Tumour phospholipid metabolism
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[1] J. Bligh. The level of free choline in plasma , 1952, The Journal of physiology.
[2] B. Brodie,et al. A chemical method for the determination of free choline in plasma. , 1953, The Journal of biological chemistry.
[3] O. Warburg. [Origin of cancer cells]. , 1956, Oncologia.
[4] E. P. Kennedy,et al. The function of cytidine coenzymes in the biosynthesis of phospholipides. , 1956, The Journal of biological chemistry.
[5] E. P. Kennedy. The biosynthesis of phospholipids. , 1958, The American journal of clinical nutrition.
[6] G. Hübscher,et al. Studies on the biosynthesis of phosphatidyl serine. , 1959, Biochimica et biophysica acta.
[7] S. Otsuki,et al. Studies on free amino acids in human brain. , 1960 .
[8] N. Bucher,et al. Regeneration of liver and kidney , 1971 .
[9] T. Perry,et al. REGIONAL DISTRIBUTION OF AMINO ACIDS IN HUMAN BRAIN OBTAINED AT AUTOPSY , 1971, Journal of neurochemistry.
[10] K Berry,et al. FREE AMINO ACIDS AND RELATED COMPOUNDS IN BIOPSIES OF HUMAN BRAIN , 1971, Journal of neurochemistry.
[11] E. P. Kennedy,et al. Intracellular sites of lipid synthesis and the biogenesis of mitochondria. , 1972, Journal of lipid research.
[12] R. Sundler,et al. Quantitative role of base exchange in phosphatidylethanolamine synthesis in isolated rat hepatocytes , 1974, FEBS letters.
[13] R. Sundler,et al. Regulation of phospholipid biosynthesis in isolated rat hepatocytes. Effect of different substrates. , 1975, The Journal of biological chemistry.
[14] S. Ogawa,et al. 31P nuclear magnetic resonance studies of Ehrlich ascites tumor cells. , 1977, Proceedings of the National Academy of Sciences of the United States of America.
[15] H. Morris,et al. The composition and metabolism of microsomal and mitochondrial membrane lipids in the Morris 7777 hepatoma. , 1977, Advances in experimental medicine and biology.
[16] N. Kaplan,et al. 31P nuclear magnetic resonance studies of HeLa cells. , 1977, Proceedings of the National Academy of Sciences of the United States of America.
[17] P. Pedersen,et al. Tumor mitochondria and the bioenergetics of cancer cells. , 1978, Progress in experimental tumor research.
[18] D. Morré,et al. Distribution of phospholipid biosynthetic enzymes among cell components of rat liver. , 1978, The Journal of biological chemistry.
[19] R. Shulman,et al. Phosphate metabolites in lymphoid, Friend erythroleukemia, and HeLa cells observed by high-resolution 31P nuclear magnetic resonance. , 1978, Proceedings of the National Academy of Sciences of the United States of America.
[20] J. Kanfer. The base exchange enzymes and phospholipase D of mammalian tissue. , 1980, Canadian journal of biochemistry.
[21] F. Hirata,et al. Phospholipid methylation and biological signal transmission. , 1980, Science.
[22] R. Coleman,et al. Enzymes of glycerolipid synthesis in eukaryotes. , 1980, Annual review of biochemistry.
[23] I. Campbell,et al. Proton nuclear magnetic resonance of intact Friend leukemia cells: phosphorylcholine increase during differentiation. , 1982, Science.
[24] S. Spanner,et al. Activation of glycerophosphocholine phosphodiesterase in rat forebrain by Ca2+. , 1982, The Biochemical journal.
[25] D. R. Wilkie,et al. 31P-NMR STUDIES OF A HUMAN TUMOUR IN SITU , 1983, The Lancet.
[26] R. Crain,et al. Role of lipid transfer proteins in the abnormal lipid content of Morris hepatoma mitochondria and microsomes. , 1983, Cancer research.
[27] A. Costello,et al. NON-INVASIVE INVESTIGATION OF CEREBRAL METABOLISM IN NEWBORN INFANTS BY PHOSPHORUS NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY , 1983, The Lancet.
[28] T. Ng,et al. NMR study of in vivo RIF-1 tumors. Analysis of perchloric acid extracts and identification of 1H, 31P and 13C resonances. , 1984, Biochimica et biophysica acta.
[29] F. Podo,et al. Modulations of glycerophosphorylcholine and phosphorylcholine in Friend erythroleukemia cells upon in vitro‐induced erythroid differentiation: a 31P NMR study , 1984, FEBS letters.
[30] D. Brindley,et al. Intracellular translocation of phosphatidate phosphohydrolase and its possible role in the control of glycerolipid synthesis. , 1984, Progress in lipid research.
