 |
久枝 良雄(ひさえだ よしお) |
|---|---|
| 教授 応用化学部門 生体機能化学講座(応化分子教室)連絡先 〒819-0395 福岡市西区元岡744番地 TEL: 092-802-2826 FAX: 092-802-2827 E-mail: yhisatcm(at)mail.cstm.kyushu-u.ac.jp 研究室ホームページ |
経歴
| 昭和54年3月 | 九州大学工学部合成化学科卒業 |
| 昭和54年4月 | 九州大学大学院工学研究科合成化学専攻修士課程入学 |
| 昭和56年3月 | 同 上 修 了 |
| 昭和56年4月 | 九州大学助手(工学部)採用 |
| 昭和63年8月 | 九州大学助教授(工学部)昇任 九州大学大学院工学研究科担当 |
| 平成7年10月 | 九州大学教授(工学部)昇任 応用物質化学科 人工酵素化学講座担当 |
| 平成9年4月 | 大学院重点化により名称変更 九州大学大学院工学研究科 物質創造工学専攻 生体機能化学講座 |
| 平成12年4月 | 研究院制度への移行により名称変更 九州大学大学院工学研究院 応用化学部門(分子) 現在に至る |
| 平成5年8月~ 平成6年8月 |
テキサス大学オースチン校化学科 客員教授 |
研究分野
- 生体機能関連化学
- 錯体化学
- 有機電気化学
受賞
[3]BSCJ Award
“Redox Behavior and Electrochemical Catalytic Function of B12-Hyperbranched Polymer”, 久枝 良雄, 平成22年12月
[2]BSCJ Award
“Isolable Iron(II)-Porphycene Derivative Stabilized by Introduction of Trifluoromethyl Groups on the Ligand Framework”, 久枝 良雄, 平成20年1月
[1]第40回日本化学会 進歩賞
「金属酵素機能のシミュレーションによる新規触媒系の開発」, 久枝 良雄, 平成3年2月
著書・総説等
[72]環境汚染物質を光と電気エネルギーで分解する人工酵素
嶌越恒, 久枝良雄
環境問題解決のための先進的技法, 九州大学東アジア環境研究機構, 花書院, 第4章, 59-72(2015)
2014
[71]ゾル-ゲル法を利用した金属錯体固定化触媒の作製
嶌越恒, 久枝良雄
ゾル–ゲル法の最新応用と展望, 野上正行監修, シーエムシー出版, 2014, 3章, 205-210(2014)
[70]光エネルギー変換
久枝良雄
I光化学の辞典, 光化学会光化学の辞典編集委員会, 朝倉書店, 7章3節, 292-293(2014)
[69]Electrosynthesis under Photo-Irradiation
Y. Hisaeda, H. Shimakoshi,
Encyclopedia of Applied Electrochemistry, 1st Edition
Eds. by K. Ota, G. Kreysa, R. F. Savinell, Springer, Vol. 1, 814-821(2014)
2013
[68]ビタミンB12をモデルとしたバイオインスパイアード触媒の開発
Development of Bioinspired Catalysts: Lessons from Vitamin B12 Enzyme
嶌越恒, 久枝良雄
バイオインダストリー, BIO INDUSTRY, Vol.30, No.3, 5-12 (2013)
[67]バイオインスパイアード触媒 特集にあたって
久枝良雄
バイオインダストリー, BIO INDUSTRY, Vol.30, No.3, 3-4 (2013)
2012
[66]バイオミメティックからバイオインスパイアード触媒へ 人・化合物・機会との一期一会
久枝良雄
化学と工業, Vol.65, No.12, 949-951 (2012)
[65]環状および非環状シッフ塩基型化合物の合成と錯形成による超分子機能の創製
Synthesis of Cyclic and Acyclic Schiff-base Compounds and Development of Unique Dicobalt Complexes with Supramolecular Functions
嶌越恒, 久枝良雄
有機合成化学協会誌, J. Synthetic Organic Chemistry, Japan, 70, No.1, 60-70 (2012)
2011
[64]ビタミンB12 人工酵素 —光の照射で環境汚染物質を分解!
嶌越恒, 久枝良雄
化学, Vol.66, No.10, 32-37 (2011)
[63]バイオインスパイアード触媒の創製と環境浄化への応用 —ビタミンB12酵素機能の活用
久枝良雄, 嶌越 恒
未来材料, Vol.11, No.2, 13-19 (2011)
2010
[62]Bioinspired Catalysts with B12 Enzyme Functions
Y. Hisaeda, H. Shimakoshi,
Handbook of Porphyrin Science, Vol. 10,
Eds. by K. M. Kadish, K. M. Smith, R. Guilard, World Scientific, 313-370 (2010)
[61]ポルフィリノイド光増感剤の開発とその光化学的挙動
Development of porphyrinoid photosensitizers and their photochemical behavior
前田大輔, 久枝良雄
光化学, Photochemistry, Vol. 41, No. 2, 81-85, August (2010)
2009
[60]ビタミンB12酵素機能に学ぶ環境浄化触媒
Bio-inspired Catalysts Learned from Vitamin B12 Enzyme for Degradation of Environmental Pollutants
久枝良雄
Bull. Jpn. Soc. Coord. Chem., 53, 10-21 (2009)
[59]レドックス活性金属錯体の光吸収特性を活用した新規熱線遮蔽材料の開発
阿部正明、久枝良雄
化学工業, Vol.60, No.8, 584-589 (2009)
[58]Environmental-friendly Catalysts Learned from Vitamin B12-Dependent Enzymes
H. Shimakoshi, Y. Hisaeda
TCI MAIL, No.138, 2-11, Aug (2009)
2008
[57]環境適合型錯体触媒 - ビタミンB12機能を応用して-
嶌越 恒, 久枝良雄
TCIメール, No.138, 2-13 (2008)
2007
[56]光駆動型ビタミンB12インスパイアード触媒の開発
嶌越 恒, 増子隆博, 久枝良雄
光化学, 38, 174-179 (2007)
[55]有機ハロゲン化合物を分解する生体関連触媒の開発
久枝良雄, 嶌越恒
情報機構, 有機物の分解とそのメカニズム・分析, 第1章 第14節, 73-86 (2007)
2006
[54]ビタミンB12酵素機能を有するハイブリッド触媒の創製
増子隆博, 久枝良雄
九州大学中央分析センター報告, No.24, 50-58 (2006)
[53]ビタミンB12インスパイアード触媒の開発と環境調和型分子変換
嶌越恒, 阿比留真, 久枝良雄, 渡辺美登里
Jasco Report, 48, No.2, 31-36 (2006)
[52]コバルト錯体を含むビタミン-ビタミンB12の面白い性質と多才な働き
久枝良雄
化学と教育, 54, No.9, 486-489 (2006)
[51]有機塩素化合物を高速分解できるビタミンB12ハイブリッド触媒の開発
嶌越恒, 久枝良雄
資源環境対策, 42, No.7, 99-102 (2006)
[50]有機/無機ハイブリッドナノ触媒
久枝良雄, 新海征治編
モレキュラーインフォーマティクスを拓く分子機能材料, 日刊工業新聞, 105-113 (2006)
2005
[49]ビタミンB12関連金属錯体の均一系および不均一系触媒としての利用とクリーンな物質変換反応
Green Molecular Transformations Mediated by Vitamin B12 Related Metal Complexes as Homogeneous and Heterogeneous Catalysts
久枝良雄, 嶌越恒
有機合成化学協会誌, J. Synthetic Organic Chemistry, 63, No.8, 780-790 (2005)
[48]ビタミンB12修飾電極による脱塩素化反応
Dechlorination Reaction Mediated by Vitamin B12 Modified Electrode
久枝良雄, 嶌越恒, 増子隆博
ソルトサイエンス研究財団 平成15年度助成研究報告集, The Salt Science Research Foundation, Annual Research Report 2003, 169-177 (2005)
2004
[47]金属錯体を用いる有機電解合成
久枝良雄
有機電解合成の新展開, シーエムシー出版, 141-162 (2004)
2003
[46]ビタミンB12修飾電極の作製と電解機能特性
嶌越恒, 中里亜希, 徳永真美, 久枝良雄
九州大学中央分析センター報告, No.21, 8-12 (2003)
[45]Organic/Inorganic Hybrid Nanomaterials with Vitamin B12 Functions
Y. Hisaeda, H. Shimakoshi, T. Masuko, T. Hayashi
Interface News Letters 2003, 界面科学技術機構会誌, No.3, 73-78 (2003)
[44]Peroxidase and Peroxygenase Activities of a Myoglobin Reconstituted with an Iron Prophecy
D. Murata, H. Sato, T. Hayashi, Y. Hisaeda,
Biomolecular Chemistry — A Bridge for thhe Future –,
Eds. by Y. Baba, S. Futaki, H. Ishida, T. Wada, K. Yamashita
Maruzen, Tokyo, 190-191 (2003)
[43]超分子型ナノハイブリッド体の構築と触媒機能
久枝良雄
財団法人 徳山科学技術振興財団 平成14年度年報, 55-58 (2003)
[42]Reductive Molecular Transformations on Vitamin B12 Modified Electrodes
Y. Hisaeda, H. Shimakoshi, M. Tokunaga, A. Nakazato,
Mechanistic and Synthetic Aspects of Organic and Biological Electrochemistry,
Eds. by J. Simonet, D. Peters, H. Tanaka
The Electrochemical Society, 109-112 (2003)
[41]脱塩素化酵素に学ぶ環境浄化システム
久枝良雄, 嶌越恒
化学, 58, No.10, 49-51 (2003)
2002
[40]環境適合型バイオミメティック触媒材料の開発
久枝良雄, 林高史, 嶌越恒, 増子隆博
財団法人 ゼネラル石油研究奨励財団 研究報告書, 10, 93-103 (2002)
[39]Electrochemical Molecular Transformations Catalyzed by Vitamin B12 Derivatives
Y. Hisaeda, H. Shimakoshi, A. Nakazato, T. Hayashi,
Organic Electrochemistry, 10, Eds. by M.S. Workentin, F. Maran, K. Chiba
The Electrochemical Society, 48-51 (2002)
[38]人工金属酵素の創製と物質変換
久枝良雄
オレオサイエンス, 2, No.8, 459-465 (2002)
2001
[37]食品大百科事典 8.5.4 人工酵素
久枝良雄
農林水産省食品総合研究所編朝倉書店, 807-810 (2001)
[36]ビタミンB12の作用機序に関するモデル研究と人工酵素の構築
久枝良雄
財団法人テルモ科学技術振興財団 2000年度一般研究助成
研究実施報告集, 81-88 (2001)
2000
[35]生体関連コバルト錯体の触媒機能に関する研究
久枝良雄
財団法人 池谷科学技術振興財団 平成11年度年報, 11, 43-45 (2000)
[34]「超」酵素をめざして– 超分子を用いた人工酵素系–
久枝良雄
蛋白質 核酸 酵素, 45, No.15, 2483-2492 (2000)
[33]Catalytic Functions of Hybrid Vesicles Composed of Artificial Lipids and Metal Complexes
Y. Hisaeda,
Kodansha,Precision Polymers and Nano-Organized Systems,
Eds. by T. Kunitake, S. Nagahama, N. Takahashi, N. Toshima, 231-234 (2000)
[32]Hybrid Vesicle Composed of Artificial Lipid and Cobalt Porphycenes
