岡山大学大学院医歯薬学総合研究科医薬品機能分析学分野(榎本秀一研究室)研究業績2013年度
原著論文
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1) S. Kamino, M, Murakami, M, Tanioka, Y. Shirasaki,
K. Watanabe, J. Horigome, Y. Ooyama, S. Enomoto, Design
and Syntheses of Highly Emissive Aminobenzopyrano-xanthene
Dyes in the Visible and Far-Red Regions., Org. Lett.,
16 (1), 258-261 (2014). |
2) Spectrophotometric Determination of Hydrogen Peroxide
with Osmium (VIII) and m-Carboxyphenylfluorone. M. Hoshino,
S. Kamino, M. Doi, S. Takada, S. Mitani, R. Yanagihara,
M. Asano, T. Yamaguchi, Y. Fujita, Spectrochim. Acta.
A., 117, 814-816 (2014). |
3) Ueda M, Fukushima T, Ogawa K, Kimura H, Ono M,
Yamaguchi T, Ikehara Y, Saji H., Synthesis and evaluation
of a radioiodinated peptide probe targeting αvβ6 integrin
for the detection of pancreatic ductal adenocarcinoma.”,
Biochem Biophys Res Commun., 14;445(3):661-6 (2014). |
4) T. Urabe, K. Takahashi, M. Kitagawa, T. Sato, T.
Kondo, S. Enomoto, M. Kidera, Y. Seto, Development of
portable mass spectrometer with electron cyclotron resonance
ion source for detection of chemical warfare agents
in air, Spectrochim Acta A., 120, 437-44 (2013). |
5) T. Miyamoto, S. Kamino, A. Odani, M. Hiromura,
S. Enomoto, Basicity of N-terminal amine in ATCUN peptide
regulates stability constant of albumin-like Cu2+ complex.
Chem. Lett., 42, 1099-1101 (2013). |
6) Y. Shirasaki, S. Kamino, M. Tanioka, K. Watanabe,
Y. Takeuchi, S. Komeda, and S. Enomoto, New aminobenzopyranoxanthene-based
colorimetric sensor for Cu2+ with dual-color signal
detection system., Chem. Asian J., 8, 2609-2613 (2013). |
7) S. Motomura, Y. Kanayama, M. Hiromura, T. Fukuchi,
T. Ida, H. Haba, Y. Watanabe, and S. Enomoto, Improved
imaging performance of semiconductor Compton camera
GREI makes for a new methodology to integrate bio-metal
analysis and molecular imaging technology in living
organisms., J. Anal. At. Spectrom. , 28, 934-939 (2013). |
8) S. Kadowaki, M. Munekane, Y. Kitamura, M. Hiromura,
S. Kamino, Y. Yoshikawa, H. Saji, S. Enomoto., Development
of new zinc dithiosemicarbazone complex for use as oral
antidiabetic agent , Biol. Trace Elem. Res., 154, 111-119
(2013). |
9) M. Taniguchi, A. Fukunaka, M. Hagihara, K. Watanabe,
S. Kamino, T. Kambe, S. Enomoto, M. Hiromura, Essential
Role of the Zinc Transporter ZIP9/SLC39A9 in Regulating
the Activations of Akt and Erk in B-Cell Receptor Signaling
Pathway in DT40 Cells, PLoSOne, vol. 8; 3 e58022. (2013). |
10) S. Kamino, A. Muranaka, M. Murakami, A. Tatsumi,
N. Nagaoka, Y. Shirasaki, K. Watanabe, K. Yoshida, J.
Horigome, S. Komeda, M. Uchiyama, S. Enomoto, A Red-Emissive
aminobenzopyrano-xanthene Dye: Elucidation of Fluorescence
Emission Mechanism in Solution and Aggregate State,
Phys. Chem. Chem. Phys., 15, 2131-2140 (2013). |
11) Ogawa K, Ohtsuki K, Shibata T, Aoki M, Nakayama
M, Kitamura Y, Ono M, Ueda M, Doue T, Onoguchi M, Shiba
K, Odani A., Development and evaluation of a novel 99mTc-labeled
annexin a5 for early detection of response to chemotherapy.
PLoS One. 8(12): e81191 (2013). |
12) Ueda M, Ogawa K, Miyano A, Ono M, Kizaka-Kondoh
S, Saji H., Development of an Oxygen-Sensitive Degradable
Peptide Probe for the Imaging of Hypoxia-Inducible Factor-1-Active
Regions in Tumors., Mol Imaging Biol. 15(6): 713-21
(2013). |
13) Higaki Y, Kobayashi M, Uehara T, Hanaoka H, Arano
Y, and Kawai K: Appropriate collimators in a small animal
SPECT scanner with CZT detector. Annals of Nuclear Medicine,
27(3):271-8(2013) |
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総説 |
1) 東川桂, 上田真史, 本村信治, 榎本秀一, 癌と炎症の複数分子イメージング:消化器系疾患への応用の可能性,
G.I.Research. 22(1): 57-63 (2014). |
2) 榎本秀一, 本村信治, 半導体コンプトンカメラ“GREI”による分子イメージング研究の展開,
Isotope News, 12, 2-6 (2013). |
3) 榎本秀一, メタロミクス研究に資する分子イメージング技術開発生体内金属のダイナミクスの可視化、科研費
News, 4, 17 (2013). |
4) 神山伸, 曽根英行, 石黒真理子, 榎本秀一, 大腸癌細胞におけるSLC35F5輸送体の発現と5-fluorouracil感受性について,
人間生活学研究, 4,137-145 (2013). |
5) 佐治英郎. 上田真史, 木村寛之, 生体分子イメージングのための放射性分子プローブの戦略的分子設計,
日本分子イメージング学会機関誌, 7(1): 11-15 (2013). |
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特許・知財 |
1) 福地知則, 本村信治, 榎本秀一, 放射線検出器のための信号データ処理方法、信号データ処理装置、および放射線検出システム,
特願2013-150809, 2013年7月19日出願. |
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著書等 |
1) Ueda M, Temma T, Saji H., Radionuclide Imaging
of Integrins. In: Nuclear Oncology, 2nd edition, Cumali
Aktolun and Stanley J. Goldsmith (Ed.). Philadelphia;
Wolters Kluwer Health; in press. |
2) 東川 桂,上田真史,榎本秀一,「実験分析科学講座」,丸善,生体内金属元素の分子イメージング(印刷中) |
3) 谷口将済, 榎本秀一, 「毒性の科学――分子・細胞から人間集団まで」, 東大出版会, 第3章
新規分析手法の毒性学への応用 3.4 生体内複数元素の同時イメージング, (2014). |
4) Ueda M, Saji H., Visualization and Treatment of
the HIF-1-Active Microenvironments in Tumors: Drug Design
and Application of Oxygen-dependent Degradable Probes
for Molecular Imaging of HIF-1-active Microenvironments.,
In: Hypoxia: Causes, Types and Management, Dirk Vordermark
(Ed.). New York; Nova Science Publishers, Inc.; 223-236
(2013). |
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メディア、報道等 |
1) 2013.06.06 山陽新聞 |
2) 2013.05.22 山陽新聞 |
3) 2013.05.06 山陽新聞 |
4) 2013.04.25 山陽新聞 |
5) 2013.04.05 山陽新聞 |
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