FREE SHIPPING over $40
OVER 9000 FIVE-STAR REVIEWS
5% OFF ALL SUBSCRIPTIONS
100% HAPPINESS GUARANTEE
Analyze Diet
0
Home / Equine Research Bank / Biochim Biophys Acta / Lipid composition of erythrocytes in various mammalian speci...
Biochimica et biophysica acta1967; 144(2); 221-232; doi: 10.1016/0005-2760(67)90152-x

Lipid composition of erythrocytes in various mammalian species.

Abstract: No abstract available
Get Full Text
Publication Date: 1967-10-02 PubMed ID: 6064604DOI: 10.1016/0005-2760(67)90152-xGoogle Scholar: Lookup
The Equine Research Bank provides access to a large database of publicly available scientific literature. Inclusion in the Research Bank does not imply endorsement of study methods or findings by Mad Barn.
LinkedInCopy
  • Journal Article

Cite This Article

APA
Nelson GJ. (1967). Lipid composition of erythrocytes in various mammalian species. Biochim Biophys Acta, 144(2), 221-232. https://doi.org/10.1016/0005-2760(67)90152-x

Publication

Biochimica et biophysica acta
ISSN: 0006-3002
NlmUniqueID: 0217513
Country: Netherlands
Language: English
Volume: 144
Issue: 2
Pages: 221-232

Researcher Affiliations

Nelson, G J

    MeSH Terms

    • Animals
    • Cats
    • Cattle
    • Cholesterol / blood
    • Chromatography, Gel
    • Chromatography, Thin Layer
    • Dogs
    • Erythrocytes / analysis
    • Glycoproteins / blood
    • Goats
    • Guinea Pigs
    • Horses
    • Lipids / blood
    • Phospholipids / blood
    • Rabbits
    • Rats
    • Sheep
    • Species Specificity
    • Spectrophotometry
    • Swine