Y. Hisaeda, T. Masuko, S. Nakashita, H. Shimakoshi, T. Hayashi
Annual Reports of the HVEM Laboratory Kyushu University, No.24, 29-30 (2000)
[31]西暦2000年 化学は変わりますか?—他分野とのコラボレーションこそカギ
久枝良雄
化学, 55, No.1, 22-23 (2000)
1999
[30]新規コバルト2核錯体の合成と触媒機能に関する研究
久枝良雄, 嶌越恒
マツダ財団研究報告, 11, 35-40 (1999)
[29]Artificial Enzyme Composed of Hydrophobic Vitamin B12 Covalently Bound to an Anionic Lipid Species
Y. Hisaeda
松籟科学技術振興財団研究報告集, 10, 108-121 (1999)
1998
[28]Studies on Aggregate Structure of Artificial Glycolipids
E. Ohshima, Y. Hisaeda
Annual Reports of the HVEM Laboratory Kyushu University, No.22, 49-50 (1998)
[27]Electroorganic Synthesis Mediated by Metalloenzyme Models
Y. Hisaeda,
New Challenges in Organic Electrochemistry, Ed. by T. Osa, Gordon and Breach, 307-321 (1998)
[26]Catalytic Activity of Vitamin B12 Derivative Having Amino Acid Residues
Y. Hisaeda, Y. Inoue, K. Asada, T. Nishioka, Novel Trends in Electroorganic Synthesis,
Ed. by S. Torii, Springer, 403-404 (1998)
[25]Electrochemical 1,2-Migration Reactions Mediated by Vitamin B12 Derivatives
Y. Hisaeda, Novel Trends in Electroorganic Synthesis,
Ed. by S. Torii, Springer, 399-402 (1998)
1997
[24]コバルト錯体を触媒とした新有機電解合成
久枝良雄
倉田奨励金研究報告, 27, 61-62 (1997)
[23]B12酵素の活性部位の構造とCo-C結合の開裂様式
嶌越恒, 久枝良雄
化学, 52, No.10, 70-71 (1997)
[22]コバルト-炭素結合を鍵中間体とする有機触媒材料の開発
久枝良雄, 嶌越恒
長瀬科学技術振興財団研究報告集, 8, 55-65 (1997)
1996
[21]ビタミンB12モデル錯体を触媒とした有機電解反応
久枝良雄
有機合成化学協会誌, 54, No.10, 859-867 (1996)
[20]Comprehensive Supramolecular Chemistry
Artificial Enzymes with Vitamin B6 and B12 Activity
Y. Murakami, J. Kikuchi, Y. Hisaeda, T. Ohno
Eds. by J.-M. Lehn, J. L. Atwood, J. E. D. Davies, D. D. Macnicol, F. Vögtle,
Vol. Ed. by Y. Murakami
Pergamon, Oxford, 415-472 (1996)
[19]Artificial Enzymes
Y. Murakami, J. Kikuchi, Y. Hisaeda, O. Hayashida
Chemical Reviews, 96, 721-758 (1996)
[18]超分子化学の基礎と応用
上岡龍一, 横野照尚, 菊池純一, 中野昭夫, 林田修, 久枝良雄, 村上幸人
エヌ・ティー・エス, 東京 (1996)
1995
[17]Organic Reactivity: Physical and Biological Aspects Biomimetic Reactions with Hydrophobic Vitamin B12
Y. Murakami, Y. Hisaeda, T. Ohno, Ed by B. T. Golding, R. J. Griffin, H. Maskill
The Royal Society of Chemistry, Cambridge73-88 (1995)
[16]化学便覧 13.6 バイオミメティックケミストリー
久枝良雄, 村上幸人
応用化学編, 日本化学会編第5版, 丸善, 687-692 (1995)
1993
[15]新生化学実験講座(第13巻 バイオテクノロジー)3.2 金属酵素類似化合物
村上幸人, 久枝良雄
日本生化学会編, 東京化学同人, 3.2 金属酵素類似化合物, 117-130 (1993)
1992
[14]エンテロバクチンの機能モデル ~新しい鉄イオンキャリヤーの化学
村上幸人, 久枝良雄
化学, 47, No.1, 72-73 (1992)
1991
[13]Inclusion Compounds, 4 Catalytic Applications of Cyclophanes
Y. Murakami, J. Kikuchi, Y. Hisaeda
Ed by J. L. Atwood, J. E. D. Davies, D. D. MacNicol, Chapter 11
Oxford University Press, Oxford, 448-478 (1991)
[12]ビタミンB6 およびB12に類似の触媒機能をもつ二分子膜型人工酵素
村上幸人, 久枝良雄
組織培養, 17 , 8, 298-303 (1991).
[11]実験化学講座 27. 生物有機
1.3 金属酵素モデルによる触媒反応
1.4 二分子膜による酵素類似反応場
村上幸人, 久枝良雄
日本化学会編第4版, 丸善, 37-76 (1991).
[10]二分子膜型人工酵素の開発
村上幸人, 久枝良雄
九州産業技術, No.13, 3-10 (1991).
[9]Frontiers in Supramolecular Organic Chemistry and Photochemistry Supramolecular Chemistry of Azacyclophanes with Various Cavity Modes
Y. Murakami, J. Kikuchi, Y. Hisaeda, T. Ohno
Ed by H.-J. Schneider and H. Durr, Universitat des Saarlandes, VCH Verlagsgesellschaft mbH, Weihheim, 145-166 (1991).
[8]人工酵素の分子設計と触媒作用
村上幸人, 久枝良雄
ハイブリットプロセスによる有用物質生産 (化学増刊 119),
山田秀明, 土佐哲也, 上野民夫 共編, 化学同人, 33-144 (1991).
[7]ビタミンB12人工酵素の分子設計
村上幸人, 久枝良雄
触媒, 32, No.5, 287-293 (1990).
[6]包接現象を応用した人工酵素化学
村上幸人, 菊池純一, 久枝良雄
包接化合物の基礎と応用, 株式会社エヌ・ティー・エス, 85-109 (1989).
[5]ビタミンB12依存の異性化反応にコバルトは関与しないのか?
久枝良雄
化学と工業, 42, No.3, 481-482 (1989).
[4]ラジカルの分子内官能基転位による炭素骨格組み替え
村上幸人, 久枝良雄
化学, 44, No.1, 68-69 (1989).
[3]疎水性ビタミンB12を用いた有機合成
村上幸人, 久枝良雄
化学工業, 39, No.11, 52-58 (1988).
[2]B12酵素およびそのモデル系による骨格異性化
村上幸人, 久枝良雄
化学増刊, No.109, 221-228 (1986).
[1]ビタミンB12酵素のモデル反応
村上幸人, 久枝良雄
化学と生物, 24, No.4, 226-227 (1986).
論 文
2015
[220] Synthesis, Characterizations, and Intramolecular Quenching Behavior of an Axially-Linked Trinuclear Molecular Wire Containing Ruthenium(II) Porphycenes
Abe, M.; Ashigara, S.; Okawara, T.; Hisaeda, Y.
Rapid Communication in Photoscience, in press(2015)
DOI:
[219] Crystal Structure Dependence for Reactivities of B12-TiO2 Hybrid Catalysts with Anatase and Rutile Forms
Shiamkoshi, H.; Nagami, Y.; Hisaeda, Y.
Rapid Communication in Photoscience, in press(2015)
DOI:
[218] Synthesis and X-ray crystallography of bipyrroles: impacts of a CO-π interaction on their structure and photoluminescent properties
Okawara, T.; Doi, A. ; Ono, T.; Abe, M.; Takehara, K.; Hisaeda, Y.; Matsushima, S.
Tetrahedron Lett., in press(2015)
DOI:
[217] Synthesis and X-ray crystallography of bipyrroles: impacts of a CO-π interaction on their structure and photoluminescent properties
Okawara, T.; Doi, A. ; Ono, T.; Abe, M.; Takehara, K.; Hisaeda, Y.; Matsushima, S.
Tetrahedron Lett., in press(2015)
DOI:
[216] Molecular structures, redox properties, and photosubstitution of ruthenium(II) carbonyl complexes of porphycene
Okawara, T.; Abe, M.; Ashigara, S.; Hisaeda, Y.
J. Porphyrins Phthalocyanines, in press(2015)
DOI:
[215] Development of Metal-Organic Framework (MOF)-B12 system as new bio-inspired heterogeneous catalyst
Xu, J.; Shimakoshi, H.; Hisaeda, Y.
Organometal. Chem., 782, 89-95(2014)
DOI:10.1016/j.jorganchem.2014.11.015
2014
[214] Co(II)/Co(I) reduction-induced axial histidine-flipping in myoglobin reconstituted with a cobalt tetradehydrocorrin as a methionine synthase model
Hayashi, T.; Morita, Y.; Mizohata, E.; Oohora, K.; Ohbayashi, J.; Inoue, T.; Hisaeda, Y.
Chem. Commun., 50(83), 12560-12563.(2014)
DOI:10.1039/C4CC05448B
[213] Construction of Molecular Communication Interface Formed from Cerasome and Hydrophobic Vitamin B12 on Glassy Carbon Electrode
Qiao, Y.; Tahara, K.; Zhang, Q.; Song, X.-M.; Hisaeda, Y.; Kikuchi. J.
Chem. Lett., 43, 684-686.(2014)
DOI:http://doi.org/10.1246/cl.140025
[212] A Heterometallic Protocol for Turn-On Fluorescence. Synthesis, Structure, and Luminescence Behavior of Diruthenium(III)-Magnesium(II) Complex Decorated with Four Pyrenecarboxylates
Ikegami, A.; Abe, M.; Hisaeda,Y.
Chem. Lett., 43, 456-458(2014)
DOI:10.1016/j.tetlet.2014.09.057
[211] Synthesis of a series of multiply meso-acetoxylated porphycenes
Okawara, T.; Abe,M.; Hisaeda,Y.
