Bookedited by Sheila S. David.
Contents:
1. Genetic, biochemical, and biophysical methods for studying Fe-S proteins and their assembly
2. De novo design of iron-sulfur proteins
3. In vitro studies of cellular iron-sulfur cluster biosynthesis, trafficking, and transport
4. Combined biochemical, biophysical, and cellular methods to study Fe-S cluster transfer and cytosolic aconitase repair to MitoNEET
5. Defining the architecture of the core machinery for the assembly of Fe-S clusters in human mitochondria
6. Fe-S cluster Hsp70 chaperones: the ATPase cycle and protein interactions
7. B. subtilis as a model for studying the assembly of Fe-S clusters in gram-positive bacteria
8. Structural characterization of poised states in the oxygen sensitive hydrogenases and nitrogenases
9. Nitorgenase assembly: strategies and procedures
10. TsrM as a model for purifying and characterizing cobalamin-dependent radical S-adenosylmethionine methylases
11. Mechanism-based strategies for structural characterization of radical SAM reaction intermediates
12. A polymerase with potential: the Fe-S cluster in human DNA primase
Author index
Subject index.