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Review Article

Microbial transglutaminase: An overview of recent applications in food and packaging

Heba Sayed MostafaFaculty of Agriculture, Department of Food Science, University of Cairo, Giza, EgyptCorrespondence[email protected]
Pages 161-177 | Received 31 Jul 2019, Accepted 14 Jan 2020, Published online: 29 Jan 2020

References

  • Abe H, Goto M, Kamiya N. 2011. Protein lipidation catalyzed by microbial transglutaminase. Chem Eur J. 17(50):14004–14008.
  • Aguiar SS, Veloso MI, Fernando AL, Franco R. 2017. Control of milk allergenicity. Dairy Vet Sci J. 2:001–006.
  • Akal H, Kocak C, Ozer H. 2018. Transglutaminase applications in dairy technology. In: Budak S, Akal C, editor. Microbial cultures and enzymes in dairy technology. Pennsylvania (PA): IGI Global; p. 152–181.
  • Al-Asmar A, Giosafatto CV, Panzella L, Mariniello L. 2019. The effect of transglutaminase to improve the quality of either traditional or pectin-coated falafel (fried Middle Eastern food). Coatings. 9(5):331–314.
  • Altindag G, Certel M, Erem F, Konak U. 2014. Quality characteristics of gluten-free cookies made of buckwheat, corn, and rice flour with/without transglutaminase. Food Sci Technol Int. 21:213–220.
  • Amiri A, Shahedim M, Kadivar M. 2017. Structural properties of gluten modified by ascorbic acid and transglutaminase. Int J Food Prop. 20:S1588–S1599.
  • Ando H, Adachi M, Umeda K, Matsuura A, Nonaka M, Uchio R, Tanaka H, Motoki M. 1989. Purification and characteristics of a novel transglutaminase derived from microorganisms. Agric Biol Chem. 53:2613–2617.
  • Ashie I, Lanier T. 2000. Transglutaminase in seafood processing. In: Haard NF, Simpson BK, editors. Seafood enzymes: utilization and influence on postharvest seafood quality. New York: Marcel Dekker; p. 147–166.
  • Atilgan E, Kilic B. 2017. Effects of microbial transglutaminase, fibrimex and alginate on physicochemical properties of cooked ground meat with reduced salt level. J Food Sci Technol. 54:303–312.
  • Babiker E, Hiroyuki A, Matsudomi N, Iwata H, Ogawa T, Bando N, Kato A. 1998. Effect of polysaccharide conjugation or transglutaminase treatment on the allergenicity and functional properties of soy protein. J Agric Food Chem. 46(3):866–871.
  • Bahrim G, Iancu C, Butu N, Negoita TG. 2010. Production of a novel microbial transglutaminase using Streptomyces sp. polar strains. Roman Biotechnol Lett. 15:5197–5203.
  • Balogh G, Muszbek L, Komaromi I. 2019. First step of the transglutaminase reaction catalyzed by activated factor XIII subunit A, hybrid quantum chemistry molecular mechanics calculations. J Phys Chem B. 123(18):3887–3897.
  • Baugreet S, Kerry JP, Allen P, Gallagher E, Hamill R. 2018. Physicochemical characteristics of protein-enriched restructured beef steaks with phosphates, transglutaminase, and elasticized package forming. J Food Qual. 1:1–11.
  • Berti C, Roncoroni L, Falini M L, Caramanico R, Dolfini E, Bardella M T, Elli L, Terrani C, Forlani F. 2007. Celiac-related properties of chemically and enzymatically modified gluten proteins. J Agric Food Chem. 55(6):2482–2488.
  • Binsi PK, Shamasundar BA. 2012. Purification and characterization of transglutaminase from four fish species: effect of added transglutaminase on the viscoelastic behavior of fish mince. Food Chem. 132(4):1922–1929.
  • Campos N, Castanon S, Urreta I, Santos M, Torne JM. 2013. Rice transglutaminase gene: Identification, protein expression, functionality, light dependence and specific cell location. Plant Sci. 205–206:97–110.
  • Castro-Briones M, Calderón G.N, Velazquez G, Rubio M.S, Vázquez M, Ramírez J.A. 2009. Mechanical and functional properties of beef products obtained using microbial transglutaminase with treatments of pre-heating followed by cold binding. Meat Sci. 83(2):229–238.
  • Cavelier S, Dastjerdi AK, McKee MD, Barthelat F. 2018. Bone toughness at the molecular scale: a model for fracture toughness using crosslinked osteopontin on synthetic and biogenic mineral substrates. Bone. 110:304–311.
  • Cavenaghi-Altemio AD, Hashinokuti A, Albuquerque DM, Fonseca GG. 2018. Transglutaminase addition increases quality and acceptation of sausages obtained from mechanically separated meat of hybrid sorubins. Emir J Food Agric. 30:952–958.
  • Collar C, Bollaín C. 2004. Impact of microbial transglutaminase on the viscoelastic profile of formulated bread doughs. Eur Food Res Technol. 218(2):139–146.
  • Cortez J, Bonner PLR, Griffin M. 2004. Application of transglutaminases in the modification of wool textiles. Enz Microbial Technol. 34(1):64–72.
