| Capillary liquid chromatography: a tool for protein structural analysis | p. 3 |
| Routine amino acid sequencing on 2D-gel separated proteins: a protein elution and concentration gel system | p. 13 |
| Capillary electrophoresis in structural characterization of polypeptides | p. 21 |
| Sensitization of gas-phase protein sequencer using fluorescein isothiocyanate (FITC) | p. 29 |
| Thiobenzoylation method of protein sequencing: gas chromatography/mass spectrometric detection of 5-acetoxy-2-phenylthiazoles | p. 37 |
| Deblocking and subsequent microsequence analysis of N-terminally blocked proteins immobilized on PVDF membrane | p. 45 |
| Development of novel C-terminal sequencing methods | p. 55 |
| Automated C-terminal sequencing of peptides and proteins | p. 63 |
| A new chemical approach to C-terminal microsequence analysis via the thiohydantoin | p. 71 |
| Cyanogen bromide cleavage of proteins on blots and subsequent separation of the fragments by polyacrylamide gel electrophoresis directly from those blots | p. 79 |
| Identification of the disulfide bonds of the human complement component C3 | p. 87 |
| A novel protease from jack-bean seeds: asparaginyl endopeptidase | p. 95 |
| Lysine-specific serine protease from Achromobacter lyticus: its substrate specificity and comparison with trypsin | p. 101 |
| Structure and function of snake venom metalloproteinase family | p. 107 |
| Recent advances in protein sequencing by mass spectrometry. Introduction and overview | p. 119 |
| Sequence analysis of peptides presented to the immune system by class I and class II MHC molecules | p. 127 |
| High precision mass spectrometry with the ion trap mass spectrometer | p. 135 |
| Electrospray-mass spectrometry, an emerging methodology for elucidating structure-function relationships of proteins | p. 143 |
| A general strategy for the use of mass spectrometric molecular weight information in protein purification and sequence determination | p. 149 |
| Determination of posttranslational modifications by mass spectrometry | p. 157 |
| Post-translational modifications of proteins | p. 167 |
| N-Terminal acetylation of mutationally altered form of iso-l-cytochromes c in normal and natl- strains deficient in the major N-terminal acetyl transferase of the yeast Saccharomyces cerevisiae | p. 173 |
| Posttranslational glutamylation of several brain tubulin isotypes: structure of the polyglutamyl side chain | p. 183 |
| Protein anchoring to membrane by glycosylphosphatidylinositol: Determination of the COOH-terminal signal peptide sequence and GPI-attachment site in bovine liver 5'-nucleotidase | p. 191 |
| Pyridylamination for sensitive analysis of sugar chains of glycoproteins | p. 195 |
| Sequence analysis of phosphopeptides and its application for the determination of phosphorylated sites of proteins | p. 199 |
| Prediction of protein structure from multiple sequence alignment | p. 209 |
| Sequence patterns that characterize protein families with a common fold | p. 221 |
| Domains and modules of proteins | p. 229 |
| Homology search and prediction of biological function of protein from amino acid sequences | p. 233 |
| Amino acid sequence comparison as an aid to determining evolutionary origins | p. 241 |
| Protein databases constructed by quantitative two-dimensional gel electrophoresis | p. 247 |
| Biochemistry of a natriuretic peptide family | p. 257 |
| Activin, activin-binding protein (follistatin) and activin receptor | p. 261 |
| Do well-populated intermediates represent the pathway of protein folding? | p. 269 |
| Alcohol dehydrogenases: patterns of protein evolution | p. 275 |
| Structure and post-translational modification of the lipoyl domain of 2-oxo acid dehydrogenase complexes: a new family of protein domains | p. 283 |
| Structure analysis of the topography and molecular organization of protein-RNA complexes as revealed in ribosomes | p. 289 |
| Index | p. 307 |
| Table of Contents provided by Blackwell. All Rights Reserved. |
