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Items: 1 to 50 of 53

1.

Pentanuclear iron catalysts for water oxidation: substituents provide two routes to control onset potentials.

Praneeth VKK, Kondo M, Okamura M, Akai T, Izu H, Masaoka S.

Chem Sci. 2019 Mar 19;10(17):4628-4639. doi: 10.1039/c9sc00678h. eCollection 2019 May 7.

2.

Sake cake (sake-kasu) ingestion increases branched-chain amino acids in the plasma, muscles, and brains of senescence-accelerated mice prone 8.

Izu H, Shibata S, Fujii T, Matsubara K.

Biosci Biotechnol Biochem. 2019 Aug;83(8):1490-1497. doi: 10.1080/09168451.2019.1621155. Epub 2019 May 23.

PMID:
31119979
3.

Nutritional characterization of sake cake (sake-kasu) after heat-drying and freeze-drying.

Izu H, Yamashita S, Arima H, Fujii T.

Biosci Biotechnol Biochem. 2019 Aug;83(8):1477-1483. doi: 10.1080/09168451.2018.1559723. Epub 2018 Dec 22.

PMID:
30582422
4.

Anti-diabetic effect of S-adenosylmethionine and α-glycerophosphocholine in KK-Ay mice.

Izu H, Okuda M, Shibata S, Fujii T, Matsubara K.

Biosci Biotechnol Biochem. 2019 Apr;83(4):747-750. doi: 10.1080/09168451.2018.1559721. Epub 2018 Dec 22.

PMID:
30582404
5.

The delaying effect of alpha-glycerophosphocholine on senescence, transthyretin deposition, and osteoarthritis in senescence-accelerated mouse prone 8 mice.

Matsubara K, Okuda M, Shibata S, Miyaki S, Ohkubo T, Izu H, Fujii T.

Biosci Biotechnol Biochem. 2018 Apr;82(4):647-653. doi: 10.1080/09168451.2017.1403883. Epub 2017 Dec 1.

PMID:
29191088
6.

Effects of low dose of ethanol on the senescence score, brain function and gene expression in senescence-accelerated mice 8 (SAMP8).

Kimoto A, Izu H, Fu C, Suidasari S, Kato N.

Exp Ther Med. 2017 Aug;14(2):1433-1440. doi: 10.3892/etm.2017.4633. Epub 2017 Jun 20.

7.

Flexible adaptation of male germ cells from female iPSCs of endangered Tokudaia osimensis.

Honda A, Choijookhuu N, Izu H, Kawano Y, Inokuchi M, Honsho K, Lee AR, Nabekura H, Ohta H, Tsukiyama T, Ohinata Y, Kuroiwa A, Hishikawa Y, Saitou M, Jogahara T, Koshimoto C.

Sci Adv. 2017 May 12;3(5):e1602179. doi: 10.1126/sciadv.1602179. eCollection 2017 May.

8.

Discrimination of Stem Cell Status after Subjecting Cynomolgus Monkey Pluripotent Stem Cells to Naïve Conversion.

Honda A, Kawano Y, Izu H, Choijookhuu N, Honsho K, Nakamura T, Yabuta Y, Yamamoto T, Takashima Y, Hirose M, Sankai T, Hishikawa Y, Ogura A, Saitou M.

Sci Rep. 2017 Mar 28;7:45285. doi: 10.1038/srep45285.

9.

Direct activation of GABAA receptors by substances in the organic acid fraction of Japanese sake.

Izu H, Shigemori K, Eguchi M, Kawane S, Fujii S, Kitamura Y, Aoshima H, Yamada Y.

Food Chem. 2017 Jan 1;214:354-359. doi: 10.1016/j.foodchem.2016.07.048. Epub 2016 Jul 8.

PMID:
27507485
10.

Comparison of the neurotoxicities between volatile organic compounds and fragrant organic compounds on human neuroblastoma SK-N-SH cells and primary cultured rat neurons.

Yamada Y, Ohtani K, Imajo A, Izu H, Nakamura H, Shiraishi K.

Toxicol Rep. 2015 May 12;2:729-736. doi: 10.1016/j.toxrep.2015.05.002. eCollection 2015.

11.

Preliminary detection method for added rice- and sugarcane-derived brewer's alcohol in bulk samples of sake by measurement of hydrogen, oxygen, and carbon isotopes.

Hashiguchi T, Akamatsu F, Izu H, Fujii T.

Biosci Biotechnol Biochem. 2015;79(6):1018-20. doi: 10.1080/09168451.2015.1008974. Epub 2015 Feb 10.

PMID:
25666864
12.

Naïve-like conversion enhances the difference in innate in vitro differentiation capacity between rabbit ES cells and iPS cells.

Honsho K, Hirose M, Hatori M, Yasmin L, Izu H, Matoba S, Togayachi S, Miyoshi H, Sankai T, Ogura A, Honda A.

