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Agar

December 04, 2023

For other uses, see Agar (disambiguation).

Agar (/ˈɡɑːr/ or /ˈɑːɡər/), or agar-agar, is a jelly-like substance consisting of polysaccharides obtained from the cell walls of some species of red algae, primarily from "ogonori" (Gracilaria) and "tengusa" (Gelidiaceae).[1][2] As found in nature, agar is a mixture of two components, the linear polysaccharide agarose and a heterogeneous mixture of smaller molecules called agaropectin.[3] It forms the supporting structure in the cell walls of certain species of algae and is released on boiling. These algae are known as agarophytes, belonging to the Rhodophyta (red algae) phylum.[4][5] The processing of food-grade agar removes the agaropectin, and the commercial product is essentially pure agarose.

Green tea flavored yōkan, a popular Japanese red bean jelly made from agar
A blood agar plate used to culture bacteria and diagnose infection

Agar has been used as an ingredient in desserts throughout Asia and also as a solid substrate to contain culture media for microbiological work. Agar can be used as a laxative; an appetite suppressant; a vegan substitute for gelatin; a thickener for soups; in fruit preserves, ice cream, and other desserts; as a clarifying agent in brewing; and for sizing paper and fabrics.[6][7]

Etymology edit

The word agar comes from agar-agar, the Malay name for red algae (Gigartina, Eucheuma,[8] Gracilaria) from which the jelly is produced.[9][10] It is also known as Kanten (Japanese: 寒天) (from the phrase kan-zarashi tokoroten (寒曬心太) or “cold-exposed agar”), Japanese isinglass, China grass, Ceylon moss or Jaffna moss.[11] Gracilaria edulis or its synonym G. lichenoides is specifically referred to as agal-agal or Ceylon agar.[12]

History edit

See also: Seaweed farming
 
Ogonori, the most common red algae used to make agar

Macroalgae have been used widely as food by coastal cultures, especially in Southeast Asia.[13] In the Philippines, Gracilaria, known as gulaman (or gulaman dagat) in Tagalog, have been harvested and used as food for centuries, eaten both fresh or sun-dried and turned into jellies. The earliest historical attestation is from the Vocabulario de la lengua tagala (1754) by the Jesuit priests Juan de Noceda and Pedro de Sanlucar, where golaman or gulaman was defined as "una yerva, de que se haze conserva a modo de Halea, naze en la mar" ("an herb, from which a jam-like preserve is made, grows in the sea"), with an additional entry for guinolaman to refer to food made with the jelly.[14][15]

Carrageenan, derived from gusô (Eucheuma spp.), which also congeals into a gel-like texture is also used similarly among the Visayan peoples and have been recorded in the even earlier Diccionario De La Lengua Bisaya, Hiligueina y Haraia de la isla de Panay y Sugbu y para las demas islas (c.1637) of the Augustinian missionary Alonso de Méntrida (in Spanish). In the book, Méntrida describes gusô as being cooked until it melts, and then allowed to congeal into a sour dish.[16]

Jelly seaweeds were also favoured and foraged by Malay communities living on the coasts of the Riau Archipelago and Singapore in Southeast Asia for centuries.[17]

The application of agar as a food additive in Japan is alleged to have been discovered in 1658 by Mino Tarōzaemon (美濃 太郎左衞門), an innkeeper in current Fushimi-ku, Kyoto who, according to legend, was said to have discarded surplus seaweed soup (Tokoroten) and noticed that it gelled later after a winter night's freezing.[18]

Agar was first subjected to chemical analysis in 1859 by the French chemist Anselme Payen, who had obtained agar from the marine algae Gelidium corneum.[19]

Beginning in the late 19th century, agar began to be used as a solid medium for growing various microbes. Agar was first described for use in microbiology in 1882 by the German microbiologist Walther Hesse, an assistant working in Robert Koch's laboratory, on the suggestion of his wife Fanny Hesse.[20][21] Agar quickly supplanted gelatin as the base of microbiological media, due to its higher melting temperature, allowing microbes to be grown at higher temperatures without the media liquefying.[22]

With its newfound use in microbiology, agar production quickly increased. This production centered on Japan, which produced most of the world's agar until World War II.[23] However, with the outbreak of World War II, many nations were forced to establish domestic agar industries in order to continue microbiological research.[23] Around the time of World War II, approximately 2,500 tons of agar were produced annually.[23] By the mid-1970s, production worldwide had increased dramatically to approximately 10,000 tons each year.[23] Since then, production of agar has fluctuated due to unstable and sometimes over-utilized seaweed populations.[24]

Chemical composition edit

 
The structure of an agarose polymer.

Agar consists of a mixture of two polysaccharides: agarose and agaropectin, with agarose making up about 70% of the mixture, while agaropectin makes about 30% of it.[25] Agarose is a linear polymer, made up of repeating units of agarobiose, a disaccharide made up of D-galactose and 3,6-anhydro-L-galactopyranose.[26] Agaropectin is a heterogeneous mixture of smaller molecules that occur in lesser amounts, and is made up of alternating units of D-galactose and L-galactose heavily modified with acidic side-groups, such as sulfate, glucuronate, and pyruvate.[27][25][26]

Physical properties edit

Agar exhibits hysteresis because when mixed with water, it solidifies and forms a gel at about 32–42 °C (305–315 K; 90–108 °F), which is called the gel point, and melts at 85 °C (358 K; 185 °F), which is the melting point.[28] Hysteresis of agar occurs due to the difference between the gel point and melting point temperatures.[29] This property lends a suitable balance between easy melting and good gel stability at relatively high temperatures.[30] Since many scientific applications require incubation at temperatures close to human body temperature (37 °C), agar is more appropriate than other solidifying agents that melt at this temperature, such as gelatin.[31]

Uses edit

Culinary edit

 
Sago at gulaman in Filipino cuisine is made from agar (gulaman), pearl sago, and sugar syrup flavored with pandan

Agar-agar is a natural vegetable gelatin counterpart.[32][33] It is white and semi-translucent when sold in packages as washed and dried strips or in powdered form.[32][34] It can be used to make jellies,[35] puddings, and custards.[36] When making jelly, it is boiled in water until the solids dissolve. Sweetener, flavoring, coloring, fruits and or vegetables are then added, and the liquid is poured into molds to be served as desserts and vegetable aspics or incorporated with other desserts such as a layer of jelly in a cake.[citation needed][34]

Agar-agar is approximately 80% dietary fiber, so it can serve as an intestinal regulator.[37] Its bulking quality has been behind fad diets in Asia, for example the kanten (the Japanese word for agar-agar[5]) diet. Once ingested, kanten triples in size and absorbs water. This results in the consumers feeling fuller.

