Structural genomics is the systematic determination of 3-D structures of proteins representative of the range of protein structure and function found in nature. The goal is to build a body of structural information that will predict the structure and potential function for almost any protein from knowledge of its coding sequence. This is essential information for understanding the functioning of the human proteome, the ensemble of tens of thousands of proteins specified by the human genome.

Introduction; Analysis of genomes for structural genomics and the limitations of sequence analysis; Structure determination pipeline for structural genomics;Gene cloning and protein expression;Gene cloning and expression of membrane proteins; High-throughput protein purification for x-ray crystallography and NMR; High-throughput protein crystallization; Structure determination using synchrotron radiation; Application of NMR to structural genomics; Development of key high-throughput technologies: High-throughput functional screening; Development of key high-throughput technologies: Structure prediction and homology modeling; Functional inferences from structure; Structural genomics programs (SARS case); Structural genomics programs (E.coli);Structural genomics as a structural foundation for drug discovery; Structural genomics of eukaryote; Structural genomics of complexes; Dissemination structural genomics data to biology community