Tetrahedron Lett., 55, 6193-6197(2014)
DOI:
[210] Alkylcobyrinate from Sucralose and Mechanistic Aspects of its Co-C Bond Cleavage
Motwani, H. V.; Shimakoshi, H.; Golding, B. T.; Törnqvist, M.; Hisaeda,Y.
Tetrahedron Letters, 55, 2667-2670.(2014)
DOI:10.1016/j.tetlet.2014.03.028
[209] A Polymerized Ionic Liquid-supported B12 Catalyst with a Ruthenium Trisbipyridine Photosensitizer for Photocatalytic Dechlorination in Ionic Liquids
Zhang, W.; Shimakoshi, H.; Houfuku, N.; Song,X.; Hisaeda, Y.
Dalton Trans., 43, 13972-13978(2014)
DOI:10.1039/C4DT01360C
[208] B12-TiO2 Hybrid Catalyst for Light-Driven Hydrogen Production and Hydrogenation of C-C Multiple Bonds
Shimakoshi, H.; Hisaeda,Y.
ChemPlusChem [Back Cover], 79(9),1250-1253(2014)
DOI: 10.1002/cplu.201402081
2013
[207] Synthesis and characterizations of meso-disubstituted asymmetric porphycenes
M. Taneda; A. Tanaka; H. Shimakoshi; A. Ikegami; K. Hashimoto; M. Abe; Y. Hisaeda
Tetrahedron Lett., 54, 42, 5727 – 5729 (2013)
DOI: 10.1016/j.tetlet.2013.08.026
[206] Bioinspired Catalytic Reactions with Vitamin B12 Derivative and Photosensitizers
Y. Hisaeda; K. Tahara; H. Shimakoshi; T. Masuko
Pure Appl. Chem., 85, 7, 1415 – 1426 (2013)
DOI: 10.1351/PAC-CON-12-10-05
[205] Photoinduced Electron Transfer in Supramolecular Donor-Acceptor dyad of Zn Corrphycene
M. Fujitsuka; H. Shimakoshi; Y. Tei; K. Noda; S. Tojo; Y. Hisaeda; T. Majima
Phys. Chem. Chem. Phys., 15, 15, 5677 – 5683 (2013)
DOI: 10.1039/c3cp43795g
[204] Synthesis, Characterization, Co-S Bond Reactivity of a Vitamin B12 Model Complex Having Pentafluorophenylthiolate as an Axial Ligand
K. Tahara; A. Matsuzaki; T. Masuko; J. Kikuchi; Y. Hisaeda
Dalton Trans., 42, 18, 6410 – 6416 (2013)
DOI: 10.1039/C3DT00042G
[203] Metallopolymer Films Exhibiting Three-color Electrochromism in the UV/Vis and Near-IR Region: Remarkable Utility of Trimetallic Clusters Bearing Thienyl Pendants and Their Mixed-valent Charge Transfer Transitions
R. Matsuse; M. Abe; Y. Tomiyasu; A. Inatomi; H. Yonemura; S. Yamada; Y. Hisaeda
J. Inorg. Organomet. Polym., 23, 1, 136 – 146 (2013)
DOI: 10.1007/s10904-012-9758-9
[202] Dechlorination of DDT catalyzed by visible-light-driven system composed of vitamin B12 derivative and Rhodamine B
K. Tahara; K. Mikuriya; T. Masuko; J. Kikuchi; Y. Hisaeda
J. Porphyrins Phthalocyanines, 17, 01n02, 135 – 141 (2013)
DOI: 10.1142/S1088424612501398
[201] A Pd(II)-hydroxyporphycene: synthesis, characterization, and photoinduced proton-coupled electron transfer
T. Okawara; M. Abe; H. Shimakoshi; Y. Hisaeda
Res. Chem. Intermed., 39, 161 – 176 (2013)
DOI: 10.1007/s11164-012-0640-8
2012
[200] Vitamin B12 derivatives as activators of soluble guanylyl cyclase
Keithó Proinsias; Daniel Gryko; Yoshio Hisaeda; Emil Martin; Jonathan Sessler; Dorota Gryko
J. Med. Chem., 55, 20, 8943 – 8947 (2012)
DOI: 10.1021/jm3006959
[199] Oxo-centered Trimetallic Clusters Supported by Electron-withdrawing Carboxylates: Highly Inert Character in Ligand Exchange Kinetics of Dichloroacetate-bridged Complex [Ru3(μ3-O)(μ-CHCl2COO)6(pyridine)3]
A. Inatomi; M. Abe; Y. Hisaeda
Aust. J. Chem., 65, 1599 – 1607 (2012)
DOI: http://dx.doi.org/10.1071/CH12378
[198] Hydrogenation effects in metalloporphycenes: synthesis and redox behavior of Ni(II)-tetra(n-propyl)dihydroporphycene
T. Okawara; K. Hashimoto; M. Abe; H. Shimakoshi; Y. Hisaeda
Chem. Commun., 48, 44, 5413 – 5415 (2012)(Inside Front Cover)
DOI: 10.1039/C2CC30991B
[197] Synthesis and photosensitizing properties of porphycene with imidazolium tag
H. Shimakoshi; K. Sasaki; Y. Iseki; Y. Hisaeda
J. Porphyrins Phthalocyanines, 16, 530 – 536 (2012)
DOI: 10.1142/S1088424612500551
[196] Aquabis(1,1,1,5,5,5-hexafluoroacetylacetonato) [4′-(4-pyridyl)-2,2′:6′,2”-terpyridine]ytterbium(III) chloride methanol monosolvate monohydrate
T. Okawara; J. Feng; M. Abe; Y. Hisaeda
Acta Cryst. E, m29-m30 (2012)
DOI: 10.1107/S1600536811052378
2011
[195] Photosensitizing catalysis of B12 complex without additional photosensitizer
H. Shimakoshi; L. Li; M. Nishi; Y. Hisaeda
Chem. Commun., 47, 39, 10921 – 10923 (2011)(Back Cover)
DOI: 10.1039/c1cc12482j
[194] Hydroxy-Functionalized Porphycenes: Structure, Spectroscopy, and Electrochemistry
T. Okawara; M. Abe; H. Shimakoshi; Y. Hisaeda
Bull. Chem. Soc. Jpn., 84, 7, 718 – 728 (2011)(Selected Paper)
DOI: 10.1246/bcsj.20110072
[193] Photocatalytic function of polymer-supported B12 complex with ruthenium trisbipyridine photosensitizer
H. Shimakoshi; M. Nishi; A. Tanaka; K. Chikama; Y. Hisaeda
Chem. Commun., 47, 23, 6548 – 6550 (2011)(Inside Front Cover)
DOI: 10.1039/c1cc11970b
[192] Eco-friendly Molecular Transformations Catalyzed by Vitamin B12 Derivative with Visible-Light-Driven System
K. Tahara; Y. Hisaeda
Green Chem., 13, 3, 558 – 561 (2011)
DOI: 10.1039/c0gc00478b
[191] Electroactive Chain-like Compounds Constructed from Trimetallic Clusters and 4,4′-Bipyridine Spacers: One-pot Synthesis, Characterization and Surface Binding
M. Abe; A. Inatomi; Y. Hisaeda
Dalton Trans., 40, 10, 2289 – 2298 (2011)
DOI: 10.1039/c0dt01237h
[190] Supramolecular Assemblies of Crown-substituted Dinickel and Dicobalt Complexes with Guest Cation Binding
H. Shimakoshi; D. Maeda; Y. Hisaeda
Supramol. Chem., 23, 1-2, 131 – 139 (2011)
DOI: 10.1080/10610278.2010.514910
[189] Methyl-transfer Reaction to Alkylthiol Catalyzed by a Simple Vitamin B12 Model Complex Using Zinc Powder
L. Pan; K. Tahara; T. Masuko; Y. Hisaeda
Inorg. Chim. Acta,, 368, 1, 194 – 199 (2011)
DOI: 10.1016/j.ica.2011.01.004
[188] Electrochemical Catalytic Carbon-Skeleton Rearrangement Reaction Mediated by Imine/Oxime-Type B12 Model Complex
K. Tahara; Y. Chen; L. Pan; T. Masuko; H. Shimakoshi; Y. Hisaeda
Chem. Lett., 40, 2, 177 – 179 (2011)(Editor’s Choice)
DOI: 10.1246/cl.2011.177
[187] Reorganization Energy of Supramolecular Donor-Acceptor Dyad of Octaethylporphyrin Isomers and Axial-Coordinated Acceptor: Experimental and Computational Study
M. Fujitsuka; H. Shimakoshi; Y. Hisaeda; T. Majima
J. Photochem. Photobiol. A.,217, 1, 242 – 248 (2011)
2010
[186] Redox Behavior and Electrochemical Catalytic Function of B12-Hyperbranched Polymer
K. Tahara; H. Shimakoshi; A. Tanaka; Y. Hisaeda
Bull. Chem. Soc. Jpn., 83, 12, 1439 – 1446 (2010)
(BCSJ Award Article)
[185] Analyses of the Adsorption Structures of Friction Modifiers by Means of Quantitative Structure-Property Relationship Method and Sum Frequency Generation Spectroscopy
H. Koshima; H. Kamano; Y. Hisaeda; H. Liu; S. Ye
Tribology Online, 5, 3, 165 – 172 (2010)
[184] Preparations and Photosensitizing Properties of 2,7,12,17-Tetra-n-Propylporphycenatotin(IV) Dihalide Complexes
M. Taneda; H. Shimakoshi; M. Abe; Y. Hisaeda
Bull. Chem. Soc. Jpn., 82, 6, 667 – 671 (2010)
[183] Electron Transfer in the Supramolecular Donor-Acceptor Dyad of Zinc Hemiporphycene
M. Fujitsuka; H. Shimakoshi; S. Tojo; L. Cheng; D. Maeda; Y. Hisaeda; T. Majima
J. Phys. Chem., A,, 114, 12, 4156 – 4162 (2010)
[182] Synthetic Design of Heterometallic Cluster Compounds with Site-Selective and Stepwise Substitution of Bridging Carboxylates
A. Ikegami; M. Abe; A. Inatomi; Y. Hisaeda
Chem. Eur. J., 16, 15, 4438 – 4441 (2010)
[181] Synthesis of a novel Sn(IV) porphycene-ferrocene triad linked by axial coordination and solvent polarity effect in photoinduced charge separation process
D. Maeda; H. Shimakoshi; M. Abe; M. Fujitsuka; T. Majima; Y. Hisaeda
Inorg. Chem., 49, 6, 2872 – 2880 (2010)
[180] Photo-Induced Ring-Expansion Reactions Mediated by B12-TiO2 Hybrid Catalyst
S. Izumi; H. Shimakoshi; M. Abe; Y. Hisaeda
Dalton Trans., 39, 13, 3302 – 3307 (2010)