[31] D. Voelker. Phosphatidylserine functions as the major precursor of phosphatidylethanolamine in cultured BHK-21 cells. , 1984, Proceedings of the National Academy of Sciences of the United States of America.
[32] M. Delivoria-Papadopoulos,et al. Unique aspects of human newborn cerebral metabolism evaluated with phosphorus nuclear magnetic resonance spectroscopy , 1984, Annals of neurology.
[33] J. Gore,et al. Relaxation enhancement using liposomes carrying paramagnetic species. , 1984, Magnetic resonance imaging.
[34] C. Warden,et al. Regulation of choline kinase activity and phosphatidylcholine biosynthesis by mitogenic growth factors in 3T3 fibroblasts. , 1985, The Journal of biological chemistry.
[35] B. Chance,et al. 31P nuclear magnetic resonance spectroscopic investigation of human neuroblastoma in situ. , 1985, The New England journal of medicine.
[36] R. Gross,et al. Identification of neutral active phospholipase C which hydrolyzes choline glycerophospholipids and plasmalogen selective phospholipase A2 in canine myocardium. , 1985, The Journal of biological chemistry.
[37] R. Massarelli,et al. THE SUPPLY OF CHOLINE TO GLIAL CELLS , 1986 .
[38] Identification of phosphorylethanolamine in 31P-NMR spectra of human peripheral blood lymphocytes. , 1986, Biochimica et biophysica acta.
[39] B. Chance,et al. 31P NMR detection of mobile dog brain phospholipids , 1986, Magnetic resonance in medicine.
[40] David Hilton-Jones,et al. BIOCHEMICAL INVESTIGATION OF HUMAN TUMOURS IN VIVO WITH PHOSPHORUS-31 MAGNETIC RESONANCE SPECTROSCOPY , 1986, The Lancet.
[41] C. Kent,et al. Characterization of the pathways for phosphatidylethanolamine biosynthesis in Chinese hamster ovary mutant and parental cell lines. , 1986, The Journal of biological chemistry.
[42] P. Cuatrecasas,et al. Diacylglycerol-induced translocation of diacylglycerol kinase: use of affinity-purified enzyme in a reconstitution system. , 1986, Proceedings of the National Academy of Sciences of the United States of America.
[43] Enrico,et al. 31P-nuclear magnetic resonance analysis of interferon-induced alterations of phospholipid metabolites in interferon-sensitive and interferon-resistant Friend leukemia cell tumors in mice. , 1986, Cancer research.
[44] Y Itzchak,et al. Breast tumors: evaluation with P-31 MR spectroscopy. , 1986, Radiology.
[45] P E Wright,et al. Assignment of methylene proton resonances in NMR spectra of embryonic and transformed cells to plasma membrane triglyceride. , 1986, The Journal of biological chemistry.
[46] J. Bomalaski,et al. Antibodies prepared to Bacillus cereus phospholipase C crossreact with a phosphatidylcholine preferring phospholipase C in mammalian cells. , 1986, Biochemical and biophysical research communications.
[47] P R Luyten,et al. Observation of metabolites in the human brain by MR spectroscopy. , 1986, Radiology.
[48] M. Nishijima,et al. Phosphatidylserine biosynthesis in cultured Chinese hamster ovary cells. II. Isolation and characterization of phosphatidylserine auxotrophs. , 1986, The Journal of biological chemistry.
[49] W. Fiers,et al. Nuclear magnetic resonance analysis of tumor necrosis factor-induced alterations of phospholipid metabolites and pH in Friend leukemia cell tumors and fibrosarcomas in mice. , 1987, Cancer research.
[50] N. Minshew,et al. 31P Nuclear Magnetic Resonance Studies of Phosphoglyceride Metabolism in Developing and Degenerating Brain: Preliminary Observations , 1987, Journal of neuropathology and experimental neurology.
[51] D. Arnold,et al. MR image-guided P-31 MR spectroscopy in the evaluation of brain tumor treatment. , 1987, Radiology.
[52] J. S. Cohen,et al. Phospholipid metabolism in cancer cells monitored by 31P NMR spectroscopy. , 1987, The Journal of biological chemistry.
[53] S. Aaronson,et al. Novel source of 1,2-diacylglycerol elevated in cells transformed by Ha-ras oncogene , 1987, Nature.
[54] G. Radda,et al. The Biochemistry of Human Diseases as Studied by 31P NMR in Man and Animal Models a , 1987, Annals of the New York Academy of Sciences.
[55] T. Ng,et al. Response of a non-Hodgkin lymphoma to 60Co therapy monitored by 31P MRS in situ. , 1987, International journal of radiation oncology, biology, physics.
