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Review Article

Natural gums of plant origin as edible coatings for food industry applications

Anuradha SahaUniversity School of Basic and Applied Sciences, Guru Gobind Singh Indraprastha University, Dwarka, New Delhi, India;
,
Shvetambri TyagiBhaskarcharya College of Applied Sciences, University of Delhi, Delhi, India;
,
Rajinder K. GuptaUniversity School of Biotechnology, Guru Gobind Singh Indraprastha University, Dwarka, New Delhi, India
&
Yogesh K. TyagiUniversity School of Basic and Applied Sciences, Guru Gobind Singh Indraprastha University, Dwarka, New Delhi, India; Correspondence[email protected]
Pages 959-973 | Received 06 Jul 2016, Accepted 11 Nov 2016, Published online: 20 Apr 2017

References

  • Mirhosseini H, Amid BT. A review study on chemical composition and molecular structure of newly plant gum exudates and seed gums. Food Res Int. 2012;46:387–398.
  • Phillips GO, Williams PA. Introduction to food hydrocolloids. Handbook of Hydrocolloids. Boca Raton, Fla: CRC Press; 2000.
  • Knudsen KEB. The nutritional significance of dietary fibre analysis. Animal Feed Sci Technol. 2001;90:3–20.
  • Baldwin EA. Edible coatings for fresh fruits and vegetables: past, present and future. In: Edible coatings and films to improve food quality. J.M. Krochta, E.A. Baldwin and M. Nisperos-Carriedo, editors. Lancaster, PA: Technomic; 1994. p. 25–64.
  • Baldwin EA, Hagenmaier R, Bai J. Edible coatings and films to improve food quality. Boca Raton (FL): CRC Press; 2011.
  • Rana V, Rai P, Tiwari AK, et al. Modified gums: approaches and applications in drug delivery. Carbohydr Polym. 2011;83:1031–1047.
  • Whistler RL. Industrial gums: polysaccharides and their derivatives. 2nd ed. London: Academic press; 2012.
  • Srivastava M, Kapoor VP. Seed galactomannans: an overview. Chem Biodivers. 2005;2:295–317.
  • Janjarasskul T, Krochta J. Edible packaging materials. Annu Rev Food Sci Technol. 2010;1:415–448.
  • Moncayo D, Buitrago G, Algecira N. The surface properties of biopolymer-coated fruit: a review. Ingeniería e Investigación. 2013;33:11–16.
  • Mohebbi M, Ansarifar E, Hasanpour N, et al. Suitability of aloe-vera and gum tragacanth as edible coatings for extending the shelf life of button mushroom. Food Bioprocess Technol. 2012;5:3193–3202.
  • Dhall RK. Advances in edible coatings for fresh fruits and vegetables: a review. Crit Rev Food Sci Nutr. 2013;53:435–450.
  • Mellinas C, Valdés A, Ramos M, et al. Active edible films: current state and future trends. J Appl Polym Sci. 2016;133:1–15.
  • Hershko V, Klein E, Nussinovitch A. Relationships between edible coating and garlic skin. J Food Science. 1996;61:769–777.
  • Razavi SMA, Amini AM, Zahedi Y. Characterization of a new biodegradable edible films based on sage seed gum: influence of plasticizer type and concentration. Food Hydrocolloid. 2015;43:290–298.
  • Kester JJ, Fennema OR. Edible films and coatings: a review. Food Technol. 1986;40:47–59.
  • Cerqueira MA, Lima AM, Teixeia JA, et al. Suitability of novel galactomannans as edible coatings for tropical fruits. J Food Eng. 2009a;94:372–378.
  • Cerqueira MA, Lima AM, Souza BWS, et al. Functional polysaccharides as edible coatings for cheese. J Agric Food Chem. 2009b;57:1456–1462.
  • Cerqueira MA, Pinheiro AC, Souza BWS, et al. Extraction, purification and characterization of galactomannans from non-traditional sources. Carbohydr Polym. 2009c;75:408–414.