  • Cui L, Du G, Chen J, Wang Q, Wang P, Fan X. 2008a. Effect of microbial transglutaminase on dyeing properties of natural dyes on wool fabric. Biocatal Biotransform. 26(5):399–404.
  • Cui L, Du G, Zhang D, Liu H, Chen J. 2007. Purification and characterization of transglutaminase from a newly isolated Streptomyces hygroscopicus. Food Chem. 105(2):612–618.
  • Cui L, Du G, Zhang D, Chen J. 2008b. Thermal stability and conformational changes of transglutaminase from a newly isolated Streptomyces hygroscopicus. Biores Technol. 99(9):3794–3800.
  • Cui L, Wang Q, Wang P, Huan Q, Fan X. 2009. Transglutaminase-mediated crosslinking of gelatin onto wool surfaces to improve the fabric properties. J Appl Polym Sci. 113(4):2598–2604.
  • Danesh E, Goudarzi M, Jooyandeh H. 2017. Effect of whey protein addition and transglutaminase treatment on the physical and sensory properties of reduced-fat ice cream. J Dairy Sci. 100(7):5206–5211.
  • Davalos-Saucedo CA, Rossi-Marquez G, Regalado-Gonzalez C, Alonzo-Macias M, Di Pierro P. 2018. Application of transglutaminase crosslinked whey protein–pectin coating improves egg quality and minimizes the breakage and porosity of eggshells. Coatings. 8:1–9.
  • Dekking EHA, Van Veelen PA, de Ru A, Kooy-Winkelaar EMC, Gröneveld T, Nieuwenhuizen WF, Koning F. 2008. Microbial transglutaminase generate T cell stimulatory epitopes involved in celiac disease. J Cereal Sci. 47(2):339–346.
  • Dhall RK. 2013. Advances in edible coatings for fresh fruits and vegetables: a review. Crit Rev Food Sci Nutr. 35:435–450.
  • Dube M, Schäfer C, Neidhart S, Carle R. 2007. Texturisation and modification of vegetable proteins for food applications using microbial transglutaminase. Eur Food Res Technol. 225(2):287–299.
  • Duran R, Junqua M, Schmitter J.M, Gancet C, Goulas P. 1998. Purification, characterization and gene cloning of transglutaminase from Streptoverticillium cinnamoneum CBS 83.68. Biochim. 80(4):313–319.
  • Fernandes P. 2016. Enzymes in fish and seafood processing. Front Bioeng Biotechnol. 4:1–14.
  • Forghani Z, Eskandari MH, Aminlari M, Shekarforoush SS. 2017. Effects of microbial transglutaminase on physicochemical properties, electrophoretic patterns and sensory attributes of veggie burger. J Food Sci Technol. 54(8):2203–2213.
  • Fu L, Ni S, Wang C, Wang Y. 2019. Transglutaminase-catalysed cross-linking eliminates Penaeus chinensis tropomyosin allergenicity by altering protein structure. Food Agric Immun. 30(1):296–308.
  • Garcia-Gomez B, Romero-Rodriguez A, Vazquez-Oderiz L, Munoz-Ferreiro N, Vazquez M. 2019. Skim yoghurt with microbial transglutaminase: evaluation of consumer acceptance. CyTA-J Food. 17:280–287.
  • Gauche C, Tomazi T, Barreto PLM, Ogliari PJ, Bordignon-Luiz MT. 2009. Physical properties of yoghurt manufactured with milk whey and transglutaminase. LWT-Food Sci Technol. 42(1):239–243.
  • Gembeh SV, Farrell HM, Taylor MM, Brown EM, Marmer WN. 2005. Application of transglutaminase to derivatize proteins: 1. Studies on soluble proteins and preliminary results on wool. J Sci Food Agric. 85(3):418–424.
  • Gemici R, Oner Z. 2017. Physical properties of half-fat kashar cheese manufactured with and without transglutaminase. J Grad Sch Nat App Sci Mehmet Akif Ersoy Univ. 8:166–171.
  • Gerber U, Jucknischke U, Putzien S, Fuchsbauer H. 1994. A rapid and simple method for the purification of transglutaminase from Streptoverticillium mobaraense. Biochem J. 299(3):825–829.
  • Gerrard JA, Fayle SE, Brown PA, Sutton KH, Simmons L, Rasiah I. 2001. Effects of microbial transglutaminase on the wheat proteins of bread and croissant dough. J Food Sci. 66(6):782–786.
  • Giosafatto CVL, Al-Asmar A, D’Angelo A, Roviello V, Esposito M, Mariniello L. 2018. Preparation and characterization of bioplastics from grass pea flour cast in the presence of microbial transglutaminase. Coatings. 8(12):435.
  • Giosafatto CVL, Rigby NM, Wellner N, Ridout M, Husband F, Mackie AR. 2012. Microbial transglutaminase-mediated modification of ovalbumin. Food Hydrocoll. 26(1):261–267.
  • Goncalves AA, Passos M. 2010. Restructured fish product from white croaker (Micropogonias furnieri) mince using microbial transglutaminase. Braz Arch Biol Technol. 53:987–995.