[56] S. Zeisel,et al. Uptake of choline by rat mammary-gland epithelial cells. , 1988, The Biochemical journal.
[57] J. S. Cohen,et al. 31P‐NMR spectroscopy of human cancer cells proliferating in a basement membrane gel , 1988, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.
[58] L. Kan,et al. Phosphorus-31 nuclear magnetic resonance spectroscopy of human retinoblastoma cells: correlations with metabolic indices , 1988 .
[59] M. Moerland,et al. Human breast cancer in vivo: H-1 and P-31 MR spectroscopy at 1.5 T. , 1988, Radiology.
[60] Use of phosphorus-31 MR spectroscopy to monitor response to chemotherapy in non-Hodgkin lymphoma. , 1988, Journal of computer assisted tomography.
[61] T. Nakada,et al. Phospholipid profile of the human brain: 31P NMR spectroscopic study , 1988, Magnetic resonance in medicine.
[62] T. Merchant,et al. 31P magnetic resonance spectroscopic profiles of neoplastic human breast tissues. , 1988, Cancer research.
[63] M W Weiner,et al. Alcoholic liver disease: quantitative image-guided P-31 MR spectroscopy. , 1989, Radiology.
[64] D. Gadian,et al. Phosphodiesters in the Liver: The Effect of Field Strength on the 31P Signal , 1989, Magnetic resonance in medicine.
[65] F. Podo,et al. Interleukin‐1β induces tumor necrosis and early morphologic and metabolic changes in transplantable mouse tumors. Similarities with the anti‐tumor effects of tumor necrosis factor α or β , 1989 .
[66] P A Bottomley,et al. Human in vivo NMR spectroscopy in diagnostic medicine: clinical tool or research probe? , 1989, Radiology.
[67] Michael J. Berridge,et al. Inositol phosphates and cell signalling , 1989, Nature.
[68] M. Neeman,et al. Metabolic studies of estrogen- and tamoxifen-treated human breast cancer cells by nuclear magnetic resonance spectroscopy. , 1989, Cancer research.
[69] Studies of the metabolism of human breast cancer spheroids by NMR , 1989, Magnetic resonance in medicine.
[70] G. Radda,et al. Human primary brain tumour metabolism in vivo: a phosphorus magnetic resonance spectroscopy study. , 1989, British Journal of Cancer.
[71] J. Cohen,et al. Magnetic resonance spectroscopy of tumors and potential in vivo clinical applications: a review. , 1989, Cancer research.
[72] A. Aisen,et al. MR spectroscopy: clinical perspective. , 1989, Radiology.
[73] J. Frahm,et al. Noninvasive differentiation of tumors with use of localized H-1 MR spectroscopy in vivo: initial experience in patients with cerebral tumors. , 1989, Radiology.
[74] D. Collins,et al. IN-VIVO 31P MAGNETIC RESONANCE SPECTROSCOPY FOR MONITORING TREATMENT RESPONSE IN BREAST CANCER , 1989, The Lancet.
[75] S. Zeisel,et al. Measurement of choline and choline metabolite concentrations using high-pressure liquid chromatography and gas chromatography-mass spectrometry. , 1989, Analytical biochemistry.
[76] M. Geelen,et al. Regulation of the biosynthesis of triacylglycerol, phosphatidylcholine and phosphatidylethanolamine in the liver. , 1989, Biochimica et biophysica acta.
[77] J. Moscat,et al. Activation of phosphatidylcholine-specific phospholipase C in cell growth and oncogene transformation. , 1989, Biochemical Society transactions.
[78] J. Alger,et al. High‐field proton magnetic resonance spectroscopy of human cerebrum obtained during surgery for epilepsy , 1989, Neurology.
[79] Clinical NMR Spectroscopy of Tumors: Current Status and Future Directions , 1989, Investigative radiology.
[80] W. Anderson,et al. Phorbol ester stimulates the hydrolysis of phosphatidylethanolamine in leukemic HL-60, NIH 3T3, and baby hamster kidney cells. , 1989, The Journal of biological chemistry.
[81] G. Radda,et al. Phospholipid bilayer contribution to 31P NMR spectra in vivo , 1989, Magnetic resonance in medicine.
[82] M. Geelen,et al. Biosynthesis of phosphatidylethanolamine via the CDP-ethanolamine route is an important pathway in isolated rat hepatocytes. , 1989, Biochemical and biophysical research communications.
[83] C. Marshall,et al. Stimulation of phosphatidylcholine hydrolysis, diacylglycerol release, and arachidonic acid production by oncogenic ras is a consequence of protein kinase C activation. , 1989, The Journal of biological chemistry.