  • Martins JT, Cerqueira MA, Souza BWS, et al. Shelf life extension of ricotta cheese using coatings of galactomannans from nonconventional sources incorporating nisin against Listeria monocytogenes. J Agric Food Chem. 2010;58:1884–1891.
  • Rojas-Argudo C, Del Rio MA, Perez-Gago MB. Development and optimization of locust bean gum (LBG) - based edible coatings for postharvest storage of ‘Fortune’ mandarins. Postharvest Biol Technol. 2009;52:227–234.
  • Conforti FD, Totty JA. Effects of three lipid/hydrocolloid coatings on shelf life stability of golden delicious apples. Int J Food Sci Tech. 2007;42:1101–1106.
  • Lima AM, Cerqueira MA, Souza BWS, et al. New edible coatings composed of galactomannans and collagen blends to improve the postharvest quality of fruits-influence on fruits gas transfer rate. J Food Eng. 2010;97:101–109.
  • Chen S, Nussinovitch A. Galactomannans in disturbances of structured wax hydrocolloid-based coatings of citrus fruit (easy-peelers). Food Hydrocolloid. 2000;14:561–568.
  • Falguera V, Quintero JP, Jimenez A, et al. Edible films and coatings: Structures, active functions and trends in their use. Trends Food Sci Tech. 2011;22:292–303.
  • Cerqueira MA, Bourbon AI, Pinheiro AC, et al. Galactomannans use in the development of edible films/coatings for food applications. Trends Food Sci Tech. 2011;22:662–671.
  • Saha A, Gupta RK, Tyagi S, et al. Guar gum based edible coating on cucumber. EJPMR. 2016;3:558–570.
  • Saha A, Gupta RK, Sharma RR, et al. Edible coating and its effect on the quality and shelf life of ‘Hachiya’, an astringent variety of persimmon fruit. Asian J Biochem Pharma Res. 2015;5:2231–2560.
  • Ghosh A, Dey K, Bhowmick N, et al. Effect of guar gum as edible coatings. The Ecoscan. 2014;6:202–207.
  • Bozdemir OA, Tutas M. Plasticizer effect on water vapour permeability properties of locust bean gum-based edible films. Turk J Chem. 2003;27:773–782.
  • Anderson DMW, Dea ICM. Recent advances in the chemistry of acacia gums. J Soc Cosmet Chem. 1971;22:61–76.
  • Williams PA, Phillips GO, Stephen AM, Churms SC. Gums and mucilages. Food polysaccharide and their application. In: A.M. Stephen, G.O. Phillips and P.A. Williams, editors; Boca Raton (FL): CRC Press; 2006.
  • Stout AW. Larch arabinoglactan. Industrial gums. New York: Academic Press; 1959.
  • Goldstein AM, Alter EN. Guar gum. Industrial Gums. In: R.L. Whistler, editor. New York: Academic Press; 1959.
  • Launay B, Cuvelier F, Martinez-Reyes S. Viscosity of locust bean, guar and xanthan gum solutions in the Newtonian domain: a critical examination of the log (ηsp)- log C[η]0 master curves. Carbohyd Polym. 1997;34:385–395.
  • Deuel H, Neukon H. Some properties of Locust bean gum. Natural plant hydrocolloids. Advances in Chemistry No. 11. Washington, DC: American Chemical Society; 1954.
  • Mathur NK. Industrial galactomannan polysaccharides. Boca Raton (FL): CRC Press; 2011.
  • Ofori-Kwakye K, Asantewaa Y, Kipo SL. Physicochemical and binding properties of cashew tree gum in metronidazole tablet formulations. Int J Pharm Pharm Sci. 2010;2:105–109.
  • Mathur V, Mathur NK. Fenugreek and other lesser known legume galactomannan-polysaccharides: scope for developments. J Sci Ind Res. 2005;64:475–481.
  • Jiang JX, Zhu LW, Zhang WM, et al. Characterization of galactomannan gum from fenugreek (Trigonella foenum-graecum) seeds and its rheological properties. Int J Polym Mater. 2007;56:1145–1154.
