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References
Baker, J.C and Mize, M.D. (1942) The relation of fats to texture, crumb and volume of bread. Cereal Chemistry, 19, 84–94.
de Boer, L., Heeremans, C.E.M. and Meima, R.B. (2005) Reduction of acrylamide formation in bakery products by application of Aspergillus niger asparaginase, in (eds S.P. Cauavin, S.E. Salmon and L.S. Young) Using Cereal Science and Technology for the Benefit of Consumers, Woodhead Publishing Ltd., Cambridge, pp. 401–405.
Bollian, C. and Collar, C. (2005) Impact of microbial transglutaminase on the fresh quality and keepability of enzyme supplemented pan breads, in (eds S.P. Cauavin, S.E. Salmon and L.S. Young) Using Cereal Science and Technology for the Benefit of Consumers, Woodhead Publishing Ltd., Cambridge, pp. 152–157.
The Bread and Flour Regulations (1998) UK SI 1998, No.141 as Amended by SI 1999, No. 1136, HMSO, London.
Cauvain, S.P. (1985) Effects of some enzymes on loaf volume in the CBP. FMBRA Bulletin, No. 1, February, CCFRA, Chipping Campden, UK, pp. 11–17.
Cauvain, S.P. and Chamberlain, N. (1988) The bread improving effect of fungal alpha-amylase. Journal of Cereal Science, 8, November, 239–248.
Cauvain, S.P., Davies, J.A.D. and Fearn, T. (1985) Flour characteristics and fungal alpha-amylase in the Chorleywood Bread Process. FMBRA Report No. 121, March, CCFRA, Chipping Campden, UK.
Cauvain, S.P. and Young, L.S. (2006) The Chorleywood Bread Process, Woodehead Publishing, Cambridge, UK.
Chamberlain, N. and Collins, T.H.. (1979) The Chorleywood Bread Process: the roles of oxygen and nitrogen. Bakers’ Digest, 53, 18–24.
Chamberlain, N., Collins, T.H. and Elton, G.A.H. (1965) The Chorleywood Bread Process: improving effects of fat. Cereal Science Today, 10(8).
Chamberlain, N., Collins, T.H. and McDermott, E.E. (1977) The Chorleywood Bread Process: the effects of alpha-amylase activity on commercial bread. FMBRA Report No. 73, June, CCFRA, Chipping Campden, UK.
Collins, T.H. (1978) The French baguette and pain Parisien. FMBRA Bulletin, April, CCFRA, Chipping Campden, pp. 107–116.
Collins, T.H. (1994) Mixing, moulding and processing of bread doughs in the UK, in Breeding to Baking, Proceedings of an International Conference at FMBRA, Chorleywood, 15–16 June, CCFRA, Chipping Campden, pp. 77–83.
Collins, T.H. and Haley, S. (1992) Frozen bread doughs: effect of ascorbic acid addition and dough mixing temperature on loaf properties. FMBRA Digest 114, February, CCFRA, Chipping Campden, pp. 21–3.
EC (2000) Regulation (EC) No. 258/97 of the European Parliament and the Concil concerning noven foods and novel food ingredients.
Kulp, K. (1993) Enzymes as dough improvers, in (eds B.S. Kamel and C.E. Stauffer) Advances in Baking Technology, Blackie Academic & Professional, London, UK, pp 152–176.
Farrand, E.A. (1964) Flour properties in relation to modern breadmaking processes in the United Kingdom, with special reference to alpha-amylase and damaged starch. Cereal Chemistry, 41, March, 98–111.
Frazier, P.J., Leigh-Dugmore, F.A., Daniels, N.W.R. et al. (1973) The effect of lipoxygenase action on the mechanical development of wheat flour doughs. Journal of Science, Food and Agriculture, 24(4), 421–436.
Miller, B.S., Johnson, J.A. and Palmer, D.L. (1953) A comparison of cereal, fungal and bacterial alpha-amylase as supplements in breadmaking. Food Technology, 7, 38.
The Miscellaneous Food Additive Regulations, UK SI3187 (1995) HMSO, London.
Poulson, C.H. and Soe, J.B. (1996) Effect and functionality of lipase in dough and bread, in (eds S.A.G.F. Angelino, R.J. Hamer, W. Van Hartingsveldt, F. Heidekamp and J.P. Van Der Lugt), First Symposium on Enzymes and Grain Processing, Nutrition and Food Research Institute, Wageningen, The Netherlands, pp. 204–214.
Rittig, F.T. (2005) Lipopan F BG – unlocking the natural strengthening potential in dough, in (eds S.P. Cauavin, S.E. Salmon and L.S. Young) Using Cereal Science and Technology for the Benefit of Consumers, Woodhead Publishing Ltd., Cambridge, pp. 147–151.
Si, J.Q. (1997) Synregistic effects of enzymes for breadmaking. Cereal Foods World, 42(10), 802–803.
Si, J.Q. and Hassan, T.T. (1994) Effect of lipase on breadmaking in correlation with their effects on dough rheology and wheat lipds. Proceedings of International Symposium AACC/ICC/CCOA, AACC, St. Paul, Minneapolis, USA.
Vemulapalli, V., Miller, R.A. and Hoseney, R.D. (1998) Glucose oxidase in breadmaking systems. Cereal Chemistry, 75, 439–442.
Wiksrom, K. and Eliasson, A.C. (1998) Effects of enzymes and oxidising agents on shear stress relaxation of wheat flour dough: additions of protease, glucose oxidase, ascorbic acid and potassium bromate. Cereal Chemistry, 75, 331–337.
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Williams, T., Pullen, G. (2007). Functional Ingredients. In: Technology of Breadmaking. Springer, Boston, MA. https://doi.org/10.1007/0-387-38565-7_3
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