References for Fatty Acids and Cell Membranes

  • Annous, B.A., L.A. Becker, D.O. Bayles, D.P. Labeda, and B.J. Wilkinson. 1997. Critical role of anteiso-C sub(15:0) fatty acid in the growth of Listeria monocytogenes at low temperatures. Appl. Environ. Microbiol., 63(10): 3887-94.
  • Annous, B.A., M.F. Kozempel, and M.J. Kurantz. 1999. Changes in membrane fatty acid composition of Pediococcus sp. Strain NRRL B-2354 in response to growth conditions and its effect on thermal resistance. Appl. Environ. Microbiol. 65(7):2857-62.
  • Avery, S.V.,N.G. Howlett, and S. Radice. 1996. Copper toxicity towards Saccharomyces cerevisiae: dependence on plasma membrane fatty acid composition. Appl. Environ. Microbiol. 62(11):3960-6.
  • Avery, S.V., D. Lloyd, and. Harwood. 1997. Changes in membrane fatty acid composition and Delta 12-desaturase activity during growth of Acanthamoeba castellanii in batch culture. J. Eukaryot. Microbiol. 41(4): 396-401
  • Fogght, J.M., D.W. Westlake, W.M. Johnson, H.F. Ridgeway. 1996. Environmental gasoline-utilizing isolates and clinical isolates of Pseudomonas aeruginosa are taxonomically indistinguishable by chemotaxonomic and molecular techniques. Microbiology. 142(pt 9): 2333-40.
  • Hazeleger, W.C., J.D. Janse, P.M. Koenraad, R.R. Beumer, F.M. Rombouts, and T. Albee. 1995. Temperature-dependent membrane fatty acid and cell physiology changes in coccoid forms of Campylobacter jejuni. Appl. Environ. Microbiol. 61(7):2713-9.
  • Mechin, L. F. Dubois-Brissonnet, B. Heyd, and J.Y. Leveau. 1999. Adaptation of Pseudomonas aeruginosa ATCC 15442 to didecyldimethylammonium bromide induces changes in membrane fatty acid composition and in resistance of cells. J. Appl. Microbiol. 86(5): 859-66.
  • Nagamachi, E., S. Shibuya, Y. Hirai, O, Matsushita, K. Tomochika, and Y. Kanemasa. 1991. Adaptional changes of fatty acid composition and the physical state of membrane lipids following the change of growth temperature in Yersinia enterocolitica. Microbiol. Immunol. 35(12):1085-93.
  • Olson, W.P., M.J. Groves, and M.E. Klegerman. 1990. Cell mass of Mycobacterium bovis BCG estimated by gas chromatography. Bioogicals. 18(2): 83-8.
  • Panoff, J.M., B. Thammavongs, M. Gueguen, P. Botibonnes. 1998. Cold stress response in mesophilic bacteria. Cryobiology. 36(2):75-83.
  • Rhee, S.K., G.M. Lee, Y.B. Kim, and S.T.Lee, 1996. Effect of pyridine on the fatty acid composition of Pimelobacter sp. FEMS Microbiol. Lett. 141( 2-3): 139-43
  • Rotert, K.R., A.P. Toste, and J.G. Steiert. 1993. Membrane fatty acid of Antarctic bacteria. FEMS Microbiol. Lett. 114(3): 252-7.
  • Sato, M., H. Tsuchiya, H. Tani, K. Yamamoto, R. Yamaguchi, H. Nitta, N. Kanematsu, I. Namikawa, and N. Takagi. 1991. Incorporation of fatty acids by Streptococcus mutans. FEMS Microbiol. Lett. 65(1):117-21.
  • Suutari, M., and S. Laakso. 1993. Effect of growth temperature on the fatty acid composition of Mycobacterium pheli. Arch. Microbiol. 159(2):119-23.
  • Swan, T.M. and K.Watson. 1997. Membrane fatty acid composition and membrane fluidity as parameters of stress tolerence in yeast. Can. J. Microbiol. 43(1):70-7.

Erythrocytes

  • Brown, K.M., P.C. Morrice, and G.G. Duthie. 1998. Erythrocyte membrane fatty acid composition of smokers and non-smokers: effects of vitamin E supplementation. Eur. J. Clin. Nutr. 52(2):145-50.
  • Guarini, P., A.M. Stanzial, O. Olivieri, M. Casaril, S. Galvani, M. Pantalena, and R. Corrocher. 1998. Erythrocyte membrane lipids and serum selenium in post-viral and alcoholic cirrhosis. Clin. Chim, Acta. 270(2): 139-50.
  • Keddad, K., P. Therond, C. Motta, C. Baussan, A. Legrand. 1996. Alterations in erythrocyte membrane fluidity and fatty acid composition of glycogen storage disease. Biochim. Biophys. Acta. 1315(1):61-5.
  • Pandey, M. , A.K. Khatri, S.S. Dubey, A. Gautum, and V.K. Shukla. 1995. Erythrocyte membrane fatty acid profile in patients with primary carcinoma of the gallbladder. J. Surg. Oncol. 59(1):31-4.
  • Simonelli, F., C. Manna, N. Romano, G. Nunziata, O. Voto, E. Rinaldi. 1996. Evaluation of fatty acids in membrane phospholipids of erythrocytes in retinitis pigmentosa patients. Ophthalmic Res. 28(2): 93-8.
  • Tynan, M.B., D.P. Nicholls, S.M. Maguire, I.C. Steele, C. McMaster, R. Moore, E.R. Trimble, and J. Pearce. 1995. Erythrocyte membrane fatty acid composition as a marker of dietary compliance in hyperlipidaemic subjects. Artherosclerosis. 117(2): 245-52.
  • Vajreswari, A., K. Narayanareddy, and P.S. Rao. 1990. Fatty acid composition of erythrocyte membrane lipid obtained from children suffering from kwashiokor and marasmus. Metabolism. 39(8):779-82.
  • Varjreswari, A. and K. Narayanareddy. 1992. Effect of dietary fats on erythrocyte membrane lipid composition and membrane-bound enzyme activities. Metabolism. 41(4):352-8.

