BIOMAT Database Logo BIOMAT Database Logo

Selective labelling of apolipoproteins A-I and C-I at methionine residues by (3H) methyl exchange. 1985

W S Hancock, and D R Harding, and P M Barling, and J T Sparrow

Apolipoproteins C-I and A-I were radioactively labelled with tritium by (3H)-methyl exchange. The methionine residues were first methylated with (3H)-methyl iodide at pH 4 and the reaction products were purified by gel filtration and cation exchange chromatography. The products were then demethylated with 2-mercaptoethanol (6 M) at pH 8.6 to regenerate the apolipoproteins in an unmodified but tritiated form. The specific radioactivity for apolipoprotein C-I and A-I was 3.5 X 10(6) and 1.5 X 10(7) dpm/pmol respectively. The properties of (3H)-apolipoprotein C-I were examined by reversed phase HPLC and by incorporation into very low density lipoproteins (VLDL).

UI MeSH Term Description Entries
D007553 Isotope Labeling Techniques for labeling a substance with a stable or radioactive isotope. It is not used for articles involving labeled substances unless the methods of labeling are substantively discussed. Tracers that may be labeled include chemical substances, cells, or microorganisms. Isotope Labeling, Stable,Isotope-Coded Affinity Tagging,Isotopically-Coded Affinity Tagging,Affinity Tagging, Isotope-Coded,Affinity Tagging, Isotopically-Coded,Isotope Coded Affinity Tagging,Labeling, Isotope,Labeling, Stable Isotope,Stable Isotope Labeling,Tagging, Isotope-Coded Affinity,Tagging, Isotopically-Coded Affinity
D008075 Lipoproteins, HDL A class of lipoproteins of small size (4-13 nm) and dense (greater than 1.063 g/ml) particles. HDL lipoproteins, synthesized in the liver without a lipid core, accumulate cholesterol esters from peripheral tissues and transport them to the liver for re-utilization or elimination from the body (the reverse cholesterol transport). Their major protein component is APOLIPOPROTEIN A-I. HDL also shuttle APOLIPOPROTEINS C and APOLIPOPROTEINS E to and from triglyceride-rich lipoproteins during their catabolism. HDL plasma level has been inversely correlated with the risk of cardiovascular diseases. High Density Lipoprotein,High-Density Lipoprotein,High-Density Lipoproteins,alpha-Lipoprotein,alpha-Lipoproteins,Heavy Lipoproteins,alpha-1 Lipoprotein,Density Lipoprotein, High,HDL Lipoproteins,High Density Lipoproteins,Lipoprotein, High Density,Lipoprotein, High-Density,Lipoproteins, Heavy,Lipoproteins, High-Density,alpha Lipoprotein,alpha Lipoproteins
D002848 Chromatography, DEAE-Cellulose A type of ion exchange chromatography using diethylaminoethyl cellulose (DEAE-CELLULOSE) as a positively charged resin. (From McGraw-Hill Dictionary of Scientific and Technical Terms, 4th ed) DEAE-Cellulose Chromatography,Chromatography, DEAE Cellulose,DEAE Cellulose Chromatography
D002851 Chromatography, High Pressure Liquid Liquid chromatographic techniques which feature high inlet pressures, high sensitivity, and high speed. Chromatography, High Performance Liquid,Chromatography, High Speed Liquid,Chromatography, Liquid, High Pressure,HPLC,High Performance Liquid Chromatography,High-Performance Liquid Chromatography,UPLC,Ultra Performance Liquid Chromatography,Chromatography, High-Performance Liquid,High-Performance Liquid Chromatographies,Liquid Chromatography, High-Performance
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D006847 Hydrocarbons, Iodinated Hydrocarbon compounds with one or more HYDROGEN atoms substituted with IODINE. Iodinated Hydrocarbons
D001054 Apolipoproteins A Structural proteins of the alpha-lipoproteins (HIGH DENSITY LIPOPROTEINS), including APOLIPOPROTEIN A-I and APOLIPOPROTEIN A-II. They can modulate the activity of LECITHIN CHOLESTEROL ACYLTRANSFERASE. These apolipoproteins are low in atherosclerotic patients. They are either absent or present in extremely low plasma concentration in TANGIER DISEASE. Apo-A,ApoA
D001056 Apolipoproteins C A group of apolipoproteins that can readily exchange among the various classes of lipoproteins (HDL; VLDL; CHYLOMICRONS). After lipolysis of TRIGLYCERIDES on VLDL and chylomicrons, Apo-C proteins are normally transferred to HDL. The subtypes can modulate remnant binding to receptors, LECITHIN CHOLESTEROL ACYLTRANSFERASE, or LIPOPROTEIN LIPASE. Apo-C,Apo C,ApoC,Apoprotein (C),Apoproteins C
D014316 Tritium The radioactive isotope of hydrogen also known as hydrogen-3. It contains two NEUTRONS and one PROTON in its nucleus and decays to produce low energy BETA PARTICLES. Hydrogen-3,Hydrogen 3
D016632 Apolipoprotein A-I The most abundant protein component of HIGH DENSITY LIPOPROTEINS or HDL. This protein serves as an acceptor for CHOLESTEROL released from cells thus promoting efflux of cholesterol to HDL then to the LIVER for excretion from the body (reverse cholesterol transport). It also acts as a cofactor for LECITHIN CHOLESTEROL ACYLTRANSFERASE that forms CHOLESTEROL ESTERS on the HDL particles. Mutations of this gene APOA1 cause HDL deficiency, such as in FAMILIAL ALPHA LIPOPROTEIN DEFICIENCY DISEASE and in some patients with TANGIER DISEASE. Apo A-I,Apo A-1,Apo A-I Isoproteins,Apo A1,Apo AI,ApoA-1,ApoA-I,Apolipoprotein A-1,Apolipoprotein A-I Isoprotein-2,Apolipoprotein A-I Isoprotein-4,Apolipoprotein A-I Isoproteins,Apolipoprotein A1,Apolipoprotein AI,Apolipoprotein AI Propeptide,Pro-Apo A-I,Pro-Apolipoprotein A-I,Proapolipoprotein AI,Apo A I Isoproteins,Apolipoprotein A 1,Apolipoprotein A I,Apolipoprotein A I Isoprotein 2,Apolipoprotein A I Isoprotein 4,Apolipoprotein A I Isoproteins,Pro Apo A I,Pro Apolipoprotein A I

