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ふじい じゅんいち
藤 井 順 逸
Junichi FUJII
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【経歴】
【所属学会・研究会
【担当講義】
【執筆した教科書】
【業績】
【和文総説、他】
【シンポジウム・学会・研究会での発表】
【獲得外部資金】
【その他】

【略歴】
昭和57年3月 静岡大学理学部生物学科(教室)卒業
昭和57年4月 静岡大学大学院理学研究科修士課程入学
昭和59年3月 同  大学院修了(理学修士)
昭和59年4月 大阪大学大学院医学研究科博士課程入学
昭和62年1月 大学院在籍のままトロント大学ベスト研究所へ留学
昭和63年3月 同 大学院修了(医学博士)
昭和63年4月 トロント大学ベスト研究所博士研究員
平成2年4月 学術振興会特別研究員
平成3年2月 大阪大学医学部生化学講座 助手
平成4年10月 同  講師
平成8年12月 同  助教授
平成11年7月 山形大学医学部生化学第二講座 教授
平成16年4月 山形大学大学院 医学系研究科 生命環境医科学専攻
生体分子機能学講座 教授 (専攻新設に伴い異動)
平成21年4月 山形大学大学院 医学系研究科 生命環境医科学専攻
生化学・分子生物学講座 教授 (講座名の変更)

【所属学会・研究会】
日本生化学会 [評議員]
日本分子生物学会
日本癌学会
日本NO学会 [評議員]
日本酸化ストレス学会(SFRR Japan) [評議員 理事]
American Society for Biochemistry and Molecular Biology (ASBMB)
Society for Free Radical Biology and Medicine (SFRBM)

学術振興会第170委員会「レドックス生命科学」 [委員]
臨床フリーラジカル会議 [世話人]

学術雑誌の編集
Journal of Biochemistry [2006~ 2009 Associate Editor, Biochemistry Section; 2010~ Advisory BoardMember]
Asian Journal of Andrology
[2004~ 2011,Editorial Board Member]
Journal of Clinical Biochemistry and Nutrition [
2006~ Editorial Board Member; 2008~ 2015 July, Executive Editor]
Reproductive Biology and Endocrinology [
2003~ Editorial Board-Paper reporter]

【担当講義】
医学科1年次 「人体物質代謝学」

【執筆した教科書】

   
4
Junichi Fujii
Chapter 6. Catalytic Protein-Enzymes
in "Medical Biochemistry 4th ed" (J. W. Baynes and M. H. Dominiczak eds.)
Elsevier, London, 54-67 (2014)
 
藤井順逸
14-4 活性酸素 213-215 (2014)
シンプル生化学(改訂6版) 、林典夫・廣野浩子監修、野口正人・五十嵐和彦編集、南江堂、東京
 
   
藤井順逸
運動と老化の生化学
「標準理学療法学・基礎理学療法学」(内山靖 編)
35-45 (2006)、医学書院、東京
3.
2.
1. 藤井順逸
核酸の研究法
医学を学ぶための生物学 改訂第2版」(谷口直之、米田悦啓、編著)
472-478 (2004)
南江堂、東京

【業績】
Google Scholar; (data on Jan 23, 2017)
引用, 12886 (entire years): 3568 (since 2012)
h指標, 57 (entire years): 30 (since 2012
)
i10指標, 146 (entire years): 85 (since 2012)

Original Papers

【2017】  
168.  Jaeyong Lee, Eun Sil Kang, Sho Kobayashi, Takujiro Homma, Hideyo Sato, Han Geuk Seo, Junichi Fujii
The viability of primary hepatocytes is maintained under a low cysteine-glutathione redox state with a marked elevation in ophthalmic acid production.
Exp Cell Res, 361:178-191 (2017) doi: 10.1016/j.yexcr.2017.10.017. (IF=3.378, CI=) 
167.  Shinji Hamashima, Takujiro Homma, Sho Kobayashi, Naoki Ishii, Toshihiro Kurahashi, Ren Watanabe, Naoko Kimura, Hideyo Sato, Junichi Fujii.
Decreased reproductive performance in xCT-knockout male mice.
Free Radic Res, 51:851-860 (2017) doi: 10.1080/10715762.2017.1388504  (IF=3.188, CI=)
166. Sho Kobayashi, Jaeyong Lee, Toshifumi Takao, Junichi Fujii.
Increased ophthalmic acid production is supported by amino acid catabolism under fasting conditions in mice.
 
Biochem Biophys Res Commun.491:649-655 (2017) doi: 10.1016/j.bbrc.2017.07.149. (IF=2.466, CI= )
165.  Jaeyong Lee, Takujiro Homma, Junichi Fujii.
Mice in the early stage of liver steatosis caused by a high fat diet are resistant to thioacetamide-induced hepatotoxicity and oxidative stress.
Toxicol Lett, 277:92-103 (2017) doi:10.1016/j.toxlet.2017.06.005.  (IF=3.858, CI= )
164. Eun Sil Kang, Jaeyong Lee, Takujiro Homma, Toshihiro Kurahashi, Sho Kobayashi, Atsunori Nabeshima, Sohsuke Yamada, Han Geuk Seo, Satoshi Miyata, Hideyo Sato, Junichi Fujii
xCT deficiency aggravates acetaminophen-induced hepatotoxicity under inhibition of the transsulfuration pathway

Free Radic Res, 51, 80-90 (2017)  doi: 10.1080/10715762.2017.1282157  (IF=3.188, CI=2)
163. Eisuke Tasaka, Shotaro Matsumoto, Hisashi Tada, Toshihiro Kurahashi, Xuhong Zhang, Junichi Fujii, Toshihiko Utsumi, Yoshihito Iuchi.
Protective role of testis-specific peroxiredoxin 4 against cellular oxidative stress. 
J Clin Biochem Nutr, 60:156-161 (2017) doi: 10.3164/jcbn.16-96. (IF=2.087, CI=)
162.  Takaya Shirato, Takujiro Homma, Jaeyong Lee, Toshihiro Kurahashi, Junichi Fujii.
Oxidative stress caused by a SOD1 deficiency ameliorates thioacetamide-triggered cell death via CYP2E1 inhibition but stimulates liver steatosis.
Arch Toxicol, 91:1319-1333 (2017) doi: 10.1016/j.abb.2016.06.004. (IF=5.901, CI=3) 
161.  Takujiro Homma, Ryusuke Akihara, Satoshi Okano, Mototada Shichiri, Yasukazu Yoshida, Ken-ichi Yamada, Satoshi Miyata, Osamu Nakajima, Junichi Fujii.
Heightened aggressive behavior in mice deficient in aldo-keto reductase 1a (Akr1a).
Behav Brain Res, 319:219-224 (2017) doi: 10.1016/j.bbr.2016.11.038. (IF=3.002, CI=) 
160.  Junitsu  Ito, Naoki  Ishii, Ryusuke  Akihara, Jaeyong  Lee, Toshihiro  Kurahashi, Takujiro  Homma, Ryo  Kawasaki, Junichi Fujii.
A high fat diet temporarily renders Sod1-deficient mice resistant to an oxidative insult.
J Nutr Biochem,40:44-52 (2017) doi: 10.1016/j.jnutbio.2016.10.018. (IF=4.518, CI=2)
【2016】 
159.  Takujiro Homma, Junichi Fujii.
Heat stress promotes the down-regulation of IRE1α in cells: An atypical modulation of the UPR pathway.
Exp Cell Res, 349:128-138 (2016) doi: 10.1016/j.yexcr.2016.10.006. (IF=3.378, CI=1)
158.
Ryusuke Akihara, Takujiro Homma, Jaeyong Lee, Ken-ichi Yamada, Satoshi Miyata, Junichi Fujii.
Ablation of aldehyde reductase aggravates carbon tetrachloride-induced acute hepatic injury involving oxidative stress and endoplasmic reticulum stress
Biochem Biophys Res Commun. 478:765-771 (2016) doi: 10.1016/j.bbrc.2016.08.022. (IF=2.371, CI=2)
157.  Toshihiro Kurahashi, Jaeyong Lee, Atsunori Nabeshima, Takujiro Homma, Eun Sil Kang, Yuka Saito, Sohsuke Yamada, Toshiyuki Nakayama, Ken-ichi Yamada, Satoshi Miyata, Junichi Fujii.
Ascorbic acid prevents acetaminophen-induced hepatotoxicity in mice by ameliorating glutathione recovery and autophagy.
Arch Biochem Biophys, 604:36-46 (2016) doi: 10.1016/j.abb.2016.06.004. (IF=2.807, CI=6)
156.  Noriyuki Otsuki, Takujiro Homma, Hiroki Fujiwara, Kenya Kaneko, Yasukazu Hozumi, Mototada Shichiri, Mizuki Takashima, Junitsu Ito, Tasuku Konno, Toshihiro Kurahashi, Yasukazu Yoshida, Kaoru Goto, Satoshi Fujii,Junichi Fujii.
Trichloroethylene exposure aggravates behavioral abnormalities in mice that are deficient in superoxide dismutase.
Regul Toxicol Pharmacol. 79:83-90 (2016) doi: 10.1016/j.yrtph.2016.05.007.  (IF=2.227, CI=2)  
155. 

Noriyuki Otsuki, Tasuku Konno, Toshihiro Kurahashi, Saori Suzuki, Jaeyong Lee, Futoshi Okada, Yoshihito Iuchi, Takujiro Homma, Junichi Fujii,
The SOD1 transgene expressed in erythroid cells alleviates fatal phenotype in congenic NZB/NZW-F1 mice.
Free Radic Res, 50(7):793-800 (2016) doi: 10.1080/10715762.2016.1178388. (IF=2.949, CI=1 ) 

154. 

Aya Nawata, Hirotsugu Noguchi, Yuichi Mazaki, Toshihiro Kurahashi, Atsunori Nabeshima, Ke-Yong Wang, Satoshi Kimura, Hidetaka Uramoto, Kimitoshi Kohno, Hatsumi Taniguchi, Yoshiya Tanaka, Junichi Fujii, Yasuyuki Sasaguri Toshiyuki Nakayama, and Sohsuke Yamada.
Overexpression of Peroxiredoxin 4 Induces Adaptive Intestinal Lipid Metabolism Associated with Suppressive Nonalcoholic Steatohepatitis in a Dietary Mouse Model.
PLoS One, 11: e015254, (2016) doi: 10.1371/journal.pone.0152549. (IF=3.057, CI=2) 

153.  Hiroshi Nagahisa, Kazuma Okabe, Yoshihito Iuchi, Junichi Fujii, Hirofumi Miyata.
Characteristics of skeletal muscle fibers of SOD1 knockout mice.
Oxid Med Cell Longev. 9345970. (2016) doi: 10.1155/2016/9345970. (IF=4.492, CI=2)
【2015】  
152.  Toshihiro Kurahashi, Shinji Hamashima, Takaya Shirato, Jaeyong Lee, Takujiro Homma, Eun Sil Kang, Junichi Fujii.
An SOD1 deficiency enhances lipid droplet accumulation in the fasted mouse liver by aborting lipophagy

Biochem Biophys Res Commun, 467:866-871 (2015)  doi: 10.1016/j.bbrc.2015.10.052. (IF=2.297, CI=8)
151.  Takujiro Homma, Toshihiro Kurahashi, Jaeyong Lee, Eun Sil Kang and Junichi Fujii
SOD1 deficiency decreases proteasomal function, leading to the accumulation of ubiquitinated proteins in erythrocytes.
Arch Biochem Biophys, 583:65-72 (2015) doi: 10.1016/j.abb.2015.07.023. (IF=3.017, CI=5)
150.  Jaeyong Lee, Takujiro Homma, Toshihiro Kurahashi, Eun Sil Kang, andJunichi Fujii.
Oxidative stress triggers lipid droplet accumulation in primary cultured hepatocytes by activating fatty acid synthesis.

Biochem Biophys Res Commun
, 464:229-235 (2015)  doi: 10.1016/j.bbrc.2015.06.121. (IF=2.297, CI=13)
149.  Takujiro Homma, Satoshi Okano, Jaeyong Lee, Junitsu Ito, Noriyuki Otsuki, Toshihiro Kurahashi, Eun Sil Kang, Osamu Nakajima, and Junichi Fujii.
SOD1 deficiency induces the systemic hyperoxidation of peroxiredoxin in the mouse.
Biochem Biophys Res Commun
, 463:1040-1046 (2015)  doi: 10.1016/j.bbrc.2015.06.055. (IF=2.297, CI=6)
148. 

Ye Yan, Cynthia Wladyka, Junichi Fujii, and Shanthini Sockanathan.
Prdx4 is a compartment-specific H
2O2 sensor that regulates neurogenesis by controlling surface expression of GDE2.
Nat Commun,6:7006 (2015) doi: 10.1038/ncomms8006. (IF=11.47, CI=14)

147. 

Sho Kobayashi, Mami Sato, Takayuki Kasakoshi, Takumi Tsutsui, Masahiro Sugimoto, Mitsuhiko Osaki, Futoshi Okada, Kiharu Igarashi,Jun Hiratake, Takujiro Homma, Marcus Conrad, Junichi Fujii, Tomoyoshi Soga, Shiro Bannai, and Hideyo Sato.
Cystathionine is a novel substrate ofcystine/glutamate transporter: implications forimmune function.
J Biol Chem, 290(14):8778-8788 (2015) doi: 10.1074/jbc.M114.625053. (IF=4.573, CI=14)  

【2014】  
146.

Toshihiro Kurahashi, Myoungsu Kwon, Takujiro Homma, Yuka Saito, Jaeyong Lee, Motoko Takahashi, Ken-ichi Yamada, Satoshi Miyata, and Junichi Fujii.
Reductive detoxification of acrolein as a potential role for aldehyde reductase (AKR1A) in mammals.  
Biochem Biophys Res Commun, 452:136-141 (2014) doi: 10.1016/j.bbrc.2014.08.072. (IF=2.28, CI=6)  

145.  Hayato Nishida, Toshihiro Kurahashi, Yuka Saito, Noriyuki Otsuki, Myoungsu Kwon, Hiroya Ohtake, Mitsunori Yamakawa, Ken-ichi Yamada, Satoshi Miyata, Yoshihiko Tomita, and Junichi Fujii.
Kidney fibrosis is independent of the amount of ascorbic acid in mice with unilateral ureteral obstruction.
Free Radic Res, 48(9):1115-1124 (2014) doi: 10.3109/10715762.2014.915031. (IF=3.279, CI=9)  
144.  Junitsu Ito, Noriyuki Otsuki, Xuhong Zhang, Tasuku Konno, Toshihiro Kurahashi, Motoko Takahashi, Mayumi Yamato, Yuta Matsuoka, Ken-ichi Yamada, Satoshi Miyata, and Junichi Fujii.
Ascorbic acid reverses the prolonged anesthetic action of pentobarbital in Akr1a-knockout mice.
Life Science. 95:1-8 (2014) doi: 10.1016/j.lfs.2013.12.004. (IF=2..555, CI=7) 
【2013】   
143.  Tasuku Konno, Noriyuki Otsuki, Toshihiro Kurahashi, Noriko Kibe, Satoshi Tsunoda, Yoshihito Iuchi, and Junichi Fujii.
Reactive oxygen species exacerbate autoimmune hemolytic anemia in New Zealand black mice.
Free Radic. Biol. Med. 65:1378-1384 (2013) doi: 10.1016/j.freeradbiomed.2013.09.021. (IF=5.271, CI=5)
142. Naoki Fukuda, Tsunekata Ito, Kazuo Ohwada, and Junichi Fujii.
Upregulation of fatty acid synthesis and the suppression of hepatic triglyceride lipase as a direct cause of hereditary postprandial hypertriglyceridemia in rabbits.
J. Clin. Biochem. Nutr. 53(2):114-121 (2013) doi: 10.3164/jcbn.13-21. (IF=2.245, CI=5)
141.  Satoshi Tsunoda, Noriko Kibe, Toshihiro Kurahashi, and Junichi Fujii.
Differential responses of SOD1-deficient mouse embryonic fibroblasts to oxygen concentrations.
Arch. Biochem. Biophys. 537(1):5-11 (2013) doi: 10.1016/j.abb.2013.06.008. (IF=3.370, CI=5) 
140.  Atsunori Nabeshima, Sohsuke Yamada, Xin Guo, Akihide Tanimoto, Ke-Yong Wang, Shohei Shimajiri, Satoshi Kimura, Takashi Tasaki, Hirotsugu Noguchi, Shohei Kitada, Teruo Watanabe, Junichi Fujii, Kimitoshi Kohno, and Yasuyuki Sasaguri.
Peroxiredoxin 4 Protects Against Nonalcoholic Steatohepatitis and Type 2 Diabetes in a Nongenetic Mouse Model.
Antioxid. Redox Signal, 19(17):1983-1998 (2013)  doi: 10.1089/ars.2012.4946. (IF=7.189, CI=40)
【2012】  
139. 

