria (eds.). Dietary Reference Intakes for Sodium and Potassium. Washington, DC: The National Academies Press. doi:10.17226/25353. ISBN 978-0-309-48834-1. PMID 30844154.
  24. ^ Stallings, Virginia A; Harrison, Meghan; Oria, Maria, eds. (March 5, 2019). Dietary Reference Intakes for Sodium and Potassium – Publication. National Academies of Sciences, Engineering and Medicine. doi:10.17226/25353. ISBN 978-0-309-48834-1. PMID 30844154. S2CID 104464967. Retrieved May 13, 2019. {{cite book}}: |website= ignored (help)
  25. ^ "Sodium and Potassium Dietary Reference Intake Values Updated in New Report; Introduces New Category for Sodium Based on Chronic Disease Risk Reduction" (Press release). National Academies of Sciences, Engineering, and Medicine. 5 March 2019. Retrieved 29 January 2022.
  26. ^ National Academies of Sciences, Engineering, and Medicine; Health and Medicine Division; Food and Nutrition Board; Committee to Review the Dietary Reference Intakes for Sodium and Potassium (March 2019). Oria M, Harrison M, Stallings VA (eds.). Dietary Reference Intakes for Sodium and Potassium. National Academies Press. doi:10.17226/25353. ISBN 978-0-309-48834-1. PMID 30844154. S2CID 104464967. Bookshelf ID: NBK538102. Retrieved 13 November 2022.
  27. ^ "Overview on Dietary Reference Values for the EU population as derived by the EFSA Panel on Dietetic Products, Nutrition and Allergies" (PDF). 2017. (PDF) from the original on 2017-08-28.
  28. ^ Tolerable Upper Intake Levels For Vitamins And Minerals (PDF), European Food Safety Authority, 2006, (PDF) from the original on 2016-03-16
  29. ^ "Federal Register May 27, 2016 Food Labeling: Revision of the Nutrition and Supplement Facts Labels. FR page 33982" (PDF). (PDF) from the original on August 8, 2016.
  30. ^ "Daily Value Reference of the Dietary Supplement Label Database (DSLD)". Dietary Supplement Label Database (DSLD). Retrieved 16 May 2020.
  31. ^ "Potassium Supplement (Oral Route, Parenteral Route) Proper Use - Mayo Clinic". www.mayoclinic.org.
  32. ^ "NCATS Inxight Drugs — POTASSIUM GLUCONATE". drugs.ncats.io.
  33. ^ "Office of Dietary Supplements - Potassium". ods.od.nih.gov.
  34. ^ a b "Top 10 Foods Highest in Potassium + One Page Printable". myfooddata. from the original on 2014-09-11.
  35. ^ "FoodData Central". fdc.nal.usda.gov.
  36. ^ Aburto NJ, Hanson S, Gutierrez H, Hooper L, Elliott P, Cappuccio FP (2013). "Effect of increased potassium intake on cardiovascular risk factors and disease: systematic review and meta-analyses". BMJ. 346: f1378. doi:10.1136/bmj.f1378. PMC 4816263. PMID 23558164.
  37. ^ D'Elia L, Barba G, Cappuccio FP, Strazzullo P (2011). "Potassium intake, stroke, and cardiovascular disease a meta-analysis of prospective studies". J. Am. Coll. Cardiol. 57 (10): 1210–9. doi:10.1016/j.jacc.2010.09.070. PMID 21371638.
  38. ^ Mumoli N, Cei M (2008). "Licorice-induced hypokalemia". Int. J. Cardiol. 124 (3): e42–4. doi:10.1016/j.ijcard.2006.11.190. PMID 17320224.
  39. ^ What We Eat In America, NHANES 2013-2014 2017-02-24 at the Wayback Machine.
  40. ^ "Archived copy" (PDF). (PDF) from the original on 2011-07-13. Retrieved 2007-01-30.{{cite web}}: CS1 maint: archived copy as title (link) Energy and Nutrient Intake in the European Union

Further reading edit

  • "Potassium Health Professional Fact Sheet". NIH Office of Dietary Supplements. 3 April 2020.