Asian culinary edit

One use of agar in Japanese cuisine (Wagashi) is anmitsu, a dessert made of small cubes of agar jelly and served in a bowl with various fruits or other ingredients. It is also the main ingredient in mizu yōkan, another popular Japanese food. In Philippine cuisine, it is used to make the jelly bars in the various gulaman refreshments like Sago't Gulaman, Samalamig, or desserts such as buko pandan, agar flan, halo-halo, fruit cocktail jelly, and the black and red gulaman used in various fruit salads. In Vietnamese cuisine, jellies made of flavored layers of agar agar, called thạch, are a popular dessert, and are often made in ornate molds for special occasions. In Indian cuisine, agar is used for making desserts. In Burmese cuisine, a sweet jelly known as kyauk kyaw is made from agar. Agar jelly is widely used in Taiwanese bubble tea.

Other culinary edit

It can be used as addition to or as a replacement for pectin in jams and marmalades, as a substitute to gelatin for its superior gelling properties, and as a strengthening ingredient in souffles and custards. Another use of agar-agar is in a Russian dish ptich'ye moloko (bird's milk), a rich jellified custard (or soft meringue) used as a cake filling or chocolate-glazed as individual sweets.

Agar-agar may also be used as the gelling agent in gel clarification, a culinary technique used to clarify stocks, sauces, and other liquids. Mexico has traditional candies made out of Agar gelatin, most of them in colorful, half-circle shapes that resemble a melon or watermelon fruit slice, and commonly covered with sugar. They are known in Spanish as Dulce de Agar (Agar sweets)

Agar-agar is an allowed nonorganic/nonsynthetic additive used as a thickener, gelling agent, texturizer, moisturizer, emulsifier, flavor enhancer, and absorbent in certified organic foods.[38]

Microbiology edit

Agar plate edit

 
100mm (4") diameter Petri dishes containing agar gel for bacterial culture
Main article: Agar plate

An agar plate or Petri dish is used to provide a growth medium using a mix of agar and other nutrients in which microorganisms, including bacteria and fungi, can be cultured and observed under the microscope. Agar is indigestible for many organisms so that microbial growth does not affect the gel used and it remains stable. Agar is typically sold commercially as a powder that can be mixed with water and prepared similarly to gelatin before use as a growth medium. Nutrients are typically added to meet the nutritional needs of the microbes organism, the formulations of which may be "undefined" where the precise composition is unknown, or "defined" where the exact chemical composition is known. Agar is often dispensed using a sterile media dispenser.

Different algae produce various types of agar. Each agar has unique properties that suit different purposes. Because of the agarose component, the agar solidifies. When heated, agarose has the potential to melt and then solidify. Because of this property, they are referred to as "physical gels". In contrast, polyacrylamide polymerization is an irreversible process, and the resulting products are known as chemical gels.

There are a variety of different types of agar that support the growth of different microorganisms. A nutrient agar may be permissive, allowing for the cultivation of any non-fastidious microorganisms; a commonly-used nutrient agar for bacteria is the Luria Bertani (LB) agar which contains lysogeny broth, a nutrient-rich medium used for bacterial growth.[39] Other fastidious organisms may require the addition of different biological fluids such as horse or sheep blood, serum, egg yolk, and so on.[40] Agar plates can also be selective, and can be used to promote the growth of bacteria of interest while inhibiting others. A variety of chemicals may be added to create an environment favourable for specific types of bacteria or bacteria with certain properties, but not conducive for growth of others. For example, antibiotics may be added in cloning experiments whereby bacteria with antibiotic-resistant plasmid are selected.[41]

Motility assays edit

As a gel, an agar or agarose medium is porous and therefore can be used to measure microorganism motility and mobility. The gel's porosity is directly related to the concentration of agarose in the medium, so various levels of effective viscosity (from the cell's "point of view") can be selected, depending on the experimental objectives.

A common identification assay involves culturing a sample of the organism deep within a block of nutrient agar. Cells will attempt to grow within the gel structure. Motile species will be able to migrate, albeit slowly, throughout the gel, and infiltration rates can then be visualized, whereas non-motile species will show growth only along the now-empty path introduced by the invasive initial sample deposition.

Another setup commonly used for measuring chemotaxis and chemokinesis utilizes the under-agarose cell migration assay, whereby a layer of agarose gel is placed between a cell population and a chemoattractant. As a concentration gradient develops from the diffusion of the chemoattractant into the gel, various cell populations requiring different stimulation levels to migrate can then be visualized over time using microphotography as they tunnel upward through the gel against gravity along the gradient.

Plant biology edit

 
Physcomitrella patens plants growing axenically in vitro on agar plates (Petri dish, 9 cm, 3½" diameter).

Research grade agar is used extensively in plant biology as it is optionally supplemented with a nutrient and/or vitamin mixture that allows for seedling germination in Petri dishes under sterile conditions (given that the seeds are sterilized as well). Nutrient and/or vitamin supplementation for Arabidopsis thaliana is standard across most experimental conditions. Murashige & Skoog (MS) nutrient mix and Gamborg's B5 vitamin mix in general are used. A 1.0% agar/0.44% MS+vitamin dH2O solution is suitable for growth media between normal growth temps.

