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The Journal of Nutritional Biochemistry 1996: Vol 7 Index PDF

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Preview The Journal of Nutritional Biochemistry 1996: Vol 7 Index

Author Index Abumrad, N.N.: See Molina, P.E., 207 tivity in vitamin E and selenium-deficient Demigné, C.: See Manach, C., 375 Agullo, G.: See Manach. C., 375 rat lung, liver, and spleen cytosol is Demigné, C.: See Younes, H., 474 Akachi, T.: See Sugiyama, K., 40 time-dependent and reversible, 366 Dessi, M.A.: See Banni, S., 150 Andersen, M.K., Bailey, J.W., Wilken, C., Burk, R.F.: See Cockell, K.A., 333 Devaraj, N.S.: See Kumaravelu, P., 23 Rule, D.C. Lipoprotein lipase and glyc- Buskin, J.N.: See Petrie, L., 670 Di Felice, M.: See Salvati, S., 113 erophosphate acyltransferase in ovine DiSilvestro, R.A.: See Yang, F.L., 196 tissues are influenced by growth and en- Calder, P.C.: See Jeffery, N.M., 282 DuBard, M.B.: See Tamura, T., 55 ergy intake regimen, 610 Campeggi, L.M.: See Salvati, S., 113 Duguid, T.J.: See Hajés, G., 481 Andersen, M.K.: See Rule, D.C., 577 Canali, R.: See Virgili, F., 156 Angioni, E.: See Banni, S., 150 Carmona, A., Borgudd, L., Borges, G., and Ebihara, K.: See Nagata, Y., 303 Armand, M.: See Pasquier, B., 293 Levy-Benshimol, A. Effect of black Eder, K. and Kirchgessner, M. The effect Atkinson, T.G.: See Nagy, L.E., 356 bean tannins on in vitro carbohydrate di- of dietary fat on activities of lipogenic Attorri, L.: See Salvati, S., 113 gestion and absorption, 445 enzymes in liver and adipose tissue of Carreira, S.M. and Puigserver, A.J. Corre- zinc-adequate and zinc-deficient rats, 190 Bailey, J.W.: See Andersen, M.K., 610 lated regulation of the mRNAs encoding Bailey, J.W.: See Rule, D.C., 577 secretory trypsin inhibitors and anionic Fan, J.: See Molina, P.E., 207 Banni, S., Carta, G., Contini, M.S., An- trypsinogen I in the rat pancreas depend- Faus, M.-J.: See Suarez, A., 252 gioni, E., Deiana, M., Dessi, M.A., Me- ing on the dietary protein intake, 230 Fex, G.A., Larsson, K., and Nilsson-Ehle, lis, M.P., and Corongiu, F.P. Character- Carroll, K.K.: See Kurowska, E.M., 418 I. Serum concentrations of all-trans and ization of conjugated diene fatty acids in Carta, G.: See Banni, S., 150 13-cis retinoic acid and retinol are milk, dairy products, and lamb tissues, 150 Castelain, C.: See Pasquier, B., 293 closely correlated, 162 Barakat, H.A., Vadlamudi, S., MacLean, Castonguay, T.W.: See Moshifar, A., 567 Ficek, S.J.: See Rule, D.C., 577 P., MacDonald, K., and Pories, W.J. Li- Cha, M.C. and Jones, P.J.H. Tissue fatty Fields, M., Lure, M.D., and Lewis, C.G. poprotein metabolism in non-insulin- acid deposition is influenced by interac- Effect of saturated versus unsaturated fat dependent diabetes mellitus, 586 tion of dietary oil source and energy in- on the pathogenesis of copper deficiency Bardocz, S.: See Hajés, G., 481 take level in rats, 650 in rats, 246 Bardocz, S.: See Pusztai, A., 677 Chang, T.-Y. and Hu, M.-L. Concentra- Freeberg, L.E.: See Tamura, T., 55 Barry, J.-L.: See Pasquier, B., 293 tions and lipid peroxidation in tissues Frey, B.: See Herzog, B., 135 Baskaran, G.: See Sumathi, R., 85 and toxicity of para-aminobenzoic acid Fritsche, K.L. and McGuire, $.0. The ad- Battistini, N.: See Virgili, F., 156 fed to rats in drinking water, 408 verse effects of an in vivo inflammatory Beck, M.A. The role of nutrition in viral Chen, M.-C., Song, Y., and Song. W.O. challenge on the vitamin E status of rats disease, 683 Fetal growth retardation and death in is accentuated by fish oil feeding, 623 Behr, S.R.: See Younes, H., 474 pantothenic acid-deficient rats is due to Fujimori, E.: See Vianna de Oliveira, I.M., Beilin, L.J.: See Hodgson, J.M., 664 impaired placental function, 451 93 Beynen, A.C.: See Roodenburg, A.J.C., 99 Cheng, W.-L., Holmes-McNary, M.Q., Fukamizu, Y.: See Kobayashi, T., 542 Bhathena, S.J.: See Werman, M.J., 118 Mar, M.