Detailed knowledge of the composition and structure of the spliceosome and its assembly intermediates is a prerequisite for understanding the complex process of pre-mRNA splicing. To this end, we have developed a tobramycin affinity-selection method that is generally applicable for the purification of native RNP complexes. By using this method, we have isolated human prespliceosomes that are ideally suited for both biochemical and structural studies. MS identified >70 prespliceosome-associated proteins, including nearly all known U1 and U2 snRNP proteins, and expected non-snRNP splicing factors. In addition, the DEAD-box protein p68, RNA helicase A, and a number of proteins that appear to perform multiple functions in the cell, such as YB-1 and TLS, were detected. Several previously uncharacterized proteins of unknown function were also identified, suggesting that they play a role in splicing and potentially act during prespliceosome assembly. These data provide insight into the complexity of the splicing machinery at an early stage of its assembly.