[179] Synthesis, Characterization and Catalytic Function of B12-Hyperbranched Polymer
K. Tahara; H. Shimakoshi; A. Tanaka; Y. Hisaeda
Dalton Trans., 39, 12, 3035 – 3042 (2010)
[178] Preparation and Reactivity of B12-TiO2 Hybrid Catalyst Immobilized on Glass Plate
H. Shimakoshi; M. Abiru; K. Kuroiwa; N. Kimizuka; M. Watanabe; Y. Hisaeda
Bull. Chem. Soc. Jpn., 82, 2, 170 – 172 (2010)
[177] Synthesis and Catalysis of B12-core-shell-Hyperbranched Polymer
H. Shimakoshi; M. Nishi; A. Tanaka; K. Chikama; Y. Hisaeda
Chem. Lett., 39, 1, 22 – 23 (2010)
2009
[176] Meso-unsubstituted Iron Corrole in Hemoproteins: Remarkable Differences in Effects on Peroxidase Activities between Myoglobin and Horseradish Peroxidase
T. Matsuo; A. Hayashi; M. Abe; T. Matsuda; Y. Hisaeda; T. Hayashi
J. Am. Chem. Soc., 131, 42, 15124 – 15125 (2009)
[175] Vitamin B12 Model Complex Catalyzed Methyl Transfer Reaction to Alkylthiol under Electrochemical Conditions with Sacrificial Electrode
L. Pan; H. Shimakoshi; T. Masuko; Y. Hisaeda
Dalton Trans., 38, 44, 9898 – 9905 (2009)
[174] Carboxylate-Modified New Oxo-Centered Triruthenium Cluster Compounds with CO and Solvent Ligands. An X-Ray Structure of [Ru3O(C2H5CO2)6(CO)(thf)2]
A. Inatomi; M. Abe; Y. Hisaeda
Eur. J. Inorg. Chem., 32, 4830 – 4836 (2009)
[173] The Single- and Double-Strand Cleavage of DNA by a Cationic Dicobalt Complex by Visible Light
H. Shimakoshi; T. Kaieda; Y. Hisaeda
Bull. Chem. Soc. Jpn., 82, 11, 1386 – 1392 (2009)
[172] Green molecular transformation by B12-TiO2 hybrid catalyst as an alternative to tributyltin hydride
H. Shimakoshi; M. Abiru; S. Izumi; Y. Hisaeda
Chem. Commun., 42, 6427 – 6429 (2009)
[171] Syntheses and Photophysical Behavior of Porphyrin Isomer Sn(IV) Complexes
D. Maeda; H. Shimakoshi; M. Abe; Y. Hisaeda
Inorg. Chem., 48, 20, 9853 – 9860 (2009)
[170] Electron Transfer in Supramolecular Donor-Acceptor Dyad of Zinc Porphycene
M. Fujitsuka; H. Shimakoshi; S. Tojo; L. Cheng; D, Maeda; Y. Hisaeda; T. Majima
J. Phys. Chem. A, 113, 14, 3330 – 3335 (2009)
[169] Organic Films Containing Trinuclear Ruthenium Clusters that Exhibit Redox State-dependent Heat-shielding Characteristics
Y. Tomiyasu; M. Abe; Y. Morihara; H. Ohgi; T. Otake; Y. Hisaeda
Chem. Lett., 38, 5, 492 – 493 (2009)
[168] B12-TiO2 Hybrid Catalyst for Dehalogenation of Organic Halides
H. Shimakoshi; E. Sakumori; Kenji Kaneko; Y. Hisaeda
Chem. Lett., 38, 5, 468 – 469 (2009)
[167] Methyl Transfer from a Hydrophobic Vitamin B12 Derivative to ArsenicTrioxide
K. Nakamura; Y. Hisaeda; L. Pan; H. Yamauchi
J. Organometal. Chem., 694, 916 – 921 (2009)
[166] Molecular Recognition of Redox-Switchable Bis-crowns Moieties Assembled on Dicobalt Complex
H. Shimakoshi; K. Shibata; Y. Hisaeda
Inorg. Chem., 48, 3, 1045 – 1052 (2009)
[165] Electrochemical Methyl-transfer Reaction to Alkylthiol Catalyzed by Hydrophobic Vitamin B12
L. Pan; H. Shimakoshi; Y. Hisaeda
Chem. Lett., 38, 1, 26 – 27 (2009)
[164] Synthesis and Photochemical Property of a New Molybdenum Porphycene Complex
D. Maeda; H. Shimakoshi; M. Abe; Y. Hisaeda
Dalton Trans., 1, 140 – 145 (2009)
[163] Electron Transfer Reaction of Porphyrin and Porphycene Complexes of Cu(II) and Zn(II) in Acetonitrile
K. Aoki; T. Goshima; Y. Kozuka; Y. Kawamori; N. Ono; Y. Hisaeda; H. D. Takagi; M. Inamo
Dalton Trans., 1, 119 – 125 (2009)
2008
[162] Antishudder Performance of Low-Molecular-Weight Alkenylsuccinimides
H. Koshima; T. Tsubouchi; T. Ichihashi; Y. Hisaeda
Tribology Online, 3, 6, 328 – 332 (2008)
[161] Detoxification system for inorganic arsenic: transformation of arsenic trioxide into trimethylarsine oxide (TMAO) by vitamin B12 derivatives and conversion of TMAO into arsenobetaine
K. Nakamura; Y. Hisaeda; L. Pan; H. Yamauchi
Chem. Commun., 41, 5122 – 5124 (2008)
[160] Photosensitizing Properties of the Porphycene Immobilized in Sol-Gel Derived Silica Coating Films
H. Shimakoshi; T. Baba; Y. Izeki; A. Endo; C. Adachi; M. Watanabe; Y. Hisaeda
Tetrahedron Lett., 49, 49, 6198 – 6201 (2008)
[159] Photocatalytic Hydrogen Generation Using a Protein-Coated Photosensitizer with Anionic Patches and a Monocationic Electron Mediator
T. Matsuo; A. Asano; T. Ando; Y. Hisaeda; T. Hayashi
Chem. Commun., 31, 3684 – 3686 (2008)
[158] Redox Gradations in Ruthenium Porphycene Complexes and the Porphyrin Analogs: Axial and Macrocyclic Ligand Effects
T. Okawara; M. Abe; H. Shimakoshi; Y. Hisaeda
Chem. Lett., 37, 9, 906 – 907 (2008)
[157] Kinetic Analysis of Superoxide Anion Radical-Scavenging and Hydroxyl Radical-Scavenging Activities of Platinum Nanoparticles
T. Hamasaki; T. Kashiwagi; T. Imada; N. Nakamichi; S. Arakami; K. Toh; S. Morisawa; H. Shimakoshi; Y. Hisaeda; S. Shirahata
Langmuir, 24, 14, 7354 – 7364 (2008)
[156] Study of Factors Influencing Factors of Phenyl Salicylates to the High-Temperature Detergency
H. Koshima; T. Tsubouchi; Y. Hisaeda
Tribology Online, 3, 3, 195 – 199 (2008)
[155] Photophysical and Photosensitizing Properties of Brominated Porphycenes
H. Shimakoshi; T. Baba; Y. Iseki; I. Aritome; A. Endo; C. Adachi; Y. Hisaeda
Chem. Commun., 25, 2882 – 2884 (2008)
[154] Photophysical and Photocatalytic Properties of β-Sulfonatoporphycenes
T. Baba; H. Shimakoshi; A. Endo; C. Adachi; Y. Hisaeda
Chem. Lett., 37, 3, 264 – 265 (2008)
[153] Isolable Iron(II)-Porphycene Derivative Stabilized by Introduction of Trifluoromethyl Groups on the Ligand Framework
K. Ito; T. Matsuo; I. Aritome; Y. Hisaeda; T. Hayashi
Bull. Chem. Soc. Jpn., 81, 1, 76 – 83 (2008) (BCSJ Award Article)
[152] Effect of Peripheral Trifluoromethyl Groups in Artificial Iron Porphycene Cofactor on Ligand Binding Properties of Myoglobin
T. Matsuo; K. Ito; Y. Nakashima; Y. Hisaeda; T. Hayashi
J. Inorg. Biochem., 102, 166 – 173 (2008)
2007
[151] Structure and Ligand Binding Properties of Myoglobins Reconstituted with Monodepropionated Heme: Functional Role of Each Heme-Propionate Side Chain
K. Harada; M. Makino; H. Sugimoto; S. Hirota; T. Matsuo; Y. Shiro; Y. Hisaeda; T. Hayashi
Biochemistry, 46, 33, 9406 – 9416 (2007)
[150] Porphyrinoid Chemistry in Hemoprotein Matrix: Detection and Reactivities of Iron(IV)-Oxo Species of Porphycene Incorporated into Horseradish Peroxidase
T. Matsuo; D. Murata; Y. Hisaeda; H. Hori; T. Hayashi
J. Am. Chem. Soc., 129, 43, 12906 – 12907 (2007)
[149] Synthesis and characterization of vitamin B12-hyperbranched polymer
T. Tahara; H. Shimakoshi; A. Tanaka; Y. Hisaeda
Tetrahedron Lett., 48, 29, 5065 – 5068 (2007)
[148] Enhanced Reactivity of Hydrophobic Vitamin B12 towards the Dechlorination of DDT in Ionic Liquid
M. A. Jabbar; H. Shimakoshi; Y. Hisaeda
Chem. Commun., 1653 – 1655 (2007)
2006
[147] Crystal Structure and Peroxidase Activity of Myoglobin Reconstituted with Iron Porphycene
T. Hayashi; D. Murata; M. Makino; H. Sugimoto; T. Matsuo; H. Sato; Y. Shiro; Y. Hisaeda
Inorg. Chem., 45, 26, 10530 – 10536 (2006)
[146] Organic/Inorganic Hybrid Nanomaterials with Vitamin B12 Functions
Y. Hisaeda; T. Masuko; E. Hanashima; T. Hayashi
Sci. Tech. Adv. Mater., 7, 7, 655 – 661 (2006)
[145] 1,1′-(Ethenylidene)bis(4-chlorobenzene)
M. A. Jabbar; I. Aritome; H. Shimakoshi; Y. Hisaeda
Acta Cryst.C, 61, Part 11, o663 – o665 (2006)
[144] Immobilization of a Binuclear Ruthenium(III) Complex on a Gold (111) Surface: Observations of Proton-coupled Electron Transfer and Electrochemical Durability in Aqueous Media
Hiromitsu Uehara; Masaaki Abe; Yoshio Hisaeda; Kohei Uosaki; Yoichi Sasaki
Chem. Lett., 35, 10, 1178 – 1179 (2006)
[143] Construction of glycosylated myoglobins by reconstitutional method
T. Matsuo; H. Nagai; Y. Hisaeda; T. Hayashi
Chem. Commun., 3131 – 3133 (2006)
