Genetic and molecular analysis of wild-derived arrhythmic mice

Genetic and molecular analysis of wild-derived arrhythmic mice

A new circadian variant was isolated by screening the intercross offspring of wild-caught mice (Mus musculus castaneus). This variant was characterized by an initial maintenance of damped oscillations and subsequent loss of rhythmicity after being transferred from light-dark (LD) cycles to constant...

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Veröffentlicht in:PloS one 2009-01, Vol.4 (1), p.e4301
Hauptverfasser: Watanabe, Tsuyoshi, Suzuki, Tohru, Ishikawa, Akira, Yokota, Yuki, Ueda, Hiroki R, Yamada, Rikuhiro G, Tei, Hajime, Imai, Saki, Tomida, Shigeru, Kobayashi, Junya, Naito, Emiko, Yasuo, Shinobu, Nakao, Nobuhiro, Namikawa, Takao, Yoshimura, Takashi, Ebihara, Shizufumi
Format: Artikel
Sprache:eng
Schlagworte:
Amino Acid Substitution
Analysis
Animals
Animals, Wild - genetics
Animals, Wild - physiology
Behavior, Animal - physiology
Biological clocks
Cell Cycle Proteins - genetics
Cell Cycle Proteins - metabolism
Chromosomes, Mammalian - genetics
Circadian rhythm
Circadian Rhythm - genetics
Circadian Rhythm - physiology
Circadian rhythms
CLOCK Proteins
Crosses, Genetic
Darkness
Epistasis
Epistasis, Genetic
Female
Gene Expression Regulation
Gene mapping
Genes
Genetic crosses
Genetics and Genomics/Animal Genetics
Genetics and Genomics/Complex Traits
Genetics and Genomics/Physiogenomics
House mouse
Laboratories
Lod Score
Luminescent Measurements
Male
Mice
Mus musculus
Mutation
Mutation - genetics
Neuroscience/Behavioral Neuroscience
Nuclear Proteins - genetics
Nuclear Proteins - metabolism
Offspring
Oscillations
Period 1 protein
Period Circadian Proteins
Quantitative genetics
Quantitative trait loci
Quantitative Trait Loci - genetics
Rodents
Sequence Analysis, DNA
Suprachiasmatic nucleus
Suprachiasmatic Nucleus - metabolism
Trans-Activators - genetics
Trans-Activators - metabolism
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Zusammenfassung:A new circadian variant was isolated by screening the intercross offspring of wild-caught mice (Mus musculus castaneus). This variant was characterized by an initial maintenance of damped oscillations and subsequent loss of rhythmicity after being transferred from light-dark (LD) cycles to constant darkness (DD). To map the genes responsible for the persistence of rhythmicity (circadian ratio) and the length of free-running period (tau), quantitative trait locus (QTL) analysis was performed using F(2) mice obtained from an F(1) cross between the circadian variant and C57BL/6J mice. As a result, a significant QTL with a main effect for circadian ratio (Arrhythmicity; Arrh-1) was mapped on Chromosome (Chr) 8. For tau, four significant QTLs, Short free-running period (Sfp-1) (Chr 1), Sfp-2 (Chr 6), Sfp-3 (Chr 8), Sfp-4 (Chr 11) were determined. An epistatic interaction was detected between Chr 3 (Arrh-2) and Chr 5 (Arrh-3). An in situ hybridization study of clock genes and mouse Period1::luciferase (mPer1::luc) real-time monitoring analysis in the suprachiasmatic nucleus (SCN) suggested that arrhythmicity in this variant might not be attributed to core circadian mechanisms in the SCN neurons. Our strategy using wild-derived variant mice may provide a novel opportunity to evaluate circadian and its related disorders in human that arise from the interaction between multiple variant genes.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0004301