Selective Lipid Absorption

Marcia, John Albion

01 1900

An experiment was designed to study in the same animal any preferential absorption of a free fatty acid in the presence of a triglyceride of the same fatty acid. Rats were administered a mixture of free fatty acid and its triglyceride labeled with carbon-13 and carbon-14 respectively. Each isotope in the fed lipid and in the lipid recovered from the gastrointestinal tract was measured. The isotope effect, if any, was studied by administering a mixture of palmitic acid-1-C13 and palmitic acid-1-C14.

lipid

Fatty acids.

Adsorption (Biology)

Triglycerides.

Effects of ꙍ6:ꙍ3 Fatty Acid Supplementation During Prepartum Period to Dairy Cows on Immunity and Performance

Schroeder, Allison L.

January 2020

No description available.

Animal Sciences

immunity, fatty acids, prepartum

Impact of Fatty-Acid Labeling of Bacillus subtilis Membranes on the Cellular Lipidome and Proteome

Nickels, Jonathan D., Poudel, Suresh, Chatterjee, Sneha, Farmer, Abigail, Cordner, Destini, Campagna, Shawn R., Giannone, Richard J., Hettich, Robert L., Myles, Dean A.A., Standaert, Robert F., Katsaras, John, Elkins, James G.

15 May 2020

Developing cultivation methods that yield chemically and isotopically defined fatty acid (FA) compositions within bacterial cytoplasmic membranes establishes an in vivo experimental platform to study membrane biophysics and cell membrane regulation using novel approaches. Yet before fully realizing the potential of this method, it is prudent to understand the systemic changes in cells induced by the labeling procedure itself. In this work, analysis of cellular membrane compositions was paired with proteomics to assess how the proteome changes in response to the directed incorporation of exogenous FAs into the membrane of Bacillus subtilis. Key findings from this analysis include an alteration in lipid headgroup distribution, with an increase in phosphatidylglycerol lipids and decrease in phosphatidylethanolamine lipids, possibly providing a fluidizing effect on the cell membrane in response to the induced change in membrane composition. Changes in the abundance of enzymes involved in FA biosynthesis and degradation are observed; along with changes in abundance of cell wall enzymes and isoprenoid lipid production. The observed changes may influence membrane organization, and indeed the well-known lipid raft-associated protein flotillin was found to be substantially down-regulated in the labeled cells – as was the actin-like protein MreB. Taken as a whole, this study provides a greater depth of understanding for this important cell membrane experimental platform and presents a number of new connections to be explored in regard to modulating cell membrane FA composition and its effects on lipid headgroup and raft/cytoskeletal associated proteins.

Bacillus subtilis

biomembranes

fatty-acids

lipidomics

proteomics

The Influence of Age and Sterol-Inhibiting Fungicides on the Sterol and Steryl Ester Composition of SIF Sensitive and Tolerant Non-Target Chlorella Species

Tuckey, Donna M.

22 May 2001

1-substituted 1,2,4-triazoles form a class of agricultural chemicals known as sterol-inhibiting fungicides (SIFs). These fungicides function through the inhibition of sterol synthesis, which ultimately affects cell membrane fluidity and permeability. Of the two main types of sterols in plants, free sterols (FSs) are thought to be incorporated into membranes while conjugated sterols such as steryl esters (SEs), hypothetically, regulate homeostasis by inserting or removing FSs from cell membranes under changing environmental conditions. Non-target algae species possess sterol synthesis pathways that are affected by a range of SIFs. One of the main objectives of the current study was to determine the reason for the observed sensitivity of C. fusca and the tolerance of C. kessleri to SIFs relative to total lipid, FS, SE and FFA composition. These parameters were measured using gas chromatography and mass spectroscopy techniques. Both quantitative and qualitative differences in sterol number and type were noted relative to the FS and SE composition of the two species of algae over time. Notably, SEs were detected in both species of algae, although presence and amount varied with the organism. While SEs were more abundant in C. kessleri, higher amounts of FSs were found in C. fusca. The FS/SE ratios were 64/36 and 88/12 percent of the total sterol in C. kessleri and C. fusca, respectively. Treatment of C. fusca with 2, 4, and 6 ppm and C. kessleri with 6,12, and 24 ppm propiconazole caused an accumulation of methylated precursor sterols, resulting in slightly more FSs in both algae. Only 3 of the FSs produced following treatment were different from the control in C. fusca while 9 new sterols were found in C. kessleri. Treatment also altered the SE fraction in both species, with fewer SEs produced compared to the control, but more novel sterols in C. kessleri, suggesting a possible inverse relationship between FSs and SEs in both organisms. Several studies have implicated lipid/sterol concentrations with the potential for cellular bioaccumulation of lipophilic xenobiotics as they relate to membrane permeability. Cell age and environmental parameters can also affect lipid composition of algae. Although cell age did not affect the qualitative sterol composition of C. fusca and C. kessleri, quantitative differences were observed. Plants exposed to chemical and other environmental stresses accumulate free fatty acids (FFAs), which may be linked to biophysical membrane changes. SIF sensitive C. fusca, had inherently higher levels of FFAs than C. kessleri. Qualitatively, C. fusca exhibited higher percentages of 18:1 and lower ratios of 18:2/18:3 FFAs than C. kessleri. In response to increasing SIF treatment, the ratio of 18:2/18:3 FFAs increased in C. kessleri and declined in C. fusca. The amount of total lipid produced in the cells of C. fusca was higher than in C. kessleri during all growth stages. Variations were observed in lipid measured as a percent dry weight compared to lipid/cell as the cultures age. Inherent differences in FS, SE, and lipid composition of C. fusca and C. kessleri as well as age related changes could account for the differences in the susceptibility of the two algae to propiconazole. / Master of Science

