共查询到20条相似文献,搜索用时 31 毫秒
1.
The lipids of representative varieties of 2-row spring, 6-row spring, and 6-row winter-type barleys were studied. Total barley
lipids were classified by silicic acid gel column chromatography and separated by thin layer chromatography, and the fatty
acid composition was determined by gas liquid chromatography. Total lipid content of the 6 barley varieties ranged from 3.12%–3.56%
(dry wt basis). The average values for neutral lipids, glycolipids, and phospholipids were 71, 9, and 20%, respectively. The
fatty acid composition of barley was rather typical of plant tissue. The neutral lipids and glycolipids from all the varieties
contained a higher percent of linoleic and linolenic (C 18∶2 and C 18∶3) acids than the phospholipid fraction.
South Dakota Experiment Station Paper 1248. 相似文献
2.
Lipid composition of perilla seed 总被引:3,自引:0,他引:3
The composition of lipids and oil characteristics from perilla [Perilla frutescens (L.) Britt.] seed cultivars are reported. Total lipid contents of the five perilla seed cultivars ranged from 38.6 to 47.8%
on a dry weight basis. The lipids consisted of 91.2–93.9% neutral lipids, 3.9–5.8% glycolipids and 2.0–3.0% phospholipids.
Neutral lipids consisted mostly of triacylglycerols (88.1–91.0%) and small amounts of sterol esters, hydrocarbons, free fatty
acids, free sterols and partial glycerides. Among the glycolipids, esterified sterylglycoside (48.9–53.2%) and sterylglycoside
(22.1–25.4%) were the most abundant, while monogalactosyldiacylglycerol and digalactosyldiacylglycerol were present as minor
components. Of the phospholipids, phosphatidylethanolamine (50.4–57.1%) and phosphatidylcholines (17.6–20.6%) were the major
components, and phosphatidic acid, lysophosphatidylcholine, phosphatidylserine and phosphatidylinositol were present in small
quantities. The major fatty acids of the perilla oil were linolenic (61.1–64.0%), linoleic (14.3–17.0%) and oleic acids (13.2–14.9%).
Some of the physicochemical characteristics and the tocopherol composition of perilla oil were determined. 相似文献
3.
Four Canadian varieties of potatoes were examined for their lipid composition. Lipids, extracted with chloroformmethanol,
were shown by TLC and column chromatography to consist of 16.5% neutral lipids, 45.5% phospholipids and 38.1% glycolipids.
Among the phospholipids and glycolipids, phosphatidyl choline, phosphatidyl ethanolamine, phosphatidyl inositol, the galactolipids
and the sterol glucosides were the major lipids. The predominant fatty acids were palmitic (19.5%), linoleic (44.8%) and linolenic
(30.4%, in Kennebec). Analyses of the fatty acids of stored potatoes showed a marked decrease in linoleic acid and an increase
in linolenic acid, in the Irish Cobbler and Sebago potatoes. β-sitosterol comprised 85.0% of total sterols. Nearly half of
the carotenoids was lutein (xanthophyll), the others being α-carotene, β-carotene, an unidentified pigment and lutein epoxide.
Contribution No. 101 of the Food Research Institute, Canada Department of Agriculture. 相似文献
4.
Lipids were extracted from the roots and shoots of four species of theCapsicum (pepper) genus and separated into three fractions: triglycerides; free fatty acids, mono- and diglycerides; and phospholipids.
The component fatty acids were determined by subjecting the methyl esters to gasliquid chromatography. The predominate fatty
acids obtained were palmitic (16∶0) and linoleic (18∶2), with lesser amounts of linolenic (18∶3), stearic (18∶1), and oleic
(18∶0). Differences existed in the neutral lipid fractions which might be of value from taxonomic interests; however, the
phospholipids from each of the species and plant parts did not differ so greatly. A comparison of the amount of unsaturated
fatty acids in the phospholipid fractions indicates that differences exist which might be of value in determining the relative
sensitivity of the several species to chilling temperatures. 相似文献
5.