When using agar, within any growth medium, it is important to know that the solidification of the agar is pH-dependent. The optimal range for solidification is between 5.4 and 5.7.[42] Usually, the application of potassium hydroxide is needed to increase the pH to this range. A general guideline is about 600 µl 0.1M KOH per 250 ml GM. This entire mixture can be sterilized using the liquid cycle of an autoclave.

This medium nicely lends itself to the application of specific concentrations of phytohormones etc. to induce specific growth patterns in that one can easily prepare a solution containing the desired amount of hormone, add it to the known volume of GM, and autoclave to both sterilize and evaporate off any solvent that may have been used to dissolve the often-polar hormones. This hormone/GM solution can be spread across the surface of Petri dishes sown with germinated and/or etiolated seedlings.

Experiments with the moss Physcomitrella patens, however, have shown that choice of the gelling agent – agar or Gelrite – does influence phytohormone sensitivity of the plant cell culture.[43]

Other uses edit

Agar is used:

Gelidium agar is used primarily for bacteriological plates. Gracilaria agar is used mainly in food applications.

In 2016, AMAM, a Japanese company, developed a prototype for Agar-based commercial packaging system called Agar Plasticity, intended as a replacement for oil-based plastic packaging.[48][49]

See also edit

References edit

  1. ^ Shimamura, Natsu (August 4, 2010). "Agar". The Tokyo Foundation. Retrieved 19 December 2016.
  2. ^ Oxford Dictionary of English (2nd ed.). 2005.
  3. ^ Williams, Peter W.; Phillips, Glyn O. (2000). "2: Agar". Handbook of hydrocolloids. Cambridge, England: Woodhead. p. 91. ISBN 1-85573-501-6. Agar is made from seaweed and it is attracted to bacteria.
  4. ^ Balfour, Edward Green (1871). "agar". Cyclopædia of India and of eastern and southern Asia, commercial, industrial and scientific: products of the mineral, vegetable and animal kingdoms, useful arts and manufactures. Scottish and Adelphi Presses. p. 50.
  5. ^ a b Davidson, Alan (2006). The Oxford Companion to Food. Oxford University Press. ISBN 978-0-19-280681-9.
  6. ^ "Showing Food Agar". The Metabolomics Innovation Centre (TMIC). from the original on 2021-05-09.
  7. ^ Edward Green Balfour (1857). Cyclopaedia of India and of Eastern and Southern Asia, commercial, industrial and scientific... printed at the Scottish Press. p. 13.
  8. ^ Chapman, V. J.; Chapman, D.J. (1980). Seaweeds and their Uses (third ed.). Dordrecht: Springer Netherlands. p. 148. ISBN 978-94-009-5808-1.
  9. ^ Balfour, Edward. (1885). The cyclopædia of India and of eastern and southern Asia: commercial, industrial and scientific, products of the mineral, vegetable, and animal kingdoms, useful arts and manufactures. B. Quaritch. p. 71.
  10. ^ Wilkinson, Richard James (1932). "agar". A Malay-English dictionary (romanised). Vol. I. Mytilene, Greece: Salavopoulos & Kinderlis. p. 9 – via TROVE, National Library of Australia.
  11. ^ Agar-Agar 2011-09-03 at the Wayback Machine at Agar-Agar.org
  12. ^ "Agar-Agar". Botanical.com. Retrieved 22 January 2017.
  13. ^ Hopley, David (2010). Encyclopedia of Modern Coral Reefs: Structure, Form and Process. Springer Science & Business Media. p. 31. ISBN 9789048126385.
  14. ^ Albert H. Wells (1916). "Possibilities of Gulaman Dagat as a Substitute for Gelatin in Food". The Philippine Journal of Science. 11: 267–271.
  15. ^ de Noceda, Juan; de Sanlucar, Pedro (1754). Vocabulario de la lengua Tagala. Imprenta de la compañia de Jesus. p. 101, 215.
  16. ^ de Mentrida, Alonso (1841). Diccionario De La Lengua Bisaya, Hiligueina Y Haraya de la isla de Panay. En La Imprenta De D. Manuel Y De D. Felis Dayot. p. 380.
  17. ^ Khir Johari (Oct–Dec 2021). "The Role of Foraging in Malay Cuisine". BiblioAsia. Vol. 17, no. 3. National Library Board, Singapore. pp. 20–23.
  18. ^ Mary Jo Zimbro; David A. Power; Sharon M. Miller; George E. Wilson; Julie A. Johnson (eds.). (PDF) (2nd ed.). Becton Dickinson and Company. p. 6. Archived from the original (PDF) on 2012-06-06. Retrieved 2013-07-17.
  19. ^ Payen, Anselme (1859) "Sur la gélose et le nids de salangane" (On agar and swiftlet nests), Comptes rendus …, 49 : 521–530, appended remarks 530–532.
  20. ^ Robert Koch (10 April 1882) "Die Aetiologie der Tuberculose" (The etiology of tuberculosis), Berliner Klinische Wochenschrift (Berlin Clinical Weekly), 19 : 221–230. From p. 225: "Die Tuberkelbacillen lassen sich auch noch auf anderen Nährsubstraten kultiviren, wenn letztere ähnliche Eigenschaften wie das erstarrte Blutserum besitzen. So wachsen sie beispielsweise auf einer mit Agar-Agar bereiteten, bei Blutwärme hart bleibenden Gallerte, welche einen Zusatz von Fleischinfus und Pepton erhalten hat." (The tubercule bacilli can also be cultivated on other media, if the latter have properties similar to those of congealed blood serum. Thus they grow, for example, on a gelatinous mass which was prepared with agar-agar, which remains solid at blood temperature, and which has received a supplement of meat broth and peptone.)
