Chemistry:Levan polysaccharide
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Other names
Polyfructose
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Levan is a naturally occurring fructan present in many plants and microorganisms.[1] This polymer is made up of fructose, a monosaccharide sugar, connected by 2,6 beta glycosidic linkages. Levan can have both branched and linear structures of relatively low molecular weight.[2] Branched levan forms a very small, sphere-like structure[3] with basal chains 9 units long. The 2,1 branching allows methyl ethers to form and create a spherical shape. The ends of levan also tend to contain a glucosyl residue.[4] Branched levan tends to be more stable than linear polysaccharides.[5] However, the amount of branching and length of polymerization tends to vary among different species.[4] The shortest levan is 6-kestose, a chain of two fructose molecules and a terminal glucose molecule.
Discovery
Levan was first discovered through research on nattō, a traditional Japanese dish.[5] Natto was known as a "superfood" which promoted health and longevity in Japan during the late 1800s.[5] In 1881, Lippmann first discovered "lävulan" (levan) as the remaining gum from molasses in sugar beet production.[6] Later in 1901, Greig-Smith coined the name “levan” based on the levorotatory properties of this substance in polarized light.
Production
Levan is synthesized in archaea, fungi, bacteria, and a limited number of plant species. Fructans such as levan are synthesized from sucrose, a disaccharide containing glucose and fructose.[5] In plants, the vacuole is where fructan production occurs. Sucrose:sucrose/fructan 6-fructosyltransferase is the fructosyltransferase in the vacuole which creates the beta 2,6 linkages to form the linear form of levan.[5] Bacteria also use a fructosyltransferase known as levansucrase to form levan.[5] These enzymes in bacteria form the 2,1 linkages in the linear basal chains of levan to allow for branching points to occur.[5] Many bacteria produce levan in the cell exterior.[5] This production can be sensitive to temperature, oxygen concentration, pH, and other factors.[5] Levan production in bacteria is typically a sign of growth in population.[5] There are also possible ways to produce by fracturing soybean mucilage.[citation needed]
Levans are produced by microbes during colonization of a food substrate. Erwinia amylovora exudes levan and amylovoran as part of its biofilm. Together they contribute to its pathogenicity.[7] In 2016, Ua-Arak et al. developed a sourdough method with high levan output (among other exopolysaccharides).[8]
Properties
The beta 2,6 linkages of levan allow for it to be soluble in both water and oil; however, the water temperature varies the degree of solubility.[9] Levan also is insoluble in many organic solvents such as methanol, ethanol, and isopropanol.[4] The branching of levan allows it to have a high tensile and cohesive strength, while the hydroxyl groups contribute to adhesion with other molecules.[4] The intrinsic viscosity n, a measure of the substance effect on viscosity of a solution, tends to be very low for levan.[4] This allows levan to be utilized in a pharmaceutical setting.
Real world implications
Many industries such as food, beverages, cosmetics, and even medicine utilize levan in their products. One of the reasons levan is able to be used in such a versatile way is that it fulfills all safety guidelines. Levan does not cause any form of skin or eye irritation, has not shown any allergenic effects, and poses no threat of cytotoxicity.[10]
Food
In the food industry, levan is incorporated due to its prebiotic effects, cholesterol lowering ability, and adhesive properties.[4] It also occurs naturally in low amounts in food for human consumption.[4] Levan is also included in many dairy products as fiber or sweetener.[4] Commercial, non-alcoholic beverages use levan as well in ultra-high-fructose-syrups.[11] Interestingly, levan causes useful bacterial growth and proliferation which can be especially important in the gut because it causes a decrease in population of the pathogenic bacteria.[12]
Cosmetics
Levan can be used for hair care and skin whitening. In hair care products, levan acts to form a film which creates a hair holding effect utilized in various gels and mousses.[5] Levan is used as a skin whitener as well because it has been tested to show inhibition on melanin production by decreasing the activity of the enzyme tyrosinase which is responsible for melanogenesis.[5]
Medicine
Levan has shown uses for burned tissue, anti-inflammation, and aquaculture. By combining levan into a thin film, it is able to activate an enzyme known as metalloproteinase which increases the recovery and healing process.[13] In the case of inflammation, levan interacts with the aggregating cells and affects their adhesion to the blood vessel causing reduced accumulation.[14] In aquaculture, results have shown that levan incorporated diets could possibly cause an increase in aggregation of viruses allowing for easier phagocytic removal.[15] Levan produced by Pantoea agglomerans ZMR7 was reported to decrease the viability of rhabdomyosarcoma (RD) and breast cancer (MDA) cells compared with untreated cancer cells. In addition, it has high antiparasitic activity against the promastigote of Leishmania tropica[16]
See also
References
- ↑ Meyer, Diederick (2015-01-01), Henry, Jeyakumar, ed., "Chapter Two - Health Benefits of Prebiotic Fibers" (in en), Advances in Food and Nutrition Research (Academic Press) 74: 47–91, doi:10.1016/bs.afnr.2014.11.002, PMID 25624035, http://www.sciencedirect.com/science/article/pii/S1043452614000035, retrieved 2020-05-10
- ↑ Gehatia, M.; Feingold, D. S. (1957-02-01). "The structure and properties of levan, a polymer of D‐fructose produced by cultures and cell‐free extracts of aerobacter levanicum". Journal of Polymer Science 23 (104): 783–790. doi:10.1002/pol.1957.1202310421. ISSN 1542-6238. Bibcode: 1957JPoSc..23..783F.