Open-tubular gas chromatographic analysis of fatty acids in the lipids from the seeds of 20 species of Gymnospermae showed
that they all contained nonmethylene-interrupted polyenoic (NMIP) acids as minor components and palmitic, oleic, linoleic
and α-linolenic acids as major components. The NMIP acids have an additional 5,6-ethylenic bond in ordinary plant unsaturated
fatty acids and the following C2 elongation acids:cis-5,cis-9-octadecadienoic acid (5,9–18∶2) (I); 5,9,12–18∶3 (II); 5,9,12,15–18∶4, 5,11–20∶2, 5,11,14–20∶3 (III); and 5,11,14,17–20∶4
(IV). The main NMIP acids found in neutral lipids are I in two species ofTaxus, II in seven species of Pinaceae, III in two species of Podocarpaceae,Torreya nucifera, Cycas revoluta, andGinkgo biloba, and III and IV in each of three species of Taxodiaceae, and Cupressaceae. The polar lipids constitute the minor fraction
of seed lipids in general. The content and composition of NMIP acids in these lipids differe considerably from those in neutral
lipids. Analysis of the partial cleavage products of triacylglycerols showed that the NMIP acids distribute mainly in the
1,3-position. 相似文献
6.
John R. Ashes Brian D. Siebert Suresh K. Gulati Abla Z. Cuthbertson Trevor W. Scott 《Lipids》1992,27(8):629-631
This study examines the biohydrogenation and utilization of the C20 and C22 polyenoic fatty acids in ruminants. Eicosapentaenoic (20∶5n−3) and docosahexaenoic (22∶6n−3) acids were not biohydrogenated
to any significant extent by rumen microorganisms, whereas C18 polyenoic fatty acids were extensively hydrogenated. The feeding of protected fish oil increased the proportion of 20∶5 from
1% to 13–18% and 22∶6 from 2% to 7–9% in serum lipids and there were reductions in the proportion of stearic (18∶0) and linoleic
(18∶2) acids. The proportion of 20∶5 in muscle phospholipids (PL) increased from 1.5% to 14.7% and 22∶6 from 1.0% to 4.2%;
these acids were not incorporated into muscle or adipose tissue triacylglycerols (TAG). In the total PL of muscle, the incorporated
20∶5 and 22∶6 substituted primarily for oleic (18∶1) and/or linoleic (18∶2) acid, and there was no consistent change in the
porportion of arachidonic (20∶4) acid. 相似文献
7.
Andrew C. Peng 《Lipids》1974,9(5):299-301
Cabbage leaves contain 0.16% total lipids of which 51.02% are neutral lipids, 40.78% glycolipids, and 8.18% phospholipids. The predominant fatty acids in the total lipid analysis are linolenic, linoleic, oleic, palmitic, and stearic acids. Linolenic, palmitic, tridecanoic, and oleic are the principal components in the neutral lipid fraction while glycolipids are composed mainly of linolenic, palmitic, lauric, myristic, and tricosanoic acids. Phospholipids are high in palmitic, linolenic, and linoleic acids. Both glucose and galactose were observed in the glycolipid fraction. 相似文献
8.
The fatty acid composition of individual phospholipids in subcellular fractions of sheep platelets and the asymmetrical distribution
of phosphatidylethanolamine (PE) fatty acyl chains across the plasma membrane were examined. The main fatty acids of total
lipid extracts were oleic (18∶1; 32–41%), linoleic (18∶2, 10–17%), stearic (18∶0; 13–15%), palmitic (16∶0; 11–15%) and arachidonic
(20∶4; 8–12%) acids, with a saturated/unsaturated ratio of about 0.4. Each phospholipid class had a distinct fatty acid pattern.
Sphingomyelin (SM) showed the highest degree of saturation (50%), with large proportions of behenic (22∶0), 18∶0 and 16∶0
acids. The main fatty acid in PE, phosphatidylserine (PS) and phosphatidylcholine (PC) was 18∶1n−9. Our findings suggest that
fatty acids are asymmetrically distributed between thecholineversus the non-choline phospholipids, and also between plasma membranes and intracellular membranes. The transbilayer distribution
of PE fatty acids in plasma membranes from non-stimulated sheep platelets was investigated using trinitrobenzenesulfonic acid
(TNBS). A significant degree of asymmetry was found, which is a new observation in a non-polar cell. The PE molecules from
the inner monolayer contained higher amounts of 18∶2 and significantly less 18∶1 and 20∶5 than those found in the outer monolayer,
although no major differences were detected in the transbilayer distribution of total unsaturatedversus saturated PE acyl chains. 相似文献
9.