  • Gujral H, Rosell C. 2004. Functionality of rice flour modified with a microbial transglutaminase. J Cereal Sci. 39(2):225–230.
  • Gultekin S, Akpinar D, Simsek A, Kilic B. 2012. The effect of transglutaminase and sodium erithorbate on oxidative stability and microbiological and physicochemical properties of wieners. J Food Agric Environ. 10:151–156.
  • Havenaar R, de Jong A, Koenen M E, van Bilsen J, Janssen A M, Labij E, Westerbeek H J. M. 2013. Digestibility of transglutaminase cross-linked caseinate versus native caseinate in an in vitro multicompartmental model simulating young child and adult gastrointestinal conditions. J Agric Food Chem. 61(31):7636–7644.
  • Hiiragi T, Sasaki H, Nagafuchi A, Sabe H, Shen S C, Matsuki M, Yamanishi K, Tsukita S. 1999. Transglutaminase type I and its cross-linking activity are concentrated at adherens junctions in simple epithelial cells. J Biol Chem. 274(48):34148–34154.
  • Ho ML, Leu SZ, Hsieh JF, Jiang ST. 2000. Technical approach to simplify then purification method and characterization of microbial transglutaminase produced from Streptoverticillium ladakanum. J Food Science . 65(1):76–80.
  • Hong G, Chin K. 2010. Effects of microbial transglutaminase and sodium alginate on cold-set gelation of porcine myofibrillar protein with salt levels. Food Hydrocoll. 24(4):444–451.
  • Hosseini S M, Soltanizadeh N, Mirmoghtadaee P, Banavand P, Mirmoghtadaie L, Shojaee-Aliabadi S. 2018. Gluten-free products in celiac disease: nutritional and technological challenges and solutions. J Res Med Sci. 23:109–112.
  • Hu X, Ren J, Zhao M, Cui C, He P. 2011. Emulsifying properties of the transglutaminase-treated crosslinked product between peanut protein and fish (Decapterus maruadsi) protein hydrolysates. J Sci Food Agric. 91(3):578–585.
  • Ibrahim OA, Nour MM, Khorshid MA, El-Hofi MA, El-Tanboly EE, Abd-Rabou NS. 2017. UF-white soft cheese cross-linked by rosemary transglutaminase. Int J Dairy Sci. 12(1):64–72.
  • Javitt G, Ben-Barak-Zelas Z, Jerabek-Willemsen M, Fishman A. 2017. Constitutive expression of microbial transglutaminase in Escherichia coli and comparative characterization to a known variant. BMC Biotechnol. 17(1):10.
  • Jeger S, Zimmermann K, Blanc A, Grunberg J, Honer M, Hunziker P, Struthers H, Schibli R. 2010. Site-specific and stoichiometric modification of antibodies by bacterial transglutaminase. Angew Chem Int Ed. 49(51):9995–9997.
  • Jenkins DJ, Mirrahimi A, Srichaikul K, Berryman CE, Wang L, Carleton A, Abdulnour S, Sievenpiper JL, Kendall CWC, Kris-Etherton PM. 2010. Soy protein reduces serum cholesterol by both intrinsic and food displacement mechanisms. J Nutr. 13:2302S–2311S.
  • Jiang XL ,Tian JC ,Hao Z, Zhang WD. 2008. Protein content and amino acid composition in grains of wheat-related species. Agric Sci China. 7:272–279.
  • Jiang Z, Pulkkinen M, Wang Y, Lampi A, Stoddard FL, Salovaara H, Piironen V, Sontag-Strohm T. 2016a. Faba bean flavour and technological property improvement by thermal pre-treatments. LWT-Food Sci Technol. 68:295–305.
  • Jiang S, Yin L. 2000. Application of transglutaminase in seafood and meat processings. J Fish Sci Taiwan. 28:151–162.
  • Jiang S, Zhang X, Ma Y, Tuo Y, Qian F, Fu W, Mu G. 2016b. Characterization of whey protein-carboxymethylated chitosan composite films with and without transglutaminase treatment. Carbhydr Polym. 153:153–159.
  • Jiang S, Zhao X. 2010. Transglutaminase-induced cross-linking and glucosamine conjugation in soybean protein isolates and its impacts on some functional properties of the products. Eur Food Res Technol. 231(5):679–689.
  • Jong G, Koppelman G. 2002. Transglutaminase catalyzed reactions: impact on food applications. J Food Science. 67:2798–2806.
  • Joo S, Kim J, Lee S. 2011. Physicochemical properties of whole soybean curd prepared by microbial transglutaminase. Food Sci Biotechnol. 20(2):437–444.
  • Jooyandeh H, Mortazafi S, Farhang P, Samavati V. 2015. Physicochemical properties of set-style yoghurt as effect by microbial transglutaminase and milk solids contents. J Appl Environ Biol Sci. 4:59–67.
  • Kaewudom P, Benjakul S, Kijroongrojana K. 2012. Effect of bovine and fish gelatin in combination with microbial transglutaminase on gel properties of threadfin bream surimi. Int Aquat Res. 4(1)‒:13.
