Study of suitability of some Syrian wheat varieties and their blends for production of some baked goods and improving their quality using the laccase enzyme from two different sources

References -AACC 2000. American Association of Cereal Chemists. Approved Methods of the AACC. 10th ed. The Association. St. Paul, MN, USA: AACC International. -ABO NAHAS, H.H., MANSOUR, S., ABO NOUH, F., LANDA-ACUÑA, D., ABO NAHAS, Y., NIETO-TAYPE, M., ABDEL-AZEEM, A. Fungal Laccases to Where and Where, 2021, 205-262 -AHMED, Z. A., ABDULJABBAR, I.A., MOUSA, S. M., ABED, S.A., OWAID, S.T. The effect of changing the milling extraction rate on the flour properties. TRKU, 2020, 62(3), 1121-1129. -AKBAR, Q., ARIF YOSAFSH, S., KHURSHIDA, S., SAHAR, N. Effect of flour particle size on farinographic properties of wheat dough. Sarhad journal of agriculture, 2020, 36(4), 1136. - ALI, E., ABD ELLATIF, S., ELSAYED, S., ABDEL RAZIK, A. Production, Purification, Characterization and Immobilization of Laccase from Phoma betae and its Application in Synthetic Dyes Decolorization. Egypt. J. Bot, 2020, 60 (1), 301-312. -AL-MAHTURI, A., SHAROBA, A.M., EL-DESOUKY, A.I., MAHMOUD, M.H.M. Rheological and Chemical Characteristics of Some Egyptian and Yemeni Wheat Verities. Annals of Agric. Sci, 2019, 57 (2) , 375 – 382.-AL SALEH, A., BOUCHET, B., GALLANT, D.J. Mineral Migration in the Wheat Kernel During Mill Conditioning. Food Structure, 1984, 3(2), 149–158. -AL-SALEH, A., BRENNAN, CH. Bread wheat quality: some physical, chemical and rheological characteristics of Syrian and English bread wheat samples.Foods,2012, 1, 3-17. -AOAC 2000. Association of Official Analytical Chemists. Official Methods of Analysis. 17th ed. Washington, DC, USA: AOAC International. -APER, P., BEZARO, V. Manual decettes boulangeres et patissieres. L'Ecole de Boulangrie du Caire, 1990, 118. - ARREGUI, L., AYALA, M., GÓMEZ‑GIL, X., GUTIÉRREZ‑SOTO, G., HERNÁNDEZ‑LUNA, C., DE LOS SANTOS, M., LEVIN, L., ROJODOMÍNGUEZ, A., ROMERO‑MARTÍNEZ, D., SAPARRAT, M., TRUJILLOROLDÁN, A., VALDEZ‑CRUZ, A. Laccases: structure, function, and potential application in water bioremediation. Microb Cell Fact, 2019, 18(200), 1-33. -ARYA, S., SADAWRTE, P., ASHISH, W. Importance of damaged starch in bakery products areview. Researchgate. net, 2015, 1-63. -AYDOĞAN, S., GÖÇMEN AKÇACIK, A., ŞAHIN, M., ÖNMEZ, H., DEMI;R, B., YAKIŞIR, E. Ekmeklik buğday çeşitlerinde fizikokimyasal ve reolojik özelliklerin belirlenmesi. Tarbit Derg, 2013, 22 (2), 74-85. -AZIZI, M.H., SAYEDDIN, S.M., PAYGHAMBARDOOST, S.H. Effect of flour extraction rate on flour composition, dough rheology characteristics and quality of flat breads. J. Agric. Sci. Technol, 2006, 8,323-330 -BAILEY, M.R., WOODARD, S. L., CALLAWAY, E. BEIFUSS, K., MAGALLANESLUNDBACK, M., LANE, J.R., HORN, M.E., MALLUBHOTLA, H., DELANEY, D.D., WARD, M., VAN GASTEL, M., HOWARD, J.A., HOOD, E.E. Improved recovery of ctive recombinant laccase from maize seed. Appl Microbiol Biotechnol, 2004, 63, 390–397 -BALDRIAN, P. Fungal laccases–occurrence and properties. FEMS Microbiol Rev, 2006, 30, 215–42. -BANU, I., STOENESC, G., IONESCU, V.S., APRODU, I. Effect of The Addition of Wheat Bran Stream on Dough Rheology And Bread Quality. Fascicle VI – Food Technology, 2012, 36 (1), 39-52. -BANU, I., STOENESCU, G., IONESCU, V.S., APRODU, I. Estimation of the Baking Quality of Wheat Flours Based on Rheological Parameters of the Mixolab Curve. Czech J. Food Sci., 2011, 29 (1), 35–44. -BANU, I., LIVIA PATRA, L., VASILEAN, I., HORINCAR, G., APRODU, I. Impact of Germination and Fermentation on Rheological and Thermo-Mechanical Properties of Wheat and Triticale Flours. Appl. Sci., 2020, 10 (21), 7635- BELTON, P.S. New approaches to study the molecular basis of the mechanical properties of gluten. J Cereal Sci, 2005, 41, 203–11. -BELTON, P.S. On the elasticity of wheat gluten. J Cereal Sci, 1999, 29, 103–107. - BENINCASA, P., GALIENI, A., MANETTA, A.C., PACE, RGUIDUCCI, M., PISANTE, M., STAGNARI, F. Phenolic compounds in grains, sprouts and wheatgrass of hulled and non-hulled wheat species. J. Sci. Food Agric, 2015, 95,1795–1803 . -BHAT, N.A., WANI, I.A., HAMDANI, A.M., GANI, A., MASOODI, F.A. Physicochemical Properties of Whole Wheat Flour as Affected by Gamma Irradiation. LWT-Food Science and Technology, 2016, 71, 175- 183. -BLIGNY, R., DOUCE, R. Excretion of laccase by sycamore (Acerpseudoplatanus L.) cells Purification and properties of the enzyme. Biochem. J, 1983, 209, 489-496. -BLUMENTHAL, C. S., BARLOW, E. W. R., WRIGLEY, C. W. Growth Environment and Wheat Quality: the Effect of Heat Stress on Dough Properties and Gluten Proteins. J. Cereal Sci, 1993, 18, 3-21. -BOECKX, T., WINTERS, A.L., WEBB, K.J., KINGSTON-SMITH, A.H. Polyphenol oxidase in leaves; is there any significance to the loroplastic localization. Journal of Experimental Botany, 2015. - BOLLAÍN, C., COLLAR, C. Dough viscoelastic response of hydrocolloid /enzyme/surfactant blends assessed by uni- and bi-axial extension measurements. Food Hydrocoll, 2004, 18, 499-507. -BOUDAOUD, S., SICARD, D., SUC, L., CONÉJÉRO, G., SEGOND, D., AOUF, CH. B. Ferulic acid content variation from wheat to bread. Food Sci Nutr, 2021, 9(5), 2446-2457. -BRANDNER, S., BECKER, TH., JEKLE, M. Gluten–starch interface characteristics and wheat dough rheology—Insights from hybrid artificial systems. Journal of Food Science, 2022, 87, 1375-1385. -BUCHERT, J., SELINHEIMO, E., KRUUS, K., MATTINEN, M.