Characterization of<i>Andante</i>, A New<i>Drosophila</i>Clock Mutant, and its Interactions with Other Clock Mutants

Konopka, Ronald J.; Smith, Rosemary J.; Orr, Dominic

doi:10.3109/01677069109066214

Cited by 48 publications

(30 citation statements)

References 20 publications

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“…(However, and as is so for any chronovariant at the outset, there was no way to infer that And is a pacemaker mutant per se.) Cycle durations of And adults or of flies emerging from late-developing cultures are only at most 2 hours different from the norm (Konopka et al 1991). This seems to have militated against immediate or even vigorous attempts to take this gene to the molecular level.…”

Section: Mutations At Chronogenetic Loci More Complicated Than One Womentioning

confidence: 99%

“…Furthermore, And came with a wing anatomical abnormality whose appearance was like that of the classical dusky (dy) mutants (Konopka et al 1991). Sure enough, the mutational etiology of the And-and dy-like defect mapped to one genetic locus on the X chromosome-to the narrowly defined region where dy mutations (per se) were long known to be located (Konopka et al 1991). Did some dissatisfaction set in thereby, owing to pleiotropy of the And mutant strain?…”

Section: Mutations At Chronogenetic Loci More Complicated Than One Womentioning

confidence: 99%

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Principles and Problems Revolving Round Rhythm-related Genetic Variants

Hall¹,

Chang²,

Doleželová³

2007

Cold Spring Harbor Symposia on Quantitative Biology

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Much of what is known about the regulation of circadian rhythms has stemmed from the induction, recognition, or manufacture of genetic variants. Such investigations have been especially salient in chronobiological analyses of Drosophila. Many starting points for elucidation of rhythmic processes operating in this insect entailed the isolation of mutants or the design of engineered gene modifications. Various features of the principles and practices associated with the genetic approach toward understanding clock functions, and chronobiologically related ones, are discussed from perspectives that are largely genetic as such, although intertwined with certain neurogenetic and molecular-genetic concerns when appropriate. Key themes in this treatment connect with the power and problems associated with multiply mutant forms of rhythm-related genes, with the opportunistic or problematical aspects of multigenic variants that are in play (sometimes surprisingly), and with a question as to how forceful chronogenetic inferences have been in terms of elucidating the mechanisms of circadian pacemaking.What'dya say we bust up this joint?Rodney Dangerfield (1980) Cold Spring Harbor Symposia on Quantitative Biology, Volume LXXII.

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Section: Mutations At Chronogenetic Loci More Complicated Than One Womentioning

confidence: 99%

Section: Mutations At Chronogenetic Loci More Complicated Than One Womentioning

confidence: 99%

Principles and Problems Revolving Round Rhythm-related Genetic Variants

Hall¹,

Chang²,

Doleželová³

2007

Cold Spring Harbor Symposia on Quantitative Biology

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“…In the earlier experiments involving rhythm defects and learning, the most dramatically defective mutant was And, notwithstanding the fact that this mutant's circadian clock runs only 1-2 hr more slowly than normal (Konopka et al 1991;Newby et al 1991). A set of novel And-like mutants was induced by mutagenesis, and the isolation of these variants was accompanied by analysis of their pleiotropic effects (Newby et al 1991 ).…”

confidence: 99%

“…One dy mutant reported by Newby et al (1991), dy n2, was not investigated in the present behavioral experiments owing to its near-normal appearance (see description of "blind-testing" procedure, below). The original dy-related rhythm variant, dy Ana, had been maintained here for many years (having been obtained from R.J. Konopka, a long time before it was reported; Konopka et al 1991 adults. This darkening is not a pigmentation problem but is caused by the fact that individual wing cells of dy flies are smaller than normal (see Newby et al 1991 and references therein).…”

Section: Drosophila Strains and Culture Conditionsmentioning

confidence: 99%

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Analysis of conditioned courtship in dusky-Andante rhythm mutants of Drosophila.

Swinderen

Hall²

1995

Learn. Mem.

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IntroductionGenetic connections between learning and rhythmicity were suggested to have been established in a previous study, in part because the dusky Andante (dy And) mutation in Drosophila disrupted both behaviors. dy And, isolated as a slow-clock variant, was reported to cause an approximately fourfold decrement in courtship-suppression conditioning. These effects have been reexamined;the experiments were buttressed by testing the effects of several recently isolated mutations at the dusky locus, along with the original And allele that had been induced there. The reexamination was also prompted by anatomical concerns, certain of which have recently focused on dy-induced decrements in cell size, but only in terms of wing morphology. Another anatomical issue involves the discovery of a neuronal pathway that seems to connect circadian pacemaker cells to a structure in the Drosophila brain that is involved in learning. In observer-blind experiments, however, it was found that neither pacemaker-slowing (Andante.like) dy mutations nor others that cause no rhythm defects produced subnormal conditioned courtship. Moreover, in the adult brain of a slow-clock dy And mutant, no axonal pathway defects were readily discernible and putative pacemaker neurons appeared to be normal in size.

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Developmental and genetic mosaic analysis of Drosophila m‐dy mutants: Tissue foci for behavioral and morphogenetic defects

Newby¹,

Jackson²

1995

Dev. Genet.

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Mutants of the Drosophila miniature-dusky (m-dy) gene complex display morphogenetic phenotypes (miniature or dusky) caused by a change in the size and/or shape of the epidermal cells comprising the adult wing. In addition to a dusky phenotype, certain Andante-type mutants also exhibit lengthened circadian periods for two different behavioral rhythms. If the latter phenotype results from a direct effect on the circadian pacemaker, the Andante function should be required within the brain. In order to define the tissues that require the morphogenetic and behavioral functions, we have carried out a genetic mosaic analysis. This study demonstrates that normal wing morphogenesis is entirely dependent on the genotype of wing cells. Furthermore, temperature-shift experiments with a temperature-sensitive dy mutant indicate that the morphogenetic function is required during adult development, and after the cessation of wing epidermal cell proliferation. At this time in development, a columnar epithelium in the developing wing becomes flattened into the mature wing blade, and we postulate that the cell-size defect of m-dy mutants results from an alteration of this morphogenetic process. In contrast to the wing morphogenesis phenotype, the characterization of locomotor activity in mosaic adults revealed a strong correlation between the head genotype and the Andante circadian-period phenotype. This result indicates that neural tissues mediate the rhythm function. Thus, the behavioral and morphogenetic functions require gene expression in distinct tissues.(ABSTRACT TRUNCATED AT 250 WORDS)

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Characterization ofAndante, A NewDrosophilaClock Mutant, and its Interactions with Other Clock Mutants

Cited by 48 publications

References 20 publications

Principles and Problems Revolving Round Rhythm-related Genetic Variants

Principles and Problems Revolving Round Rhythm-related Genetic Variants

Analysis of conditioned courtship in dusky-Andante rhythm mutants of Drosophila.

Developmental and genetic mosaic analysis of Drosophila m‐dy mutants: Tissue foci for behavioral and morphogenetic defects

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