-H., Lien, E.L., and Zeisel, S.H. Fiirst, P.: See Herzog, B., 135 Blaut, M.: See Noack, J., 560 Bioavailability of choline and choline Borel, P.: See Pasquier, B., 293 esters from milk in rat pups, 457 Garcia, M.N., Martinez-Torres, C., Leets, Borges, G.: See Carmona, A., 445 Chesters, J.K.: See Petrie, L., 670 I., Tropper, E., Ramirez, J., and Lay- Borgudd, L.: See Carmona, A, 445 Choi, S.-W., Shane, B., and Selhub, J. Ef- risse, M. Heat treatment on heme iron Bougrine, R., Masson, C., Hatier, R., Nex, fect of methotrexate and 5-fluorouracil and iron-containing proteins in meat: E., Nicolas, J.-P., and Gueant, J.-L. Re- on de novo thymidylate synthesis in hu- Iron absorption in humans from diets ceptor binding of transcobalamin II- man colon carcinoma cell line, Caco-2, containing cooked meat fractions, 49 cobalamin in human colon adenocarci- 513 Gardner, D.S.: See Langley-Evans, S.C., 173 noma HT 29 cell line, 397 Cockell, K.A., Brash, A.R., and Burk, R.F. Garleb, K.A.: See Younes, H., 474 Bowen, H.T.: See Wei, Y., 179 Influence of selenium status on activity Garrido, G., Guzman, M., and Odrizola, Boxer, R.: See Molina, P.E., 207 of phospholipid hydroperoxide glutathi- J.M. Effects of physical training on fatty Brand, M.D.: See Lionetti, L., 571 one peroxidase in rat liver and testis in acid metabolism in liver and skeletal Brash, A.R.: See Cockell, K.A., 333 comparison with other selenoproteins, muscle of rats fed four different high- Brown, A.J. Acute effects of smoking ces- 333 carbohydrate diets, 348 sation on antioxidant status, 29 Contini, M.S.: See Banni, S., 150 Geilen, C.: See Wu, S., 642 Buckley, W.T., Vanderpool, R.A., God- Cook, N.C. and Samman, S. Flavonoids— Gelato, M.C.: See Molina, P.E., 207 frey, D.V., and Johnson, ?.E. Determi- Chemistry, metabolism, cardioprotective Gelencsér, E.: See Hajés, G., 481 nation, stable isotope enrichment and ki- effects, and dietary sources, 66 Gibbons, G.F.: See Jeffery, N.M., 282 netic of direct-reacting copper in blood Cormet, E.: See Mordrelle, A., 431 Gil, A.: See Suarez, A., 252 plasma, 488 Corongiu, F.P.: See Banni, S., 150 Gilabert, E.R., Ruiz, E., Osorio, C., and Burdge, G.C., Mander, A., and Postle, A.D. Coutts, A.G.P.: See Morgan, C.J., 339 Ortega, E. Effect of dietary zinc defi- Hepatic and plasma phospholipid mo- Croft, K.D.: See Hodgson, J.M., 664 ciency on reproductive function in male lecular species composition in the preg- rats: Biochemical and morphometric pa- nant guinea pig: Effect of chronic etha- Dakshinamoorthy, D.P.: See Kumaravelu, rameters, 403 nol consumption, 425 P23 Godfrey, D.V.: See Buckley, W.T., 488 Burgess, J.R. and Kuo, C.-F. Increased cal- David, R.: See Werman, M.J., 437 Goldenberg, R.L.: See Tamura, T., 55 cium-independent phospholipase A, ac- Deiana, M.: See Banni, S., 150 Grant, G.: See Hajés, G., 481 Nutritional Biochemistry 7:691-694, 1996 © Elsevier Science Inc. 1996 0955-2863/96/$15.00 655 Avenue of the Americas, New York, NY 10010 PII S0955-2863(96)00166-0 Author Index Grant, G.: See Pusztai, A., 677 tein composition in rats fed different di- Layrisse, M.: Se Garcia, M.N., 49 Gregory, J.F., III: See Scott, K.C., 261 etary lipids and of the effects of lipopro- Leets, I.: See Garcia, M.N., 49 Gueant, J.-L.: See Bougrine, R., 397 teins upon lymphocyte proliferation, 282 Levy-Benshimol: See Carmona, A., 445 Guidry, K.L.: See Morris, G.S., 617 Jendrasiak, G.L. The hydration of phos- Lewis, C.G.: See Fields, M., 246 Guillon, F.: See Pasquier, B., 293 pholipids and its biological significance, Liang, Y.B.: See Rule, D.C., 142 Guzman, M.: See Garrido, G., 348 599 Liebman, M.: See Rule, D.C., 142 Jeon, I.J.: See Yang, L., 214 Lien, E.L.: See Cheng, W.