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Zein

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Zein
Identifiers
SymbolZein
PfamPF01559
InterProIPR002530
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary

Zein (/ˈzɪn/ ZEE-in) is a class of prolamine protein found in maize. It is usually manufactured as a powder from corn gluten meal. Zein is one of the best understood plant proteins.[1] Pure zein is clear, odorless, tasteless, hard, water-insoluble, and edible, and it has a variety of industrial and food uses.[2][3]

Commercial uses

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Historically, zein has been used in the manufacture of a wide variety of commercial products, including coatings for paper cups, soda bottle cap linings, clothing fabric,[4] buttons, adhesives, coatings and binders. The dominant historical use of zein was in the textile fibers market where it was produced under the name "Vicara".[2][5] With the development of synthetic alternatives, the use of zein in this market eventually disappeared. By using electrospinning, zein fibers have again been produced in the lab, where additional research will be performed to re-enter the fiber market.[6][7] It can be used as a water and grease coating for paperboards and allows recyclability.[8]

Zein's properties make it valuable in processed foods and pharmaceuticals, in competition with insect shellac. It is now used as a coating for candy, nuts, fruit, pills, and other encapsulated foods and drugs. In the United States, it may be labeled as "confectioner's glaze" (which may also refer to shellac-based glazes) and used as a coating on bakery products[9] or as "vegetable protein." It is classified as Generally Recognized as Safe (GRAS) by the U.S. Food and Drug Administration. For pharmaceutical coating, zein is preferred over food shellac, since it is all natural and requires less testing per the USP monographs.[citation needed]

Zein can be further processed into resins and other bioplastic polymers, which can be extruded or rolled into a variety of plastic products.[10][11] With increasing environmental concerns about synthetic coatings (such as PFOA) and the current higher prices of hydrocarbon-based petrochemicals, there is increased focus on zein as a raw material for a variety of nontoxic and renewable polymer applications, particularly in the paper industry.[12][13] Other reasons for a renewed interest in zein include concern about the landfill costs of plastics, and consumer interest in natural substances. There are also a number of potential new food industry applications.[citation needed]

Researchers at the University of Illinois at Urbana-Champaign and at William Wrigley Jr. Company have recently been studying the possibility of using zein to replace some of the gum base in chewing gum.[14] They are also studying medical applications such as using the zein molecule to "carry biocompounds to targeted sites in the human body".[15] There are a number of potential food safety applications that may be possible for zein-based packaging according to several researchers. A military contractor is researching the use of zein to protect MRE food packages.[16] Other packaging/food safety applications that have been researched include frozen foods,[17] ready-to-eat chicken,[18] and cheese and liquid eggs.[19] Food researchers in Japan have noted the ability of the zein molecule to act as a water barrier.[20]

While there are numerous existing and potential uses for zein, the main barrier to greater commercial success has been its historic high cost until recently. Zein pricing is now very competitive with food shellac. Zein may be extracted as a byproduct in the manufacturing process for ethanol[21] or in new off-shore manufacture.[citation needed]

Gene family

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Alpha-prolamins are the major seed storage proteins of species of the grass tribe Andropogoneae. They are unusually rich in glutamine, proline, alanine, and leucine residues and their sequences show a series of tandem repeats presumed to be the result of multiple intragenic duplication.[22] In Zea mays (Maize), the 22 kDa and 19 kDa zeins are encoded by a large multigene family and are the major seed storage proteins accounting for 70% of the total zein fraction. Structurally the 22 kDa and 19 kDa zeins are composed of nine adjacent, topologically antiparallel helices clustered within a distorted cylinder. The 22 kDa alpha-zeins are encoded by 23 genes;[23] twenty-two of the members are found in a roughly tandem array forming a dense gene cluster. The expressed genes in the cluster are interspersed with nonexpressed genes. Some of the expressed genes differ in their transcriptional regulation. Gene amplification appears to be in blocks of genes explaining the rapid and compact expansion of the cluster during the evolution of maize.[24]