[142] Ligand Binding Properties of Two Kinds of Reconstituted Myoglobins with Iron Porphycene Having Propionates: Effect of β-Pyrrolic Position of Two Propionate Side Chains in Porphycene Framework
T. Matsuo; T. Ikegami; H. Sato; Y. Hisaeda; T. Hayashi
J. Inorg. Biochem., 100, 1265 – 1271 (2006)
[141] Iron Porphyrin-Cyclodextrin Supramolecular Complex as a Functional Model of Myoglobin in Aqueous Solution
K. Kano; H. Kitagishi; C. Dagallier; M. Kodera; T. Matsuo; T. Hayashi; Y. Hisaeda; S. Hirota
Inorg. Chem., 45, 11, 4448 – 4460 (2006)
[140] Bis[2,3,6,7,12,13,16,17-octaethylporphycenato)molybdenum(V)] hexamolybdate(IV)
D. Maeda; I. Aritome; H. Shimakoshi; Y. Hisaeda
Acta Cryst.E, E62, m1272 – m1274 (2006)
[139] Molecular Programming of Organogelators Which Can Accept [60]Fullerene by Encapsulation
M. Shirakawa; N. Fujita; H. Shimakoshi; Y. Hisaeda; S. Shinkai
Tetrahedron, 62, 2016 – 2024 (2006)
2005
[138] Preparation of cationic immunovesicles containing cationic peptide lipid for specific drug delivery to target cells
T. Sugawara; S. Kawashima; A. Oda; Y. Hisaeda; K. Kato
Cytotechnology, International Journal of Cell Culture and Biotechnology incorporating Methods in Cell Science, 47, 1-3, 51 – 57 (2005)
[137] Redox Switchable Molecular Containers Consisting of Dicobalt Complexes
H. Shimakoshi; H. Takemoto; I. Aritome; Y. Hisaeda
Inorg. Chem., 44, 25, 9134 – 9136 (2005)
[136] Preparation and O2 Binding Study of Myoglobin Having a Cobalt Porphycene
T. Matsuo; T. Tsuruta; K. Maehara; H. Sato; Y. Hisaeda; T. Hayashi
Inorg. Chem., 44, 25, 9391 – 9396 (2005)
[135] Dioxygen Binding to a Cobalt(II) Porphycene Complex and its Auto-oxidized Cobalt(III) Complex
H. Shimakoshi; I. Aritome; S. Hirota; Y. Hisaeda
Bull. Chem. Soc. Jpn., 78, 9, 1619 – 1623 (2005)
[134] Gene transfection into HeLa cells by vesicles containing cationic peptide lipid
Y. Ohama; Y. Heike; T. Sugahara; K. Sakata; N. Yoshimura; Y. Hisaeda; M. Hosokawa; S. Takashima; K. Kato
Bioscience, Biotechnology and Biochemistry, 69, 8, 1453 – 1458 (2005)
[133] Recycled Catalysis of a Hydrophobic Vitamin B12 in an Ionic Liquid
H. Shimakoshi; S. Kudo; Y. Hisaeda
Chem. Lett., 34, 8, 1096 – 1097 (2005)
[132] (Z)-2,3-Dichloro-1,1,4,4-tetrakis(4-chlorophenyl)but-2-ene
H. Shimakoshi; I. Aritome; M. Tokunaga; Y. Hisaeda
Acta Cryst.E, E61, o2063 – o2064 (2005)
[131] Synthesis and Redox Behavior of Dicobalt Complexes Having Flexible and Rigid Linkers
H. Shimakoshi; S. Hirose; M. Ohba; T. Shiga; H. Okawa; Y. Hisaeda
Bull. Chem. Soc. Jpn., 78, 6, 1040 – 1046 (2005)
[130] Hydrophobic Vitamin B12 Part 20: Supernucleophilicity of Co(I) Heptamethyl Cobyrinate toward Various Organic Halides
H. Shimakoshi; Y. Maeyama; T. Kaieda; T. Matsuo; E. Matsui; Y. Naruta; Y. Hisaeda
Bull. Chem. Soc. Jpn., 78, 5, 859 – 863 (2005)
[129] Unusual Ligand Discrimination by a Myoglobin Reconstituted with a Hydrophobic Domain-Linked Heme
H. Sato; M. Watanabe; Y. Hisaeda; T. Hayashi
J. Am. Chem. Soc., 127, 56 – 57 (2005)
2004
[128] Ligand binding Properties of Myoglobin Reconstituted with Iron Porphycene: Unusual O2 Binding selectivity against CO Binding
T. Matsuo; H. Dejima; S. Hirota; D. Murata; H. Sato; T. Ikegami; H. Hori; Y. Hisaeda; T. Hayashi
J. Am. Chem. Soc., 126, 16007 – 16017 (2004)
[127] Chemical Properties of Sperm Whale Myoglobins Reconstituted with Monopropionate Hemins
T. Hayashi; T. Nakagawa; K. Harada; T. Matsuo; Y. Hitomi; Y. Hisaeda
Chem. Lett., 33, 1512 – 1513 (2004)
[126] (E)-2,3-Dichloro-1,1,4,4-tetrakis(4-chlorophenyl)but-2-ene
H. Shimakoshi; I. Aritome; M. Tokunaga; Y. Hisaeda
Acta Cryst.E, E60, o1470 – o1471 (2004)
[125] Photochemical dechlorination of DDT catalyzed by a hydrophobic vitamin B12 and a photosensitizer under irradiation with visible light
H. Shimakoshi; M. Tokunaga; T. Baba; Y. Hisaeda
Chem. Commun., 1806 – 1807 (2004)
[124] High peroxidase activity of sperm whale myoglobin by hybridization of modified-heme reconstitution and distal histidine mutation
H. Sato; T. Hayashi; Y. Hisaeda
J. Porphyrins Phthalocyanines, 8, 823 (2004)
[123] Enhancement of peroxidase activity in myoglobin by iron porphycene as a prosthetic group
D. Murata; H. Sato; T. Hayashi; Y. Hisaeda
J. Porphyrins Phthalocyanines, 8, 775 (2004)
[122] Ligand binding properties of reconstituted myoglobin with iron porphycene
T. Matsuo; T. Hayashi; Y. Hisaeda
J. Porphyrins Phthalocyanines, 8, 763 (2004)
[121] Reaction of β-brominated porphycene cobalt(III) with olefins
I. Aritome; H. Shimakoshi; T. Hayashi; Y. Hisaeda
J. Porphyrins Phthalocyanines, 8, 596 (2004)
[120] Electrochemical reactions mediated by hydrophobic vitamin B12
Y. Hisaeda; H. Shimakoshi; M. Tokunaga; T. Hayashi
J. Porphyrins Phthalocyanines, 8, 397 (2004)
[119] Modification of hemoproteins by reconstitutional methods
T. Hayashi; H. Sato; T. Matsuo; Y. Hisaeda
J. Porphyrins Phthalocyanines, 8, 395 (2004)
[118] Enhancement of enzymatic activity for myoglobins by modification of heme-propionate side chains
T. Hayashi; H. Sato; T. Matsuo; T. Matsuda; Y. Hitomi; Y. Hisaeda
J. Porphyrins Phthalocyanines, 8, 255 – 264 (2004)
[117] Synthesis and simple separation of μ-pyrrole sulfonated porphycenes
T. Baba; H. Shimakoshi; Y. Hisaeda
Tetrahedron Lett., 45, 5973 – 5975 (2004)
[116] Synthesis and Characterization of μ-Oxodiiron(III) Complexes of Porphycenes with Electron-withdrawing Substituents
T. Baba; H. Shimakoshi; I. Aritome; Y. Hisaeda
Chem. Lett., 33, 906 – 907 (2004)
[115] Hydrophobic Vitamin B12. Part 19. Electroorganic reaction of DDT mediated by hydrophobic vitamin B12
H. Shimakoshi; M. Tokunaga; Y. Hisaeda
Dalton Trans., 878 – 882 (2004)
[114] Hybridization of Modified-Heme Reconstitution and Distal Histidine Mutation to Functionalize Sperm Whale Myoglobin
H. Sato; T. Hayashi; T. Ando; Y. Hisaeda; T. Ueno; Y. Watanabe
J. Am. Chem. Soc., 126, 436 – 437 (2004)
[113] Preparation and electrochemical behaviour of hydrophobic vitamin B12 covalently immobilized onto platinum electrode
H. Shimakoshi; M. Tokunaga; K. Kuroiwa; N. Kimizuka; Y. Hisaeda
Chem. Commun., 50 – 51 (2004)
2003
[112] Synthesis, Characterization and Autoreduction of a Highly Electron-Deficient Porphycenatoiron(III) with Trifluoromethyl Substituents
T. Hayashi; Y. Nakashima; K. Ito; T. Ikegami; I. Aritome; K. Aoyagi; T. Ando; Y. Hisaeda
Inorg. Chem., 42, 7345 – 7347 (2003)
[111] Synthesis, Structure and Unique Chemial Property of a First Fluorine-Containing Porphycene
T. Hayashi; Y. Nakashima; K. Ito; T. Ikegami; I. Aritome; A. Suzuki; Y. Hisaeda
Org. Lett., 5, 2845 – 2848 (2003)
[110] Solid-solid synthesis of a hydrophobic vitamin B12 having a benzo-18-crown-6 moiety at the C10 position of the corrin ring
H. Shimakoshi; T. Inaoka; Y. Hisaeda
Tetrahedron Lett., 44, 6421 – 6424 (2003)
[109] Role of Heme-Propionate Side Chains in Myoglobin Function
T. Hayashi; T. Matsuo; K. Harada; Y. Hisaeda; S. Hirota; N. Funasaki
J. Inorg. Biochem., 96, 50 (2003)
[108] Syntheses of new water-soluble dicobalt complexes having two cobalt-carbon bonds and their ability for DNA cleavage
H. Shimakoshi; T. Kaieda; T. Matsuo; H. Sato; Y. Hisaeda
Tetrahedron Lett., 44, 5197 – 5199 (2003)
[107] Hydrophobic Vitamin B12. Part 18. Preparation of a sol-gel modified electrode immobilized with vitamin B12 derivative and its reductive dehalogenation activity
H. Shimakoshi; A. Nakazato; M. Tokunaga; K. Katagiri; K. Ariga; J. Kikuchi; Y. Hisaeda
J. Chem. Soc., Dalton Trans., 2308 – 2312 (2003)
[106] Enhancement of Peroxygenase Activity of Horse Heart Myoglobin by Modification of Heme-propionate Side Chains
T. Hayashi; T. Matsuda; Y. Hisaeda