-L., 457 Hajoés, G., Gelencsér, E., Grant, G., Bar- Johnson, P.E.: See Buckley, W.T., 488 Lietzow, M.: See Wooten, L., 632 docz, S., Sakhri, M., Duguid, T.J., New- Johnston, K.E.: See Tamura, T., 55 Lin, C.Y.: See Morel, D.W., 495 man, A.M., and Pusztai, A. Effect of Jones, P.J.H.: See Cha, M.C., 650 Linder, M.C.: See Wooten, L., 632 proteolytic modification and methionine Lionetti, L., Iossa, S., Brand, M.D., and enrichment on the nutritional value of Kamara, K.: See Moshirfar, A., 567 Liverini, G. The mechanism of stimula- soya albumins for rats, 481 Kanamori, H.: See Sugiyama, K., 40 tion of respiration in isolated hepato- Hara, H., Suzuki, K., Kobayashi, S., and Kasai, T.: See Hara, H., 549 cytes from rats fed an energy-dense diet, Kasai, T. Fermentable property of dietary Kasai, T.: See Ogo, Y., 77 571 fiber may not determine cecal and colonic Kato, N.: See Kayashita, J., 555 Liverini, G.: See Lionetti, L., 571 mucsdal growth in fiber-fed rats, 549 Kayashita, J., Shimaoka, I., Nakajoh, M., Lorenz, A.: See Noack, J., 560 Hasten, D.L.: See Morris, G.S., 617 and Kato, N. Feeding of buckwheat pro- Lukert, B.P.: See Pate, S.K., 524 Hatier, R.: See Bougrine, R., 397 tein extract reduces hepatic triglyceride Lure, M.D.: See Fields, M., 246 Hayashi, T.: See Tsuchiya, H., 237 concentration, adipose tissue weight, and Hegsted, M.: See Morris, G.S., 617 hepatic lipogenesis in rats, 555 MacDonaid, K.: See Barakat, H.A., 586 Hendriks, H.: See Pusztai, A., 677 Kelly, D.: See Morgan, C.J., 339 MacLean, P.: See Barakat, H.A., 586 Hernandez-Triana, M., Kroll, J., Proll, J., Kimura, Y.: See Nagata, Y., 303 Manach, C., Texier, O., Régefat, F., Noack, J., and Petzke, K.J. Benzyl- King, T.P.: See Morgan, C.J., 339 Agullo, G., Demigné, C., and Rémésy, isothiocyanate (BITC) decreases quality Kipp, D.E.: See Pate, S.K., 524 C. Dietary quercetin is recovered in rat of egg white proteins in rats, 322 Kirchgessner, M.: See Eder, K., 190 plasma as conjugated derivatives of Herzog, B., Frey, B., Pogan, K., Stehle, P., Kiriyama, S.: See Ogo, Y., 77 isorhamnetin and quercetin, 375 and Fiirst, P. Invitro peptidase activity of Kleessen, B.: See Noack, J., 560 Mander, A.: See Burdge, G.C., 425 rat mucosa cell fractions against gluta- Klimis-Tavantizis, D.J.: See Taylor, P.N., Mar, M.-H.: See Cheng, W.-L., 457 mine-containing dipeptides, 135 392 Marks, S.L., Rogers, Q.R., and Morris, J.G. Hodgson, J.M., Croft, K.D., Puddey, I.B., Kobayashi, S.: See Hara, H., 549 Quantitative excretion of 3-methylhisti- Mori, T.A., Beilin, L.J. Soybean isofla- Kobayashi, T., Shimizugawa, T., Fuka- dine in urine of cats as a measure of in vonoids and their metabolic products in- mizu, Y., Huang, M.-Z., Watanabe, S., vivo skeletal muscle protein catabolism, hibit in vitro lipoprotein oxidation in se- and Okuyama, H. Assessment of the 60 rum, 664 possible adverse effects of oils enriched Martinez-Torres, C.: See Garcia, M.N., 49 Holmes-McNary, M.Q.: See Chen, W.-L., with n-3 fatty acids in rats; peroxisomal Masson, C.: See Bougrine, R., 397 457 proliferation, mitochondrial dysfunc- Matsui-Yuasa, I.: See Nakatani, T., 386 Howard, T.B., III: See Vinson, J.A., 659 tions and apoplexy, 542 McCormick, D.B.: See Zempleni, J., 518 Hrboticky, N., Zimmer, B., and Weber, Kok, W.: See Pusztai, A., 677 McFadyen, M.C.: See Morgan, C.J., 339 P.C. a-Linolenic acid reduces the lovas- Koninkx, J.: See Pusztai, A., 677 McGuire, S.O.: See Fritsche, K.L., 623 tatin-induced rise in arachidonic acid Koo, S.I.: See Yang, L., 214 McMartin, K.E.: See Morshed, K.M., 276 and elevates cellular and lipoprotein Kroll, J.: See Hernandez-Triana, M., 322 Meckling-Gill, K.A.: See Nagy, L.E., 356 eicosapentaenoic and docosahexaenoic Kubow, S. The influence of positional dis- Melis, M.P.: See Banni, S., 150 acid levels in Hep G2 cells, 465 tribution of fatty acids in native, interes- Mock, D.M.: See Zempleni, J., 518 Hu, M.-L.: See Chang, T.-Y., 408 terified and structure-specific lipids on Molina, P.E., Fan, J., Boxer, R., Gelato, Huang, M.-Z.: See Kobayashi, T., 542 lipoprotein metabolism and atherogen- M.C., Lang, C.H., and Abumrad, N.N. Hulscher, S.: See Pusztai, A., 677 esis, 530 Modulation of insulin-like growth fac- Huneau, J.-F.: See Mordrelle, A., 431 Kumaravelu, P., Subramaniyam, S., Dak- tor-I: a specific role for vitamin B1 (thia- shinamoorthy, D.P., and Devaraj, N.S. mine), 207 Imaizumi, K.: See Sato, M., 381 The antioxidant effect of eugenol on Mordrelle, A., Huneau, J.-F., Cormet, E., Iossa, S.: See Lionetti, L., 571 CC14-induced erythrocyte damage in and Tomé, D.: Involvement of system A rats, 23 in proline transport in the intestinal Jackson, A.A.: See Langley-Evans, S.C., Kuo, C.