M. W. Spence 《Lipids》1971,6(11):831-835
Rats were maintained 120–140 days on a normal diet (group 1) or one deficient in fatty acids (group 2). Isomer composition
was determined of monoenoic fatty acids (16∶1, 18∶1) isolated from total lipids of heart, kidney, lung, brain and lumbar fat,
and from separated neutral lipids and phospholipids of heart and kidney. Group 1: The number of major isomers of C16∶1 and C18∶1 was similar in all tissues but their proportions varied in different tissues and types of lipid. Group 2: The proportions
of 16∶1(n−7) increased and of other 16∶1 isomers decreased in all tissues; 18∶1(n−9) was increased at the expense of (n−7) in heart, to a lesser extent in kidney, and was little changed in lung, lumbar fat, or brain. The decrease in proportion
of 18∶1(n−7) was greatest in heart-muscle phospholipids. C20∶3 comprised 95% (n−9) and 5% (n−7) in heart and kidney lipids. The changes in group 2 probably represent the body’s attempts to maintain lipids with the
physical and chemical properties necessary to normal biological function.
Nomenclature of fatty acids as in IUPAC-IUB Commission on Biochemical Nomenclature, “The nomenclature of lipids,” J. Biol.
Chem. 242:4845–49 (1967). 相似文献
10.
The influence of the linoleic acid levels of diets containing partially hydrogenated marine, oils (HMO) rich in isomeric 16∶1,
18∶1, 20∶1 and 22∶1 fatty acids on the fatty acid profiles of lipids from rat liver, heart and adipose tissue was examined.
Five groups of rats were fed diets containing 20 wt% fat−16% HMO+4% vegetable oils. In these diets, the linoleic acid contents
varied between 1.9% and 14.5% of the dietary fatty acids, whereas the contents oftrans fatty acids were 33% in all groups. A sixth group was fed a partially hydrogenated soybean oil (HSOY) diet containing 8%
linoleic acid plus 32%trans fatty acids, mainly 18∶1, and a seventh group, 20% palm oil (PALM), with 10% linoleic acid and notrans fatty acids.
As the level of linoleic acid in the HMO diets increased from 1.9% to 8.2%, the contents of (n−6) polyunsaturated fatty acids
(PUFA) in the phospholipids increased correspondingly. At this dietary level of linoleic acid, a plateau in (n−6) PUFA was
reached that was not affected by further increase in dietary 18∶2(n−6) up to 14.5%. Compared with the HSOY- or PALM-fed rats,
the plateau value of 20∶4(n−6) were considerably lower and the contents of 18∶2(n−6) higher in liver phosphatidylcholines
(PC) and heart PC. Heart phosphatidylethanolamines (PE) on the contrary, had elevated contents of 20∶4(n−6), but decreased
22∶5(n−6) compared with the PALM group.
All groups fed HMO had similar contents oftrans fatty acids, mainly 16∶1 and 18∶1, in their phospholipids, irrespective of the dietary 18∶2 levels, and these contents were
lower than in the HSOY group.
High levels of linoleic acid consistently found in triglycerides of liver, heart and adipose tissue of rats fed HMO indicated
that feeding HMO resulted in a reduction of the conversion of linoleic acid into long chain PUFA that could not be overcome
by increasing the dietary level of linoleic acid. 相似文献
11.
Lipids of some thermophilic fungi 总被引:1,自引:0,他引:1
Total lipid content in the thermophilic fungi—Thermoascus aurantiacus, Humicola lanuginosa, Malbranchea pulchella var.sulfurea, andAbsidia ramosa—varied from 5.3 to 19.1% of mycelial dry weight. The neutral and polar lipid fractions accounted for 56.4 to 80.2% and 19.8
to 43.6%, respectively. All the fungi contained monoglycerides, diglycerides, triglycerides, free fatty acids, and sterols
in variable amounts. Sterol ester was detected only inA. ramosa. Phosphatide composition was: phosphatidyl choline (15.9–47%), phosphatidyl ethanolamine (23.4–67%), phosphatidyl serine
(9.3–17.6%), and phosphatidyl inositol (1.9–11.9%). Diphosphatidyl glycerol occurred in considerable quantity only inH. lanuginosa andM. pulchella var.sulfurea. Phosphatidic acid, detected as a minor component only inM. pulchella var.sulfurea andA. ramosa, does not appear to be a characteristic phosphatide of thermophilic fungi as suggested earlier. The 16∶0, 16∶1, 18∶0, 18∶1,
and 18∶2 acids were the main fatty acid components. In addition,A. ramosa contained 18∶3 acid. Total lipids contained an average of 0.93 double bonds per mole of fatty acids, and neutral lipids tend
to be more unsaturated than phospholipids. 相似文献
12.