Chem. Lett., 32, 496 – 497 (2003)
[105] N-Confused Porphyrin-Bearing meso-Perfluorophenyl Groups: A Potential Agent That Forms Stable Square-Planar Complexes with Cu(II) and Ag(III)
H. Maeda; A. Osuka; Y. Ishikawa; I Aritome; Y. Hisaeda; H. Furuta
Org. Lett., 5, 1293 – 1296 (2003)
[104] Iron Twin-Coronet Porphyrins as Models of Myoglobin and Hemoglobin: Amphibious Electrostatic Effects of Overhanging Hydroxyl Groups for Successful CO/O2 Discrimination
F. Tani; M. Matsu-ura; K. Ariyama; T. Setoyama; T. Shimada; S. Kobayashi; T. Hayashi; T. Matsuo; Y. Hisaeda; Y. Naruta
Chem. Eur. J., 9, 862 – 870 (2003)
2002
[103] Syntheses of Large-membered Macrocycles Having multiple Hydrogen Bonding Moieties
H. Shimakoshi; T. Kai; I. Aritome; Y. Hisaeda
Tetrahedron Lett., 43, 8261 – 8264 (2002)
[102] Reductive Activation of Dioxygen by a Myoglobin Reconstituted with a Flavohemin
T. Matsuo; T. Hayashi; Y. Hisaeda
J. Am. Chem. Soc., 124, 11234 – 11235 (2002)
[101] Blue Myoglobin Reconstituted with an Iron Porphycene Shows Extremely High Oxygen Affinity
T. Hayashi; H. Dejima; T. Matsuo; H. Sato; D. Murata; Y. Hisaeda
J. Am. Chem. Soc., 124, 11226 – 11227 (2002)
[100] Polysaccharide-Polynucleotide Complexes VIII. Cation-Induced Complex Formation between Polyuridylic Acid and Schizophyllan
K. Sakurai; R. Iguchi; K. Koumoto; T. Kimura; M. Mizu; Y. Hisaeda; S. Shinkai
Biopolymers, 65, 1 – 9 (2002)
[99] 3,6,13,19-Tetrabromo-2,7,12,17-tetrapropylporphycene
I. Aritome; H. Shimakoshi; Y. Hisaeda
Acta Cryst.C, C58, 563 – 564 (2002)
[98] Contribution of Heme-Propionate Side Chains to Structure and Function of Myoglobin: Chemical Approach by Artificially Created Prosthetic Groups
T. Hayashi; T. Matsuo; Y. Hitomi; K. Okawa; A. Suzuki; Y. Shiro; T. Iizuka; Y. Hisaeda; H. Ogoshi
J. Inorg. Biochem., 91, 94 – 100 (2002)
[97] Synthesis,Characterization, and Redox Behavior of New Dicobalt Complexes Having Monoanionic Imine/Oxime-type Ligands
H. Shimakoshi; M. Koga; Y. Hisaeda
Bull. Chem. Soc. Jpn., 75, 1553 – 1558 (2002)
[96] New Macrocyclic Ligands Having Discrete Metal Binding Sites
H. Shimakoshi; H. Takemoto; I. Aritome; Y. Hisaeda
Tetrahedron Lett., 43, 4809 – 4812 (2002)
[95] Chemical Recognition and Chiral Induction by Use of Zinc Porphyrin Dimers
T. Hayashi; T. Aya; N. Nonoguchi; T. Mizutani; Y. Hisaeda; S. Kitagawa; H. Ogoshi
Tetrahedron, 58, 2803 – 2811 (2002)
[94] New Functionalization of Myoglobin by Chemical Modification of Heme-Propionates
T. Hayashi; Y. Hisaeda
Acc. Chem. Res., 35, 35 – 43 (2002)
2001
[93] New Myoglobin Reconstituted with an Iron Porphycene as a Structural Isomer of Heme Moiety
H. Dejima; T. Hayashi; T. Matsuo; Y. Hisaeda
J. Inorg. Biochem., 86, 200 (2001)
[92] Photoinduced Electron Transfer within an Artificially Created Protein-protein Complex
T. Ando; T. Hayashi; H. Sato; Y. Hisaeda
J. Inorg. Biochem., 86, 124 (2001)
[91] Chemical Properties of Reconstituted Myoglobins with Functionalized Hemin Derivatives
T. Hayashi; T. Ando; T. Matsuda; H. Sato; T. Matsuo; Y. Hisaeda
J. Inorg. Biochem., 86, 57 (2001)
[90] Langmuir Monolayer of Organoalkoxysilane for vitamin B12-modified Electrode
K. Ariga; K. Tanaka; K. Katagiri; J. Kikuchi; H. Shimakoshi; E. Ohshima; Y. Hisaeda
Physical Chemistry Chemical Physics, 3, 3442 – 3446 (2001)
[89] Reductive Coupling of benzyl Bromide Catalyzed by a Novel Dicobalt Complex Having Two Salen Units
H. Shimakoshi; W. Ninomiya; Y. Hisaeda
J. Chem. Soc., Dalton Trans., 1971 – 1974 (2001)
[88] Electroorganic Syntheses of Macrocyclic Lactones Mediated by Vitamin B12 Model Complexes Part 17. Hydrophobic vitamin B12
H. Shimakoshi; A. Nakazato; T. Hayashi; Y. Tachi; Y. Naruta; Y. Hisaeda
J. Electroanal. Chem., 507, 170 – 176 (2001)
[87] Cobaltporphycenes as Catalysts. The Oxidation of Vinyl Ethers via the Formation and Dissociation of Cobalt-Carbon Bonds
T. Hayashi; K. Okazaki; N. Urakawa; H. Shimakoshi; J. L. Sessler; E. Vogel; Y. Hisaeda
Organometallics, 20, 3074 – 3078 (2001)
[86] Formation and Cleavage of a Dicobalt Complex Bridged with a Pentamethylene Group
H. Shimakoshi; M. Koga; T. Hayashi; Y. Tachi; Y. Naruta; Y. Hisaeda
Chem. Lett., 346 – 347 (2001)
[85] Interprotein Electron Transfer Reaction Regulated by an Artificial Interface
Y. Hitomi; T. Hayashi; K. Wada; T. Mizutani; Y. Hisaeda; H. Ogoshi
Angew. Chem. Int. Ed., 40, 1098 – 1101 (2001)
[84] Synthesis and Redox Behavior of Dialkylated Dicobalt Complexes Having Two Discrete Salen Units
H. Shimakoshi; A. Goto; Y. Tachi; Y. Naruta; Y. Hisaeda
Tetrahedron Letters, 42, 1949 – 1951 (2001)
2000
[83] Introduction of a Specific Binding Domain on Myoglobin Surface by New Chemical Modification
T. Hayashi; T. Ando; T. Matsuda; H. Yonemura; S. Yamada; Y. Hisaeda
J. Inorg. Biochem., 82, 133 – 139 (2000)
[82] Novel Saccharide-induced Conformational Changes in a Boronic Acid-appended Poly(L-lysine) as Detected by Circular Dichroism and Fluorescence
H. Kobayashi; K. Nakashima; E. Ohshima; Y. Hisaeda; I. Hamachi; S. Shinkai
J. Chem. Soc., Perkin Trans., 2, 997 – 1002 (2000)
[81] Aggregation Behavior of Synthetic Peptide Lipids with Arginine in Aqueous Solution and Construction of a Vitamin B12 Artificial Enzyme
Y. Hisaeda; E. Ohshima; M. Arimura
Colloids and Surfaces A, 169, 143 – 153 (2000)
[80] Syntheses and Molecular Properties of Vitamin B12 Derivatives with Seven Alkyl Chains
K. Ariga; K. Tanaka; K. Katagiri; J. Kikuchi; E. Ohshima; Y. Hisaeda
Colloids and Surfaces A, 169, 47 – 58 (2000)
[79] Electrochemical Reactions Mediated by Vitamin B12 Derivatives in Organic Solvents
Y. Hisaeda; T. Nishioka; Y. Inoue; K. Asada; T. Hayashi
Coordination Chemistry Review, 198, 21 – 37 (2000)
[78] Synthesis and Properties of Alkylperoxocobalt(III) Porphyrin and Porphycene
T. Hayashi; K. Okazaki; H. Shimakoshi; F. Tani; Y. Naruta; Y. Hisaeda
Chem. Lett., 90 – 91 (2000)
1999
[77] Peroxidase Activity of Myoglobin Is Enhanced by Chemical Mutation of Heme-Propionates
T. Hayashi; Y. Hitomi; T. Ando; T. Mizutani; Y. Hisaeda; S. Kitagawa; H. Ogoshi
J. Am. Chem. Soc., 121, 7747 – 7750 (1999)
[76] New Approach to the Construction of Artificial Hemoprotein Complex
T. Hayashi; Y. Hitomi; T. Takimura; A. Tomokuni; T. Mizutani; Y. Hisaeda; T.Ogoshi
Coordination Chemistry Review, 190, 961 – 974 (1999)
[75] Enhancement of Peroxidase Activity by Use of Reconstituted Myoglobin
T. Hayashi; Y. Hitomi; Y. Hisaeda; S. Kitagawa
J. Inorg. Biochem., 74, 156 (1999)
1998
[74] Interfacial Recognition between Reconstituted Myoglobin Having Charged Binding Domain and Electron Acceptor via Electrostatic Interaction
T. Hayashi; A. Tomokuni; T. Mizutani; Y. Hisaeda; H. Ogoshi
Chemistry Letters, 1229 – 1230 (1998)
[73] Molecular Recognition by Novel Macrotetracyclic Cyclophanes Having Dipeptide Segments
A. Tanaka; S. Shimada; T. Hirohashi; T. Hayashi; Y. Hisaeda
Chemistry Letters, 1109 – 1110 (1998)
[72] Hydrophobic Vitamin B12. Part 15. Carbon-skeleton Rearrangement Reactions Mediated by Hydrophobic Vitamin B12 Covalently Bound to an Anionic Lipid Species in Aqueous Media
Y. Hisaeda; A. Ogawa; T. Ohno; Y. Murakami
Inorganica Chimica Acta, 273, 299 – 309 (1998)
[71] Preparation and Host-Guest Interactions of Novel Cage-type Cyclophanes Bearing Chiral Binding Sites Provided by Dipeptide Residues
A. Tanaka; S. Fujiyoshi; K. Motomura; O. Hayashida; Y. Hisaeda; Y. Murakami
Tetrahedron, 54, 5187 – 5206 (1998)
1997
[70] The electroreduction of Carbon Dioxide by Macrocyclic Cobalt Complexes Chemically Modified on Glassy Carbon Electrode
H. Aga; A. Aramata; Y. Hisaeda
Journal of Electroanalytical Chemistry, 437, 111 – 118 (1997)
