Biology Reference
In-Depth Information
Hongtrakul V, Slabaugh MB, Knapp SJ (1998a) DFLP, SSCP, and SSR markers for delta
9-stearoyl-acyl carrier protein desaturases strongly expressed in developing seeds
of sunflower: intron lengths are polymorphic among elite inbred lines. Mol Breed 4:
195-203.
Hongtrakul V, Slabaugh MB, Knapp SJ (1998b) A seed specific
12 oleate desaturase
gene is duplicated, rearranged, and weakly expressed in high oleic acid sunflower
lines. Crop Sci 38: 1245-1249.
Hunter SC, Cahoon EB (2007) Enhancing vitamin E in oilseeds: Unraveling tocopherol
and tocotrienol biosynthesis. Lipids 42: 97-108.
Ivanov P, Georgiev I (1981) Biochemical characteristics of some sunflower mutant
forms. EUCARPIA Meet, 26-30 Oct 1981, Prauge, Czechoslovakia, pp 256-266.
Jellum MD, Widstrom NW ( 1983) Inheritance of stearic acid in germ oil of the maize
kernel. J Hered 74: 383-384.
Jung S, Swift D, Sengoku E, Patel M, Teule F, Powell G, Moore K, Abbott A (2000a) The
high oleate trait in the cultivated peanut Arachis hypogaea L. I. Isolation and
characterization of two genes encoding microsomal oleoyl-PC desaturases. Mol
Gen Genet 263: 796-805.
Jung S, Powell G, Moore K, Abbott AG (2000b) The high oleate trait in the cultivated
peanut Arachis hypogaea L. II. Molecular basis and genetics of the trait. Mol Gen
Genet 263: 806-811.
Kabbaj A, Abbott AG, Vervoort V, Bervillé A (1995) Expression of stearate, oleate and
linoleate desaturase genes in sunflower with normal and high oleic contents. 3rd
Eur Sunflower Biotechnol Conf, 30 Oct-2 Nov 1995 Giessen, Germany, p 15.
Kabbaj A, Abbott AG, Vervoort V, Tersac M, Bervillé A (1996a) Characterization of
genes for stearate, oleate and linoleate desaturase and expression in sunflower with
normal and high oleic contents, cloning of
12 genes and variability in
Helianthus. 14th Int Sunflower Conf, June 12-20, Beijing, vol 2, pp 1035-1038.
Kabbaj A, Vervoort V, Abbott AG, Tersac M, Bervillé A (1996b) Polymorphism in
Helianthus and expression of stearate, oleate and linoleate desaturase genes in
sunflower with normal and high oleic contents. Helia 19(25): 1-17.
Kachroo A, Lapchyk L, Fukushige H, Hildebrand D, Klessig D, Kachroo P (2003)
Plastidial fatty acid signaling modulates salicylic acid- and jasmonic acid-mediated
defense pathways in the Arabidopsis ssi2 mutant. Plant Cell 15: 2952-2965.
Kusaba M, Miyahara K, Iida S, Fukuoka H, Takano T, Sassa H, Nishimura M, Nishio T
(1993) Low glutelin content 1: A dominant mutation that suppresses the glutelin
multigene family via RNA silencing in rice. Plant Cell 5: 931-940.
Lacombe S, Bervillé A (2000) Problems and goals in studying oil composition variation
in sunflower. Proc 15th Int Sunflower Conf, June 12-15, Toulouse, France, pp D16-
27.
Lacombe S, Bervillé A (2001) A dominant mutation for high oleic acid content of sunflower
( Helianthus annuus L.) oil is genetically linked to a single oleate-desaturase RFLP
locus. Mol Breed 8: 129-137.
Lacombe S, Tersac M, Kaan F, Griveau Y, Serieys H, Abbott A, Bervillé A (1998) RFLP
profiles in low oleic sunflower using a stearoyl ACP and an oleoyl PC desaturase
cDNA. 4th Eur Sunflower Biotechnol Conf, Oct 20-23, Montpellier, France, p 81.
Lacombe S, Lambert P, Cellier F, Casse F, Bervillé A (1999) RFLP profiles in low oleic
sunflower using SDI-, a stearoyl-ACP, and an oleoyl-PC desaturases cDNAs.
Helia 22(30): 19-28.
Lacombe S, Kaan F, Léger S, Bervillé A (2001) An OD and a suppressor loci direct high
oleic acid content of sunflower ( Helianthus annuus L.) oil in the Pervenets mutant.
CR Acad Sci Paris, Série III 324: 839-845.
9 and
Search WWH ::




Custom Search