A RECESSIVE CIRCADIAN CLOCK MUTATION AT THE frq LOCUS OF NEUROSPORA CRASSA

A RECESSIVE CIRCADIAN CLOCK MUTATION AT THE frq LOCUS OF NEUROSPORA CRASSA

Jennifer J. Loros ¹, Adam Richman ¹, and Jerry F. Feldman ¹

¹ Thimann Laboratories, University of California, Santa Cruz, California 95064

A circadian clock mutant of Neurospora crassa, the most distinctivecharacteristic of which is the complete loss of temperaturecompensation of its period length, maps to the frq locus whereseven other clock mutants have previously been mapped. Thismutant, designated frq-9, is recessive to the wild-type alleleand to each of the other frq mutants; thus, it differs fromthe other mutants, which show incomplete dominance to wild typeand to each other. Complementation analysis suggests eitherthat the frq locus is a single gene or that frq-9 is a deletion thatoverlaps adjacent genes. Preliminary efforts at fine structuremapping have indicated that recombination between certain pairsof frq mutations is less than 0.005%, a distance consistentwith the locus being a single gene. The recessive nature offrq-9, coupled with complete loss of temperature compensation,suggests that this mutant may represent the null phenotype of thelocus and that the frq gene is involved in the temperature compensation mechanismof the clock.—Genetic mapping studies have placed the frqlocus on linkage group VIIR, midway between oli (oligomycin resistance)and for (formate auxotrophy), about 2 map units from each, andclearly indicate that frq and oli are separate genes.

Submitted on August 26, 1985
Accepted on August 18, 1986

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				J. J. Loros, J. C. Dunlap, L. F. Larrondo, M. Shi, W. J. Belden, V. D. Gooch, C.-H. Chen, C. L. Baker, A. Mehra, H. V. Colot, et al. Circadian Output, Input, and Intracellular Oscillators: Insights into the Circadian Systems of Single Cells Cold Spring Harb Symp Quant Biol, January 1, 2007; 72(0): 201 - 214. [Abstract] [PDF]

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				T. Schafmeier, K. Kaldi, A. Diernfellner, C. Mohr, and M. Brunner Phosphorylation-dependent maturation of Neurospora circadian clock protein from a nuclear repressor toward a cytoplasmic activator Genes & Dev., February 1, 2006; 20(3): 297 - 306. [Abstract] [Full Text] [PDF]

				A. M. Pregueiro, N. Price-Lloyd, D. Bell-Pedersen, C. Heintzen, J. J. Loros, and J. C. Dunlap From The Cover: Assignment of an essential role for the Neurospora frequency gene in circadian entrainment to temperature cycles PNAS, February 8, 2005; 102(6): 2210 - 2215. [Abstract] [Full Text] [PDF]

				A. Rothenfluh, M. Abodeely, J. L. Price, and M. W. Young Isolation and Analysis of Six timeless Alleles That Cause Short- or Long-Period Circadian Rhythms in Drosophila Genetics, October 1, 2000; 156(2): 665 - 675. [Abstract] [Full Text]

				M. W. Merrow, N. Y. Garceau, and J. C. Dunlap Dissection of a circadian oscillation into discrete domains PNAS, April 15, 1997; 94(8): 3877 - 3882. [Abstract] [Full Text] [PDF]

				B. Aronson, K. Johnson, J. Loros, and J. Dunlap Negative feedback defining a circadian clock: autoregulation of the clock gene frequency Science, March 18, 1994; 263(5153): 1578 - 1584. [Abstract] [PDF]

				C. E. Borgeson and B. J. Bowman Mutations That Affect Circadian Rhythms in Neurospora crassa Can Alter the Reduction of Cytochromes by Blue Light J Biol Rhythms, December 1, 1990; 5(4): 291 - 301. [Abstract] [PDF]

				M. S. Dushay, M. Rosbash, and J. C. Hall The disconnected Visual System Mutations in Drosophila melanogaster Drastically Disrupt Circadian Rhythms J Biol Rhythms, March 1, 1989; 4(1): 1 - 27. [Abstract] [PDF]

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A RECESSIVE CIRCADIAN CLOCK MUTATION AT THE frq LOCUS OF NEUROSPORA CRASSA

Jennifer J. Loros 1, Adam Richman 1, and Jerry F. Feldman 1

Jennifer J. Loros ¹, Adam Richman ¹, and Jerry F. Feldman ¹