  • Kang H, Cho YD. 1996. Purification and properties of transglutaminase from soybean (Glycine max) leaves. Biochem Biophys Res Comm. 223(2):288–292.
  • Kasprzyk I, Markowska J, Polak E. 2016. Effect of microbial transglutaminase on ice cream heat resistance properties–a short report. Pol J Food Nutr Sci. 66(3):227–231.
  • Katayama K, Chin KB, Yoshihara S, Muguruma M. 2006. Microbial transglutaminase improves the property of meat protein and sausage texture manufactured with low-quality pork loins. Asian Australas J Anim Sci. 19:102–108.
  • Kiana P, Sayed MB, Amin MK, Roya A, Mehran A, Mohammad S, Alireza S. 2017. Quality assessment of wheat bread with microbial transglutaminase supplemented with hull-less barley flour. Curr Nutr Food Sci. 13:182–191.
  • Kieliszek M, Misiewicz A. 2014. Microbial transglutaminase and its application in the food industry. Folia Microbiol. 59(3):241–250.
  • Klein JD, Guzman E, Kuehn GD. 1992. Purification and partial characterization of transglutaminase from Physarum polycephalum. J Bacteriol. 174(8):2599–2605.
  • Lerner A, Matthias T. 2015a. Possible association between celiac disease and bacterial transglutaminase in food processing: a hypothesis. Nutr Rev. 73(8):544–552.
  • Lerner A, Matthias T. 2015b. Food industrial microbial transglutaminase in celiac disease: treat or trick. IJCD. 3:1–6.
  • Lerner A, Matthias T. 2019. Microbial transglutaminase is beneficial to food industries but a caveat to public health. Med One. 4:e190001.
  • Li H, Zhang L, Cui Y, Luo X, Xue C, Wang S. 2013. Expression of soluble recombinant transglutaminase from zea mays in Pichia pastoris. World J Microbiol Biotechnol. 29(5):939–947.
  • Lin Y, Chao M, Liu C, Chu W. 2004. Cloning and expression of the transglutaminase gene from Streptoverticillium ladakanum in Streptomyces lividans. Proc Biochem. 39(5):591–598.
  • Lin S, Hsieh Y, Lai L, Chao M, Chu W. 2008. Characterization and large-scale production of recombinant Streptoverticillium platensis transglutaminase. J Ind Microbiol Biotechnol. 35(9):981–990.
  • Lin C, Wang Y, Wu J. 2009. Modification in physical properties of rice gel by microbial transglutaminase. J Sci Food Agric. 89(3):477–481.
  • Liu C, Damodaran S, Heinonen M. 2019. Effects of microbial transglutaminase treatment on physiochemical properties and emulsifying functionality of faba bean protein isolate. LWT-Food Sci Technol. 99:396–403.
  • Liu S, Wan D, Wang M, Madzak C, Du G, Chen J. 2015. Overproduction of pro-transglutaminase from Streptomyces hygroscopicus in Yarrowia lipolytica and its biochemical characterization. BMC Biotechnol. 15(1):9.
  • Liu S, Zhang D, Wang M, Cui W, Chen K, Liu Y, Du G, Chen J, Zhou Z. 2011. The pro-region of Streptomyces hygroscopicus transglutaminase effects its secretion by Escherichia coli. FEMS Microbiol Lett. 324(2):98–105.
  • Lorenzen PC, Schlimme E, Roos N. 1998. Cross-linking of sodium caseinate by a microbial transglutaminase. Nahrung. 42(03–04):151–154.
  • Lu S, Zhou ND, Tian YP, Li HZ, Chen J. 2003. Purification and properties of transglutaminase from Streptoverticillium mobaraens. J Food Biochemistry. 27(2):109–112.
  • Luciano F, Arntfield SD. 2012. Use of transglutaminases in foods and potential utilization of plants as a transglutaminase source. Rev Biotemas. 25:1–11.
  • Mabel PSG, Jacob M. 2012. Microbial transglutaminase production by Streptomyces griseocarneus MTCC 328 and optimization of nutritional parameters by response surface methodological approach. Int J Univ Pharm Life Sci. 2:64–78.
  • Macedo J, Sato H, Sette L. 2010. A comparative biochemical characterization of microbial transglutaminases: commercial vs. a newly isolated enzyme from Streptomyces sp. Food Bioproc Technol. 3:308–314.
  • Macedo J, Sette L, Sato H. 2011. Purification and characterization of a new transglutaminase from Streptomyces sp. isolated in Brazilian soil. J Food Biochem. 35(4):1361–1372.
  • Mahmood W, Sebo N. 2009. Effect of microbial transglutaminase treatment on soft cheese properties. Mesopotamia J Agric. 37:1–9.
  • Marco C, Rosell C. 2008. Effect of different protein isolates and transglutaminase on rice flour properties. J Food Eng. 84:132–139.
  • Mariniello L, Prospero DP, Concetta G, Angela S, Raffaele P. 2008. Transglutaminase in food biotechnology. In: Recent research developments in food biotechnology. Trivandrum, Kerala: Research Signpost; p. 185–211.
