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Journal Abstract Search

110 related items for PubMed ID: 10802100

  • 1. Circadian component influences the photoperiodic induction of diapause in a drosophilid fly, Chymomyza costata.
    Kost'ál V, Noguchi H, Shimada K, Hayakawa Y.
    J Insect Physiol; 2000 Jun 01; 46(6):887-896. PubMed ID: 10802100
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  • 2. Dopamine and serotonin in the larval CNS of a drosophilid fly, Chymomyza costata: are they involved in the regulation of diapause?
    Kostal V, Noguchi H, Shimada K, Hayakawa Y.
    Arch Insect Biochem Physiol; 1999 Oct 01; 42(2):147-62. PubMed ID: 10504208
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  • 3. Induction and development of winter larval diapause in a drosophilid fly, Chymomyza costata.
    Kostal V, Shimada K, Hayakawa Y.
    J Insect Physiol; 2000 Apr 01; 46(4):417-428. PubMed ID: 12770205
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  • 4. Photoperiod-sensitive developmental delay in facet mutants of the drosophilid fly, Chymomyza costata and the genetic interaction with timeless.
    Shimada K.
    J Insect Physiol; 2005 Jun 01; 51(6):649-53. PubMed ID: 15993129
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  • 6. Developmental changes in dopamine levels in larvae of the fly Chymomyza costata: comparison between wild-type and mutant-nondiapause strains.
    Hayakawa Y, Shimada K, Noguchi H, Kostal V.
    J Insect Physiol; 1998 Jul 01; 44(7-8):605-614. PubMed ID: 12769943
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  • 10. Cell cycle arrest as a hallmark of insect diapause: changes in gene transcription during diapause induction in the drosophilid fly, Chymomyza costata.
    Kostál V, Simůnková P, Kobelková A, Shimada K.
    Insect Biochem Mol Biol; 2009 Dec 01; 39(12):875-83. PubMed ID: 19879357
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  • 11. Conceptual framework of the eco-physiological phases of insect diapause development justified by transcriptomic profiling.
    Koštál V, Štětina T, Poupardin R, Korbelová J, Bruce AW.
    Proc Natl Acad Sci U S A; 2017 Aug 08; 114(32):8532-8537. PubMed ID: 28720705
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  • 12. Photoperiodic clock of diapause induction in Pseudopidorus fasciata (Lepidoptera: Zygaenidae).
    Wei X, Xue F, Li A.
    J Insect Physiol; 2001 Dec 08; 47(12):1367-1375. PubMed ID: 12770143
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  • 13. In vitro reprogramming of the photoperiodic clock in an insect brain-retrocerebral complex.
    Bowen MF, Saunders DS, Bollenbacher WE, Gilbert LI.
    Proc Natl Acad Sci U S A; 1984 Sep 08; 81(18):5881-4. PubMed ID: 6592591
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  • 14. Photoperiodism in hamsters: abrupt versus gradual changes in day length differentially entrain morning and evening circadian oscillators.
    Gorman MR, Freeman DA, Zucker I.
    J Biol Rhythms; 1997 Apr 08; 12(2):122-35. PubMed ID: 9090566
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  • 16. Differential expression of circadian clock genes in two strains of beetles reveals candidates related to photoperiodic induction of summer diapause.
    Zhu L, Liu W, Tan QQ, Lei CL, Wang XP.
    Gene; 2017 Mar 01; 603():9-14. PubMed ID: 27956169
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  • 17. Clock genes period and timeless are rhythmically expressed in brains of newly hatched, photosensitive larvae of the fly, Sarcophaga crassipalpis.
    Kostál V, Závodská R, Denlinger D.
    J Insect Physiol; 2009 May 01; 55(5):408-14. PubMed ID: 19186184
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  • 18. Hypothesis driven single cell dual oscillator mathematical model of circadian rhythms.
    S S, Sriram K.
    PLoS One; 2017 May 01; 12(5):e0177197. PubMed ID: 28486525
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  • 19. Drosophila ezoana uses an hour-glass or highly damped circadian clock for measuring night length and inducing diapause.
    Vaze KM, Helfrich-Förster C.
    Physiol Entomol; 2016 Dec 01; 41(4):378-389. PubMed ID: 27867253
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  • 20. Involvement of circadian oscillation(s) in the photoperiodic time measurement and the induction of reproductive diapause in a northern Drosophila species.
    Kauranen H, Tyukmaeva V, Hoikkala A.
    J Insect Physiol; 2013 Jul 01; 59(7):662-6. PubMed ID: 23665332
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