Yumiko Takagi scite author profile

The circadian rhythms in mammals are regulated by a pacemaker located in the suprachiasmatic nucleus of the hypothalamus. Four clock-gene families have been found to be involved in a transcription-translation feedback loop that generates the circadian rhythm at the intracellular level. The proteins Clock and Bmal1 form a heterodimer which activates the transcription of the Per gene from the E-box elements in its promoter region. Protein products of Per act together with Cry proteins to inhibit Per transcription, thus closing the autoregulatory feedback loop. We found that Dec1 and Dec2, basic helix-loop-helix transcription factors, repressed Clock/Bmal1-induced transactivation of the mouse Per1 promoter through direct protein-protein interactions with Bmal1 and/or competition for E-box elements. Dec1 and Dec2 are expressed in the suprachiasmic nucleus in a circadian fashion, with a peak in the subjective day. A brief light pulse induced Dec1 but not Dec2 expression in the suprachiasmic nucleus in a phase-dependent manner. Dec1 and Dec2 are regulators of the mammalian molecular clock, and form a fifth clock-gene family.

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Interaction of folliculin (Birt-Hogg-Dubé gene product) with a novel Fnip1-like (FnipL/Fnip2) protein

Takagi

et al. 2008

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Birt-Hogg-Dube´(BHD) syndrome is characterized by the development of pneumothorax, hair folliculomas and renal tumors and the responsible BHD gene is thought to be a tumor suppressor. The function of folliculin (Flcn), encoded by BHD, is totally unknown, although its interaction with Fnip1 has been reported. In this study, we identified a novel protein binding to Flcn, which is highly homologous to Fnip1, and which we named FnipL (recently reported in an independent study as Fnip2). The interaction between FnipL/Fnip2 and Flcn may be mediated mainly by the C-terminal domains of each protein as is the case for the Flcn-Fnip1 interaction. FnipL/Fnip2 and Flcn were located together in the cytoplasm in a reticular pattern, although solely expressed Flcn was found mainly in the nucleus. Cytoplasmic retention of Flcn was canceled with C-terminal truncation of FnipL/Fnip2, suggesting that FnipL/Fnip2 regulates Flcn distribution through their complex formation. By the employment of siRNA, we observed a decrease in S6K1 phosphorylation in the BHDsuppressed cell. We also observed a decrease in S6K1 phosphorylation in FNIP1-and, to a lesser extent, in FNIPL/FNIP2-suppressed cells. These results suggest that Flcn-FnipL/Fnip2 and Flcn-Fnip1 complexes positively regulate S6K1 phosphorylation and that FnipL/Fnip2 provides an important clue to elucidating the function of Flcn and the pathogenesis of BHD.

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Abrogation of the interaction between osteopontin and αvβ3 integrin reduces tumor growth of human lung cancer cells in mice

et al. 2007

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Laccase-Catalyzed Reactions in Ionic Liquids for Green Sustainable Chemistry

Itoh

Takagi

2020

ACS Sustainable Chem. Eng.

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Biocatalysis is an important and enabling tool in organic synthesis, degradation of chemical compounds, and biosensors. Laccases are copper ions containing oxidase and catalyze the conversion of polyphenol or amine derivatives using molecular oxygen. Recently, significant interests have gained attention for the development of a biochemical degradation method of lignocellulosic materials from the standpoint of green sustainable chemistry. Since these compounds are highly oxidized compounds, it is difficult to convert them stereo-or chemo-selectively to high-value small molecules. Chemical oxidations generally require hazardous reagents and harsh reaction conditions; hence, the resulting produced compounds are generally low-value molecules or complicated mixtures. On the contrary, laccases allow hazardous-reagent-free highly selective oxidative chemical conversions. The reactivity of the enzymes is influenced by a set of reaction conditions, in particular, the solvent system. Ionic liquids (ILs) have now been acknowledged as useful reaction media for biotransformations. Laccase-mediated reactions in ILs have been reviewed and focused on four topics: the first is "laccase-catalyzed reactions in ILs". The second is "biosensor system using laccase-mediated reaction in ILs". The third is "improved stability of laccase by immobilization or IL type additives", and the last chapter is "improved activity of laccase in ILs by protein engineering". Our opinion toward future perspectives of laccase-mediated reactions has also been discussed in "conclusions and future perspectives".

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Systematic Synthesis of Multifluorinated α,α-Difluoro-γ-lactones through Intramolecular Radical Cyclization

et al. 1998

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Carbon radicals from allyl O-(trimethylsilyl)-alpha-bromo-alpha,alpha-difluoroacetal can cyclize onto the olefinic part regiospecifically to give gamma-lactols in good yield. The lactols are then converted to the corresponding alpha,alpha-difluoro-gamma-lactones. Systematic synthesis of multifluorinated-alpha,alpha-difluoro-gamma-lactones has thus been accomplished through intramolecular radical cyclization as a key reaction. Semiempirical MO calculation study suggested a unique nature of alpha,alpha-difluoroacetate in that complete delocalization of the electrons in the SOMO orbital of alpha,alpha-difluoroacetyl radical occurred; this caused unsuccessful cyclization. To apply the present radical reaction, the first synthesis of both enantiomers of difluoroeldanolide, analogues of the sex pheromone of the male African sugarcane borer, has been demonstrated. Electrophysiological tests revealed that the difluorinated analogues were as active as the natural eldanolide on the olfactory receptors.

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Yumiko Takagi

Dec1 and Dec2 are regulators of the mammalian molecular clock

Interaction of folliculin (Birt-Hogg-Dubé gene product) with a novel Fnip1-like (FnipL/Fnip2) protein

Abrogation of the interaction between osteopontin and αvβ3 integrin reduces tumor growth of human lung cancer cells in mice

Laccase-Catalyzed Reactions in Ionic Liquids for Green Sustainable Chemistry

Systematic Synthesis of Multifluorinated α,α-Difluoro-γ-lactones through Intramolecular Radical Cyclization

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