-F.: See Burgess, J.R., 366 crypt-like cell line IEC-17, 431 173 Kurowska, E.M. and Carroll, K.K. LDL Morel, D.W. and Lin, C.Y. Cellular bio- Jansen, G.R. Effect of A??-58-tauro- versus apolipoprotein B responses to chemistry of oxysterols derived from the cholenic acid and dietary fat on hepatic variable proportions of selected amino diet or oxidation in vivo, 495 cholesterol and fatty acid in hyperglyce- acids in semipurified diets fed to rabbits Morgan, C.J., Coutts, A.G.P., McFadyen, mic-obese mice, 106 and in the media of HepG2 cells, 418 M.C., King, T.P., and Kelly, D. Charac- Jayachandran, M., Jayanthi, B., Sundara- terization of IGF-I receptors in the vadivel, B., and Panneerselvam, C. Sta- Lairon, D.: See Pasquier, B., 293 procine small intestine during postnatal tus of lipids, lipid peroxidation, and an- Lancey, R.W.: See Wooten, L., 632 development, 339 tioxidant systems with Vitamin C supple- Lang, C.H.: See Molina, P.E., 207 Mori, T.A.: See Hodgson, J.M., 664 mentation during aging in rats, 270 Langley-Evans, S.C., Phillips, G.J., Gard- Morris, G.S., Hasten, D.L., Hegsted, M., Jayanthi, B.: See Jayachandran, M., 270 ner, D.S., and Jackson, A.A. Role of glu- and Guidry, K.L. Chromium picolinate Jeffery, N.M., Yaqoob, P., Wiggins, D., cocorticoids in programming of maternal supplementation improves cardiac me- Gibbons, G.F., Newsholme, E.A., and diet-induced hypertension in the rat, 173 tabolism, but not myosin isoenzyme dis- Calder, P.C. Characterization of lipopro- Larsson, K.: See Fex, G.A., 162 tribution in the diabetic heart, 617 692 J. Nutr. Biochem., 1996, vol. 7, December Author Index Morris, J.G.: See Marks, S.L., 60 offspring are influenced by maternal vi- Samman, S.: See Naghii, M.R., 507 Morshed, K.M. and McMartin, K.E. In tamin C intake during pregnancy, 524 Sato, M., Nagao, K., Sakono, M., Ogawa, vitro characterization of renal reabsorption Patterson, H.H.: See Taylor, P.N., 392 H., Yamamoto, K., and Imaizumi, K. and secretion of folate using primary cul- Petrie, L., Buskin, J.N., and Chesters, J.K. Low protein diets posttranscriptionally tures of human kidney cells, 276 Zinc and the initiation of myoblast dif- repress apolipoprotein B expression in Moshirfar, A., Kamara, K., and Caston- ferentiation, 670 rat liver, 381 guay, T.W. Intragastrically administered Petzke, K.J.: See Hernandez-Triana, M., Schulze, R.A.: See Wooten, L., 632 tryptophan blocks gluconeogenesis in 322 Scott, K.C. and Gregory, J.F., III. The fate 48-hr starved rats, 567 Peumans, W.J.: See Pusztai, A., 677 of H]folic acid in folate-adequate rats, Murase, M.: See Nagata, Y., 303 Phillips, G.J.: See Langley-Evans, S.C., 173 261 Pieroni, G.: See Pasquier, B., 293 Selhub, J.: See Choi, S.-W., 513 Nagao, K.: See Sato, M., 381 Pintor, A.: See Salvati, S., 113 Shane, B.: See Choi, S.-W., 513 Nagata, Y., Murase, M., Kimura, Y., and Pogan, K.: See Herzog, B., 135 Shimaoka, I.: See Kayashita, J., 555 Ebihara, K. Effect of guar gum on glu- Pories, W.J.: See Barakat, H.A., 586 Shimizugawa, T.: See Kobayashi, T., 542 cose metabolism in cecectomized rats, Postle, A.D.: See Burdge, G.C., 425 Sidransky, H. and Verney, E. Influence of 303 Proll, J.: See Hernandez-Triana, M., 322 L-alanine on effects induced by L- Naghii, M.R. and Samman, S. The effect of Puddey, I.B.: See Hodgson, J.M., 664 tryptophan on rat liver, 200 boron supplementation on the distribu- Puigserver, A.J.: See Carreira, S.M., 230 Smith, C.M. and Song, W.O. Comparative tion of boron in selected tissues and on Pusztai, A., Koninkx, J., Hendriks, H., nutrition of pantothenic acid, 312 testosterone synthesis in rats, 507 Kok, W., Hulscher, S., Van Damme, Song, W. O.: See Chen, M.-C., 451 Nagy, L.E., Atkinson, T.G., and Meckling- E.J.M., Peumans, W.J., Grant, G., and Song, W.O.: See Smith, C.M., 312 Gill, K.A. Feeding docosahexaenoic Bardocz, S. Effect jof the insecticidal Song, Y.: See Chen, M.-C., 451 acid impairs hormonal control of glucose Galanthus nivalis agglutinin on metabo- Stehle, P.: See Herzog, B., 135 transport in rat adipocytes, 356 lism and the activities of brush border Stratton, S.L.: See Zempleni, J., 518 Nakajoh, M.: See Kayashita, J., 555 enzymes in the rat small intestine, 677 Suarez, A., Faus, M.