-L., LANTTO, R., AUTIO, K. Cross-linking enzymes in food processing. In: Rastall, R. (ed). Novel enzyme technology for food applications. Woodhead Publishing Ltd, Cambridge, 2007, 336 p. -CABALLERO, P.A., GÓMEZ1,M., ROSELL, C.M. Bread quality and dough rheology of enzyme supplemented wheat flour 4 effect of enzyme combination on dough rheology and bread Quality. European Food Research and Technologym, 2007. -CAI, L., CHOI, I., HYUN, J.N., JEONG, Y.K., BAIK, B.K. Influence of bran particle size on bread-baking quality of whole grain wheat flour and starch retrogradation. Cereal Chemistry, 2014, 91 (1), 65– 71.-CARTER, B.P., MORRIS, C.F., ANDERSON, J.A. Optimizing the SDS sedimentation test for end-use quality selection in a soft white and club wheat-breeding program. Cereal Chemistry, 1999, 76, 907-911. -CORDI, L., MINUSSI, R.C., FREIRE, R.S., DURAN, N. (2007) Fungal laccase: copper induction, semi-purification, immobilization, phenolic effluent treatment and electrochemical measurement. Afr J Biotechnol , 2007,6(10),1255–1259. -CHANDANSHIVE, V.V., SUHAS K. KADAM, S.K., RAHUL V. KHANDARE, R.V., MAYUR, B. KURADE, M.B., JEON, B., JADHAV, J.P., GOVINDWAR, S.P. In situ phytoremediation of dyes from textile wastewater using garden ornamental plants, effect on soil quality and plant growth. Chemosphere, 2018, 210, 968-976. -CHEN, C.Y., HUANG, Y.C., WEI, C.M., MENG, M., LIU, W.H., YANG, C.H. Properties of thenewly isolated extracellular thermo-alkali-stable laccase from thermophilicactinomycetes, Thermobifida fusca and its application in dye intermediates oxi-dation. AMB Express, 2013,3 (49), 1-9. -CHENG, K.L., BRAY, R.H. Determination of Ca and Mg in soil and plant material. Soil sci, 1951,72, 449-458 - CHIAIESE, P., PALOMBA, F., GALANTE, C., ESPOSITO, S., DE BIASI, M.G., FILIPPONE, E. Transgenic tobacco plants expressing a fungal laccase are able to reduce phenol content from olive mill wastewaters. Int J Phytoremediat, 2012, 14, 835–844. -CHRISTOPHER , L.P., YAO, B., JI, Y. Lignin biodegradation with laccase-mediator systems. Frontiers in Energy Research, 2014, 2 (12), 1-13. -CIUDAD-MULERO, M., MATALLANA-GONZÁLEZ, M., CALLEJO, M., CARRILLO, J., MORALES, P., FERNÁNDEZ-RUIZ, V. Durum and Bread Wheat Flours. Preliminary Mineral Characterization and Its Potential Health Claims. Agronomy, 2021, 11 (108), 1–13. -CLAUS, H. Laccases: structure, reactions, distribution. Micron, 2004, 35, 93–96. -CODINA, G.G., BORDEI, D., PASLARU, V. The effects of different doses of gluten on Rheological behavior of dough and bread quality. Roumanian Society of Biological Sciences, 2008, 13 (6), 37-42. -COLLAR, C., BOLLAIN, C., ROSELL, C.M. Rheological behaviour of formulated bread doughs during mixing and heating. Food Science and Technology International, 2007, 13 (2), 99-107. -CONTATO, A.G., INÁCIO, F.D., BRUGNARI,T., ARAÚJO, C.A., MACIE, G.M., HAMINIUK, CH., PERALTA, R.M., MARQUES DE SOUZA, C.G. Solid-state fermentation with orange waste: optimization of Laccase production from Pleurotus pulmonarius CCB-20 and decolorization of synthetic dyes. Acta Scientiarum. Biological Sciences, 2020, 42,1-9.-COȚOVANU, I., STOENESCU, G., MIRONEASA, S. Amaranth Influence On Wheat Flour Dough Rheology: Optimal Particle Size And Amount of Floure Replacement. J Microbiol Biotech Food Sci, 2020, 10 (3), 366-373. -CRASSINA, K., SUDHA, M.L. Evaluation of rheological, bioactives and baking characteristics of mango ginger (Curcuma amada) enriched soup sticks. Journal of Food Science and Technology, 2015, 52(9), 5922-5929. -DAPČEVIĆ, T., HADNADEV, M., POJIĆ, M. Evaluation of the Possibility to Replace Conventional Rheological Wheat Flour Quality Control Instruments with the New Measurement Tool – Mixolab. Agriculture Conspectus Scientificus, 2009, 74 (3), 169-174. -DELCOUR , J., HOSENEY, R.C. principles of cereal science and technology. 3rd uppl., st.paul minn.: aacc international, 2010. -DHAKA, V., GULIA, N., KHATKAR, B.S. Application of mixolab to assess the bread making quality of wheat varieties. Open access scientific reports, 2012, 1(3), 1-8. -DHAKA, V., KHATKAR, B.S. Mixolab thermomechanical characteristics of dough and bread making the quality of Indian wheat varieties. Quality Assurance and Safety of Crops & Foods, 2013, 5 (4), 311-323. -DEWETTINCK, K., VAN BOCKSTAELE, F., KUHNE, B., VAN DE WALLE, D., COURTENS, T.M., GELLYNCK, X. Nutritional value of bread: Influence of processing, food interaction and consumer perception. Journal of Cereal Science, 2008, 48, 243-257. -DEXTER, J.E., WILLIAMS, P.C., MARTIN, D.G., CORDEIRO, H. M. The effects of extraction rate and flour-sieve aperture on the properties of experimentally milled soft wheat flour. Can. J. Plant Sci, 1993, 74, 51-58. -DOBRASZCZYK, B. J., MORGENSTERN, M.P. Review:Rheology and the breadmaking process. Journal of Cereal Science, 2003, 38, 229-245. -DRIOUICH, A., LAIN, A.C., VIAN, B., FAYE, L. Characterization