[84] F. Palmer,et al. Phosphatidylcholine biosynthesis in cultured glioma cells: evidence for channeling of intermediates. , 1989, Biochimica et biophysica acta.
[85] Dennis E. Vance,et al. Signal transduction via phosphatidylcholine cycles , 1989 .
[86] T. Ng,et al. Therapeutic response of breast carcinoma monitored by 31P MRS in situ , 1989, Magnetic resonance in medicine.
[87] Steen Rg,et al. Response of solid tumors to chemotherapy monitored by in vivo 31P nuclear magnetic resonance spectroscopy: a review. , 1989 .
[88] G K Radda,et al. A study of patients with alcoholic liver disease by 31P nuclear magnetic resonance spectroscopy. , 1990, Clinical science.
[89] P R Luyten,et al. Detection of metabolic heterogeneity of human intracranial tumors in vivo by 1h nmr spectroscopic imaging , 1990, Magnetic resonance in medicine.
[90] David G. Gadian,et al. Proton MR Spectroscopy of Intracranial Tumours: In Vivo and In Vitro Studies , 1990, Journal of computer assisted tomography.
[91] J. Growdon,et al. Levels of phospholipid catabolic intermediates, glycerophosphocholine and glycerophosphoethanolamine, are elevated in brains of Alzheimer's disease but not of Down's syndrome patients , 1990, Brain Research.
[92] J. Exton. Signaling through phosphatidylcholine breakdown. , 1990, The Journal of biological chemistry.
[93] M. Neeman,et al. A system for viably maintaining a stirred suspension of multicellular spheroids during NMR spectroscopy , 1990, NMR in biomedicine.
[94] R. Edwards,et al. The assessment of treatment response in non-Hodgkin's lymphoma by image guided 31P magnetic resonance spectroscopy. , 1990, British Journal of Cancer.
[95] Der,et al. Age-dependent changes in localized proton and phosphorus MR spectroscopy of the brain. , 1990, Radiology.
[96] M. Diaz-Meco,et al. Kinetic evidence of a rapid activation of phosphatidylcholine hydrolysis by Ki-ras oncogene. Possible involvement in late steps of the mitogenic cascade. , 1990, The Journal of biological chemistry.
[97] G B Matson,et al. P-31 MR spectroscopy of normal human brain and brain tumors. , 1990, Radiology.
[98] N. Hunt,et al. Development of the “activated” high resolution 1H MR spectrum in murine T cells and B cells occurs in G1 phase of the cell cycle , 1990, Magnetic resonance in medicine.
[99] G. Zugmaier,et al. Regulation of the cytidine phospholipid pathways in human cancer cells and effects of 1-beta-D-arabinofuranosylcytosine: a noninvasive 31P nuclear magnetic resonance study. , 1990, Cancer research.
[100] F. Podo,et al. Alterations of lipid composition in Friend leukemia cell tumors in mice treated with tumor necrosis factor‐α , 1990, FEBS letters.
[101] Jimmy D Bell,et al. Proton MR spectroscopy of the brain in infants. , 1990, Journal of computer assisted tomography.
[102] D. Voelker. Characterization of phosphatidylserine synthesis and translocation in permeabilized animal cells. , 1990, The Journal of biological chemistry.
[103] M. Billah,et al. The regulation and cellular functions of phosphatidylcholine hydrolysis. , 1990, The Biochemical journal.
[104] H. Degani,et al. NMR studies of the lipid metabolism of T47D human breast cancer spheroids , 1990, FEBS letters.
[105] G K Radda,et al. Study of human liver disease with P-31 magnetic resonance spectroscopy. , 1990, Gut.
[106] P-31 spectroscopy study of response of superficial human tumors to therapy. , 1991, Radiology.
[107] J. Stack,et al. In vivo phosphorus-31 magnetic resonance spectroscopy of normal and pathological breast tissues. , 1991, The British journal of radiology.
[108] N.m.r. studies of phospholipid metabolism and cell proliferation. , 1991, Biochemical Society transactions.
[109] P A Narayana,et al. In vivo proton magnetic resonance spectroscopy studies of human brain. , 1991, Magnetic resonance imaging.
[110] V. R. McCready,et al. The effect of intra‐tumour heterogeneity on the distribution of phosphorus‐containing metabolites within human breast tumours: An In Vitro study using 31P NMR spectroscopy , 1991, NMR in biomedicine.
[111] Lymphocyte activation and phospholipid pathways. 31P magnetic resonance studies. , 1991, The Journal of biological chemistry.
[112] J. Frahm,et al. On the identification of cerebral metabolites in localized 1H NMR spectra of human brain In vivo , 1991, NMR in biomedicine.