Sho Kobayashi, Kazuho Kuwata, Takayuki Sugimoto, Kiharu Igarashi, Mitsuhiko Osaki, Futoshi Okada , Junichi Fujii, Shiro Bannai, and Hideyo Sato.
Enhanced expression of cystine/glutamate transporter in the lung caused by the oxidative stress-inducing agent paraquat

Free Radic Biol Med, 53:2197-2203 (2012) doi: 10.1016/j.freeradbiomed.2012.09.040. (IF=5.423, CI=16) 

138.  Toshihiro Kurahashi, Tasuku Konno, Noriyuki Otsuki, Myoungsu Kwon, Satoshi Tsunoda, Junitsu Ito, and Junichi Fujii.
A malfunction in the triglyceride transfer from the intracellular lipid pool to the apoB in the enterocytes of SOD1-deficient mice.

FEBS Lett
, 586:4289-4295(2012) doi: 10.1016/j.febslet.2012.09.047. (IF=3.538, CI=11)
137.  Ester Zito, Henning Gram Hansen, Giles S. H. Yeo, Junichi Fujii, and David Ron. 
Endoplasmic reticulum thiol oxidase deficiency leads to ascorbic acid depletion and noncanonical scurvy in mice. 
Mol Cell, 48:39-51(2012) doi: 10.1016/j.molcel.2012.08.010. (IF=14.178, CI=59)
136. Satoshi Tsunoda, Natsuko Kawano, Kenji Miyado, Naoko Kimura, and Junichi Fujii.
Impaired fertilizing ability of Sod1-deficient mouse sperm during in-vitro fertilization.
Biol Reprod, 87:1-6 (2012) doi: 10.1095/biolreprod.112.102129. (IF=4.009, CI=34) 
135.  Motoko Takahashi, Satoshi Miyata, Junichi Fujii, Yoko Inai, Shigemitsu Ueyama, Motoko Araki, Tomoyoshi Soga, Reiko Fujinawa, Chiaki Nishitani, Shigeru Ariki, Takeyuki Shimizu; Tomomi Abe, Yoshito Ihara, Morimitsu Nishikimi, Yasunori Kozutsumi, Naoyuki Taniguchi, Yoshio Kuroki.
 In vivo role of aldehyde reductase.
Bichim Biophys Acta - General Subjects
, 1820:1787-1796 (2012) doi: 10.1016/j.bbagen.2012.07.003. (IF=5.000, CI=12) 
134.  Ritsu Ito, Motoko Takahashi, Hideyuki Ihara, Hiroki Tsukamoto, Junichi Fujii, and Yoshitaka Ikeda.
Measurement of Peroxiredoxin-4 in Rat Tissues and Implication of Its Serum Levels as a Potential Marker for Hepatic Disease.
Mol Med Report, 6:379-384 (2012) doi: 10.3892/mmr.2012.935. (IF=0.307, CI=7)
【2011】 
133. 

Sun Hee Yim, Yoo-Jin Kim, Sue Young Oh, Junichi Fujii, Yan Zhang, Vadim N. Gladyshev, and Sue Goo Rhee.
Identification and characterization of an alternatively transcribed form of peroxiredoxin IV that is specifically expressed in spermatids of the postpubertal mouse testis

J Biol Chem, 286:39002-39012 (2011) (IF=5.52, CI=14)

132. 

Karishma Palande, Onno Roovers, Judith Gits, Carola Verwijmeren, Yoshihito Iuchi, Junichi Fujii, Benjamin G Neel, Robert Karisch, Jan Tavernier, and Ivo P Touw.
Peroxiredoxin-controlled G-CSF signalling at the endoplasmic reticulum-early endosome interface.

J Cell Sci, 124:3695-3705 (2011) (IF=6.29, CI=32)

131.  Kunishige Onuma, Yuka Suenaga, Ryuta Sakaki, Satoshi Yoshitome, Yu Sato, Satomi Ogawara, Saori Suzuki, Mitsuhiro Kuramitsu, Hidekatsu Yokoyama, Akira Murakami, Junichi Hamada, Garth L Nicolson, Masanobu Kobayashi, Junichi Fujii, and Futoshi Okada.
Development of a Quantitative Bioassay to Assess Preventive Compounds against Inflammation-based Carcinogenesis
Nitric Oxide, 25:183-194 (2011) (IF=3.384, CI=6)
130.   Yoshitaka Ikeda, Miyako Nakano, Hideyuki Ihara, Ritsu Ito, Naoyuki Taniguchi, and Junichi Fujii.
Different consequences of the reactions with hydrogen peroxide and t-butyl hydroperoxide in the hyperoxidative inactivation of rat peroxiredoxin-4.
J. Biochem. 149:443-453, (2011) (IF=2.145, CI=3)
【2010】 
129.  Natsuki Otaki, Miho Chikazawa, Ritsuko Nagae, Yuki Shimozu, Takahiro Shibata, Sohei Ito, Yoshinari Takasaki, Junichi Fujii, and Koji Uchida.
Identification of a lipid peroxidation product as the source of oxidation-specific epitopes recognized by anti-DNA autoantibodies.
J Biol Chem. 285:33834-33842 (2010) (IF=5.52, CI=17)
128.  Milena Bertolotti, Sun Hee Yim, Jose M. Garcia-Manteiga, Silvia Masciarelli, Yoo-Jin Kim, Min-Hee Kang, Yoshihito Iuchi, Junichi Fujii, Roberta Vene, Anna Rubartelli, Sue Goo Rhee, Roberto Sitia.
B to plasma cell terminal differentiation entails oxidative stress and profound reshaping of the antioxidant responses.
Antioxid Redox Signal. 13:1133-1144 (2010) (IF=8.209, CI=54)
127. 

Yoshihito Iuchi, Dipa Roy, Futoshi Okada, Noriko Kibe, Satoshi Tsunoda, Saori Suzuki, Motoko Takahashi, Hidekatsu Yokoyama, Jun Yoshitake, Seiji Kondo, and Junichi Fujii.
Spontaneous skin damage and delayed wound healing in SOD1-deficient mice.

Mol. Cell. Biochem. 341:181-194 (2010) (IF=2.168, CI=15)

126.  Yoshitaka Ikeda, Ritsu Ito, Hideyuki Ihara, Takahiro Okada, and Junichi Fujii.
Expression of N-terminally truncated forms of rat peroxiredoxin-4 in insect cells.
Protein Expr. Purif. 72:1-7 (2010) (IF=1.644, CI=9)
125. Naoko Kimura, Satoshi Tsunoda, Yoshihito Iuchi, Hiroyuki Abe, Kiyoshi Totsukawa, and Junichi Fujii.
Intrinsic oxidativestress causes either two-cell arrest or cell death depending on developmental stage of the embryo from SOD1-deficient mice.
Mol. Hum. Reprod. 16:441-451 (2010) (IF=2.537, CI=30)
124. Yoshihito Iuchi, Noriko Kibe, Satoshi Tsunoda, Saori Suzuki, Takeshi Mikami, Futoshi Okada, Koji Uchida, and Junichi Fujii.
Implication of oxidative stress as a cause of autoimmune hemolytic anemia in the NZB mice.
Free. Radic. Biol. Med. 48:935-944 (2010) (IF=6.081, CI=28)
【2009】 
123. Tomohiro Shibasaki, Yoshihito Iuchi, Futoshi Okada, Kazuho Kuwata, Takuya Yamanobe, Shiro Bannai, Yoshihiko Tomita, Hideyo Sato, and Junichi Fujii.
Aggravation of ischemia-reperfusion-triggered acute renal failure in xCT-deficient mice.

Arch. Biochem. Biophys. 490:63-69 (2009) (IF=2.626, CI=10)
122. Kunishige Onuma, Yu Sato, Satomi Ogawara, Nobuyuki Shirasawa, Masanobu Kobayashi, Jun Yoshitake, Tetsuhiko Yoshimura, Masaaki Iigo, Junichi Fujii, and Futoshi Okada.
Nano-scaled Particles of Titanium Dioxide Convert Benign Mouse Fibrosarcoma Cells into Aggressive Tumor Cells.
Am. J. Pathol. 175:2171- 2183 (2009) (IF=5.697, CI=50)
121. Yoshihito IUCHI, Futoshi OKADA, Rina TAKAMIYA, Noriko KIBE, Satoshi TSUNODA, Osamu NAKAJIMA, Kazuyo TOYODA, Ritsuko NAGAE, Makoto SUEMATSU, Tomoyoshi SOGA, Koji UCHIDA, and Junichi FUJII
Rescue of Anemia and Autoimmune Responses in SOD1-Deficient Mice by Transgenic Expression of Human SOD1 in Erythrocytes
.
Biochem. J. 422:313-320 (2009) (IF=4.371, CI=32)
120.

Yoshihito IUCHI, Futoshi OKADA, Satoshi TSUNODA, Noriko KIBE, Nobuyuki SHIRASAWA, Masahito IKAWA, Masaru OKABE, Yoshitaka IKEDA, and Junichi FUJII.
Peroxiredoxin 4 knockout results in elevated spermatogenic cell death via oxidative stress.    

Biochem. J. 419:149-158 (2009) (IF=4.371, CI=131)

119. Harvey CJ, Thimmulappa RK, Singh A, Blake DJ, Ling G, Wakabayashi N, Fujii J, Myers A, and Biswal S.
Nrf2-regulated glutathione recycling independent of biosynthesis is critical for cell survival during oxidative stress.

Free. Radic. Biol. Med. 46:443-453 (2009) (IF=5.399, CI=224)
【2008】
118.

Yoshihito Iuchi, Noriko Kibe, Satoshi Tsunoda, Futoshi Okada , Shiro Bannai, Hideyo Sato, and Junichi Fujii.
Deficiency of the cystine-transporter gene, xCT, does not exacerbate the deleterious phenotypic consequences of SOD1 knockout in mice.
Mol. Cell. Biochem. 319:125-132 (2008) (IF=2.168, CI=11)

2007
117. Daisuke Suto, Yoshihito Iuchi, Yoshitaka Ikeda, Kazuaki Sato, Yoshihiro Ohba, and Junichi Fujii
Inactivation of cysteine and serine proteases by singlet oxygen.
Arch. Biochem. Biophys. 461:151-158 (2007) (IF=3.152, CI=21)
116. Yoshihito Iuchi, Futoshi Okada, Kunishige Onuma, Tadashi Onoda, Hironobu Asao, Masanobu Kobayashi, and Junichi Fujii.
Elevated oxidative stress in erythrocytes due to an SOD1 deficiency causes anemia and triggers autoantibody production.
Biochem. J, 402:219-227 (2007) (IF=4.326, CI=103)
115. Takuya Yamanobe, Futoshi Okada, Yoshihito Iuchi, Kunishige Onuma, Yoshihiko Tomita, and Junichi Fujii.
Deterioration of Ischemia/Reperfusion-induced Acute Renal Failure in SOD1-deficient Mice.
Free Radic Res, 41:200-207 (2007) (IF=2.735, CI=40)
【2006】
114.

Tadashi Takeda, Hisayoshi Watanabe, Takafumi Saito, Koji Saito, Hiroaki Takeda, Hitoshi Togashi, Junichi Fujii, Yuhei Takasago, and Sumio Kawata.
Impaired portal circulation resulting from L-arginine deficiency in patients with lysinuric protein intolerance.
Gut 55:1526-1527 (2006)  (IF= 6.601, CI=7)

113. Daisuke Suto, Yoshitaka Ikeda, Junichi Fujii, and Yoshihiro Ohba
Structural analysis of amino acids, oxidized by reactive oxygen species and an antibody against N-Formylkynurenine.
J. Clin. Biochem. Nutr. 38:107-111 (2006) (IF=0.189, CI=13)
【2005】
112. Xiangchun Wang, Shinya Inoue, Jianguo Gu, Eiji Miyoshi, Katsuhisa Noda, Wenzhe Li,Yoko Mizuno-Horikawa, Miyako Nakano, Michio Asahi, Motoko Takahashi, Naofumi Uozumi, Shinji Ihara, Seung Ho Lee, Yoshitaka Ikeda, Yukihiro Yamaguchi, Yoshiya Aze,Yoshiaki Tomiyama, Junichi Fujii, Keiichiro Suzuki, Akihiro Kondo, Steven D. Shapiro, Carlos Lopez-Otin, Tomoyuki Kuwaki, Masaru Okabe, Koichi Honke, and NaoyukiTaniguchi.
Dysregulation of TGF-β1 receptor activation leads to abnormal lung developmentand emphysema-like phenotype in core fucose-deficient mice.
Proc. Natl. Acad. Sci. USA 102:15791-15796 (2005) (IF=10.260, CI=288)
111. Daisuke Suto, Kazuaki Sato, Yoshihiro Ohba, Tetsuhiko Yoshimura, and Junichi Fujii.
Suppression of the pro-apoptotic function of cytochrome c by singlet oxygen via a heme redox state-independent mechanism.
Biochem. J. 392:399-406 (2005) (IF=4.326, CI=67)
110. Tatsuya Ishii, Shingo Matsuki, Yoshihito Iuchi, Futoshi Okada, Shinjiro Toyosaki, Yoshihiko Tomita, Yoshitaka Ikeda, and Junichi Fujii.
Accelerated impairment of spermatogenic cells in sod1-knockout mice under heat stress.
Free Radic. Res. 39:697-705 (2005) (IF=2.735, CI=97)
109.  Yuki Nagaoka, Kaoru Otsu, Futoshi Okada, Kazuaki Sato, Yoshihiro Ohba, Naoki Kotani, and Junichi Fujii.
Specific inactivation of cysteine protease-type cathepsin by singlet oxygen generated from naphthalene endoperoxides.
Biochem. Biophys. Res. Commun. 331:215-223 (2005) (IF=3.055, CI=33) 
108. Kaoru Otsu, Kazuaki Sato, Yoshitaka Ikeda, Hirotaka Imai, Yasuhito Nakagawa, Yoshihiro Ohba, and Junichi Fujii.
An abortive apoptotic pathway induced by singelt oxygen is due to the suprression of caspase activation.