and localization of laccase forms in stem and cell cultures of sycamore. Plant J, 1992, 2, 13- 24. - DUPONT, F.M., ALTENBACH, S.B. Molecular and biochemical impacts of environmental factors on wheat grain development and protein synthesis. Journal of Cereal Science,2003, 38, 133-146. -EDWARDS, N., MULVANEY, S., SCANLON, M., DEXTER, J. Role of gluten and its components in determining durum semolina dough viscoelastic properties. Cereal Chemistry, 2003, 80 (6), 755-763. -EKINCI, P.D., GÖKBULUT, I. Determination of the Rheological Properties of Red and White Bread Wheat Flours with Different Methods, 2020. -ELEMO, G.N., OSIBANJO, A.A., IBIDAPO, O.P., OGUNJI, A.O., ASIRU, W.B., ZAKARI, T., OLABANJI, O.G. Rheological characteristics and baking quality offlours from Nigerian grown wheat. African Journal of Food Science, 2017, 11 (12), 376-382. -ELIAS-NETO, M., SOARES, M.P.M., SIMOES, Z.L.P., HARTFELDER, K., BITONDI, M.M.G. Developmental characterization, function and regulation of a Laccase encoding gene in the honey bee, Apis mellifera (Hymenoptera, Apinae). Insect Biochem Molec, 2010, 40(3), 241–51. -EL-KHAYAT G.H., SAMAAN J., MANTHEY F.A., FULLER M.F., BRENNAN C.S. Durum Wheat Quality: I. Some physical and chemical characteristics of Syrian durum wheat genotypes, International Journal of Food Science and Technology, 2006, 41, 1-8. -ELLIOTT, D., ORTH, R.J., GAO, J., WERPY, T.A., EAKIN, D., SCHMIDT, A.J., NEUENSCHWNDER, G.G., FLAGG, A.J., MURRY, J., LAHMAN, L., LIN, C.J., MENNEL, D.L., LANDUCCI, R. Biorefinery Concept Development Based on Wheat Flour Milling. In J. Crockett and C.L. Peterson (Eds). Bioenergy 2002. Pacific Regional Biomass Energy Program, Boise. -EL-NAGGAR,A., M.A. ABED EL SAMIE., S.I.GHONEIM. physical and chemical properties of four imported wheat to egypet. Sinai journal of applied sciences, 2018, 7(1), 74-58. -ERTOP, M., BEKTAŞ, M., ATASOY, R. Effect of cereals milling on the contents of phytic acid and digestibility of minerals and protein. Ukrainian Food Journal, 2020, 9 (1), 136–147. -EUN KIM, J., KEE BAIK, B., PARK1, C.S., HAN SON, J., HYUN CHO, CH., MO, Y., PARK, T., SIK KANG, CH., WOO CHO,S. Relationship between physicochemical characteristics of Korean wheat flour and quality attributes of steamed bread. Journal of Integrative Agriculture, 2019, 18(11), 2652–2663. -FÆRGEMAND, M., OTTE, J., QVIST, K.B. Cross-linking of whey proteins by enzymatic oxidation. J Agric Food Chem, 1998, 46, 1326–1333. -FAO, Food and Agriculture Organization of the United Nations - FAO, 2013, FAO Stat. -FARDET, A. New hypotheses for the health-protective mechanisms of whole-grain cereals: what is beyond fibre?. Nutrition Research Reviews, 2010, 23, 65–134. -FARNET, A.M., CRIQUET, S., POCACHARD, E., GIL, G., FERRE, E. Purification of a new isoformof laccase from a Marasmius quercophilus strain isolated from a cork oak litter(Quercus suber L.). Mycologia, 2002, 94 (5),735–740. -FENG, W., MA, S., WANG, X. Quality deterioration and improvement of wheat gluten protein in frozen dough. Grain & Oil Science and Technology, 2020, 3, 29–37. -FERRARI, M.C., PEDROSA, M.T., CLERICI, S., CHANG, Y. A comparative study among methods used for wheat flour analysis and for measurements of glutenproperties using the Wheat Gluten Quality Analyser (WGQA). Food Sci. Technol, Campinas, 2014, 34(2), 235-24. -FIGUEROA-ESPINOZA, M.-C., MOREL, M.-H., ROUAU, X. Effect of lysine, tyrosine, cysteine, and glutathione on the oxidative crosslinking of feruloylated arabinoxylans by a fungal laccase. J. Agric. Food Chem, 1998, 46, 2583–2589. -FLANDER, L., ROUAU, X., MOREL, M., AUTIO, K., SEPPA¨NEN-LAAKSO, T., KRUUS, K., BUCHERT, J. Effects of Laccase and Xylanase on the Chemical and Rheological Properties of Oat and Wheat Doughs. J. Agric. Food Chem, 2008, 56, 5732–5742. -GERRARD, J. A., FAYLE, S. E., WILSON, A. J., NEWBERRY, M., ROSS, M. P., KAVALE, M. P. Dough properties and crumb Strength of white pan bread as affected by microbial transglutaminase. J. Food Sci, 1998, 63 (3), 472-475. -GE, Y., SUN, A., NI, Y., CAI, T. Some nutritional and functional properties of defatted wheat germ protein. Journal of Agricultural and Food Chemistry, 2000, 48(12), 6215-6218. -GIANFREDA , L., XU, F., BOLLAG, J. Laccases: A Useful Group of Oxidoreductive Enzymes. BioremedIation Journal, 1999, 3 (1), 1-26. -GIARDINA, P., FARACO, V., PEZZELLA, C., PISCITELLI, A., VANHULLE, S., SANNIA, G. Laccases: a never-ending story. Cell Mol Life Sci, 2010, 67(3), 369–85. -GIBSON, L., MCCLUSKEY, P., TILLEY, K., PAULSEN, G. Quality of hard red winter wheat grown under high temperature conditions during maturation and ripening. Cereal Chemistry, 1998, 75, 421-427. -GILLIES, S. A., FUTARDO, A., HENRY, R. J. Gene expression in the developing aleurone and starchy endosperm of wheat. Plant biotechnology journal, 2012, 10(6), 668-679. -GIVAUDAN, A., EFFOSSE, A., FAURE, D., BOUILLANT, M.L., BALLY, R., POTIER, P. Polyphenol oxidase in Azospirillum lipoferum isolated from rice rhizosphere: evidence for laccase activity in non-motile strains of Azospirillum lipoferum. FEMS Microbiol Lett, 1993, 108, 205–210. -GLAZUNOVA, O.A., MOISEENKO, K.V., SAVINOVA, O.S., FEDOROVA, T.V. Purification and Characterization of Two Novel Laccases from Peniophora lycii. J. Fungi, 2020, 6 (340), 1-16. -GONZALEZ, A. G., POMERANZ, Y. Effect of spring and winter growth habit on compositional, milling, and baking characteristics of winter wheats. Cereal Chemistry, 1993, 70 (3),354-359. -GROTEWOLD, E., TACCIOLI, G.E., AISEMBERG, G.O., JUDEWICZ, N.D. A single step purification of an extracellular fungal laccase. MIRCEN J Appl Microbiol Biotechnol, 1998, 4:357–363.