Dominic Orr scite author profile

The circadian oscillators of genetically short-period and long-period Drosophila exhibit reciprocal behaviour in four distinct ways: (1) with respect to the dependence of period on temperature, (2) in the change of period during constant darkness after ten days of constant light, (3) in the change of period during the second ten days of darkness as compared with the period during the first ten days, and (4) in the period change resulting from exposure to low-intensity constant light. The homeostatic control of the dependence of period length on temperature is impaired in the mutants as compared with wild-type flies. The normal Drosophila pacemaker may comprise two mutually coupled oscillators, whereas the mutants may represent a reduction in activity of one or the other constituent oscillator.

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

Konopka

Smith

Orr

1991

Journal of Neurogenetics

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A new clock mutant, named Andante, has been identified on the X chromosome of Drosophila melanogaster. Andante lengthens the period of the circadian eclosion and locomotor activity rhythms by 1.5-2.0 hours. The phase response curves for the eclosion and activity rhythms, indicating light-induced phase shifts, show a similar degree of lengthening. Andante also lengthens the periods of other clock mutants, including Clock, and alleles of the period locus. Analysis of locomotor activity rhythms reveals that Andante is semi-dominant, and Andante rhythms are highly temperature compensated. The sine oculis mutation, which eliminates the outer visual system, has no effect on the period of Andante. Deficiency mapping indicates that Andante is located in the 1OE1-2 to 1OF1 region of the X chromosome, close to the miniature-dusky locus. Whereas Andante flies have a dusky wing phenotype, dusky flies do not have an Andante clock phenotype.

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RECIPROCAL BEHAVIOUR ASSOCIATED WITH ALTERED HOMEOSTASIS AND PHOTOSENSITIVITY OFDROSOPHILACLOCK MUTANTS

Konopka

Pittendrigh

Orr

2007

Journal of Neurogenetics

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The circadian oscillators of genetically short-period and long-period Drosophila exhibit reciprocal behaviour in four distinct ways: (1) with respect to the dependence of period on temperature, (2) in the change of period during constant darkness after ten days of constant light, (3) in the change of period during the second ten days of darkness as compared with the period during the first ten days, and (4) in the period change resulting from exposure to low-intensity constant light. The homeostatic control of the dependence of period length on temperature is impaired in the mutants as compared with wild-type files. The normal Drosophila pacemaker may comprise two mutually coupled oscillators, whereas the mutants may represent a reduction in activity of one or the other constituent oscillator.

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Effects of a Clock Mutation on the Subjective Day — Implications for a Membrane Model of the Drosophila Circadian Clock

Konopka

Orr

1980

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Phenotypic and genetic analysis of Clock, a new circadian rhythm mutant in Drosophila melanogaster.

Dushay

Konopka

Orr

et al. 1990

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Clock is a semidominant X-linked mutation that results in shortening the period of Drosophila melanogaster's free-running locomotor activity rhythm from ca. 24.0 to ca. 22.5 hr. This mutation similarly shortened the phase response curve, determined by resetting activity rhythms with light pulses. Eclosion peaks for Clk cultures were separated by only 22.5 hr instead of the normal 24 hr. Clk was mapped close to, but separable from, another rhythm mutation--period01--by recombination. The estimated distance between these two mutations was short enough to suggest that Clk could be a per allele. If this is the case, the new mutant is unique in that it, unlike other per variants, is associated with essentially normal 1-min courtship song rhythms when Clk is expressed in males. Also, the new rhythm variant could not, in contrast to a short-period per mutation, have its effects on free-running activity rhythms uncovered by deletions. This result, and the lack of coverage of Clk's effects by duplications, suggest that it is not a simple hypomorphic or amorphic mutation.

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Dominic Orr

Reciprocal Behaviour Associated with Altered Homeostasis and Photosensitivity of Drosophila Clock Mutants

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

RECIPROCAL BEHAVIOUR ASSOCIATED WITH ALTERED HOMEOSTASIS AND PHOTOSENSITIVITY OFDROSOPHILACLOCK MUTANTS

Effects of a Clock Mutation on the Subjective Day — Implications for a Membrane Model of the Drosophila Circadian Clock

Phenotypic and genetic analysis of Clock, a new circadian rhythm mutant in Drosophila melanogaster.

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