Showing papers by "Paul Matsudaira published in 1988"

Direct protein microsequencing from Immobilon-P Transfer Membrane.

Abstract: Proteins separated by electrophoresis and electroblotted onto Immobilon-P Transfer Membrane can be sequenced directly in the gas-phase sequencer. Protein bands visualized by Coomassie Blue are placed in the sequencer cartridge without the addition of polybrene. Preconditioning sequencer cycles are eliminated, reducing reagent use and instrument operating time. The average initial yield for protein spotted or blotted onto the polyvinylidene-based membrane was determined to be 70 to 80% using 125I-labeled beta-lactoglobulin. Preliminary data indicate that proteins hydrolyzed in situ on Immobilon-P can further be characterized by amino acid compositional analysis.

Villin sequence and peptide map identify six homologous domains.

Abstract: Site-specific proteases and antisera to the amino terminus of villin have been used to show that villin is organized into seven protease-resistant domains. Six are contained in the amino-terminal Mr 87,000 villin core, a Ca2+-regulated actin-severing fragment, whereas the carboxyl-terminal domain includes the villin "headpiece," a fragment involved in bundling of actin filaments. Ca2+ inhibits proteolytic cleavage between domains in the amino-terminal half of villin. The protein sequence of villin deduced from a single cDNA clone contains a conserved sequence that is repeated six times and is found in each domain of the villin core. The conserved repeats are found in other actin-severing proteins but not in the villin headpiece. Our results suggest that actin-severing proteins are organized around a common Mr 14,000-17,000 domain.