-J., and Gil, A. Dietary Nakatani, T., Ohtani, K., Yano, Y., Otani, Pusztai, A.: See Hajés, G., 481 supplementation with long-chain poly- S., and Matsui-Yuasa, I. The require- unsaturated fatty acids increases suscep- ment of Zn?* for Newman, A.M.: See Ramirez, J.: See Garcia, M.N., 49 tibility of weanling rat tissue lipids to in Hajés, G., 481 Régérat, F.: See Manach, C., 375 vitro lipid peroxidation, 252 Newsholme, E.A.: See Jeffery, N.M., 282 Rémésy, C.: See Manach, C., 375 Subramaniyam, S.: See Kumaravelu, P., 23 Nex, E.: See Bougrine, R., 397 Rémésy, C.: See Younes, H., 474 Sugiyama, K., Kanamori, H., Akachi, T., Nicolas, J.-P.: See Bougrine, R., 397 Reeves, P.G. Copper status of adult male and Yamakawa, A. Amino acid compo- Nilsson, A.: See Xu, N., 16 rats is not affected by feeding an AIN- sition of dietary proteins affects plasma Nilsson-Ehle, I.: See Fex, G.A., 162 93G-based diet containing high concen- cholesterol concentration through alter- Noack, J., Kleessen, B., Lorenz, A., and trations of zinc, 166 ation of hepatic phospholipid metabo- Blaut, M. The effect of alimentary poly- Reeves, P.G. and Rossow, K.L. Zinc-and/ lism in rats fed a cholesterol-free diet, 40 amine depletion on germ-free and con- or cadmium-induced intestinal metallo- Sumathi, R., Baskaran, G., and Varalak- ventional rats, 560 thionein and copper metabolism in adult shmi, P. Effect of DL a-lipoic acid on Noack, J.: See Hernandez-Triana, M., 322 rats, 128 tissue redox state in acute cadminum- Rogers, Q.R.: See Marks, S.L., 60 challenged tissues, 85 Odriozola, J.M.: See Garrido, G., 348 Roodenburg, A.J.C., West, C.E., and Bey- Sundarvadivel, B.: See Jayachandran, M., Ogawa, H.: See Sato, M., 381 nen, A.C. Vitamin A status affects the 270 Ogo, Y., Kasai, T., and Kiriyama, S. Vita- efficacy of iron repletion in rats with Suzuki, K.: See Hara, H., 549 min E prevents the elevation of thiobar- mild iron deficiency, 99 Swain, L.: See Rule, D.C., 577 bituric acid-reactive substances but not Rossow, K.L.: See Reeves, P.G., 128 hemolytic anemia in rats fed excess me- Ruiz, E.: See Gilabert, E.R., 403 Tamura, T., Goldenberg, R.L., Johnston, thionine, 77 Rule, D.C., Andersen, M.K., Bailey, J.W., K.E., Freeberg, L.E., DuBard, M.B., and Ohtani, K.: See Nakatani, T., 386 Swain, L., Ficek, S.J., and Thomas, D.P. Thomas, E.A. In vitro zinc stimulation Okuyama, H.: See Kobayashi, T., 542 Frozen storage of ovine and rat tissues of angiotensin-converting enzyme ac- Omaye, S.T.: See Wei, Y., 179 adversely affects lipoprotein lipase ac- tivities in human plasma, 55 Ong, D.E.: See Wardlaw, S.A., 222 tivity, 577 Taylor, P.N., Patterson, H.H., and Klimis- Orfanos, C.E.: See Wu, S., 642 Rule, D.C., Liebman, M., and Liang, Y.B. Tavantzis, D.J. Manganese deficiency Ortega, E.: See Gilabert, E.R., 403 Impact of different dietary fatty acids on alters high-density lipoprotein subclass Osorio, C.: See Gilabert, E.R., 403 plasma and liver lipids is influenced by structure in the Sprague-Dawley rat, 392 Ota, R.B.: See Wei, Y., 179 dietary cholesterol in rats, 142 Tebbe, B.: See Wu, S., 642 Otani, S.: See Nakatani, T., 386 Rule, D.C.: See Andersen, M.K., 610 Texier, O.: See Manach, C., 375 the increase in ornithine decarboxylase in- Panneerselvam, C.: See Jayachandran, M., Sakhri, M.: See Hajés, G., 481 duced by insulin and epidermal growth 270 Sakono, M.: See Sato, M., 381 factor in primary cultured rat hepato- Pasquier, B., Armand, M., Guillon, F., Salvati, S., Attorri, L., Di Felice, M., Cam- cytes, 386 Castelain, C., Borel, P., Barry, J.