-GUAN, Z.B., LIAO, Q., WANG, H.R., CHEN, Y., LIAO, X.R. Bacterial laccases: promising biological green tools for industrial applications. Cell Mol Life Sci, 2018, 75, 3569–92. -HADNAĐEV, M., T. DAPČEVIĆ HADNAĐEV, T., ŠIMURINA, O., FILIPČEV, B. Empirical and Fundamental Rheological Properties of Wheat Flour Dough as Affected by Different Climatic Conditions . J. Agr. Sci. Tech, 2013, 15, 1381- 1391. - HADNAĐEV, T.D., POJIĆ, M., HADNAĐEV, M., TORBICA, A. The Role of Empirical Rheology in Flour Quality Control. Discussions, Institute for Food Technology, University of Novi Sad Serbia, 2016. -HARVEY, B. 1997. Higher Plants. Thesis of Masters of Science in Biochemistry. University of Canterbury. -HEMDANE, S., JACOBS, P.J., DORNEZ, E., VERSPREET, J., DELCOUR, J.A., COURTIN, CH.M. Wheat (Triticum aestivum L.) Bran in Bread Making: A Critical Review. Comprehensive Reviews In Food Science And Food Safety, 2015, 15 (1), 28–42. -HESHE, G., HAKI, G., WOLDEGIORGIS, A., GEMEDE, H. Effect of conventional milling on the nutritional value and antioxidant capacity of wheat types common in Ethiopia and a recovery attempt with bran supplementation in bread. Food Science & Nutrition, 2015, 4 (4), 534–543. -HUANG, M.T., LU, Y.C., ZHANG, S., LUO, F., YANG, H. Rice (Oryza sativa) laccases involved in modification and detoxification of herbicides atrazine and isoproturon residues in plants. J Agric Food Chem, 2016, 64, 6397–406. -HUANG, W., LI, L., WANG, F., WAN, J., TILLEY, M., REN, CC., WU, S. Effects of Transglutaminase on the Rheological and Mixolab Thermomechanical Characteristics of Oat Dough. Food Chemistry, 2010, 121 (4), 934-939. -HULLO, M.F., MOSZER, I., DANCHIN, A., MARTIN-VERSTRAETE, I. CotA of Bacillus subtilis is a copper-dependent laccase. J Bacteriol, 2001, 183(18), 5426– 30. -HUNG, P.V., MAEDA, T., MIYATAKE, K., MORITA, N. Total phenolic compounds and antioxidant capacity of wheat graded flours by polishing method. Food Research International, 2009, 42, 185-190. -ICC (2006) Standard Method of the International Association for Cereal Chemistry 173, International Association for Cereal and Science and Technology. -IMRAN,M., ASAD,M., HADRI,A., MEHMOOD,S. Production and industrial applications of laccase enzyme. Journal of Cell and Molecular Biology, 2012, 10 (1), 1-11.-IQBAL, Z., PASHA, I., ABRAR, M,. MASIH, SH., HANIF, M.S. Physico-chemical, Functional and Rhelogical Properties of Wheat varieties. J.AGRIC.RES, 2015,53(2), 253-267. -JAFRI, S. Physico-chemical changes affecting the nutritional and techonological value of wheat grains stored in different type of containers. Ph.D. Thesis. Deptt. Biochem. Faculty Sci., Pir Mehr Ali Shah, Arid Agric. Univ., Rawalpindi, 2010. -JAISWAL, N., PANDEY, V.P., DWIVEDI, U.N. Purification of a thermostable alkaline laccase from papaya (Carica papaya) using affinity chromatography. Int. J. Biol. Macromol, 2015, 1-32. -JAISWAL, N., PANDEY, V.P., DWIVEDI, U.N. Purification of a thermostable laccase from Leucaena leucocephalausing a copper alginate entrapment approach and the applicationof the laccase in dye decolorization. Process Biochemistry, 2014, 1-9. -JANSSEN, A. M., VAN VLIET, T., VEREIJKEN, J. M. Rheological Behavior of Wheat Glutens at Small and Large Deformations. Comparison of Two Glutens Differing in Bread Making Potential. Journal of Cereal Science, 1996, 23, 19-31. -JEKLE, M., BECKER, T. Wheat dough microstructure: the relation between visual structure and mechanical behavior. Crit Rev Food Sci Nutr, 2013, 55, 369–82. -JONES, J.B., WOLF, B., MILLS, H. Plant analysis handbook, micro- macro Publishing, Inc., Athenss, 1991, Ga, USA. -KAGALKARA, A.K., KHANDAREB, R.V., GOVINDWARA, S.P. Textile dye degradation potential of plant laccase significantly 1 enhances upon augmentation with redox mediators. RSC Advances, 2015, 1-41. -KAUSHIK, R., SHARMA, N., SWAMI, N., SIHAG, M., GOYAL, A., CHAWLA, P. Physico- chemical properties, extraction and characterization of gluten from different indian wheat cultivars. Journal of crop science and technology, 2013, 2 (1), 1-11 -KENT, N., EVERS, A. Bread made with gluten substitutes. Technology of Cereals,1994, 215. -KERAN, H., SALKIC, M., ODOBASIC, A., JASIC, M., AHMETOVIC, N., SESTAN, I. The importance of determination of some physica hemical properties of wheat and flour. Agriculturae Conspectus Scientificus, 2009, 74 (3), 197-200. -KIM, Y. S., DEYOE，C. W., CHUNG，O. K., HAQUE, E. Study of Commercial Wheat Flour Milling Process: Relation of Flour Yield, Ash and Protein Contents of Flour Mill and Characteristics of Wheat Blend. Food Science, 2006, 27 (11), 146-152. -KLEIJER, G., LEVY, L., SCHWAEZEL, R., FOSSATI, D., BRABANT, C. Relationship between test weight and several quality parameters in wheat. Agrar forchung, 2007, 14(12), 548-553.