Biochem. J.
389:197-223 (2005) (IF=4.326, CI=16)
107. Guang Cheng, Yoshitaka Ikeda, Yoshihito Iuchi, and Junichi Fujii.
Detection of S-glutathionylated proteins by glutathione S-transferase overlay.
Arch. Biochem. Biophys. 435:42-49 (2005) (IF=2.386, CI=42)
106. Masaki Tanito, Yong-Won Kwon, Norihiko Kondo, Jie Bai, Hiroshi Masutani, Hajime Nakamura, Junichi Fujii, Akihiro Ohira, and Junji Yodoi.
Cytoprotective Effects of Oral Geranylgeranylacetone, an Inducer of Thioredoxin and Heat Shock Protein 72, on Light-Induced Retinal Damage in Mice.
J. Neurosci. 25:2396-2404 (2005) (IF=8.502, CI=75)
【2004】

105.

Yuki Nagaoka, Yoshihito Iuchi, Yoshitaka Ikeda, and Junichi Fujii.
Glutathione reductase is expressed at high levels in pancreatic islet cells.
Redox Rep. (2004) 9:321-324 (IF=1.045, CI=18)
104. Kaoru Otsu, Yoshitaka Ikeda, and Junichi Fujii.
The accumulation of Mn-superoxide dismutase under metal-depleted conditions: An implicated role of zinc ion for cellular redox balance.
Biochem. J. 377: 241-248 (2004) (IF=4.326, CI=17)
103. Yoshihito Iuchi, Tomoko Kaneko, Shingo Matsuki, Tatsuya Ishii, Yoshitaka Ikeda, Koji Uchida, and Junichi Fujii.
Carbonyl stress and detoxification ability in the male genital tract and testis of rats.
Histochem. Cell Biol. 121:123-130 (2004) (IF=2.477, CI=27)
102. Kaname Uno, Yoshihito Iuchi, Junichi Fujii, Hideaki Sugata, Katsunori Iijima, Katuaki Kato, Tooru Shimosegawa, and Testuhiko Yoshimura.
In vivo study on cross-talk between inducible nitric oxide synthase and cyclooxygenase in rat gastric mucosa: Effect of COX activity on NO production.
J. Pharmacol. Exp. Ther. 309:995-1002 (2004) (IF=3.555, CI=51)
【2003】
101. Yoshihito Iuchi, Tomoko Kaneko, Shingo Matsuki, Isoji Sasagawa, and Junichi Fujii.
Concerted changes in the YB2/RYB-a protein and protamine 2 mRNA in the mouse testis under Heat Stress.
Biol. Reprod. 68: 129-135 (2003) (IF=3.508, CI=12)
100. Rina Takamiya, Motoko Takahashi, Theingi Myint, Yong Seek Park, Nobuko Miyazawa, Takeshi Endo, Noriko Fujiwara, Haruhiko Sakiyama, Yoshiko Misonou, Yasuhide Miyamoto, Junichi Fujii, and Naoyuki Taniguchi.
Glycation proceeds faster in mutated Cu, Zn-superoxide dismutases related to familial amyotrophic lateral sclerosis.
FASEB J. 17:938-940 (2003) (IF=8.817, CI=34)
99. Tsuneko Fujii, Yoshitaka Ikeda, Hidetoshi Yamashita, and Junichi Fujii.
Transient elevation of glutathione peroxidase 1 around the time of eyelid opening in the neonatal rat.
J. Ocul. Pharmacol. Ther. 19:361-370 (2003) (IF=1.085, CI=12)
98. Tomoko Kaneko, Yoshihito Iuchi, Motoko Takahashi, and Junichi Fujii.
Colocalization of polyol-metabolizing enzymes and immunological detection of fructated proteins in the female reproductive system of the rat.
Histochem. Cell Biol. 119:309-315 (2003) (IF=2.477, CI=13)
97. Shingo Matsuki, Yoshihito Iuchi, Yoshitaka Ikeda, Isoji Sasagawa, Yoshihiko Tomita, and Junichi Fujii
Suppression of cytochrome c release and apoptosis in testes with heat stress by minocycline.
Biochem. Biophys. Res. Commun. 312: 843-849 (2003) (IF=3.055, CI=61)

【2002】
96. Tsuneko Fujii, Takeshi Endo, Junichi Fujii, and Naoyuki Taniguchi.
Differential epression of glutathione reductase and cytosolic glutathione peroxidase, GPX1, in developing rat lungs and kidneys.
Free Radic. Res. 36: 1041-1049 (2002) (IF=2.735, CI=23)
95. Michiharu Miura, Isoji Sasagawa, Yasuhiro Suzuki, Teruhiro Nakada, and Junichi Fujii.
Apoptosis and expression of apoptosis-related genes in mouse testis following heat exposure.
Fertil. Steril. 77: 787-793 (2002) (IF=2.960, CI=70)
94. Shingo Matsuki, Isoji Sasagawa, Yoshihito Iuchi, and Junichi Fujii.
Impaired expression of peroxiredoxin 4 in damaged testes by artificial cryptorchidism.
Redox Rep. 7:276-278 (2002) (IF=1.045, CI=15)
93. Tomoko Kaneko, Yoshihito Iuchi, Takashi Kobayashi, Tsuneko Fujii, Hidekazu Saito, Hirohisa Kurachi, and Junichi Fujii.
Expression of glutathione reductase in the male reproductive system of rats supports the enzymatic basis of glutathione function in spermatogenesis.
Eur. J. Biochem. 269: 1570-1578. (2002) (IF=2.849, CI=49)
92. Takashi Kobayashi, Tomoko Kaneko, Yoshihito Iuchi, Shingo Matsuki, Motoko Takahashi, Isoji Sasagawa, Teruhiro Nakada, and Junichi Fujii
Localization and physiological implication of aldose reductase and sorbitol dehydrogenase in male reproductive systems, qccessory glands, and spermatozoa of rats.
J. Androl. 23: 674-683 (2002) (IF=2.128, CI=57)

【2001】
91. Tsuneko Fujii, Junichi Fujii, and Naoyuki Taniguchi.
Augmented expression of peroxiredoxinVI in rat lung and kidney after birth implies an antioxidative role.
Eur. J. Biochem. 268:218-224 (2001) (IF=3.307, CI=72)
90. Vladimir V. Shuvaev, Isabelle Laffont, Jean-Marie Serot, Junichi Fujii, Naoyuki Taniguchi, and Gerard Siest.
Increased protein glycation in cerebrospinal fluid of Alzheimer's disease.
Neurobiol. Aging 22:397-402 (2001) (IF=3.399, CI=132)
89. Noriko Fujiwara, Tsuneko Fujii, Junichi Fujii, and Naoyuki Taniguchi.
Roles of N-terminal active cysteines and C-terminal cysteine-selenocysteine in the catalytic mechanism of mammalian thioredoxin reductase.
J. Biochem. 129: 803-812 (2001) (IF=2.191, CI=23)
88. Isoji Sasagawa, Shingo Matsuki, Yasuhiro Suzuki, Yoshihito Iuchi, Kazuo Tohya, Michio Kimura, Teruhiro Nakada, and Junichi Fujii
Possible involvement of the membrane-bound form of peroxiredoxin 4 in acrosome formation during spermiogenesis of rats.
Eur. J. Biochem. 268: 3053-3061 (2001) (IF=3.307, CI=67)

87.
Yoshihito Iuchi, Takashi Kobayashi, Tomoko Kaneko, Masatoshi Takahara,
Toshihiko Ogino, and Junichi Fujii
The expression of a Y-box protein, YB2/RYB-a, precedes protamine 2 during spermatogenesis in rodents. .

Mol. Human Reprod. 7: 1023-1031 (2001) (IF=3.643, CI=16)

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86. Tomoko Kaneko, Yoshihito Iuchi, Satoshi Kawachiya, Tsuneko Fujii, Hidekazu Saito, Hirohisa Kurachi, and Junichi Fujii.
Alteration of glutathione reductase expression in the female reproductive organs during the estrous cycle.
Biol. Reprod. 65: 1410-1416 (2001) (IF=3.417, CI=47)
85. Tsuneko Fujii, Keiji Mori, Yoshinori Takahashi, Naoyuki Taniguchi, Akira Tonosaki, Hidetoshi Yamashita, and Junichi Fujii.
Multilocal expression and developmental changes in the levels of glutathione reductase in ocular tissues of rats.
Histochem. J. 33: 267-272 (2001) (IF=1.161, CI=12)
84. Rudy J. Castellani, Peggy L. Harris, Lawrence M. Sayre, Junichi Fujii, Naoyuki Taniguchi, Michael P. Vitek, Hank Founds, Craig S. Atwood, George Perry, and Mark A. Smith.
Active glycation in neurofibrillary pathology of Alzheimer disease: Ne-(carboxymethyl) lysine and hexitol-lysine.
Free Radic. Biol. Med. 31: 175-180 (2001) (IF=4.079, CI=199)

【2000】
83. Seiji Kikuchi, Akihiko Ogata, Kazuyoshi Shinpo, Fumio Moriwaka, Junichi Fujii, Naoyuki Taniguchi, and Kunio Tashiro
Detection of an Amadori product, 1-hexitol-lysine, in the anterior horn of the amyotrophic lateral sclerosis and spinobulbar muscular atrophy spinal cord: Evidence for early involvement of glycation in motoneuron diseases.
Acta Neuropathol. 99: 63-66 (2000) (IF=2.402, CI=20)
82. Hideaki Miwa, Junichi Fujii, Hiroyuki Kanno, Naoyuki Taniguchi, and Katsuyuki Aozasa
Pyruvate secreted by human lymphoid cell lines protects cells from hydrogen peroxide mediated apoptosis.
Free Radic. Res. 33: 45-56 (2000) (IF=2.270, CI=39)
81. Ayako Okado-Matsumoto, Theingi Myint, Junichi Fujii, and Naoyuki Taniguchi.
Gain in functions of mutant Cu,Zn-superoxide dismutases as a causative factor in familial amyotrophic lateral sclerosis: Less reactive oxidant formation but high spontaneous aggregation and precipitation.
Free Radic. Res. 33: 65-73 (2000) (IF=2.270, CI=30)
80. Ayako Okado-Matsumoto, Akio Matsumoto, Junichi Fujii, and Naoyuki Taniguchi.
Peroxiredoxin IV is a secretable protein with heparin-binding properties under reduced conditions.
J. Biochem. 127: 493-501 (2000) (IF=2.191, CI=155)
79. Yukihiro Yamaguchi, Yoshitaka Ikeda, Tomoaki Takahashi, Hideyuki Ihara, Tatsuya Tanaka, Junichi Fujii, and Naoyuki Taniguchi.
Genomic structure and promoter analysis of the human a1,6fucosyltransferase gene (FUT8).
Glycobiology 10: 637-643 (2000) (IF=3.728, CI=28)
78. Tsuneko Fujii, Rieko Hamaoka, Junichi Fujii, and Naoyuki Taniguchi.
Redox capacity of cells affects inactivation of glutathione reductase by nitrosative stress.
Arch. Biochem. Biophys. 378: 123-130 (2000) (IF=2.386, CI=38)
77. Takeshi Endo, Tsuneko Fujii, Kenzo Sato, Naoyuki Taniguchi, and Junichi Fujii.
A pivotal role of Zn-binding residues in the function of the copper chaperone for SOD1.
Biochem. Biphys. Res. Commun. 276: 999-1004 (2000) (IF=3.161, CI=22)
76. Ayako Okado-Matsumoto, Akio Matsumoto, Junichi Fujii, and Naoyuki Taniguchi.
Effect of cAMP on inducible nitric oxide synthase gene expression; Its dual and cell specific functions.
Antioxid. Redox Signal. 2: 631-642 (2000) (IF=3.027, CI=9)