-L., peggi, L.M., Pintor, A., Tiburzi, F., and Thomas, D.P.: See Rule, D.C., 577 Pieroni, G., and Lairon, D. Viscous Tomassi, G. Effect of dietary oils on Thomas, E.A.: See Tamura, T., 55 soluble dietary fibers alter emulsification brain enzymatic activites (2'-3’-cyclic Tiburzi, F.: See Salvati, S., 113 and lipolysis of triacylglycerols in duo- nucleotide 3’-phosphodiesterase and Todoriki, H.: See Tsuchiya, H., 237 denal medium in vitro, 293 acetylcholinesterase) and muscarinic re- Tomasi, A.: See Virgili, F., 156 Pate, S.K., Lukert, B.P., and Kipp, D.E. ceptor sites in growing rats, 113 Tomassi, G.: See Salvati, S., 113 Tissue vitamin C levels of guinea pig Samman, S.: See Cook, N.C., 66 Tomé, D.: See Mordrelle, A., 431 J. Nutr. Biochem., 1996, vol. 7, December 693 Author Index Tropper, E.: See Garcia, M.N., 49 Watanabe, S.: See Kobayashi, T., 542 blood forming tissues: An experimental Tsuchiya, H., Yamada, K., Todoriki, H., Weber, P.C.: See Hrboticky, N., 465 study in the rat, 16 and Hayashi, T. Urinary excretion of tet- Wei, Y., Ota, R.B., Bowen, H.T., and rahydro-B-carbolines influenced by food Omaye, S.T. Determination of human Yamada, K.: See Tsuchiya, H., 237 and beverage ingestion implies their ex- plasma and leukocyte ascorbic acid by Yamakawa, A.: See Sugiyama, K., 40 ogenous supply via dietary sources, 237 microtiter plate assay, 179 Yamamoto, K.: See Sato, M., 381 Werman, M.J. and Bhathena, S.J. Effects Yang, F.L. and DiSilvestro, R.A. Effects of of changes in dietary energy density and dietary zinc restriction on bismuth in- Vadlamudi, S.: See Barakat, H.A., 586 the amount of fructose on indices of cop- duction of rat kidney metallothionein, Van Damme, E.J.M.: See Pusztai, A., 677 per status and metabolic parameters in 196 Vanderpool, R.A.: See Buckley, W.T., 488 male rats, 118 Yang, L., Koo, S.I., and Jeon, I.J. The lym- Vannini, V.: See Virgili, F., 156 Werman, M.J. and David, R. Lysyl oxidase phatic absorption of fatty acids and out- Varalakshmi, P.: See Sumathi, R., 85 activity, collagen cross-links and con- put of phospholipids are lowered by es- Verney, E.: See Sidransky, H., 200 nective tissue ultrastructure in the heart trogen replacement in ovariectomized Vianna de Oliveira, I.M. and Fujimori, E. of copper-deficient male rats, 437 rats, 214 Liver gamma-glutamyltranspeptidase West, C.E.: See Roodenburg, A.J.C., 99 Yano, Y.: See Nakatani, T., 386 activity and glutathione levels in lactat- Wiggins, D.: See Jeffery, N.M., 282 Yaqoob, P.: See Jeffery, N.M., 282 ing rats and pups: Effect of dietary pro- Wilken, C.: See Andersen, M.K., 610 Younes, H., Demigné, C., Behr, S.R., Gar- tein quantity and feed intake, 93 Wiseman, H. Dietary influences on mem- leb, K.A., and Rémésy, C. A blend of Vinson, J.A. and Howard, T.B., III Inhibi- brane function: Improtance in protection dietary fibers increases urea disposal in tion of protein glycation and advanced against oxidative damage and disease, 2 the large intestine and lowers urinary ni- glycation end products by ascorbic acid Wooten, L., Schulze, R.A., Lancey, R.W., trogen excretion in rats fed a low protein and other vitamins and nutrients, 659 Lietzow, M., and Linder, M.C. Cerulo- diet, 474 Virgili, F., Battistini, N., Canali, R., Van- plasmin is found in milk and amniotic nini, V., and Tomasi, A. High glucose- fluid and may have a nutritional role, Zeisel, S. H.: See Cheng, W.-L., 457 induced membrane lipid peroxidation on 632 Zempleni, J., McCormick, D.B., Stratton, intact erythrocytes and on isolated eryth- Wu, S., Geilen, C., Tebbe, B., and Orfanos, S.L., and Mock, D.M. Lipoic acid (thioc- rocyte membrane (ghosts), 156 CE. 1a,25-Dihydroxyvitamin D,; its role tic acid) analogs, wyptophan analogs, for homeostasis of keratinocytes, 642 and urea do not interfere with the assay Wardlaw, S.A. and Ong, D.E. Character- of biotin and biotin metabolites by high- ization of the microsomal and partially Xu, N. and Nilsson, A. Uptake and inter- performance liquid chromatography/ purified retinal reductase of rat small in- conversion of plasma unesterified '*C avidin-binding assay, 518 testine, 222 linoleic acid by gastrointestinal tract and Zimmer, B.: See Hrboticky, N., 465 694 J. Nutr. Biochem., 1996, vol. 7, December subject Index A reductase inhibitor, 465 Chromium picolinate, 617 Fat, 555 Absorption, 128, 166 Chylomicron, 530 Fatty acid deposition, 650 AChE activity, 113 Cigarette smoking, 29 Fatty acid oxidation, 348 Adipose tissue, 190, 577 CNPase activity, 113 Fatty acid synthesis, 348 Adipose, 650 CoA growth, 451 Fatty acids, 142, 214, 530 Adiposetissue, 610 Cobalamin, 397 Feline, 60 Adrenalectomy, 567 Collagen, 437 Fetal alcohol syndrome, 