Environmental Engineering Reference
In-Depth Information
Rahman SM, Kinoshita T, Anai T, Arima S, Takagi Y (1998) Genetic relationships of soybean mutants for dif-
ferent linolenic acid contents.
Crop Sci
38:702-706
Rahman SM, Kinoshita T, Anai T, Takagi Y (2001) Combining ability in loci for high oleic and low linolenic
acids in soybean.
Crop Sci
41:26-29
Rahman SM, Takagi Y (1997) Inheritance of reduced linolenic acid content in soybean seed oil.
Theor Appl
Genet
94:299-302
Rahman SM, Takagi Y, Kinoshita T (1997) Genetic control of high stearic acid content in seed oil of two soy-
bean mutants.
Theor Appl Genet
95:772-776
Rahman SM, Takagi Y, Kinoshita T (1996a) Genetic control of high oleic acid content in the seed oil of two
soybean mutants.
Crop Sci
36:1125-1128
Rahman SM, Takagi Y, Kubota K, Miyamoto K, Kawakita T (1994) High oleic mutant in soybean induced
x-ray irradiation.
BioSci Biotechnol Biochem
58:1070-1072
Rahman SM, Takagi Y, Kumamaru T (1996b) Low linolenate sources at the fan locus in soybean lines M-5 and
IL-8.
Breed Sci
46:155-158
Rebetzke GJ, Burton JE, Carter Jr. TE, Wilson RF (1998) Changes in agronomic and seed characteristics with
selection for reduced palmitic acid content in soybean.
Crop Sci
38:297-302
Reinprecht Y, Poysa VW, Yu K, Rajcan II, Ablett GR, Pauls KP (2006) Seed and agronomic QTL in low lino-
lenic acid, lipoxygenase-free soybean (
Glycine max
(L.) Merrill) germplasm.
Genome
49:1510-1527
Rennie BD, Tanner JW (1989a) Genetic analysis of low linolenic acid levels in the line PI123440.
Soybean
Genet Newsl
16:25-26
Rennie BD, Tanner JW (1989b) Fatty acid composition of oil from soybean seeds grown at extreme tempera-
tures.
J Amer Oil Chem Soc
66:1622-1624
Rennie BD, Tanner JW (1991) New allele at the fan locus in the soybean line A5.
Crop Sci
31:297-301
Rennie BD, Zilka J, Cramer MM, Buzzell RI (1988) Genetic analysis of low linolenic acid levels in the soybean
line PI361088B.
Crop Sci
28:655-657
Ross AJ, Fehr WR, Welke GA, Cianzio SR (2000) Agronomic and seed traits of 1%-linolenate soybean geno-
types.
Crop Sci
40:383-386
Routaboul JM, Benning C, Bechtold N, Caboche M, Lepiniec L (1999) The
TAG1
locus of
Arabidopsis
encodes
for a diacylglycerol acyltransferase.
Plant Physiol Biochem
37:831-840
Sandhu D, Alt JL, Scherder CW, Fehr WR, Bhattacharyya MK (2007) Enhanced oleic acid content in the soy-
bean mutant M23 is associated with the deletion in the
Fad2-1a
gene encoding a fatty acid desaturase.
J Amer Oil Chem Soc
84:229-235
Schnebly SR, Fehr WR (1993) Effect of years and planting dates on fatty acid composition of soybean geno-
types.
Crop Sci
33:716-719
Sensoz S, Kaynar I (2006) Bio-oil production from soybean (
Glycine max
L.); fuel properties of bio-oil,
Indust
.
Crops Prod
23:99-105
Settlage S, Kwanyuen P, Wilson R (1998) Relation between diacylglycerol acyltransferase activity and oil
concentration in soybean.
J Amer Oil Chem Soc
75:775-781
Shannon JG, Sleper DA (2004) Breeding soybean for improved functional traits in the U.S. In:
Proceedings
of the International Symposium on the Development of Functional Soybean Varieties, New Materials,
Medicines, and Foods
. Kyungpook National University, Daegu Metropolitan City, South Korea, pp 81-91
Shieh CJ, Liao HF, Lee CC (2003) Optimization of lipase-catalyzed biodiesel by response surface methodol-
ogy.
Bioresour Technol
88:103-106
Spencer MM, Pantalone VR, Meyer EJ, Landau-Ellis D, Hyten Jr DL (2003) Mapping the
Fas
locus controlling
stearic acid contents in soybean.
Theor Appl Genet
106:615-619
Stojsin D, Luzzi BM, Ablett GR, Tanner JW (1998) Inheritance of low linolenic acid level in the soybean line
RG10.
Crop Sci
38:1441-1444
Suppes GJ, Dasari MA, Doskocil EJ, Mankidy PJ, Goff MJ (2004) Transesterification of soybean oil with zeo-
lite and metal catalysts.
Appl Catal A-Gen
257:213-223
Takagi Y, Rahman SM (1996) Inheritance of high oleic acid content in the seed oil of soybean mutant M23.
Theor Appl Genet
71:74-78
Tan T, Lu J, Nie K, Deng L, Wang F (2010) Biodiesel production with immobilized lipase: A review.
Biotechnol
Adv
28:628-634
Tat ME, Wang PS, Van Gerpen JH, Clemente TE (2007) Exhaust emissions from an engine fueled with bio-
diesel from high-oleic soybeans.
J Amer Oil Chem Soc
84:865-869
USDA, ARS (2007)
National Genetic Resources Program. Germplasm Resources Information Network—
(GRIN)
. National Germplasm Resources Laboratory, Beltsville, MD, available at http://www.ars-grin.
gov/cgi-bin/npgs/html/desc_find.pl (accessed September 26, 2007)