  • Marquez G, Pierro P, Esposito M, Mariniello L, Porta P. 2014. Application of transglutaminase-crosslinked whey protein/pectin films as water barrier coatings in fried and baked foods. Food Bioprocess Technol. 7:447–455.
  • Marquez G, Pierro P, Mariniello L, Esposito M, Giosafatto VL, Porta R. 2017. Fresh-cut fruit and vegetable coatings by transglutaminase-crosslinked whey protein/pectin edible films. LWT. 75:124–130.
  • Martins IM, Matos M, Costa R, Silva F, Pascoal A, Estevinho LM, Choupina AB. 2014. Transglutaminases: recent achievements and new sources. Appl Microbiol Biotechnol. 98(16):6957–6964.
  • Matthias T, Jeremias P, Neidhofer S, Lerner A. 2016. The industrial food additive, microbial transglutaminase, mimics tissue transglutaminase and is immunogenic in celiac disease patient. Autoimmun Rev. 15(12):1111–1119.
  • Meiying Z, Guocheng D, Jian C. 2002. pH control strategy of batch microbial transglutaminase production with Streptoverticillium mobaraense. Enz Microbiol Technol. 31(4):477–481.
  • Metwally MM, El-Zwini HM, Gazar FF. 2018. Impact of using transglutaminase enzyme in manufacturing low and high fat Mozzarella cheese. J Food Nutr Pop Health. 2:1–7.
  • Monogioudi E, Faccio G, Lille M, Poutanen K, Buchert J, Mattinen M. 2011. Effect of enzymatic cross-linking of β-casien on proteolysis by pepsin. Food Hydrocoll. 25(1):71–81.
  • Monteiro ML, Marsico ET, Lazaro CA, da Silva Canto AC, da Costa Lima BR, da Cruz AG, Conte-Junior CA. 2015. Effect of transglutaminase on quality characteristics of a value-added product tilapia wastes. J Food Sci Technol. 52(5):2598–2609.
  • Moreno H, Carballo J, Borderias J. 2013. Raw-appearing restructured fish models made with sodium alginate or microbial transglutaminase and effect of chilled storage. Food Sci Technol. 33(1):137–145.
  • Motoki M, Kumaza Y. 2000. Recent research trends in transglutaminase technology for food processing. FSTR. 6(3):151–160.
  • Nagy V, Szakacs G. 2008. Production of transglutaminase by Streptomyces isolates in solid-state fermentation. Lett Appl Microbiol. 47(2):122–127.
  • Nivala O, Mäkinen OE, Kruus K, Nordlund E, Ercili-Cura D. 2017. Structuring colloidal oat and faba been protein particles via enzymatic modification. Food Chem. 231:87–95.
  • Noda S, Miyazaki T, Tanaka T, Chiaki O, Kondo A. 2013. High-level production of mature active Streptomyces mobaraensis transglutaminase via pro-transglutaminase using Streptomyces lividans as a host. Biochem Eng J. 74:76–80.
  • Nonaka M, Matsuura Y, Nakano K, Motoki M. 1997. Improvement of the pH-solubility profile of sodium casienate by using Ca2+-independent microbial transglutaminase with gelatin. Food Hydrocoll. 11(3):347–349.
  • Nozawa H, Cho S, Seki N. 2001. Purification and characterization of transglutaminase from squid gill. Fisheries Sci. 67(5):912–919.
  • Nuramaliyah LS, Zilda DS, Mubarik NR. 2016. Purification and characterization of transglutaminase from local Streptomyces sp. TTA 02 SDS 14. Squalen Bull Mar Fish Post Biotechnol. 11:75–83.
  • Olkiewicz M, Klossowska B, Pospiech E, Grze B. 2003. Effect of selected functional additives in the properties of PSE pork meat. Acta Agrophys. 2:367–379.
  • Oteng-Pabi SK, Pardin C, Stoica M, Keillor JW. 2014. Site-specific protein labeling and immobilization mediated by microbial transglutaminase. Chem Commun. 50(50):6604–6606.
  • Ozcelik A, Ersoz F, Inan M. 2019. Extracellular production of recombinant bacterial transglutaminase in Pichia pastoris. Prot Expres Purif. 159:4–9.
  • Ozrenk E. 2006. The use of transglutaminase in dairy products. Int J Dairy Tech . 59(1):1–7.
  • Pinterits A, Arntfield SD. 2008. Improvement of canola protein gelation properties through enzymatic modification with transglutaminase. LWT-Food Sci Technol. 41(1):128–138.
  • Porta R, Mariniello L, Di Pierro P, Sorrentino A, Giosafatto CV. 2011. Transglutaminase crosslinked pectin-and chitosan- based edible films: a review. Crit Rev Food Sci Nutr. 51(3):223–238.
  • Portilla OM, Espinosa V, Jaruin L, Salinas A, Velazquez G, Vazquez M. 2017. Sugar cane molasses as culture media component for microbial transglutaminase production. Ind J Biotechnol. 16:419–425.
  • Portilla-Rivera OM, Tellez-Luis SJ, Ramirez de Leo JA, Vazquez M. 2009. Production of microbial transglutaminase on media made from sugar cane molasses and glycerol. Food Technol Biotechnol. 47:19–26.
