The Dynamic Nature of Mitochondria
From Ultrastructure to Health and Disease
Herausgeber: Reichert, Andreas S
The Dynamic Nature of Mitochondria
From Ultrastructure to Health and Disease
Herausgeber: Reichert, Andreas S
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Mitochondrial research has exploded over the last ~150 years. This book gives an amazing view on a conceptual change in our understanding of mitochondrial biology. It becomes clear that mitochondria are extremely dynamic in nature controlling life at multiple levels.
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Mitochondrial research has exploded over the last ~150 years. This book gives an amazing view on a conceptual change in our understanding of mitochondrial biology. It becomes clear that mitochondria are extremely dynamic in nature controlling life at multiple levels.
Produktdetails
- Produktdetails
- Verlag: Bsp Books Pvt. Ltd.
- Seitenzahl: 198
- Erscheinungstermin: 15. April 2024
- Englisch
- Abmessung: 254mm x 178mm x 13mm
- Gewicht: 549g
- ISBN-13: 9781032117133
- ISBN-10: 1032117133
- Artikelnr.: 70114881
- Verlag: Bsp Books Pvt. Ltd.
- Seitenzahl: 198
- Erscheinungstermin: 15. April 2024
- Englisch
- Abmessung: 254mm x 178mm x 13mm
- Gewicht: 549g
- ISBN-13: 9781032117133
- ISBN-10: 1032117133
- Artikelnr.: 70114881
Andreas S. Reichert has been a Professor and Director of the Institute of Biochemistry and Molecular Biology I at the Heinrich-Heine University Düsseldorf, Germany since 2014. He's been a board member of the Biologisch-Medizinisches Forschungszentrum (BMFZ) at Heinrich-Heine University Düsseldorf, Germany since 2016, and a speaker of BMFZ since 2021. Dr. Reichert received his Ph.D. under Prof. Dr. Svante Pääbo at the Institute of Zoology, Ludwig-Maximilians-Universität München, Germany in 1999, and was a Post-Doc under Prof. Dr. Svante Pääbo and Prof. Dr. Mario Mörl at the Max Planck Institute for Evolutionary Anthropology, in Leipzig, Germany from 1999-2000. As the Executive Director of the Center for Membrane Proteomics (CMP) at Goethe University Frankfurt am Main, from 2012-2014, Dr. Reichert simultaneously operated as a professor and Head of Mitochondrial Biology at Goethe University Frankfurt am Main, Germany.
I. Mitochondrial ultrastructure - molecular mechanisms shaping the inner
membrane. 1. Roles of the F1FO-ATP synthase and MICOS in mitochondrial
membrane organization. 2. Proteolytic regulation of mitochondrial
architecture. II. Mitochondrial cristae and lipid dynamics: from
super-resolution microscopy to lipid-OXPHOS interplay. 3. Changes in
cristae architecture and function: from static to dynamic. 4. Emerging
roles of phospholipids in the structure and function of the Oxidative
Phosphorylation complexes. III. 5. Mitochondrial Hydrogen Peroxide
Dynamics. 6. Mitochondria-lysosome crosstalk, in disease and in health. IV.
Mitochondria in health and disease: from mtDNA release to Complex I
assembly. 7. mtDNA in & out - On the tightrope of cellular health. 8.
Mitochondrial Complex I Assembly and Implications for Mitochondrial
Disease. V. Advanced methods in mitochondrial biology and metabolism
research. 9. The optogenetic landscape of the mitochondrion. VI.
Integrative view on mitochondrial research and outlook. 10. Mitochondrial
biology - a vibrating and dynamic research field still breaking boundaries.
membrane. 1. Roles of the F1FO-ATP synthase and MICOS in mitochondrial
membrane organization. 2. Proteolytic regulation of mitochondrial
architecture. II. Mitochondrial cristae and lipid dynamics: from
super-resolution microscopy to lipid-OXPHOS interplay. 3. Changes in
cristae architecture and function: from static to dynamic. 4. Emerging
roles of phospholipids in the structure and function of the Oxidative
Phosphorylation complexes. III. 5. Mitochondrial Hydrogen Peroxide
Dynamics. 6. Mitochondria-lysosome crosstalk, in disease and in health. IV.
Mitochondria in health and disease: from mtDNA release to Complex I
assembly. 7. mtDNA in & out - On the tightrope of cellular health. 8.
Mitochondrial Complex I Assembly and Implications for Mitochondrial
Disease. V. Advanced methods in mitochondrial biology and metabolism
research. 9. The optogenetic landscape of the mitochondrion. VI.
Integrative view on mitochondrial research and outlook. 10. Mitochondrial
biology - a vibrating and dynamic research field still breaking boundaries.
I. Mitochondrial ultrastructure - molecular mechanisms shaping the inner
membrane. 1. Roles of the F1FO-ATP synthase and MICOS in mitochondrial
membrane organization. 2. Proteolytic regulation of mitochondrial
architecture. II. Mitochondrial cristae and lipid dynamics: from
super-resolution microscopy to lipid-OXPHOS interplay. 3. Changes in
cristae architecture and function: from static to dynamic. 4. Emerging
roles of phospholipids in the structure and function of the Oxidative
Phosphorylation complexes. III. 5. Mitochondrial Hydrogen Peroxide
Dynamics. 6. Mitochondria-lysosome crosstalk, in disease and in health. IV.
Mitochondria in health and disease: from mtDNA release to Complex I
assembly. 7. mtDNA in & out - On the tightrope of cellular health. 8.
Mitochondrial Complex I Assembly and Implications for Mitochondrial
Disease. V. Advanced methods in mitochondrial biology and metabolism
research. 9. The optogenetic landscape of the mitochondrion. VI.
Integrative view on mitochondrial research and outlook. 10. Mitochondrial
biology - a vibrating and dynamic research field still breaking boundaries.
membrane. 1. Roles of the F1FO-ATP synthase and MICOS in mitochondrial
membrane organization. 2. Proteolytic regulation of mitochondrial
architecture. II. Mitochondrial cristae and lipid dynamics: from
super-resolution microscopy to lipid-OXPHOS interplay. 3. Changes in
cristae architecture and function: from static to dynamic. 4. Emerging
roles of phospholipids in the structure and function of the Oxidative
Phosphorylation complexes. III. 5. Mitochondrial Hydrogen Peroxide
Dynamics. 6. Mitochondria-lysosome crosstalk, in disease and in health. IV.
Mitochondria in health and disease: from mtDNA release to Complex I
assembly. 7. mtDNA in & out - On the tightrope of cellular health. 8.
Mitochondrial Complex I Assembly and Implications for Mitochondrial
Disease. V. Advanced methods in mitochondrial biology and metabolism
research. 9. The optogenetic landscape of the mitochondrion. VI.
Integrative view on mitochondrial research and outlook. 10. Mitochondrial
biology - a vibrating and dynamic research field still breaking boundaries.