-KOLPAKOVA, V.V., CHUMIKINA, L.V., VASILEV, A.F. Wheat gluten proteolysis by enzyme preparation of directional action. International journal of applied agricultural research, 2014, 5(2), 72-86. -KUMAR, G.N., SRIKUMAR, K. Thermophilic Laccase from xerophyte species Opuntia vulgaris. Biomed. Chromatogr, 2011, 25: 707–711. -KUNAMNENI, A., BALLESTEROS, A., Plou, F.J., Alcalde, M. Fungal laccase – a versatile enzyme for biotechnological applications. Communicating Current Research and Educational Topics and Trends in Applied Microbiology A. Méndez-Vilas (Ed.), 2007, 233-245. -KWEON, M., MARTIN R., SOUZA E. Effect of Tempering Conditions on Milling Performance and Flour Functionality. Cereal Chemistry, 2009, 86(1), 12-17. -LABAT, E., MOREL, M.H., ROUAU, X. Effect of laccase and ferulic acid on wheat flour dough during mixing. Cereal Chem, 2000, 77 (6), 823–828. -LABAT, E., MOREL, M.H., ROUAU, X. Effect of laccase and manganese peroxidase on wheat gluten and pentosans during mixing. Food Hydrocolloids, 2001, 15, 47– 52. -LACKO-BARTOŠOVÁ, M., KONVALINA, P., LACKO- BARTOŠOVÁ, L. Baking Quality Prediction of Spelt Wheat Based On Rheological And Mixolab Parameters. Acta Alimentaria, 2019, 48 (2): 213–220. -LAGRAIN, B., WILDERJANS, E., GLORIEUX, C., DELCOUR, J.A. Importance of gluten and starch for structural and textural properties of crumb from fresh and stored bread. Food Biophysics, 2012, 7, 173-181. -LANTTO, R., PUOLANNE, E., KALKKINEN, N., BUCHERT, J., AUTIO, K. Enzymeaided modification of chicken-breast myofibril proteins: effect of laccase and transglutaminase on gelation and thermal stability. J Agric Food Chem, 2005, 53, 9231–9237. -LEYNAUD KIEFFER CURRAN, L. M.C., THANH MAI PHAM, L., SALE, K., SIMMONS, B. Review of advances in the development of laccases for the valorization of lignin to enable the production of lignocellulosic biofuels and bioproducts. Biotechnology Advances, 2021, 54, 1-12. -LEITGEB, M., KNEZ, Z., PODREPSEK, G.H. Enzyme activity and physiochemical properties of flour after super critical cuarbon dioxide processing. Foods, 2022, 11(13), 18-26. -LETANG, C., PIAU, M., VERDIER, C. Characterization of wheat flour–water doughs. Part I: Rheometry and microstructure. Journal of Food Engineering,0888 , 41(2), 121-132. -LEVRAT –VERNY, M., ELLANGER, J., LOPEZ, H., DEMIGNE, C., RAYSSIGUIER, Y., REMESY, C. Whole Wheat Flour ensures higher mineral absorption and bioavailability than white wheat flour in rate . Br J Nutr: Jul, 1999, 82 (1), 17.- LIU, N., MA, S., LI, L., WANG, x. Stady on the effect of wheat bran dietary fiber on the rheological properties of dough. Grain oil science and technology, 2019, 2(1), 1-5. -LLEVOT, A., GRAU, E., CARLOTTI, S., GRELIER, S., CRAMAIL, H. Selective laccase-catalyzed dimerization of phenolic compounds derived from lignin: Towards original symmetrical bio-based (bis) aromatic monomers. Journal of Molecular Catalysis B: Enzymatic, 2016. -LOWRY,O.H., ROSEBROUGH, N.J., FARR, A.L., RANDALL, R.J. Protein measurement with the Folin phenol reagent. J. Biol. Chem, 1951, 193,265-275. -LOPEZ, H. W, KRESPINE, V., LEMAIRET, A., COUDRAY, C., COUDRAY, C., MESSAGER, A., DEMIGNE, CH., REMESY, CH. Wheat variety has a major influence on mineral bioavailability: studies in rats.J. Cereal Sci, 2003, 37, 257– 266. -LUNDGREN, M. composition of fractions from air – classified wheat flour, diploma work. Swedish university of agriculutar science, department of food science, 2011. -MACHCZYNSKI, M.C., VIJGENBOOM, E., SAMYN, B., CANTERS, G.W. Characterization of SLAC: a small laccase from Streptomyces coelicolor with unprecedented activity.Protein Sci, 2004,13 (9), 2388–2397. -MACRITCHIE, F., KASARDA, D. D. KUZMICKY, D. D. Characterisation of wheat protein fractions differing in contributions to breadmaking quality. Cereal Chemistry, 1991, 68, 122-130. -MACRITCHIE, F. Wheat proteins: characterization and role in flour functionality. Cereal Foods World, 1999, 44, 188–93. -MARTÍNEZ-LÓPEZ, A. L., CARVAJAL-MILLAN, E., MIKI-YOSHIDA, M., ALVAREZ-CONTRERAS, L., RASCÓN-CHU, A., LIZARDI-MENDOZA, J. AND LÓPEZ-FRANCO, Y. Arabinoxylan microspheres: Structural and textural characteristics. Molecules, 2013, 18 (4), 4640-4650. -MATIJOSYTE, I., ISABEL, W.C.E.A., SIMON, D.E., ROGER, A.S. Preparation and use of cross linked enzyme aggregates (CLEAs) of laccases. J. Mol. Catal. B: Enzymatic, 2010, 62, 142-148. -MATTINEN, M. L., HELLMAN, M., PERMI, P., AUTIO, K., KALKKINEN, N., BUCHERT, J. Effect of protein structure on laccase catalyzed protein oligomerization. Journal of Agricultural and Food Chemistry, 2006,54, 8883– 8890. -MATTINEN, M.