A 32 kDa lipocortin from human mononuclear cells appears to be identical with the placental inhibitor of blood coagulation.

A 32 kDa protein isolated from human mononuclear cells is a member of the lipocortin family, a new group of Ca2+-dependent lipid-binding proteins thought to be involved in the regulation of phospholipase A2, in exocytosis and in membrane-cytoskeleton interactions. Purification of this protein was based on its ability to associate with membrane phospholipids in a Ca2+-dependent manner and its capacity to inhibit purified phospholipase A2 from pig pancreas. Using immunological detection, we show that it is present in various cells involved in the inflammatory and coagulation processes. We present extensive amino acid data that strongly suggest that this protein is identical with a recently described inhibitor of blood coagulation, with endonexin II and with lipocortin V. Sequence alignment with other known proteins show a significant degree of homology with lipocortins I and II, the substrates of the epidermal-growth-factor receptor tyrosine kinase and the oncogene pp60src tyrosine kinase respectively, and with protein II. The possible physiological role of this 32 kDa lipocortin is discussed.

Complete amino acid sequence of flavocytochrome b2 from baker's yeast.

Each subunit of baker's yeast flavocytochrome b2 can be selectively cleaved by proteases into two fragments, amino-terminal fragment alpha and carboxy-terminal fragment beta. The primary structure of the former has been reported before [Ghrir, B., Becam, A. M. & Lederer, F. (1984) Eur. J. Biochem. 139, 59-74]. The amino acid sequence of the 197-residue fragment beta has now been established. The fragment was cleaved with cyanogen bromide; the three peptides thus obtained were submitted to digestions with Staphylococcus aureus V8 protease, chymotrypsin and trypsin, sometimes after succinylation. The complete fragment was also submitted to tryptic cleavage after citraconylation. Peptides were separated by thin-layer finger-printing or high-pressure liquid chromatography. They were mostly sequenced in a liquid-phase sequenator. The 511-residue amino acid sequence of the mature protein is thus completely established. Secondary structure predictions indicate an alternation of helical and extended structure, with a higher percentage of the former. Comparisons with other flavoproteins do not detect any significant sequence similarity.

Two homologous cytochromes b5 in a single cell.

The amino acid sequence of the heme-binding domains of rat liver cytochromes b5 from outer mitochondrial membranes and from microsomes has been determined by a combination of automatic and manual degradation of fragments generated by trypsin digestion and by cleavage at tryptophan. Tryptic peptides were separated by high-pressure liquid chromatography. The sequence of microsomal cytochrome b5 is identical with the one published by Ozols and Heinemann after completion of this study [Biochim. Biophys. Acta (1982) 704, 163-173]. The sequence of outer membrane cytochrome b5 differs from the microsomal one at 38 positions out of 91. There are 40 positions invariant between this sequence and the eight microsomal sequences published thus far. The non-conservative substitutions are located at the surface of the known three-dimensional structure of calf microsomal cytochrome b5 except for the substitution of histidine-15 by arginine. This paper brings the final proof that two iso-cytochromes b5 exist in the same cell. Their high degree of similarity as well as their differential cellular localization raise some questions which are briefly discussed.