[113] 31P and 1H NMR studies of ethanolamine-linked phosphoglycerides metabolism in human T lymphocytes. , 1991, Cellular and molecular biology.
[114] R. Edwards,et al. Tumour pH and response to chemotherapy: an in vivo 31P magnetic resonance spectroscopy study in non-Hodgkin's lymphoma. , 1991, The British journal of radiology.
[115] M. Diaz-Meco,et al. Requirement of phospholipase C-catalyzed hydrolysis of phosphatidylcholine for maturation of Xenopus laevis oocytes in response to insulin and ras p21. , 1991, The Journal of biological chemistry.
[116] T. Merchant,et al. Clinical magnetic resonance spectroscopy of human breast disease. , 1991, Investigative radiology.
[117] F. Palmer,et al. Channeling of intermediates in the CDP-choline pathway of phosphatidylcholine biosynthesis in cultured glioma cells is dependent on intracellular Ca2+. , 1991, The Journal of biological chemistry.
[118] J. Voorhees,et al. Epidermal growth factor‐induced hydrolysis of phosphatidylcholine by phospholipase D and phospholipase C in human dermal fibroblasts , 1991, Journal of cellular physiology.
[119] François Lazeyras,et al. Magnetic Resonance in Preterm and Term Newborns: 1H-Spectroscopy in Developing Human Brain , 1991, Pediatric Research.
[120] H. Degani,et al. Phosphate metabolites and steroid hormone receptors of benign and malignant breast tumors. A nuclear magnetic resonance study , 1991, Cancer.
[121] G. Radda,et al. Abnormal phosphomonoester signals in 31P MR spectra from patients with hepatic lymphoma. A possible marker of liver infiltration and response to chemotherapy. , 1991, British Journal of Cancer.
[122] M. Leach,et al. The phosphocholine and glycerophosphocholine content of an oestrogen-sensitive rat mammary tumour correlates strongly with growth rate. , 1991, British Journal of Cancer.
[123] F. Conti,et al. Modulation of human lymphoblastoid B cell line by phorbol ester and sphingosine. A 31P-NMR study. , 1991, Biochimica et biophysica acta.
[124] V. R. McCready,et al. A comparison of in vivo and in vitro 31P NMR spectra from human breast tumours: variations in phospholipid metabolism. , 1991, British Journal of Cancer.
[125] J P Freyer,et al. Cellular energetics measured by phosphorous nuclear magnetic resonance spectroscopy are not correlated with chronic nutrient deficiency in multicellular tumor spheroids. , 1991, Cancer research.
[126] M. Nishijima,et al. A Chinese hamster cDNA encoding a protein essential for phosphatidylserine synthase I activity. , 1991, The Journal of biological chemistry.
[127] G. Radda,et al. 31P-NMR study of brain phospholipid structures in vivo. , 1991, Biochimica et biophysica acta.
[128] J. Frahm,et al. Localized proton NMR spectroscopy of brain tumors using short-echo time STEAM sequences. , 1991, Journal of computer assisted tomography.
[129] H. Degani,et al. Lipid metabolism in T47D human breast cancer cells: 31P and 13C-NMR studies of choline and ethanolamine uptake. , 1991, Biochimica et biophysica acta.
[130] M. Weiner,et al. Phosphorus-31 magnetic resonance metabolite imaging in the human body. , 1992, Magnetic resonance imaging.
[131] G. Radda,et al. Changes in phosphatidylethanolamine metabolism in regenerating rat liver as measured by 31P-NMR. , 1992, Biochimica et biophysica acta.
[132] J. Stack,et al. 31P MRS as an early prognostic indicator of patient response to chemotherapy , 1992, Magnetic resonance in medicine.
[133] Y. Nishizuka. Intracellular signaling by hydrolysis of phospholipids and activation of protein kinase C. , 1992, Science.
[134] G. Sutherland,et al. High‐Resolution 1H NMR spectroscopy studies of extracts of human cerebral neoplasms , 1992, Magnetic resonance in medicine.
[135] Visibility of phospholipids in 31P NMR spectra of human breast tumours in vivo , 1992, NMR in biomedicine.
[136] P. Bottomley,et al. The trouble with spectroscopy papers , 1992, Journal of magnetic resonance imaging : JMRI.
[137] W. Negendank,et al. Studies of human tumors by MRS: A review , 1992, NMR in biomedicine.
[138] J. Hennig,et al. Direct absolute quantification of metabolites in the human brain with in vivo localized proton spectroscopy , 1992, NMR in biomedicine.
[139] H. Takeyama,et al. Composition and turnover of phospholipids and neutral lipids in human breast cancer and reference tissues. , 1992, Carcinogenesis.