    Citations

    This article has been cited 52 times.
    1. Limwongyut J, Moreland AS, Nie C, Read de Alaniz J, Bazan GC. Amide Moieties Modulate the Antimicrobial Activities of Conjugated Oligoelectrolytes against Gram-negative Bacteria.. ChemistryOpen 2022 Feb;11(2):e202100260.
      doi: 10.1002/open.202100260pubmed: 35133087google scholar: lookup
    2. Liu MM, Coleman S, Wilkinson L, Smith ML, Hoang T, Niyah N, Mukherjee M, Huynh S, Parker CT, Kovac J, Hancock REW, Gaynor EC. Unique inducible filamentous motility identified in pathogenic Bacillus cereus group species.. ISME J 2020 Dec;14(12):2997-3010.
      doi: 10.1038/s41396-020-0728-xpubmed: 32770116google scholar: lookup
    3. Greco I, Molchanova N, Holmedal E, Jenssen H, Hummel BD, Watts JL, Håkansson J, Hansen PR, Svenson J. Correlation between hemolytic activity, cytotoxicity and systemic in vivo toxicity of synthetic antimicrobial peptides.. Sci Rep 2020 Aug 6;10(1):13206.
      doi: 10.1038/s41598-020-69995-9pubmed: 32764602google scholar: lookup
    4. Mogrovejo DC, Perini L, Gostinčar C, Sepčić K, Turk M, Ambrožič-Avguštin J, Brill FHH, Gunde-Cimerman N. Prevalence of Antimicrobial Resistance and Hemolytic Phenotypes in Culturable Arctic Bacteria.. Front Microbiol 2020;11:570.
      doi: 10.3389/fmicb.2020.00570pubmed: 32318045google scholar: lookup
    5. Ramírez-Carreto S, Pérez-García EI, Salazar-García SI, Bernáldez-Sarabia J, Licea-Navarro A, Rudiño-Piñera E, Pérez-Martínez L, Pedraza-Alva G, Rodríguez-Almazán C. Identification of a pore-forming protein from sea anemone Anthopleura dowii Verrill (1869) venom by mass spectrometry.. J Venom Anim Toxins Incl Trop Dis 2019;25:e147418.
      doi: 10.1590/1678-9199-JVATITD-1474-18pubmed: 31131002google scholar: lookup
    6. Calzada E, Onguka O, Claypool SM. Phosphatidylethanolamine Metabolism in Health and Disease.. Int Rev Cell Mol Biol 2016;321:29-88.
      doi: 10.1016/bs.ircmb.2015.10.001pubmed: 26811286google scholar: lookup
    7. Shi G, Mukthavaram R, Kesari S, Simberg D. Distearoyl anchor-painted erythrocytes with prolonged ligand retention and circulation properties in vivo.. Adv Healthc Mater 2014 Jan;3(1):142-8.
      doi: 10.1002/adhm.201300084pubmed: 23798381google scholar: lookup
    8. Clayton EH, Gulliver CE, Piltz JW, Taylor RD, Blake RJ, Meyer RG. Improved extraction of saturated fatty acids but not omega-3 fatty acids from sheep red blood cells using a one-step extraction procedure.. Lipids 2012 Jul;47(7):719-27.
      doi: 10.1007/s11745-012-3674-1pubmed: 22570172google scholar: lookup
    9. Soares JH, Brosnan RJ, Fukushima FB, Hodges J, Liu H. Solubility of haloether anesthetics in human and animal blood.. Anesthesiology 2012 Jul;117(1):48-55.
      doi: 10.1097/ALN.0b013e3182557cc9pubmed: 22510863google scholar: lookup
    10. Matsunaga S, Jimbo M, Gill MB, Wyhe LL, Murata M, Nonomura K, Swanson GT, Sakai R. Isolation, amino acid sequence and biological activities of novel long-chain polyamine-associated peptide toxins from the sponge Axinyssa aculeata.. Chembiochem 2011 Sep 19;12(14):2191-200.
      doi: 10.1002/cbic.201100329pubmed: 21830292google scholar: lookup
    11. Montes LR, López DJ, Sot J, Bagatolli LA, Stonehouse MJ, Vasil ML, Wu BX, Hannun YA, Goñi FM, Alonso A. Ceramide-enriched membrane domains in red blood cells and the mechanism of sphingomyelinase-induced hot-cold hemolysis.. Biochemistry 2008 Oct 28;47(43):11222-30.
      doi: 10.1021/bi801139zpubmed: 18826261google scholar: lookup
    12. Bruschetta G, Alberghina D, Nastasi G, Rotondo E, Ferlazzo AM. Characterization of phospholipid composition of pig plasma and erythrocyte membranes.. Vet Res Commun 2008 Sep;32 Suppl 1:S115-8.
      doi: 10.1007/s11259-008-9101-7pubmed: 18685996google scholar: lookup
    13. Nelson GJ. Studies on the lipids of sheep red blood cells. II. The incorporation of phosphorus into phospholipids of HK and LK cells.. Lipids 1968 May;3(3):267-74.
      doi: 10.1007/BF02531200pubmed: 17805869google scholar: lookup
    14. Nelson GJ. Differentiation of nitrogenous phospholipids by infrared absorption between 9 and 11 microns.. Lipids 1968 Jan;3(1):104.
      doi: 10.1007/BF02530979pubmed: 17805852google scholar: lookup
    15. Schwan TG, Battisti JM, Porcella SF, Raffel SJ, Schrumpf ME, Fischer ER, Carroll JA, Stewart PE, Rosa P, Somerville GA. Glycerol-3-phosphate acquisition in spirochetes: distribution and biological activity of glycerophosphodiester phosphodiesterase (GlpQ) among Borrelia species.. J Bacteriol 2003 Feb;185(4):1346-56.