The neutral and polar lipid composition ofEntomophthora coronata was determined qualitatively. The fungus was grown on a chemically nondefined medium (Sabouraud dextrose yeast extract) and
a chemically defined medium for a period up to 26 days. The lipids were characterized by thin-layer, column, gas chromatography,
and selective sprays,32P-labeling, and mass spectrometry. The neutral lipids consist of monoglycerides, diglycerides, cholesterol, free fatty acids,
triglycerides, and cholesteryl esters. The polar lipids consist of phospholipids (phosphatidyl ethanolamine, phosphatidyl
choline, lysophosphatidyl ethanolamine, lysophosphatidyl choline, and spingomyelin), a number of glycolipids including cerebrosides,
and many unrecognizable lipids, most of which are present in trace amounts. The cerebrosides and spingomyelin are present
in significant amounts, and their concentration increased with age of the culture. The major fatty acids (>10%) of the total,
neutral, and polar lipids of the mycelia are 14∶0, 16∶0, 18∶1, 18∶3(γ), and 24∶1. The polar lipids of total culture (unsaturation
index 0.88) and of the conidia (unsaturation index 1.48) are considerably more unsaturated than the corresponding neutral
lipids (unsaturated index 0.50 and 0.49). The mycelial polar lipids, compared to the neutral lipids, possess less 14∶0 and
18∶1 but contain a greater percentage of 16∶0, 18∶2, 18∶3(γ), 24∶0, and 24∶1. The major fatty acid of the conidia (>10%) are
13∶0, 14∶0, 18∶1, 18∶2, 18∶3(γ), and 20∶4. Their polar lipids have a higher proportion of 18∶2, 18∶3(γ), and 20∶4. The cerebrosides
possess 24.1 in high relative proportion (30.1%).
Presented at the AOCS Meeting, Atlantic City, October 1971. 相似文献
13.
The carbon and energy source for aerobically grown cultures ofCandida guilliermondii profoundly influenced the neutral lipid content and the fatty acid composition of the individual lipid components. Methanol
(0.80%, w/v) grown cells cultivated at 30 C in presence of 0.025% ammonium sulfate contained 12% total lipids, 67% of which
was neutral lipids. Glucose (0.74%, w/v) or ethanol (0.53%, w/v) grown cells contained 21–22% total lipids, 80% of which was
neutral lipids, under the same conditions. Methanol-grown cells contained a decreased 18∶1 acid (52–54% of total fatty acids)
and an increased 18∶2 acid (23–25%), as compared with glucose- or ethanol-grown cells which contained 57–66% 18∶1 acid and
8–14% 18∶2 acid, in both neutral and polar lipid fractions. The relationship between methanol metabolism and desaturation
of fatty acid in yeast was discussed. 相似文献
14.
The composition of lipids of bran from three varieties of rice is reported. Lipids extracted amounted to 21.9–23.0% of the
bran dry weight and consisted of 88.1–89.2% neutral lipids, 6.3–7.0% glycolipids and 4.5–4.9% phospholipids. Neutral lipids
consisted mostly of triacylglycerols (83.0–85.5%), monoacylglycerols (5.9–6.8%) and small amounts of diacylglycerols, sterols
and free fatty acids. Three glycolipids and eight phospholipids were separated and characterized. Acylated steryl glucoside
and digalactosyldiacylglycerol were the main glycolipids, while monogalactosylmonoacylglycerol was present in small amounts.
The major phospholipids were phosphatidylcholine, phosphatidylethanolamine, phosphatidylinositol and phosphatidic acid. Phosphatidylglycerol,
lysophosphatidylcholine, lysophosphatidylethanolamine and acyl-phosphatidylethanolamine were present in small quantities. 相似文献
15.
