Protein folding and metal ions: mechanisms, biology and disease
2010 (English)Book (Other academic)
The role of metal ions in protein folding and structure is a critical topic to a range of scientists in numerous fields, particularly those working in structural biology and bioinorganic chemistry, those studying protein folding and disease, and those involved in the molecular and cellular aspects of metals in biological systems. Protein Folding and Metal Ions: Mechanisms, Biology and Disease presents the contributions of a cadre of international experts who offer a comprehensive exploration of this timely subject at the forefront of current research. Divided into four sections, this volume: Provides case study examples of protein folding and stability studies in particular systems or proteins that comprise different metal ions of co-factors Reviews the proteins that shuttle metal ions in the cell to a particular target metalloprotein Illustrates how metal binding can be connected to pathological protein conformations in unrelated diseases, from cancer to protein deposition disorders such as Parkinson's disease Addresses protein redesign of metal-containing proteins by computational methods, folding simulation studies, and work on model peptides -- dissecting the relative energetic contribution of metals sites to protein folding and stability Together, the 13 chapters in this text cogently describe the state of the science today, illuminate current challenges, propose future possibilities, and encourage further study in this area that offers much promise especially with regard to novel approaches to the treatment of some of the most challenging and tragic diseases.
Place, publisher, year, edition, pages
CRC Press, 2010. , 308 p.
IdentifiersURN: urn:nbn:se:umu:diva-36588ISBN: 9781439809648OAI: oai:DiVA.org:umu-36588DiVA: diva2:354847
Övrig information: Claudio M. Gomes is group leader at the Instituto Tecnologia Quimica e Biologica, a research institute affiliated with the Universidade Nova de Lisboa, Oeiras, Portugal. Born in 1970, Claudio earned his PhD from the Instituto Tecnologia Quimica e Biologica in 1999, as a Gulbenkian PhD program in biology and medicine graduate. From 2000 onward, he gradually switched his research interests from bioenergetics and metalloprotein structure-function toward protein folding and structural biophysics of misfolding diseases. Until setting up his independent laboratory in 2003, he was assistant professor at the Faculdade de Ciencias e Tecnologia, Universidade Nova de Lisboa, where he started teaching in 2000. Claudio has published more than 70 peer-reviewed papers.
Pernilla Wittung-Stafshede has been a professor in biological chemistry in the Chemistry Department at Umea University, Umea, Sweden since 2008. Born in 1968, she earned a PhD in physical chemistry from Chalmers University, Gothenburg, Sweden, in 1996. During 1997--1998, she did a postdoctoral period at Caltech, Pasadena, California. In 1999 she began her independent research career, with a focus on the role of metals in protein folding, as a chemistry professor at Tulane University, New Orleans, Louisiana. After 5 years at Tulane, she moved to Rice University, Houston, Texas in 2004 and became a professor in biochemistry. Pernilla has graduated 10 PhD students to date, has obtained several awards, and has published over 150 peer-reviewed papers.
FOLDING AND STABILITY OF METALLOPROTEINS Metal Ions, Protein Folding, and Conformational States: An Introduction, Claudio M. Gomes and Pernilla Wittung-Stafshede The Folding Mechanism of c-Type Cytochromes, Carlo Travaglini-Allocatelli, Stefano Gianni, and Maurizio Brunori The Mechanism of Cytochrome c Folding: Early Events and Kinetic Intermediates, Eefei Chen, Robert A. Goldbeck, and David S. Kliger Stability and Folding of Copper-Binding Proteins, Irina Pozdnyakova and Pernilla Wittung-Stafshede Iron-Sulfur Clusters, Protein Folds, and Ferredoxin Stability, Sonia S. Leal and Claudio M. Gomes Folding and Stability of Myoglobins and Hemoglobins, David S. Culbertson and John S. Olson MECHANISMS OF METAL TRANSPORTERS, AND ASSEMBLY Frataxin: An Unusual Metal-Binding Protein in Search of a Function, Annalisa Pastore Mechanism of Human Copper Transporter Wilson's Disease Protein, Amanda Barry, Zara Akram, and Svetlana Lutsenko METAL IONS, PROTEIN CONFORMATION, AND DISEASE I -Synuclein and Metals, Aaron Santner and Vladimir N. Uversky Zinc and Misfolding, James S. Butler and Stewart N. Loh The Octarepeat Domain of the Prion Protein and Its Role in Metal Ion Coordination and Disease, Glenn L. Millhauser METALLOPROTEIN DESIGN, SIMULATION, AND MODELS Metallopeptides as Tools to Understand Metalloprotein Folding and Stability, Brian R. Gibney The Folding Landscapes of Metalloproteins, Patrick Weinkam and Peter G. Wolynes