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Bioenergetics of Protein Transport into Mitochondria: Role of ΔΨ and of Nucleoside Triphosphates

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The Roots of Modern Biochemistry
This chapter is in the book The Roots of Modern Biochemistry

Chapters in this book

  1. I-VI I
  2. Preface VII
  3. Contents IX
  4. 1. Fritz Lipmann (1899-1986)
  5. 1. Fritz Lipmann (1899-1986) 1
  6. Life with Fritz 3
  7. A Long Life in Times of Great Upheaval 9
  8. Fritz Lipmann: In Memoriam 37
  9. Lipmann's Remarkably Fulfilled Life as a Researcher 43
  10. Fritz Lipmann: June 12, 1899 - July 24, 1986 63
  11. Fritz Lipmann Molding the Design of Molecular Bioenergetics 67
  12. Recollections of Fritz Lipmann, 1941-1945 73
  13. In Celebration of the Scientific Genius of Fritz Lipmann 81
  14. Lipmann and "Not Strictly Biochemistry" 85
  15. Communication in Metabolic Control Intuition and Method in Biochemistry: Four Years each with Krebs and Lipmann 95
  16. Fritz Lipmann: Squiggle to Protein Sulfation 105
  17. Fritz Lipmann (1899-1986), Honorary Member of the Leopoldina Academy 109
  18. Dahlem in the Late Nineteen Twenties 111
  19. Our Apprenticeship 125
  20. The Kaiser-Wilhelm-Institutes in Berlin-Dahlem in the Late 1930ies and Early 1940ies: Reminiscences of a Student of Biochemistry 129
  21. On the Origin of the Squiggle (~) 135
  22. 2. Biochemistry Comes of Age
  23. 2. Biochemistry Comes of Age 139
  24. The History of Metabolites Isolated from Urine 141
  25. The Pentose Phosphate Pathway 147
  26. Glycolysis and the Dawn of Modern Biochemistry 157
  27. Energy-Rich Bonds and Enzymatic Peptide Synthesis 165
  28. A Nostalgic View of the TCA Cycle in Bacteria 181
  29. The Role of Vitamins and their Carrier Proteins in Citrate Fermentation 191
  30. Lipmann's Influence on Firefly Luminescence 205
  31. Sulfur in Biomimetic Peptide Syntheses 213
  32. The Function of Teichoic Acids in Walls and Membranes of Bacteria 223
  33. The Amidotransferases: Origins of the Concept of Affinity Labeling of Enzymes 231
  34. Intracellular Protein Degradation: Past, Present and Future 251
  35. Lipmann's Squiggle and the Unification of Cellular Structure and Function 261
  36. The Historical Intermingling of Biochemistry and Cell Biology 285
  37. Regulation of Function of Membrane Proteins by Phosphorylation and Dephosphorylation 295
  38. Molecular Biology of Brain Peptides and their Cognate Receptors 305
  39. The Biological Activity of Tuftsin, Thr-Lys-Pro-Arg 323
  40. Biosynthesis of Linear Gramicidin, Pentadeca Peptide, is Tight Linked to Serine Metabolism and to Membranous Phosphoglyceride 331
  41. From Phosphoenolpyruvate Carboxykinase to Sporulation: Personal Reflections on Dr. F. Lipmann 339
  42. Research on Nonribosomal Systems: Biosynthesis of Peptide Antibiotics 355
  43. Metabolism of Carnosine and Related Peptides 369
  44. 3. Molecular Biology Sharpens its Tools
  45. 3. Molecular Biology Sharpens its Tools 377
  46. DNA Repair in Human Cells: Molecular Cloning of cDNAS Coding for Enzymes Related to Repair 379
  47. Acyl ~ Phosphate Intermediates in Oxidative DNA Sugar Damage by Antibiotics 389
  48. Rts1: A Multiphenotypic, Unusual Temperature Sensitive Drug Resistance Factor 397
