Faculty of Science

Akira Nakamura

  (中村 顕)

Profile Information

Affiliation
助教, 理学部 生命科学科, 学習院大学
Degree
Doctor(Kyoto University)

J-GLOBAL ID
201601011882245468
researchmap Member ID
B000266241

External link

Awards

 1

Papers

 35
  • Mototaka Suzuki, Masayo Date, Tatsuki Kashiwagi, Kazutoshi Takahashi, Akira Nakamura, Masaru Tanokura, Eiichiro Suzuki, Keiichi Yokoyama
    Applied Microbiology and Biotechnology, 108(1) 478, Oct 1, 2024  Peer-reviewed
  • Kohki Ishida, Akira Nakamura, Shuichi Kojima
    Structure, 30(12) 1637-1646, Dec 1, 2022  Peer-reviewedCorresponding author
  • Kohki Ishida, Makoto Shimizu, Ayumi Wakasugi, Yuko Matsui, Akira Nakamura, Shuichi Kojima
    FEBS Open Bio, 12(11) 2057-2064, Nov 1, 2022  Peer-reviewedCorresponding author
  • Shohei Nosaki, Tohru Terada, Akira Nakamura, Kei Hirabayashi, Yuqun Xu, Thi Bao Chau Bui, Takeshi Nakano, Masaru Tanokura, Takuya Miyakawa
    Scientific Reports, 11(1) 3879-3879, Feb, 2021  Peer-reviewed
    <title>Abstract</title>The maltose-binding protein (MBP) fusion tag is one of the most commonly utilized crystallization chaperones for proteins of interest. Recently, this MBP-mediated crystallization technique was adapted to <italic>Arabidopsis thaliana</italic> (At) BRZ-INSENSITIVE-LONG (BIL1)/BRASSINAZOLE-RESISTANT (BZR1), a member of the plant-specific BZR TFs, and revealed the first structure of AtBIL1/BZR1 in complex with target DNA. However, it is unclear how the fused MBP affects the structural features of the AtBIL1/BZR1-DNA complex. In the present study, we highlight the potential utility of the MBP crystallization chaperone by comparing it with the crystallization of unfused AtBIL1/BZR1 in complex with DNA. Furthermore, we assessed the validity of the MBP-fused AtBIL1/BZR1-DNA structure by performing detailed dissection of crystal packings and molecular dynamics (MD) simulations with the removal of the MBP chaperone. Our MD simulations define the structural basis underlying the AtBIL1/BZR1-DNA assembly and DNA binding specificity by AtBIL1/BZR1. The methodology employed in this study, the combination of MBP-mediated crystallization and MD simulation, demonstrates promising capabilities in deciphering the protein-DNA recognition code.
  • Kitamura Noriko, Shindo Mayumi, Ohtsuka Jun, Nakamura Akira, Tanokura Masaru, Hiroi Takachika, Kaminuma Osamu
    The FASEB Journal, 34(2) 3197-3208, Feb 11, 2020  Peer-reviewed
    Nuclear factor of activated T cells (NFAT) leads to the transcription of diverse inducible genes involved in many biological processes; therefore, aberrant NFAT expression is responsible for the development and exacerbation of various disorders. Since five isoforms of NFAT (NFATc1-c4, NFAT5) exhibit distinct and overlapping functions, selective control of a part, but not all, of NFAT family members is desirable. By comparing the binding activity of each NFATc1-c4 with its regulatory enzyme, calcineurin (CN), using a quantitative immunoprecipitation assay, we found a new CN-binding region (CNBR) selectively functioning in NFATc1 and NFATc4. This region, termed CNBR3, is located between two preexisting CNBR1 and CNBR2, within the Ca2+ regulatory domain. The nuclear translocation of NFATc1 but not NFATc2 in T cells was suppressed by ectopic expression of CNBR3 and, accordingly, NFATc1-dependent cytokine expression was downregulated. Through competition assays using NFATc1-derived partial peptides and mass spectrometry with photoaffinity technology, we identified 18 amino acids in NFATc1 (Arg258 to Pro275 ) and 13 amino acids in CN catalytic subunit (CNA) (Asn77 to Gly89 ) responsible for CNA/CNBR3 binding in which Cys263 and Asp82 , respectively, played crucial roles. The possible selective regulation of NFAT-mediated biological processes by targeting this new CN/NFAT-binding region is suggested.

Misc.

 16

Books and Other Publications

 1
  • 中村 顕, 田之倉 優 (Role: Contributor, 第2編 材料と応用 第7章 計測診断機器への応用 第2節 超伝導磁石の強力磁場を用いたタンパク質結晶の高品質化機器の開発)
    株式会社エヌ・ティー・エス, Mar, 2013

Presentations

 56

Teaching Experience

 5

Research Projects

 2

Industrial Property Rights

 7