[1999]
75. Akio Matsumoto, Ayako Okado, Tsuneko Fujii, Junichi Fujii, Masayuki Egashira, Norio Niikawa, and Naoyuki Taniguchi.
Cloning of Peroxiredoxin Gene Family in Rats and Characterization of the Fouth Member.
FEBS Lett. 443:246-250 (1999) (IF=3.720, CI=121)
74. Yukihiro Yamaguchi, Junichi Fujii, Shinya Inoue, Naofumi Uozumi, Shusaku Yanagidani, Yoshitaka Ikeda, Masayuki Egashira, Osamu Miyoshi, Norio Niikawa, and Naoyuki Taniguchi.
Mapping of the a1,6fucosyltransferase gene, FUT8, to human chromosome 14q24.3.
Cytogenet. Cell Genet. 84: 58-60 (1999) (IF=1.604, CI=23)
73. Junichi Fujii, Rieko Hamaoka, Akio Matsumoto, Tsuneko Fujii, Yukihiro Yamaguchi, Masayuki Egashira, Osamu Miyoshi, Norio Niikawa, and Naoyuki Taniguchi.
The structural organization of the human aldehyde reductase gene, AKR1A1, and mapping to chromosome 1p32-p33.
Cytogenet. Cell Genet. 84: 230-232 (1999) (IF=1.604, CI=4)
72. Makoto Hasegawa, Yuki Kawano, Yoshiko Matsumoto, Yuji Hidaka, Junichi Fujii, Naouyuki Taniguchi, Akihiro Wada, Toshiya Hirayama, and Yasutsugu Shimonishi.
Expression and characterization of the extracellular domain of guanylyl cyclase C from a baculovirus and Sf21 insect cells.
Protein Expr. Purif. 15: 271-281 (1999) (IF=1.416, CI=18)
71. Rieko Hamaoka, Yuji Yaginuma, Tomoaki Takahashi, Junichi Fujii, Masahiko Koizumi, Han Geuk Seo, Yutaka Hatanaka, Kaoru Hashizume, Kunio Ii, Toshiaki Hanafusa, Yuji Matsuzawa, Mutsuo Ishikawa, and Naoyuki Taniguchi
Different expression patterns of nitric oxide synthase isozymes in various gynecological cancers.
J. Cancer Res. Clin. Oncol. 125: 321-326 (1999) (IF=1.052, CI=29)
70. Noriko Fujiwara, Tsuneko Fujii, Junichi Fujii, and Naoyuki Taniguchi.
Functional expression of rat thioredoxin reductase: Selenocysteine insertion sequence element is essential for the active enzyme.
Biochem. J. 340: 439-444 (1999) (IF=4.349, CI=61)
69. Rieko Hamaoka, Junichi Fujii, Jun-ichiro Miyagawa, Motoko Takahashi, Michihiko Kishimoto, Makoto Moriwaki, Koji Yamamoto, Yoshitaka Kajimoto, Yoshimitsu Yamasaki, Toshiaki Hanafusa, Yuji Matsuzawa, and Naoyuki Taniguchi.
Overexpression of the aldose reductase gene induces apoptosis in pancreatic b-cells by causing redox imbalance.
J. Biochem. 126: 41-47 (1999) (IF=2.191, CI=38)
68. Vladimir V. Shuvaev, Junichi Fujii, Yoshimi Kawasaki, Hidehiko Itoh, Rieko Hamaoka, Anne Barbier, Olivier Ziegler, Gerard Siest, and Naoyuki Taniguchi
Glycation of apolipoprotein E impairs its binding to heparin. Identification of the major glycation Site.
Biochim. Biophys. Acta 1454: 296-308 (1999) (IF=2.590, CI=42)
[1998] 
67. Akio Matsumoto, Rikinari Hanayama, Masahiro Nakamura, Keiichiro Suzuki, Junichi Fujii, Haruyuki Tatsumi, and Naoyuki Taniguchi
A high expression of heme oxygenase-1 in the liver of LEC rats at the stage of hepatitis; The possible implication of induction in uninvolved tissues.
Free Radic. Res. 28:383-391 (1998) (IF=2.270, CI=23)
66. Masahiko Koizumi, Junichi Fujii, Keiichiro Suzuki, Takehiro Inoue, Toshihiko Inoue, John M. C. Gutteridge, and Naoyuki Taniguchi
A marked increase in free copper levels in the plasma and liver of LEC rats: An animal model of Wilson disease and liver cancer
Free Radic. Res. 28 :441-450 (1998) (IF=2.270, CI=37)
65. Junichi Fujii, Yoshitaka Ikeda, Toshiya Watanabe, Yoshimi Kawasaki, Keiichiro Suzuki, Chizuko Fujii, Motoko Takahashi, and Naoyuki Taniguchi
A defect in the mitochondrial import of mutant Mn-superoxide dismutase produced in Sf21 cells.
J. Biochem. 124: 340-346 (1998) (IF=2.191, CI=3)
64. Yutaka Hatanaka, Junichi Fujii, Tatsushi Fukutomi, Toshiya Watanabe, Wenyi Che, Yasuhiro Sanada, Yasuyuki Igarashi, and Naoyuki Taniguchi
Reactive oxygen species enhances the induction of inducible nitric oxide synthase by sphingomyelinase in RAW264.7 cells.
Biochim. Biophys. Acta 1393: 203-210 (1998) (IF=2.590, CI=34)
63. Toshiya Watanabe, Junichi Fujii, Keiichiro Suzuki, Tsuneko Fujii, Michio Asahi, Ken Matsuoka, and Naoyuki Taniguchi
Dysfunction of antioxidative enzymes in the trinitrobenzensulfonic acid-induced coliltis rat.
Pathophysiology 5: 191-198 (1998) (IF= , CI=4)
62. Nobuko Miyazawa, Yoshimi Kawasaki, Junichi Fujii, Myint Theingi, Ayumu Hoshi, Rieko Hamaoka, Akio Matsumoto, Naofumi Uozumi, Tadashi Teshima, and Naoyuki Taniguchi
Immunological detection of fructated proteins in in vitro and in vivo.
Biochem. J. 336:101-107 (1998) (IF=4.349, CI=19)
61. Yoshimi Kawasaki, Junichi Fujii, Nobuko Miyazawa, Ayumu Hoshi, Ayako Okado, Yasuo Tano, and Naoyuki Taniguchi
Specific detection of the early process of the glycation reaction by fructose and glucose in diabetic rat lens.
FEBS Lett. 441:116-120 (1998) (IF=3.720, CI=27)
[1997]
60. Kazi Nazrul Islam, Yoshiro Kayanoki, Hideaki Kaneto, Keiichiro Suzuki, Michio Asahi, Junichi Fujii, and Naoyuki Taniguchi.
TGF-beta triggers oxidative modification and enhances apoptosis in HIT-cells through accumulation of reactive oxygen species by suppression of catalase and glutathione peroxidase.
Free Radic. Biol. Med. 22: 1007-1017 (1997) (IF=4.079, CI=106)
59. Han Geuk Seo, Junichi Fujii, Michio Asahi, Ayako Okado, Noriko Fujiwara, and Naoyuki Taniguchi
Roles of purine nucleotides and adenosine in enhancing NOS II gene expression in interleukin-1b-stimulated rat vascular smooth muscle cells.
Free Radic. Res. 26: 409-418 (1997) (IF=2.270, CI=7)
58. Michio Asahi, Junichi Fujii, Toshifumi Takao, Tsunehiko Kuzuya, Masatsugu Hori, Yasutsugu Shimonishi, and Naoyuki Taniguchi
The oxidation of selenocysteine is involved in the inactivation of glutathione peroxidase by nitric oxide donor.
J. Biol. Chem. 272: 19152-19157 (1997) (IF=7.666, CI=111)
57. Takashi Fujikado, Yoshimi Kawasak, Junichi Fujii, Naoyuki Taniguchi, Masaki Okada, Atsushi Suzuki, Genjiro Ohmi, and Yasuo Tano
The effect of nitric oxide synthase inhibitor on form deprivation myopia.
Curr. Eye Res. 16: 992-996 (1997) (IF=1.385, CI=51)