Turkey hens were fed diets containing no added fat nor diets supplemented with soybean oil or neatsfoot oil. The composition
of neutral and polar lipid fatty acids present in the unincubated turkey egg yolk was compared with that of those present
in the yolk sac of the developing turkey embryo at different stages of development. Comparisons were made of the fatty acid
fractions in the entire embryo homogenates, except liver and heart, which were analyzed separately. Changes in the relative
amounts of the fatty acids are reported as affected by age of the embryo and by dietary lipids. The fatty acids from both
the neutral and polar lipids which were utilized to the greatest extent for embryonic development were palmitoleic, oleic,
linoleic, and linolenic, regardless of the dietary supplements. Arachidonic, tetracosenoic, and docosahexaenoic acids also
were metabolized by the embryo. Saturated fatty acids, used by the embryo as development progressed, were palmitic, stearic,
and arachidic acids. Analyses of the liver fatty acids showed that the C16∶0 C16∶1, C18∶0, C18∶1, and C20∶4 acids in the neutral
and polar lipids decreased with embryonic development and varied with the type of diet. The heart contained low levels of
myristic, palmitic, stearic, arachidic, and arachidonic acids in the neutral lipids and palmitoleic and oleic acids in the
polar lipids. 相似文献
16.
Pigeon “milk” (PM) collected from the crop of 1- to 5-day-old squabs was analyzed to examine whether there were changes in
lipid composition during the first week of secretion. The high PM fat content (9–11%) remained fairly constant in the first
5 days of secretion. The mean percentage of neutral lipids, glycolipids and phospholipids was 80, 12 and 8%, respectively.
Unlike the content of neutral lipids, glycolipid and phospholipid levels increased significantly between day 1 and day 5 of
secretion. Triglycerides, the major neutral lipids, decreased by 24% between day 1 and day 5, while free sterols, monoglycerides
and hydrocarbons increased by 8%, 11% and 2.5%, respectively, during the same period; diglycerides and sterol esters, however,
remained unchanged. The ratio of saturated to unsaturated fatty acids was 0.27 and it remained unchanged. Medium-chain (C10, C12 and C14) and oddchain (C15 and C17) fatty acid contents were low. Fatty acids longer than C20 were absent. Palmitic acid, the major saturated fatty acid, increased by 42% from day 1 to day 5, whereas stearic acid decreased
by 48% during the same period. Oleic acid, the predominant unsaturated fatty acid, also decreased from 51 to 45% between the
first and fifth day of PM secretion. Polyunsaturated acids (18∶2, 18∶3 and 20∶4) accounted for 26% and 30% of the total fatty
acids on day 1 and day 5, respectively. Although lipid changes in the crop of squabs prior to collection of samples cannot
totally be ruled out, the nature of lipid changes is likely to reflect cellular breakdown that precedes PM secretion by parent
pigeons. 相似文献
17.
Afaf Kamal-Eldin Lars Åke Appelqvist 《Journal of the American Oil Chemists' Society》1994,71(2):135-139
Seeds from different collections of cultivatedSesamum indicum Linn. and three related wild species [specifically,S. alatum Thonn.,S. radiatum Schum and Thonn. andS. angustifolium (Oliv.) Engl.] were studied for their oil content and fatty acid composition of the total lipids. The wild seeds contained
less oil (ca. 30%) than the cultivated seeds (ca. 50%). Lipids from all four species were comparable in their total fatty acid composition, with palmitic (8.2–12.7%), stearic
(5.6–9.1%), oleic (33.4–46.9%) and linoleic acid (33.2–48.4%) as the major acids. The total lipids from selected samples were
fractionated by thin-layer chromatography into five fractions: triacylglycerols (TAG; 80.3–88.9%), diacylglycerols (DAG; 6.5–10.4%),
free fatty acids (FFA; 1.2–5.1%), polar lipids (PL; 2.3–3.5%) and steryl esters (SE; 0.3–0.6%). Compared to the TAG, the four
other fractions (viz, DAG, FFA, PL and SE) were generally characterized by higher percentages of saturated acids, notably palmitic and stearic
acids, and lower percentages of linoleic and oleic acids in all species. Slightly higher percentages of long-chain fatty acids
(20∶0, 20∶1, 22∶0 and 24∶0) were observed for lipid classes other than TAG in all four species. Based on the fatty acid composition
of the total lipids and of the different acyl lipid classes, it seems thatS. radiatum andS. angustifolium are more related to each other than they are to the other two species. 相似文献
18.