J Reprod Dev. 2015;61(1):13-9. doi: 10.1262/jrd.2014-098. Epub 2014 Oct 25.

13.

Single-step generation of rabbits carrying a targeted allele of the tyrosinase gene using CRISPR/Cas9.

Honda A, Hirose M, Sankai T, Yasmin L, Yuzawa K, Honsho K, Izu H, Iguchi A, Ikawa M, Ogura A.

Exp Anim. 2015;64(1):31-7. doi: 10.1538/expanim.14-0034. Epub 2014 Sep 8.

14.

Beneficial effect of a low dose of ethanol on liver function and serum urate in rats fed a high-fat diet.

Osaki A, Okazaki Y, Kimoto A, Izu H, Kato N.

J Nutr Sci Vitaminol (Tokyo). 2014;60(6):408-12. doi: 10.3177/jnsv.60.408.

15.

Naive-like conversion overcomes the limited differentiation capacity of induced pluripotent stem cells.

Honda A, Hatori M, Hirose M, Honda C, Izu H, Inoue K, Hirasawa R, Matoba S, Togayachi S, Miyoshi H, Ogura A.

J Biol Chem. 2013 Sep 6;288(36):26157-66. doi: 10.1074/jbc.M113.502492. Epub 2013 Jul 23.

16.

Lignin is linked to ethyl-carbamate formation in ume (Prunus mume) liqueur.

Hashiguchi T, Izu H, Sudo S.

Biosci Biotechnol Biochem. 2012;76(1):148-52. Epub 2012 Jan 7.

17.

The concentration of ethyl carbamate in commercial ume (Prunus mume) liqueur products and a method of reducing it.

Hashiguchi T, Horii S, Izu H, Sudo S.

Biosci Biotechnol Biochem. 2010;74(10):2060-6. Epub 2010 Oct 7.

18.

Hepatoprotective effects of a concentrate and components of sake against galactosamine (GalN)-induced liver injury in mice.

Izu H, Hizume K, Goto K, Hirotsune M.

Biosci Biotechnol Biochem. 2007 Apr;71(4):951-7. Epub 2007 Apr 7.

19.

S-adenosylmethionine (SAM)-accumulating sake yeast suppresses acute alcohol-induced liver injury in mice.

Izu H, Shobayashi M, Manabe Y, Goto K, Iefuji H.

Biosci Biotechnol Biochem. 2006 Dec;70(12):2982-9. Epub 2006 Dec 7.

20.

Sake yeast suppresses acute alcohol-induced liver injury in mice.

Izu H, Shobayashi M, Manabe Y, Goto K, Iefuji H.

Biosci Biotechnol Biochem. 2006 Oct;70(10):2488-93. Epub 2006 Oct 7.

21.

A novel HSF1-mediated death pathway that is suppressed by heat shock proteins.

Hayashida N, Inouye S, Fujimoto M, Tanaka Y, Izu H, Takaki E, Ichikawa H, Rho J, Nakai A.

EMBO J. 2006 Oct 18;25(20):4773-83. Epub 2006 Oct 5.

22.

The expression profile of microRNAs in mouse embryos.

Mineno J, Okamoto S, Ando T, Sato M, Chono H, Izu H, Takayama M, Asada K, Mirochnitchenko O, Inouye M, Kato I.

Nucleic Acids Res. 2006 Mar 31;34(6):1765-71. Print 2006.

23.

HSF4 is required for normal cell growth and differentiation during mouse lens development.

Fujimoto M, Izu H, Seki K, Fukuda K, Nishida T, Yamada S, Kato K, Yonemura S, Inouye S, Nakai A.

EMBO J. 2004 Oct 27;23(21):4297-306. Epub 2004 Oct 14.

24.

Feeding induces expression of heat shock proteins that reduce oxidative stress.

Katsuki K, Fujimoto M, Zhang XY, Izu H, Takaki E, Tanizawa Y, Inouye S, Nakai A.

FEBS Lett. 2004 Jul 30;571(1-3):187-91.

25.

Impaired IgG production in mice deficient for heat shock transcription factor 1.

Inouye S, Izu H, Takaki E, Suzuki H, Shirai M, Yokota Y, Ichikawa H, Fujimoto M, Nakai A.

J Biol Chem. 2004 Sep 10;279(37):38701-9. Epub 2004 Jun 29.

26.

Hsp25, a member of the Hsp30 family, promotes inclusion formation in response to stress.

Katoh Y, Fujimoto M, Nakamura K, Inouye S, Sugahara K, Izu H, Nakai A.

FEBS Lett. 2004 May 7;565(1-3):28-32.

27.

Dual control by regulators, GntH and GntR, of the GntII genes for gluconate metabolism in Escherichia coli.

Tsunedomi R, Izu H, Kawai T, Yamada M.

J Mol Microbiol Biotechnol. 2003;6(1):41-56.