  • Renzetti S, Behr J, Vogel R F, Barbiroli A, Iametti S, Bonomi F, Arendt E K. 2012. Transglutaminase treatment of brown rice flour: a chromatographic, electrophoretic study of protein modifications. Food Chem. 131(4):1076–1085.
  • Ribeiro M, Nunes FM, Guedes S, Domingues P, Silva AM, Carrillo JM, Rodriguez-Quijano M, Branlard G, Igrejas G. 2015. Efficient chemo-enzymatic gluten detoxification: reducing toxic epitopes for celiac patients improving functional properties. Sci Rep. 5(1):17.
  • Ricotta M, Iannuzzi M, De V G, Gentile V. 2010. Physio-pathological roles of transglutaminase-catalyzed reactions. WJBC. 26:181–187.
  • Rodriguez-Castillejos GC, Tellez-Luis SJ, Vazquez-Vazquez M, Lois-Correa JA, Ramirez de Leon JA, Alvarado-Reyna S. 2016. Evaluation of alternative microbial transglutaminase production from sorghum grain and distilled dried grains with solubles using computational simulation. Rev Fac Ing. 80:48–55.
  • Roos N, Lorenzen PC, Sick H, Schrezenmeir J, Schlimme E. 2003. Cross-linking by transglutaminase changes neither the in vitro proteolysis nor the in vivo digestibility of caseinate. Kieler Milchw Forsch. 55:261–276.
  • Rosa-Sibakov N, Heinio R, Cassan D, Holopainen-Mantila U, Micard V, Lantto R, Sozer N. 2016. Effect of bioprocessing and fractionation on the structural, textural and sensory properties of gluten-free faba bean pasta. LWT-Food Sci Technol. 67:27–36.
  • Sabbah M, Giosafatto CVL, Esposito M, Pierro PD, Mariniello L, Porta R. 2019. Transglutaminase cross-linked edible films and coatings for food applications. In: Kuddus M, editor. Enzymes in food biotechnology. New York: Academic Press; p. 369–388.
  • Sakamoto H, Yamazaki K, Kaga C, Yamamoto Y, Ito R, Kurosawa Y. 1996. Strength enhancement by addition of microbial transglutaminase during Chinese noodle processing. J Jpn Soc Food Sci Technol. 43(5):598–602.
  • Salasiah N, Jirarat T. 2018. Effect of food additives on the quality of white shrimp (Litopenaeus vannamei). Food Res. 2:546–554.
  • Savoca MP, Tonoli E, Atobatele AG, Verderio E. 2018. Biocatalysis by transglutaminases: a review of biotechnological applications. Micromachines. 9:1–23.
  • Scarnato L, Gadermaier G, Volta U, De Giorgio R, Caio G, Lanciotti R, Del Duca S. 2019. Immunoreactivity of gluten-sensitized sera toward wheat, rice, corn, and amaranth flour proteins treated with microbial transglutaminase. Front Microbiol. 10:1–10.
  • Schmid M, Sangerlaub S, Wege L, Stabler A. 2014. Properties of transglutaminase crosslinked whey protein isolate coatings and cast films. Packag Technol Sci. 27(10):799–817.
  • Seighalani FZB, Bakar J, Saari N, Khoddami A. 2017. Thermal and physicochemical properties of red tilapia (Oreochromis niloticus) surimi gel as affected by microbial transglutaminase. Anim Prod Sci. 57(5):993–1000.
  • Seki N, Uno H, Lee NH, Kimura I, Toyoda K, Fujita T, Arai K. 1990. Transglutaminase activity in Alaska pollack muscle and surimi, and its reaction with myosin B. Nippon Suisan Gakkaishi. 56(1):125–132.
  • Serafini-Fracassini D, Duca SD. 2008. Transglutaminases: widespread cross-linking enzymes in plants. Ann Bot. 102(2):145–152.
  • Seravalli E, Iguti A, Santana I, Filho F. 2011. Effects of application of transglutaminase in wheat proteins during the production of bread. Proc Food Sci. 1:935–942.
  • Sharif HR, Rizwan H, Williams PA, Sharif MK, Abbas S, Majeed H, Masamba KG, Safdar W, Zhong F. 2018. Current progress in the utilization of native and modified legume proteins as emulsifiers and encapsulants- a review. Food Hydrocoll. 76:2–16.
  • Shleikin A, Gorbatovsky A, Danilov N. 2008. The use of transglutaminase in food processing. Foodbalt. 2:51–56.
  • Simurina OD, Popov SD, Filipcev BV, Dodic JM, Bodroza-Solarov MI, Demin M, Njezic ZB. 2014. Modelling the effects of transglutaminase and L-ascorbic acid on substandard quality wheat flour by response surface methodology. CI&CEQ. 20(4):471–480.
  • Soares LHB, Assmann F, Ayub M. 2003. Purification and properties of a transglutaminase produced by a Bacillus circulans strain isolated from the Amazon environment. Biotechnol Appl Biochem. 37:295–299.
  • Sokullu E, Baş D, Boyacı İH, Öner Z, Karahan A G, Çakır İ, Çakmakçı M. L. 2008. Determination of transglutaminase activity using fluorescence spectrophotometer fluorometric assay for transglutaminase activity. Food Biotechnol. 22(3):297–310.