Green Algae

Free Fatty Acids

Propiconazole

The influence of fatty acids in vitro on mammalian cells from species differing in their fatty acyl desaturase capabilities. Volume. 2

Gianngregorio, Alfredo

12 1900

A Thesis Submitted to the Faculty of Medicine, in Fulfilment of the Requirements for the Degree of • Doctor of Philosophy in the Department of Chemical Pathology, School of Pathology and the South African Institute for Medical Research, University of the Witwatersrand Medical School, Johannesburg, South Africa. December 1991. / Numerous studies have assessed the effects of single fatty acids on various aspects of lipid metabolism, particularly cancer. Established cell lines have largely been used for this purpose. The choice of control cells, however, has often been inappropriate. There is also a surprising lack of knowledge of the effects of fatty acids in the 'real world", in which normal cells in vivo are presented with mixtures of dietary fatty acids. Before transformed cells can be used as models of disease states, it is essential to fully understand fatty acid metabolism in normal (control) cells / IT2018

Fatty Acids

In Vitro Techniques

Erythrocytes

Cats

Associations of serum fatty acids and inflammatory markers in postmenopausal women with breast cancer undergoing chemotherapy

Zhang, Zihan

January 2021

No description available.

Nutrition

Fatty acids, Breast cancer, Inflammation

Nutritional and PGR effects on lipid unsaturation, osmoregulant content, and relation to bermudagrass cold hardiness

Munshaw, Gregg C.

17 February 2004

Winter injury of bermudagrass (Cynodon spp.) continues to be a problem across the transition zone. In an attempt to delay or induce winter dormancy while maintaining cold hardiness, applications of seaweed extract (SWE) (0.54 kg ha-1), ethephon (16 L ha-1), Fe (1 kg ha-1), and N (49 kg ha-1) took place every three weeks during the fall of 2001 and 2002. Cultivars examined included 'Riviera', 'Midiron', 'Princess', and 'Tifway'. Tifway exhibited greatest fall color retention in both years of the study. Ethephon promoted early senescence and turfgrass quality during fall ratings in both years of the study while N, Fe, and SWE increased quality over the control in 2001 and only N showed better quality and color retention over the control in 2002. Samples removed from cold acclimated plots were artificially frozen as a measure of cold hardiness. Treatments did not have an effect on post freeze regrowth, however, cultivar was significant in both years. Midiron showed best regrowth followed by Riviera, Tifway, and Princess. In both years Riviera and Midiron displayed the quickest and greatest amount of spring greenup followed by Tifway and then Princess. Ethephon reduced greenup in both years and SWE, Fe, and N showed no differences from the control in 2001 and Fe showed significantly better greenup in 2002. Proline and Linolenic acid levels were highest in Midiron, followed by Riviera, Tifway, and Princess. Nitrogen, SWE, and Fe generally did not have an effect on linolenic acid and no consistent effects were noted on proline concentration. Ethephon treatments did not have an effect on linolenic acid levels, however, there was a negative effect on proline concentrations. The results of this study indicate that judicial N applications during the fall can promote color retention and do not have a negative effect on bermudagrass cold-tolerance. Linolenic acid and proline findings also help to explain differences in cold-tolerance between different bermudagrass cultivars. / Ph. D.

proline

fatty acids

cold-tolerance

bermudagrass

The structure and function of omega-3 polyunsaturated fatty acids in model and cellular membranes

Ehringer, William Dennis

January 1993

This document only includes an excerpt of the corresponding thesis or dissertation. To request a digital scan of the full text, please contact the Ruth Lilly Medical Library's Interlibrary Loan Department (rlmlill@iu.edu).

Fatty Acids, Omega-3

Cell Membrane

A study of the trans fatty acid content of margarines and shortenings /

Mabrouk, Ahmed Fahmy

January 1954

No description available.

Chemistry

Fatty acids

Margarine

Oils and fats

Relationships Between the Features of Metabolic Syndrome and Fatty Acids in the Diet, Plasma, and Adipose Tissue of Healthy Older Adults

Rose, Angela M.

25 June 2012

No description available.

Nutrition

Metabolic syndrome

Older Adults

Fatty Acids