[1996] 
56. Han Geuk Seo, Noriko Fujiwara, Hideaki Kaneto, Michio Asahi, Junichi Fujii, and Naoyuki Taniguchi.
Effect of a nitric oxide synthase inhibitor, S-ethylisothiourea, on cultured cells and cardiovascular functions of normal and lipopolysaccharide-treated rabbits.
J. Biochem. 119: 553-558 (1996) (IF=2.191, CI=22)
55. Motoko Takahashi, Ayumu Hoshi, Junichi Fujii, Eiji Miyoshi, Takehiro Kasahara, Keiichiro Suzuki, Katsuyuki Aozasa, and Naoyuki Taniguchi.
Induction of aldose reductase gene expression in LEC rats during development of the hereditary hepatitis and hepatoma.
Jpn. J. Cancer Res. 87: 337-341 (1996) (IF=2.117, CI=34)
54. Yoshiro Kayanoki, Junichi Fujii, Kazi Nazrul Islam, Keiichiro Suzuki, Sumio Kawata, Yuji Matsuzawa, and Naoyuki Taniguchi.
The protective role of glutathione peroxidase in apoptosis induced by reactive oxygen species.
J. Biochem. 119: 817-822 (1996) (IF=2.191, CI=159)
53. Yoshitaka Ikeda, Junichi Fujii, and Naoyuki Taniguchi.
Effect of substitutions of conserved histidine residues in human g-glutamyl transpeptidase.
J. Biochem. 119: 1166-1170 (1996) (IF=2.191, CI=11)
52. Ayumu Hoshi, Motoko Takahashi, Junichi Fujii, Theingi Myint, Hideaki Kaneto, Keiichiro Suzuki, Yoshimitu Yamasaki, Takenobu Kamada, and Naoyuki Taniguchi.
Glycation and inactivation of sorbitol dehydrogenase in normal and diabetic rats.
Biochem. J. 318: 119-123 (1996) (IF=4.349, CI=39)
51. Ryoichi Nakano, Takashi Inuzuka, Koki Kikugawa, Hitoshi Takahashi, Kenji Sakimura, Junichi Fujii, Naoyuki Taniguchi, and Shoji Tsuji
Instability of mutant Cu/Zn superoxide disumutase (Ala4Thr) associated with familial amyotrophic lateral sclerosis.
Neurosci. Lett. 211: 129-131 (1996) (IF=2.085, CI=30)
50. Ayako Okado, Yoshimi Kawasaki, Yukiko Hasuike, Motoko Takahashi, Tadashi Teshima, Junichi Fujii, and Naoyuki Taniguchi
Induction of apoptotic cell death by methylglyoxal and 3-deoxyglucosone in macrophage-derived cell lines.
Biochem. Biophys. Res. Commun. 225: 219-224 (1996) (IF=3.161, CI=175)
49. Michael S. Phillips, Junichi Fujii, Vijay K. Khanna, Stella DeLeon, Kathy Yokobata, Pieter J. de Jong, and David H. MacLennan
The structural organization of the human skeletal muscle ryanodine receptor (RYR1) gene.
Genomics 34: 24-41 (1996) (IF=3.386, CI=159)
48. Noriko Fujiwara, Ayako Okado, Han Geuk Seo, Junichi Fujii, Kigen Kondo, and Naoyuki Taniguchi
Quinazoline derivatives suppress nitric oxide production by macrophages through inhibition of NOS II gene expression
FEBS Lett. 395:299-303 (1996) (IF=3.720, CI=6)
47. Hideaki Kaneto, Junichi Fujii, Theingi Myint, Kazi Nazrul Islam, Nobuko Miyazawa, Keiichiro Suzuki, Yoshimi Kawasaki,Masahiro Nakamura, Haruyuki Tatsumi, Yoshimitsu Yamasaki, and Naoyuki Taniguchi.
Reducing sugar triggers oxidative modification and apoptosis in pancreatic b-cells by provoking oxidative stress through glycation reaction.
Biochem. J. 320: 855-863 (1996) (IF=4.349, CI=279)
[1995] 
46. Yoshitaka Ikeda, Junichi Fujii, Naoyuki Taniguchi, and Alton Meister.
Expression of an active glycosylated human g-glutamyl transpeptidase mutant that lacks a membrane anchor domain.
Proc. Natl. Acad. Sci. USA. 92: 126-130 (1995) (IF=10.260, CI=57)
45. Motoko Takahashi, Lu Ya-bin, Theingi Myint, Junichi Fujii, Yoshinao Wada, and Naoyuki Taniguchi.
In vivo glycation of aldehyde reductase, a major 3-deoxyglucosone reducing enzyme: Identification of glycation sites.
Biochemistry 34: 1433-1438 (1995) (IF=4.493, CI=84)
44. Junichi Fujii, Theingi Myint, Han Geuk Seo, Yoshiro Kayanoki, Yoshitaka Ikeda, and Naoyuki Taniguchi.
Characterization of wild-type and amyotrophic lateral sclerosis-related mutant Cu,Zn-superoxide dismutase overprodued in baculovirus-infected insect cells.
J. Neurochem. 64: 1456-1461 (1995) (IF=4.906, CI=37)
43. Han Geuk Seo, Junichi Fujii, Hidenobu Soejima, Norio Niikawa, and Naoyuki Taniguchi.
Heme requirement for production of active endothelial nitric oxide synthase in baculovirus-infected insect cells.
Biochem. Biophys. Res. Commun. 208: 10-18 (1995) (IF=3.161, CI=21)
42. Terry K. Smith, Yoshitaka Ikeda, Junichi Fujii, Naoyuki Taniguchi, and Alton Meister.
Different sites of acivicin binding and inactivation of gamma-glutamyl transpeptidase.
Proc. Natl. Acad. Sci. USA. 92: 2360-2364 (1995) (IF=10.260, CI=53)
41. Yoshitaka Ikeda, Junichi Fujii, Naoyuki Taniguchi, and Alton Meister.
Human gamma-glutamyl transpeptidase mutants involving conserved aspartate residues and the unique cysteine residues of the light subunit.
J. Biol. Chem. 270: 12471-12475 (1995) (IF=7.666, CI=40)
40. Hideaki Kaneto, Junichi Fujii, Han Geuk Seo, Keiichiro Suzuki, Taka-aki Matsuoka, Masahiro Nakamura, Haruyuki Tatsumi, Yoshimitsu Yamasaki, Takenobu Kamada, and Naoyuki Taniguchi.
Apoptotic cell death triggered by nitric oxide in pancreatic b-cells.
Diabetes 44: 733-738 (1995) (IF=9.019, CI=420)
39. Michio Asahi, Junichi Fujii, Keiichiro Suzuki, Han Geuk Seo, Tsunehiko Kuzuya, Masatsugu Hori, Michihiko Tada, Shigeru Fujii, and Naoyuki Taniguchi
Inactivation of glutathione peroxidase by nitric oxide: Implication for cyototoxicity.
J. Biol. Chem. 270: 21035-21039 (1995) (IF=7.666, CI=303)
38. Yoshitaka Ikeda, Junichi Fujii, Mary E. Anderson, Naoyuki Taniguchi, and Alton Meister.
Involvement of Ser-451 and Ser-452 in the catalysis of human g-glutamyl transpeptidase.
J. Biol. Chem. 270: 22223-22228 (1995) (IF=7.666, CI=70)
37. Motoko Takahashi, Junichi Fujii, Eiji Miyoshi, Ayumu Hoshi, and Naoyuki Taniguchi.
Elevation of aldose reductase gene expression in rat primary hepatoma and hepatoma cell lines: Implication in detoxification of cytotoxic aldehydes.
Int. J. Cancer 62: 749-754 (1995) (IF=3.545, CI=70)
36. Hiroyuki Saito, Jianguo Gu, Atsushi Nishikawa, Yoshito Ihara, Junichi Fujii, Yutaka Kohgo, and Naoyuki Taniguchi.
Organization of the human N-acetylglucosaminyltransferase V gene.
Eur. J. Biochem. 233: 18-26 (1995) (IF=3.307, CI=55)
35. Han Geuk Seo, Ikuya Takata, Masahiro Nakamura, Haruyuki Tatsumi, Keiichiro Suzuki, Junichi Fujii, and Naoyuki Taniguchi
Induction of nitric oxide synthase and concomitant suppression of superoxide dismutases in experimental colitis in rats
Arch. Biochem. Biophys. 324: 41-47 (1995) (IF=2.386, CI=97)
34. Yilin Zhang, Junichi Fujii, Michael S. Phillips, Hai-Shiene Chen, George Karpati, Won-Chee Yee, Bertold Schrank, David R. Cornblath, Kevin B. Boylan, and David H. MacLennan.
Characterization of cDNA and genomic DNA encoding SERCA1, the Ca2+-ATPase of human fast-twitch skeletal muscle sarcoplasmic reticulum, and its elimination as a candidate gene for Brody disease
Genomics 30: 415-424 (1995) (IF=3.386, CI=75)
[1994] 
33. Han Geuk Seo, Haruyuki Tatsumi, Junichi Fujii, Atsushi Nishikawa, Keiichiro Suzuki, Kenji Kangawa, and Naoyuki Taniguchi.
Nitric oxide synthase from rat colorectum: Purification, peptide sequencing, partial PCR, and immunohistochemistry
J. Biochem. 115: 602-607 (1994) (IF=2.191, CI=24)
32. Junichi Fujii, Toshiyuki Nakata, Yoshitaka Ikeda, Eiji Miyoshi, and Naoyuki Taniguchi
Induction of manganese superoxide dismutase mRNA by Okadaic acid and protein synthesis inhibitors.
Biochem. J. 301: 31-34 (1994) (IF=4.349, CI=17)
31. Ryoichi Nakano, Shuzo Sato, Takashi Inuzuka, Kenji Sakimura, Masayoshi Mishina, Hitoshi Takahashi, Fusahiro, Ikuta, Yoshiaki Honma, Junichi Fujii, Naoyuki Taniguchi, and Shoji Tsuji
A aovel mutation in Cu/Zn superoxide dismutase gene in a Japanese familial amyotrophic lateral sclerosis.
Biochem. Biophys. Res. Commun. 200: 695-703 (1994) (IF=3.161, CI=96)
30. Yoshiro Kayanoki, Junichi Fujii, Keiichiro Suzuki, Sumio Kawata, Yuji Matsuzawa, and Naoyuki Taniguchi.
Suppression of antioxidative enzyme expression by transforming growth factor-b1 in rat hepatocytes.
J. Biol. Chem. 269: 15488-15492 (1994) (IF=7.666, CI=166)
29. Hideaki Kaneto, Junichi Fujii, Keiichiro Suzuki, Hiroshi Kasai, Ryuzo Kawamori, Takenobu Kamada, and Naoyuki Taniguchi.
DNA cleavage induced by glycation of Cu,Zn-superoxide dismutase.
Biochem. J. 304: 219-225 (1994) (IF=4.349, CI=92)
28. Makito Hirano, Junichi Fujii, Yoshitaka Nagai, Masanobu Sonobe, Koichi Okamoto, Heihachi Araki, Naoyuki Taniguchi, and Satoshi Ueno
A New Variant Cu/Zn Superoxide Dismutase (Val7→Glu) Deduced from Lymphocyte mRNA sequences from Japanese patients with familial amyotrophic lateral sclerosis.
Biochem. Biophys. Res. Commun. 204: 572-577 (1994) (IF=3.161, CI=54)
[1993] 
27. Yoshitaka Ikeada, Junichi Fujii, and Naoyuki Taniguchi
Significance of Arg-107 and Glu-108 in the catalytic mechanism of human gamma-glutamyl transpeptidase: Identification by site-directed mutagenesis.
J. Biol. Chem. 268: 3980-3985 (1993) (IF=7.666, CI=45)
26. Motoko Takahashi, Junichi Fujii, Tadashi Teshima, Keiichiro Suzuki, Tetsuo Shiba, and Naoyuki Taniguchi
Identity of a major 3-deoxyglucosone reducing enzyme with aldehyde Reductase in rat liver established by protein sequencing and cDNA expression.
Gene 127: 249-253 (1993) (IF=2.258, CI=77)
25. Toshiyuki Nakata, Keiichiro Suzuki, Junichi Fujii, Mutsuo Ishikawa, and Naoyuki Taniguchi
Induction and release of manganese superoxide dismutase from mitochondria from human mmbilical vein endothelial cells tumor necrosis factor-a and interleukin-1a.
Int. J. Cancer 55: 646-650 (1993) (IF=3.545, CI=26)
24. Eiji Miyoshi, Suresh K. Jain, Toshihiro Sugiyama, Junichi Fujii, Norio Hayashi, Hideyuki Fusamoto, Takenobu Kamada, and Naoyuki Taniguchi
Expression of DNA methyltransferase in LEC rats during hepatocarcinogenesis
Carcinogenesis 14: 603-605 (1993) (IF=4.118, CI=6)
23. Kinya Otsu, Junichi Fujii, Muthu Periasamy, Michael Difilippantonio, Madhvi Uppender, David C. Ward, and David H. MacLennan
Chromosome mapping of five human cardiac and skeletal muscle sarcoplasmic reticulum protein genes
Genomics 17: 507-509 (1993) (IF=3.386, CI=91)
22. Keiichiro Suzuki, Haruyuki Tatsumi, Shoji Satoh, Takao Senda, Toshiyuki Nakata, Junichi Fujii, and Naoyuki Taniguchi
Manganese-superoxide dismutase in endothelial cells: Localization and mechanism of induction.
Am. J. Physiol. 265: H1173-H1178 (1993) (IF=2.747, CI=87)
[1992] 
21. Elizabeth F. Gillard, Kinya Otsu, Junichi Fujii, Catherine Duff, Stella de Leon,Vijay K. Khanna, Beverley A. Britt, Ronald G. Worton, and David H. MacLennan
Polymorphisms and deduced amino acid substitutions in the coding sequence of the ryanodine receptor (RYR1) gene in individuals with malignant hyperthermia.
Genomics 13: 1247-1254 (1992) (IF=3.386, CI=157)
20. Eiji Miyoshi, Junichi Fujii, Norio Hayashi, Keiji Ueda, Takehiro Towata, Hideyuki Fusamoto, Takenobu Kamada, and Naoyuki Taniguchi
Enhancement of hepatitis B surface antigen expression by 5-azacytidine in a hepatitis B virus-transfected cell line.
Int. J. Cancer 52: 137-140 (1992) (IF=3.545, CI=14)
19. Toshiyuki Nakata, Keiichiro Suzuki, Junichi Fujii, Mutsuo Ishikawa, Haruyuki Tatsumi, Toru Sugiyama, Takashi Nishida, Tetsuya Shimizu, Michiaki Yakushiji, and Naoyuki Taniguchi
High expression of Mn-superoxide dismutase in 7,12-dimethylbenz(a) anthracene-induced ovarian cancer and increased serum levels in the tumor-bearing Rats.
Carcinogenesis 13: 1941-1943 (1992) (IF=4.118, CI=15)
[1991] 
18. Junichi Fujii, Angel Zarain-Herzberg, Huntington, F. Willard, Michihiko Tada, and David H. MacLennan
Structure of the rabbit phospholamban gene, cloning of the human cDNA and assignment of the gene to human chromosome 6.
J. Biol. Chem. 266: 11669-11675 (1991) (IF=7.666, CI=66)
17. Junichi Fujii, Kinya Otsu, Francesco Zorzato, Stella de Leon, Vijay K. Khanna, Janice E. Weiler, Peter J. O'Brien, and David H. MacLennan
Identification of a mutation in porcine ryanodine receptor associated with malignant hyperthermia.
Science 253: 448-451 (1991) (IF=24.595, CI=1,655)
16. Elizabeth F. Gillard, Kinya Otsu, Junichi Fujii, Vijay K. Khanna, Stella de Leon, Jeanette Derdemezi, Beverley A. Britt, Catherine L. Duff, Ronald G. Worton, and David H. MacLennan
A substitution of cysteine for arginine 614 in the ryanodine receptor is potentially causative of human malignant hyperthermia.
Genomics 11: 751-755 (1991) (IF=3.386, CI=317)
15. Junichi Fujii and Naoyuki Taniguchi
Phorbol ester induces manganese-superoxide dismutase in tumor necrosis factor-resistant cells
J. Biol. Chem. 266: 23142-23146 (1991) (IF=7.666, CI=127)
[1990] 
14. Francesco Zorzato, Junichi Fujii, Kinya Otsu, Michael Phillips, N. Michael Green, F. Anthony Lai, Gerhard Meissner, and David H. MacLennan.
Molecular cloning of cDNA encoding human and rabbit forms of the Ca2+ release channel (ryanodine receptor) of skeletal muscle sarcoplasmic reticulum.
J. Biol. Chem. 265: 2244-2256 (1990) (IF=7.666, CI=637)
13. David H. MacLennan, Chatherine Duff, Francesco Zorzato, Junichi Fujii, Michael Phillips, Robert G. Korneluk, Wanda Frodis, Beverley A. Britt, and Ronald G. Worton.
The ryanodine receptor gene is a candidate gene for the predisposition to malignant hyperthermia.
Nature 343: 559-561 (1990) (IF=29.491 CI=527)
12. Junichi Fujii, Huntington F. Willard, and David H. MacLennan
Characterization and localization to human chromosome 1 of the human fast- twitch skeletal muscle calsequestrin gene.
Somat. Cell Mol. Genet. 16: 185-189 (1990) (IF=0.835, CI=20)
11. Alex E. MacKenzie, Robert G. Korneluk, Francesco Zorzato, Junichi Fujii, Michael Phillips, David Iles, Be Wieringa, Suzanne Leblond, Jane Bailly, Huntington F. Willard, Cathenine Duff, Ronald G. Worton, and David H. MacLennan
The human ryanodine receptor gene: Its mapping to 19q13.1, placement in a chromosome 19 linkage group and exclusion as the gene causing myotonic dystrophy.
Am. J. Hum. Genet. 46: 1082-1089 (1990) (IF=10.426, CI=86)
10. Junichi Fujii, Kei Maruyama, Michihiko Tada, and David H. MacLennan
Co-expression of cardiac/slow-twitch Ca2+-ATPase (SERCA2) and phospholamban.
FEBS Lett. 273: 232-234 (1990) (IF=3.720, CI=47)
[1989] 
9. Ryozo Nagai, Angel Zarain-Herzberg, Christopher J. Brandl, Junichi Fujii, Michihiko Tada, David H. MacLennan, Norman R. Alpert, and Muthu Periasamy
Regulation of myocardial Ca-ATPase and phospholamban mRNA expression in response to pressure overload and thyroid hormone.
Proc. Natl. Acad. Sci. USA. 86: 2966-2970 (1989) (IF=10.260, CI=297)
8. Ekkehard Leberer, Kar-Thomas Hartner, Christopher, J. Brandl, Junichi Fujii, Michihiko Tada, David H. MacLennan, and Dirk Pette
Slow/cardiac sarcoplasmic reticulum Ca2+-ATPase and phospholamban mRNAs are expressed in chronically stimulated rabbit fast-twitch muscle.
Eur. J. Biochem. 185: 51-54 (1989) (IF=3.307, CI=78)
7. Junichi Fujii, Kei Maruyama, Michihiko Tada, and David H. MacLennan
Expression and site-specific mutagenesis of phospholamban: Studies of residues involved in phosphorylation and pentamer formation.
J. Biol. Chem. 264: 12950-12955 (1989) (IF=7.666, CI=124)
6. Kei Maruyama, David M. Clarke, Junichi Fujii, Giuseppe Inesi, Tip W. Loo, and David H. MacLennan
Functional consequences of alterations to amino acids located in the catalytic (isolucine 348 to threonine 357) and nucleotide-binding domain of the Ca2+-ATPase of sarcoplasmic reticulum.
J. Biol. Chem. 264: 13038-13042 (1989) (IF=7.666, CI=101)
[1988] 
5. Junichi Fujii, Jonathan Lytton, Michihiko Tada, and David H. MacLennan
Rabbit cardiac and slow-twitch muscle express the same phospholamban gene.
FEBS Lett. 227: 51-55 (1988) (IF=3.720, CI=78)
[1987] 
4. Junichi Fujii, Atsuko Ueno, Katsuhiko Kitano, Shoji Tanaka, Masaaki Kadoma, and Michihiko Tada.
Complete complementary DNA-derived amino acid sequence of canine cardiac phospholamban.

J. Clin. Invest. 79: 301-304 (1987) (IF=10.921, CI=195) [学位論文]
3. Atsuko Uyeda, Katsuhiko Kitano, Junichi Fujii, Masaaki Kadoma, Michihiko Tada, and Shoji Tanaka.
The cDNA sequence of the major phospholamban mRNA in canine cardiac muscle
Nucleic Acids Res. 15: 6738 (1987) (IF=5.748, CI=7)
[1986] 
2. Shinpei Yamada, Junichi Fujii, and Hajime Katayama
Sarcoplasmic reticulum Ca-ATPase: Distinction of phosphoenzyme formed from Mg ATP and Ca ATP as substrates and interconversion of the phosphoenzymes by Mg2+ and Ca2+.
J. Biochem. 100: 1329-1342 (1986) (IF=2.191, CI=10)
1. Junichi Fujii, Masaaki Kadoma, Michihiko Tada, Hiroko Toda, and Fumio Sakiyama.
Characterizaion of structural unit of phospholamban by amino acid sequencing and electrophoretic analysis
Biochem. Biophys. Res. Commun. 138: 1044-1050 (1986) (IF=3.161, CI=64)

Books, Reviews, and Proceedings

[2016]
72. Junichi Fujii, Takujiro Homma, Sho Kobayashi
Chapter 11: Ascorbic Acid as a Multifunctional Nutrient in Mammals; Our Understanding based on Studies using Genetically Modified Mice.
In"
Ascorbic Acid: Properties, Synthesis and Applications"(Emma Parsons, ed.)
Nova Science Publishers, Inc, 239-265 (2016)
  
 71. Takujiro Homma, Junichi Fujii.
Chapter 2; Indispensable Roles of Superoxide Dismutation in Mammalian Erythrocytes.
In "
Superoxide Dismutase (SOD): Sources, Therapeutic Uses and Health Benefits." (Nancy H. Phillips, ed.)
Nova Science Publishers, Inc, 37-57 (2016)
 
[2015]  
70. Takujiro Homma, Junichi Fujii.
Application of glutathione as anti-oxidative and anti-aging drug.
Curr Drug Metab, 16:560-571 (2015)  (invited review)   (IF=2.976, CI=11)
69. Toshihiro Kurahashi, Junichi Fujii.
Roles of Antioxidative Enzymes in Wound Healing.
J Dev Biol, 3(2);57-70 (2015) (invited review)  (CI=23) 
68. Junichi Fujii, Toshihiro Kurahashi, Tasuku Konno, Takujiro Homma, Yoshihito Iuchi.
Oxidative stress as a potential causal factor for autoimmune hemolytic anemia and systemic lupus erythematosus
World J Nephrol, 4(2):213-222 (2015) doi: 10.5527/wjn.v4.i2.213. (invited review)   (CI=16)
 67. Junichi Fujii, Yoshitaka Ikeda, Toshihiro Kurahashi, Takujiro Homma.  
Physiological and Pathological Views of Prdx4.
Free Radic. Biol. Med,83:373-379 (2015)doi: 10.1016/j.freeradbiomed.2015.01.025. (invited review)   (IF=5.736, CI=8)  
[2014]  
 66. Junichi Fujii, and Hirotaka Imai.
Redox reactions in mammalian spermatogenesis and the potential targets of reactive oxygen species under oxidative stress.
Spermatogenesis, 4(2):e979108 (2014) (invited review) (CI=8) 
65. Junichi Fujii
Chapter 6. Catalytic Protein-Enzymes
in "Medical Biochemistry 4th ed" (J. W. Baynes and M. H. Dominiczak eds.)
Elsevier, London, 54-67 (2014)
 
64. Satoshi Tsunoda, Naoko Kimura, and Junichi Fujii.
Oxidative stress and redox regulation of gametogenesis, fertilization, and embryonic development. 
Reproductive Medicine and Biology, 13:71-79 (2014)  (CI=10)
63. Fujii J, Tsunoda S, and Kimura N.
Antithetical Roles of Reactive Oxygen Species in Mammalian Reproduction.
in "Handbook of System Biology of Free Radicals and Anti-oxidants"  (I. Larher ed),
Springer-Verlag, Germany, 2705-2721 (2014)   (CI=1)
[2011] 
62. Junichi Fujii, and Satoshi Tsunoda
Redox regulation of spermatogenic process and fertilization
Asian J Androl,13:420-423 (2011) (IF=2.140, CI=19)
61. Junichi Fujii, Jun-itsu Ito, Xuhong Zhang, and Toshihiro Kurahashi.
Unveiling the Roles of the Glutathione Redox System In Vivo by Analyzing Genetically Modified Mice
.
J. Clin. Biochem. Nutr. 49:70-78 (2011) (IF=1.975, CI=30)
60. Junichi Fuji,
Introduction to serial reviews: physiological relevance of antioxid/redox genes; learning from genetically modified animals.

