Environmental Engineering Reference
In-Depth Information
Howell RW, Brim CA, Rinnes RW (1972) The plant geneticist's contribution toward changing lipid and amino
acid composition of soybeans.
J Amer Oil Chem Soc
49:30-32
Howell RW, Collins FI (1957) Factors affecting linolenic and linoleic acid content of soybean oil.
Agron J
49:593-597
Hu G, Ablett GR, Pauls KP, Rajcan I (2006) Environmental effects on fatty acid levels in soybean oil.
J Amer
Oil Chem Soc
83:759-763
Hyten DL, Pantalone VR, Saxton AM, Schmidt ME, Sams CE (2004) Molecular mapping and identification of
soybean fatty acid modifier quantitative trait loci.
J. Amer Oil Chem Soc
81:1115-1118
Isabell TA, Abbott TA, Carlson KD (1999) Oxidative stability of vegetable oils in binary mixtures with mead-
owfoam oil.
Indust Crops Prod
9:15-123
Jako C, Kumar A, Wei Y, Zou J, Barton DL, Giblin EM, Covello PS, Taylor DC (2001) Seed-specific over-
expression of an
Arabidopsis
cDNA encoding a diacylglycerol acyltransferase enhances seed oil content
and seed weight.
Plant Physiol
126:861-874
Kinney AJ (1998) Plants as industrial chemical factories-new oils from genetically engineered soybeans.
Fett/
Lipid
100:173-179
Kinney AJ, Clemente TE (2005) Modifying soybean oil for enhanced performance in biodiesel blends.
Fuel
Process Technol
86:1137-1147
Knowlton S, Ellis SKB, Kelly EF (1996) Performance characteristics of high oleic soybean oil: An alterna-
tive to hydrogenated fits. Paper No 29-O, Presented at the 87th American Oil Chemists' Society Annual
Meeting and Expo, Indianapolis, IN, April 28 to May 1, 1996
Kwanyuen P, Wilson RF (1990) Subunit and amino acid composition of diacylglycerol acyltransferase from
germinating soybean cotyledons.
Protein Struct Mol Enzymol
1039:67-72
Lardizabal K, Effertz R, Levering C, Mai J, Pedroso MC, Jury T, Aasen E, Gruys K, Bennett K (2008) Expression
of
Umbelopsis ramanniana
DGAT2A in seed increases oil in soybean.
Plant Physiol
148:89-96
Lardizabal KD, Mai JT, Wagner NW, Wyrick A, Voelker T, Hawkins DJ (2001) DGAT2 is a new diac-
ylglycerol acyltransferase gene family. Purification, cloning and expression in insect cells of two
polypeptides from
Mortierella ramanniana
with diacylglycerol acyltransferase activity.
J Biol Chem
276:38862-38869
Lee JD, Woolard M, Slepe DA, Smith JA, Pantalone VR, Nyinyi CN, Cardinal A, Shannon JG (2009)
Environmental effects on oleic acid in soybean seed oil of plant introductions with elevated oleic acid
concentration.
Crop Sci
49:1762-1778
Li Z, Wilson RF, Rayford WE, Boerma HR (2002) Molecular mapping genes conditioning reduced palmitic
acid content in N87-2122-4 soybean.
Crop Sci
42:373-378
Liu HR, White PJ (1992) Oxidative stability of soybean oils with altered fatty acid compositions.
J Amer Oil
Chem Soc
69:528-532
Liu K (1999)
Soybeans—Chemistry, Technology and Utilization
. Aspen Publishers, Gaithersburg, MD
Monteros MJ, Burton JH, Boerma HR (2008) Molecular mapping and confirmation of QTL associated with
oleic acid content in N00-3350 soybean.
Crop Sci
48:2223-2234
Ndzana X, Fehr WR, Welke GA, Hammond EG, Duvick DN, Cianzio SR (1994) Influence of reduced palmitate
content on agronomic and seed traits of soybean.
Crop Sci
34:646-649
Nickell AD, Wilcox JR, Lorenzen LL, Cavins JF, Guffy RG, Shoemaker RC (1994) The
Fap
2
locus in soybean
maps to linkage group D.
J Hered
85:160-162
Ohlrogge J, Browse J (1995) Lipid biosynthesis.
Plant Cell
7:957-970
Oliva ML, Shannon JG, Sleper DA, Ellersieck MR, Cardinal AJ, Paris RL, Lee JD (2006) Stability of fatty acid
profile in soybean genotypes with modified seed oil composition.
Crop Sci
46:2069-2075
Pantalone VR, Rebetzke GJ, Burton JW, Wilson RF (1997) Genetic regulation of linolenic acid concentration
in wild soybean
Glycine soja
accessions.
J Amer Oil Chem Soc
74:159-163
Pantalone VR, Walker DR, Dewey RE, Rajcan I (2004) DNA marker-assisted selection for improvement of
soybean oil concentration and quality. In: Wilson R, Stalker HT, Brummer EC (eds),
Legume Crop
Genomics
. American Oil Chemists Society Press, Champaign, IL, pp 283-311
Pantalone VR, Wilson RF, Novitzky WP, Burton JW (2002) Genetic regulation of elevated stearic acid concen-
tration in soybean oil.
J Amer Oil Chem Soc
79:549-553
Panthee DR, Pantalone VR, Saxton AM (2006) Modifier QTL for fatty acid composition in soybean oil.
Euphytica
152:67-73
Pham AT, Lee JD, Shannon JG, Bilyeu KD (2010) Mutant alleles of FAD2-1A and FA D2-1B combine to produce
soybeans with the high oleic acid seed oil trait.
BMC Plant Biol
10:195
Primomo VS, Falk DE, Albert GR, Tanner JW, Rajcan I (2002) Genotype Ă— environment interactions, stability,
and agronomic performance of soybean with altered fatty acid profiles.
Crop Sci
42:37-44