The annexins are a family of homologous Ca2(+)- and phospholipid-binding proteins that until now have only been found in vertebrates. cDNA clones encoding two novel annexins from Drosophila melanogaster were isolated and characterized. RNA blots indicate that the messages for the two Drosophila proteins are differentially expressed in development, with one message being expressed throughout development, while the other is only found in early embryos and adult flies. In situ hybridizations localize the two Drosophila genes to 93B and 19A-4,7. A similarly high degree of homology relates Drosophila annexins to different vertebrate annexins, indicating that the Drosophila annexins are not the invertebrate homologues of particular mammalian annexins but that they constitute novel members of the annexin gene family. In continuation with a recently established terminology, the Drosophila annexins will be named annexins IX and X. The biochemical properties of Drosophila annexin X were investigated using recombinant protein. Similar to vertebrate annexins, annexin X bound to liver membranes and liposomes containing phosphatidylserine in a calcium-dependent manner but not to liposomes containing phosphatidylcholine. In addition, annexin X partitioned into the detergent phase of Triton X-114 as a function of calcium. The conservation of the annexin family of Ca2(+)-binding proteins in invertebrates suggests that they have a basic function in cells which is not peculiar to vertebrate biology, and the availability of the Drosophila sequences will open avenues for mutational studies of these functions.