Physicochemical characterization and fatty acid content of ‘venadillo’ (Swietenia humilis Zucc.) seed oil

2012 ◽  
Vol 11 (22) ◽  
Author(s):  
Veronica Perez-Rubio
Keyword(s):  
Fatty Acid ◽  
Acid Content ◽  
Seed Oil ◽  
Fatty Acid Content ◽  
Physicochemical Characterization

scholarly journals A Specialized Diacylglycerol Acyltransferase Contributes to the Extreme Medium-Chain Fatty Acid Content of Cuphea Seed Oil

2017 ◽  
Vol 174 (1) ◽  
pp. 97-109 ◽  
Author(s):  
Umidjon Iskandarov ◽  
Jillian E. Silva ◽  
Hae Jin Kim ◽  
Mariette Andersson ◽  
Rebecca E. Cahoon ◽  
...  
Keyword(s):  
Fatty Acid ◽  
Acid Content ◽  
Seed Oil ◽  
Fatty Acid Content ◽  
Diacylglycerol Acyltransferase ◽  
Chain Fatty Acid ◽  
Medium Chain Fatty Acid ◽  
Medium Chain

scholarly journals GENETIC CHARACTERIZATION OF SUNFLOWER MUTANTS WITH HIGH CONTENT OF SATURATED FATTY ACIDS IN SEED OIL / CARACTERIZACION GENETICA DE MUTANTES DE GIRASOL CON ALTO CONTENIDO EN ACIDOS GRASOS SATURADOS / CARACTÉRISATION GÉNÉTIQUE DES MUTANTS DE TOURNESOL À HAUT CONTENU D’ACIDES GRAS SATURÉS DANS L’HUILE

Helia ◽  
2000 ◽  
Vol 23 (33) ◽  
pp. 77-84
Author(s):  
Begoña Pérez-Vich ◽  
Rafael Garcés ◽  
Jose M. Fernández-Martínez
Keyword(s):  
Fatty Acid ◽  
Saturated Fatty Acid ◽  
Acid Content ◽  
Sunflower Seed ◽  
Seed Oil ◽  
Fatty Acid Content ◽  
Mutant Line ◽  
Sunflower Seed Oil ◽  
Saturated Fatty Acid Content ◽  
High Saturated Fatty Acid

SUMMARY The genetic control of the high saturated fatty acid content in sunflower seed oil has been studied in the high palmitic acid (C16:0) mutant line CAS-5, and in the high stearic acid (C18:0) mutant line CAS-3. This review summarizes the pertinent results. The high saturated fatty acid content in sunflower seed oil is controlled by partially recessive alleles at two loci (Es1, Es2) for the high C18:0 content and at three loci (P1, P2, P3) for the high C16:0 content. The high C16:0 and the high C18:0 traits are not inherited independently. When their combined segregation was studied, the expected phenotypic expression of both high C16:0 and high C18:0 levels was not observed. This fact was attributed to the existence of an epistatic effect of the loci controlling the high C16:0 trait on the loci controlling the high C18:0 trait. The results obtained indicate that sunflower hybrids with a high saturated fatty acid content in their seed oil can be developed and will be in cultivation in a few years.

scholarly journals An ideal fatty acid composition for human health: Hemp (Cannabis sativa L.) seed

2021 ◽  
Vol 3 (1) ◽  
pp. 188-194
Author(s):  
Ezgi Aytaç ◽  
Keyword(s):  
Fatty Acid ◽  
Acid Content ◽  
Crude Protein ◽  
Dry Matter ◽  
Seed Oil ◽  
Cannabis Sativa ◽  
Fatty Acid Content ◽  
Oil Yield ◽  
Oil Composition ◽  
Hemp Seed

The objective of this study was to show and crosscheck the seed yield and oil composition of three different seeds growing in different regions of Turkey. Extraction with n-hexane solvent indicated that there were differences in terms of oil yield between the regions. The average oil yield was 33.8% and 33.0% seed-I, 35.7% seed-II (Region-a) and 32.6% seed-III (Region-b) oil yields were obtained. The highest fatty acid content of hemp was found as: linoleic acid (average 55.24%) followed by oleic acid (average 17.20%) and α-linolenic acid (average 16.02%). Crude ash, total dry matter and crude protein analyzes were also performed. It was observed that the hemp seed oil yield was dependent on the extraction whereas extraction had no influence on the fatty acid content. Comparison of the seed oil yield with the other studies indicated that geographical region as well as the extraction method may affect the seed oil yield.

scholarly journals Identifying SSR Markers Related to Seed Fatty Acid Content in Perilla Crop (Perilla frutescens L.)

Plants ◽  
2021 ◽  
Vol 10 (7) ◽  
pp. 1404
Author(s):  
Hyeon Park ◽  
Kyu Jin Sa ◽  
Do Yoon Hyun ◽  
Sookyeong Lee ◽  
Ju Kyong Lee
Keyword(s):  
Fatty Acid ◽  
Ssr Markers ◽  
Acid Content ◽  
Seed Oil ◽  
Fatty Acid Content ◽  
Oil Quality ◽  
Health Food ◽  
Breeding Programs ◽  
Perilla Seed

Perilla seed oil has been attracting attention in South Korea as a health food. Five fatty acids of 100 Perilla accessions were identified as follows: palmitic acid (PA) (5.10–9.13%), stearic acid (SA) (1.70–3.99%), oleic acid (OA) (11.1–21.9%), linoleic acid (LA) (10.2–23.4%), and linolenic acid (LNA) (54.3–75.4%). Additionally, the 100 Perilla accessions were divided into two groups (high or low) based on the total fatty acid content (TFAC). By using an association analysis of 40 simple sequence repeat (SSR) markers and the six Perilla seed oil traits in the 100 Perilla accessions, we detected four SSR markers associated with TFAC, five SSR markers associated with LNA, one SSR marker associated with LA, two SSR markers each associated with OA and PA, and four SSR markers associated with SA. Among these SSR markers, four SSR markers (KNUPF14, KNUPF62, KNUPF72, KNUPF85) were all associated with TFAC and LNA. Moreover, two SSR markers (KNUPF62, KNUPF85) were both associated with TFAC, LNA, and OA. Therefore, these SSR markers are considered to be useful molecular markers for selecting useful accessions related to fatty acid contents in Perilla germplasm and for improving the seed oil quality of Perilla crop through marker-assisted selection (MAS) breeding programs.

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