External links edit

  • "Potassium". Drug Information Portal. U.S. National Library of Medicine.
  • Brooks/Cole publishers – Sodium Potassium pump
  • Oregon State University – Micronutrient Information Center
  • Potassium at Lab Tests Online
  • Potassium: analyte monograph - the Association for Clinical Biochemistry and Laboratory Medicine.

February 15, 2024
potassium, biology, potassium, main, intracellular, types, cells, while, having, major, role, maintenance, fluid, electrolyte, balance, potassium, necessary, function, living, cells, thus, present, plant, animal, tissues, found, especially, high, concentration. Potassium is the main intracellular ion for all types of cells while having a major role in maintenance of fluid and electrolyte balance 1 2 Potassium is necessary for the function of all living cells and is thus present in all plant and animal tissues It is found in especially high concentrations within plant cells and in a mixed diet it is most highly concentrated in fruits The high concentration of potassium in plants associated with comparatively very low amounts of sodium there historically resulted in potassium first being isolated from the ashes of plants potash which in turn gave the element its modern name The high concentration of potassium in plants means that heavy crop production rapidly depletes soils of potassium and agricultural fertilizers consume 93 of the potassium chemical production of the modern world economy The Sodium potassium pump a critical enzyme for regulating Sodium and Potassium levels in cellsThe functions of potassium and sodium in living organisms are quite different Animals in particular employ sodium and potassium differentially to generate electrical potentials in animal cells especially in nervous tissue Potassium depletion in animals including humans results in various neurological dysfunctions Characteristic concentrations of potassium in model organisms are 30 300mM in E coli 300mM in budding yeast 100mM in mammalian cell and 4mM in blood plasma 3 Contents 1 Function in plants 2 Function in animals 3 Dietary recommendations 3 1 Labeling 4 Supplements 4 1 Labeling 5 Food sources 6 Deficiency 6 1 High blood pressure Hypertension 6 2 Hypokalemia 6 3 Insufficient intake 7 Side effects and toxicity 8 See also 9 References 10 Further reading 11 External linksFunction in plants editSee also Potassium deficiency plants The main role of potassium in plants is to provide the ionic environment for metabolic processes in the cytosol and as such functions as a regulator of various processes including growth regulation 4 Plants require potassium ions K for protein synthesis and for the opening and closing of stomata which is regulated by proton pumps to make surrounding guard cells either turgid or flaccid A deficiency of potassium ions can impair a plant s ability to maintain these processes Potassium also functions in other physiological processes such as photosynthesis protein synthesis activation of some enzymes phloem solute transport of photoassimilates into source organs and maintenance of cation anion balance in the cytosol and vacuole 5 Function in animals editPotassium is the major cation K a positive ion inside animal cells while sodium Na is the major cation outside animal cells The difference between the concentrations of these charged particles causes a difference in electric potential between the inside and outside of cells known as the membrane potential The balance between potassium and sodium is maintained by ion transporters in the cell membrane All potassium ion channels are tetramers with several conserved secondary structural elements A number of potassium channel structures have been solved including voltage gated 6 7 8 ligand gated 9 10 11 12 13 tandem pore 14 15 16 and inwardly rectifying channels 17 18 19 20 21 from prokaryotes and eukaryotes The cell membrane potential created by potassium