研究業績

<2017>
Multiple ways to prevent transmission of paternal mitochondrial DNA for maternal inheritance in animals. Sato K, Sato M. The Journal of Biochemistry. 2017 Aug 02. https://doi.org/10.1093/jb/mvx052

佐藤健,佐藤美由紀.(2017) アロファジー:父性オルガネラを分解する新たなオートファジーと母性遺伝. 実験医学 35:1812-1817

Monitoring of Paternal Mitochondrial Degradation in Caenorhabditis elegans. Sato M, Sato K. Methods Mol Biol. 2017 April 20. doi: 10.1007/7651_2017_17. [Epub ahead of print]. PMID: 28425080
Similar articles

<2016>
REI-1, a Novel Rab11 GEF with a SH3BP5 domain. Sakaguchi A, Sato M, Sato K.
Communicative & Integrative Biology.
2016 9(5): e1208325
. PMID: 28003861

Opposing roles for SNAP23 in secretion in exocrine and endocrine pancreatic cells. Kunii M, et al.

J Cell Biol. 2016 Oct 10;215(1):121-138. PMID: 27697926

Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition) .Klionsky DJ, et al. Autophagy. 2016;12(1):1-222. doi: 10.1080/15548627.2015.1100356. PMID: 26799652


REI/SH3BP5 protein family: New GEFs for Rab11 .Sato K, Sakaguchi A, Sato M. Cell Cycle. 2016 Mar 18;15(6):767-9. doi: 10.1080/15384101.2015.1137710. PMID: 26745340


<2015>

Guidelines for monitoring autophagy in Caenorhabditis elegans. Zhang H, Chang JT, Guo B, Hansen M, Jia K, Kovács AL, Kumsta C, Lapierre LR, Legouis R, Lin L, Lu Q, Meléndez A, O'Rourke EJ, Sato K, Sato M, Wang X, Wu F Autophagy. 2015;11(1):9-27. doi: 10.1080/15548627.2014.1003478. PMID: 25569839


REI-1 Is a Guanine Nucleotide Exchange Factor Regulating RAB-11 Localization and Function in C. elegans Embryos Sakaguchi A, Sato M, Sato K, Gengyo-Ando K, Yorimitsu T, Nakai J, Hara T, Sato K, Sato K.  Dev Cell. 2015 Oct 26;35(2):211-21. doi: 10.1016/j.devcel.2015.09.013.  PMID:26506309

*上毛新聞,読売新聞でも紹介されました.

Labeling of the Intestinal Lumen of Caenorhabditis elegans by Texas Red-dextran Feeding. Saegusa K and Sato K Bio-Protocol. 2015; Vol 5, Iss 16,  8/20/2015, 573


<2014>

Rer1 and calnexin regulate endoplasmic reticulum retention of a peripheral myelin protein 22 mutant that causes type 1A Charcot-Marie-Tooth disease Hara T, Hashimoto Y, Akuzawa T, Hirai R, Kobayashi H, Sato K
Sci Rep. 2014;11;4:6992  PMID: 25385046
新聞各紙でも紹介されました.

C. elegans as a model for membrane traffic. Sato K, Norris A, Sato M, Grant BD WormBook. .2014; doi: 10.1895/wormbook.1.77.2 PMID: 24778088

C. elegans chaperonin CCT/TRiC is required for actin and tubulin biogenesis and microvillus formation in intestinal epithelial cells
Saegusa K, Sato M, Sato K, Nakajima-Shimada J, Harada A, Sato K. . Mol Biol Cell. 2014;15;25(20):3095-104. PMID: 25143409
*表紙になりました.
.
Rer1p regulates the ER retention of immature rhodopsin and modulates its intracellular trafficking. Yamasaki A, Hara T, Maejima I, Sato M, Sato K, Sato K. Sci Rep 2014; 6;4:5973. PMID: 25096327
*上毛新聞で紹介されました.

佐藤美由紀,佐藤健.(2014) 精子由来ミトコンドリアのオートファジーによる分解. 医学の歩み 250:479-482.

F
ertilization-induced K63-linked ubiquitination mediates clearance of maternal membrane proteins. Miyuki Sato, Ryosuke Konuma, Katsuya Sato, Kotone Tomura and Ken Sato. Development 2014; 141(6):1324-31. PMID: 24595290

Fluorescence-based visualization of autophagic activity predicts mouse embryo viability.
Tsukamoto S, Hara T, Yamamoto A, Kito S, Minami N, Kubota T, Sato K, Kokubo T. . Sci Rep 2014; 31;4:4533. PMID: 24681842

佐藤健,佐藤美由紀.(2014) 受精における精子ミトコンドリアの運命と母性遺伝. 細胞工学 33;414-419.


<2013>
Miyuki Sato and Ken Sato*. (2013) Maternal inheritance of mitochondrial DNA by diverse mechanisms to eliminate paternal mitochondrial DNA. BBA Mol. Cell Res. 833(8):1979-84.