J. Clin. Biochem. Nutr. 49:69 (2011)  (IF=1.975, CI=1)
[2010] 
59. Fujii J and Iuchi Y.
Requirement of Multiple Antioxidative/Redox Systems to Support Male Fertility.
In "Male and Female Infertility: Genetic Causes, Hormonal Treatments and Health Effects." (Bjorn Glantz and Klas Edquist eds), Nova Science Publishers, Inc, p33-54 (2010
)
58. Kimura N and Fujii J.
Active oxygen species as a signal of embryonic developmental arrest and death,
In "Male and Female Infertility: Genetic Causes, Hormonal Treatments and Health Effects." (Glantz B and Edquist K eds), Nova Science Publishers, Inc, p55-75 (2010)
[2009]
57. Junichi Fujii
Chapter 5. Catalytic Protein-Enzymes
in "Medical Biochemistry 3rd ed" (M. H. Dominiczak and J. W. Baynes eds.)
Mosby/Elsevier, London, 59-71 (2009)
[2007]
56. Y. Iuchi, F. Okada, K. Onuma, M. Kobayashi, J. Fujii.
Oxidative stress in erythrocytes; A cause for anemia and autoimmune response.
3rd International Meeting of the Society for Free Radical Research-Asia. Medimond, Bologna,71-73 (2007)
[2006]
55. Futoshi Okada and Junichi Fujii.
Molecular mechanisms of inflammation-induced carcinogenesis.
J Clin Biochem Nutr, 39:103-113 (2006) (IF=2.74, CI=6)
[2005]
54.

Junichi Fujii, Yoshihito Iuchi, Futoshi Okada.
Fundamental roles of reactive oxygen species and protective mechanisms in the female reproductive system.
Reprod Biol Endocrinol, 3:43 (10 pages) (2005) review  (IF=2.74, CI=192)

53. D. Suto, K. Sato, Y. Ohba, T. Yoshimura, and J. Fujii.
Abolished pro-apoptotic function of cytochrome c by singlet oxygen via heme redox state-independent mechanism.
in "Natural Antioxidants and Micronutrients "(B Zhao, G Liu, L Packer, eds), Medimond, Bologna, 87-90 (2005)
52. G. Cheng, Y. Ikeda,Y. Iuchi, and J. Fujii.
A novel method to detect S-glutathionylated proteins by glutathione S-transferase.
in ""Natural Antioxidants and Micronutrients" (B Zhao, G Liu, L Packer, eds), Medimond, Bologna, 155-158 (2005)
51. Futoshi Okada and Junichi Fujii. Prevention of tumor progression as the ultimate goal of cancer therapy.
Cancer Therapy 3: 219-226 (2005) (CI=4)
50. Junichi Fujii
Chapter 5. Catalytic Protein-Enzymes
in "Medical Biochemistry 2nd ed" (M. H. Dominiczak and J. W. Baynes eds.) Mosby, London, 51-62 (2005)
[2004]
49. J. Fujii, K. Otsu, Y. Ikeda, S. Sato, Y. Ohba.
Elucidation of Singlet Oxygen-Induced Cell Death. In "Proceeding of XII Biennial Meeting of SFRR", Monduzzi Editore, 305-309 (2004)
[2003]
48. Junichi Fujii, Yoshihito Iuchi, Shingo Matsuki, Tatsuya Ishii.
Cooperative function of antioxidant and redox systems against oxidative stress in male reproductive tissues
Asian J. Androl. 5:231-242 (2003) (IF=1.064, CI=178)
[2002]
47. J. Fujii, T. Kaneko, Y. Iuchi.
Glutathione Redox Status in the Rat Reproductive System.
in “XI Biennial Meeting of the Society for Free Radical Research International” (C.Pasquier ed), Bologna, Monduzzi Editore, C716: 217-220 (2002)
46. Junichi Fujii, Yoshitaka Ikeda.
Advances in our understanding of peroxiredoxin, a multifunctional, mammalian redox protein.
Redox Rep. 7: 123-130 (2002) (IF=0.717, CI=377)
45. Junichi Fujii, Tomoko Kaneko, Takashi Kobayashi, Yoshihito Iuchi, Motoko Takahashi.
Localization and Physioloigcal Implication of Polyol-Metabolyzing Enzymes in Male and Female Reproductive Systems of Rat
in "The Maillard Reaction in Food Chemistry and Medical Science: Update for the Postgenomic Era" (S. Horiuchi, T. Kurata, N. Taniguchi, T. Osawa, F. Hayase, Eds), Amsterdam, Elsevier, 363-364 (2002)
[2001]
44. S. Kikuchi, K. Shinpo, J. Fujii, Z. Makita, M. Takeuchi, N. Taniguchi, and K. Tashiro.
Abnormal Glycation in ALS.
in "Molecular Mechanism and Therapeutics of Amyotrophic Lateral Sclerosis" (K. Abe, Ed), Elsevier, 255-263 (2001)
[2000]
43. J. Fujii.
6. Detection of nitric oxide synthase (NOS) expression: preparation of RNA.
in "Experimental Protocols for Reactive Oxygen and Nitrogen Species" (N. Taniguchi and J.M.C. Gutteridge Eds), Oxiford Press, 194-196 (2000)
42. J. Fujii.
28. Nitric oxide synthase (NOS) activity assay: determination of produced NADP+.
in "Experimental Protocols for Reactive Oxygen and Nitrogen Species" (N. Taniguchi and J.M.C. Gutteridge Eds), Oxiford Press, 103-105 (2000)
41. J. Fujii.
27. Nitric oxide synthase (NOS) activity assay: RI method to detect L-citrulline.
in "Experimental Protocols for Reactive Oxygen and Nitrogen Species" (N. Taniguchi and J.M.C. Gutteridge Eds), Oxiford Press, 101-102 (2000)
40. J. Fujii.
6. NO-generating system.
in "Experimental Protocols for Reactive Oxygen and Nitrogen Species" (N. Taniguchi and J.M.C. Gutteridge Eds), Oxiford Press, 25-27 (2000)
39. K. Suzuki, H. Ohno, S. Oh-ishi, T. Kizaki, T. Ookawara, J. Fujii, Z. Radak, and N. Taniguchi.
Superoxide Dismutases in Exercise and Disease.
in "Handbook of Oxidants and Antioxidants in Exercise" (C.K. Sen, L. Packer, and O. Hanninen eds.),
Elsevier Science, Amsterdam, 243-295 (2000) (
CI=23)
[1999]
38. Junichi Fujii, and Naoyuki Taniguchi
Down Regulation of Superoxide Dismutases and Glutathione Peroxidase by Reactive Oxygen and Nitrogen Species
Free Radic. Res. 31: 301-308 (1999) (IF=2.270, CI=63)
37. Junichi Fujii, Motoko Takahashi, Rieko Hamaoka, Yoshimi Kawasaki, Nobuko Miyazawa, and Naoyuki Taniguchi
Physiological Relevance of Aldehyde Reductase and Aldose Reductase Gene Expression.
Adv. Exp. Med. Biol. (Weiner, H., Maser, E., Crabb, D.W., and Lindahl, R. eds),
Academic/Plenum Publishers, New York, 463:419-426 (1999) (IF=0.446, CI=5)
36. Junichi Fujii
Chapter 5. Catalytic Protein-Enzymes
in "Medical Biochemistry" (M. H. Dominiczak and J. W. Baynes eds.)
Mosby, London, 43-54 (1999)
35. Junichi Fujii and Naoyuki Taniguchi.
Dysfunction of Redox System by Reactive Oxygen and Nitrogen Species.
in "Redox Regulation of Cell Signaling and Its Clinical Applications"
(J. Yodoi and L. Packer eds), Marcel Dekker, Basel, 11-24 (1999)
[1998]
34. A. Okado, A. Matsumoto, J. Fujii, and N. Taniguchi
Induction of NOS II Gene by cAMP Is not Mediated by a Typical CRE in Macrophages and Smooth Muscle Cells
in "The Biology of Nitric Oxide, Part 6"(S. Moncada, N. Toda, H. Maeda, and E.A. Higgs eds)
Portland Press, London, 236 (1998)
33. R. Hamaoka, J. Fujii, M. Koizumi, Y. Hatanaka, K. Ii, Y. Yaginuma, M. Ishikawa, and N. Taniguchi
Frequent Expression of Nitric Oxide Synthase Isozymes in Gynecological Cancer
in "The Biology of Nitric Oxide, Part 6" (S. Moncada, N. Toda, H. Maeda, and E.A. Higgs eds)
Portland Press, London, 190 (1998)
32. Y. Kawasaki, T. Fujikado, J. Fujii, Y. Tano, and N. Taniguchi
Nw-Nitro-L-Arginine Methylester Inhibits Experimental Myopia
in "The Biology of Nitric Oxide, Part 6" (S. Moncada, N. Toda, H. Maeda, and E.A. Higgs eds)
Portland Press, London, 112 (1998)
31. J. Fujii, M. Asahi, T. Takao, Y. Shimonishi, and N. Taniguchi
NO-dependent Oxidation of Selenocysteine in the Active Center of Glutathione Peroxidase Is Responsible for Its Inactivation
in "The Biology of Nitric Oxide, Part 6" (S. Moncada, N. Toda, H. Maeda, and E.A. Higgs eds)
Portland Press, London, 35 (1998)
30. A. Matsumoto, A. Okado, J. Fujii, and N. Taniguchi
Coordinated Induction of Heme Oxygenase and NO Synthase-II in cAMP Dependent Mechanism
in "The Biology of Nitric Oxide, Part 6" (S. Moncada, N. Toda, H. Maeda, and E.A. Higgs eds)
Portland Press, London, 268 (1998)
29. J. Fujii, N. Miyazawa, Y. Kawasaki, M. Theingi, A. Hoshi, and N. Taniguchi.
Production of an antibody against fructated proteins and its usefulness to detect in vitro and in vivo fructation.
in "The Maillard Reaction in Foods and Medicine" (J. O'Brien, H. E. Nursten, M.J.C. Crabbe, J. M. Ames eds) pp408 (1998) Royal Society of Chemistry in Cambridge, London
28. H. Kaneto, J. Fujii, M. Theingi, N. Miyazawa, K.N. Islam, Y. Kawasaki, K. Suzuki, and Naoyuki Taniguchi, .
Reducing Sugars Induce Apoptosis in Pancreatic b-Cells by Provoking Oxidative Stress via a Glycation Reaction.
in "The Maillard Reaction in Foods and Medicine" (J. O'Brien, H. E. Nursten, M.J.C. Crabbe, J. M. Ames eds) pp345-350 (1998) Royal Society of Chemistry in Cambridge, London
27. Junichi Fujii, Michio Asahi, Ayako Okado, and Naoyuki Taniguchi.
Dysfunction of Redox Regulation: A Common Mechanism for Apoptotic Cell Death by Nitric Oxide and the Glycation Reaction.
in "Pathophysiology of Lipid Peroxides and Related Free Radicals"
(K. Yagi ed.) pp125-134 (1998) Japan Scientific Societies Press, Tokyo
26. Naoyuki Taniguchi, Junichi Fujii, Hideaki Kaneto, Michio Asahi, Theingi Myint, Nobuko Miyazawa, Keiichiro Suzuki, and Kazi Nazrul Islam.
Glycation as Oxidative Stress and Redox Regulation: Implications for Aging, Diabetes, and Familial Amyotrophic Lateral Sclerosis.
in "Oxidative Stress in Cancer, AIDS, and Neurodegenerative Diseases"(L. Montagnier, R. Olivier, and C. Pasquier eds.), Marcel Dekker, New York, pp497-502 (1998)
[1997]
25. Eiji Miyoshi, Junichi Fujii, Norio Hayashi, and Naoyuki Taniguchi
LEC Rats: An Overview of Recent Findings.
J. Trace Elem. Exp. Med. 10: 135-145 (1997) (IF=0.574, CI=13)
[1996]
24. Junichi Fujii, Theingi Myint, Ayako Okado, Hideaki Kaneto, and Naoyuki Taniguchi
Oxidative Stress Caused by Glycation of Cu,Zn-Superoxide Dismutase and Its Effects on Intracellular Components.
Nephrol. Dial. Transpl. 11(Suppl 5): 34-40 (1996) (IF=1.752, CI=27)
23. Naoyuki Taniguchi, Hideaki Kaneto, Michio Asahi, Motoko Takahashi, Shigeki Higashiyama, Junichi Fujii, Keiichiro Suzuki, and Yoshiro Kayanoki
Involvement of Glycation and Oxidative Stress in Diabetic Macroangiopathy
Diabetes, 45: S81-S83 (1996) (IF=9.019, CI=91)
[1995]
22. Motoko Takahashi, Junichi Fujii, Tadashi Teshima, Keiichiro Suzuki, Tetsuo Shiba, and Naoyuki Taniguchi
Glycation and Inactivation of Rat Aldehyde Reductase, a Major 3-Deoxyglucosone Reducing Enzyme.
in "Maillard Reaction in Chemistry, Food, and Health" (T. P. Labuza, G.
A. Reineccius, V. M. Monnier, J. O'Brien, and J. W. Baynes eds) pp427 (1995)
21. Hideaki Kaneto, Junichi Fujii, Han Geuk Seo, Keiichiro Suzuki, Masahiro Nakamura, Haruyuki Tatsumi, and Naoyuki Taniguchi
Apoptosis Induced by Nitric Oxide in Pancreatic b-Cells.
in "The Biologoly of Nitric Oxide, Part 5" (S. Moncada, J. Stamler, S. Gross, and E. A. Higgs eds) pp132 (1995)
20. Michio Asahi, Junichi Fujii, Han Geuk Seo, and Naoyuki Taniguchi
Inactivation of Glutathione Peroxidase by Nitric Oxide: Implication for Cytotoxicity.
in "The Biologoly of Nitric Oxide, Part 5" (S. Moncada, J. Stamler, S. Gross, and E. A. Higgs eds) pp115 (1995)
19. Junichi Fujii, Han Geuk Seo, Michio Asahi, and Naoyuki Taniguchi
ADP Enhances NOS II Gene Expression in Rat Smooth Muscle Cells Stimulated with Interleukin-1
in "The Biologoly of Nitric Oxide, Part 5" (S. Moncada, J. Stamler, S. Gross, and E. A. Higgs eds) pp50 (1995)
[1994]
18. H. Ohno, K. Suzuki, J. Fujii, H. Yamashita, T. Kizaki, S. Oh-ishi, and N. Taniguchi
Superoxide Dismutase in Exercise and Disease.
in "Exercise and Oxygen Toxicity" (C. K. Sen, L. Packer, and O. Hanninen eds) pp127-161 (1994)
17. Suzuki, H. Tatusmi, S. Satoh, T. Senda, T. Nakata, J. Fujii, and N. Taniguchi.
in "Frontiers of Reactive Oxygen Species in Biology and Medicine"
(K. Asada, and T. Yoshikawa eds) pp297-298 (1994)
16. Y. Kayanoki, J. Fujii, K. Suzuki, Y. Aida, T. Uchikoshi, S. Kawata, Y. Matsuzawa, and N. Taniguchi.
in "Frontiers of Reactive Oxygen Species in Biology and Medicine"
(K. Asada, and T. Yoshikawa eds) pp295-296 (1994)
15. J. Fujii, Y. Kayanoki, K. Suzuki, and N. Taniguchi
Regulation of Human Mn-SOD Gene Expression by Cytokines and Other Factors
in "Frontiers of Reactive Oxygen Species in Biology and Medicine"
(K. Asada, and T. Yoshikawa eds) pp269-270 (1994)
14. H. Kaneto, T. Ookawara, J. Fujii, K. Suzuki, and N. Taniguchi.
in "Frontiers of Reactive Oxygen Species in Biology and Medicine"
(K. Asada, and T. Yoshikawa eds) pp169-170 (1994)
13. J. Fujii, Y. Ikeda, K. Suzuki, and N. Taniguchi
Characterization of Human Mn-SOD and Cu,Zn-SOD Expressed in Baculovirus/insect Cells System
in "Frontiers of Reactive Oxygen Species in Biology and Medicine"
(K. Asada, and T. Yoshikawa eds) p251-254 (1994)
[1992]
12. David H. MacLennan, Kinya Otsu, Junichi Fujii, Francesco Zorzato, Michael S. Phillips, Peter O'brien, Alan L. Archibald, Beverley A. Britt, Elizabeth F. Gillard, and Ronald G. Worton
The Role of the Skeletal Muscle Ryanodine Receptor Gene in Malignant Hyperthermia.
Symp. Soc. Exp. Biol. 46: 189-201 (1992) (CI=12)
11. Naoyuki Taniguchi, Mutsuo Ishikawa, Tetsuo Kawaguchi, Junichi Fujii, Keiichiro Suzuki, and Toshiyuki Nakata
Expression of Mn-superoxide Dismutase in Carcinogenesis.
Tohoku J. Exp. Med. 168: pp105-111 (1992) (IF=0.409, CI=9)
[1989]
10. Kei Maruyama, David M. Clarke, Junichi Fujii, Tip W. Loo, and David H. MacLennan
Expression and Mutation of Ca2+-ATPase of the Sarcoplasmic Reticulum.
Cell Motil. Cytoskel. 14: 26-34 (1989) (IF=2.772, CI=17)
[1988]
9. Michihiko Tada, Masaaki Kadoma, Makoto Inui, Junichi Fujii, Yoshihiro Kimura, Yoshiyuki Kijima, and Tatsuya Sasaki
Molecular Structure and Function of Phospholamban: The Regulatory Protein of Calcium Pump in Cardiac Sarcoplasmic Reticulum.
in "Bioinformatics: Information Transduction and Processing Systems from Cell to Whole Body"
(O. Hatase, and J. H. Wang eds.) Elsevier, pp73-82 (1988)
8. Micihiko Tada, Masaaki Kadoma, Junihchi Fujii, Yoshihiro Kimura, and Yoshiyuki Kijima.
Molecular Structure and Function of Phospholamban: The Regulatory Protein of Calcium Pump in Cardiac Sarcoplasmic Reticulum.
in "Calcium Protein Signaling; Adavances in Experimental Medicine and Biology" Vol. 255 (H. Hidaka ed.)
Plenum Press, New York, pp79-89 (1988)
7. Michihiko Tada, Masaaki Kadoma, Junichi Fujii
Molecular Structure of Canine Cardiac Phospholamban, the Regulatory Protein of Ca Pump ATPase of Sarcoplasmic Reticulum.
in "Cell Calcium Metabolism: Physiology, Biochemistry, Pharmacology, and Clinical Applications" (G. Fiskum ed.) Plenum Press, New York, pp93-101 (1988)
6. Michihiko Tada, Masaaki Kadoma, Makoto Inui, and Junichi Fujii
Regulation of Ca Pump from Heart Sarcoplasmic Reticulum.
Methods Enz. 157: 107-154 (1988) (IF=4.068, CI=85)
[1987]
5. Michihiko Tada, Masaaki Kadoma, and Junichi Fujii
Regulation of Cardiac Sarcoplasmic Reticulum Ca Pump by the cAMP-phospholamban System.
in "Ca Channel Blockers and the Heart" (S.D. Seth, S.C. Manchanda, H. H. Siddiqui eds.),
Interprint, New Delhi, India, pp57-70 (1987)
4. Michihiko Tada, Masaaki Kadoma, and Junichi Fujii
Protein Phosphorylation in Cardiac Sarcoplasmic Reticulum and Its Functional Consequences.
in "Heart Function and Metabolism" (N.S. Dhalla, G.N. Pierc, R.E. Beamish eds.)
Martinus Nijhoff Publishing, Boston, pp255-266 (1987)
3. Michihiko Tada, Masaaki Kadoma, and Junichi Fujii
Cyclic AMP Regulation of Ca Pump from Cardiac Sarcoplasmic Reticulum.
in "Perspectives of Biological Energy Transduction" (Y. Mukohata, M. F. Morales, S. Fleisher eds.)
Academic Press, New York, pp199-206 (1987)
[1986]
2. Atsuko Uyeda, Katsuhiko Kitano, Junichi, Fujii, Masaaki Kadoma, Michihiko Tada, and Shoji Tanaka
in "14th Symposium on Nucleic Acids Chemistry" pp121-124 (1986)
1. Michihiko Tada, Masaaki Kadoma, and Junichi Fujii
Phospholamban, a Regulatory Factor of Ca Pump from Cardiac Sarcoplasmic Reticulum.
in "Cardiac Function under Ischemic and Hypoxia" (K. Yamada, A.M. Katz, and J. Toyama eds)
The University of Nagoya Press, Nagoya, Japan, pp89-99 (1986)