  49. The Partial Dependency of Human Prostatic Growth Factor on Steroid Hormones in Stimulating Thymidine Incorporation into DNA 407
  50. Developmentally Regulated Gene Amplification in Rhynchosciara 417
  51. Fritz Lipmann, a Few Personal Memories, and: What Else Came Out of the High-Energy Phosphate Bond? 423
  52. Regulation of Gene Expression by Posttranslational Modification of Transcription Factors 431
  53. How Does the Arginine Repressor Regulate the Synthesis of Arginine Biosynthetic Enzymes? 441
  54. The Biochemistry and Molecular Biology of the Terminal Reactions of Methionine Biosynthesis in Escherichia coli 447
  55. The Wheat Embryo, Then and Now 457
  56. Mechanism of Cytotoxic Action and Structures of Thiadiazolo-pyrimidines 477
  57. Architecture of Ribosomal Particles as Investigated by Image Reconstruction and X-Ray Crystallographic Studies 481
  58. Initiation of Protein Synthesis: Early Participation and Recent Revisit 493
  59. Structure of Ribosomal RNA Genes of Eukaryotes: Some Solved and Unsolved Questions 505
  60. Energetics and Dynamics of the Protein- Synthesizing Machinery 511
  61. Expression 535
  62. Punctuation in the Genetic Code: A Plausible Basis for the Degeneracy of the Code to Initiate Translation 539
  63. Reconstruction of Translation: Role of EF-P in Regulation of Peptide Bond Formation 551
  64. On the Role of Spermine in Protein Synthesis 555
  65. 4. Functional Dynamics
  66. 4.1 The Squiggle - Symbol of Bioenergetics
  67. 4.1 The Squiggle - Symbol of Bioenergetics 565
  68. Energy-Rich Compounds and Work 569
  69. Squiggle Phosphate of Inorganic Pyrophosphate and Polyphosphates 581
  70. Enzymology of 3'-Squiggled Nucleotides 603
  71. Pyridine Nucleotides as Group Transfering Coenzymes 609
  72. The Nature of Squiggle in Oxidative Phosphorylation 625
  73. Motional Dynamics of Fatty Acids: Advantages of 15N and Deuterium Substituted Fatty Acid Spin Labels for Studies of Lipid-Protein Interactions and Motion in Membrane Bilayers 631
  74. Thyroid Hormones and Oxidative Phosphorylation 645
  75. Structure-Activity Relationships of Natural and Synthetic E-β-Methoxyacrylates of the Strobilurin and Oudemansin Series 657
  76. The Intracellular Mechanism of Insulin Action 663
  77. Unity and Diversity in Biological Redox Catalysis: Comparative Enzymology of Some Microbial Oxidoreductases Showing Variation in Cofactor Identity 671
  78. Ammonia-Forming, Dissimilatory Nitrite Reductases as a Homologous Group of Hexaheme C-Type Cytochromes in Metabolically Diverse Bacteria 683
  79. Halorhodopsin 693
  80. Control of Futile Transmembrane Potassium Cycling in Escherichia coli 699
  81. Bioenergetics of Protein Transport into Mitochondria: Role of ΔΨ and of Nucleoside Triphosphates 707
  82. Some Recent Functional and Structural Contributions to the Molecular Mechanism of Photosynthesis 713
  83. Salt Toxicity and Mineral Deficiency in Plants: Cytoplasmic Ion Homeostasis, a Necessity for Growth and Survival under Stress 721
  84. 4.2 Molecular Recognition and Communication
  85. 4.2 Molecular Recognition and Communication 735
  86. Dawn of Ca Research: Regulation of Muscle Contraction 737
  87. Comparative Aspects of the Mechanisms of Energy Transduction in Sarcoplasmic Reticulum between Rabbit and Frog Skeletal Muscle 747
  88. Caltrin: A Versatile Regulator of Calcium Transport in Spermatozoa 759
