Janice Gepner scite author profile

Abstract. The Drosophila Glued gene product shares sequence homology with the p150 component of vertebrate dynactin. Dynactin is a multiprotein complex that stimulates cytoplasmic dynein-mediated vesicle motility in vitro. In this report, we present biochemical, cytological, and genetic evidence that demonstrates a functional similarity between the Drosophila Glued complex and vertebrate dynactin. We show that, similar to the vertebrate homologues in dynactin, the Glued polypeptides are components of a 20S complex. Our biochemical studies further reveal differential

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A fertility region on the Y chromosome of Drosophila melanogaster encodes a dynein microtubule motor.

Gepner

Hays

1993

Proc. Natl. Acad. Sci. U.S.A.

101

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A family of dynein genes in Drosophila melanogaster.

Rasmusson

Serr

Gepner

et al. 1994

MBoC

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We report the identification and initial characterization of seven Drosophila dynein heavy chain genes. Each gene is single copy and maps to a unique genomic location. Sequence analysis of partial clones reveals that each encodes a highly conserved portion of the putative dynein hydrolytic ATP-binding site in dyneins that includes a consensus phosphate-binding (P-loop) motif. One of the clones is derived from a Drosophila cytoplasmic dynein heavy chain gene, Dhc64C, that shows extensive amino acid identity to cytoplasmic dynein isoforms from other organisms. Two other Drosophila dynein clones are 85 and 90% identical at the amino acid level to the corresponding region of the beta heavy chain of sea urchin axonemal dynein. Probes for all seven of the dynein-related sequences hybridize to transcripts that are of the appropriate size, approximately 14 kilobases, to encode the characteristic high molecular weight dynein heavy chain polypeptides. The Dhc64C transcript is readily detected in RNA from ovaries, embryos, and testes. Transcripts from five of the six remaining genes are also detected in much lesser amounts in tissues other than testes. All but one of the dynein transcripts are expressed at comparable levels in testes suggesting their participation in flagellar axoneme assembly and motility.

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CHARACTERIZATION OF AN α‐BUNGAROTOXIN BINDING COMPONENT FROM DROSOPHILA MELANOGASTER

Schmidt‐Nielsen

Gepner

Teng

et al. 1977

Journal of Neurochemistry

150

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Abstract— We describe an α‐bungarotoxin binding component from Dromphila melanoyaster that has the properties expected of an acetylcholine receptor. Toxin binding to a paniculate form of this component has been shown to be proportional to amount of extract, to be saturable and to be destroyed by heat. Localization studies using 125I‐α‐bungarotoxin binding to frozen sections has shown toxin binding to be restricted to synaptic areas of the Drosophila CNS. We have also shown that this toxinbinding component can be treated with Triton X‐100 without significantly altering its toxin‐binding and pharmacological specificity. The ability of preincubation with cholinergic ligands to block labeled α‐bungarotoxin binding to both particulate and detergent treated extracts has been studied. The nicotinic agents nicotine, d‐tubocurarine, and acetylcholine are the most effective blocking agents. All of the muscarinic agents tested and the nicotinic agent decamethonium were less effective than acetylcholine in preventing α‐bungarotoxin binding.

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Cytoplasmic Dynein Function Is Essential in Drosophila melanogaster

Gepner¹,

Li²,

Ludmann³

et al. 1996

125

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The microtubule motor cytoplasmic dynein has been implicated in a variety of intracellular transport processes. We previously identified and characterized the Drosophila gene Dhc64C, which encodes a cytoplasmic dynein heavy chain. To investigate the function of the cytoplasmic dynein motor, we initiated a mutational analysis of the Dhc64C dynein gene. A small deletion that removes the chromosomal region containing the heavy chain gene was used to isolate EMS-induced lethal mutations that define at least eight essential genes in the region. Germline transformation with a Dhc64C transgene rescued 16 mutant alleles in the single complementation group that identifies the dynein heavy chain gene. All 16 alleles were hemizygous lethal, which demonstrates that the cytoplasmic dynein heavy chain gene Dhc64C is essential for Drosophila development. Furthermore, our failure to recover somatic clones of cells homozygous for a Dhc64C mutation indicates that cytoplasmic dynein function is required for cell viability in several Drosophila tissues. The intragenic complementation of dynein alleles reveals multiple mutant phenotypes including male and/or female sterility, bristle defects, and defects in eye development.

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Janice Gepner

Regulation of cytoplasmic dynein function in vivo by the Drosophila Glued complex.

A fertility region on the Y chromosome of Drosophila melanogaster encodes a dynein microtubule motor.

A family of dynein genes in Drosophila melanogaster.

CHARACTERIZATION OF AN α‐BUNGAROTOXIN BINDING COMPONENT FROM DROSOPHILA MELANOGASTER

Cytoplasmic Dynein Function Is Essential in Drosophila melanogaster

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