【和文総説、他】

[2017]
 78. 金野祐、藤井順逸
血球細胞の酸化障害と血液関連自己免疫疾患 「生化学, みにれびゅう」89;81-85 (2017) 日本生化学会、東京
 
[2016]  
 77. 藤井順逸, 本間拓二郎, 小林翔.
グルタチオン:古いレドックス分子の新たな役割.
TH LUNG perspectives、メディカルレビュー社、 24(4);421-425(2016) 
 
[2014]  
76. 藤井順逸. 
自己免疫疾患と酸化ストレス 
「酸化ストレスの医学(第2版)」 吉川敏一監修 内藤裕二・豊國伸哉 編  427-433 (2014) 診断と治療社
75. 藤井順逸:
14-4 活性酸素 213-215 (2014)
シンプル生化学(改訂6版) 、林典夫・廣野浩子監修、野口正人・五十嵐和彦編集、南江堂、東京
[2012]  
74. 藤井順逸, 倉橋敏裕, 伊藤純一, 張旭紅:
細胞内外で多様な機能を発揮するレドックス分子・ぺルオキシレドキシン-4.
日本応用酵素協会誌.  46: 1-9 (2012) 
73. 藤井順逸: 
酸化ストレスと女性生殖機能-活性酸素のもつ細胞内シグナルとしての役割-
Hormone Frontier in Gynecology 19:143-147 (2012) 
 
72. 藤井順逸: 
細胞増殖に関わるリン酸化・脱リン酸化の制御における活性酸素種のシグナル伝達分子としての役割.
Vitamemebrane 12:1-9 (2012)
[2010]  
71.

藤井順逸
ペントースリン酸経路
「ことばのカルテ-メディカルトリビューン-」3月4日号 (2010) メディカルトリビューン社

[2009]
70. 藤井順逸
ペルオキシレドキシン
「ことばのカルテ-メディカルトリビューン-」11月19日号 (2009) メディカルトリビューン社
69. 岡田太、小沼邦重、藤井順逸
運動とがんと免疫、293-299 (2009)

「運動と免疫-からだをまもる運動のふしぎ」 大野秀樹、木崎節子 編著、NAP Limited、東京
68. 岡田太、小沼邦重、藤井順逸 
運動と大腸がんと免疫、300-303 (2009)

「運動と免疫-からだをまもる運動のふしぎ」 大野秀樹、木崎節子 編著、NAP Limited、東京
67.

岡田太、小沼邦重、藤井順逸 
運動と乳がんと免疫、304-306 (2009)

「運動と免疫-からだをまもる運動のふしぎ」 大野秀樹、木崎節子 編著、NAP Limited、東京

66. 井内良仁、藤井順逸
運動と生殖系と免疫、121-123 (2009)
「運動と免疫-からだをまもる運動のふしぎ」 大野秀樹、木崎節子 編著、NAP Limited、東京
65. 藤井順逸
酸化ストレスによる貧血-造血幹細胞の老化と赤血球の酸化
「活性酸素シグナルと酸化ストレス」谷口直之監修 赤池孝章・鈴木敬一郎・内田浩二 編 「実験医学増刊」164-168 (2009) 羊土社
64. 藤井雅典,大和田一雄,藤井順逸
1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)誘発一側性サルパーキンソン病モデルの確立.
山形医学 27:119-133 (2009)
63. 藤井順逸
Sーアデノシルメチオニン脱炭酸酵素
ガンマ-ジーティーピー
ガンマ-ジーティーピーアイソザイム
グルタチオンSートランスフェラーゼ
グルタチオン還元酵素
グルタチオンシンテターゼ
グルタチオンペルオキシダーゼ
トランスヒドロゲネーション
転移酵素
リボザイム
「医学書院医学大辞典・改定版」印刷中(2008)、医学書院
[2008]
62.