-L., KRUUS, K., BUCHERT, J., NIELSEN, J. H., ANDERSEN, H. J., STEFFENSEN, C. L. Laccase-catalyzed polymerization of tyrosine-containing peptides. FEBS J, 2005, 272, 3640–3650. -MAYER, A.M., STAPLES, R.C. Laccase: new functions for an old enzyme. Phytochemistry, 2002, 60, 551–565-MEGUSAR, P., STOPAR, D., POKLAR ULRIH, N., DOGSA, I., PRISLAN, I. Thermal and Rheological Properties of Gluten-Free,Starch-Based Model Systems Modified by Hydrocolloids. Polymers, 2022, 14, 3242. -MINUSSI, R.C., PASTOPE, G. M., DURAM, N. Potential application of laccase in the food industry. Trends in food science and technology , 2002, 13, 205-216. -MINUSSI, R.C., ROSSI, M., BOLOGNA, L., ROTILIO, D., PASTORE, G.M., DURÁN, N. Phenols removal in musts: strategy for wine stabilization by laccase. J Mol Catal B Enzym, 2007, 45, 102–107. -MISHRA, J. Effects of Bran Treatment on Rheology and Sensory Quality of Whole Wheat Flat Bread. A thesis submitted in partial fulfillment of the requirements for the Master of Science Major, Biological Sciences Specialization, Food Science, South Dakota State University, 2016. -MOONEN, J.H.E., SCHEEPSTRA, A., GRAVELAND, A. Use of the SDSsedimentation tests and SDS-polyacrylamide gel electrophoresis for screening breeder’s samples of wheat for breadmaking quality. Euphytica, 1982, 31, 677- 690. -MORADI, V., KHANEGHAH, A., FALLAH A., AKBARIRAD, H. Rheological properties of wheat flour with different extraction rate. International Food Research Journal, 2016, 23(3), 1056-1061. -MOROZOVA, O.V., SHUMAKOVICH, G.P., GORBACHEVA, M.A., SHLEEV, S.V., YAROPOLOV, A.I. Blue laccase. Biochemistry (Moscow), 2007, 72 (10), 1136- 1150. -MORRIS, C. Impact of calcium on salivary a amylase activity, starch paste apparent viscosity and thickness perception. Sheffield hallam university research archive, 2011,1-17. -MORRIS, C.F., PASZCZYNSKA, B., BETTGE, A., KING, G.E. A critical examination of sodium dodecyl sulfate (SDS) sedimentation test for wheat meals. Journal of the Science of Food and Agriculture, 2007, 87, 607-615. -MOT, A., SILAGHI-DUMITRESCU, R. Laccases: complex architectures for oneelectron oxidations. Biochemistry, 2012, 77,1395–407. -NAVROTSKYYI, S., GUO, G., STEPHEN BAENZIGER, P., XU, L., ROSE, D. Impact of wheat bran physical properties and chemical composition on whole grain flour mixing and baking properties. Journal of cereal science, 2019, 89, 1-24. -NI˜NO-MEDINA, G., GUTI´ERREZ-SOTO, G., URÍAS-ORONA, V., HERN´ANDEZLUNA, C.E. Effect of laccase from Trametes maxima CU1 on physicochemical quality of bread. Cogent Food Agric, 2017. -NIU, B.L., SHEN, W.F., LIU, Y., WENG, H.B., HE, L.H., MU, J.J., WU, Z.L., JIANG, P., TAO, Y.Z., MENG, Z.Q. Cloning and RNAimediated functionalcharacterization of MaLac2 of the pine sawyer, Monochamus alternatus. Insect Mol Biol, 2008, 17(3), 303–12. -OMURA, T. Studies on Laccases of Lacquer Trees I. Comparison of Laccases Obtained from Rhus vernicifera and Rhus succedanea. The Journal of Biochemistry, 1961, 50 (3), 264-272. -OSMA, J. F., TOCA-HERRERA., J. L., RODRÍGUEZ-COUTO, S. Cost analysis in laccase production. Journal of Environmental Management, 2011, 92, 2 907-2912. -ORTOLAN, F., JOY STEEL, C. Protein Characteristics that Affect the Qualityof Vital Wheat Gluten to be Used in Baking: A Review. Comprehensive Reviews in Food Science and Food Safety, 2017, (10), 1-13. -OZGOZ, E.; O. TASER AND E. ALTUNTAS (2005). Some Physical Properties of Yarma Bulgur. Journal of Applied Science, 2005, 5(5), 838-840 -PANG, Y.Z., CHENG, X.F., HUHMAN, D.V., MA, J.Y., PEEL, G.J., YONEKURASAKAKIBARA, K., SAITO, K., SHEN, G., SUMNER, L., TANG, Y., WEN, J., YAN, J., DIXON, R. Medicago glucosyltransferase UGT72L1: potential roles in proanthocyanidin biosynthesis. Planta, 2013, 238 (1), 139–54. -PARK, K.M., PARK, S. Purification and Characterization of Laccase from Basidiomycete Fomitella Fraxinea. J. Microbiol. Biotechnol, 2008,18(4), 670– 675. -PASTUKHOV, A., DOGAN, H. Studying of mixing speed and temperature impacts on rheological properties of wheat flour dough using Mixolab. Agronomy Research, 2014, 12 (3), 779–786. -PATEL, H., GUPTE,S., GAHLOUT, M., GUPTE, A. Purification and characterization of an extracellular laccase from solid-state culture of Pleurotus ostreatus HP-1. 3 Biotech, 2014, 4 (1), 77-84. -PETERSON, C., GRAYBOSCH, R.A., BAENZIGER, P.S., GROMBACHER, A.W. Genotype and environment effects on quality characteristics of hard red winter wheat. Crop sci, 1992, 32 , 98 – 103. -PIBER, M., KOEHLER, P. Identification of dehydro-ferulic acid-tyrosine in rye and wheat: Evidence of a covalent cross-link between arabinoxylans and proteins. Journal of Agricultural and Food Chemistry, 2005, 53, 5276–5284. -POMERANZ, Y. Wheat chemistry and technology. (3rd ed.). St. Paul: AACC, 1988. -PRABHASANKAR, J., HARIDAS RAO, P. Lipids in wheat flour streams. Journal of cereal science, 1999, 30 (3), 315-322. -PRIMO-MARTIN, C., MARTINEZ-ANAYA, M.A. Influence of pentosanase and oxidases on water-extractable pentosans during a straight breadmaking process. Journal of Food Science, 2003, 68(1), 31-41.