[69] Preparation of Artificial Glycolipids and Their Aggregation Behavior in Aqueous Media
Y. Hisaeda; E. Ohshima; J. Kikuchi; Y. Murakami
Tetrahedron Letters, 38, 6713 – 6716 (1997)
[68] Nonenzymic Reactions Mediated by Vitamin B12 Artificial Enzyme
Y. Hisaeda; E. Kihara; T. Nishioka
Journal of Inorganic Biochemistry, 67, 235 (1997)
[67] Electron Paramagnetic Resonance studies Cobalt(II) Porphycene and Its Monomeric Oxygen Adduct
H. Shimakoshi; Y. Hisaeda
Journal of Inorganic Biochemistry, 67, 123 (1997)
[66] Hydrophobic Vitamin B12. Part 14. Ring-expansion Reactions Catalyzed by Hydrophobic Vitamin B12 under Electrochemical Conditions in Nonaqueous Medium
Y. Hisaeda; J. Takenaka; Y. Murakami
Electrochimica Acta, 42, 2165 – 2172 (1997)
[65] Host-Guest Interactions of Cage-type Cyclophanes Bearing Chiral Binding Sites Provided by Dipeptide Residues
O. Hayashida; A. Tanaka; S. Fujiyoshi; Y. Hisaeda; Y. Murakami
Tetrahedron Letters, 38, 1219 – 1222 (1997)
1996
[64] Artificial Enzymes
Y. Murakami; J. Kikuchi; Y. Hisaeda; O. Hayashida
Chemical Reviews, 96, 721 – 758 (1996)
[63] Preparation and Characterization of Novel Cage-type Cyclophanes Having Three or Four Bridging Dipeptide Segments
O. Hayashida; A. Tanaka; K. Motomura; Y. Hisaeda; Y. Murakami
Chemistry Letters, 1057 – 1058 (1996)
1995
[62] Preparation and Characterization of Water-soluble Cyclophanes Bearing Three or Four Dipeptide Moieties as Cationic Hosts
O. Hayashida; T. Hirohashi; Y. Hisaeda; Y. Murakami
Tetrahedron Letters, 36, 8051 – 8054 (1995)
[61] Specific Molecular Recognition by Chiral Cage-type Cyclophanes Having Leucine, Valine, and Alanine Residues
O. Hayashida; K. Ono; Y. Hisaeda; Y. Murakami
Tetrahedron, 51, 8423 – 8436 (1995)
[60] Hydrophobic vitamin B12. Part 12. Preparation, characterization and enantioselective alkylation of strapped hydrophobic vitamin B12
Y. Murakami; Y. Hisaeda; T. Ohno; H. Kohno; T. Nishioka
Journal of the Chemical Society, Perkin Transactions2, 1175 – 1183 (1995)
[59] Hexaalkyl Terpyrrole: A New Building Block for the Preparation of Expanded Porphyrins
J. L. Sessler; S. J. Weghorn; Y. Hisaeda; V. Lynch
Chemistry A Europian Journal, 1, 56 – 67 (1995)
[58] Carbon-skeleton Rearrangement of an Amino Acid Derivative as Mediated by Hydrophobic Vitamin B12 Covalently Bound to a Lipid Species in a Bilayer Membrane
Y. Murakami; Y. Hisaeda; A. Ogawa; T. Ohno
Journal of the Chemical Society, Perkin Transactions2, 189 – 191 (1995)
1994
[57] Isomerization of an Axial Ligand Coordinated to Hydrophobic Vitamin B12 as Effected by Cyanide Ion and Microenvironment
T. Ohno; A. Ogawa; Y. Hisaeda; Y. Murakami
Tetrahedron Letters, 35, 9589 – 9592 (1994)
[56] Isomerization Catalysis by Hydrophobic Vitamin B12 Covalently Bound to a Lipid Species in a Bilayer Membrane
T. Ohno; A. Ogawa; Y. Hisaeda; Y. Murakami
Journal of the Chemical Society, Perkin Transactions2, 2271 – 2273 (1994)
[55] Photolysis of Hydrophobic Vitamin B12 Derivatives Covalently Bound to Lipid in Aqueous Media
Y. Murakami; Y. Hisaeda; A. Ogawa; T. Ohno
Chemistry Letters, 1657 – 1660 (1994)
[54] Hydrophobic Vitamin B12. Part 13. Asymmetric Reaction of Hydrophobic Vitamin B12 under Electrochemical Conditions and Rationalization of Enantioselectivity based on Conformational Analysis
T. Ohno; T. Nishioka; Y. Hisaeda; Y. Murakami
Journal of Molecular Structure (Theochem), 308, 207 – 218 (1994)
[53] Fluorometric Determination of Trace Amounts of Fluoride Ion Using an Expanded Porphyrin
M. Tabata; K. Kaneko; Y. Murakami; Y. Hisaeda; H. Mimura
Microchemical Journal, 49, 136 – 144 (1994)
[52] Enantioselective Aldolation Mediated by Functionalized Bilayer Membranes as Artificial Vitamin B6-dependent Enzymes
Y. Murakami; J. Kikuchi; T. Miyajima; Y. Hisaeda
Chemistry Letters, 55 – 58 (1994)
1993
[51] β-Replacement Reaction in an Asymmetric Site Provided by an Artificial Enzyme Composed of a Hydrophobic Vitamin B6 and Peptide Lipids
Y. Murakami; Y. Hisaeda; T. Miyajima; J. Kikuchi
Chemistry Letters, 2093 – 2096 (1993)
[50] Thermodynamical and Geometrical Characterization of Molecular Recognition by Cage-type and Peptide Azaparacyclophanes in Aqueous Media
Y. Murakami; O. Hayashida; K. Ono; Y. Hisaeda
Pure and Applied Chemistry, 65, 2319 – 2324 (1993)
[49] Enantioselective β-Replacement Reaction Mediated by an Artificial Enzyme Composed of a Hydrophobic Vitamin B6, Chiral Bilayer-forming Lipids, and Copper(II) Ions
Y. Murakami; Y. Hisaeda; T. Miyajima; H. Sakata; J. Kikuchi
Chemistry Letters, 645 – 648 (1993)
[48] Molecular Recognition by Novel Cage-type Azaparacyclophanes Bearing Chiral Binding Sites in Aqueous Media
Y. Murakami; O. Hayashida; T. Ito; Y. Hisaeda
Pure and Applied Chemistry, 65, 551 – 556 (1993)
[47] Aggregation Behavior and Reactivity of Hydrophobic Vitamin B12 Covalently Bound to Lipid in Aqueous Media
Y. Murakami; Y. Hisaeda; A. Ogawa; T. Miyajima; O. Hayashida; T. Ohno
Tetrahedron Letters, 34, 863 – 866 (1993)
1992
[46] Hydrophobic Vitamin B12. XI. Preparation, Characterization, and Enantioselective Alkylation of Hydrophobic Vitamin B12 Bearing a Binaphthyl Moiety
Y. Murakami; Y. Hisaeda; H. Kohno; T. Ohno; T. Nishioka
Bulletin of the Chemical Society of Japan, 65, 3094 – 3102 (1992)
[45] A Migrating Group in a Glutamate Mutase Model Reaction Mediated by a Functionalised Bilayer Membrane
Y. Murakami; Y. Hisaeda; X.-M. Song; T. Ohno
Journal of the Chemical Society, Perkin Transactions 2, 1527 – 1528 (1992)
[44] Enantioselective Alkylation of Hydrophobic Vitamin B12 Bearing a Binaphthyl Moiety
Y. Murakami; Y. Hisaeda; H. Kohno; T. Ohno
Chemistry Letters, 909 – 912 (1992)
[43] Azaparacyclophanes with Metal-binding Sites. Part 1. Preparation, Characterization, and Molecular Recognition Behaviour of Hexapus Azaparacyclophane and its Iron(III) Complex
Y. Hisaeda; T. Ihara; T. Ohno; Y. Murakami; Y. Maeda
Journal of the Chemical Society, Perkin Transactions 2, 595 – 604 (1992)
[42] Discrimination of Steroid Hormones by Novel Cage-type Azacyclophanes Bearing Chiral Binding Sites
Y. Murakami; O. Hayashida; T. Ito; Y. Hisaeda
Chemistry Letters, 497 – 500 (1992)
1991
[41] Absolute Configurations of Iron(III) Complexes of an Enterobactin Model, a Hexapus Cyclophane with Catechol Segments
Y. Hisaeda; T. Ihara; T. Ohno; Y. Murakami
Chemistry Letters, 2139 – 2142 (1991)
[40] Syntheses of Macrocyclic Enzyme Models. 8. Conformational Mobility and Molecular Recognition by the Internal Cage of Kyuphane
Y. Murakami; J. Kikuchi; T. Ohno; T. Hirayama; Y. Hisaeda; H. Nishimura; J. P. Snyder; K. Steliou
Journal of the American Chemical Society, 113, 8229 – 8242 (1991)
[39] Catalytic Functions of Artificial Enzyme Composed of Simple Vitamin B12 Model and Synthetic Bilayer Membrane
Y. Murakami; Y. Hisaeda; X.-M. Song; S.-D. Fan; T. Ohno
Bulletin of the Chemical Society of Japan, 64, 2744 – 2750 (1991)
[38] Specific Cage Effects Provided by Kyuphane on Guest Recognition in Aqueous Media
Y. Murakami; J. Kikuchi; T. Ohno; T. Hirayama; Y. Hisaeda; H. Nishimura
Chemistry Letters, 1657 – 1660 (1991)
[37] Molecular Recognition by a Cationic Cage-type Host Bearing Chiral Binding Sites
Y. Murakami; T. Ohno; O. Hayashida; Y. Hisaeda
Chemistry Letters, 1595 – 1598 (1991)
[36] Novel Cage-type Azaparacyclophane bearing Chiral Binding Sites
Y. Murakami; T. Ohno; O. Hayashida; Y. Hisaeda
Journal of the Chemical Society, Chemical Communications, 950 – 952 (1991)
[35] Hydrophobic Vitamin B12. X. Steric Effect in Electrochemical Carbon-Skeleton Rearrangement Catalyzed by Hydrophobic Vitamin B12 in Nonaqueous Media
Y. Murakami; Y. Hisaeda; T. Ozaki