Related Publications

W S Hancock, and D R Harding, and P M Barling, and J T Sparrow
Differential labelling of sphingolipids by [3H]serine and ([3H]methyl)-methionine in fish leukocytes.
April 2000, Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology,
W S Hancock, and D R Harding, and P M Barling, and J T Sparrow
Indirect [3H]methyl exchange as a general method for labeling methionine residues: application to calcitonin.
February 1985, Analytical biochemistry,
W S Hancock, and D R Harding, and P M Barling, and J T Sparrow
Labelling and metabolism of methionine-methyl-11 C.
January 1976, European journal of nuclear medicine,
W S Hancock, and D R Harding, and P M Barling, and J T Sparrow
3H-Labelling of substance P by tritium exchange and deshalogenation.
February 1980, FEBS letters,
W S Hancock, and D R Harding, and P M Barling, and J T Sparrow
Studies of the biological and immunological properties of parathyroid hormone, labeled selectively on the methionine residues by [3H]methyl exchange to high specific activity.
October 1979, Endocrinology,
W S Hancock, and D R Harding, and P M Barling, and J T Sparrow
Selective labelling of murine B lymphocytes by [3H]spiroperidol.
February 1981, The Journal of pharmacy and pharmacology,
W S Hancock, and D R Harding, and P M Barling, and J T Sparrow
Incorporation of intracisternally administered L-[methyl-3H]methionine and S-adenosyl-L-[methyl-3H]-methionine into rat brain phospholipids.
March 1985, Journal of neurochemistry,
W S Hancock, and D R Harding, and P M Barling, and J T Sparrow
Selective labelling of different dopamine receptors by a new agonist 3H-ligand: 3H-N-propylnorapomorphine.
June 1979, European journal of pharmacology,
W S Hancock, and D R Harding, and P M Barling, and J T Sparrow
A protein functionalization platform based on selective reactions at methionine residues.
October 2018, Nature,
W S Hancock, and D R Harding, and P M Barling, and J T Sparrow
Selective oxidation and reduction of methionine residues in peptides and proteins by oxygen exchange between sulfoxide and sulfide.
January 1986, The Journal of biological chemistry,
Copied contents to your clipboard!