PMID:
14593252
28.

Heat shock transcription factor 1 is involved in quality-control mechanisms in male germ cells.

Izu H, Inouye S, Fujimoto M, Shiraishi K, Naito K, Nakai A.

Biol Reprod. 2004 Jan;70(1):18-24. Epub 2003 Sep 3.

PMID:
12954729
29.

Heat shock transcription factor HSF1 is required for survival of sensory hair cells against acoustic overexposure.

Sugahara K, Inouye S, Izu H, Katoh Y, Katsuki K, Takemoto T, Shimogori H, Yamashita H, Nakai A.

Hear Res. 2003 Aug;182(1-2):88-96.

PMID:
12948605
30.

Activation of heat shock genes is not necessary for protection by heat shock transcription factor 1 against cell death due to a single exposure to high temperatures.

Inouye S, Katsuki K, Izu H, Fujimoto M, Sugahara K, Yamada S, Shinkai Y, Oka Y, Katoh Y, Nakai A.

Mol Cell Biol. 2003 Aug;23(16):5882-95.

31.

The activator of GntII genes for gluconate metabolism, GntH, exerts negative control of GntR-regulated GntI genes in Escherichia coli.

Tsunedomi R, Izu H, Kawai T, Matsushita K, Ferenci T, Yamada M.

J Bacteriol. 2003 Mar;185(6):1783-95.

32.

Characterization of the ves gene, which is expressed at a low temperature in Escherichia coli.

Yamada M, Nagamitsu H, Izu H, Nakamura K, Talukder AA.

J Mol Microbiol Biotechnol. 2002 Mar;4(2):163-9.

PMID:
11873911
33.
34.

Cloning of a cDNA for a constitutive NRT1 transporter from soybean and comparison of gene expression of soybean NRT1 transporters.

Yokoyama T, Kodama N, Aoshima H, Izu H, Matsushita K, Yamada M.

Biochim Biophys Acta. 2001 Mar 19;1518(1-2):79-86.

PMID:
11267662
35.
36.

Function of the sigma(E) regulon in dead-cell lysis in stationary-phase Escherichia coli.

Nitta T, Nagamitsu H, Murata M, Izu H, Yamada M.

J Bacteriol. 2000 Sep;182(18):5231-7.

37.

Cloning and expression of gene encoding a novel endoglycoceramidase of Rhodococcus sp. strain C9.

Sakaguchi K, Okino N, Sueyoshi N, Izu H, Ito M.

J Biochem. 2000 Jul;128(1):145-52.

38.
39.

Functions of amino acid residues in the active site of Escherichia coli pyrroloquinoline quinone-containing quinoprotein glucose dehydrogenase.

Elias MD, Tanaka M, Izu H, Matsushita K, Adachi O, Yamada M.

J Biol Chem. 2000 Mar 10;275(10):7321-6.

41.

Enzymatic N-deacylation of sphingolipids.

Ito M, Kita K, Kurita T, Sueyoshi N, Izu H.

Methods Enzymol. 2000;311:297-303. No abstract available.

PMID:
10563335
42.

The Glu residue in the conserved Asn-Glu-Pro sequence of endoglycoceramidase is essential for enzymatic activity.

Sakaguchi K, Okino N, Izu H, Ito M.

Biochem Biophys Res Commun. 1999 Jun 24;260(1):89-93.

PMID:
10381348
43.

High-temperature, nonradioactive primer extension assay for determination of a transcription-initiation site.

Yamada M, Izu H, Nitta T, Kurihara K, Sakurai T.

Biotechniques. 1998 Jul;25(1):72-4, 76, 78.

44.

Characterization of the gntT gene encoding a high-affinity gluconate permease in Escherichia coli.

Izu H, Kawai T, Yamada Y, Aoshima H, Adachi O, Yamada M.

Gene. 1997 Oct 15;199(1-2):203-10.

PMID:
9358057
45.
46.

Molecular cloning, expression, and sequence analysis of the endoglycoceramidase II gene from Rhodococcus species strain M-777.

Izu H, Izumi Y, Kurome Y, Sano M, Kondo A, Kato I, Ito M.

J Biol Chem. 1997 Aug 8;272(32):19846-50.

47.

The sugar specificity of Na+/glucose cotransporter from rat jejunum.

Aoshima H, Yokoyama T, Tanizaki J, Izu H, Yamada M.

Biosci Biotechnol Biochem. 1997 Jun;61(6):979-83.

48.
49.

Cloning, sequencing, and expression of Arthrobacter protophormiae endo-beta-N-acetylglucosaminidase in Escherichia coli.

Takegawa K, Yamabe K, Fujita K, Tabuchi M, Mita M, Izu H, Watanabe A, Asada Y, Sano M, Kondo A, Kato I, Iwahara S.

Arch Biochem Biophys. 1997 Feb 1;338(1):22-8.

PMID:
9015383
50.

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