  • Manchanda R, Arora SC, Manchanda R. Tamarind seed polysaccharide and its modifications-versatile pharmaceutical excipients - a review. Int J Pharm Tech Res. 2010;6:412–420.
  • Nayak AK, Pal DK, Santra K. Screening of polysaccharides from tamarind, fenugreek and jackfruit seeds as pharmaceutical excipients. Int J Biol Macromol. 2015;79:756–760.
  • Cui SW. Polysaccharide gum from Agricultural Products: processing, structures and functionality. Boca Raton (FL): CRC Press; 2000.
  • Bahman A, Azizi MH, Adnani A, et al. Determining and modeling rheological characteristics of quince seed gum. Food Hydrocolloid. 2015;43:259–264.
  • Jefferies M, Pass G, Phillips GO. Viscosity of aqueous solutions of gum ghatti. J Sci Food Agric. 1977;28:173–179.
  • Ogwal E, Wu X, Hu W. Analysis of enzymatic degradation of polymer additives. Asian J of Applied Sciences.. 2011;4:526–534.
  • Chaudhari NB, Patil VR. Isolation and evaluation of Cassia fistula seed gum as film coating material. Int J PharmTech Res. 2011;3:478–1481.
  • Ali A, Maqbool M, Alderson PG, et al. Effect of gum arabic as an edible coating on antioxidant capacity of tomato (Solanum lycopersicum L.) fruit during storage. Postharvest Biol Technol. 2013;76:119–124.
  • Mohamadnia Z, Zohuriaan-Mehr MJ, Kabiri K, et al. Tragacanth gum-graft-polyacrylonitrile: synthesis, characterization and hydrolysis. J Polym Res. 2008;15:173–180.
  • Martins JT, Cerqueira MA, Bourbon AI, et al. Synergistic effects between k-caragennan and locust bean gum on physicochemical properties of edible films made thereof. Food Hydrocolloid. 2012;29:280–289.
  • Mehyar GF, Al-Qadiri HM, Abu-Blan H, et al. Antifungal effectiveness of potassium sorbate incorporated in edible coatings against spoilage moulds of apples, cucumber and tomatoes during refrigerated storage. J Food Sci. 2012;67:210–217.
  • Mohamed AYI, Aboul-Anean HE, Hassan AM. Utilization of edible coating in extending the shelf life of minimally processed prickly pear. J Appl Sci Res. 2013;9:1202–1208.
  • Cortez-Vega WR, Piotrowicz IBB, Prentice C, et al. Influence of different edible coatings in minimally processed pumpkin (Cucurbita moschata Duch). Int Food Res J. 2014;21:2017–2023.
  • Mahfoudhi N, Chouaibi M, Hamdi S. Effectiveness of almond gum trees exudate as a novel edible coating for improving postharvest quality of tomato (Solanum lycopersicum L.) fruits. Food Sci Technol Int. 2014;20:33–43.
  • Mahfoudhi N, Hamdi S. Use of almond gum and gum arabic as novel edible coating to delay postharvest ripening and to maintain sweet cherry (Prunus avium) quality during storage. J Food Process Preserv. 2015;39:1499–1508.
  • Pizato S, Cortez-Vega WR, de Souza JTA, et al. Effects of different edible coatings in physical, chemical and microbiological characteristics of minimally processed peaches (Prunus persica L. Batsch). J Food Saf. 2013;33:30–39.
  • Yousuf B, Srivastava AK. Psyllium (Plantago) gum as an effective edible coating to improve quality and shelf life of fresh-cut papaya (Carica papaya). Int J Biol, Biomol, Agri, Food Biotechnol Eng. 2015;9:743–748.
  • Yarahmadi M, Azizi M, Morid B, et al. Postharvest applications of gum and mucilage as edible coating on postharvest life and quality of strawberry fruit. ijabbr. 2014;2:1279–1286.
  • Hosseini-Parvar SH, Matia-Merino L, Golding M. Effect of basil seed gum (BSG) on textural, rheological and microstructural properties of model processed cheese. Food Hydrocolloid. 2015;43:557–567.