The incorporation of [1-14C]linoleic acid, and [1-14C]linoleic acid into cellular lipids of cultured human skin fibroblasts was studied. Cultured cells took up both labeled fatty
acids at nearly the same rate and incorporated them into a variety of lipid classes. At the end of 1 hr incubation with [1-14C]linoleic acid, radioactivity was found in the triacylglycerol (TG) and choline phosphoglyceride (CPG) pools preferentially.
Incorporation into the TG fraction decreased rapidly, while the uptake into CPG, serine phosphoglyceride (SPG), and ethanolamine
phosphoglyceride (EPG) fractions increased progressively with longer incubation times. Similar results were obtained with
[1-14C]linoleic acid as precursor. At the end of 24 hr, desaturation and chain elongation of 18∶3 n−3 was more extensive than conversion
of 18∶2 n−6 to higher polyenoic acids. During pulse-chase experiments with either fatty acid precursor, the incorporated radioactivity
was progressively lost from cellular lipids, particularly from the TG and CPG fractions, but continued to increase in the
SPG and EPG pools. The similar labeling pattern of cellular phospholipids with linoleic or linolenic acids, and data from
pulse-chase studies suggest that a direct transfer of fatty acids from CPG to EPG is a likely pathway in fibroblast cultures.
Incorporation into the EPG pool during the pulse-chase experiments paralleled extensive desaturation and elongation of linoleic
acid into 20∶4 n−6, and 22∶4 n−6; and of linolenic acid into 22∶5 n−3 and 22∶6 n−3. 相似文献
19.
The total lipids and fatty acid composition ofEntomophthora coronata were determined. The fungus was grown on a chemically defined medium and a chemically nondefined medium (Sabouraud dextrose
yeast extract) for a period of 26 days. The organism contained from 16.2% to 44.6% total lipids depending upon the days of
growth. The major fatty acids were 12∶0 (5.5–9.0%), 13∶0 (1.2–8.2%), 14∶0 (33.5–43.5%), 16∶0 (9.7–13.9%), 18∶19 (20.4–22.4%), and 18∶29,12 (3.5–10.5%). Lesser amounts of 15∶0, 16∶1, 16∶2, 17∶0, 18∶0, two other 18∶2 (both having conjugated double bonds), 18∶36,9,12, another 18∶3 (conjugated double bonds), 20∶38,11,14, 20∶45,8,11,14, another 20∶4 (conjugated double bonds), and 24∶1 acids were found. Trace amounts of 20∶0, 20∶1, 20∶2, 22∶0 and 24∶0 were
also present. The relative percentage of most of the fatty acids did not vary appreciably with growth. However, 18∶29,12 and 20∶45,8,11,14 increased with age of the chemically defined culture. Peak E (18∶2, conjugated double bonds) increased and 13∶0 and 18∶36,9,12 decreased with age of the chemically nondefined culture. The fatty acids were predominately saturated (56.9–69.1%) and contained
a high percentage of shorter chain fatty acids (C 12 to C 15). The fatty acids of the chemically defined culture were more
unsaturated than the Sabouraud culture and the unsaturation increased with age of the culture. 相似文献
20.
Kotte Sagar Rao Pradosh Prasad Chakrabarti B. V. S. K. Rao R. B. N. Prasad 《Journal of the American Oil Chemists' Society》2009,86(2):197-200
Jatropha curcus L. oil has emerged as one of the most important raw materials for biodiesel production. However, no detailed study has been
reported on characterizing the lipid constituents of jatropha oil. The present study revealed that the total oil content of
jatropha seeds was 32% with a composition of 97.6% neutral lipids, 0.95% glycolipids and 1.45% phospholipids. The fatty acid
composition of total lipids, neutral lipids, phospholipids and glycolipids was also determined and found to contain oleic
acid (18:1) and linoleic acids (18:2) as major fatty acids. The phospholipids fraction was further characterized and quantified
and found to contain phosphatidyl choline (PC) 60.5%, phosphatidyl inositol (PI) 24% and phosphatidyl ethanolamine (PE) 15.5%.
The fatty acid composition and the positional distribution of the fatty acids of individual phospholipids were also reported. 相似文献