Alginic acid

 Alginic acid, also called algin, is a polysaccharide distributed widely in the cell walls of brown algae that is hydrophilic and forms a viscous gum when hydrated. With metals such as sodium and calcium, its salts are known as alginates. It is a significant component of the biofilms produced by the bacterium Pseudomonas aeruginosa, a major pathogen found in the lungs of some people who have cystic fibrosis.^[1] The biofilm and P. aeruginosa have a high resistance to antibiotics,^[2] and are susceptible to inhibition by macrophages.^[3] Its colour ranges from white to yellowish-brown. It is sold in filamentous, granular, or powdered forms.

Alginic acid

Names
Other names Alginic acid; E400; [D-ManA(β1→4)L-GulA(α1→4)]n
Identifiers
CAS Number	9005-32-7
ChemSpider	none
ECHA InfoCard	100.029.697
EC Number	232-680-1
E number	E400 (thickeners, ...)
UNII	8C3Z4148WZ
CompTox Dashboard (EPA)	DTXSID601010868
Properties
Chemical formula	(C6H8O6)n
Molar mass	10,000 – 600,000
Appearance	white to yellow, fibrous powder
Density	1.601 g/cm3
Acidity (pKa)	1.5–3.5
Pharmacology
ATC code	A02BX13 (WHO)
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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Infobox references

Macrocystis pyrifera, the largest species of giant kelp

StructureEdit

Alginic acid is a linear copolymer with homopolymeric blocks of (1→4)-linked β-D-mannuronate (M) and α-L-guluronate (G) residues, respectively, covalently linked together in different sequences or blocks. The monomers may appear in homopolymeric blocks of consecutive G-residues (G-blocks), consecutive M-residues (M-blocks) or alternating M and G-residues (MG-blocks). Note that α-L-guluronate is the C-5 epimer of β-D-mannuronate.

FormsEdit

Alginates are refined from brown seaweeds. Throughout the world, many of the Phaeophyceae class brown seaweeds are harvested to be processed and converted into sodium alginate. Sodium alginate is used in many industries including food, animal food, fertilisers, textile printing, and pharmaceuticals. Dental impression material uses alginate as its means of gelling. Food grade alginate an approved ingredient in process and manufactured foods.^[4]

Brown seaweeds range in size from the giant kelp Macrocystis pyrifera which can be 20-40 meters long, to thick, leather-like seaweeds from 2–4 m long, to smaller species 30–60 cm long. Most brown seaweed used for alginates are gathered from the wild, with the exception of Laminaria japonica, which is cultivated in China for food and its surplus material is diverted to the alginate industry in China.

Alginates from different species of brown seaweed vary in their chemical structure resulting in different physical properties of alginates. Some species yield an alginate that gives a strong gel, another a weaker gel, some may produce a cream or white alginate, while others are difficult to gel and are best used for technical applications where color does not matter.^[5]

Commercial grade alginate are extracted from giant kelp Macrocystis pyrifera, Ascophyllum nodosum, and types of Laminaria. Alginates are also is produced by two bacterial genera Pseudomonas and Azotobacter, which played a major role in the unravelling of its biosynthesis pathway. Bacterial alginates are useful for the production of micro- or nanostructures suitable for medical applications.^[6]

Sodium alginate (NaC₆H₇O₆) is the sodium salt of alginic acid. Sodium alginate is a gum.

Potassium alginate (KC₆H₇O₆ ) is the potassium salt of alginic acid.

Calcium alginate (C₁₂H₁₄CaO₁₂ ), is made from sodium alginate from which the sodium ion has been removed and replaced with calcium.

ProductionEdit

The manufacturing process used to extract sodium alginates from brown seaweed fall into two categories: 1) Calcium alginate method and, 2) Alginic acid method.

Chemically the process is simple, but difficulties arise from the physical separations required between the slimy residues from viscous solutions and the separation of gelatinous precipitates that hold large amounts of liquid within the structure so they resist filtration and centrifugation.^[7]

UsesEdit

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Alginate absorbs water quickly, which makes it useful as an additive in dehydrated products such as slimming aids, and in the manufacture of paper and textiles. It also is used for waterproofing and fireproofing fabrics, in the food industry as a thickening agent for drinks, ice cream, cosmetics, and as a gelling agent for jellies.^{[citation needed]}

Alginate is used as an ingredient in various pharmaceutical preparations, such as Gaviscon, in which it combines with bicarbonate to inhibit reflux. Sodium alginate is used as an impression-making material in dentistry, prosthetics, lifecasting, and for creating positives for small-scale casting.

Sodium alginate is used in reactive dye printing and as a thickener for reactive dyes in textile screen-printing.^{[citation needed]} Alginates do not react with these dyes and wash out easily, unlike starch-based thickeners.

As a material for micro-encapsulation.^[8]

Calcium alginate is used in different types of medical products, including skin wound dressings to promote healing,^[9][10] and may be removed with less pain than conventional dressings.^{[citation needed]}

Alginate hydrogelsEdit

Alginate may be used in a hydrogel consisting of microparticles or bulk gels combined with nerve growth factor in bioengineering research to stimulate brain tissue for possible regeneration.^[11] In research on bone reconstruction, alginate composites have favorable properties encouraging regeneration, such as improved porosity, cell proliferation, and mechanical strength, among other factors.

This article uses material from the Wikipedia article  Metasyntactic variable, which is released under the  Creative Commons Attribution-ShareAlike 3.0 Unported License.