and sodium ions allows the cell to generate an action potential a spike of electrical discharge The ability of cells to produce electrical discharge is critical for body functions such as neurotransmission muscle contraction and heart function 22 Dietary recommendations editThe U S National Academy of Medicine NAM on behalf of both the U S and Canada sets Dietary Reference Intakes including Estimated Average Requirements EARs and Recommended Dietary Allowances RDAs or Adequate Intakes AIs for when there is not sufficient information to set EARs and RDAs For both males and females under 9 years of age the AIs for potassium are 400 mg of potassium for 0 to 6 month old infants 860 mg of potassium for 7 to 12 month old infants 2 000 mg of potassium for 1 to 3 year old children and 2 300 mg of potassium for 4 to 8 year old children For males 9 years of age and older the AIs for potassium are 2 500 mg of potassium for 9 to 13 year old males 3 000 mg of potassium for 14 to 18 year old males and 3 400 mg for males that are 19 years of age and older For females 9 years of age and older the AIs for potassium are 2 300 mg of potassium for 9 to 18 year old females and 2 600 mg of potassium for females that are 19 years of age and older For pregnant and lactating females the AIs for potassium are 2 600 mg of potassium for 14 to 18 year old pregnant females 2 900 mg for pregnant females that are 19 years of age and older furthermore 2 500 mg of potassium for 14 to 18 year old lactating females and 2 800 mg for lactating females that are 19 years of age and older As for safety the NAM also sets tolerable upper intake levels ULs for vitamins and minerals but for potassium the evidence was insufficient so no UL was established 23 24 In 2019 the National Academies of Sciences Engineering and Medicine revised the Adequate Intake for potassium to 2 600 mg day for females 19 years of age and older who are not pregnant or lactating and 3 400 mg day for males 19 years of age and older 25 26 The European Food Safety Authority EFSA refers to the collective set of information as Dietary Reference Values with Population Reference Intake PRI instead of RDA and Average Requirement instead of EAR AI and UL defined the same as in United States For people ages 15 and older the AI is set at 3 500 mg day AIs for pregnancy is 3 500 mg day for lactation 4 000 mg day For children ages 1 14 years the AIs increase with age from 800 to 2 700 mg day These AIs are lower than the U S RDAs 27 The EFSA reviewed the same safety question and decided that there was insufficient data to establish a UL for potassium 28 Labeling edit For U S food and dietary supplement labeling purposes the amount in a serving is expressed as a percent of Daily Value DV For potassium labeling purposes 100 of the Daily Value was 3500 mg but as of May 2016 it has been revised to 4700 mg 29 30 A table of the old and new adult Daily Values is provided at Reference Daily Intake Supplements edit20 mEq 781 mg potassium from potassium gluconate 4680 mg or potassium citrate 2040 mg mixed a half cup 1 12 dL water taken two to four times a day may be used on daily basis 31 32 Labeling edit Because of the risk of small bowel lesions the US FDA requires some potassium salts for example potassium chloride containing more than 99 mg about 1 3 mEq to be labeled with a warning 33 Food sources editEating a variety of foods that contain potassium is the best way to get an adequate amount Foods with high sources of potassium include kiwifruit orange juice potatoes coconut avocados apricots parsnips and turnips although many other fruits vegetables legumes and meats contain potassium Common foods very high in potassium 34 beans white beans and others dark leafy greens spinach Swiss chard and others baked potatoes dried fruit apricots peaches prunes raisins figs and dates baked squash yogurt fish salmon avocado nuts pistachios almonds walnuts etc