[140] J. Exton,et al. Oleate stimulation of diacylglycerol formation from phosphatidylcholine through effects on phospholipase D and phosphatidate phosphohydrolase. , 1992, European journal of biochemistry.
[141] V. Balzani,et al. Supramolecular Photochemistry and Photophysics. Adducts of Metal Complexes with the Natural Ionophore Lasalocid A Anion , 1992 .
[142] M. Weiner,et al. Hepatic cancers and their response to chemoembolization therapy. Quantitative image-guided 31P magnetic resonance spectroscopy. , 1992, Investigative radiology.
[143] Phosphatidylethanolamine metabolism in rat liver after partial hepatectomy. Control of biosynthesis of phosphatidylethanolamine by the availability of ethanolamine. , 1992, The Biochemical journal.
[144] J. Ruíz-Cabello,et al. Phospholipid metabolites as indicators of cancer cell function , 1992, NMR in biomedicine.
[145] A. Harris,et al. Phosphomonoester is associated with proliferation in human breast cancer: a 31P MRS study. , 1993, British Journal of Cancer.
[146] S. Zeisel. Choline phospholipids: signal transduction and carcinogenesis. , 1993, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.
[147] A. Cuadrado,et al. Phosphorylcholine: a novel second messenger essential for mitogenic activity of growth factors. , 1993, Oncogene.
[148] O Henriksen,et al. In vivo quantification of brain metabolites by 1H-MRS using water as an internal standard. , 1993, Magnetic resonance imaging.
[149] Detection of neutral active phosphatidylcholine-specific phospholipase C in Friend leukemia cells before and after erythroid differentiation. , 1993, Anticancer research.
[150] Roland Kreis,et al. Development of the human brain: In vivo quantification of metabolite and water content with proton magnetic resonance spectroscopy , 1993, Magnetic resonance in medicine.
[151] Carolyn E. Mountford,et al. The Use of Proton MR in Cancer Pathology , 1993 .
[152] D. Gadian,et al. Proton nuclear magnetic resonance spectroscopy unambiguously identifies different neural cell types , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[153] J S Taylor,et al. Proton‐decoupled 31P chemical shift imaging of the human brain in normal volunteers , 1993, NMR in biomedicine.
[154] B D Ross,et al. Absolute Quantitation of Water and Metabolites in the Human Brain. II. Metabolite Concentrations , 1993 .
[155] D. Vance,et al. Evidence that binding of CTP:phosphocholine cytidylyltransferase to membranes in rat hepatocytes is modulated by the ratio of bilayer- to non-bilayer-forming lipids. , 1993, The Biochemical journal.
[156] F Podo,et al. In vivo 31P MRS of experimental tumours , 1993, NMR in biomedicine.
[157] B J Soher,et al. Quantitation of proton NMR spectra of the human brain using tissue water as an internal concentration reference , 1993, NMR in biomedicine.
[158] K. Kinzler,et al. The multistep nature of cancer. , 1993, Trends in genetics : TIG.
[159] R. Dixon,et al. Phospholipid synthesis in the lymphomatous mouse liver studied by 31P nuclear magnetic resonance spectroscopy in vitro and by administration of 14C-radiolabelled compounds in vivo. , 1993, Biochimica et biophysica acta.
[160] M. Leach,et al. Phospholipid metabolites, prognosis and proliferation in human breast carcinoma , 1993, NMR in biomedicine.
[161] J. Frahm,et al. Absolute concentrations of metabolites in the adult human brain in vivo: quantification of localized proton MR spectra. , 1993, Radiology.
[162] R. Gillies,et al. In Vitro and in Vivo 13C and 31P NMR analyses of phosphocholine metabolism in rat glioma cells , 1994, Magnetic resonance in medicine.
[163] R. Zimmerman,et al. High-resolution 1H-magnetic resonance spectroscopy of pediatric posterior fossa tumors in vitro. , 1994, Journal of neurosurgery.
[164] R. Kauppinen,et al. Choline‐Containing Compounds in Human Astrocytomas Studied by 1H NMR Spectroscopy In Vivo and In Vitro , 1994, Journal of neurochemistry.
[165] Phosphorus metabolism during growth of lymphoma in mouse liver: a comparison of 31P magnetic resonance spectroscopy in vivo and in vitro. , 1994, British Journal of Cancer.
[166] M. A. Richards,et al. Phosphorus-31 metabolism of post-menopausal breast cancer studied in vivo by magnetic resonance spectroscopy. , 1994, British Journal of Cancer.
[167] O Henriksen,et al. Absolute quantitative proton NMR spectroscopy based on the amplitude of the local water suppression pulse. Quantification of brain water and metabolites , 1994, NMR in biomedicine.