Other biodegradable polymers

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References

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  1. ^ Momany, Frank A.; Sessa, David J.; Lawton, John C.; Selling, Gordon W.; Hamaker, Sharon A. H.; and Willett, Julious L. "Structural Characterization of A-Zein" December 27, 2005, J. Agric. Food Chem. doi:10.1021/jf058135h
  2. ^ a b Lawton, John W. "Zein: A History of Processing and Use", November 1, 2002, American Association of Cereal Chemists
  3. ^ Gennadios, Aristippos, ed. (2002). Protein-Based Films and Coatings. CRC Press. ISBN 9781420031980.
  4. ^ Commission on Life Sciences "Biobased Industrial Products: Research and Commercialization Priorities" 2002.
  5. ^ ter Horst, W.P. (1949). "Vicara — New Fiber Derived From Zein". Amer Dyestuff Rep. 38: P335.
  6. ^ Miyoshi, T., Toyohara, H., Minematsu, H. "Preparation of ultrafine fibrous zein membranes via electrospinning", Polymer International Vol. 54, no. 8, 2005.
  7. ^ Selling, G., Biswas, A., Patel, A., Walls, D., Dunlap, C., Wei, Y. "Impact of Solvent on Electrospinning of Zein and Analysis of Resulting Fibers", Macromolecular Chemistry and Physics Vol. 208, no. 9, 2007.
  8. ^ Parris, N (2002). "Recyclable zein-coated kraft paper and linerboard" (PDF). Progress in Paper Recycling. 11 (3): 24–29. Retrieved November 4, 2019.
  9. ^ Kobs, Lisa (May 2000). "Shining Up Appearances". Natural Products Insider.
  10. ^ Lee, Richard "Multiple-use Corn zein-based Biodegradable Resins, Sheets, and Films are an attractive alternative to plastic", University of Illinois at Urbana-Champaign.
  11. ^ Lawton Jr., J.W. "Plasticizers for Zein:their Effect on Tensile Properties and Water Absorption of Zein Films" January 12, 2004, Cereal Chemistry.
  12. ^ Jabar, Anthony Jr; Bilodeau, Michael A.; Neivandt, David J.; Spender, Jonathan "Barrier Compositions and Articles Produced with the Compositions", December 29, 2005, United States Patent (pending)
  13. ^ Parris, Nicholas; Sykes, Marguerite; Dickey, Leland C.; Wiles, Jack L.; Urbanik, Thomas J.; Cooke, Peter H. "Recyclable zein-coated kraft paper", Progress in paper recycling Vol. 11, no. 3, May 2002.
  14. ^ McGowan B.A., Padua G.W., and Lee S-Y. "Formulation of Corn Zein Chewing Gum and Evaluation of Sensory Properties by the Time-Intensity Method", September, 2005, Journal of Food Science.
  15. ^ Picklesimer, Phyllis. "Nanotechnologist Plans to Build Things with Bricklike Corn Molecules," University of Illinois at Urbana-Champaign.
  16. ^ Bertrand, Kate, "Military packages put technology to the test," September 2005
  17. ^ Padua, Graciela W., Rakotonirainy, Andrianaivo, and Wang, Qin "Zein-Based Biodegradable Packaging for Frozen Foods", University of Illinois at Urbana-Champaign
  18. ^ Janes M.E.; Kooshesh S.; Johnson M.G. "Control of Listeria monocytogenes on the Surface of Refrigerated, Ready-to-eat Chicken Coated with Edible Zein Film" September, 2002, Journal of Food Science.
  19. ^ Dawson, Paul "Packaging Films Fight Bacteria and Help the Environment" Clemson University
  20. ^ Qiangxian Wu, Hiroshi Sakabe and Seiichiro Isobe "Studies on the toughness and water resistance of zein-based polymers by modification" June, 2003, National Food Research Institute, Japan.
  21. ^ Core, Jim. "Corn Protein Could Reduce Ethanol Production Costs," April 15, 2002, United States Department of Agriculture Agricultural Research Service.
  22. ^ Garratt R, Oliva G, Caracelli I, Leite A, Arruda P (January 1993). "Studies of the zein-like alpha-prolamins based on an analysis of amino acid sequences: implications for their evolution and three-dimensional structure". Proteins. 15 (1): 88–99. doi:10.1002/prot.340150111. PMID 8451243. S2CID 32504936.
  23. ^ Song R, Llaca V, Linton E, Messing J (November 2001). "Sequence, regulation, and evolution of the maize 22-kD alpha zein gene family". Genome Res. 11 (11): 1817–25. doi:10.1101/gr.197301. PMC 311139. PMID 11691845.
  24. ^ Schnable, James C. (April 29, 2015). "Genome Evolution in Maize: From Genomes Back to Genes". Annual Review of Plant Biology. 66 (1). Annual Reviews: 329–343. doi:10.1146/annurev-arplant-043014-115604. ISSN 1543-5008. PMID 25494463. p. 335
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This article incorporates text from the public domain Pfam and InterPro: IPR002530