425 Advanced glycation end products, 659 Colon adenocarcinoma, 397 Fetal development, 524 African Americans, 55 Colon cancer, 513 Fibers, 293 Aging, 270 Conjugated diene fatty acids, 150 5-FU, 513 Albumin, 375 Connective tissue, 437 Fish oil, 282, 356, 542, 623 a-linolenic acid, 465 Conventional rat, 560 Flavonoids, 66 Amino acids, 166 Copper deficiency, 118, 437 Fluorescence polarization, 392 Amniotic fluid, 632 Copper, 128, 166, 246, 632 Fluorescence quenching, 392 Angiotensin-converting enzyme, 55 Corn oil, 246 Folate binding protein, 276 Animal nutrition, 312 Coronary heart disease, 66 Folate excretion, 276 Antioxidant defense, 252 Corticosterone, 207 Folate transport, 276 Antioxidants, 23, 85, 179, 270, 664 CRBP II, 222 Folate, 261 Antioxidizing enzymes, 85 CRBP, 222 Food restriction, 93 Apoplexy, 542 Cross-links, 437 Food, 237 Apoprotein B, 418 Cysteine, 49 Force-feeding, 190 Apoprotein mRNA, 381 Cytochrome c oxidase, 542 Frozen, 577 Apoptosis, 642 Fructose, 118, 246 Arachidonic acid, 16, 465 Deoxyuridine suppression test, 513 FSH, 403 Ascorbate, 29 Development, 451 Ascorbic acid, 179, 270, 659 Diabetes, 356, 586, 617 Gamma-tocopherol, 29 Atherosclerosis, 495, 530, 586 Diet, 66, 530, 560 Gene expression, 230 Avidin-binding assay, 518 Dietary amino acid, 418 Germ-free rat, 560 Dietary antioxidants, 2 Gestation, 327 B-adrenergic receptor, 356 Dietary fat, 650 Glucocorticoids, 173, 567 Basolateral membrane, 135 Dietary fiber, 474, 549 Gluconeogenesis, 567 Beef tallow, 246 Dietary lipids, 282 Glucose absorption, 445 Beverage, 237 Dietary membrane-modulators, 2 Glucose autoxidation, 156 Bile acids, 106 Dietary polyunsaturated fatty acids, 113 Glucose, 303 Biotin, 518 Dietary proteins, 40, 322, 474 Glucosinolates, 322 Bioutilization, 322 Dietary sources, 237 Glutamine, 135 Bismuth, 196 Dietary zinc deficiency, 403 Glycation, 659 Black beans, 445 Diethylenetriamine penta-acetic acid, 386 Glycerophosphate acyltransferase, 610 Bone marrow, 16 Differentiation, 431, 670 Glycerophosphocholine, 451 Boron, 507 Digestion, 677 GNA, 677 Bound water, 599 Dipeptide, 135 Gonadotrophin hormones, 507 Bovine, 488 Direct reacting copper, 488 GPT, 408 Brain, 252 Disaccharidases, 445 Growth hormone, 207 Buckwheat, 555 DL a-lipoic acid, 85 Growth, 207 Docosahexaenoic acid, 356, 425 Guar gum, 293, 303 Caco-2, 513 Guinea pig, 425, 524 Cadmium chloride, 85 Emulsion, 293 Gum arabic, 293 Cadmium, 128 Endurance exercise, 348 Gut maturation, 677 Cancer, 2, 495 Energy restriction, 650 Cardiac contractility, 617 Energy, 118 [*H]deoxyuridine incorporation into DNA, Cardiac metabolism, 617 Energy-dense diet, 571 513 Cardiovascular disease, 2 Enzymatic modification, 481 HDL, 586 Carotenes, 29 Epidermal growth factor, 386 HDL1, 392 Cats, 60 Epithelial cell line, 431 HDL2, 392 CC14, 23 Erythrocyte membrane oxidation, 156 Heart, 437, 577, 650 Cecetomy, 303 Erythrocytes, 23, 77, 156 Heme iron, 49 Cell membrane, 495 Estradiol, 214 Hemolytic anemia, 77 Cellular glutathione peroxidase, 333 Ethanol, 425 Hep G2 cells, 465 Ceruloplasmin, 632 Ethanolamine, 40 Hepatocytes, 386, 571 Chemical structure, 66 Eugenol, 23 HepG2 cells, 418 Cholesterol metabolism, 495 Exchangeable copper, 488 High fat diets, 356 Cholesterol, 106, 142, 214, 530 Expression of apoprotein gene, 381 High-performance liquid chromatography, Choline, 451 Extracellular glutathione peroxidase, 333 518 Nutritional Biochemistry 7:695-697, 1996 © Elsevier Science Inc. 1996 0955-2863/96/$15.00 655 Avenue of the Americas, New York, NY 10010 PII S0955-2863(96)00167-2 Subject Index HPLC, 150 Meat protein, 49 Plasma cholesterol, 40 HT 29 cell line, 397 Metabolism, 66, 261, 375 Plasma GOT, 408 Humans, 49, 55, 488 Metallothionein, 128, 196 Plasma, 55, 142 Hypertension, 173 Methionine enrichment, 481 Platelet aggregation, 66 Methionine toxicity, 77 Polyamine, 560 IGF binding proteins, 207 Methionine, 40 Positional distribution, 530 IGF-I, 207, 339 Methotrexate, 513 Pregnancy, 55, 425, 524 Immune cells, 623 Mice, 106 Proline, 431 Immunity, 327 Microtiter, 179 Protein deficiency, 93 In vitro stimulation, 55 Microvillar, 339 Protein quality, 322 Infant