  • Sorapukdee S, Tangwatcharin P. 2018. Quality of steak restructured from beef trimmings containing microbial transglutaminase and impacted by freezing and grading by fat level. Asian-Australas J Anim Sci. 31(1):129–137.
  • Sorde K, Ananthanarayan L. 2019. Effect of transglutaminase treatment on properties of coconut protein-guar gum composite film. LWT. 115:108422.
  • Souza C, Venzke J, Flores S, Ayub ZM. 2011. Enzymatic properties of transglutaminase produced by a new strain of Bacillus circulans BL32 and its action over food proteins. LWT-Food Sci Technol. 44:443–450.
  • Stachel I, Schwarzenbolz U, Henle T, Meyer M. 2010. Cross-linking of type I collagen with microbial transglutaminase: identification of cross-linking sites. Biomacromol. 11(3):698–705.
  • Steffen W, Ko FC, Patel I, Lyamichev V, Thomas J, Albert TJ, Benz J, Rudolph M, Streidl T, Kratzsch P, et al. 2017. Discovery of a microbial transglutaminase enabling highly site-specific labeling of proteins. J Biol Chem. 292(38):15622–15635.
  • Stricker S, de Laffolie J, Rudloff S, Komorowski L, Zimmer KP. 2019. Intracellular localization of microbial transglutaminase and its influence on the transport of gliadin in enterocytes. J Pediatr Gastroenterol Nutr. 68(3):e43–e50.
  • Suzuki T. 2013. Regulation of intestinal epithelial permeability by tight junctions. Cell Mol Life Sci. 70(4):631–659.
  • Suzuki S, Izawa Y, Kobayashi K, Eto Y, Yamanaka S, Kubota K, Yokozeki K. 2000. Purification and characterization of novel transglutaminase from Bacillus subtilis spores. Biosci Biotechnol Biochem. 64(11):2344–2351.
  • Takacs K, Gelencser E, Kovacs E. 2008. Effect of transglutaminase on the quality of wheat-based pasta products. Eur Food Res Technol. 226:603–611.
  • Tammatinna A, Benjakul S, Visessanguan W, Tanaka M. 2007. Gelling properties of Pacific white shrimp (Penaeus vannamei) meat as influenced by setting condition and microbial transglutaminase. Lwt. 40(9):1489–1497.
  • Tellez-Luis SJ, Gonzalez Cabriales JJ, Ramirez JA, Vazquez M. 2004. Production of transglutaminase by Streptoverticillium ladakanum NRRL-3191 grown on media made from hydrolysates of sorghum straw. Food Technol Biotechnol. 42:1–4.
  • Tian X, Geo W, Wang H, Deng B. 2008. Application of microbial transglutaminases in anti-crease finish of silk fabric. Res J Tex Appar. 12(1):39–46.
  • Torne JM, Santos M, Talavera D, Villalobos E, Rigau J. 2007. Maize nucleotide sequence coding for a protein with transglutaminase activity and use therof. US Patent. 7, 262, 07, 28 Aug. 16 p.
  • Tsai GJ, Shann SM, Jiang Z. 1996. Transglutaminase from Streptoverticillium ladakanum and application to minced fish product. J Food Sci. 61(6):1234–1238.
  • Tzikas Z, Soultos N, Ambrosiadis I, Lazaridou A, Georgakis S. 2015. Production of low-salt restructured Mediterranean horse mackerel (Trachurus mediterraneus) using microbial transglutaminase/caseinate system. J Hell Vet Med Soc. 66:147–160.
  • Umezawa Y, Ohtsuka T, Yokoyama K, Nio N. 2002. Comparison of enzymatic properties of microbial transglutaminase from Streptomyces sp. FSTR. 8(2):113–118.
  • Uran H, Yilmaz I. 2018. A research on determination of quality characteristics of chicken burgers produced with transglutaminase supplementation. Food Sci Technol. 38(1):19–25.
  • Vazquez MV, Rodriguez M. 2011. Computer simulation of microbial transglutaminase production from potato wastes. Proc Food Sci. 1:736–741.
  • Wang Q, Jin G, Fan X, Zhao X, Cui L, Wang P. 2010. Antibacterial functionalization of wool via mTGase-catalyzed grafting of ε-poly-l-lysine. Appl Biochem Biotechnol. 160(8):2486–2497.
  • Wang C, Li J, Zhou S, Zhou J, Lan Q, Qin W, Wu D, Liu J, Yang W, Zhang Q. 2019a. Application of transglutaminase for quality improvement of whole soybean curd. J Food Sci Technol. 56(1):233–244.
  • Wang K, Lu F, Li Z, Zhao L, Han C. 2017. Recent developments in gluten-free bread baking approaches: a review. Food Sci Technol. 37(suppl 1):1–9.
  • Wang Y, Ni S, Wang C, Li X, Fu L. 2019b. Cross-linking of shrimp tropomyosin catalyzed by transglutaminase and tryosinase produces hypoallergens for potential immunotherapy. Food Funct. 10(3):1609–1618.