[168] M. Record,et al. Phosphatidylcholine cycle and regulation of phosphatidylcholine biosynthesis by enzyme translocation. , 1994, Biochimica et biophysica acta.
[169] A. Cuadrado,et al. Activation of type D phospholipase by serum stimulation and ras-induced transformation in NIH3T3 cells. , 1994, Oncogene.
[170] M. Weiner,et al. Molar quantitation of in vivo proton metabolites in human brain with 3D magnetic resonance spectroscopic imaging. , 1994, Magnetic resonance imaging.
[171] O Henriksen,et al. T1, T2, and concentrations of brain metabolites in neonates and adolescents estimated with H‐1 MR spectroscopy , 1994, Journal of magnetic resonance imaging : JMRI.
[172] P. Moreau,et al. Phospholipid trafficking and membrane biogenesis. , 1994, Biochimica et biophysica acta.
[173] S. Jackowski. Coordination of membrane phospholipid synthesis with the cell cycle. , 1994, The Journal of biological chemistry.
[174] Y. Kinoshita,et al. Phosphorylethanolamine content of human brain tumors. , 1994, Neurologia medico-chirurgica.
[175] T. Brown,et al. Characterization of a phosphonium analog of choline as a probe in 31P NMR studies of phospholipid metabolism , 1994, NMR in biomedicine.
[176] R De Beer,et al. Quality assessment in in vivo NMR spectroscopy: VI. Multicentre quantification of MRS test signals. , 1995, Magnetic resonance imaging.
[177] T. Brown,et al. Metabolic characterization of human non-Hodgkin's lymphomas in vivo with the use of proton-decoupled phosphorus magnetic resonance spectroscopy. , 1995, Cancer research.
[178] J. Vance,et al. Evidence for an ethanolamine cycle: differential recycling of the ethanolamine moiety of phosphatidylethanolamine derived from phosphatidylserine and ethanolamine. , 1995, The Biochemical journal.
[179] O Henriksen,et al. Quality assessment in in vivo NMR spectroscopy: IV. A multicentre trial of test objects and protocols for performance assessment in clinical NMR spectroscopy. , 1995, Magnetic resonance imaging.
[180] L. del Peso,et al. Generation of phosphorylcholine as an essential event in the activation of Raf‐1 and MAP‐kinases in growth factors‐induced mitogenic stimulation , 1995, Journal of cellular biochemistry.
[181] Bruno Alfano,et al. 1H MR Spectroscopy in Patients with Metastatic Brain Tumors: A Multicenter Study , 1995, Magnetic resonance in medicine.
[182] J. Bishop. Cancer: the rise of the genetic paradigm. , 1995, Genes & development.
[183] G. King,et al. 1H-NMR visible neutral lipids in activated T lymphocytes: relationship to phosphatidylcholine cycling. , 1996, Biochimica et biophysica acta.
[184] K. Brindle,et al. 31P NMR measurements of the effects of unsaturated fatty acids on cellular phospholipid metabolism , 1996, Magnetic resonance in medicine.
[185] W. Hull,et al. Characterization of a murine lymphoma cell line by 31P‐NMR spectroscopy: In vivo monitoring of the local anti‐tumor effects of systemic immune cell transfer , 1996, International journal of cancer.
[186] C E Mountford,et al. Human cancers detected by proton MRS and chemical shift imaging ex vivo. , 1996, Anticancer research.
[187] F. Podo,et al. Differentiation of glioblastoma multiforme from astrocytomas by in vitro 1H MRS analysis of human brain tumors. , 1996, Anticancer research.
[188] Phosphatidylethanolamine synthesis in the normal and lymphomatous mouse liver; a 13C NMR study. , 1996, Anticancer research.
[189] S. Williams,et al. Immortalization and transformation are associated with specific alterations in choline metabolism. , 1996, Cancer research.
[190] D. Louis Collins,et al. Accurate, noninvasive diagnosis of human brain tumors by using proton magnetic resonance spectroscopy , 1996, Nature Medicine.
[191] Shi Yj,et al. Intracellular trafficking of phospholipids: import of phosphatidylserine into mitochondria. , 1996 .
[192] S. Jackowski. Cell Cycle Regulation of Membrane Phospholipid Metabolism* , 1996, The Journal of Biological Chemistry.
[193] D. Gadian. NMR and its Applications to Living Systems , 1996 .
[194] H. Degani,et al. Variations in energy and phospholipid metabolism in normal and cancer human mammary epithelial cells. , 1996, Anticancer research.
[195] Z. Kiss. Regulation of phospholipase D by protein kinase C. , 1996, Chemistry and physics of lipids.
[196] W. Hull,et al. 31P MRS of human tumor cells: effects of culture media and conditions on phospholipid metabolite concentrations. , 1996, Anticancer research.