  • Khazaei N, Esmaiili M, Emam-Djomeh Z. Effect of active edible coatings made by basil seed gum and thymol on oil uptake and oxidation in shrimp during deep-fat frying. Carbohydr Polym. 2016;137:249–254.
  • Molina EB, Legarreta IG, Carter EJV. Moisture barrier properties and morphology of mesquite gum-candelilla wax based edible emulsion coatings. Food Res Int. 2003;36:885–893.
  • Tomas SA, Bosquez-Molina E, Stolik S, et al. Effects of mesquite gum-candelilla wax based edible coatings on the quality of guava fruit (Psidium guajava L.). J Phys IV France. 2005;125:889–892.
  • Haq MA, Alam MJ, Hasnain A. Gum Cordia: a novel edible coating to increase the shelf life of chilgoza (Pinus gerardiana). LWT-Food Sci Technol. 2013;50:306–311.
  • Haq MA, Hasnain A. Antioxidant containing gum cordia coatings for control of peanut oxidation. J Food Process Pres. 2014;38:896–904.
  • El-Anany AM, Hassan GFA, Rehab Ali FM. Effects of edible coatings on the shelf life and quality of Anna apple (Malus domestica Borkh) during cold storage. J Food Technol. 2009;7:5–11.
  • Cerqueira MA, Souza BWS, Martins JT, Vicente AA. Improved hydrocolloid-based edible coatings/films systems for food applications. In A. Tiwari, editor. Polysaccharides: Development, properties and applications. New York: Nova Science Publishers; 2010a.
  • Cerqueira MA, Souza BWS, Martins JT, et al. Seed extracts of Gleditsia triacanthos: functional properties evaluation and incorporation into galactomannan films. Food Res Int. 2010b;43:2031–2038.
  • Dos Santos VRF, Souza BWS, Teixeira JA, et al. Relationship between galactomannan structure and physicochemical properties of films produced thereof. J Food Sci Technol. 2015;52:8292–9299.
  • Bourbon AI, Pinheiro AC, Ribeiro C, et al. Characterization of galactomannans extracted from seeds of Gleditisia triacanthos and Sophora japonica through shear and extensional rheology: comparison with guar gum and locust bean gum. Food Hydrocolloid. 2010;24:184–192.
  • Mazzini MN, Cerezo AS. The carbohydrate and protein composition of the endosperm, embryo and testa of the seed of Gleditsia triacanthos. J Sci Food Agric. 1979;30:881–891.
  • Sciarini LS, Maldonado F, Ribotta PD, et al. Chemical composition and functional properties of Gleditsia triacanthos gum. Food Hydrocolloid. 2009;23:306–313.
  • López-Franco YL, Córdova-Moreno RE, Goycoolea FM, et al. Classification and physicochemical characterization of mesquite gum (Prosopis sp.). Food Hydrocolloid. 2012;26:159–166.
  • Rodrigues DC, Cunha AP, Brito ES, et al. Mesquite seed gum and palm fruit oil emulsion edible films: Influence of oil content and sonication. Food Hydrocolloid. 2016;56:227–235.
  • Cruz Alcedo GE. Production and characterization of Prosopis seed galactomannan, Ph.D Thesis, Swiss Federation Institute of Technology, Zurich; 1999.
  • Osés J, Fabregat-Vázquez M, Pedroza-Islas R, et al. Development and characterization of composite edible films based on whey protein isolate and mesquite gum. J Food Eng. 2009;92:56–62.
  • Antoniou J, Liu F, Majeed H, et al. Characterization of tara gum edible films incorporated with bulk chitosan and chitosan nanoparticles: a comparative study. Food Hydrocolloid. 2015;44:309–319.
  • Patel C, Patel M. Preliminary evaluation of sesbania seed gum mucilage as gelling agent. Int J PharmTech Res. 2009;1:840–843.
  • Gupta DS, Mukherjee S. Structure of galactomannan from Cassia occidentalis seeds. Isolation and structure elucidation of oligosaccharides. Indian J Chem. 1975;13:1152–1154.
  • Embuscado M, Huber KC, Editors Edible films and coatings for food applications. New York: Springer Science and Business Media; 2009.