  21. ^ Smith, A. (November 1, 2005). . Laboratory News. Archived from the original on October 14, 2012. Retrieved November 3, 2012.
  22. ^ Hesse, W. (1992). Translated by Gröschel, D.H.M. (PDF). ASM News. 58 (8): 425–428. Archived from the original (PDF) on 30 June 2017. Retrieved 22 January 2017.
  23. ^ a b c d Lobban, Christopher S.; Wynne, Michael James (1981). The Biology of Seaweeds. University of California Press. pp. 734–735. ISBN 9780520045859.
  24. ^ Ewen Callaway (8 December 2015). "Lab staple agar hit by seaweed shortage". Nature. Nature News. 528 (7581): 171–172. Bibcode:2015Natur.528..171C. doi:10.1038/528171a. PMID 26659158.
  25. ^ a b "III: Properties, Manufacture, and Application of Seaweed Polysaccharides – Agar, Carageenan, and Algin". Training manual on Gracilaria culture and seaweed processing in China. Food and Agriculture Organization, United Nations. August 1990. Retrieved 2011-04-27.
  26. ^ a b Rafael Armisen; Fernando Galatas (1987). "Chapter 1 – Production, Properties and Uses of Agar". In McHugh DJ (ed.). Production and Utilization of Products from Commercial Seaweeds. Food and Agriculture Organization, United Nations. ISBN 92-5-102612-2.
  27. ^ . London South Bank University. Archived from the original on 2022-09-26. Retrieved 2023-03-21.
  28. ^ Liu, Shijun; Usinger, Laurie (2008). "Agar and Its Use in Chemistry and Science". Science Buddies. from the original on 3 June 2011. Retrieved 21 March 2023.
  29. ^ "Hispanagar | Hysteresis, what is this peculiar word?". www.hispanagar.com. Retrieved 2023-03-21.
  30. ^ Das, N.; Tripathi, N.; Basu, S.; Bose, C.; Maitra, S.; Khurana, S. (2015-07-23). "Progress in the development of gelling agents for improved culturability of microorganisms". Frontiers in Microbiology. 6 (698): 698. doi:10.3389/fmicb.2015.00698. PMC 4511835. PMID 26257708.
  31. ^ "Agar-Agar : Definition, Producing and Uses". microbiologie-clinique.com. Retrieved 2023-03-21.
  32. ^ a b Wings of Success. The Advantages of Being a Vegetarian: Selected Tips. pp. 9–10.
  33. ^ Livlaid, Nele (2018). Plant-Based Made Easy: The Complete Practical Guide to Transitioning to Healthy Whole Food Diet. Nutriplanet (Swing & Step OU). ISBN 9789949882465.
  34. ^ a b Stobart, Tom (2016). Cook's Encyclopaedia. Grub Street Publishing. ISBN 9781910690833.
  35. ^ Zhang, Louisa; Seng, Teo Kiok; Hixson, Sue; Kwone, Eileen (2022). Home Economics S2 Tb (nt). Singapore: Longman. p. 145. ISBN 9789814079471.
  36. ^ Ash, Michael (2007). Handbook fo Fillers, Extenders, and Diluents. Synapse Information Resources. p. 233. ISBN 9781890595968.
  37. ^ Marden, Orison Swett (1921). "Constipation is a Crime". The New Success: Marden's Magazine. Lowrey-Marden. 5: 113.
  38. ^ Agar-agar Review Sheet 2015-06-20 at the Wayback Machine, USDA Organic Materials Review, April 1995.
  39. ^ "LB agar". Cold Spring Harbor Protocols. 2009 (3): pdb.rec11683. 2009-03-01. doi:10.1101/pdb.rec11683. ISSN 1940-3402.
  40. ^ Clark, David P.; Pazdernik, Nanette J.; McGehee, Michelle R. (2019-01-01), Clark, David P.; Pazdernik, Nanette J.; McGehee, Michelle R. (eds.), "Chapter 7 – Cloning Genes for Synthetic Biology", Molecular Biology (Third Edition), Academic Cell, pp. 199–239, doi:10.1016/b978-0-12-813288-3.00007-0, ISBN 978-0-12-813288-3, S2CID 91889487, retrieved 2022-12-12
  41. ^ "Why Differential & Selective Media Remain Invaluable Tools". American Society for Microbiology. September 25, 2020.
  42. ^ Kim, Se-Kwon (2011). Handbook of marine macroalgae : biotechnology and applied phycology (1st imp. ed.). Hoboken, NJ: John Wiley & Sons Inc. ISBN 9780470979181.
  43. ^ Birgit Hadeler; Sirkka Scholz; Ralf Reski (1995). "Gelrite and agar differently influence cytokinin-sensitivity of a moss". Journal of Plant Physiology. 146 (3): 369–371. doi:10.1016/s0176-1617(11)82071-7.
  44. ^ Yadav, Lokenddra; Thomas, Sarega; Kini, Usha (February 2015). "Improvised double-embedding technique of minute biopsies: A mega boon to histopathology laboratory". Indian Journal of Pathology and Microbiology. 58 (1): 12–6. doi:10.4103/0377-4929.151156. PMID 25673584.
  45. ^ Integrated Organic Farming Handbook, H. Panda, Asia Pacific Business Press Inc., Oct 4, 2013
  46. ^ Walker, Ernie (June 1986). "Black-and-White Photographic Chemistry" (PDF). NASA Technical Reports Server. Archived (PDF) from the original on 2022-10-09.
  47. ^ McIlvain, Grace; Ganji, Elahe; Cooper, Catherine; Killian, Megan L.; Ogunnaike, Babatunde A.; Johnson, Curtis L. (September 2019). "Reliable preparation of agarose phantoms for use in quantitative magnetic resonance elastography". Journal of the Mechanical Behavior of Biomedical Materials. 97: 65–73. doi:10.1016/j.jmbbm.2019.05.001. PMC 6699912. PMID 31100487.
  48. ^ "New Seaweed-Based Material Could Replace Plastic Packaging". Good Magazine. 2016-03-09. Retrieved 2016-04-03.
  49. ^ "Design Looks Ahead". Fast Company. 26 January 2016. Retrieved 2016-04-03.

