{"id":31,"date":"2021-10-19T16:37:08","date_gmt":"2021-10-19T07:37:08","guid":{"rendered":"https:\/\/chronoproteinology.org\/b\/?page_id=31"},"modified":"2023-12-14T15:16:05","modified_gmt":"2023-12-14T06:16:05","slug":"publication","status":"publish","type":"page","link":"https:\/\/chronoproteinology.org\/b\/publication\/","title":{"rendered":"\u7814\u7a76\u6210\u679c"},"content":{"rendered":"\n

\u9818\u57df\u30e1\u30f3\u30d0\u30fc\u304c\u95a2\u308f\u3063\u305f\u8ad6\u6587\u3092\u307e\u3068\u3081\u3066\u3044\u307e\u3059\u3002<\/p>\n\n\n\n

2023<\/h3>\n\n\n\n

Structure, Stability and Binding Properties of Collagen-Binding Domains from\u00a0Streptococcus mutans<\/em>.
Nishi A, Matsui H, Hirata A, Mukaiyama A<\/strong>, Tanaka S-i, Yoshizawa T, Matsumura H, Nomura R, Nakano K, Takano K.
Chemistry<\/strong><\/em>. 2023 Sep 1; 5(3):1911-1920.
Journal<\/a><\/p>\n\n\n\n

A non-cell-autonomous circadian rhythm of bioluminescence reporter activities in individual duckweed cells.
Watanabe E, Muranaka T<\/strong>, Nakamura S, Isoda M, Horikawa Y, Aiso T, Ito S, Oyama T.
Plant Physiol<\/strong><\/em>. 2023 Aug 31;193(1):677-688
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Elucidation of the mechanism of amyloid A and transthyretin formation using mass spectrometry-based absolute quantification.
Shintani-Domoto Y, Ode KL<\/strong>, Nomura S, Abe H, Ueda HR, Sakatani T, Ohashi R.
Virchows Arch<\/em><\/strong>. 2023 Jul 15. Epub ahead of print.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

CCPG1 recognizes ER luminal proteins for selective ER-phagy.
Ishii S, Chino H, Ode KL<\/strong>, Kurikawa Y, Ueda HR, Matsuura A, Mizushima N, Itakura E.
Mol Biol Cell.<\/em><\/strong> 2023 Apr 1;34(4):ar29
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

2022<\/h3>\n\n\n\n

The role of calcium and CaMKII in sleep.
Wang Y, Minami Y, Ode KL<\/strong>, Ueda HR.
Front Syst Neurosci.<\/em><\/strong> 2022 Dec 22;16:1059421.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

A potential EARLY FLOWERING 3 homolog in Chlamydomonas<\/em> is involved in the red\/violet and blue light signaling pathways for the degradation of <\/em>RHYTHM OF CHLOROPLAST 15
Gururaj M, Ohmura A, Ozawa M, Yamano T, Fukuzawa H, Matsuo T<\/strong>.
PLoS Genet<\/em><\/strong>. 2022 Oct 17;18(10):e1010449
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Distinct phosphorylation states of mammalian CaMKII\u03b2 control the induction and maintenance of sleep.
Tone D, Ode KL<\/strong>, Zhang Q, Fujishima H, Yamada RG, Nagashima Y, Matsumoto K, Wen Z, Yoshida SY, Mitani TT, Arisato Y, Ohno RI, Ukai-Tadenuma M, Yoshida Gar\u00e7on J, Kaneko M, Shi S, Ukai H, Miyamichi K, Okada T, Sumiyama K, Kiyonari H, Ueda HR.
PLoS Biol.<\/em><\/strong> 2022 Oct 4;20(10):e3001813.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Ubiquitination of phosphatidylethanolamine in organellar membranes.
Sakamaki J., Ode KL<\/strong>, Kurikawa Y, Ueda HR, Yamamoto H, Mizushima N.
Mol. Cell<\/em><\/strong> 2022 Oct 6;82(19):3677
Journal<\/a> PubMed<\/a><\/p>\n\n\n\n

Rhythmic transcription of Bmal1<\/em> stabilizes the circadian timekeeping system in mammals.
Abe YO, Yoshitane H<\/strong>, Kim DW, Kawakami S, Koebis M, Nakao K, Aiba A, Kim JK, Fukada Y.
Nat Commun<\/em><\/strong>. 2022 Aug 23; 13(1):4652.
Journal<\/a>\u3000PubMed<\/a>\u3000\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9<\/a><\/p>\n\n\n\n

Lint-O cooperates with L(3)mbt in target gene suppression to maintain homeostasis in fly ovary and brain.
Yamamoto-Matsuda H, Miyoshi K, Moritoh M, Yoshitane H<\/strong>, Fukada Y, Saito K, Yamanaka S, Siomi MC.
EMBO Rep<\/em><\/strong> . 2022 Aug 22; e53813 Online ahead of print.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Highly sensitive tryptophan fluorescence probe for detecting rhythmic conformational changes of KaiC in the cyanobacterial circadian clock system
Mukaiyama A<\/strong>, Furuike Y, Yamashita E, Akiyama S
Biochem J.<\/em><\/strong> 2022 Jul 29; 479(14):1505-1515.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Measurement method of a microspring-supported force plate with an external laser displacement meter.
Sugimoto T, Kawasaki Y, Toda H<\/strong>, Takahashi H.
Meas. Sci. Technol.<\/em><\/strong><\/em><\/strong> 2022 Jul 25; 33: 105118 
Journal<\/a><\/p>\n\n\n\n