  • Ahmadi R, Kalbasi-Ashtari A, Oromiehie A, et al. Development and characterization of a novel biodegradable edible film obtained from psyllium seed (Plantago ovata Forsk). J Food Eng. 2012;109:745–751.
  • Banasaz S, Hojatoleslami M, Razavi SH, et al. The effects of psyllium seed gum as an edible coating and in comparison to chitosan on the textural properties and color changes of red delicious apple. Int J Farming Allied Sci. 2013;2:651–657.
  • Mirhosseini H, Amid BT. Effect of different drying techniques on flowability characteristics and chemical properties of natural carbohydrates-protein gum from durian fruit seed. Chem Cent J. 2013;7:1–14.
  • Perduca MJ, Spotti MJ, Santiago LG, et al. Rheological characterization of the hydrocolloid from Gleditsia amorphoides seeds. LWT- Food Sci Technol. 2013;51:143–147.
  • Spotti MJ, Santiago LG, Amelia C, et al. Mechanical and microstructural properties of milk whey protein/epsina corona gum mixed gels. LWT- Food Sci Technol. 2012;48:69–74.
  • Somboonpanyakul P, Wang Q, Cui W, et al. Malwa nut gum (part 1); extraction and physicochemical characterization. Carbohydr Polym. 2006;64:247–253.
  • Razavi SMA, Cui SW, Guo Q, et al. Some physicochemical properties of sage (Salvia macrosiphon) seed gum. Food Hydrocolloid. 2014;35:453–462.
  • Razavi SMA, Taheri H, Quinchia LA. Steady shear flow properties of wild sage (Salvia macrosiphon) seed gum as a function of concentration and temperature. Food Hydrocolloid. 2011;25:451–458.
  • Razavi SMA, Taheri H, Sunchez R. Viscoelastic characterization of wild sage (Salvia macrosiphon) seed gum as a function of concentration. Int J Food Prop. 2013;16:1604–1619.
  • Naji S, Razavi SMA, Karazhiyan H. Effect of thermal treatments on functional properties of cress seed (Lepidium sativum) and xanthan gums: A comparative study. Food Hydrocolloid. 2012;28:75–81.
  • BeMiller JM, Whistler Barkalow RL, Aloe DG. Chia, flaxseed, okra, psyllium seed, quince seed and tamarind gums. In Industrial Gums: polysaccharides and their derivatives. New York: Academic Press; 1993. p. 227–256.
  • Segura-Campos MR, Ciau-Solis N, Rosado-Rubio GL, et al. Chemical and functional properties of chia seed (Salvia hispanica L.) gum. Int J Food Sci. 2014;2014:1–5.
  • Wanasundara PKJPD, Shahidi F. Removal of flaxseed mucilage by chemical and enzymatic treatments. Food Chem. 1997;59:47–55.
  • Wang Y, Li D, Wang LJ, et al. Dynamic mechanical properties of flaxseed gum based edible films. Carbohydr Polym. 2011;86:499–504.
  • Chen HH, Xu S, Wang Z. Gelation properties of flaxseed gum. J Food Eng. 2006;77:295–303.
  • Li XY, Wang Y, Li D. Effects of flaxseed gum addition and drying conditions on creep-recovery properties and water vapour transmission rate of starch-based films. Int J Food Eng. 2009;5:1–15.
  • Khazaei N, Esmaiili M, Djomeh ZE, et al. Characterization of new biodegradable edible films made from basil seed (Ocimum basilicum L.) gum. Carbohyd Polym. 2014;102:199–206.
  • Razavi SMA, Bostan A, Rezaie M. Optimization study of gum extraction from basil seeds (Ocimum basilicum L.). Int J Food Sci Technol. 2009;44:1755–1762.
  • Tomasik P. Saccharides and polysaccharides: an introduction, Chemical and Functional Properties of Food Saccharides. Boca Raton, Washington, DC: CRC Press; 2004.