seeds squash pumpkin sunflower Foods containing the highest concentration 34 dried herbs sun dried tomatoes cocoa solids 35 whey powder paprika yeast extract rice bran molasses dry roasted soybeansDeficiency editHigh blood pressure Hypertension edit Diets low in potassium increase risk of hypertension stroke and cardiovascular disease 36 37 Hypokalemia edit A severe shortage of potassium in body fluids may cause a potentially fatal condition known as hypokalemia Hypokalemia typically results from loss of potassium through diarrhea diuresis or vomiting Symptoms are related to alterations in membrane potential and cellular metabolism Symptoms include muscle weakness and cramps paralytic ileus ECG abnormalities intestinal paralysis decreased reflex response and in severe cases respiratory paralysis alkalosis and arrhythmia In rare cases habitual consumption of large amounts of black licorice has resulted in hypokalemia Licorice contains a compound Glycyrrhizin that increases urinary excretion of potassium 38 Insufficient intake edit Adult women in the United States consume on average half the AI for men two thirds For all adults fewer than 5 exceed the AI 39 Similarly in the European Union insufficient potassium intake is widespread 40 Side effects and toxicity editGastrointestinal symptoms are the most common side effects of potassium supplements including nausea vomiting abdominal discomfort and diarrhea Taking potassium with meals or taking a microencapsulated form of potassium may reduce gastrointestinal side effects Hyperkalemia is the most serious adverse reaction to potassium Hyperkalemia occurs when potassium builds up faster than the kidneys can remove it It is most common in individuals with renal failure Symptoms of hyperkalemia may include tingling of the hands and feet muscular weakness and temporary paralysis The most serious complication of hyperkalemia is the development of an abnormal heart rhythm arrhythmia which can lead to cardiac arrest Although hyperkalemia is rare in healthy individuals oral doses greater than 18 grams taken at one time in individuals not accustomed to high intakes can lead to hyperkalemia See also editBiology and pharmacology of chemical elements Action potential Neuron communication by electric impulses Calcium in biology Use of calcium by organisms Electrolyte Ionic solids whose dissociation in water free up ions carrying the electrical current in solution Iodine in biology Use of Iodine by organisms Magnesium in biology Use of Magnesium by organisms Membrane potential Type of physical quantity Selenium in biology Use of Selenium by organisms Sodium in biology Use of Sodium by organismsReferences edit Pohl Hanna R Wheeler John S Murray H Edward 2013 Chapter 2 Sodium and Potassium in Health and Disease In Astrid Sigel Helmut Sigel and Roland K O Sigel ed Interrelations between Essential Metal Ions and Human Diseases Metal Ions in Life Sciences Vol 13 Springer pp 29 47 doi 10 1007 978 94 007 7500 8 2 PMID 24470088 Clausen Michael Jakob Voldsgaard Poulsen Hanne 2013 Sodium Potassium Homeostasis in the Cell In Banci Lucia ed Metallomics and the Cell Metal Ions in Life Sciences Vol 12 Springer pp 41 67 doi 10 1007 978 94 007 5561 1 3 ISBN 978 94 007 5560 4 PMID 23595670 electronic book ISBN 978 94 007 5561 1 ISSN 1559 0836 electronic ISSN 1868 0402 Milo Ron Philips Rob Cell Biology by the Numbers What are the concentrations of different ions in cells book bionumbers org Archived from the original on 20 April 2017 Retrieved 23 March 2017 Leigh R A Wyn Jones R G 1984 A Hypothesis Relating Critical Potassium Concentrations for Growth to the Distribution and Functions of This Ion in the Plant Cell PDF New Phytologist 97 1 1 13 doi 10 1111 j 1469 8137 1984 tb04103 x JSTOR 2434189 Hopkins W G and Huner N P A Introduction to Plant Physiology 4th edition Santoss JS Asmar Rovira GA Han GW Liu W Syeda R Cherezov V Baker KA Stevens RC