Metabolism and Physiology

  • Awad, A.B. C.S. Fink, and P.J. Horvath. 1993. Alteration of membrane fatty acid composition and inositol phosphate metabolism in HT-29 human colon cancer cells. Nutr. Cancer. 19(2):181-90.
  • Bonen, A. D.J. Dyck, and J.J. Luiken. 1998. Skeletal muscle fatty acid transport and transporters. Adv. Exp. Med. Biol. 441: 193-205.
  • Glatz, J.F., J.J. Luiken, F.A. van Nieuwenhoven, and G.J. van der Vusse. 1997. Molecular mechanism of cellular uptake and intracellular translocation of fatty acids. Prostaglandins Leukot. Essent. Fatty Acids. 57(1): 3-9.
  • Kyrklund, T., and N.G. Haglid. 1990. Brain lipid changes after organic solvent exposure. Ups. J. Med. Sci. Suppl. 48267-77.
  • Nakada, T., I.L. Kwee, W.G. Ellis. 1990. Membrane fatty acid composition shows delta-6-desaturase abnormalities in Alzheimer’s disease. Neuroreport. 1(2):153-55.
  • Pan, D.A., G. Sullivan-Tailyour, and A.J. Hulbert. 1990. Membrane fatty acid changes during the cell cycle of CV-1 cells. Exp. Cell Res. 191(1):141-3.
  • Ruiz-Gutierrez, V. P. Stiefel, J. Villar, M.A. Garcia-Donas, D. Acosta, and J. Carneado. 1993. Cell membrane fatty acid composition in type 1 (insulin-dependent) diabetic patients: relationship with sodium transport abnormalities and metabolic control. Diabetologia. 36(9):850-6.
  • Vicario, I.M., D. Malkova, E.K. Lund, and I.T. Johnson. 1998. Olive oil supplementation in healthy adults: effects in cell membrane fatty acid composition and platelet function. Ann Nutr. Metab. 42(3):160-9.
  • Yoshida, S., A. Sato, and H. Okuyama. 1998. Pathophysiological effects of dietary essential fatty acid balance on meural systems. Jpn. J. Pharmacol. 77(1):11-22.

Miscellaneous

  • Berlin, E., J.S. Hannah, K. Yamane, R.C. Peters, and B.V. Howard. 1996. Fatty acid modification of membrane fluidity in Chineese hamster ovary (TR715-19) cells. Int. J. Biochem. Cell Biol. 28(10):1131-9.
  • Couture, P., and A.J. Hulbert. 1995. Membrane fatty acid composition of tissues is related to body mass of mammals. J. Membr. Biol. 148(1):27-39.
  • Rao, C.V., E. Zang, and B.S. Reddy. 1993. Effect of high fat corn oil, olive oil, and fish oil on phospholipid fatty acid composition in male F344 rats. Lipids. 28(5): 441-7.
  • Vossen, R.C., M.C. van Dam-Mieras, P.J. Lemmens, G. Hornstra, and R.F. Zwaal. 1991. Membrane fatty acid composition and endothelial cell functional properties. Biochim. Biophys. Acta. 3(3):243-51.
  • Stark, J.M., and S.K. Jackson. 1990. Sensitivity of endotoxin is induced by increased membrane fatty-acid unsaturation and oxidant stress. J. Med. Microbiol. 32(4):2177-21.
  • Yoshida, S. A. Sato, and H. Okuyama. 1998. Pathophysiological effects of dietary essential fatty acid balance on neural systems. Jpn J. Pharmacol. 77(1):11-22.
  • Zhu, N. X. Dai, D.S. Lin, W.E. Conner. 1994. The lipids of slugs and snails: evolution , diet and biosyntheis. Lipids. 29(12):869-75.

Plateletes

  • Faure, P., P. Durand, D. Blanche, A. Favier, and A.M. Roussel. 1995. Influence of a long-term zinc- deficient diet on rat platelet function and fatty acid composition. Biometals. 8(1): 80-5.
  • Patterson, W.R., L.M. Dalton, and D.L. McGlasson. 1998. A comparison of human and killer whale platelet fatty acid composition. Comp. Biochem. Physiol. B Biochem.Molec. Biol. 120(2): 247-52.
  • Planas, M., I. Porta, M.L. Sagrista, M. Mora, J.B. Padro, and M. Pico. 1999. Fatty acid composition of platelet membrane lipids after administration of two different fat emulsions in critically ill patients. Intensive Care Med. 25(4):395-8.
  • Raganath, L.R., J.A. Christofides, J.W. Wright, and V. Marks. Effects of hormone replacement therapy on platelet membrane fatty acid composition. J. Endocrinol. 148(2):207-12.