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Biothiols in health and disease /

MARC Record from marc_columbia

Record ID marc_columbia/Columbia-extract-20221130-009.mrc:52705809:5022
Source marc_columbia
Download Link /show-records/marc_columbia/Columbia-extract-20221130-009.mrc:52705809:5022?format=raw

LEADER: 05022mam a2200493 a 4500
001 4049424
005 20221027024442.0
008 950615t19951995nyua 001 0 eng c
010 $a 95023372
020 $a0824796543 (alk. paper)
035 $a(OCoLC)ocm32821460
035 $9AKZ7764HS
035 $a(NNC)4049424
035 $a4049424
040 $aDNLM/DLC$cDLC$dNLM$dNNC-M$dOrLoB
050 00 $aRB170$b.B57 1995
060 00 $aW1$bAN884 v.2 1995
060 10 $aQU 130$bB6177 1995
082 00 $a612/.01575$220
245 00 $aBiothiols in health and disease /$cedited by Lester Packer, Enrique Cadenas.
260 $aNew York :$bM. Dekker,$c[1995], ©1995.
300 $axvii, 525 pages :$billustrations, portrait ;$c24 cm.
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
490 1 $aAntioxidants in health and disease ;$v2
500 $aIncludes index.
505 00 $tSeries Introduction /$rLester Packer and Jurgen Fuchs --$gI.$tThiols and Thiyl Radicals: Chemical and Biochemical Aspects.$g1.$tReactions of Thiyl Radicals /$rPeter Wardman.$g2.$tThiyl Radicals, Perthiyl Radicals, and Oxidative Reactions /$rChristian Schoneich.$g3.$tAntioxidant Drug Design: A Comparison of Thiol and Perthiol Antiradical and Prooxidant Mechanisms /$rSteven A. Everett.$g4.$tBiothiyls: Free Radical Chemistry and Biological Significance /$rJanice A. DeGray and Ronald P. Mason.$g5.$tPeroxynitrite Reactivity: Free Radical Generation, Thiol Oxidation, and Biological Significance /$rOhara Augusto and Rafael Radi.$g6.$tConcerted Antioxidant Activity of Glutathione and Superoxide Dismutase /$rChristine C. Winterbourn.$g7.$tGlutathione-Dependent Bioactivation of Xenobiotics /$rM. W. Anders, Wolfgang Dekant and Spyridon Vamvakas --$gII.$tThiols and Oxidative Stress.$g8.$tStrategies for Increasing Cellular Glutathione /$rAlton Meister.
505 80 $g9.$tGlutathione Synthesis in Oxidative Stress /$rHenry Jay Forman, Rui-Ming Liu and Michael Ming Shi.$g10.$tSinusoidal Efflux of Hepatic GSH: Significance, Physiology, and Regulation /$rNeil Kaplowitz, Murad Ookhtens and Shelly Chi-Loo Lu.$g11.$tOxidative Stress and Mitochondrial Permeability Transition /$rDonald J. Reed.$g12.$tPhospholipid Hydroperoxide Glutathione Peroxidase: More Than an Antioxidant Enzyme? /$rMatilde Maiorino, Antonella Roveri, Carlo Gregolin and Fulvio Ursini.$g13.$tBiochemical and Clinical Aspects of Extracellular Glutathione and Related Thiols /$rMasayasu Inoue, Yukiko Minamiyama, Hidenori Yu, Seiichi Yamamasu, Keiko Inoue and Eisuke F. Sato.$g14.$tGlutathionyl Specificity of Thioltransferases: Mechanistic and Physiological Implications /$rJohn J. Mieyal, Stephen A. Gravina, Paul A. Mieyal, Usha Srinivasan and David W. Starke --$gIII.$t[alpha]-Lipoic Acid: Enzymology and Antioxidant Properties.
505 80 $g15.$tLipoic Acid-Requiring Proteins: Recent Advances /$rMulchand S. Patel and Nataraj N. Vettakkorumakankav.$g16.$tRole of Lipoic Acid in the Glycine Cleavage System and Lipoylation of H-Protein /$rYutaro Motokawa, Kazuko Fujiwara and Kazuko Okamura-Ikeda.$g17.$t[alpha]-Lipoic Acid and N-Acetylcysteine: New Concepts for Old Drugs /$rAalt Bast and Guido R. M. M. Haenen.$g18.$tInhibition of Xanthine Oxidase by Lipoic Acid /$rSilvia Alvarez and Alberto Boveris.$g19.$tEffects of Thiols on Cigarette Smoke-Induced Biomolecular Damage /$rJason P. Eiserich, Charles A. O'Neill, Carroll E. Cross, Barry Halliwell, Abraham Z. Reznick and Albert van der Vliet.$g20.$tRegulation of Gene Expression by Lipoic Acid /$rYuichiro J. Suzuki, Masashi Mizuno, Heinz Ulrich and Lester Packer.$g21.$tTherapeutic Effects of [alpha]-Lipoic Acid on Diabetic Neuropathy /$rDan Ziegler and F. Arnold Gries.
505 80 $g22.$tAntioxidant Properties and Clinical Implications of [alpha]-Lipoic Acid /$rLester Packer, Eric H. Witt, Hans Jurgen Tritschler, Klaus Wessel and Heinz Ulrich.
650 0 $aAntioxidants.$0http://id.loc.gov/authorities/subjects/sh85005727
650 0 $aThiols$xPhysiological effect.
650 0 $aActive oxygen$xPathophysiology.$0http://id.loc.gov/authorities/subjects/sh2009113511
650 0 $aFree radicals (Chemistry)$xPathophysiology.$0http://id.loc.gov/authorities/subjects/sh2008104080
650 0 $aGlutathione$xPhysiological effect.
650 12 $aSulfhydryl Compounds$xmetabolism.$0https://id.nlm.nih.gov/mesh/D013438Q000378
650 22 $aGlutathione$xmetabolism.$0https://id.nlm.nih.gov/mesh/D005978Q000378
650 22 $aThioctic Acid$xpharmacology.$0https://id.nlm.nih.gov/mesh/D008063Q000494
650 22 $aOxidative Stress$xphysiology.$0https://id.nlm.nih.gov/mesh/D018384Q000502
650 22 $aAntioxidants$xpharmacology.$0https://id.nlm.nih.gov/mesh/D000975Q000494
700 1 $aPacker, Lester.$0http://id.loc.gov/authorities/names/n79058276
700 1 $aCadenas, Enrique.$0http://id.loc.gov/authorities/names/n94802929
830 0 $aAntioxidants in health and disease ;$v2.$0http://id.loc.gov/authorities/names/n88525454
852 00 $boff,hsl$hRB170$i.B57 1995