tim(rit) Lengthens circadian period in a temperature-dependent manner through suppression of PERIOD protein cycling and nuclear localization

Akira Matsumoto; Kenji Tomioka; Yoshihiko Chiba; Teiichi Tanimura

doi:10.1128/MCB.19.6.4343

tim(rit) Lengthens circadian period in a temperature-dependent manner through suppression of PERIOD protein cycling and nuclear localization

Akira Matsumoto, Kenji Tomioka, Yoshihiko Chiba, Teiichi Tanimura

dynamic biology

Research output: Contribution to journal › Article › peer-review

43 Citations (Scopus)

Abstract

A fundamental feature of circadian clocks is temperature compensation of period. The free-running period of ritsu (tim(rit)) (a novel allele of timeless [tim]) mutants is drastically lengthened in a temperature-dependent manner. PER and TIM protein levels become lower in tim(rit) mutants as temperature becomes higher. This mutation reduces per mRNA but not tim mRNA abundance. PER constitutively driven by the rhodopsin1 promoter is lowered in rit mutants, indicating that tim(rit) mainly affects the per feedback loop at a posttranscriptional level. An excess of per⁺ gene dosage can ameliorate all rit phenotypes, including the weak nuclear localization of PER, suggesting that tim(rit) affects circadian rhythms by reducing PER abundance and its subsequent transportation into nuclei as temperature increases.

Original language	English
Pages (from-to)	4343-4354
Number of pages	12
Journal	Molecular and cellular biology
Volume	19
Issue number	6
DOIs	https://doi.org/10.1128/MCB.19.6.4343
Publication status	Published - Jun 1999

All Science Journal Classification (ASJC) codes

Molecular Biology
Cell Biology

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abstract = "A fundamental feature of circadian clocks is temperature compensation of period. The free-running period of ritsu (tim(rit)) (a novel allele of timeless [tim]) mutants is drastically lengthened in a temperature-dependent manner. PER and TIM protein levels become lower in tim(rit) mutants as temperature becomes higher. This mutation reduces per mRNA but not tim mRNA abundance. PER constitutively driven by the rhodopsin1 promoter is lowered in rit mutants, indicating that tim(rit) mainly affects the per feedback loop at a posttranscriptional level. An excess of per+ gene dosage can ameliorate all rit phenotypes, including the weak nuclear localization of PER, suggesting that tim(rit) affects circadian rhythms by reducing PER abundance and its subsequent transportation into nuclei as temperature increases.",

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AU - Tanimura, Teiichi

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AB - A fundamental feature of circadian clocks is temperature compensation of period. The free-running period of ritsu (tim(rit)) (a novel allele of timeless [tim]) mutants is drastically lengthened in a temperature-dependent manner. PER and TIM protein levels become lower in tim(rit) mutants as temperature becomes higher. This mutation reduces per mRNA but not tim mRNA abundance. PER constitutively driven by the rhodopsin1 promoter is lowered in rit mutants, indicating that tim(rit) mainly affects the per feedback loop at a posttranscriptional level. An excess of per+ gene dosage can ameliorate all rit phenotypes, including the weak nuclear localization of PER, suggesting that tim(rit) affects circadian rhythms by reducing PER abundance and its subsequent transportation into nuclei as temperature increases.

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tim(rit) Lengthens circadian period in a temperature-dependent manner through suppression of PERIOD protein cycling and nuclear localization

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