External links edit

  •   The dictionary definition of agar at Wiktionary

December 04, 2023
agar, other, uses, disambiguation, ɑːr, ɑː, agar, agar, jelly, like, substance, consisting, polysaccharides, obtained, from, cell, walls, some, species, algae, primarily, from, ogonori, gracilaria, tengusa, gelidiaceae, found, nature, agar, mixture, components. For other uses see Agar disambiguation Agar ˈ eɪ ɡ ɑːr or ˈ ɑː ɡ er or agar agar is a jelly like substance consisting of polysaccharides obtained from the cell walls of some species of red algae primarily from ogonori Gracilaria and tengusa Gelidiaceae 1 2 As found in nature agar is a mixture of two components the linear polysaccharide agarose and a heterogeneous mixture of smaller molecules called agaropectin 3 It forms the supporting structure in the cell walls of certain species of algae and is released on boiling These algae are known as agarophytes belonging to the Rhodophyta red algae phylum 4 5 The processing of food grade agar removes the agaropectin and the commercial product is essentially pure agarose Green tea flavored yōkan a popular Japanese red bean jelly made from agarA blood agar plate used to culture bacteria and diagnose infectionAgar has been used as an ingredient in desserts throughout Asia and also as a solid substrate to contain culture media for microbiological work Agar can be used as a laxative an appetite suppressant a vegan substitute for gelatin a thickener for soups in fruit preserves ice cream and other desserts as a clarifying agent in brewing and for sizing paper and fabrics 6 7 Contents 1 Etymology 2 History 3 Chemical composition 4 Physical properties 5 Uses 5 1 Culinary 5 1 1 Asian culinary 5 1 2 Other culinary 5 2 Microbiology 5 2 1 Agar plate 5 2 2 Motility assays 5 3 Plant biology 5 4 Other uses 6 See also 7 References 8 External linksEtymology editThe word agar comes from agar agar the Malay name for red algae Gigartina Eucheuma 8 Gracilaria from which the jelly is produced 9 10 It is also known as Kanten Japanese 寒天 from the phrase kan zarashi tokoroten 寒曬心太 or cold exposed agar Japanese isinglass China grass Ceylon moss or Jaffna moss 11 Gracilaria edulis or its synonym G lichenoides is specifically referred to as agal agal or Ceylon agar 12 History editSee also Seaweed farming nbsp Ogonori the most common red algae used to make agarMacroalgae have been used widely as food by coastal cultures especially in Southeast Asia 13 In the Philippines Gracilaria known as gulaman or gulaman dagat in Tagalog have been harvested and used as food for centuries eaten both fresh or sun dried and turned into jellies The earliest historical attestation is from the Vocabulario de la lengua tagala 1754 by the Jesuit priests Juan de Noceda and Pedro de Sanlucar where golaman or gulaman was defined as una yerva de que se haze conserva a modo de Halea naze en la mar an herb from which a jam like preserve is made grows in the sea with an additional entry for guinolaman to refer to food made with the jelly 14 15 Carrageenan derived from guso Eucheuma spp which also congeals into a gel like texture is also used similarly among the Visayan peoples and have been recorded in the even earlier Diccionario De La Lengua Bisaya Hiligueina y Haraia de la isla de Panay y Sugbu y para las demas islas c 1637 of the Augustinian missionary Alonso de Mentrida in Spanish In the book Mentrida describes guso as being cooked until it melts and then allowed to congeal into a sour dish 16 Jelly seaweeds were also favoured and foraged by Malay communities living on the coasts of the Riau Archipelago and Singapore in Southeast Asia for centuries 17 The application of agar as a food additive in Japan is alleged to have been discovered in 1658 by Mino Tarōzaemon 美濃 太郎左衞門 an innkeeper in current Fushimi ku Kyoto who according to legend was said to have discarded surplus seaweed soup Tokoroten and noticed that it gelled later after a winter night s freezing 18 Agar was first subjected to chemical analysis in 1859 by the French chemist Anselme Payen who had obtained agar from the marine algae Gelidium corneum 19 Beginning in the late 19th century agar began to be used as a solid medium for growing various microbes Agar was first described for use in microbiology in 1882 by the German microbiologist Walther Hesse an assistant working in Robert Koch s laboratory on the suggestion of his wife Fanny Hesse 20 21 Agar quickly supplanted gelatin as the base of microbiological media due to its higher melting temperature allowing microbes to be grown at higher temperatures without the media liquefying 22 With its newfound use in microbiology agar production quickly increased This production centered on Japan which produced most of the world s agar until World War II 23 However with the outbreak of World War II many nations were forced to establish domestic agar industries in order to continue microbiological research 23 Around the time of World War II approximately 2 500 tons of agar were produced annually 23 By the mid 1970s production worldwide had increased dramatically to approximately 10 000 tons each year 23 Since then production of agar has fluctuated due to unstable and sometimes over utilized seaweed populations 24 Chemical composition edit nbsp The structure of an agarose polymer Agar consists of a mixture of two polysaccharides agarose and agaropectin with agarose making up about 70 of the mixture while agaropectin makes about 30 of it 25 Agarose is a linear polymer made up of repeating units of agarobiose a disaccharide made up of D galactose and 3 6 anhydro L galactopyranose 26 Agaropectin is a heterogeneous mixture of smaller molecules that occur in lesser amounts and is made up of alternating units of D galactose and L galactose heavily modified with acidic side groups such as sulfate glucuronate and pyruvate 27 25 26 Physical properties editAgar exhibits hysteresis because when mixed with water it solidifies and forms a gel at about 32 42 C 305 315 K 90 108 F which is called the gel point and melts at 85 C 358 K 185 F which is the melting point 28 Hysteresis of agar occurs due to