Verfügbarkeit: Metallomics and the cell

Metallomics and the cell:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Dordrecht [u.a.] Springer 2013
Schriftenreihe:	Metal ions in life sciences 12
Schlagworte:	Metallion Zelle Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXXVI, 609 S. Ill., graph. Darst.
ISBN:	9789400755604

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MARC


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Datensatz im Suchindex

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adam_text	Contents Dedication to Ivano Bertini ............................................................................ v ffistorical Development and Perspectives of the Series ............................... vii Preface to Volume 12....................................................................................... ix Contributors to Volume 12............................................................................. xvii Titles of Volumes 1-44 in the Metal Ions in Biological Systems Series ......................................................... xxi Contents of Volumes in the Metal Ions in Life Sciences Series .................... xxiii 1 Metall omics and the Cell: Some Definitions and General Comments ............................................ 1 Lucia Banci and Ivano Bertini Abstract ..................................................................................................... 1 1 Introduction ......................................................................................... 2 2 Thermies Perspective .................................................................... 3 3 The Cellular Perspective .................................................................. 6 4 Towards Systems Biology ................................................................... 7 5 Concluding Remarks ........................................................................... 9 References ................................................................................................. 10 2 Technologies for Detecting Metals in Single Cells ................................ 15 James E. Penner-Hahn Abstract ..................................................................................................... 16 1 Introduction and Scope ....................................................................... 16 2 Mass Spectrometry .............................................................................. 18 ш Contents 3 Visible Light ........................................................................................ 24 4 Intrinsic X- Ray Fluorescence ............................................................. 29 5 Concluding Remarks ала Future Directions ....................................... 37 References ................................................................................................. 38 3 Sodium/Potassium Homeostasis in the Cell .......................................... 41 Michael Jakob Voldsgaard Clausen and Hanne Poulsen Abstract ..................................................................................................... 42 1 Introduction ......................................................................................... 42 2 Sodium and Potassium as Enzymatic Cofactors ................................. 43 3 The Membrane Potential ..................................................................... 47 4 Na+ and K+ Gradients and Secondary Transporters ............................ 50 5 Homeostasis of the Na+ and Kł Gradients by the Na+,K4-ATPase ...... 55 6 Pathophysiology of Na+,Kľ-ATPase Disturbance ............................... 62 7 Concluding Remarks and Future Directions ....................................... 63 References ................................................................................................. 64 4 Magnesium Homeostasis in Mammalian Cells ..................................... 69 Andrea M.P. Romani Abstract ..................................................................................................... 70 1 Introduction ......................................................................................... 70 2 Cellular Mg2+Distribution .................................................................. 71 3 Mg2+Transport Mechanisms ............................................................... 72 4 Regulation of Mg2+ Transport and Homeostasis ................................. 92 5 Serum Mg2+Level and Mg2ł -Sensing Mechanism .............................. 100 6 Physiological Role of Intracellular Mg2+ ............................................ 103 7 Conclusions ......................................................................................... 108 References ................................................................................................. Ill 5 Intracellular Calcium Homeostasis and Signaling ............................... 119 Maxisa Brini, Tito Cali, Denis Ottolim, and Ernesto Caxafoli Abstract ..................................................................................................... 120 1 Introduction ......................................................................................... 120 2 Distinctive Properties of theCa2* Signal ............................................. 123 3 The Ambivalent Nature of the Ca2+Signal .......................................... 125 4 Regulation of the Ca2+ Signal by Ca2+ Buffering and Ca2+Sensor Proteins ..................................................................... 127 5 Regulation of the Ca2+Signal by Membrane Transport Systems ........ 133 6 Intracellulax Organelies ....................................................................... 149 7 Physiology of the Ca2+ Signal: A Selection of Cellular Processes Controlled by Ca2+ .............................................................. 155 8 Concluding Remarks ........................................................................... 160 References ................................................................................................. 162 Contents хні 6 Manganese Homeostasis and Transport............................................... 