-PYCIA, K., JOANNA KASZUBA, J., POSADZKA, Z., JUSZCZAK, L. Influence of the addition of vital wheat gluten on thermal and rheological properties of triticale flour. Polymers, 2023, 15, 1870. -RABABAH, T., ALU’DATT, M., AL-MAHASNEH, M., GAMMOH, S., AL-OBAIDY, M., AJOULY, T., BARTKUTE-NORKŪNIENE, V. The effect of different fl our extraction rates on physiochemical and rheological characteristics. Bulgarian Journal of Agricultural Science, 2019, 25 (3),581–588. -RAMYA, P., CHAUBAL, A., KULKARNI, K., GUPTA, L., KADOO, N., DHALIWAL, H.S., CHHUNEJA, P., LAGU, M., GUPT, V. QTL mapping of 1000- kernel weight, kernel length, and kernel width in bread wheat (Triticum aestivum L.). Journal of Applied Genetics, 2010, 51(4), 421-429. -RAO, D.S., DEOSTHALE, Y.G. Mineral and trace element composition of Wheat and wheat flours of different extraction rates. Journal of Plant Foods, 1981, 3 (4), 251- 257. -RENZETTI, S., COURTIN, C., DELCOUR, J., ARENDT, E. Oxidative and proteolytic enzyme preparations as promising improvers for oat bread formulations: rheological, biochemical and microstructural background. Food Chemistry, 2010, 119(4), 1465-1473. -RIVERA-HOYOS, C.M., MORALES-ÁLVAREZ, E.D., POUTOU-PIÑALES, R.A., PEDROZA-RODRÍGUEZ, A.M., RODRÍGUEZ-VÁZQUEZ, R., DELGADOBOADA, J.M. Fungal laccases. Fungal Biol Rev, 2013, 27, 67–82. -ROSELL, C., SANTOS, E., COLLAR, C. mixing properties of fiber enriched wheat bread dough: aresponse surface methodology study. European Food Research and Technology, 2006, 223, 333-340. -ROSELL, C., SANTOS, E., COLLAR, C. Physical characterization of fiber-enriched bread doughs by dualmixing and temperature constraint using the Mixolab. European Food Research and Technology, 2010, 231, 535-544. -RYBKA, K., SITARSKI, J., RACZY SKA-BOJANOWSKA, K. Ferulic Acid in Rye and Wheat Grain and Grain Dietary Fiber. Cereal Chem, 1993, 70 (l), 55-59. -SADOWSKA, J., JELINSKY, T., FORNAL, J. Comparison of microstructure of vitreous and mealy kernels of hard and soft wheat. Polish Journal of Food and Nutrition Sciences, 1999, 8, 3-15. -SAPIRSTEINA, H.D., DAVIDA, P., PRESTONB, K.R., DEXTER, J.E. Durum wheat breadmaking quality: Effects of gluten strength, protein composition, semolina particle size, and fermentation time. Journal of Cereal Science, 2007, 45, 150-161. -SAYYED, R.Z., BHAMARE, H.M., SAPNA., MARRAIKI, N., ELGORBAN, A.M., SYED, A., EL-ENSHASY, H.A., DAILIN, D.J. Tree bark scrape fungus: A potential source of laccase for application in bioremediation of non-textile dyes. PLOS ONE, 2020, 1-17.-SCHRAMM, G. A Practical Approach to Rheology and Rheometry (2nd edition), Thermo Electron (Karlsruhe) GmbH, Karlsruhe, Germany, 2004, 291. -SEDEJ, I., MANDIC, A., SAKAC, M., MISAN, A., TUMBAS, V., HADNADEV, M. Assessment of antioxidant activity and rheological properties of wheat and buckwheat milling fractions. Journal of Cereal Science, 2011, 54, 347-353. -SEKE, F., KUDANGA, K., AMONSOU, E.O. The effects of laccase and xanthan gum on the quality of gluten-free amadumbe bread . Masters , Department of Biotechnology and Food Technology, Faculty of Applied Sciences Durban University of Technology, Durban, South Africa, 2018, 106. -SELINHEIMO, E., AUTIO, K., KRUUS, K., BUCHERT, J. Elucidating the mechanism of laccase and tyrosinase in wheat bread making. Journal of agricultural and Food Chemistry, 2007, 55, 6357–6365. -SELINHEIMO, E. Tyrosinase and laccase as novel crosslinking tools for food biopolymers. Dissertation, Faculty of Chemistry and Materials Helsinki University, 2008. -SENTHIVELAN, T., KANAGARAJ, J., PANDA, R. C., NARAYANI, T. Screening and production of a potential extracellular fungal laccase from Penicillium chrysogenum: Media optimization by response surface methodology (RSM) and central composite rotatable design (CCRD). Biotechnology Reports, 2019, 23, 1- 15. -SHEWRY, P. R., HALFORD, N. G. Cereal seed storage proteins: structures, properties and role in grain utilization. Journal of Exp. Bot., 2002, 53, 947-958. -SHEWRY, P., HALFORD, N., TATHAM, A. High molecular weight subunits of wheat glutenin. Journal of Cereal Science, 1992, 15, 105-120. -SI, J.Q. Use of laccase in baking industry. International Patent , Application, 1994 PCT/DK94/00232. -SIMMONDS, D.H. Wheat protein :their chemistry and Nutritional Potential.In wheat science today and tomorrow. L.T. Evans and W.J. peacock (ed).Cambridge university press . Cambridge, 1981. -SINGH, N., GUJRAL, H.S., KATYAL, M., SHARMA, B. Relationship of Mixolab characteristics with protein, pasting, dynamic and empirical rheological characteristics of flours from Indian wheat varieties with diverse grain hardness. Journal of Food Science and Technology, 2019, 56 (5), 2679-2686. -SIP, V., VAVERA, R., CHRPOVA, J., KUSA, H., RUZEK, P. Winter wheat yield and quality related to tillage practice, input level and environmental conditions. Soil and Tillage Research, 2013, 132, 77-85. -SLAUGHTER, C. D., H. N. CARL., R. H. WILLIAM. Quality and classification of hard red wheat. Cereal Chem, 1992, 69,428-435.