the difference between the gel point and melting point temperatures 29 This property lends a suitable balance between easy melting and good gel stability at relatively high temperatures 30 Since many scientific applications require incubation at temperatures close to human body temperature 37 C agar is more appropriate than other solidifying agents that melt at this temperature such as gelatin 31 Uses editCulinary edit nbsp Sago at gulaman in Filipino cuisine is made from agar gulaman pearl sago and sugar syrup flavored with pandanAgar agar is a natural vegetable gelatin counterpart 32 33 It is white and semi translucent when sold in packages as washed and dried strips or in powdered form 32 34 It can be used to make jellies 35 puddings and custards 36 When making jelly it is boiled in water until the solids dissolve Sweetener flavoring coloring fruits and or vegetables are then added and the liquid is poured into molds to be served as desserts and vegetable aspics or incorporated with other desserts such as a layer of jelly in a cake citation needed 34 Agar agar is approximately 80 dietary fiber so it can serve as an intestinal regulator 37 Its bulking quality has been behind fad diets in Asia for example the kanten the Japanese word for agar agar 5 diet Once ingested kanten triples in size and absorbs water This results in the consumers feeling fuller Asian culinary edit One use of agar in Japanese cuisine Wagashi is anmitsu a dessert made of small cubes of agar jelly and served in a bowl with various fruits or other ingredients It is also the main ingredient in mizu yōkan another popular Japanese food In Philippine cuisine it is used to make the jelly bars in the various gulaman refreshments like Sago t Gulaman Samalamig or desserts such as buko pandan agar flan halo halo fruit cocktail jelly and the black and red gulaman used in various fruit salads In Vietnamese cuisine jellies made of flavored layers of agar agar called thạch are a popular dessert and are often made in ornate molds for special occasions In Indian cuisine agar is used for making desserts In Burmese cuisine a sweet jelly known as kyauk kyaw is made from agar Agar jelly is widely used in Taiwanese bubble tea Other culinary edit It can be used as addition to or as a replacement for pectin in jams and marmalades as a substitute to gelatin for its superior gelling properties and as a strengthening ingredient in souffles and custards Another use of agar agar is in a Russian dish ptich ye moloko bird s milk a rich jellified custard or soft meringue used as a cake filling or chocolate glazed as individual sweets Agar agar may also be used as the gelling agent in gel clarification a culinary technique used to clarify stocks sauces and other liquids Mexico has traditional candies made out of Agar gelatin most of them in colorful half circle shapes that resemble a melon or watermelon fruit slice and commonly covered with sugar They are known in Spanish as Dulce de Agar Agar sweets Agar agar is an allowed nonorganic nonsynthetic additive used as a thickener gelling agent texturizer moisturizer emulsifier flavor enhancer and absorbent in certified organic foods 38 Microbiology edit Agar plate edit nbsp 100mm 4 diameter Petri dishes containing agar gel for bacterial cultureMain article Agar plate An agar plate or Petri dish is used to provide a growth medium using a mix of agar and other nutrients in which microorganisms including bacteria and fungi can be cultured and observed under the microscope Agar is indigestible for many organisms so that microbial growth does not affect the gel used and it remains stable Agar is typically sold commercially as a powder that can be mixed with water and prepared similarly to gelatin before use as a growth medium Nutrients are typically added to meet the nutritional needs of the microbes organism the formulations of which may be undefined where the precise composition is unknown or defined where the exact chemical composition is known Agar is often dispensed using a sterile media dispenser Different algae produce various types of agar Each agar has unique properties that suit different purposes Because of the agarose component the agar solidifies When heated agarose has the potential to melt and then solidify Because of this property they are referred to as physical gels In contrast polyacrylamide polymerization is an irreversible process and the resulting products are known as chemical gels There are a variety of different types of agar that support the growth of different microorganisms A nutrient agar may be permissive allowing for the cultivation of any non fastidious microorganisms a commonly used nutrient agar for bacteria is the Luria Bertani LB agar which contains lysogeny broth a nutrient rich medium used for bacterial growth 39 Other fastidious organisms may require the addition of different biological fluids such as horse or sheep blood serum egg yolk and so on 40 Agar plates can also be selective and can be used to promote the growth of bacteria of interest while inhibiting others A variety of chemicals may be added to create an environment favourable for specific types of bacteria or bacteria with certain properties but not conducive for growth of others For example antibiotics may be added in cloning experiments whereby bacteria with antibiotic resistant plasmid are selected 41 Motility assays edit As a gel an agar or agarose medium is porous and therefore can be used to measure microorganism motility and mobility The gel s porosity is directly related to the concentration of agarose in the medium so various levels of effective viscosity from the cell s point of view can be selected depending on the experimental objectives A common identification assay involves culturing a sample of the organism deep within a block of nutrient agar Cells will attempt to grow within the gel structure Motile species will be able to migrate albeit slowly throughout the gel and infiltration rates can then be visualized whereas non motile species will show growth only along the now empty path introduced by the invasive initial sample