Theodore Homyk scite author profile

Developmental studies have shown that elavJ1 mutants are temperature-sensitive for defects in retinula cell and optic lobe structure. Anatomical and physiological examination of mutants, shifted between permissive and restrictive temperatures, shows that the early pupal period is phenocritical for producing defects in retinula cells. Although this period precedes visible development of the rhabdomere, brief pulses to 29 degrees C during this time result in characteristic abnormalities in rhabdomere structure. These studies also show that the temperature-sensitive effects on mutant optic lobe development begin prior to the effects on the retina, suggesting that the elav product participates directly in optic lobe as well as in retinula cell development.

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Functional interactions between unlinked muscle genes within haploinsufficient regions of the Drosophila genome.

Homyk

Emerson

1988

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Mutations in 13 genes affecting muscle development in Drosophila have been examined in pairwise combinations for evidence of genetic interactions. Heterozygous combinations of mutations in five genes, including the gene coding for myosin heavy chain, result in more severe phenotypes than respective single heterozygous mutant controls. The various mutant interactions include examples showing allele-specific intergenic interactions, gene specific interactions, and allele-specific intragenic complementations, suggesting that some interactions result from the manner in which mutant gene products associate. Interactions that result from alterations in "+" gene copy number were also uncovered, suggesting that normal myofibril development requires that the relative amounts of respective gene products produced be tightly regulated. The importance of the latter parameter is substantiated by the finding that all five interacting loci map to disperse haploinsufficient or haplolethal regions of the genome. The implications of the present findings are discussed in relation to pursuing the phenomena involving genetic interactions to identify new genes encoding interacting myofibrillar proteins, to examine the nature of intermolecular interactions in mutant and normal development and to decipher the quantitative and temporal regulation of a large family of functionally related gene products.

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Behavioral mutants of Drosophila melanogaster

1980

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Sex-linked behavioral mutants were induced in Drosophila melanogaster with ethyl methanesulfonate (EMS) and isolated by direct visual observation of abnormal phenotypes. The four behavioral phenotypes used were flight-reduction, hyperactivity, hypoactivity and stress-sensitivity, and are easily discernable in either single or small populations of mutant flies. In one screen, forty-two behavioral mutants were recovered from strains derived from 800 mutagen-treated X chromosomes In a second screen, 139 behavioral mutants were obtained from 2369 X chromosomes. The high rate at which behavioral mutants were recovered in the second screen, when compared to new visibles (28) and new temperature-sensitive lethals (124), suggests that the isolation of behavioral mutations on the autosomes of Drosophila and in the genomes of larger insects should be practical.

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Some Mutations Affecting Neural or Muscular Tissues Alter the Physiological Components of the Electroretinogram inDrosophila

Homyk

Pye

1989

Journal of Neurogenetics

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Mutants displaying generalized behavioral defects and one mutant having an enzyme deficiency were examined for electroretinogram (ERG) defects. Mutations in nine genes were examined that cause ERG defects. Two, parats4 and slrpD, cause reversibly temperature dependent loss of the off-transients in the ERG. stnC and Tyr-2 cause loss of the on and off-transients. The transient defect in Tyr-2 mapped close to a site shown to affect tyrosinase activity in this strain. Mutations bas, rex and sesD delay recovery from the prolonged depolarization afterpotential. The visual defects of mutations elavjl and nbAEE171 are not complemented by lethal mutations, which, presumably, affect other tissues.

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Theodore Homyk

Deletion analysis of two nonessential regions of the T4 genome

Developmental and Physiological Analysis of a Conditional Mutation Affecting Photoreceptor and Optic Lobe Development in Drosophila melanogaster

Functional interactions between unlinked muscle genes within haploinsufficient regions of the Drosophila genome.

Behavioral mutants of Drosophila melanogaster

Some Mutations Affecting Neural or Muscular Tissues Alter the Physiological Components of the Electroretinogram inDrosophila

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