- ↑ Arvidson, Sara A.; Rinehart, B.Todd; Gadala-Maria, Francis (July 2006). "Concentration regimes of solutions of levan polysaccharide from Bacillus sp.". Carbohydrate Polymers 65 (2): 144–149. doi:10.1016/j.carbpol.2005.12.039. ISSN 0144-8617.
- ↑ 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 Srikanth, Rapala; Reddy, Chinta H S S Sundhar; Siddartha, Gudimalla; Ramaiah, M. Janaki; Uppuluri, Kiran Babu (April 2015). "Review on production, characterization and applications of microbial levan". Carbohydrate Polymers 120: 102–114. doi:10.1016/j.carbpol.2014.12.003. ISSN 0144-8617. PMID 25662693.
- ↑ 5.00 5.01 5.02 5.03 5.04 5.05 5.06 5.07 5.08 5.09 5.10 5.11 Öner, Ebru Toksoy; Hernández, Lázaro; Combie, Joan (September 2016). "Review of Levan polysaccharide: From a century of past experiences to future prospects". Biotechnology Advances 34 (5): 827–844. doi:10.1016/j.biotechadv.2016.05.002. ISSN 0734-9750. PMID 27178733.
- ↑ v. Lippmann, Edmund O. (January 1881). "Ueber das Lävulan, eine neue, in der Melasse der Rübenzuckerfabriken vorkommende Gummiart". Berichte der Deutschen Chemischen Gesellschaft 14 (1): 1509–1512. doi:10.1002/cber.188101401316. ISSN 0365-9496. https://zenodo.org/record/2240181.
- ↑ Mansfield, John; Genin, Stephane; Magore, Shimpei; Citovsky, Vitaly; Sriariyanum, Malinee; Ronald, Pamela; Dow, Max; Verdier, Valérie et al. (2012-06-05). "Top 10 plant pathogenic bacteria in molecular plant pathology". Molecular Plant Pathology (British Society for Plant Pathology (Wiley)) 13 (6): 614–629. doi:10.1111/j.1364-3703.2012.00804.x. ISSN 1464-6722. PMID 22672649.
- ↑ Lynch, Kieran M.; Zannini, Emanuele; Wilkinson, Stuart; Daenen, Luk; Arendt, Elke K. (2019-04-02). "Physiology of Acetic Acid Bacteria and Their Role in Vinegar and Fermented Beverages". Comprehensive Reviews in Food Science and Food Safety (Institute of Food Technologists (Wiley)) 18 (3): 587–625. doi:10.1111/1541-4337.12440. ISSN 1541-4337. PMID 33336918.
- ↑ Ouwehand, Arthur (2012-06-18). "Prebiotic developments". Microbial Ecology in Health & Disease 23: 10.3402/mehd.v23i0.18583. doi:10.3402/mehd.v23i0.18583. ISSN 1651-2235.
- ↑ "Montana Polysaccharides Corp.". http://www.polysaccharides.us/.
- ↑ Bello, Fabio Dal; Walter, Jens; Hertel, Christian; Hammes, Walter P. (January 2001). "In vitro study of Prebiotic Properties of Levan-type Exopolysaccharides from Lactobacilli and Non-digestible Carbohydrates Using Denaturing Gradient Gel Electrophoresis". Systematic and Applied Microbiology 24 (2): 232–237. doi:10.1078/0723-2020-00033. ISSN 0723-2020. PMID 11518326.
- ↑ Ritsema, Tita; Smeekens, Sjef (June 2003). "Fructans: beneficial for plants and humans". Current Opinion in Plant Biology 6 (3): 223–230. doi:10.1016/s1369-5266(03)00034-7. ISSN 1369-5266. PMID 12753971.
- ↑ Sözgen, Güler; Özdoğan, Gökçenaz; Kaplan Türköz, Burcu (2018-11-01). "Zymomonas mobilis levansukraz enziminin levan üretiminde kullanılması" (in tr). Gida / The Journal of Food 43 (6): 1061–1074. doi:10.15237/gida.gd18087. ISSN 1300-3070.
- ↑ Apostolopoulos, Nikos C. (2018), "Study One: Acute Inflammatory Response to Stretching", Stretch Intensity and the Inflammatory Response: A Paradigm Shift, Springer International Publishing, pp. 131–143, doi:10.1007/978-3-319-96800-1_3, ISBN 9783319967998
- ↑ Rairakhwada, D.; Pal, A.; Bhathena, Z.; Sahu, N.; Jha, A.; Mukherjee, S. (May 2007). "Dietary microbial levan enhances cellular non-specific immunity and survival of common carp (Cyprinus carpio) juveniles". Fish & Shellfish Immunology 22 (5): 477–486. doi:10.1016/j.fsi.2006.06.005. ISSN 1050-4648. PMID 17158064.
- ↑ Al-Qaysi, Safaa A. S.; Al-Haideri, Halah; Al-Shimmary, Sana M.; Abdulhameed, Jasim M.; Alajrawy, Othman I.; Al-Halbosiy, Mohammad M.; Moussa, Tarek A.; Farahat, Mohamed G. (2021-04-05). "Bioactive levan type exopolysaccharide produced by Pantoea agglomerans ZMR7: characterization and optimization for enhanced production". Journal of Microbiology and Biotechnology 31 (5): 696–704. doi:10.4014/jmb.2101.01025. ISSN 1738-8872. PMID 33820887.
Original source: https://en.wikipedia.org/wiki/Levan polysaccharide.
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