Adiponectin regulates the circadian rhythm of glucose and lipid metabolism.
Wada T, Yamamoto Y, Takasugi Y, Ishii H, Uchiyama T, Saitoh K, Suzuki M, Uchiyama M, Yoshitane H<\/strong>, Fukada Y, Shimba S.
J Endocrinol<\/em><\/strong> . 2022 Jul 21; 254(2):121-133.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Circadian-period variation underlies the local adaptation of photoperiodism in the short-day plant Lemna aequinoctialis<\/em>.
Muranaka T<\/strong>, Ito S, Kudoh H, Oyama T.
iScience<\/em><\/strong><\/em><\/strong> 2022 Jun 17; 25(7): 104634
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Association of social jetlag and eating pattern with sleep quality and daytime sleepiness in Japanese high school students.
Sasawaki Y, Inokawa H, Obata Y, Nagao S, Yagita K<\/strong>.
J. Sleep Res<\/strong>.<\/em> 2022 Jun 7; Online ahead of print.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Phosphorylation by casein kinase 2 enhances the interaction between ER-phagy receptor TEX264 and ATG8 proteins.
Chino H, Yamasaki A, Ode KL<\/strong>, Ueda HR, Noda NN, Mizushima N.
EMBO Rep.<\/em><\/strong> 2022 Jun 7;23(6):e54801.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Molecular encoding and synaptic decoding of context during salt chemotaxis in C. elegans<\/em>.
Hiroki S, Yoshitane H<\/strong>, Mitsui H, Sato H, Umatani C, Kanda S, Fukada Y, Iino Y.
Nat Commun<\/em><\/strong>. 2022 May 27; 13(1):2928.
Journal<\/a>\u3000PubMed<\/a>\u3000\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9<\/a><\/p>\n\n\n\n

Diurnal shift of mouse activity by the deficiency of an ageing-related gene Lmna<\/em>.
Kawakami S, Yoshitane H<\/strong>, Morimura T, Kimura W, Fukada Y.
J Biochem<\/em><\/strong>. 2022 May 11; 171(5):509-518.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Regulation mechanisms of the dual ATPase in KaiC.
Furuike Y, Mukaiyama A<\/strong>, Koda S, Simon D, Ouyang D, Ito-Miwa K, Saito S, Yamashita E, Nishiwaki-Ohkawa T, Terauchi K, Kondo T, Akiyama S
Proc Natl Acad Sci USA<\/em><\/strong>. 2022 May 10; 119(19):e2119627119.
Journal<\/a>\u3000PubMed<\/a>\u3000\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9<\/a><\/p>\n\n\n\n

Slow and temperature-compensated autonomous disassembly of KaiB-KaiC complex.
Simon D, Mukaiyama A<\/strong>, Furuike Y, Akiyama S
Biophys Physicobiol.<\/em><\/strong> 2022 Mar 30; 19:1-11.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

The 103,200-arm acceleration dataset in the UK Biobank revealed a landscape of human sleep phenotypes.
Katori M, Shi S, Ode KL<\/strong>, Tomita Y, Ueda HR.
Proc Natl Acad Sci U S A.<\/em><\/strong> 2022 Mar 22;119(12):e2116729119.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

mTOR-AKT Signaling in Cellular Clock Resetting Triggered by Osmotic Stress.
Yoshitane H<\/strong>, Imamura K, Okubo T, Otobe Y, Kawakami S, Ito S, Takumi T, Hattori K, Naguro I, Ichijo H, Fukada Y.
Antioxid Redox Signal<\/em><\/strong>. 2022 Mar 18. Online ahead of print.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Comprehensive analysis identified the circadian clock and global circadian gene expression in human corneal endothelial cells.
Nakai H, Tsuchiya Y, Koike N, Asano T, Ueno M, Umemura Y, Sasawaki Y, Ono R, Hamuro J, Sotozono C, Yagita K<\/strong>.
Invest. Ophthalmol. Vis. Sci.<\/strong><\/em> 2022 May 2; 63(5):16.
Journal<\/a>\u3000PubMed<\/a><\/p>\n\n\n\n

Elucidation of master allostery essential for circadian clock oscillation in cyanobacteria.
Furuike Y, Mukaiyama A<\/strong>, Ouyang D, Ito-Miwa K, Simon D, Yamashita E, Kondo T, Akiyama S.
Science Advances<\/em><\/strong> 2022 Apr 15; 8(15):eabm8990. 
Journal<\/a>\u3000PubMed<\/a>\u3000\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9<\/a><\/p>\n\n\n\n

Cross-scale analysis of temperature compensation in the cyanobacterial circadian clock system
Furuike Y, Ouyang D, Tominaga T, Matsuo T, Mukaiyama A<\/strong>, Kawakita Y, Fujiwara S, Akiyama S
Communications Physics<\/em><\/strong> 2022 Apr 4; 5(75)
Journal<\/a>\u3000\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9<\/a><\/p>\n\n\n\n

2021<\/h3>\n\n\n\n

Circadian key component CLOCK<\/em>\/BMAL1 <\/em>interferes with segmentation clock in mouse embryonic organoids.
Umemura Y, Koike N, Tsuchiya Y, Watanabe H, Kondoh G, Kageyama R, Yagita K<\/strong>.
Proc Natl Acad Sci U S A<\/em><\/strong>. 2022 Jan 4; 119(1):e2114083119.
Journal<\/a>\u3000PubMed<\/a>\u3000\u30d7\u30ec\u30b9\u30ea\u30ea\u30fc\u30b9<\/a>\u3000PDF\u8cc7\u6599<\/a><\/p>\n\n\n\n

A jerk-based algorithm ACCEL for the accurate classification of sleep-wake states from arm acceleration.
Ode KL<\/strong>, Shi S, Katori M, Mitsui K, Takanashi S, Oguchi R, Aoki D, Ueda HR.
iScience<\/em><\/strong>. 2022 Jan 1;25(2):103727.
Journal<\/a>\u3000PubMed<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"

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