Montal M Dec 2012 Crystal structure of a voltage gateds K channel pore module in a closed state in lipid membranes J Biol Chem 287 51 43063 70 doi 10 1074 jbc M112 415091 PMC 3522301 PMID 23095758 Long SB Campbell EB Mackinnon R August 2005 Crystal structure of a mammalian voltage dependent Shaker family K channel Science 309 5736 897 903 Bibcode 2005Sci 309 897L doi 10 1126 science 1116269 PMID 16002581 S2CID 6072007 Jiang Y Lee A Chen J et al May 2003 X ray structure of a voltage dependent K channel Nature 423 6935 33 41 Bibcode 2003Natur 423 33J doi 10 1038 nature01580 PMID 12721618 S2CID 4347957 Jiang Y Lee A Chen J Cadene M Chait BT MacKinnon R May 2002 Crystal structure and mechanism of a calcium gated potassium channel Nature 417 6888 515 22 Bibcode 2002Natur 417 515J doi 10 1038 417515a PMID 12037559 S2CID 205029269 Yuan P Leonetti MD Pico AR Hsiung Y MacKinnon R July 2010 Structure of the human BK channel Ca2 activation apparatus at 3 0 A resolution Science 329 5988 182 6 Bibcode 2010Sci 329 182Y doi 10 1126 science 1190414 PMC 3022345 PMID 20508092 Wu Y Yang Y Ye S Jiang Y July 2010 Structure of the gating ring from the human large conductance Ca 2 gated K channel Nature 466 7304 393 7 doi 10 1038 nature09252 PMC 2910425 PMID 20574420 Leonetti MD Yuan P Hsiung Y Mackinnon R Nov 2012 Functional and structural analysis of the human SLO3 pH and voltage gated K channel Proc Natl Acad Sci U S A 109 47 19274 9 Bibcode 2012PNAS 10919274L doi 10 1073 pnas 1215078109 PMC 3511096 PMID 23129643 Kong C Zeng W Ye S Chen L Sauer DB Lam Y Derebe MG Jiang Y 2012 Distinct gating mechanisms revealed by the structures of a multi ligand gated K channel eLife 1 e00184 doi 10 7554 eLife 00184 PMC 3510474 PMID 23240087 Brohawn SG del Marmol J MacKinnon R January 2012 Crystal structure of the human K2P TRAAK a lipid and mechano sensitive K ion channel Science 335 6067 4s36 41 Bibcode 2012Sci 335 436B doi 10 1126 science 1213808 PMC 3329120 PMID 22282805 Miller AN Long SB January 2012 Crystal structure of the human two pore domain potassium channel K2P1 Science 335 6067 432 6 Bibcode 2012Sci 335 432M doi 10 1126 science 1213274 PMID 22282804 S2CID 206537279 Dong YY Pike AC Mackenzie A McClenaghan C Aryal P Dong L Quigley A Grieben M Goubin S Mukhopadhyay S Ruda GF Clausen MV Cao L Brennan PE Burgess Brown NA Sansom MS Tucker SJ Carpenter EP Mar 2015 K2P channel gating mechanisms revealed by structures of TREK 2 and a complex with Prozac Science 347 6227 1256 9 Bibcode 2015Sci 347 1256D doi 10 1126 science 1261512 PMC 6034649 PMID 25766236 Clarke OB Caputo AT Hill AP Vandenberg JI Smith BJ Gulbis JM Jun 2010 Domain reorientation and rotation of an intracellular assembly regulate conduction in Kir potassium channels Cell 141 6 1018 29 doi 10 1016 j cell 2010 05 003 PMID 20564790 S2CID 14484301 Kuo A Gulbis JM Antcliff JF Rahman T Lowe ED Zimmer J Cuthbertson J Ashcroft FM Ezaki T Doyle DA Jun 2003 Crysstal structure of the potassium channel KirBac1 1 in the closed state Science 300 5627 1922 6 Bibcode 2003Sci 300 1922K doi 10 1126 science 1085028 PMID 12738871 S2CID 2703162 Whorton MR MacKinnon R Sep 2011 Crystal structures of the mammalian GIRK2 K channel and gating regulation by G proteins PIP2 and sodium Cell 147 1 199 208 doi 10 1016 j cell 2011 07 046 PMC 3243363 PMID 21962516 Nishida M MacKinnon R Dec 2002 Structural basis of inward rectification cytoplasmic pore of the G protein gated inward rectifier GIRK1 at 1 8 A resolution Cell 111 7 957 65 doi 10 1016 S0092 8674 02 01227 8 PMID 12507423 S2CID 15788511 Tao X Avalos JL Chen J MacKinnon R Dec 2009 Crystal structure of the eukaryotic strong inward rectifier K channel Kir2 2 at 3 1 A resolution Science 326 5960 1668 74 Bibcode 2009Sci 326 1668T doi 10 1126 science 1180310 PMC 2819303 PMID 20019282 Mikko Hellgren Lars Sandberg Olle Edholm 2006 A comparison between two prokaryotic potassium channels KirBac1 1 and KcsA in a