Notch down-regulation by endocytosis is essential for pigment cell determination and survival in the Drosophila retina.

The clathrin heavy chain is a fundamental element in endocytosis and therefore, in the internalization of several cell-surface receptors through which cells interact with their environment. Here we show that the only non-lethal mutant allele of the clathrin heavy chain identified to date in metazoans, the Drosophila Chc(4), involves the substitution of a residue at the knee region of the molecule that impairs clathrin-dependent endocytosis. We have investigated the consequences of this endocytic defect in Drosophila retinal development and found that it produces an inhibition of programmed cell death in the retinal lattice, followed by widespread death of interommatidial pigment cells once retinal development has been completed.

A molecular pathway for light-dependent photoreceptor apoptosis in Drosophila.

Light-induced photoreceptor apoptosis occurs in many forms of inherited retinal degeneration resulting in blindness in both vertebrates and invertebrates. Though mutations in several photoreceptor signaling proteins have been implicated in triggering this process, the molecular events relating light activation of rhodopsin to photoreceptor death are yet unclear. Here, we uncover a pathway by which activation of rhodopsin in Drosophila mediates apoptosis through a G protein-independent mechanism.

Evidence that Argos is an antagonistic ligand of the EGF receptor.

Argos, the inhibitor of the Drosophila epidermal growth factor (EGF) receptor, remains the only known extracellular inhibitor of this family of receptors in any organism. The functional domain of Argos includes an atypical EGF domain and it is not clear whether it binds to the EGF receptor or if it acts via a distinct receptor to reduce Egfr activity indirectly. Here we present two lines of evidence that strongly suggest that Argos directly interacts with the EGF receptor.

Sprouty, an intracellular inhibitor of Ras signaling.

Sprouty was identified in a genetic screen as an inhibitor of Drosophila EGF receptor signaling. The Egfr triggers cell recruitment in the eye, and sprouty- eyes have excess photoreceptors, cone cells, and pigment cells. Sprouty's function is, however, more widespread.

Troponin-T is a calcium-binding protein in insect muscle: in vivo phosphorylation, muscle-specific isoforms and developmental profile in Drosophila melanogaster.

Two sets of muscle polypeptides showing calcium-binding capacity and intense labelling in vivo with 32P were purified and characterized from Drosophila melanogaster adult extracts. The polypeptides exhibit crossed immunoreactivity and share similar biochemical properties such as those involved in purification. They have been identified as isoforms of troponin-T (TnT) by sequence analysis of a cDNA clone isolated from an embryonic library.

A G protein-coupled receptor phosphatase required for rhodopsin function.

Heterotrimeric guanine nucleotide-binding protein (G protein)-coupled receptors are phosphorylated by kinases that mediate agonist-dependent receptor deactivation. Although many receptor kinases have been isolated, the corresponding phosphatases, necessary for restoring the ground state of the receptor, have not been identified. Drosophila RDGC (retinal degeneration C) is a phosphatase required for rhodopsin dephosphorylation in vivo.

Autophosphorylating protein kinase activity in titin-like arthropod projectin.

The function of the high molecular weight structural proteins from muscle, namely vertebrate titin, arthropod projectin and nematode twitchin, remains to be established. Using a simple method for the purification of projectin from crayfish and Drosophila melanogaster, a polyclonal antibody has been raised against crayfish projectin, and shown to immunocrossreact with Drosophila projectin but not with rat titin. In this study, evidence is presented that projectin and twitchin may share functional protein kinase domains, indicating a possible relationship between them.

Drosophila melanogaster paramyosin: developmental pattern, mapping and properties deduced from its complete coding sequence.

Several cDNA clones encoding the complete Drosophila paramyosin sequence, including two potential polyadenylation sites, have been obtained. Southern analysis and in situ hybridization to polytene chromosomes indicate that in Drosophila the paramyosin gene is single copy, located on the left arm of the third chromosome at region 66D14. Northern analyses show predominantly two different RNAs which are the products of the choice between the two alternative polyadenylation sites.

Identification and characterization of Drosophila melanogaster paramyosin.

Paramyosin, a major structural component of thick filaments in invertebrates has been isolated, purified and characterized from whole adult Drosophila melanogaster extracts and a specific polyclonal antibody against it has been prepared. Paramyosin has been identified on the basis of several criteria, including molecular weight, alpha-helicity, species distribution, capability of fiber formation in vitro and sequence. We have used the immunopurified polyclonal antibody to isolate eight clones from a lambda gt11 expression library of Drosophila 1 to 22 h embryo cDNA.

Insects as test systems for assessing the potential role of microgravity in biological development and evolution.

Gravity and radiation are undoubtedly the two major environmental factors altered in space. Gravity is a weak force, which creates a permanent potential field acting on the mass of biological systems and their cellular components, strongly reduced in space flights. Developmental systems, particularly at very early stages, provide the larger cellular compartments known, where the effects of alterations in the size of the gravity vector on living organisms can be more effectively tested.

Drosophila melanogaster contains a set of polypeptides capable of polymerizing into intermediate-like filaments.

A partial purification scheme applied to the Triton X-100 insoluble pellet of adult flies homogenates yielded a fraction which upon polymerization reproducibly produces filaments which in the electron microscope have all the typical properties of intermediate filaments. This is the first report of the presence of protein components with such properties in Drosophila. Thus, it is highly possible that insects and arthropodes, like other lower invertebrates, may contain the third extremely insoluble element of the cellular cytoskeleton.

Signals in the phi 29 DNA-terminal protein template for the initiation of phage phi 29 DNA replication.

The protein-free terminal fragments HindIII B and L, from the left and right ends of phi 29 DNA, respectively, but not internal fragments of similar size, were active as templates in the formation of the p3-dAMP initiation complex in an in vitro system containing purified phi 29 terminal protein p3 and DNA polymerase p2, although the activity was lower than that obtained with the phi 29 DNA-p3 complex. These results indicate the existence of specific sequences at the ends of phi 29 DNA that allow the initiation of phi 29 DNA replication. The template activity of the protein-free terminal fragments was size dependent.