      doi: 10.1128/JB.185.4.1346-1356.2003pubmed: 12562805google scholar: lookup
    16. Virtanen JA, Cheng KH, Somerharju P. Phospholipid composition of the mammalian red cell membrane can be rationalized by a superlattice model.. Proc Natl Acad Sci U S A 1998 Apr 28;95(9):4964-9.
      doi: 10.1073/pnas.95.9.4964pubmed: 9560211google scholar: lookup
    17. Nouri-Sorkhabi MH, Wright LC, Sullivan DR, Kuchel PW. Quantitative 31P nuclear magnetic resonance analysis of the phospholipids of erythrocyte membranes using detergent.. Lipids 1996 Jul;31(7):765-70.
      doi: 10.1007/BF02522893pubmed: 8827700google scholar: lookup
    18. Sakurai J, Ochi S, Tanaka H. Evidence for coupling of Clostridium perfringens alpha-toxin-induced hemolysis to stimulated phosphatidic acid formation in rabbit erythrocytes.. Infect Immun 1993 Sep;61(9):3711-8.
      doi: 10.1128/iai.61.9.3711-3718.1993pubmed: 8395469google scholar: lookup
    19. Titball RW. Bacterial phospholipases C.. Microbiol Rev 1993 Jun;57(2):347-66.
      doi: 10.1128/mr.57.2.347-366.1993pubmed: 8336671google scholar: lookup
    20. Salvioli G, Gaetti E, Panini R, Lugli R, Pradelli JM. Different resistance of mammalian red blood cells to hemolysis by bile salts.. Lipids 1993 Nov;28(11):999-1003.
      doi: 10.1007/BF02537121pubmed: 8277831google scholar: lookup
    21. McKellar RC. Use of the CAMP test for identification of Listeria monocytogenes.. Appl Environ Microbiol 1994 Dec;60(12):4219-25.
      doi: 10.1128/aem.60.12.4219-4225.1994pubmed: 7811061google scholar: lookup
    22. Klein RA, Ellory JC. Interaction of alkyl ammonium derivatives with red cells: hemolysis and sodium pump inhibition studies.. J Membr Biol 1980 Jul 15;55(2):123-31.
      doi: 10.1007/BF01871154pubmed: 7411591google scholar: lookup
    23. Hamada T, Furuya M, Hodate K. Protective effects of vitamin E and dithiothreitol against the hemolysis of rat and goat erythrocytes induced by Tween 20 with or without ascorbic acid and azide.. Experientia 1982 Apr 15;38(4):462-7.
      doi: 10.1007/BF01952638pubmed: 7084407google scholar: lookup
    24. Imre S. Comparative study of the transition temperature of calf and adult cattle erythrocytes.. Blut 1983 May;46(5):289-93.
      doi: 10.1007/BF00319869pubmed: 6839029google scholar: lookup
    25. Winkler HH, Miller ET. Phospholipase A activity in the hemolysis of sheep and human erythrocytes by Rickettsia prowazeki.. Infect Immun 1980 Aug;29(2):316-21.
      doi: 10.1128/iai.29.2.316-321.1980pubmed: 6783529google scholar: lookup
    26. Maudlin I, Kabayo JP, Flood ME, Evans DA. Serum factors and the maturation of Trypanosoma congolense infections in Glossina morsitans.. Z Parasitenkd 1984;70(1):11-9.
      doi: 10.1007/BF00929570pubmed: 6695534google scholar: lookup
    27. Gubash SM. Synergistic haemolysis test for presumptive identification and differentiation of Clostridium perfringens, C. bifermentans, C. sordellii, and C. paraperfringens.. J Clin Pathol 1980 Apr;33(4):395-9.
      doi: 10.1136/jcp.33.4.395pubmed: 6249855google scholar: lookup
    28. Forstner GG, Tanaka K, Isselbacher KJ. Lipid composition of the isolated rat intestinal microvillus membrane.. Biochem J 1968 Aug;109(1):51-9.
      doi: 10.1042/bj1090051pubmed: 5669848google scholar: lookup
    29. Meldolesi J, Jamieson JD, Palade GE. Composition of cellular membranes in the pancreas of the guinea pig. II. Lipids.. J Cell Biol 1971 Apr;49(1):130-49.
      doi: 10.1083/jcb.49.1.130pubmed: 5555573google scholar: lookup
    30. Kleinig H. Nuclear membranes from mammalian liver. II. Lipid composition.. J Cell Biol 1970 Aug;46(2):396-402.
      doi: 10.1083/jcb.46.2.396pubmed: 5449183google scholar: lookup
    31. Pinto da Silva P, Branton D. Membrane splitting in freeze-ethching. Covalently bound ferritin as a membrane marker.. J Cell Biol 1970 Jun;45(3):598-605.
      doi: 10.1083/jcb.45.3.598pubmed: 4918216google scholar: lookup
    32. Kirk RG, Tosteson DC. Cation transport and membrane morphology.. J Membr Biol 1973;12(3):273-85.
      doi: 10.1007/BF01870005pubmed: 4781070google scholar: lookup
    33. Gruber W, Deuticke B. Comparative aspects of phosphate transfer across mammalian erythrocyte membranes.. J Membr Biol 1973 Aug 30;13(1):19-36.
      doi: 10.1007/BF01868218pubmed: 4752450google scholar: lookup
    34. McKillican ME, Larose JA. Study of free and bound lipids of Brassica campestris, var yellow sarson.. Lipids 1974 Jul;9(7):455-60.