  89. Protein Kinase C, the Structural Heterogeneity and Differential Expression in Rat Brain 765
  90. Regulation of Erythrocyte Membrane Cytoskeletal Protein Interactions by Phosphorylation 771
  91. A Kinase Splitting Membranal Proteinase: Use in the Study of Receptors Involved in the Cellular Response to Hormones 781
  92. Fritz Lipmann, Phosphoproteins and Regulation of Aromatic Amino Acid Hydroxylase Activity 791
  93. The Regulation of Hepatic Phenylalanine Hydroxylase by Phosphorylation- Dephosphorylation 805
  94. Catabolite Inactivation and Adenylate Cyclase in Yeast 813
  95. Protein Modification by Tyrosine-Sulfation: Possible Functional Implications 817
  96. Proteoglycans and Connective Tissue Pathobiochemistry 827
  97. Acylation of Myelin Proteolipid Protein: A Link to the Past 835
  98. The Unusual Regulation of the Adenylyl cyclase of Amphibian Oocytes by Progesterone - A Review 841
  99. Sterol Synergism, a Tool for Studies on Sterol Function 853
  100. Chemical Modification of Benzodiazepine Receptors of Cortical P2 Membranes 857
  101. Dual Pathways for the Catabolism of γ- Hydroxybutyrate: Cytosolic and Mitochondrial Mechanisms 867
  102. 5. Evolution
  103. 5. Evolution 879
  104. Prebiotic Syntheses and the Mechanism of Early Chemical Evolution 881
  105. Prebiotic Roots of Informed Protein Synthesis: Nature of the Lipmann Connection 895
  106. A Case for an Additional RNA Base Pair in Early Evolution 911
  107. Inorganic Pyrophosphate in Cellular Energetics and Evolution 917
  108. Selforganization in Biosystems 923
  109. List of Contributors 935
  110. Acknowledgements 943
  111. Lipmann's Coworkers at Massachusetts General Hospital, Boston, and the Rockefeller University, New York 945
  112. Fritz Lipmann: Bibliography 1924-1985 949
  113. Index 979
https://doi.org/10.1515/9783110852455.707

Chapters in this book

  1. I-VI I
  2. Preface VII
  3. Contents IX
  4. 1. Fritz Lipmann (1899-1986)
  5. 1. Fritz Lipmann (1899-1986) 1
  6. Life with Fritz 3
  7. A Long Life in Times of Great Upheaval 9
  8. Fritz Lipmann: In Memoriam 37
  9. Lipmann's Remarkably Fulfilled Life as a Researcher 43
  10. Fritz Lipmann: June 12, 1899 - July 24, 1986 63
  11. Fritz Lipmann Molding the Design of Molecular Bioenergetics 67
  12. Recollections of Fritz Lipmann, 1941-1945 73
  13. In Celebration of the Scientific Genius of Fritz Lipmann 81
  14. Lipmann and "Not Strictly Biochemistry" 85
  15. Communication in Metabolic Control Intuition and Method in Biochemistry: Four Years each with Krebs and Lipmann 95
  16. Fritz Lipmann: Squiggle to Protein Sulfation 105
  17. Fritz Lipmann (1899-1986), Honorary Member of the Leopoldina Academy 109
  18. Dahlem in the Late Nineteen Twenties 111
  19. Our Apprenticeship 125
  20. The Kaiser-Wilhelm-Institutes in Berlin-Dahlem in the Late 1930ies and Early 1940ies: Reminiscences of a Student of Biochemistry 129
  21. On the Origin of the Squiggle (~) 135
  22. 2. Biochemistry Comes of Age
  23. 2. Biochemistry Comes of Age 139
  24. The History of Metabolites Isolated from Urine 141
  25. The Pentose Phosphate Pathway 147
  26. Glycolysis and the Dawn of Modern Biochemistry 157
  27. Energy-Rich Bonds and Enzymatic Peptide Synthesis 165
  28. A Nostalgic View of the TCA Cycle in Bacteria 181
  29. The Role of Vitamins and their Carrier Proteins in Citrate Fermentation 191
