Agriculture Reference
In-Depth Information
Briarty, L.G., C.E. Hughes, and A.D. Evers. 1979. The
developing endosperm of wheat—a stereological analysis.
Ann. Bot. 44:641-658.
Butow, B.J., A.S. Tatham, A.W.J. Savage, S.M. Gilbert,
P.R. Shewry, R.G. Solomon, and F. Bekes. 2003. Creating
a balance—the incorporation of a HMW glutenin subunit
into transgenic wheat lines. J. Cereal Sci. 38:181-187.
Chung, O.K. 1986. Lipid-protein interactions in wheat fl our,
dough, gluten, and protein fractions. Cereal Foods World
31:242-244, 246-247, 249-252, 254-256.
Cornish, G.B. 2007. Juggling quality genes. p. 93-97.
In
J.F. Panozzo and C.K. Black (ed.) Cereals 2007. Proc.
Aust. Cereal Chem. Conf., 57th, Melbourne, VIC. 5-10
August 2007. Royal Aust. Chem. Inst., Melbourne,
Australia.
Cornish, G.B., F. Bekes, H.M. Allen, and D.J. Martin. 2001.
Flour proteins linked to quality traits in an Australian
doubled haploid wheat population. Aust. J. Agric. Res.
52:1339-1348.
Cornish, G.B., F. Bekes, H.A. Eagles, and P.I. Payne. 2006.
Prediction of dough properties for bread wheats. p. 243-
280.
In
C.W. Wrigley, F. Bekes, and W. Bushuk (ed.)
Gliadin and glutenin: The unique balance of wheat quality.
AACC Int., St. Paul, MN.
Crosbie, G.B. 1991. The relationship between starch swelling
properties, paste viscosity and boiled noodle quality in
wheat fl ours. J. Cereal Sci. 13:145-150.
Crosbie, G.B., and W.J. Lambe. 1993. The application of the
fl our swelling volume test for potential noodle quality to
wheat breeding lines affected by sprouting. J. Cereal Sci.
18:267-276.
D'Appolonia, B.L., and P. Rayas-Duarte. 1994. Wheat car-
bohydrates: Structure and functionality. p. 107-127.
In
W.
Bushuk and V.F. Rasper (ed.) Wheat production, proper-
ties and quality. Chapman and Hall, London, UK.
Daqiq, L. 2002. Polymer size and shape in cereal processing.
PhD diss. Univ. of Sydney, Australia.
Day, L., I.L. Batey, C.W. Wrigley, and M.A. Augustin.
2006. Gluten uses and food industry needs. Trends Food
Sci. Technol. 17:82-90.
Eagles, H.A., K. Cane, R.F. Eastwood, G.J. Hollamby, H.
Kuchel, P.J. Martin, and G.B. Cornish. 2006. Contribu-
tions of glutenin and puroindoline genes to grain quality
traits in southern Australian wheat breeding programs.
Aust. J. Agric Res. 57:179-186.
Fabriana, G., and C. Lintas (ed.) 1988. Durum wheat: Chem-
istry and technology. AACC Int., St. Paul, MN.
Faridi, H., and J. Faubion (ed.) 1995. Wheat end-uses around
the world. AACC Int., St. Paul, MN.
Fincher, G.B., and B.A. Stone. 1986. Cell walls and their
components in cereal grain technology. p. 207-295.
In
Y.
Pomeranz (ed.) Advances in cereal science and technology.
Vol. VII. AACC, St. Paul, MN.
Fincher, G.B., and B.A. Stone. 2004. Chemistry of nonstarch
polysaccharides. p. 206-223.
In
C. Wrigley, H. Corke, and
C. Walker (ed.) Encyclopedia of grain science. Vol. 1. Else-
vier, Oxford, UK.
Frazier, P.J., N.W.R. Daniels, and P.W.R. Eggitt. 1981.
Lipid-protein interactions during dough development. J.