      doi: 10.1007/BF02534271pubmed: 4366535google scholar: lookup
    35. Lachmann PJ, Bowyer DE, Nicol P, Dawson RM, Munn EA. Studies on the terminal stages of complement lysis.. Immunology 1973 Jan;24(1):135-45.
      pubmed: 4346598
    36. Nelson GJ. Studies on the lipids of sheep red blood cells. 3. The fayy acid composition of phospholipids in HK and LK cells.. Lipids 1969 Sep;4(5):350-5.
      doi: 10.1007/BF02531005pubmed: 4309926google scholar: lookup
    37. Fung KK, Kalant N. Phospholipid of the rat glomerular basement membrane in experimental nephrosis.. Biochem J 1972 Sep;129(3):733-41.
      doi: 10.1042/bj1290733pubmed: 4266892google scholar: lookup
    38. Abshagen U, Kewitz H, Rietbrock N. Distribution of digoxin, digitoxin and ouabain between plasma and erythrocytes in various species.. Naunyn Schmiedebergs Arch Pharmakol 1971;270(2):105-16.
      doi: 10.1007/BF00997082pubmed: 4254613google scholar: lookup
    39. Stanton TB, Cornell CP. Erythrocytes as a source of essential lipids for Treponema hyodysenteriae.. Infect Immun 1987 Feb;55(2):304-8.
      doi: 10.1128/iai.55.2.304-308.1987pubmed: 3804437google scholar: lookup
    40. Kozaki S, Kato K, Asao T, Kamata Y, Sakaguchi G. Activities of Aeromonas hydrophila hemolysins and their interaction with erythrocyte membranes.. Infect Immun 1987 Jul;55(7):1594-9.
      doi: 10.1128/iai.55.7.1594-1599.1987pubmed: 3596803google scholar: lookup
    41. Nelson GJ, Kelley DS, Schmidt PC, Serrato CM. The effects of fat-free, saturated and polyunsaturated fat diets on rat liver and plasma lipids.. Lipids 1987 Feb;22(2):88-94.
      doi: 10.1007/BF02534859pubmed: 3561178google scholar: lookup
    42. Lehker MW, Chang TH, Dailey DC, Alderete JF. Specific erythrocyte binding is an additional nutrient acquisition system for Trichomonas vaginalis.. J Exp Med 1990 Jun 1;171(6):2165-70.
      doi: 10.1084/jem.171.6.2165pubmed: 2351937google scholar: lookup
    43. Geoffroy C, Raveneau J, Beretti JL, Lecroisey A, Vazquez-Boland JA, Alouf JE, Berche P. Purification and characterization of an extracellular 29-kilodalton phospholipase C from Listeria monocytogenes.. Infect Immun 1991 Jul;59(7):2382-8.
      doi: 10.1128/iai.59.7.2382-2388.1991pubmed: 1904842google scholar: lookup
    44. Machang'u RS, Prescott JF. Purification and properties of cholesterol oxidase and choline phosphohydrolase from Rhodococcus equi.. Can J Vet Res 1991 Oct;55(4):332-40.
      pubmed: 1790488
    45. Jacobsohn MK, Lehman MM, Jacobsohn GM. Cell membranes and multilamellar vesicles: influence of pH on solvent induced damage.. Lipids 1992 Sep;27(9):694-700.
      doi: 10.1007/BF02536027pubmed: 1487967google scholar: lookup
    46. Strandberg K, Westerberg S. Composition of phospholipids and phospholipid fatty acids in rat mast cells.. Mol Cell Biochem 1976 Apr 28;11(2):103-7.
      doi: 10.1007/BF01792791pubmed: 1272255google scholar: lookup
    47. Seed TM, Kreier JP. Surface properties of extracellular malaria parasites: electrophoretic and lectin-binding characteristics.. Infect Immun 1976 Dec;14(6):1339-47.
      doi: 10.1128/iai.14.6.1339-1347.1976pubmed: 793992google scholar: lookup
    48. Montfoort A, Boere WA. Cholesterol and phospholipid composition of erythroblasts isolated from mouse spleen after Rauscher leukemia virus infection.. Lipids 1978 Sep;13(9):580-7.
      doi: 10.1007/BF02535819pubmed: 713723google scholar: lookup
    49. Gubash SM. Synergistic hemolysis phenomenon shown by an alpha-toxin-producing Clostridium perfingens and streptococcal CAMP factor in presumptive streptococcal grouping.. J Clin Microbiol 1978 Nov;8(5):480-8.
      doi: 10.1128/jcm.8.5.480-488.1978pubmed: 215600google scholar: lookup
    50. Ramm LE, Winkler HH. Identification of cholesterol in the receptor site for rickettsiae on sheep erythrocyte membranes.. Infect Immun 1976 Jan;13(1):120-6.
      doi: 10.1128/iai.13.1.120-126.1976pubmed: 175013google scholar: lookup
    51. Goldsmith LA. Haemolysis induced by tyrosine crystals: Modifiers and inhibitors.. Biochem J 1976 Jul 15;158(1):17-22.
      doi: 10.1042/bj1580017pubmed: 9076google scholar: lookup
    52. Gunn RB, Kirk RG. Anion transport and membrane morphology.. J Membr Biol 1976;27(3):265-82.
      doi: 10.1007/BF01869140pubmed: 7677google scholar: lookup
    Subscribe to our newsletter
    Join 99,357 horse owners like you who receive our email updates on horse health and nutrition.