  30. Lipmann's Influence on Firefly Luminescence 205
  31. Sulfur in Biomimetic Peptide Syntheses 213
  32. The Function of Teichoic Acids in Walls and Membranes of Bacteria 223
  33. The Amidotransferases: Origins of the Concept of Affinity Labeling of Enzymes 231
  34. Intracellular Protein Degradation: Past, Present and Future 251
  35. Lipmann's Squiggle and the Unification of Cellular Structure and Function 261
  36. The Historical Intermingling of Biochemistry and Cell Biology 285
  37. Regulation of Function of Membrane Proteins by Phosphorylation and Dephosphorylation 295
  38. Molecular Biology of Brain Peptides and their Cognate Receptors 305
  39. The Biological Activity of Tuftsin, Thr-Lys-Pro-Arg 323
  40. Biosynthesis of Linear Gramicidin, Pentadeca Peptide, is Tight Linked to Serine Metabolism and to Membranous Phosphoglyceride 331
  41. From Phosphoenolpyruvate Carboxykinase to Sporulation: Personal Reflections on Dr. F. Lipmann 339
  42. Research on Nonribosomal Systems: Biosynthesis of Peptide Antibiotics 355
  43. Metabolism of Carnosine and Related Peptides 369
  44. 3. Molecular Biology Sharpens its Tools
  45. 3. Molecular Biology Sharpens its Tools 377
  46. DNA Repair in Human Cells: Molecular Cloning of cDNAS Coding for Enzymes Related to Repair 379
  47. Acyl ~ Phosphate Intermediates in Oxidative DNA Sugar Damage by Antibiotics 389
  48. Rts1: A Multiphenotypic, Unusual Temperature Sensitive Drug Resistance Factor 397
  49. The Partial Dependency of Human Prostatic Growth Factor on Steroid Hormones in Stimulating Thymidine Incorporation into DNA 407
  50. Developmentally Regulated Gene Amplification in Rhynchosciara 417
  51. Fritz Lipmann, a Few Personal Memories, and: What Else Came Out of the High-Energy Phosphate Bond? 423
  52. Regulation of Gene Expression by Posttranslational Modification of Transcription Factors 431
  53. How Does the Arginine Repressor Regulate the Synthesis of Arginine Biosynthetic Enzymes? 441
  54. The Biochemistry and Molecular Biology of the Terminal Reactions of Methionine Biosynthesis in Escherichia coli 447
  55. The Wheat Embryo, Then and Now 457
  56. Mechanism of Cytotoxic Action and Structures of Thiadiazolo-pyrimidines 477
  57. Architecture of Ribosomal Particles as Investigated by Image Reconstruction and X-Ray Crystallographic Studies 481
  58. Initiation of Protein Synthesis: Early Participation and Recent Revisit 493
  59. Structure of Ribosomal RNA Genes of Eukaryotes: Some Solved and Unsolved Questions 505
  60. Energetics and Dynamics of the Protein- Synthesizing Machinery 511
  61. Expression 535
  62. Punctuation in the Genetic Code: A Plausible Basis for the Degeneracy of the Code to Initiate Translation 539
  63. Reconstruction of Translation: Role of EF-P in Regulation of Peptide Bond Formation 551
  64. On the Role of Spermine in Protein Synthesis 555
  65. 4. Functional Dynamics
  66. 4.1 The Squiggle - Symbol of Bioenergetics
  67. 4.1 The Squiggle - Symbol of Bioenergetics 565
  68. Energy-Rich Compounds and Work 569
  69. Squiggle Phosphate of Inorganic Pyrophosphate and Polyphosphates 581
  70. Enzymology of 3'-Squiggled Nucleotides 603
  71. Pyridine Nucleotides as Group Transfering Coenzymes 609
  72. The Nature of Squiggle in Oxidative Phosphorylation 625