Miyuki Sato and Ken Sato*. (2013) Dynamic regulation of Autophagy and Endocytosis for Cell Remodeling During Early Development. Traffic 14(5):479-86.

佐藤美由紀,佐藤健. (2013) ミトコンドリアDNAの母性遺伝を制御する多様な分子機構. 生化学 85(5):357-362.

Tsukamoto S, Hara T, Yamamoto A, Ohta Y, Wada A, Ishida Y, Kito S, Nishikawa T, Minami N ,Sato K, Kokubo T. (2013)
Functional Analysis of Lysosomes During Mouse Preimplantation Embryo Development. J Reprod Dev. 59:33-39.

<2012>

Miyuki Sato and Ken Sato*. (2012) Maternal inheritance of mitochondrial DNA: Degradation of paternal mitochondria by allogeneic organelle autophagy, allophagy.  Autophagy 8(3):424-5.

佐藤美由紀,佐藤健 (2012) 線虫受精卵における父性ミトコンドリアのオートファジーによる選択的分解―ミトコンドリアDNAの母性遺伝のメカニズム― 実験医学 30:614-618.


佐藤健,佐藤美由紀 (2012) 精子由来ミトコンドリアは受精依存的に誘導されるオートファジーによって選択的に分解される.細胞工学 31:590-591.


佐藤美由紀,佐藤健 (2012) ミトコンドリアゲノムの母性遺伝のメカニズム. 化学と生物 50:479-480.


佐藤健,佐藤美由紀 (2012)動物におけるミトコンドリアDNAの母性遺伝の分子機構.生体の科学63:436-437

Maternal inheritance of mitochondrialDNA: degradation of paternalmitochondria by allogeneic organelle autophagy, allophagy.  Sato M, Sato K.  Autophagy. 2012 Mar;8(3):424-5. doi: 10.4161/auto.19243. Epub 2012 Feb 3. PMID:22302002


<2011>
Miyuki Sato
and Ken Sato*. (2011) Degradation of paternal mitochondria by fertilization-triggered autophagy in C. elegans embryos. Science 334(6059):1141-4. Epub 2011 Oct 13.
*本研究は以下でも紹介されました.
Science 2011 Nov 25;334(6059):1069-70.
Cell 2011 Nov 11;147:711.
Nat Rev Mol Cell Biol. 2011 Dec;12(12):771.

Miyuki Sato
, Keiko Saegusa, Katsuya Sato, Taichi Hara, Akihiro Harada, and Ken Sato* (2011) Caenorhabditis elegans SNAP-29 is required for organellar integrity of the endomembrane system and general exocytosis in intestinal epithelial cells. Mol. Biol. Cell 22:2579-2587. Highlights from MBoC selection に選ばれました.

Mahito Sato, Shinichiro Yoshimura, Rika Hirai, Ayako Goto, Masataka Kunii, Nur Atik, Takashi Sato, Ken Sato, Reiko Harada, Junko Shimada, Toshimitsu Hatabu, Hiroshi Yorifuji and Akihiro Harada (2011) The role of VAMP7/TI-VAMP in cell polarity and lysosomal exocytosis in vivo. Traffic 10:1383-1393.

Hara T, Koh K, Combs DJ, Sehgal A. (2011) Post-translational regulation and nuclear entry of TIMELESS and PERIOD are affected in new timeless mutant. J Neurosci. 31(27):9982-90.

Takamura A, Komatsu M, Hara T, Sakamoto A, Kishi C, Waguri S, Eishi Y, Hino O, Tanaka K, Mizushima N. (2011) Autophagy-deficient mice develop multiple liver tumors. Genes Dev. 25(8):795-800.

<2009>
Ken Sato*, Glen G. Ernstrom, Shigeki Watanabe, Robby M. Weimer, Chih-Hsiung Chen, Miyuki Sato, Ayesha Siddiqui, Erik M. Jorgensen, and Barth D. Grant* (2009) Differential requirements for clathrin in receptor-mediated endocytosis and maintenance of synaptic vesicle pools. Proc. Natl. Acad. Sci. USA 106:1139-44

Yohei Sasagawa, Mieko Otani, Nahoko Higashitani, Atsushi Higashitani, Ken Sato, Teru Ogura and Kunitoshi Yamanaka (2009) Caenorhabditis elegans p97 controls germline-specific sex determination by controlling the TRA-1 level in a CUL-2-dependent manner. J Cell Sci. 122:3663-72.

<2008>
Miyuki Sato, Barth Grant, Akihiro Harada, and Ken Sato* (2008). Rab11 is required for synchronous secretion of chondroitin proteoglycans after fertilization in Caenorhabditis elegans. J. Cell Sci. 121:3177-3186.
    *表紙に選ばれました! 

Miyuki Sato, Ken Sato*, Willisa Liou, Saumya Pant, Akihiro Harada, and Barth Grant* (2008) Regulation of endocytic recycling by C. elegans Rab35 and its regulator RME-4, a coated-pit protein. EMBO J. 27:1183-1196.

