PL-I of Spisula solidissima, a highly elongated sperm-specific histone H1.

The major chromosomal protein of the mature sperm of the surf clam, Spisula solidissima, is a histone H1-related protamine-like (PL-I) protein of low electrophoretic mobility. We report here the complete sequence of two isoforms of its encoding genes. These genes encode a protein of 453 and 454 amino acids, respectively.

The complete sequence of the acidic subunit from Mojave toxin determined by Edman degradation and mass spectrometry.

Mojave toxin, a heterodimeric, neurotoxic phospholipase complex from Crotalus scutulatus scutulatus, is one of a group of closely related rattlesnake toxins for which much structural information is still lacking. The complete amino-acid sequence of the acidic subunit from Mojave toxin was determined. The three individual peptide chains, derived from the acidic subunit by reductive alkylation, were separated by high-performance liquid chromatography.

Sequence and characterization of the sperm-specific protein phi 3 from Mytilus californianus.

We have shown that the sperm-specific protein phi 3 from Mytilus californianus (Conrad) exhibits compositional microheterogeneity. For the first time, we have isolated and characterized the three major components of this protein. These fractions display different electrophoretic mobilities on Triton/urea/acetic acid polycrylamide gels.

Structural characterization of the trypsin-resistant core in the nuclear sperm-specific protein from Spisula solidissima.

Trypsin digestion of the protamine-like protein from Spisula solidissima has revealed the existence of an internal resistant core. The peptide contains 75 amino acid residues, and its primary structure shows some conserved sequences that are common to those found in the core of the somatic histone H5 from chicken erythrocytes. The secondary structure of this core exhibits 33% antiparallel beta-sheet, 18% beta-turns, 37% random coil, and only 10% alpha-helix, in contrast to histone H5.

Amino acid sequences of myotoxins from Crotalus viridis concolor venom.

Myotoxins I and II were isolated from the venom of Crotalus viridis concolor. Complete sequences were derived for each reduced, alkylated toxin with data obtained by a single run on a gas phase sequencer and from fragments derived by cyanogen bromide cleavage. The results demonstrate that microheterogeneity is present in myotoxin II.