  73. Motional Dynamics of Fatty Acids: Advantages of 15N and Deuterium Substituted Fatty Acid Spin Labels for Studies of Lipid-Protein Interactions and Motion in Membrane Bilayers 631
  74. Thyroid Hormones and Oxidative Phosphorylation 645
  75. Structure-Activity Relationships of Natural and Synthetic E-β-Methoxyacrylates of the Strobilurin and Oudemansin Series 657
  76. The Intracellular Mechanism of Insulin Action 663
  77. Unity and Diversity in Biological Redox Catalysis: Comparative Enzymology of Some Microbial Oxidoreductases Showing Variation in Cofactor Identity 671
  78. Ammonia-Forming, Dissimilatory Nitrite Reductases as a Homologous Group of Hexaheme C-Type Cytochromes in Metabolically Diverse Bacteria 683
  79. Halorhodopsin 693
  80. Control of Futile Transmembrane Potassium Cycling in Escherichia coli 699
  81. Bioenergetics of Protein Transport into Mitochondria: Role of ΔΨ and of Nucleoside Triphosphates 707
  82. Some Recent Functional and Structural Contributions to the Molecular Mechanism of Photosynthesis 713
  83. Salt Toxicity and Mineral Deficiency in Plants: Cytoplasmic Ion Homeostasis, a Necessity for Growth and Survival under Stress 721
  84. 4.2 Molecular Recognition and Communication
  85. 4.2 Molecular Recognition and Communication 735
  86. Dawn of Ca Research: Regulation of Muscle Contraction 737
  87. Comparative Aspects of the Mechanisms of Energy Transduction in Sarcoplasmic Reticulum between Rabbit and Frog Skeletal Muscle 747
  88. Caltrin: A Versatile Regulator of Calcium Transport in Spermatozoa 759
  89. Protein Kinase C, the Structural Heterogeneity and Differential Expression in Rat Brain 765
  90. Regulation of Erythrocyte Membrane Cytoskeletal Protein Interactions by Phosphorylation 771
  91. A Kinase Splitting Membranal Proteinase: Use in the Study of Receptors Involved in the Cellular Response to Hormones 781
  92. Fritz Lipmann, Phosphoproteins and Regulation of Aromatic Amino Acid Hydroxylase Activity 791
  93. The Regulation of Hepatic Phenylalanine Hydroxylase by Phosphorylation- Dephosphorylation 805
  94. Catabolite Inactivation and Adenylate Cyclase in Yeast 813
  95. Protein Modification by Tyrosine-Sulfation: Possible Functional Implications 817
  96. Proteoglycans and Connective Tissue Pathobiochemistry 827
  97. Acylation of Myelin Proteolipid Protein: A Link to the Past 835
  98. The Unusual Regulation of the Adenylyl cyclase of Amphibian Oocytes by Progesterone - A Review 841
  99. Sterol Synergism, a Tool for Studies on Sterol Function 853
  100. Chemical Modification of Benzodiazepine Receptors of Cortical P2 Membranes 857
  101. Dual Pathways for the Catabolism of γ- Hydroxybutyrate: Cytosolic and Mitochondrial Mechanisms 867
  102. 5. Evolution
  103. 5. Evolution 879
  104. Prebiotic Syntheses and the Mechanism of Early Chemical Evolution 881
  105. Prebiotic Roots of Informed Protein Synthesis: Nature of the Lipmann Connection 895
  106. A Case for an Additional RNA Base Pair in Early Evolution 911
  107. Inorganic Pyrophosphate in Cellular Energetics and Evolution 917
  108. Selforganization in Biosystems 923
  109. List of Contributors 935
  110. Acknowledgements 943
  111. Lipmann's Coworkers at Massachusetts General Hospital, Boston, and the Rockefeller University, New York 945
  112. Fritz Lipmann: Bibliography 1924-1985 949
  113. Index 979
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