formula, 451 Milk, 150, 451, 632 Protein synthesis, 200 Inflammation, 162, 623 mRNA, 230 Protein, 555 Insulin resistance, 586 Mucosa, 135, 549 Protein-calorie malnutrition, 93 Insulin, 207, 356, 386 Muscarinic receptors, 113 Protein-free diet, 230 Intestinal microflora, 560 Muscle degradation, 60 Protein-rich diet, 230 Intestine, 128, 339 Muscle, 610 Intrauterine programming, 173 Myoblasts, 670 Quecetin, 375 Intubation, 451 MyoD, 670 Rabbits, 418 Iron absorption, 49 Myogenin, 670 Rat brain, 113 Iron deficiency, 99 Myosin, 617 Rats, 77, 99, 128, 142, 166, 173, 190, 196, Iron metabolism, 99 207, 261, 327, 333, 375, 451, 474, 507, Iron repletion, 99 Neonatal, 339 542, 549, 555, 577, 623, 650 Isoflavonoids, 664 Newborns, 327 Receptor mediated endocytosis, 397 Isorhamnetin, 375 Nitrogen excretion, 474 Receptors, 339 Isothiocyanates, 322 Non-ceruloplasmin Cu, 488 Reductase, 222 Nuclear binding, 200 Renal cell culture, 276 Keratinocyte, 642 Nutrient deficiency, 683 Retinaldehyde, 222 Kidney, 128, 196 Nutrient status, 166 Retinoic acid, 162 Nutrients, 659 Retinol, 162, 222 Lactation, 93 Nutritional value, 481 L-alanine, 200 Second derivative UV spectrophotometry, Lambs, 150 Obesity, 106 150 Large intestine, 549 Ornithine decarboxylase, 386 Secretory trypsin inhibitor, 230 LDL, 586 Ovine, 577, 610 Selenium, 333, 366 Lectin content, 481 Oxidation, 66 Selenoprotein P, 333 Leukocyte, 179 Oxidative membrane damage, 2 Seminiferous tubule, 403 LH, 403 Oxidized low density-lipoprotein, 29 Short-chain fatty acid, 303 Linoleic acid, 16, 106, 214 Oxygen consumption, 571 Signal transduction, 642 Lipid peroxidation, 23, 29, 85, 252, 270, 408 Oxysterols, 495 Skeletal muscle, 348 Lipids, 142 Small intestine, 16 Lipogenesis, 555 Pancreas, 230 Soya albumin, 481 Lipogenic enzymes, 190 Pancreatic lipase, 293 Soybeans, 664 Lipoic acid, 518 Pantothenic acid, 312, 451 Spleen, 16 Lipoprotein lipase, 577, 610 Para-aminobenzoic acid, 408 Stable isotope dilution analysis, 488 Lipoprotein oxidation, 664 Pectin, 293 Starch, 246 Lipoproteins, 282, 465, 586 PEP, 567 Stomach, 16 Liver gamma-glutamyltranspeptidase, 93 PEPCK, 567 Superoxide dismutase, 118 Liver glutahione, 93 Peptidase, 135 System A, 431 Liver, 128, 142, 190, 252, 333, 348, 610, 650 Perilla oil, 542 Long-chain polyunsaturated fatty acids, 252 Perinatal nutrition, 632 Tannins, 445 Low density lipoprotein, 66 Peroxisomes, 542 Taurocholenic acid, 106 Low protein dict, 381 PHA/phytohaemagglutinin, 677 Terminal differentiation, 642 Low-density lipoprotein particles, 2 Phaseolus vulgaris, 445 Testis, 333 L-tryptophan, 200 Phosphatidylcholine, 451 Testosterone, 403, 507 Lung, 366 Phosphatidylethanolamine N-methylation, ' Tetrahydro-B-carbolines, 237 Lymphatic absorption, 214 40 Thiamine deficinecy, 207 Lymphocyte proliferation, 282 Phosphocholine, 451 3-hydroxy-3-methyl coenzyme, 465 Lysine, 322 Phospholipase A2, 366 3-methylhistidine, 60 Lysyl oxidase, 437 Phospholipid bilayer surfaces, 599 Thymidylate synthesis, 513 Phospholipid headgroup interactions, 599 Tissue content, 408 Magnesium deficiency, 327 Phospholipid hydration, 599 Tisue concentrations, 507 Male rat, 118 Phospholipid hydroperoxide glutathione Top-down elasticity analysis, 571 Male rats, 403 peroxidase, 333 Toxicity, 408 Malnutrition, 683 Phospholipid metabolism, 40 Transfatty acids, 150 Malondialdehyde, 366 Phospholipid, 214 Transcovabalamin, 397 Manganese, 392 Phospholipids, 425 Transgenic plants, 677 Maternal diet, 173 Phosphorylation, 339 Transport, 431 696 J. Nutr. Biochem., 1996, vol. 7, December Subject Index Triacylglycerol, 530 Viatmin E, 366 Vitamin E, 623 Triglycerides, 293 Viral infection, 683 Vitamins, 659 Trypsin inhibitor activity, 481 Virus, 683 VLDL, 586 Trypsin, 230 Vitamin A deficiency, 99 Tryptophan, 518, 567 Vitamin A, 222 w3 fatty acids, 465 Vitamin B 12, 397 Weanling rats, 252 Ultratrace elements, 166 Vitamin C, 179, 524 Urea, 474, 518 Vitamin D3, 642 Zinc deficiency, 190, 327 Urinary excretion, 237 Vitamin E supplementation, 77 Zinc, 55, 128, 166, 196, 386, 670 J. Nutr. Biochem., 1996, vol. 7, December 697

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