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Journal Abstract Search

497 related items for PubMed ID: 16478995

  • 1. Functional evolution of the photolyase/cryptochrome protein family: importance of the C terminus of mammalian CRY1 for circadian core oscillator performance.
    Chaves I, Yagita K, Barnhoorn S, Okamura H, van der Horst GT, Tamanini F.
    Mol Cell Biol; 2006 Mar; 26(5):1743-53. PubMed ID: 16478995
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  • 2. Structure function analysis of mammalian cryptochromes.
    Tamanini F, Chaves I, Bajek MI, van der Horst GT.
    Cold Spring Harb Symp Quant Biol; 2007 Mar; 72():133-9. PubMed ID: 18419270
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  • 3. Nucleocytoplasmic shuttling of clock proteins.
    Tamanini F, Yagita K, Okamura H, van der Horst GT.
    Methods Enzymol; 2005 Mar; 393():418-35. PubMed ID: 15817303
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  • 5. Expression and functional analyses of circadian genes in mouse oocytes and preimplantation embryos: Cry1 is involved in the meiotic process independently of circadian clock regulation.
    Amano T, Matsushita A, Hatanaka Y, Watanabe T, Oishi K, Ishida N, Anzai M, Mitani T, Kato H, Kishigami S, Saeki K, Hosoi Y, Iritani A, Matsumoto K.
    Biol Reprod; 2009 Mar; 80(3):473-83. PubMed ID: 19020302
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  • 6. Clock gene expression in the murine gastrointestinal tract: endogenous rhythmicity and effects of a feeding regimen.
    Hoogerwerf WA, Hellmich HL, Cornélissen G, Halberg F, Shahinian VB, Bostwick J, Savidge TC, Cassone VM.
    Gastroenterology; 2007 Oct; 133(4):1250-60. PubMed ID: 17919497
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  • 7. Ontogenesis of photoperiodic entrainment of the molecular core clockwork in the rat suprachiasmatic nucleus.
    Kováciková Z, Sládek M, Laurinová K, Bendová Z, Illnerová H, Sumová A.
    Brain Res; 2005 Dec 07; 1064(1-2):83-9. PubMed ID: 16289486
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  • 9. CLOCK-mediated acetylation of BMAL1 controls circadian function.
    Hirayama J, Sahar S, Grimaldi B, Tamaru T, Takamatsu K, Nakahata Y, Sassone-Corsi P.
    Nature; 2007 Dec 13; 450(7172):1086-90. PubMed ID: 18075593
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  • 12. Molecular analysis of zebrafish photolyase/cryptochrome family: two types of cryptochromes present in zebrafish.
    Kobayashi Y, Ishikawa T, Hirayama J, Daiyasu H, Kanai S, Toh H, Fukuda I, Tsujimura T, Terada N, Kamei Y, Yuba S, Iwai S, Todo T.
    Genes Cells; 2000 Sep 13; 5(9):725-38. PubMed ID: 10971654
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  • 13. Structure/function analysis of Xenopus cryptochromes 1 and 2 reveals differential nuclear localization mechanisms and functional domains important for interaction with and repression of CLOCK-BMAL1.
    van der Schalie EA, Conte FE, Marz KE, Green CB.
    Mol Cell Biol; 2007 Mar 13; 27(6):2120-9. PubMed ID: 17210647
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  • 14. Dual role of the CLOCK/BMAL1 circadian complex in transcriptional regulation.
    Kondratov RV, Shamanna RK, Kondratova AA, Gorbacheva VY, Antoch MP.
    FASEB J; 2006 Mar 13; 20(3):530-2. PubMed ID: 16507766
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  • 17. SIRT1 regulates circadian clock gene expression through PER2 deacetylation.
    Asher G, Gatfield D, Stratmann M, Reinke H, Dibner C, Kreppel F, Mostoslavsky R, Alt FW, Schibler U.
    Cell; 2008 Jul 25; 134(2):317-28. PubMed ID: 18662546
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  • 19. Toward construction of a self-sustained clock-like expression system based on the mammalian circadian clock.
    Chilov D, Fussenegger M.
    Biotechnol Bioeng; 2004 Jul 20; 87(2):234-42. PubMed ID: 15236253
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  • 20. PERIOD2 is a circadian negative regulator of PAI-1 gene expression in mice.
    Oishi K, Miyazaki K, Uchida D, Ohkura N, Wakabayashi M, Doi R, Matsuda J, Ishida N.
    J Mol Cell Cardiol; 2009 Apr 20; 46(4):545-52. PubMed ID: 19168071
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