佐藤美由紀,佐藤健.線虫 C. elegans におけるメンブレントラフィック.蛋白質核酸酵素 増刊号 ”メンブレントラフィックの奔流 分子から細胞,そして個体へ” 53巻16号2188ー2219頁,共立出版(2008).

<2007>
Takashi Sato, Sotaro Mushiake, Yukio Kato, Ken Sato, Miyuki Sato, Yasuo Uchiyama, Naoki Takeda, Keiichi Ozono, Kazunori Miki, Yoshiyuki Kubo, Akira Tsuji, Reiko Harada, and Akihiro Harada (2007) rab8 deficiency leads to mislocalization of apical proteins and microvillus inclusion. Nature 448:366-369.

佐藤健,佐藤美由紀. 細胞機能を支える巧みな物流管理システム.” タンパク質の一生集中マスター” 68ー75頁,羊土社(2007).

<2006以前>
Ken Sato, Miyuki Sato, Anjon Audhya, Karen Oegema, Peter Schweinsberg, Barth Grant. (2006) Dynamic regulation of caveolin-1 trafficking in the germ line and embryo of Caenorhabditis elegans. Mol. Biol. Cell 17:3085-3094.

Miyuki Sato, Ken Sato, Paul Fonarev, Chih-jen Huang, Willisa Liou, Barth Grant (2005). Caenorhabditis elegans RME-6 is a novel regulator of RAB-5 at the clathrin-coated pit. Nature Cell Biology 7:559-69.

Miyuki Sato, Ken Sato, and Akihiko Nakano. (2004) Endoplasmic Reticulum Quality Control of Unassembled Iron Transporter Depends on Rer1p-mediated Retrieval from the Golgi. Mol. Biol. Cell 15:1417-1424.

Ken Sato*, Miyuki Sato, and Akihiko Nakano. (2003) Rer1p, a retrieval receptor for ER membrane proteins, recognizes transmembrane domains in multiple modes. Mol Biol. Cell 14:3605-3616.


Miyuki Sato, Ken Sato, and Akihiko Nakano. (2002) Evidence for the intimate relationship between vesicle budding from the ER and the unfolded protein response. Biochem. Biophys. Res. Commun. 296:560-567.

Miyuki Sato, Singo Fujisaki, Ken Sato, Yukinobu Nishimura, and Akihiko Nakano. (2001) Yeast Saccharomyces cerevisiae has two cis-prenyltransferases with different properties and localizations. Implication for their distinct physiological roles in dolichol synthesis. Genes Cells 6:495-506.

Ken Sato, Miyuki Sato, and Akihiko Nakano. (2001) Rer1p, a retrieval receptor for endoplasmic reticulum membrane proteins, is dynamically localized to the Golgi apparatus by coatomer. J. Cell Biol. 152: 935-944.

Dumon-Seignovert L, Matsumuto T, Monaco-Malbet S, Tomizaki T, Sato M, Sato K, Nakano A, Wakatsuki S. (2001) Purification, crystallization and preliminary X-ray diffraction analysis of the yeast Sec12Deltap protein, a guanine nucleotide-exchange factor involved in vesicle transport. Acta Crystallogr D Biol Crystallogr. 57:893-5.

Miyuki Sato, Ken Sato, Shuh-ichi Nishikawa, Aiko Hirata, Jun-ichi Kato, and Akihiko Nakano. (1999) The yeast RER2 gene, identified by ER protein localization mutations, encodes cis-prenyltransferase, a key enzyme in the dolichol synthesis. Mol. Cell. Biol. 19:471-483.

Jun-ichi Kato, Singo Fujisaki, Ken-ichi Nakajima, Yukinobu Nishimura, Miyuki Sato, and Akihiko Nakano. (1999) The Escherichia coli homologue of yeast Rer2, a key enzyme of dolichol synthasis, is essential for carrier lipid formation in bacterial cell wall synthesis. J. Bacteriol. 181:2733-2738.

Miyuki Sato, Ken Sato, and Akihiko Nakano. (1996) Endoplasmic reticulum localization of Sec12p is achieved by two mechanisms: Rer1p-dependent retrieval that requires the transmembrane domain and Rer1p-independent retention that involves the cytoplasmic domain. J. Cell Biol. 134:279-293.

Ken Sato, Miyuki Sato, and Akihiko Nakano. (1997) Rer1p as common machinery for the endoplasmic reticulum localization of membrane proteins. Proc. Natl. Acad. Sci. USA 94:9693-9698.

Ken Sato, Shuichi Nishikawa, Akihiko Nakano. (1995) Membrane protein retrieval from the Golgi apparatus to the endoplasmic reticulum (ER): characterization of the RER1 gene product as a component involved in ER localization of Sec12p. Mol Biol Cell. 6:1459-77.

 
群馬大学 生体調節研究所 細胞構造分野
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