-SONDHI, S., SAINI, K. Response surface based optimization of laccase production from Bacillus sp MSK-01 using fruit juice waste as an effective substrate. Heliyon, 2019, 5, 1-8. -SONG, Q., DENG, X., SONG, R. Expression of Pleurotus ostreatus Laccase Gene in Pichia pastoris and Its Degradation of Corn Stover Lignin. Microorganisms, 2020, 8(601), 1-14. -ŠRAMKOVÁ,Z., GREGOVÁ,E., ŠTURDÍK,E. Chemical composition and nutritional quality of wheat grain. Acta Chimica Slovaca, 2009, 2 (1),115-138. -STAUFFER, C.E. Functional additives for bakery foods. Ed. Van Nostrand Reinhold, 1990, New York. -STAUFFER, C. E. Principles of dough formation. Technology of Breadmaking, 2007, 299-332. -STERJIADES, R., DEAN, J., GAMBLE, G., HIMMELSBACH,D., ERIKSSON, K. Extracellular laccases and peroxidases from sycamore maple (Acer pseudoplaCanus) cell- suspension cultures Reactions with monolignols and lignin model compounds. Planta, 1993,190, 75-87. -STERJIADES, R., DEAN, J., ERIKSSON, K. Laccase from Sycamore Maple (Acer pseudoplatanus) Polymerizes Monolignols. Plant Physiol, 1992, 99, 1162-11680. -SULISTYANINGDYAH,W.T., OGAWA, J., TANAKA, H., MAEDA, C., SHIMIZU, S. Characteriza-tion of alkaliphilic laccase activity in the culture supernatant of Myrotheciumverrucaria 24G-4 in comparison with bilirubin oxidase. FEMS Microbiol Lett, 2004, 230 (2), 209–214. -SWETHA, CH., SHIVAPRASAD, P. V. Extraction and Purification of Laccases from Rice Stems. Bio-protocol, 2019, 9 (07), 1-8. -TAKATA, K., YAMAUCHI, H., NISHIO, Z. AND KUWABARA, T. Prediction of bread-making quality by prolonged swelling SDS-sedimentation test. Breeding Science, 2001, 49, 221-223. -TAWFEUK, H. Z., GOMAA, R. A. Physico-Chemical, Rheological and Technological Evaluation of New Bread Wheat Varieties Grown in Toshka, Aswan (Egypt) by Mixolab. Food and Dairy Sci., Mansoura Univ, 2017, 8 (3), 163- 168. -TELKE, A.A., KAGALKAR , A.N., JAGTAP, U.B., DESAI, N.S., BAPAT, V.A., GOVINDWAR, S.P. Biochemical characterization of laccase from hairy root culture of Brassica juncea L. and role of redox mediators to enhance its potential for the decolorization of textile dyes. Planta, 2011, 234, 1137–1149. -THAKKAR, A.T., BHATT, S.A. Isolation, identification and optimization of laccase from Alternaria alternate. Journal of Applied Biology & Biotechnology, 2020, 8(3), 64-69.-TIAN, W., CHEN, G., ZHANG, G., WANG, D., TILLEY, M., LI, Y. Rapid determination of total phenolic content of whole wheat flour using near-infrared spectroscopy and chemometrics. Food Chemistry, 2020, 1-7. -TROWELL, H. Definition of fiber and hypotheses that it is a protective factor in certain diseases. Am J clin Nutr , 1979, 29 (40), 417 -27. -USDA/NASS. Agricultural statistics. U.S. Department of Agriculture, National Agricultural Statistics Service. U.S. Government Printing Office, 2001, Washington, DS, USA. -USDA US Department of Health and Human Services. 2015–2020 dietary guidelines for Americans. Washington (DC): USDA, 1111. -UTHAYAKUMARAN, S., GRAS, P., STODDARD, F.L., BEKES, F. Effect of varying protein content and glutenin-to- gliadin ratio on the functional properties of wheat dough. Cereal Chem, 1999, 76(3), 389-394. -VEGA, Ó., MARCO, R., RISIO, C. Physical and sensory properties of fresh bread with addition of the enzymes laccase, xylanase, and lipase. Revista EIA, 2015, 12 (24), 87-100. -WANG, G., LI, Q., LUO, B., CHEN, X. Ex planta phytoremediation of trichlorophenol and phenolic allelochemicals via an engineered secretory laccase. Nature Biotechnology, 2004, 22 (7), 893-879. -WANG, J., FENG, J., JIA, W., CHANG, S., LI, SH., LI, Y. Lignin engineering through laccase modification: a promising field for energy plant improvement. biotechnol Biofuels, 2015, 8, 145-156. -WIESER, H. Chemistry of gluten proteins. Food Microbiology, 2007, 24, 115-119. -XHABIRI, G.Q., DURMISHI, IDRIZI, N., FERATI, I., HOXHA, I. Rheological qualities of dough from mixture of flour and wheat bran and possible correlation between bra bender and mixolab Chopin equipments. MOJ Food Process Technol, 2016, 2 (4), 121-128. -XU, F., SHIN, W., BROWN, S.H., WAHLEITHNER, J.A., SUNDARAM, U.M., SOLOMON, E.I. A study of a series of recombinant fungal laccases and bilirubin oxidase that exhibit significant differences in redox potential, substrate specificity, and stability. Biochem. Biophys. Acta, 1996, 1292, 303- 311. -XU, F. The encyclopedia of bioprocessing technology: fermentation, biocatalysis and bioseparation, in: M.C. Flickinger, S.W. Drew (Eds.), Wiley, New York, 1999, pp. 1545-1554. -YOSHIDA, H. Chemistry of lacquer (Urushi) part 1. J Chem Soc, 1883, 43, 472–86.. -YOUSEFIAN, M., SHAHBAZI, F., HAMIDIAN, K. Crop yield and physic0chemical properties of wheat grain as affected by tillage system.sustainability, 2021 ,13,4781.-ZAIDUL, I.S.M., YAMAUCHI, H., KIM, S., HASHIMOTO, N., NODA, T. RVA study of mixtures of wheat flour and potato starches with different phosphorus contents. Food Chemistry, 2007, 102, 1105-1111. -ZHANG, Y., TRUZZI, F., D’AMEN, E., DINELLI, G. Effect of Storage Conditions and Time on the Polyphenol Content of Wheat Flours. Processes, 2021, 9 (248), 1–11. -ŽILIĆ, S., SERPEN, A., AKILLIOĞLU, G., JANKOVI, M., GÖKMEN, V. Distributions of phenolic compounds, yellow pigments and oxidative enzymes in wheat grains and their relation to antioxidant capacity of bran and debranned flour. Journal of Cereal Science, 2012, 56 (3),652–658. -ŽILIĆ, S., BASIĆ, Z., HADŽI-TAŠKOVIĆ ŠUKALOVIĆ, V., MAKSIMOVI, V., JANKOV, M., FILIPOV, M. Can the sprouting process applied to wheat improve the contents of vitamins and phenolic compounds and antioxidant capacity of the flour?. International Journal of Food Science and Technology, 2014, l49 (4), 1040–1047. -ŽILIĆ, S. Phenolic compounds of wheat their content, antioxidant capacity and bioaccessibility. MOJ Food Processing & Technology, 2016, 2 (3), 581–588.