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283 results on '"Suetake, Isao"'

1. Domain Structure of the Dnmt1, Dnmt3a, and Dnmt3b DNA Methyltransferases.

Author

Tajima, Shoji, Suetake, Isao, Takeshita, Kohei, Nakagawa, Atsushi, Kimura, Hironobu, and Song, Jikui

Subjects
BAH domain, CXXC domain, Catalytic pocket, PWWP domain, RFTS domain, Target cytosine, Target recognition domain, Animals, DNA Methylation, Histones, DNA Methyltransferase 3A, DNA (Cytosine-5-)-Methyltransferases, DNA (Cytosine-5-)-Methyltransferase 1, DNA Modification Methylases, DNA, Mammals
Abstract

In mammals, three major DNA methyltransferases, Dnmt1, Dnmt3a, and Dnmt3b, have been identified. Dnmt3a and Dnmt3b are responsible for establishing DNA methylation patterns produced through their de novo-type DNA methylation activity in implantation stage embryos and during germ cell differentiation. Dnmt3-like (Dnmt3l), which is a member of the Dnmt3 family but does not possess DNA methylation activity, was reported to be indispensable for global methylation in germ cells. Once the DNA methylation patterns are established, maintenance-type DNA methyltransferase Dnmt1 faithfully propagates them to the next generation via replication. All Dnmts possess multiple domains. For instance, Dnmt3a and Dnmt3b each contain a Pro-Trp-Trp-Pro (PWWP) domain that recognizes the histone H3K36me2/3 mark, an Atrx-Dnmt3-Dnmt3l (ADD) domain that recognizes unmodified histone H3 tail, and a catalytic domain that methylates CpG sites. Dnmt1 contains an N-terminal independently folded domain (NTD) that interacts with a variety of regulatory factors, a replication foci-targeting sequence (RFTS) domain that recognizes the histone H3K9me3 mark and H3 ubiquitylation, a CXXC domain that recognizes unmodified CpG DNA, two tandem Bromo-Adjacent-homology (BAH1 and BAH2) domains that read the H4K20me3 mark with BAH1, and a catalytic domain that preferentially methylates hemimethylated CpG sites. In this chapter, the structures and functions of these domains are described.

Published
2022

5. Inhibitory effects of extracts from Eucalyptus gunniion α-synuclein amyloid fibrils

Author

So, Masatomo, Ono, Misaki, Oogai, Shigeki, Kondo, Minako, Yamazaki, Kaede, Nachtegael, Charlotte, Hamajima, Hiroshi, Mutoh, Risa, Kato, Masaki, Kawate, Hisaya, Oki, Tomoyuki, Kawata, Yasushi, Kumamoto, Shiho, Tokui, Noritaka, Takei, Toshiki, Shimizu, Kuniyoshi, Inoue, Akio, Yamamoto, Naoki, Unoki, Motoko, Tanabe, Kenichi, Nakashima, Kinichi, Sasaki, Hiroyuki, Hojo, Hironobu, Nagata, Yasuo, and Suetake, Isao

Abstract

Amyloid fibril formation is associated with various amyloidoses, including neurodegenerative diseases such as Alzheimer's and Parkinson's diseases. Despite the numerous studies on the inhibition of amyloid formation, the prevention and treatment of a majority of amyloid-related disorders are still challenging. In this study, we investigated the effects of various plant extracts on amyloid formation of α-synuclein. We found that the extracts from Eucalyptus gunniiare able to inhibit amyloid formation, and to disaggregate preformed fibrils, in vitro. The extract itself did not lead to cell damage. In the extract, miquelianin, which is a glycosylated form of quercetin and has been detected in the plasma and the brain, was identified and assessed to have a moderate inhibitory activity, compared to the effects of ellagic acid and quercetin, which are strong inhibitors for amyloid formation. The properties of miquelianin provide insights into the mechanisms controlling the assembly of α-synuclein in the brain.Graphical AbstractInhibitory effect of Eucalyptus gunniiextract on α-synuclein amyloid fibrils.

Published
2024
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15. Structure of the Dnmt1 Reader Module Complexed with a Unique Two-Mono-Ubiquitin Mark on Histone H3 Reveals the Basis for DNA Methylation Maintenance

Author

Ishiyama, Satoshi, Nishiyama, Atsuya, Saeki, Yasushi, Moritsugu, Kei, Morimoto, Daichi, Yamaguchi, Luna, Arai, Naoko, Matsumura, Rumie, Kawakami, Toru, Mishima, Yuichi, Hojo, Hironobu, Shimamura, Shintaro, Ishikawa, Fuyuki, Tajima, Shoji, Tanaka, Keiji, Ariyoshi, Mariko, Shirakawa, Masahiro, Ikeguchi, Mitsunori, Kidera, Akinori, Suetake, Isao, Arita, Kyohei, and Nakanishi, Makoto

Published
2017
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29. Total Synthesis and Structural Characterization of Caveolin‐1

Author

Hojo, Hironobu, primary, Takei, Toshiki, additional, Asahina, Yuya, additional, Okumura, Nobuaki, additional, Takao, Toshifumi, additional, So, Masatomo, additional, Suetake, Isao, additional, Sato, Takeshi, additional, Kawamoto, Akihiro, additional, and Hirabayashi, Yoshio, additional

Published
2021
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30. The SRA protein Np95 mediates epigenetic inheritance by recruiting Dnmt1 to methylated DNA

Author

Sharif, Jafar, Muto, Masahiro, Takebayashi, Shin-ichiro, Suetake, Isao, Iwamatsu, Akihiro, Endo, Takaho A., Shinga, Jun, Mizutani-Koseki, Yoko, Toyoda, Tetsuro, Okamura, Kunihiro, Tajima, Shoji, Mitsuya, Kohzoh, Okano, Masaki, and Koseki, Haruhiko

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

DNA methyltransferase (cytosine-5) 1 (Dnmt1) is the principal enzyme responsible for maintenance of CpG methylation and is essential for the regulation of gene expression, silencing of parasitic DNA elements, genomic [...]

