Kidney Development and Regeneration
- 1st Edition, Volume 163 - May 28, 2025
- Latest edition
- Editors: Paul Wassarman, Jamie Davies
- Language: English
Kidney Development and Regeneration, Volume 163 provides an up-to-date account of kidney development, congenital disease and regeneration. It has an emphasis on areas of the field… Read more
Kidney Development and Regeneration, Volume 163 provides an up-to-date account of kidney development, congenital disease and regeneration. It has an emphasis on areas of the field that have been moving most quickly over the last few years, and that show potential for further rapid discovery. Each chapter is written by leading researchers, and their approaches range from genetics to cell biology to pharmacology to physiology to pathology to mathematical modeling. The volume is essential reading for those working on renal development, regeneration or pathology, and also those researching related aspects in similar organs.
- Brings together development, disease and regeneration in interlinked chapters
- Focuses on the fastest-moving topics in kidney development and congettial disease
- Integrates a range of approaches from genetics to cell biology to mathematics
Researchers and advanced students in mammalian organ development and in kidney disease, regeneration and organoids. It will also be useful for advanced students in developmental biology and childhood oncology
1. Preface
Jamie A. Davies
Normal Development
2. Nephron Segmentation
Nils Lindstrom
3. Coordination of nephrogenesis with branching of the urinary collecting system, the vasculature and the nervous system
Dagmar Iber, Malte Mederacke and Roman Vetter
4. Kidney development at a glance: metabolic regulation of renal progenitor cells
Satu Kuure, Kristen Kurtzeborn, Samir El-Dahr, Niklas Pakkasjärvi and Giovane Tortelote
5. Self-Organization
Jamie A. Davies
Pathological development
6. Understanding Developing Kidneys and Wilms Tumors One Cell at a Time
Peter Hohenstein, Nine Solee Pop and Karamjit Singh Dolt
7. CAKUT and epigenetics
Luise Heide König and Miriam Schmidts
8. Ciliopathies
Laura Alice Devlin
9. The etiology of congenital obstructive uropathy: developmental and genetic perspectives
Mayke Almira Celine ten Hoor, Peter Hohenstein, Brian Becknell and Jaap Mulder
10. Zebrafish
Heiko Schenk
11. Human kidney organoids for modeling the development of different diseases
Benedetta Bussolati, Armina Semnani, Elena Ceccotti and Stefania Bruno
Jamie A. Davies
Normal Development
2. Nephron Segmentation
Nils Lindstrom
3. Coordination of nephrogenesis with branching of the urinary collecting system, the vasculature and the nervous system
Dagmar Iber, Malte Mederacke and Roman Vetter
4. Kidney development at a glance: metabolic regulation of renal progenitor cells
Satu Kuure, Kristen Kurtzeborn, Samir El-Dahr, Niklas Pakkasjärvi and Giovane Tortelote
5. Self-Organization
Jamie A. Davies
Pathological development
6. Understanding Developing Kidneys and Wilms Tumors One Cell at a Time
Peter Hohenstein, Nine Solee Pop and Karamjit Singh Dolt
7. CAKUT and epigenetics
Luise Heide König and Miriam Schmidts
8. Ciliopathies
Laura Alice Devlin
9. The etiology of congenital obstructive uropathy: developmental and genetic perspectives
Mayke Almira Celine ten Hoor, Peter Hohenstein, Brian Becknell and Jaap Mulder
10. Zebrafish
Heiko Schenk
11. Human kidney organoids for modeling the development of different diseases
Benedetta Bussolati, Armina Semnani, Elena Ceccotti and Stefania Bruno
- Edition: 1
- Latest edition
- Volume: 163
- Published: May 28, 2025
- Language: English
PW
Paul Wassarman
Paul M. Wassarman, the Series Editor of CTDB since 2007, is Professor in the Dept. Developmental and Regenerative Biology at the Icahn School of Medicine at Mount Sinai in New York City. He received a Ph.D. in biochemistry from Brandeis University where he carried out thesis research in the Graduate Dept. Biochemistry with Professor Nathan O. Kaplan. In 1967 Wassarman joined the Division of Structural Studies at the MRC, Laboratory of Molecular Biology in Cambridge, England as a Helen Hay Whitney Foundation Fellow with Sir John C. Kendrew. In 1972 he joined the faculty of the Dept. Biological Chemistry at Harvard Medical School and in 1986 moved to the Roche Institute of Molecular Biology where he was Chair of the Dept. Cell and Developmental Biology and Adjunct Professor in the Dept. Cell Biology, New York University School of Medicine. In 1996 he moved to the Icahn School of Medicine at Mount Sinai where he was the Lillian and Henry M. Stratton Professorial Chair of the Dept. Molecular, Cell, and Developmental Biology. Wassarman has published more than 200 research papers and reviews, dealing primarily with mammalian oogenesis, fertilization, and early embryogenesis.
Affiliations and expertise
Icahn School of Medicine, Mount Sinai, USAJD
Jamie Davies
Jamie Davies studied Natural Sciences at Cambridge, then embarked on a career in developmental and synthetic biology, establishing a laboratory at the University of Edinburgh which has been active in the kidney development field for 30 years. His lab played a critical role in identifying earliest-discovered signaling pathways in renal development, in understanding the relationship between normal and neoplastic development, and in aspects of patterning. The lab produced the first renal organoids, using ex-fetu cells, and has since gone on to develop ways of making these organoids more realistic. In parallel, Davies' lab has been a pioneer of synthetic morphogenesis, engineering cells to self-organize into patterning, morphogenetic systems. He has written/ edited over 10 books, 3 for public engagement and the others technical volumes for researchers. He has won several prizes for his work, and has been elected a Fellow of the Royal Society of Edinburgh, a Fellow of the Royal Society of Medicine, and a
Fellow of the Royal Society of Biology. He is currently Professor of Experimental Anatomy at the University of Edinburgh, Scotland, UK.
Affiliations and expertise
Professor of Experimental Anatomy, University of Edinburgh, Scotland, UK.Read Kidney Development and Regeneration on ScienceDirect