deposition Another setup commonly used for measuring chemotaxis and chemokinesis utilizes the under agarose cell migration assay whereby a layer of agarose gel is placed between a cell population and a chemoattractant As a concentration gradient develops from the diffusion of the chemoattractant into the gel various cell populations requiring different stimulation levels to migrate can then be visualized over time using microphotography as they tunnel upward through the gel against gravity along the gradient Plant biology edit nbsp Physcomitrella patens plants growing axenically in vitro on agar plates Petri dish 9 cm 3 diameter Research grade agar is used extensively in plant biology as it is optionally supplemented with a nutrient and or vitamin mixture that allows for seedling germination in Petri dishes under sterile conditions given that the seeds are sterilized as well Nutrient and or vitamin supplementation for Arabidopsis thaliana is standard across most experimental conditions Murashige amp Skoog MS nutrient mix and Gamborg s B5 vitamin mix in general are used A 1 0 agar 0 44 MS vitamin dH2O solution is suitable for growth media between normal growth temps When using agar within any growth medium it is important to know that the solidification of the agar is pH dependent The optimal range for solidification is between 5 4 and 5 7 42 Usually the application of potassium hydroxide is needed to increase the pH to this range A general guideline is about 600 µl 0 1M KOH per 250 ml GM This entire mixture can be sterilized using the liquid cycle of an autoclave This medium nicely lends itself to the application of specific concentrations of phytohormones etc to induce specific growth patterns in that one can easily prepare a solution containing the desired amount of hormone add it to the known volume of GM and autoclave to both sterilize and evaporate off any solvent that may have been used to dissolve the often polar hormones This hormone GM solution can be spread across the surface of Petri dishes sown with germinated and or etiolated seedlings Experiments with the moss Physcomitrella patens however have shown that choice of the gelling agent agar or Gelrite does influence phytohormone sensitivity of the plant cell culture 43 Other uses edit Agar is used As an impression material in dentistry As a medium to precisely orient the tissue specimen and secure it by agar pre embedding especially useful for small endoscopy biopsy specimens for histopathology processing 44 To make salt bridges and gel plugs for use in electrochemistry In formicariums as a transparent substitute for sand and a source of nutrition As a natural ingredient in forming modeling clay for young children to play with As an allowed biofertilizer component in organic farming 45 As a substrate for precipitin reactions in immunology At different times as a substitute for gelatin in photographic emulsions arrowroot in preparing silver paper and as a substitute for fish glue in resist etching 46 As an MRI elastic gel phantom to mimic tissue mechanical properties in Magnetic Resonance Elastography 47 Gelidium agar is used primarily for bacteriological plates Gracilaria agar is used mainly in food applications In 2016 AMAM a Japanese company developed a prototype for Agar based commercial packaging system called Agar Plasticity intended as a replacement for oil based plastic packaging 48 49 See also edit nbsp Food portalAgarose gel electrophoresis Method for separation and analysis of biomolecules using agarose gel Algaculture Aquaculture involving the farming of algae Alginic acid Polysaccharide found in brown algae Asepsis Absence of disease causing microorganisms Carrageenan Natural linear sulfated polysaccharide Gellan gum Gelling and thickening agent Immunodiffusion immunological methodPages displaying wikidata descriptions as a fallback Immunoelectrophoresis Biochemical methods of separation and characterization of proteins Lima bean agar Agar medium used to cultivate Phytophthora sojae Ouchterlony double immunodiffusion R2A agar Bacterial culture medium Radial immunodiffusion Laboratory technique SEAgel Type of aerogel Tokoroten Japanese dishPages displaying wikidata descriptions as a fallbackReferences edit Shimamura Natsu August 4 2010 Agar The Tokyo Foundation Retrieved 19 December 2016 Oxford Dictionary of English 2nd ed 2005 Williams Peter W Phillips Glyn O 2000 2 Agar Handbook of hydrocolloids Cambridge England Woodhead p 91 ISBN 1 85573 501 6 Agar is made from seaweed and it is attracted to bacteria Balfour Edward Green 1871 agar Cyclopaedia of India and of eastern and southern Asia commercial industrial and scientific products of the mineral vegetable and animal kingdoms useful arts and manufactures Scottish and Adelphi Presses p 50 a b Davidson Alan 2006 The Oxford Companion to Food Oxford University Press ISBN 978 0 19 280681 9 Showing Food Agar The Metabolomics Innovation Centre TMIC Archived from the original on 2021 05 09 Edward Green Balfour 1857 Cyclopaedia of India and of Eastern and Southern Asia commercial industrial and scientific printed at the Scottish Press p 13 Chapman V J Chapman D J 1980 Seaweeds and their Uses third ed Dordrecht Springer Netherlands p 148 ISBN 978 94 009 5808 1 Balfour Edward 1885 The cyclopaedia of India and of eastern and southern Asia commercial industrial and scientific products of the mineral vegetable and animal kingdoms useful arts and manufactures B Quaritch p 71 Wilkinson Richard James 1932 agar A Malay English dictionary romanised Vol I Mytilene Greece Salavopoulos amp Kinderlis p 9 via TROVE National Library of Australia Agar Agar Archived 2011 09 03 at the Wayback Machine at Agar Agar org Agar Agar Botanical com Retrieved 22 January 2017 Hopley David 2010 Encyclopedia of Modern Coral Reefs Structure Form and Process Springer Science amp Business Media p 31 ISBN 9789048126385 Albert H Wells 1916 Possibilities of Gulaman Dagat as a Substitute for Gelatin in Food The Philippine Journal of Science 11 267 271 de Noceda Juan de Sanlucar Pedro 1754 Vocabulario de la lengua Tagala Imprenta de la compania de