169 Jerome Roth, Silvia Ponzoni, and Michael Aschner Abstract ..................................................................................................... 170 1 Introduction......................................................................................... 170 2 Manganese Transport.......................................................................... 171 3 Manganese: Toxic Mechanisms .......................................................... 180 4 Manganese and Genetics ..................................................................... 189 5 Concluding Remarks ........................................................................... 192 References ................................................................................................. 194 7 Control of Iron Metabolism in Bacteria ............................................... 203 Simon Andrews, Ian Norton, Arvindkumai S. Salunkhe, Helen Goodluck, Wafaa S.M. Aly, Hanna Mourad-Agba, and Pierre Cornells Abstract ..................................................................................................... 204 1 Introduction ......................................................................................... 204 2 Life Is Wedded to Iron - For Better or for Worse ............................... 205 3 Iron Uptake ......................................................................................... 206 4 Iron Storage, and Detoxification .......................................................... 218 5 Global Iron Regulation ....................................................................... 220 6 Iron Replacement ................................................................................ 227 7 Iron and Pathogenicity ........................................................................ 228 8 Final Remarks ..................................................................................... 230 References ................................................................................................. 232 8 The Iron Metallome in Eukaryotic Organisms .................................... 241 Adrienné С. Dlouhý and Caryn E. Outten Abstract ..................................................................................................... 242 1 Introduction ......................................................................................... 242 2 Physicochemical Properties of the Iron Metallome ............................ 243 3 Iron Metalloproteins ............................................................................ 249 4 Iron Uptake, Trafficking, and Storage ................................................. 258 5 Regulation of the Iron Metallome ....................................................... 264 6 Concluding Remarks and Future Directions ....................................... 272 References ................................................................................................. 274 9 Heme Uptake and Metabolism in Bacteria ........................................... 279 David R. Benson and Mario Rivera Abstract ..................................................................................................... 280 1 Introduction ......................................................................................... 280 2 Heme Biosynthesis .............................................................................. 281 3 Heme Acquisition ................................................................................ 284 4 Heme in the Cytoplasm ....................................................................... 312 5 Conclusions and Outlook .................................................................... 323 References ................................................................................................. 325 xiv Contents 10 Cobalt and Corrinoid Transport ала Biochemistry ............................ 333 Valentin Cracan and Ruma Banerjee Abstract ..................................................................................................... 334 1 Introduction ......................................................................................... 334 2 Cobalt and Cobalamin Transport ........................................................ 334 3 Non-Cornn Cobalt Enzymes ............................................................... 343 4 Coenzyme B^-Dependent Isomerases ................................................ 351 5 G-Protein Chaperones for Coenzyme B^-Dependent Isomerases ...... 358 6 Concluding Remarks ........................................................................... 366 References ................................................................................................. 368 11 Nickel Metallomics: General Themes Guiding Nickel Homeostasis ..................................... 375 Andrew M. Sydor and Deborah B. Zambie Abstract ..................................................................................................... 376 1 Introduction ......................................................................................... 376 2 Nickel Transport .................................................................................. 378 3 Nickel Enzymes: Structure and Assembly .......................................... 382 4 N ickel Storage Protei ns ....................................................................... 393 5 Nickel-Based Genetic Regulation ....................................................... 394 6 The View From The Top ..................................................................... 401 7 Concluding Remarks ........................................................................... 407 References ................................................................................................. 408 12 The Copper MetalJome in Prokaryotic Cells ........................................ 417 Christopher Rensmg and Sylvia Franke McDevjtt Abstract ..................................................................................................... 