F. R. Earle

Bio: F. R. Earle is an academic researcher. The author has contributed to research in topics: Industrial Oils & Fatty acid. The author has an hindex of 22, co-authored 32 publications receiving 1938 citations.

Search for new industrial oils. VII

Abstract: Seed oils from 37 plant species in 18 families have been analyzed for fatty acid composition by the isomerization method. The variability encountered is evidenced by the range in content of component acids: from 0–23% for apparent linolenic acid, from 8–74% for apparent linoleic acid, and from 2–88% for apparent oleic acid. Dimorphecolic acid has been found to the extent of approximately 60% in a second species ofDimorphotheca, D. pluvialis (L.) Moench, and in the closely related species,Osteospermum ecklonis (DC.) T. Norl.O. spinescens Thunb. contained instead 30% of a conjugated triene, presumably the same as the 8,10,12-octadecatrienoic reported from the relatedCalendula officinalis L. Oils rich in monoenoic acids are mostly in the Umbelliferae and Araliaceae and presumably contain petroselinic acid as well as oleic.

Search for new industrial oils. V. Oils of cruciferae

Abstract: Seeds from 37 species of plants in the family Cruciferae were analyzed for oil and protein, and the fatty acid composition of the oils was determined by gas-liquid chromatography. Erucic acid, generally considered characteristic of crucifer oils, occurs in about three-fourths of these species in amounts ranging from 3 to 59%. Some oils free of erucic acid contain up to 63% linolenic acid or up to 58% eicosenoic.

Search for new industrial oils. I. Selected oils from 24 plant families

Abstract: The group of analyses used in this preliminary screening of oils has proved capable of indicating many seed species that contain oils of unusual or unknown composition. Some of the oils are characterized sufficiently to suggest probable commercial uses; others give no evidence of properties that would lead to their use while present commercial oils are in adequate supply. Still other oils are shown to have unknown composition, which must be determined before their potential value can be judged. The study as yet contains too few species to generalize about the relationship between botanical classification and oil composition. It does however provide numerous leads in the search for oils of industrial value.

Search for new industrial oils. XIII. Oils from 102 species of cruciferae

Abstract: Seed from additional species of Cruciferae have been analyzed for crude protein, oil and fatty acids in the oil. Oils were like those reported earlier from other crucifers, except forCardamine impatiens which is unique among known seed oils because it contains some 25% dihydroxy acids. Erucic acid is present (0.3–55%) in about three-fourths of the 102 samples. Eicosenoic acid is a major constituent (32–53%) in four species and monohydroxy acids (45–72%) in another four. Linolenic acid occurs (2–66%) in oil of all species.

Chia seeds as a source of natural lipid antioxidants

Abstract: Chia (Salvia sp) seeds were investigated as a source of natural lipid antioxidants. Methanolic and aqueous extracts of defatted chia seeds possessed potent antioxidant activity. Analysis of 2 batches of chia-seed oils demonstrated marked difference in the fatty acid composition of the oils. In both batches, the oils had high concentrations of polyunsaturated fatty acids. The major antioxidant activity in the nonhydrolyzed extract was caused by flavonol glycosides, chlorogenic acid (7.1 × 10−4 mol/kg of seed) and caffeic acid (6.6 × 10−3 m/kg). Major antioxidants of the hydrolyzed extracts were flavonol aglycones/kaempferol (1.1 × 10−3 m/kg), quercetin (2.0 × 10−4 m/kg) and myricetin (3.1 × 10−3 m/kg); and caffeic acid (1.35 × 10−2 m/kg). Two methods were used to measure antioxidant activities. Both were based on measuring bleaching ofβ-carotene in the coupled oxidation ofβ-carotene and linoleic acid in the presence of added antioxidants.

Certain functional properties of sunflower meal products

Abstract: Certain functional properties including water absorption, fat absorption, emulsification, whippability and foam stability were determined on the sunflower flour, protein concentrates and isolate. The results were also compared to those obtained on soy products. Data on water and fat absorption studies suggest that soy products are more hydrophilic in nature while sunflower material exhibited greater lipophilic properties than the soy products. Emulsification tests showed that sunflower flour was superior to all other soy and sunflower products. In general, whipping properties of soy and sunflower isolates were similar, while less whippability was observed for the soy flour and protein concentrates. Whipped foams produced by soy and sunflower protein isolates and sunflower flour were more stable than soy flour, soy and sunflower protein concentrates.

Fatty acid and polar lipid composition in the classification of Cellulomonas, Oerskovia and related taxa

Abstract: Strains representing the taxa Cellulomonas, Oerskovia, Brevibacterium fermentans, Corynebacterium manihot and Nocardia cellulans were degraded by acid methanolysis and the non-hydroxylated fatty acid esters released examined by thin-layer and gas chromatography. The major fatty acid in all strains was 12-methyltetradecanoic acid (anteiso C15) which occurred together with other anteiso acids, iso and straight-chain acids. The fatty acid profiles of the cellulomonads were distinguished by the presence of 13-carbon acids and significantly higher proportions of straight-chain acids than found in the other test strains whose profiles were closely similar to one another. Two-dimensional thin-layer chromatography showed that almost identical and very characteristic polar lipid patterns were given by all the organisms under study: the only major components were diphosphatidylglycerol, phosphatidylinositol and two phospho-glycolipids chromatographing similarly to, but distinguishable from, the mono- and diacyl phosphatidylinositol dimannosides characteristic of Nocardia and other actinomycetes. The accumulated lipid data support the reclassification of B. fermentans, Cor. manihot and N. cellulans in the genus Oerskovia.

Lipids in the Classification and Identification of Coryneform Bacteria Containing Peptidoglycans Based on 2, 4-diaminobutyric Acid

Abstract: Strains of 2, 4-diaminobutyric acid-containing coryneform bacteria were degraded by acid methanolysis and the non-hydroxylated fatty acid esters released examined by thin-layer and gas chromatography. The major fatty acid structural types were straight-chain, anteiso- and iso-methyl branched-chain acids. Polar lipids of the test strains were examined by two-dimensional thin-layer chromatography. All strains possessed very characteristic polar lipid patterns consisting of diphosphatidylglycerol, phosphatidylglycerol and a number of uncharacterized glycolipids. Menaquinones (vitamin K) were the sole isoprenoid quinones detected in the test strains. Corynebacterium insidiosum, Cor. michiganense, Cor. nebraskense and Cor. sepedonicum contained unsaturated menaquinones with nine isoprene units, whereas unsaturated menaquinones with 10 isoprene units predominated in strains of Cor. iranicum and Cor. tritici and a strain labelled Arthrobacter sp. The single strain of Cor. aquaticum examined contained comparable amounts of menaquinones with 10 and 11 isoprene units whereas strains of Cor. mediolanum and Flavobacterium dehydrogenans contained major amounts of menaquinones with 11 and 12 isoprene units. The results of the present study indicate that lipid markers may be of considerable value in the classification and identification of 2, 4-diaminobutyric acid-containing phytopathogenic and saprophytic coryneform bacteria.