  • Wang L, Yu B, Wang R, Xie J. 2018a. Biotechnological routes for transglutaminase production: recent achievements, perspectives and limits. Trends Food Sci Technol. 81:116–120.
  • Wang J, Zou L, Yuan F, Lv L, Tian S, Li Z, Lin Z. 2018b. Inhibition of advanced glycation endproducts during fish sausage preparation by transglutaminase and chitosan oligosaccharides induced enzymatic glycosylation. Food Funct. 9(1):253–262.
  • Washizu K, Ando K, Koikeda S, Hiros S, Matsuura A, Takagi H, Motoki M, Takeuchi K. 1994. Molecular cloning of the gene for microbial transglutaminase from Streptoverticillium and its expression in Streptomyces lividans. Biosci Biotechnol Biochem. 58(1):82–87.
  • Worratao A, Yongsawatdigul J. 2005. Purification and characterization of transglutaminase from Tropical tilapia (Oreochromis niloticus). Food Chem. 93(4):651–658.
  • Wroblewska B, Kaliszewska-Suchodoła A, Kołakowski P, Troszynska A. 2013. The effect of microbial transglutaminase on the immunoreactive and sensory properties of fermented milk beverages. Int J Food Sci Technol. 48:1007–1017.
  • Wu Y, Tsai Y. 2006. A rapid transglutaminase assay for high-throughput screening applications. J Biomol Screen. 11(7):836–843.
  • Xavier JR, Ramana KV, Sharma RK. 2017. Screening and statistical optimisation of media ingredients for production of microbial transglutaminase. Def Life Sci J. 2(2):216–225.
  • Xing G, Rui X, Jiang M, Xiao Y, Guan D, Wang D, Dong M. 2016. In vitro gastrointestinal digestion study of a novel bio-tofu with special emphasis on the impact of microbial transglutaminase. PeerJ. 4:e2754.
  • Yan G, Du G, Li Y, Chen J, Zhong J. 2005. Enhancement of microbial transglutaminase production by Streptoverticillium mobaraense: application of a two-stage agitation speed control strategy. Process Biochem. 40(2):963–968.
  • Yang X, Zhang Y. 2019. Expression of recombinant transglutaminase gene in Pichia pastoris and its uses in restructured meat products. Food Chem. 291:245–252.
  • Yasir S, Sutton KH, Newberry MP, Andrews NR, Gerrard JA. 2007. The impact of transglutaminase on soy proteins and tofu texture. Food Chem. 104(4):1491–1501.
  • Yayli D, Turhan S, Saricaoglu FS. 2017. Edible packaging film derived from mechanically deboned chicken meat proteins: effect of transglutaminase on physicochemical properties. Korean J Food Sci Anim. 37(5):635–645.
  • Yokoyama K, Nio N, Kikuchi Y. 2004. Properties and applications of microbial transglutaminase. Appl Microbiol Biotechnol. 64(4):447–454.
  • Yu J, Pian Y, Ge J, Guo J, Zheng Y, Jiang H, Hao H, Yuan Y, Jiang Y, Yang M. 2015. Functional and structural characterization of the antiphagocytic properties of a novel transglutaminase from Streptococcus suis. J Biol Chem. 290(31):19081–19092.
  • Yu Y, Wu S, Chan H, Chen Y, Chen Z, Yang M. 2008. Overproduction of soluble recombinant transglutaminase from Streptomyces netropsis in Escherichia coli. Appl Microbiol Biotechnol. 81(3):523–530.
  • Zhang L, Zhan L, Han X, Du M, Zhang Y, Feng Z, Yi H, Zhang Y. 2012a. Enhancement of transglutaminase production in Streptomyces mobaraensis as achieved by treatment with excessive MgCl2. Appl Microbiol Biotechnol. 93(6):2335–2343.
  • Zhang L, Zhang L, Yi H, Du M, Ma C, Han X, Feng Z, Jiao Y, Zhang Y. 2012b. Enzymatic characterization of transglutaminase from Streptomyces mobaraensis DSM 40587 in high salt and effect of enzymatic cross-linking of yak milk proteins on functional properties of stirred yogurt. J Dairy Sci. 95(7):3559–3568.
  • Zhang Y, Zhao X. 2013. Study on the functional properties of soybean protein isolate cross-linked with gelatin by microbial transglutaminase. Int J Food Prop. 16(6):1257–1270.
  • Zhang D, Zhu Y, Chen AJ. 2009. Microbial transglutaminase production: understanding the mechanism. Biotechnol Gen Eng Rev. 26(1):205–222.
  • Zhu Z, Gong D. 2014. Determination of the experimental conditions of the transglutaminase-mediated restoration of thermal aged silk by orthogonal experiment. J Cult Her. 15(1):18–25.
  • Zhu Y, Rinzema A, Tramper J, Bol J. 1995. Microbial transglutaminase- a review of its production and application in food processing. Appl Microbiol Biotechnol. 44(3–4):277–282.
  • Zilda DS. 2014. Microbial transglutaminase: source, production and its role to improve surimi properties. Squalen Bull Marine Fisheries Postharvest Biotech. 9:35–44.

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