418 1 Evolution of Copper Use and Homeostasis in Prokary otes ................ 418 2 Piokaryotic Copper Uptake ................................................................. 420 3 Copper Proteins ................................................................................... 422 4 Copper Resistance Mechanisms ............................................................ 429 5 Copper-Responsive Regulators ........................................................... 435 6 Copper Omics ..................................................................................... 439 7 Concluding Remarks and Future Directions ....................................... 441 References ................................................................................................. 443 13 The Copper Metallome in Eukaryotic Cells ......................................... 451 Katherine E. Vest, Hayaa F. Hashemi, and Paul A. Cobine Abstract ..................................................................................................... 451 1 Overview of Copper Homeostasis in Eukaryotic Cells ...................... 452 2 Copper Homeostasis: Saccharomyces cerevisiae ................................ 453 3 Copper Homeostasis: Mammals ......................................................... 459 Contents xv 4 Copper Homeostasis: Photosynthetic Organisms............................... 467 5 Concluding Remarks and Future Challenges ...................................... 470 References ................................................................................................. 471 14 Zinc and the Zinc Proteome ................................................................... 479 Wolfgang Maret Abstract ..................................................................................................... 480 1 Introduction ......................................................................................... 480 2 Zinc in Biology ................................................................................... 481 3 Zinc Proteins, Zinc Proteomes, and Zinc Proteomics ......................... 482 4 Zinc Sites in Proteins.... ...................................................................... 490 5 Control of Cellular Zinc ...................................................................... 491 6 Concluding Remarks, Present and Future Directions ......................... 495 References ................................................................................................. 498 15 Metabolism of Molybdenum .................................................................. 503 Ralf R. Mendel Abstract ..................................................................................................... 504 1 Introduction ......................................................................................... 504 2 Molybdenum i n Eukaryotes ................................................................ 505 3 Molybdenum Enzymes ....................................................................... 513 4 Molybdenum and Molybdenum Cofactor Deficiencies ...................... 517 5 Molybdenum Metabolism Is Linked to Iron Metabolism ................... 518 6 Molybdenum and Tungsten in Prokaryotes ........................................ 519 7 General Conclusions ........................................................................... 523 References ................................................................................................. 524 16 Comparative Genomics Analysis of the Metallomes ............................ 529 Vadim N. Gladyshev and Yan Zhang Abstract ................................................................................:.................... 530 1 Introduction ......................................................................................... 530 2 General Approaches to Comparative Genomics of Metal Utilization ............................................................................. 532 3 Molybdenum ....................................................................................... 535 4 Copper .................................................................................................. 543 5 Nickel and Cobalt ............................................................................... 553 6 Comparative Genomics of Other Metals ............................................ 565 7 Comparative Genomics of Metal Dependency in Biology ................. 568 8 Concluding Remarks ........................................................................... 572 References ................................................................................................. 574 Index ................................................................................................................. 581
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spelling	Metallomics and the cell Lucia Banci, ed. Dordrecht [u.a.] Springer 2013 XXXVI, 609 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Metal ions in life sciences 12 Metallion (DE-588)4169597-5 gnd rswk-swf Zelle (DE-588)4067537-3 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Metallion (DE-588)4169597-5 s Zelle (DE-588)4067537-3 s DE-604 Banci, Lucia Sonstige oth Erscheint auch als Online-Ausgabe 978-94-007-5561-1 Metal ions in life sciences 12 (DE-604)BV022275400 12 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025884418&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Metallomics and the cell Metal ions in life sciences Metallion (DE-588)4169597-5 gnd Zelle (DE-588)4067537-3 gnd
subject_GND	(DE-588)4169597-5 (DE-588)4067537-3 (DE-588)4143413-4
title	Metallomics and the cell
title_auth	Metallomics and the cell
title_exact_search	Metallomics and the cell
title_full	Metallomics and the cell Lucia Banci, ed.
title_fullStr	Metallomics and the cell Lucia Banci, ed.
title_full_unstemmed	Metallomics and the cell Lucia Banci, ed.
title_short	Metallomics and the cell
title_sort	metallomics and the cell
topic	Metallion (DE-588)4169597-5 gnd Zelle (DE-588)4067537-3 gnd
topic_facet	Metallion Zelle Aufsatzsammlung
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