Jesus p 101 215 de Mentrida Alonso 1841 Diccionario De La Lengua Bisaya Hiligueina Y Haraya de la isla de Panay En La Imprenta De D Manuel Y De D Felis Dayot p 380 Khir Johari Oct Dec 2021 The Role of Foraging in Malay Cuisine BiblioAsia Vol 17 no 3 National Library Board Singapore pp 20 23 Mary Jo Zimbro David A Power Sharon M Miller George E Wilson Julie A Johnson eds Difco amp BBL Manual PDF 2nd ed Becton Dickinson and Company p 6 Archived from the original PDF on 2012 06 06 Retrieved 2013 07 17 Payen Anselme 1859 Sur la gelose et le nids de salangane On agar and swiftlet nests Comptes rendus 49 521 530 appended remarks 530 532 Robert Koch 10 April 1882 Die Aetiologie der Tuberculose The etiology of tuberculosis Berliner Klinische Wochenschrift Berlin Clinical Weekly 19 221 230 From p 225 Die Tuberkelbacillen lassen sich auch noch auf anderen Nahrsubstraten kultiviren wenn letztere ahnliche Eigenschaften wie das erstarrte Blutserum besitzen So wachsen sie beispielsweise auf einer mit Agar Agar bereiteten bei Blutwarme hart bleibenden Gallerte welche einen Zusatz von Fleischinfus und Pepton erhalten hat The tubercule bacilli can also be cultivated on other media if the latter have properties similar to those of congealed blood serum Thus they grow for example on a gelatinous mass which was prepared with agar agar which remains solid at blood temperature and which has received a supplement of meat broth and peptone Smith A November 1 2005 History of the Agar Plate Laboratory News Archived from the original on October 14 2012 Retrieved November 3 2012 Hesse W 1992 Translated by Groschel D H M Walther and Angelina Hesse Early Contributors to Bacteriology PDF ASM News 58 8 425 428 Archived from the original PDF on 30 June 2017 Retrieved 22 January 2017 a b c d Lobban Christopher S Wynne Michael James 1981 The Biology of Seaweeds University of California Press pp 734 735 ISBN 9780520045859 Ewen Callaway 8 December 2015 Lab staple agar hit by seaweed shortage Nature Nature News 528 7581 171 172 Bibcode 2015Natur 528 171C doi 10 1038 528171a PMID 26659158 a b III Properties Manufacture and Application of Seaweed Polysaccharides Agar Carageenan and Algin Training manual on Gracilaria culture and seaweed processing in China Food and Agriculture Organization United Nations August 1990 Retrieved 2011 04 27 a b Rafael Armisen Fernando Galatas 1987 Chapter 1 Production Properties and Uses of Agar In McHugh DJ ed Production and Utilization of Products from Commercial Seaweeds Food and Agriculture Organization United Nations ISBN 92 5 102612 2 Agar London South Bank University Archived from the original on 2022 09 26 Retrieved 2023 03 21 Liu Shijun Usinger Laurie 2008 Agar and Its Use in Chemistry and Science Science Buddies Archived from the original on 3 June 2011 Retrieved 21 March 2023 Hispanagar Hysteresis what is this peculiar word www hispanagar com Retrieved 2023 03 21 Das N Tripathi N Basu S Bose C Maitra S Khurana S 2015 07 23 Progress in the development of gelling agents for improved culturability of microorganisms Frontiers in Microbiology 6 698 698 doi 10 3389 fmicb 2015 00698 PMC 4511835 PMID 26257708 Agar Agar Definition Producing and Uses microbiologie clinique com Retrieved 2023 03 21 a b Wings of Success The Advantages of Being a Vegetarian Selected Tips pp 9 10 Livlaid Nele 2018 Plant Based Made Easy The Complete Practical Guide to Transitioning to Healthy Whole Food Diet Nutriplanet Swing amp Step OU ISBN 9789949882465 a b Stobart Tom 2016 Cook s Encyclopaedia Grub Street Publishing ISBN 9781910690833 Zhang Louisa Seng Teo Kiok Hixson Sue Kwone Eileen 2022 Home Economics S2 Tb nt Singapore Longman p 145 ISBN 9789814079471 Ash Michael 2007 Handbook fo Fillers Extenders and Diluents Synapse Information Resources p 233 ISBN 9781890595968 Marden Orison Swett 1921 Constipation is a Crime The New Success Marden s Magazine Lowrey Marden 5 113 Agar agar Review Sheet Archived 2015 06 20 at the Wayback Machine USDA Organic Materials Review April 1995 LB agar Cold Spring Harbor Protocols 2009 3 pdb rec11683 2009 03 01 doi 10 1101 pdb rec11683 ISSN 1940 3402 Clark David P Pazdernik Nanette J McGehee Michelle R 2019 01 01 Clark David P Pazdernik Nanette J McGehee Michelle R eds Chapter 7 Cloning Genes for Synthetic Biology Molecular Biology Third Edition Academic Cell pp 199 239 doi 10 1016 b978 0 12 813288 3 00007 0 ISBN 978 0 12 813288 3 S2CID 91889487 retrieved 2022 12 12 Why Differential amp Selective Media Remain Invaluable Tools American Society for Microbiology September 25 2020 Kim Se Kwon 2011 Handbook of marine macroalgae biotechnology and applied phycology 1st imp ed Hoboken NJ John Wiley amp Sons Inc ISBN 9780470979181 Birgit Hadeler Sirkka Scholz Ralf Reski 1995 Gelrite and agar differently influence cytokinin sensitivity of a moss Journal of Plant Physiology 146 3 369 371 doi 10 1016 s0176 1617 11 82071 7 Yadav Lokenddra Thomas Sarega Kini Usha February 2015 Improvised double embedding technique of minute biopsies A mega boon to histopathology laboratory Indian Journal of Pathology and Microbiology 58 1 12 6 doi 10 4103 0377 4929 151156 PMID 25673584 Integrated Organic Farming Handbook H Panda Asia Pacific Business Press Inc Oct 4 2013 Walker Ernie June 1986 Black and White Photographic Chemistry PDF NASA Technical Reports Server Archived PDF from the original on 2022 10 09 McIlvain Grace Ganji Elahe Cooper Catherine Killian Megan L Ogunnaike Babatunde A Johnson Curtis L September 2019 Reliable preparation of agarose phantoms for use in quantitative magnetic resonance elastography Journal of the Mechanical Behavior of Biomedical Materials 97 65 73 doi 10 1016 j jmbbm 2019 05 001 PMC 6699912 PMID 31100487 New Seaweed Based Material Could Replace Plastic Packaging Good Magazine 2016 03 09 Retrieved 2016 04 03 Design Looks Ahead Fast Company 26 January 2016 Retrieved 2016 04 03 External links edit nbsp The dictionary definition of agar at Wiktionary Retrieved from https en wikipedia org w index php title Agar amp oldid 1187760238, wikipedia, wiki, book, books, library,

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