Sci. Food Agric. 32:877-897.
Fuerst, E.P., J.V. Anderson, and C.F. Morris. 2006. Delin-
eating the role of polyphenol oxidase in the darkening of
alkaline wheat noodles. J. Agric. Food Chem.
54:2378-2384.
Gan, Z., P.R. Ellis, and J.D. Schofi eld. 1995. Gas cell stabi-
lisation and gas retention in wheat bread dough. J. Cereal
Sci. 21:215-230.
Gautier, M.-F., M.-E. Aleman, A. Guirao, D. Marion, and
P. Joudrier. 1994.
Triticum aestivum
puroindolines, two
basic cystine-rich seed proteins: cDNA sequence analysis
and developmental gene expression. Plant Mol. Biol.
25:43-57.
Greenwell, P., and J.D. Schofi eld. 1986. A starch granule
protein associated with endosperm softness in wheat.
Cereal Chem. 63:379-380.
Hargin, K.D., and W.R. Morrison. 1980. The distribution of
acyl lipids in the germ, aleurone, starch and non-starch
endosperm of four wheat varieties. J. Sci. Food Agric.
31:877-888.
Hassani, M.E., M.R. Sharifl ou, M.C. Gianibelli, and P.J.
Sharp. 2008. Characterisation of
-gliadin gene in
Triti-
cum tauschii
. J. Cereal Sci. 47:50-67.
Hatcher, D.W., and J.E. Kruger. 1993. Distribution of poly-
phenol oxidase in fl our millstreams of Canadian common
wheat classes milled to three extraction rates. Cereal Chem.
70:51-55.
Henry, R.J. 2007. Genomics as a tool for cereal chemistry.
Cereal Chem. 84:365-369.
Hessler, T.G., M.J. Thomson, D. Benscher, M.M. Nachit,
and M.E. Sorrells. 2002. Association of a lipoxygenase
locus,
Lpx-B1
, with variation in lipoxygenase activity in
durum wheat seeds. Crop Sci. 42:1695-1700.
Hoseney, R.C., Y. Pomeranz, and K.F. Finney. 1970. Func-
tional (breadmaking) and biochemical properties of wheat
fl our components: VI. Gliadin-lipid-glutenin interaction
in wheat gluten. Cereal Chem. 47:135-140.
Jones, B., C. Morris, F. Bekes, and C.W. Wrigley. 2006.
Proteins that complement the roles of gliadin and glutenin.
p. 413-446.
In
C.W. Wrigley, F. Bekes, and W. Bushuk
(ed.) Gliadin and glutenin: The unique balance of wheat
quality. AACC Int., St. Paul, MN.
Khan, K., and P. Shewry (ed.) 2009. Wheat: Chemistry and
technology. 4th ed. AACC Int., St. Paul, MN.
Kiribuchi-Otobe, C., T. Nagamine, T. Yanagisawa, M.
Ohnishi, and I. Yamaguchi. 1997. Production of hexaploid
wheats with waxy endosperm character. Cereal Chem.
74:72-74.
Koksel, H., D. Sivri, P.K.W. Ng, and J.F. Steffe. 2001.
Effects of transglutaminase enzyme on fundamental rheo-
logical properties of sound and bug-damaged wheat fl our
doughs. Cereal Chem. 78:26-30.
Kruger, J.E. 1989. Biochemistry of preharvest sprouting
in cereals. p. 61-84.
In
N.F. Derera (ed.) Preharvest
fi eld sprouting in cereals. CRC Press Inc., Boca Raton,
FL.
Larsson, H., and A-C. Eliasson. 1997. Infl uence of the starch
granule surface on the rheological behaviour of wheat fl our
dough. J. Texture Stud. 28:487-501.
Lawton, J.W. 2004. Starch: Uses of native starch. p. 195-
202.
In
C. Wrigley, H. Corke, and C. Walker (ed.)
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