Journal of Coordination Chemistry, 23, 77 – 89 (1991)
[34] Hydrogen Source in the Photochemical Cobalt-Carbon Cleavage of Hydrophobic Vitamin B12 Derivatives in Hydrophobic Microenvironments
Y. Murakami; Y. Hisaeda; X.-M. Song; K. Takasaki; T. Ohno
Chemistry Letters, 977 – 980 (1991)
[33] Hydrophobic Vitamin B12. Part 9. An Artificial Holoenzyme Composed of Hydrophobic Vitamin B12 and Synthetic Bilayer Membrane for Carbon-skeleton Rearrangements
Y. Murakami; Y. Hisaeda; T. Ohno
Journal of the Chemical Society, Perkin Transactions 2, 405 – 416 (1991)
1990
[32] Enantioselective Catalysis by Artificial Tryptophan Synthase Formed with Functionalized Bilayer Membrane
Y. Murakami; Y. Hisaeda; K. Nakamura; J. Kikuchi
Chemistry Letters, 1765 – 1768 (1990)
[31] Functionalized Bilayer Membranes as Artificial Tryptophan Synthase. Characterization of Catalytic Efficiency, Substrate Specificity, and Reaction Selectivity
Y. Murakami; J. Kikuchi; Y. Hisaeda; K. Nakamura; T. Kitazaki; H. Kaya
Bulletin of the Chemical Society of Japan, 63, 2339 – 2345 (1990)
[30] Hydrophobic Vitamin B12 8. Carbon-Skeleton Rearrangement Reactions Catalyzed by Hydrophobic Vitamin B12 in Octopus Azaparacyclophane
Y. Murakami; Y. Hisaeda; T. Ohno
Bioorganic Chemistry, 18, 49 – 62 (1990)
[29] Preparation and Molecular Recognition Behavior of a Hexapus Azaparacyclophane
Y. Hisaeda; T. Ihara; T. Ohno; Y. Murakami
Tetrahedron Letters, 31, 1027 – 1030 (1990)
[28] Hydrophobic Vitamin B12. VII. Ring-Expansion Reactions Catalyzed by Hydrophobic Vitamin B12 in Octopus Azaparacyclophane
Y. Murakami; Y. Hisaeda; T. Ohno
Journal of Coordination Chemistry, 21, 13 – 22 (1990)
1989
[27] Electrochemical Carbon-skeleton Rearrangements catalysed by Hydrophobic Vitamin B12 immobilised in a Polymer-coated Electrode
Y. Murakami; Y. Hisaeda; T. Ozaki; Y. Matsuda
Journal of the Chemical Society, Chemical Communications, 1094 – 1096 (1989)
[26] Redox Behavior of Simple Vitamin B12 Model Complexes and Electrochemical Catalysis of Carbon-Skeleton Rearrangements
Y. Murakami; Y. Hisaeda; S.-D. Fan; Y. Matsuda
Bulletin of the Chemical Society of Japan, 62, 2219 – 2228 (1989)
[25] Carbon-Skeleton Rearrangement of an Alkyl Ligand Coordinated to Simple Vitamin B12 Model Complexes in Synthetic Bilayer Membrane
Y. Murakami; Y. Hisaeda; X.-M. Song; S.-D. Fan
Chemistry Letters, 877 – 880 (1989)
1988
[24] Novel Catalytic Functions of Hydrophobic Vitamin B12 in Electrochemical Carbon-Skeleton Rearrangements
Y. Murakami; Y. Hisaeda
Pure and Applied Chemistry, 60, 1363 – 1368 (1988)
[23] A Synthetic Bilayer Membrane Functionalised with Hydrophobic Vitamin B12 as an Artificial Glutamate Mutase
Y. Murakami; Y. Hisaeda; T. Ohno
Journal of the Chemical Society, Chemical Communications, 856 – 858 (1988)
[22] Hydrophobic Vitamin B12. Part 6. Carbon-skeleton Rearrangement via Formation of Host-Guest Complexes Derived from an `Octopus’ Azaparacyclophane and Hydrophobic Vitamin B12 Derivatives: a Novel Holoenzyme Model System
Y. Murakami; Y. Hisaeda; J. Kikuchi; T. Ohno; M. Suzuki; Y. Matsuda; T. Matsuura
Journal of the Chemical Society, Perkin Transactions 2, 1237 – 1246 (1988)
[21] Cyanide-Coordination Effect on Photochemical Carbon-Skeleton Rearrangement of Alkyl Ligands Coordinated to Vitamin B12 Model Complexes
Y. Murakami; Y. Hisaeda; T. Ozaki; T. Ohno; S.-D. Fan; Y. Matsuda
Chemistry Letters, 839 – 842 (1988)
[20] Redox Behavior of Simple Vitamin B12 Model Complexes with Cobalt-Carbon Bonds and Catalytic Carbon-Skeleton Rearrangements
Y. Murakami; Y. Hisaeda; S.-D. Fan; Y. Matsuda
Chemistry Letters, 835 – 838 (1988)
[19] Ring-Expansion Reactions Catalyzed by Hydrophobic Vitamin B12 in Synthetic Bilayer Membrane
Y. Murakami; Y. Hisaeda; T. Ohno; Y. Matsuda
Chemistry Letters, 445 – 451 (1988)
[18] Preparation and Reactivity of Hydrophobic Vitamin B12 Derivatives Having an Intramolecular Axial Base
Y. Murakamai; Y. Hisaeda; T. Ozaki; T. Ohno; Y. Tani
Nippon Kagaku Kaishi, 4, 621 – 624 (1988)
[17] Electrochemical Carbon-Skeleton Rearrangements as Catalyzed by Cyano-Coordinated Hydrophobic Vitamin B12
Y. Murakami; Y. Hisaeda; T. Ozaki; Y. Matsuda
Chemistry Letters, 469 – 472 (1988)
1987
[16] Studies on Characterization of Functional Bilayer Membranes as Reaction Media and Their Efficiency in Material Separation
Y. Murakami; J. Kikuchi; Y. Hisaeda
Rep. Asahi Glass Found. Ind. Technol, 50, 69 – 77 (1987)
[15] Catalytic Function of a Holoenzyme Model Derived from Octopus Azaparacyclophane and Hydrophobic Vitamin B12
Y. Murakami; Y. Hisaeda; J. Kikuchi; T. Ohno; M. Suzuki; Y. Matsuda
Studies in Organic Chemistry, 31, 433 – 438 (1987)
[14] Artificial Glutamate Mutase Composed of Hydrophobic Vitamin B12 and Synthetic Bilayer Membrane
Y. Murakami; Y. Hisaeda; T. Ohno
Chemistry Letters, 1357 – 1360 (1987)
[13] Characterization of a Simple Vitamin B12 Model Complex and Its Catalysis in Electrochemical Carbon-Skeleton Rearrangement
Y. Murakami; Y. Hisaeda; S.-D. Fan
Chemistry Letters, 655 – 658 (1987)
[12] Hydrophobic Vitamin B12. V. Electrochemical Carbon-Skeleton Rearrangement as Catalyzed by Hydrophobic Vitamin B12: Reaction Mechanisms and Migratory Aptitude of Functional Groups
Y. Murakami; Y. Hisaeda; T. Ozaki; T. Tashiro; T. Ohno; Y. Tani; Y. Matsuda
Bulletin of the Chemical Society of Japan, 60, 311 – 324 (1987)
1986
[11] Carbon-Skeleton Rearrangement of Alkyl Ligands Coordinated to Hydrophobic Vitamin B12 Derivatives in Molecular Aggregates
Y. Murakami; Y. Hisaeda; T. Ohno; Y. Matsuda
Chemistry Letters, 731 – 734 (1986)
[10] Catalytic Function of a Host-Guest Complex Derived from Octopus Azaparacyclophane and Hydrophobic Vitamin B12 as a Holoenzyme Model
Y. Murakami; Y. Hisaeda; J. Kikuchi; T. Ohno; M. Suzuki; Y. Matsuda
Chemistry Letters, 727 – 730 (1986)
[9] Reaction Mechanisms for Electrochemical Carbon-Skeleton Rearrangement as Catalyzed by Hydrophobic Vitamin B12 in Nonaqueous Media
Y. Murakami; Y. Hisaeda; T. Tashiro; Y. Matsuda
Chemistry Letters, 555 – 558 (1986)
1985
[8] Electrochemical Carbon-Skeleton Rearrangement as Catalyzed by Hydrophobic Vitamin B12 in Nonaqueous Media
Y. Murakami; Y. Hisaeda; T. Tashiro; Y. Matsuda
Chemistry Letters, 1813 – 1816 (1985)
[7] Photolysis of Hydrophobic Vitamin B12 Derivatives with Alkyl Ligands in Nonaqueous Media
Y. Murakami; Y. Hisaeda; T. Ozaki; T. Ohno
Chemistry Letters, 1711 – 1714 (1985)
[6] Hydrophobic Vitamin B12. IV. Addition Reaction of Alcohols to Olefins as Catalyzed by Hydrophobic Vitamin B12 Derivatives
Y. Murakami; Y. Hisaeda
Bulletin of the Chemical Society of Japan, 58, 2652 – 2658 (1985)
[5] Preparation and Alkylation of Capped Hydrophobic Vitamin B12
Y. Murakami; Y. Hisaeda; T. Ohno; T. Ozaki
Chemistry Letters, 477 – 480 (1985)
[4] Preparation and Characterization of Hydrophobic Vitamin B12 Complexes Having a Proximal Base
Y. Murakami; Y. Hisaeda; T. Ozaki
Chemistry Letters, 473 – 476 (1985)
1984
[3] Hydrophobic Vitamin B12. III. Incorporation of Hydrophobic Vitamin B12 Derivatives into Single-Compartment Vesicles and Their Alkylation in Various Molecular Aggregates
Y. Murakami; Y. Hisaeda; T. Ohno
Bulletin of the Chemical Society of Japan, 57, 2091 – 2097 (1984)
[2] Hydrophobic Vitamin B12. II. Coordination Geometry and Redox Behavior of Heptamethyl Cobyrinate in Nonaqueous Media
Y. Murakami; Y. Hisaeda; A. Kajihara; T. Ohno
Bulletin of the Chemical Society of Japan, 57, 405 – 411 (1984)
1983
[1] Hydrophobic Vitamin B12. I. Preparation and Axial Ligation Behavior of Hydrophobic Vitamin B12r
Y. Murakami; Y. Hisaeda; A. Kajihara
Bulletin of the Chemical Society of Japan, 56, 3642-3646 (1983)