Published
2007

37. Enhanced processivity of Dnmt1 by monoubiquitinated histone H3

Author

Mishima, Yuichi, Brueckner, Laura, Takahashi, Saori, Kawakami, Toru, Otani, Junji, Shinohara, Akira, Takeshita, Kohei, Garvilles, Ronald Garingalao, Watanabe, Mikio, Sakai, Norio, Takeshima, Hideyuki, Nachtegael, Charlotte, Nishiyama, Atsuya, Nakanishi, Makoto, Arita, Kyohei, Nakashima, Kinichi, Hojo, Hironobu, Suetake, Isao, Mishima, Yuichi, Brueckner, Laura, Takahashi, Saori, Kawakami, Toru, Otani, Junji, Shinohara, Akira, Takeshita, Kohei, Garvilles, Ronald Garingalao, Watanabe, Mikio, Sakai, Norio, Takeshima, Hideyuki, Nachtegael, Charlotte, Nishiyama, Atsuya, Nakanishi, Makoto, Arita, Kyohei, Nakashima, Kinichi, Hojo, Hironobu, and Suetake, Isao

Abstract

DNA methylation controls gene expression, and once established, DNA methylation patterns are faithfully copied during DNA replication by the maintenance DNA methyltransferase Dnmt1. In vivo, Dnmt1 interacts with Uhrf1, which recognizes hemimethylated CpGs. Recently, we reported that Uhrf1-catalyzed K18- and K23-ubiquitinated histone H3 binds to the N-terminal region (the replication focus targeting sequence, RFTS) of Dnmt1 to stimulate its methyltransferase activity. However, it is not yet fully understood how ubiquitinated histone H3 stimulates Dnmt1 activity. Here, we show that monoubiquitinated histone H3 stimulates Dnmt1 activity toward DNA with multiple hemimethylated CpGs but not toward DNA with only a single hemimethylated CpG, suggesting an influence of ubiquitination on the processivity of Dnmt1. The Dnmt1 activity stimulated by monoubiquitinated histone H3 was additively enhanced by the Uhrf1 SRA domain, which also binds to RFTS. Thus, Dnmt1 activity is regulated by catalysis (ubiquitination)-dependent and -independent functions of Uhrf1., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2019

43. Enhanced processivity of Dnmt1 by monoubiquitinated histone H3

Author

Mishima, Yuichi, primary, Brueckner, Laura, additional, Takahashi, Saori, additional, Kawakami, Toru, additional, Otani, Junji, additional, Shinohara, Akira, additional, Takeshita, Kohei, additional, Garvilles, Ronald Garingalao, additional, Watanabe, Mikio, additional, Sakai, Norio, additional, Takeshima, Hideyuki, additional, Nachtegael, Charlotte, additional, Nishiyama, Atsuya, additional, Nakanishi, Makoto, additional, Arita, Kyohei, additional, Nakashima, Kinichi, additional, Hojo, Hironobu, additional, and Suetake, Isao, additional

Published
2019
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45. Enhanced processivity of Dnmt1 by monoubiquitinated histone H3.

Author

Mishima, Yuichi, Brueckner, Laura, Takahashi, Saori, Kawakami, Toru, Otani, Junji, Shinohara, Akira, Takeshita, Kohei, Garvilles, Ronald Garingalao, Watanabe, Mikio, Sakai, Norio, Takeshima, Hideyuki, Nachtegael, Charlotte, Nishiyama, Atsuya, Nakanishi, Makoto, Arita, Kyohei, Nakashima, Kinichi, Hojo, Hironobu, and Suetake, Isao

Subjects
DNA methylation, DNA methyltransferases, DNA replication, GENE expression, DNA, CATALYSIS, HISTONES, UBIQUITINATION
Abstract

DNA methylation controls gene expression, and once established, DNA methylation patterns are faithfully copied during DNA replication by the maintenance DNA methyltransferase Dnmt1. In vivo, Dnmt1 interacts with Uhrf1, which recognizes hemimethylated CpGs. Recently, we reported that Uhrf1‐catalyzed K18‐ and K23‐ubiquitinated histone H3 binds to the N‐terminal region (the replication focus targeting sequence, RFTS) of Dnmt1 to stimulate its methyltransferase activity. However, it is not yet fully understood how ubiquitinated histone H3 stimulates Dnmt1 activity. Here, we show that monoubiquitinated histone H3 stimulates Dnmt1 activity toward DNA with multiple hemimethylated CpGs but not toward DNA with only a single hemimethylated CpG, suggesting an influence of ubiquitination on the processivity of Dnmt1. The Dnmt1 activity stimulated by monoubiquitinated histone H3 was additively enhanced by the Uhrf1 SRA domain, which also binds to RFTS. Thus, Dnmt1 activity is regulated by catalysis (ubiquitination)‐dependent and ‐independent functions of Uhrf1. [ABSTRACT FROM AUTHOR]

Published
2020
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