  • Minemoto Y, Fang X, Hakamata K, et al. Oxidation of linoleic acid encapsulated with soluble soybean polysaccharide by spray-drying. Biosci Biotechnol Biochem. 2002;66:1829–1834.
  • Nep EI, Conway BR. Characterization of grewia gum, a potential pharmaceutical excipient. J Excip Food Chem. 2010;1:30–40.
  • Koocheki A, Taherian AR, Bostan A. Studies on the steady shear flow behaviour and functional properties of Lepidium perfoliatum seed gum. Food Res Int. 2013;50:446–456.
  • Hesarinejad MA, Koocheki A, Razavi SMA. Dynamic rheological properties of Lepidium perfoliatum seed gum: effect of concentration, temperature and heating/cooling rate. Food Hydrocolloid. 2013;35:583–589.
  • Seyedi S, Koocheki A, Mohebbi M, et al. Lepidium perfoliatum seed gum: A new source of carbohydrate to make a biodegradable film. Carbohydr Polym. 2014;101:349–358.
  • Seyedi S, Koocheki A, Mohebbi M, et al. Improving the physical and moisture barrier properties of Lepidium perfoliatum seed gum biodegradable film with stearic and palmitic acids. Int J Biol Macromol. 2015;77:151–158.
  • Ebrahimi SE, Koocheki A, Milani E, et al. Interactions between Lepidium perfoliatum seed gum - Grass pea (Lathyrus sativus) protein isolate in composite biodegradable film. Food Hydrocolloid. 2016;54:302–314.
  • Carneiro-da-Cunha MG, Cerqueira MA, Souza MP, et al. Physical properties of edible coatings and films made with a polysaccharide from Anacardium occidentale L. J Food Eng. 2009;95:379–385.
  • Souza MP, Cerqueira MA, Souza BWS, et al. Polysaccharide from Anacardium occidentale L. tree gum (Policaju) as a coating for ‘Tommy Atkins’ mangoes. Chem Pap. 2010;64:475–481.
  • Idris OHM, Williams PA, Phillips GO. Characterization of gum from Acacia senegal trees of different age and location using multidetection gel permeation chromatography. Food Hydrocolloid. 1998;12:379–388.
  • Maqbool M, Asgar A, Alderson PG, et al. Effects of Novel Edible Composite coating based on gum arabic and chitosan on biochemical and physiological responses of banana fruits during cold storage. J Agric Food Chem. 2011;59:5474–5482.
  • Ali A, Maqbool M, Alderson PG, et al. Efficacy of biodegradable novel edible coatings to control postharvest anthracnose and maintain quality of fresh horticultural produce. Acta Hort. 2012;945:39–44.
  • Eskandari A, Heidari M, Daneshvar MH, et al. Studying effects of edible coatings of arabic gum and olive oil on the storage life and maintain quality of postharvest sweet lemon (Citrus limetta). Int J Agri Crop Sci. 2014;7:207–213.
  • Al-Juhaimi F, Ghafoor K, Babiker EE. Effect of gum arabic edible coating on weight loss, firmness and sensory characteristics of cucumber (Cucumis sativus L.) fruits during storage. Pak J Bot. 2012;44:1439–1444.
  • Mahfoudhi N, Chouaibi M, Donsì F, et al. Chemical composition and functional properties of gum exudates from the trunk of the almond tree (Prunus dulcis). Food Sci Technol Int. 2012;18:241–250.
  • Abbasi S, Mohammadi S, Rahimi S. Partial substitution of gelatin with persian gum and use of olibanum for production of functional pastille. Biosyst Eng J. 2011;42:121–131.
  • Mikkonen KS, Rita H, Helen H, et al. Effect of Polysaccharide structure on mechanical and thermal properties of galactomannan-based films. Biomacromolecules. 2007;8:3198–3205.
  • Cheng HN, Neiss TG. Solution NMR spectroscopy of food polysaccharides. Polym Rev. 2012;52:81–114.
  • Wenbin Y. Effects of edible film coating of fenugreek gum with Chinese herbal medicine Codonopisis treatment on storage quality of Ficus carica L. Xibei Nongye Xuebao. 2014;23:160–166.

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