molecular dynamics MD simulation study Biophys Chem 120 1 1 9 doi 10 1016 j bpc 2005 10 002 PMID 16253415 National Academies of Sciences Engineering and Medicine 2019 Potassium Dietary Reference Intakes for Adequacy In Stallings Virginia A Harrison Meghan Oria Maria eds Dietary Reference Intakes for Sodium and Potassium Washington DC The National Academies Press doi 10 17226 25353 ISBN 978 0 309 48834 1 PMID 30844154 Stallings Virginia A Harrison Meghan Oria Maria eds March 5 2019 Dietary Reference Intakes for Sodium and Potassium Publication National Academies of Sciences Engineering and Medicine doi 10 17226 25353 ISBN 978 0 309 48834 1 PMID 30844154 S2CID 104464967 Retrieved May 13 2019 a href Template Cite book html title Template Cite book cite book a website ignored help Sodium and Potassium Dietary Reference Intake Values Updated in New Report Introduces New Category for Sodium Based on Chronic Disease Risk Reduction Press release National Academies of Sciences Engineering and Medicine 5 March 2019 Retrieved 29 January 2022 National Academies of Sciences Engineering and Medicine Health and Medicine Division Food and Nutrition Board Committee to Review the Dietary Reference Intakes for Sodium and Potassium March 2019 Oria M Harrison M Stallings VA eds Dietary Reference Intakes for Sodium and Potassium National Academies Press doi 10 17226 25353 ISBN 978 0 309 48834 1 PMID 30844154 S2CID 104464967 Bookshelf ID NBK538102 Retrieved 13 November 2022 Overview on Dietary Reference Values for the EU population as derived by the EFSA Panel on Dietetic Products Nutrition and Allergies PDF 2017 Archived PDF from the original on 2017 08 28 Tolerable Upper Intake Levels For Vitamins And Minerals PDF European Food Safety Authority 2006 archived PDF from the original on 2016 03 16 Federal Register May 27 2016 Food Labeling Revision of the Nutrition and Supplement Facts Labels FR page 33982 PDF Archived PDF from the original on August 8 2016 Daily Value Reference of the Dietary Supplement Label Database DSLD Dietary Supplement Label Database DSLD Retrieved 16 May 2020 Potassium Supplement Oral Route Parenteral Route Proper Use Mayo Clinic www mayoclinic org NCATS Inxight Drugs POTASSIUM GLUCONATE drugs ncats io Office of Dietary Supplements Potassium ods od nih gov a b Top 10 Foods Highest in Potassium One Page Printable myfooddata Archived from the original on 2014 09 11 FoodData Central fdc nal usda gov Aburto NJ Hanson S Gutierrez H Hooper L Elliott P Cappuccio FP 2013 Effect of increased potassium intake on cardiovascular risk factors and disease systematic review and meta analyses BMJ 346 f1378 doi 10 1136 bmj f1378 PMC 4816263 PMID 23558164 D Elia L Barba G Cappuccio FP Strazzullo P 2011 Potassium intake stroke and cardiovascular disease a meta analysis of prospective studies J Am Coll Cardiol 57 10 1210 9 doi 10 1016 j jacc 2010 09 070 PMID 21371638 Mumoli N Cei M 2008 Licorice induced hypokalemia Int J Cardiol 124 3 e42 4 doi 10 1016 j ijcard 2006 11 190 PMID 17320224 What We Eat In America NHANES 2013 2014 Archived 2017 02 24 at the Wayback Machine Archived copy PDF Archived PDF from the original on 2011 07 13 Retrieved 2007 01 30 a href Template Cite web html title Template Cite web cite web a CS1 maint archived copy as title link Energy and Nutrient Intake in the European UnionFurther reading edit Potassium Health Professional Fact Sheet NIH Office of Dietary Supplements 3 April 2020 External links edit Potassium Drug Information Portal U S National Library of Medicine Brooks Cole publishers Sodium Potassium pump Oregon State University Micronutrient Information Center Potassium at Lab Tests Online Potassium analyte monograph the Association for Clinical Biochemistry and Laboratory Medicine Portal nbsp Medicine Retrieved from https en wikipedia org w index php title Potassium in biology amp oldid 1187118352, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.