[197] H. Degani,et al. Kinetics of choline transport and phosphorylation in human breast cancer cells; NMR application of the zero trans method. , 1996, Anticancer research.
[198] J. Habener,et al. Alternative Exon Splicing Controls a Translational Switch from Activator to Repressor Isoforms of Transcription Factor CREB during Spermatogenesis* , 1996, The Journal of Biological Chemistry.
[199] T R Brown,et al. Proton magnetic resonance spectroscopy in patients with glial tumors: a multicenter study. , 1996, Journal of neurosurgery.
[200] J. D. de Certaines,et al. Magnetic resonance spectroscopy in cancer: phospholipid, neutral lipid and lipoprotein metabolism and function. , 1996, Anticancer research.
[201] R. Gillies,et al. Phosphomonoester metabolism as a function of cell proliferative status and exogenous precursors. , 1996, Anticancer research.
[202] F. Podo,et al. Detection of phosphatidylcholine-specific phospholipase C in NIH-3T3 fibroblasts and their H-ras transformants: NMR and immunochemical studies. , 1996, Anticancer research.
[203] V. R. McCready,et al. Phosphocholine and choline content of rat sarcoma cells grown in the presence and absence of serum. , 1996, Anticancer research.
[204] W. Mackinnon,et al. Fine-needle biopsy specimens of benign breast lesions distinguished from invasive cancer ex vivo with proton MR spectroscopy. , 1997, Radiology.
[205] S. Hammond,et al. Characterization of Two Alternately Spliced Forms of Phospholipase D1 , 1997, The Journal of Biological Chemistry.
[206] G. King,et al. The Generation of1H-NMR-Detectable Mobile Lipid in Stimulated Lymphocytes: Relationship to Cellular Activation, the Cell Cycle, and Phosphatidylcholine-Specific Phospholipase C , 1997 .
[207] J. Exton. New Developments in Phospholipase D* , 1997, The Journal of Biological Chemistry.
[208] E. Dennis,et al. The growing phospholipase A2 superfamily of signal transduction enzymes. , 1997, Trends in biochemical sciences.
[209] Scott M. Hammond,et al. Phospholipase D2, a distinct phospholipase D isoform with novel regulatory properties that provokes cytoskeletal reorganization , 1997, Current Biology.
[210] Y. Kinoshita,et al. Absolute concentrations of metabolites in human brain tumors using in vitro proton magnetic resonance spectroscopy , 1997, NMR in biomedicine.
[211] K. Ishidate. Choline/ethanolamine kinase from mammalian tissues. , 1997, Biochimica et biophysica acta.
[212] M. Kai,et al. Phosphatidic acid phosphatase from mammalian tissues: discovery of channel-like proteins with unexpected functions. , 1997, Biochimica et biophysica acta.
[213] Jimmy D Bell,et al. Metabolic changes underlying 31P MR spectral alterations in human hepatic tumours , 1998, NMR in biomedicine.
[214] E Forssell-Aronsson,et al. Absolute metabolite quantification by in vivo NMR spectroscopy: IV. Multicentre trial on MRSI localisation tests. , 1998, Magnetic resonance imaging.
[215] H. W. Cook,et al. Involvement of phospholipase D and protein kinase C in phorbol ester and fatty acid stimulated turnover of phosphatidylcholine and phosphatidylethanolamine in neural cells. , 1998, Biochimica et biophysica acta.
[216] T. Powles,et al. Measurements of human breast cancer using magnetic resonance spectroscopy: a review of clinical measurements and a report of localized 31P measurements of response to treatment , 1998, NMR in biomedicine.
[217] P. Sijens. Phosphorus MR spectroscopy in the treatment of human extremity sarcomas , 1998, NMR in biomedicine.
[218] R. Dixon. NMR studies of phospholipid metabolism in hepatic lymphoma , 1998 .
[219] M. Wakelam,et al. Diacylglycerols and phosphatidates: which molecular species are intracellular messengers? , 1998, Trends in biochemical sciences.
[220] S F Keevil,et al. Absolute metabolite quantification by in vivo NMR spectroscopy: II. A multicentre trial of protocols for in vivo localised proton studies of human brain. , 1998, Magnetic resonance imaging.
[221] Z. Bhujwalla,et al. Malignant transformation alters membrane choline phospholipid metabolism of human mammary epithelial cells. , 1999, Cancer research.
[222] R. Gillies,et al. Nm23‐transfected MDA‐mB‐435 human breast carcinoma cells form tumors with altered phospholipid metabolism and pH: A 31P nuclear magnetic resonance study in vivo and in vitro , 1999, Magnetic resonance in medicine.