藤井順逸 
自己免疫疾患と酸化ストレス 
「酸化ストレスの医学」 吉川敏一監修 内藤裕二・豊國伸哉 編  371-377 (2008) 診断と治療社

[2007]
61. 藤井順逸
リアノジン受容体 「ことばのカルテ-メディカルトリビューン-」 6月7日号 (2007) メディカルトリビューン社
[2006]
60. 藤井順逸
男性生殖における酸化反応の功罪
 「別冊医学のあゆみ:酸化ストレス-フリーラジカル医学生物学の最前線ver2」 435-438(2006)医歯薬出版
[2004]
59. 藤井順逸
レドックス制御 「ことばのカルテ-メディカルトリビューン-」 8月21日号 (2004)メディカルトリビューン社
58. 藤井順逸、谷口直之
一酸化窒素
「Key Word 糖尿病 第2版」(河盛隆造、春日雅人、田嶼尚子、編) 32-33 (2004)先端医療社
[2003]
57. 藤井順逸
「医学書院医学大辞典」(2003)、医学書院
Sーアデノシルメチオニン脱炭酸酵素
ガンマ-ジーティーピー
ガンマ-ジーティーピーアイソザイム
グルタチオンSートランスフェラーゼ
グルタチオン還元酵素
グルタチオンシンテターゼ
グルタチオンペルオキシダーゼ
トランスヒドロゲネーション
転移酵素
リボザイム
[2001]
56. 藤井順逸
4-2 ミトコンドリアの抗酸化酵素 「新ミトコンドリア学」 218-224 (2001)、共立出版
55. 藤井順逸
45. SOD1 変異による筋萎縮性側索硬化症の発症とCuシャペロンの役割 「別冊医学のあゆみ:酸化ストレスの基礎と臨床」 182-185(2001)医歯薬出版
54. 藤井順逸
PCR法:その原理と応用 「医学研究のためのテクニカルガイダンス」 (谷口直之編)18-25(2001)、メディカルレビュー社
53. 藤井順逸
Q98 血液再准潅流はなぜ危険なのか?「運動と遺伝 Q & A」 202-203 (2001)、大修館書店
52. 藤井順逸
Q93 抗酸化ビタミンは効果があるのか? 「運動と遺伝 Q & A」 192-193 (2001)、大修館書店
51. 藤井順逸
Q44 膵島ホルモンの反応は? 「運動と遺伝 Q & A」 90-91 (2001)、大修館書店
50. 藤井順逸
Q20 ミトコンドリアの機能は? 「運動と遺伝 Q & A」 40-41 (2001)、大修館書店
49. 藤井順逸
酸化ストレスからの防御機構:抗酸化酵素系とレドックス制御系の役割 「山形医学」 19: 65-74 (2001)
[2000]
48. 藤井順逸
神経疾患と酸化ストレス 「第5巻 酸化ストレス・レドックスの生化学-バイオサイエンスの新世紀」(谷口直之、淀井淳司編)154-161 (2000)、共立出版
47. 藤井順逸、谷口直之
老化におけるアポトーシスの意義 「アポトーシスと疾患-中枢神経系疾患編-」(水野美邦編) 102-114 (2000)
医薬ジャーナル社、大阪
46. 藤井順逸
活性酸素によるアポトーシスとレドックス制御系の役割 20:39-44 (2000) 炎症
[1999]
45. 藤井順逸、谷口直之
神経の老化におけるスーパーオキシドならびにNOの役割」 (谷口直之 編) 「神経研究の進歩」 43: 236-246 (1999)
医学書院
44. 藤井恒子、藤井順逸、谷口直之
3. NO の生理活性 (2)発癌との関連 「臨床消化器内科」 14: 681-688 (1999) 日本医学館、東京
[1998]
43. 藤井順逸、藤井恒子、藤原範子、谷口直之
NO によるアポトーシス:抗酸化系とレドックス系の破綻による細胞障害機構 「Free Radicals in Clinical Medicine: フリーラジカルの臨床」 (近藤元浩監修) Vol13: 33-37 (1998) 日本医学館、東京
42. 藤井順逸、谷口直之
生体内酸化と分子生物学(吉川敏一 編) 「BIO Clinica」 13: 22-26 (1998)、北隆館、東京
41. 藤井順逸、谷口直之
老化におけるアポトーシスと活性酸素・活性窒素種の役割 「アポトーシスと疾患-中枢神経系疾患編-」 (水野美邦編)
26:30-35 (1998) フラグランスジャーナル社、東京
40. 藤井順逸、藤井恒子、谷口直之
NOによる抗酸化・レドックス系の破綻 「血管とNO」 43: 391-398 (1998) 科学評論社、東京
39. 藤井順逸
遺伝子の発現 「呼吸器疾患の分子生物学」(川上義和、谷口直之、木田厚瑞 編) 392-395 (1998)
医学書院、東京
38. 藤井順逸、谷口直之
肝臓における一酸化窒素(NO)の役割 「肝臓病学-Basic Science-」 (戸田剛太郎、織田正也、清澤研道、坪内博仁、中沢安二、編) 289-294 (1998) 医学書院、東京
37. 朝日通雄、藤井順逸、谷口直之
グルタチオンペルオキシダーゼのNOによる不活性化とアポトーシス 「血管と内皮」 8:45-54 (1998)
メディカルレビュー社、東京
[1997]
36. 谷口直之、藤井順逸
一酸化窒素 「Key Word. 1998-1999、糖尿病」(河盛隆造、吉川隆一、阿部隆三、編) 22-23 (1997)
35. 藤井順逸
Glutathione Peroxidase 「Molecular Medicine増刊、ノックアウトマウス・データブック」 (黒川清、笹月健彦監修、野口茂、平井久丸編集) 207-208 (1997) 、中山書店、東京
34. 松本明郎、大角紋子、藤井順逸、谷口直之
NO およびNOS測定法 「臨床免疫別冊、新臨床免疫実験操作法(part 3)」 627-634 (1997)、科学評論社、東京
33. 藤井順逸、谷口直之
スーパーオキシドジスムターゼ 「Key Word. 1998-1999、神経変性疾患」(水野美邦、柳澤信夫、中野今治、編)262-263 (1997) 先端医学社、東京
32. 藤井順逸
筋萎縮性側索硬化症の発症への蛋白質糖化反応の関与 「メイラード反応ー蛋白の糖化とその臨床的展開」
109-111 (1997) 医学書院、東京
31. 藤井順逸、大角紋子、谷口直之
Cu,Zn-Superoxide Dismutase の変異による筋萎縮性側索硬化症の発症機構 「Free Radicals in Clinical Medicine: フリーラジカルの臨床」 (近藤元浩監修) Vol. 11: 19-24 (1997) 日本医学館、東京
[1996]
30. 藤井順逸、谷口直之
NOによるアポトーシス誘導機構 医学のあゆみ別冊、「NOのすべて」 (平田結喜緒編) 58-62 (1996)
医歯薬出版、東京
29. 鈴木敬一郎、藤井順逸、谷口直之
活性酸素/SOD 「BioScience用語ライブラリー。アポトーシス」 46-49 (1996) 羊土社、東京
28. 藤井順逸
活性酸素種、活性窒素種による発癌とその防御機構 「シリーズ・がんの生物学入門」IV「がんをいかに克服するか?」
(谷口直之・杉山治夫・松浦成昭編) 135-147 (1996) 中山書店、東京
27. 藤井順逸、朝日通雄、谷口直之
過酸化物が誘導するアポトーシス 「細胞工学」 15: 1381-1386 (1996) 秀潤社、東京
26. 藤井順逸、 朝日通雄、谷口直之
活性酸素と一酸化窒素によるアポトーシスの誘導 「臨床免疫」 28: 1020-1027 (1996) 科学評論社、東京
25. 鈴木敬一郎、 藤井順逸、谷口直之
スーパーオキシドジスムターゼとNO合成酵素 「組織と培養」22: 132-138 (1996) ニューサイエンス社、東京
24. 藤井順逸
PCR法:その原理と応用 「The Lung Perspectives」4: 210-214 (1996) メディカルレビュー社、大阪
23. 谷口直之監修、 藤井順逸、鈴木敬一郎 編著
「活性酸素Q&A」 (1996)
藤井順逸
23-1:(1) 活性酸素、フリーラジカルとは? 10-11
23-2:(2) NADPHオキシダーゼとは? 32-33
23-3:(3) ミエロペルオキシダーゼとは?34-35
23-4:(4) 補酵素Q (CoQ)とは? 50-51
23-5:(5) メタロチオネインとは? 56-57
医薬ジャーナル社、大阪
22. 藤井順逸、 徐 漢兢、谷口直之
癌化と制癌におけるNOの役割 「Surgery Frontier」3: 59-63 (1996) メディカルレビュー社、大阪
21. 徐 漢兢、藤井順逸、谷口直之
NOSの構造と消化管における分布と役割 「 G. I. Research」4: 25-31 (1996) 先端医学社、東京
[1995]
20. 谷口直之、 藤井順逸、鈴木敬一郎
スーパーオキシドジスムターゼ 「Key Word. 1995-1996、 癌」(赤沢修吾、塚越 茂、新津洋司郎、編) 154-155 (1995)
先端医学社、東京
19. 藤井順逸、Theingi Myint、谷口直之
老化とアポトーシスー活性酸素中間体の関与する生命反応ー 「実験医学別冊:アポトーシス研究の最前線ーシグナル伝達機構から疾患まで」(三浦昌幸、刀祢重信、木崎治俊、編) 2043-2046 (1995)、羊土社、東京
18. 藤井順逸、Theingi Myint、谷口直之
変異Cu,Zn-SOD の発現と特性 「NOとスーパーオキシド:臓器特性と分子病態」 (井上正康、佐藤英介、谷口直之、浅田浩二、編) 105-112 (1995) 日本アクセルシュプリンガー出版、東京
17. 徐 漢兢、藤井順逸、谷口直之
NO合成酵素-アイソザイムとその特性- 「NOとスーパーオキシド:臓器特性と分子病態」 (井上正康、佐藤英介、谷口直之、浅田浩二編) 19-25 (1995) 日本アクセルシュプリンガー出版、東京
16. 藤井順逸、鈴木敬一郎、谷口直之
スーパーオキシドディスムターゼ(SOD) 「日本臨床」5: 171-175 (1995) 日本臨床社、大阪
15. 谷口直之、藤井順逸
家族性筋萎縮性側索硬化症とCu,Zn-SOD 「 Bio Clinica」45-48 (1995) 北隆館、東京
14. 藤井順逸、谷口直之
癌細胞におけるMn-SODの発現調節とその意義 「フリーラジカルの臨床」(近藤元浩監修) Vol. 9, 33-37 (1995)
日本医学館、東京
13. 藤井順逸、谷口直之
NOSとSODのクロストーク 「実験医学別冊:NO研究の最前線」(江角浩安、渋木克栄、谷口直之編) 100-105 (1995)
羊土社、東京
12. 藤井順逸
セントラルコア病:悪性高熱症の合併(ライアノジンレセプター異常) 「臨床DNA診断法」(古庄敏行、井村裕夫監修、編集、中込弥男、岡田伸太郎、湯浅保二、倉田毅編集) 655-657 (1995) 金原出版、東京
[1994]
11. 藤井順逸
Mn-Superoxide Dismutase (Mn-SOD)の発現調節機構の解析 「活性酸素実験プロトコール:測定法、遺伝子解析、病態生理モデル」 (谷口直之監修) 176-179 (1994) 秀潤社、東京
10. 谷口直之、 藤井順逸、鈴木敬一郎
活性酸素とスーパーオキシドジスムターゼの現在 「実験医学」12, 1603-1609 (1994) 羊土社、東京
9. 藤井順逸、谷口直之
Superoxide Dismutase (SOD): その分子生物学的基礎 「神経精神薬理」16, 145-153 (1994) 星和書店、東京
8. 藤井順逸、谷口直之
筋萎縮性側索硬化症(Amyotrophic Lateral Sclerosis)の起因遺伝子としてのSOD1(Cu,Zn-SOD遺伝子) (谷口直之編)「活性酸素の臨床への展望ーNO(一酸化窒素)とSODー」 p95-98 (1994) 医療ジャーナル社、大阪
7. 藤井順逸、栢木善朗
サイトカインならびに増殖因子によるMn-SOD遺伝子発現の調節機構 (谷口直之編)「活性酸素の臨床への展望ーNO(一酸化窒素)とSODー」 p61-64 (1994) 医療ジャーナル社、大阪
[1993]
6. 藤井順逸
ブタHAL遺伝子の検出: 骨格筋リアノジンレセプタ?遺伝子(RYR1)の点突然変異
Detection of the HAL gene in swine: a point mutation in the skeletal muscle ryanodine receptor gene (RYR1)
「J. Animal Genetics」 21, p56-61 (1993) (CI=9)
5. 谷口直之、藤井順逸、鈴木敬一郎、中田俊之、石川睦男
サイトカインによる抗酸化酵素の発現制御--特にMn-SODの発現--「Biotherapy」 7, p571-576 (1993)
癌と化学療法社、東京
[1992]
4. 藤井順逸、大津欣也
悪性高熱症の遺伝的素因の解析 「細胞工学」11, p764-770 (1992) 秀潤社、東京
3. 藤井順逸、大津欣也
悪性高熱症の遺伝子変異 「生化学, みにれびゅう」p1129-1133 (1992) 日本生化学会、東京
2. 藤井順逸、谷口直之
癌細胞におけるMn-SOD遺伝子発現調節機構 「CRC quarterly」1, p108-115 (1992) 中山書店、東京
[1988]
1. 藤井順逸、門馬正明、多田道彦
ホスホランバンの精製と構造決定 「心筋代謝実験法」 p114-120 (1988) 医歯薬出版、 東京

● 翻訳
3.

Ian F. Tannok, Richard P. Hill eds (4th edition) 谷口直之、大島明、鈴木敬一郎監訳
The Basic Scinece of Oncology 「がんのベーッシックサイエンス(日本語第3版)」(2006) メディカルイサイエンスインターナショナル、東京

2. 谷口直之、藤井順逸 監訳
「生化学アトラス」(1997) 文光堂、東京
1. Ian F. Tannok, Richard P. Hill eds (2nd edition) 谷口直之 監訳
The Basic Scinece of Oncology 「がんのベーッシックサイエンス(日本語第1版)」(1993) メディカルイサイエンスインターナショナル、東京

● 書評
2. 藤井順逸
(仁木鋭雄 他編「酸化ストレスマーカー」, 学会出版センター)
「生化学」 1225-1226 (2005)
日本生化学会
1. 藤井順逸
「活性酸素は身体に良いのか悪いのか?」 (井上正康、編「活性酸素とシグナル伝達:レドックス制御と生物の生存戦略」)
「細胞工学」16:158 (1997)、秀潤社、東京

【シンポジウム・学会・研究会での発表】

● 国際学会でのシンポジウム発表
[2014]
Junichi Fujii (invited spearker)
  Peroxiredoxin 4 Is a Multifunctional Redox Molecule

  Symposium at Konkuk University, Seoul, Korea, July 21, 2014
Junichi Fujii (Lecture)
  "Antioxidation" at Morning School for Beginners 2
  17th Biennial Meeting of the Society for Free Radical Research International, Kyoto, March 23-26, 2014  

[2013]
Junichi Fujii (invited spearker, session co-chair), Toshihiro Kurahashi, Satoshi Tsunoda, Naoko Kimura.
  IMPACT OF OXYGEN CONDITIONS ON THE FATE OF SOD1-DEFICIENT CELLS IN CULTURE.
  6th Biennial Meeting of Society for Free Radical Research-Asia (SFRR-Asia), Oct. 16-19, 2013, Tao-Yuan, Taiwan.  
[2012]
Junichi Fujii
(invited spearker)
  Roles of Peroxiredoxin 4 in ROS Signaling, Oxidative Protein Folding in ER, and Spermatogenesis
  UK-Japan Research Symposium; Molecular Mechanisms of Stress Response in Disease, 6-7 Apr, 2012, Tsukuba, Japan
[2009]
FUJII J(invited speaker), IUCHI Y, OKADA F, TSUNODA S, KIBE N, SHIRASAWA N, IKAWA M, OKABE M, and IKEDA Y
  PEROXIREDOXIN 4 DEFICINECY CAUSES OXIDATIVE STRESS-INDUCED SPERMATOGENIC CELL DEATH
  4th Biennial Meeting of the Society of Free Radical Research, Asia.July 9-12, 2009, Langkawi, Malaysia.
FUJII J(Lecture)
  Are mitochondria-derived ROS indeed foe to embryogenesis?

  SFRR International Free Radical School in Japan, 2009, Sep 2-6, 2009, Echigo Yuzawa, Japan
[2008]
J. FUJII (invited speaker), Y. IUCHI, F.OKADA, R. TAKAMIYA, N. KIBE, S. TSUNODA, O. NAKAJIMA, K. TOYODA, R. NAGAE, M. SUEMATSU, T. SOGA, K. UCHIDA.
  Accelerated Destruction of Erythrocytes and Autoimmune-Related Antibody Production by Elevated Oxidative Stress due   to SOD1 Deficiency.
  Lipide Peroxidation 2008, Karuizawa, 2008, Oct 15-17, Japan
[2007]
FUJII J (invited speaker), IUCHI Y, OKADA F, UCHIDA K,、NAKAJIMA O.
  Oxidative Stress-Induced Autoantibody Production against Erythrocytes in Mice.
  4th Joint Meeting of the Society for Free Radical Research (SFRR) Australasia and Japan, Dec.1-5, Kyoto, Japan
[2006]
Fujii J (invited speaker)
  Elevated oxidative stress in erythrocytes due to SOD1 deficiency triggers autoantibody production.

  Satellite Symposium of IUBMB: “Frontiers in Redox Sciences”, Kyoto,June 24, 2006
[2005]
Fujii J (invited speaker), Iuchi Y, Okada F, Mikami T, Onuma K, Kobayashi M:
  Oxidative stress caused by SOD1-deficiency induces anemia by increasing vulnerability of erythrocytes.
  International Redox Network, Kyoto, Nov 2005

[2004]
Fujii J (invited speaker), Otsu K, Ikeda Y, Sato K, Ohba Y:
  Elucidation of singlet oxygen-induced cell death. XII Biennial Meetin of the Society for Rree Radical
  Research International. Buenos Aires; May 2004
[2003]
Fujii J (invited speaker), Otsu K, Ikeda Y, Sato K, Ohba Y, Imai H, Nakagawa Y:
  A mechanism of cell death induced by singlet oxygen generated from endoperoxides.
   The 1st International Meeting of the Society for Free Radical Research-Asia. Seoul; November 2003
Fujii J (invited speaker) :
  Revisit to glutathione redox system. International Joint Meeting on Food Factors and Free Radicals in .
  Health & Disease Kyoto; December 2003
[2001]
Fujii J (invited speaker):
  Physiological relevance of redox proteins to mammalian reproduction. Joint Scientific Meeting. Societies
  for Free Radical Research Australasia and Japan. Sydney; December 2001
[2000]
Fujii J, Endo T, Fujii T, Sato K, Taniguchi N:
  Significance of conserved metal-binding residues in copper chaperone for SOD1 in the chaperone activity. 
  10th Biennial Meeting of the Society for Free Radical Research International, Kyoto; October 2000
[1996]
Fujii J (invited speaker), Taniguchi N :
  Dysfunction of redox regulation: a common mechanism for apoptotic cell death by nitric oxide and the
  glycation reaction.
  International Symposium on Pathophysiology of Lipid Peroxides and Related Free Radical. Inuyama, Japan,
  November 1996.
[1995]
Fujii J (invited speaker) :
  Glycation and oxidative stress. Nagoya Symposium on AGEs in Diabetes and Renal Failure, Nagoya, Japan,
  September, 1995.
[1993]
Fujii J (invited speaker) :
  Regulation of human Mn-SOD gene expression by cytokines and other factors. VIth International Conference
  on Superoxide and Superoxide Dismutase, Kyoto, Japan,October 1993.


● 国内学会・研究会でのワークショップ・シンポジウム発表・講演
[2016]
藤井順逸
スーパーオキシド再考.
      第32回臨床フリーラジカル会議、京都・烟河、 2016年1月29-30日
藤井順逸:座長
      第1回グルタチオン学術研究会、トラストシティカンファレンス丸の内、東京、 2016年4月28日
[2015]
井順逸, 佐藤英世:グルタチオン生合成を制御するシステイン供給経路.
      第11回 レドックス・ライフイノベーション第170委員会、 鶴岡、 慶應義塾大学先端生命科学研究所メタボロームキャンパス、2015年 8月20-21日
藤井順逸:
 (特別講演)生化学研究と麻酔〜悪性高熱症との出会いから〜.
      第22回山形麻酔懇話会、山形国際ホテル、山形、2015年7月11日
[2014]
藤井順逸、木村直子:(ワークショップ)レドックス応答の破綻による卵子の老化促進
.
      第32回日本受精着床学会総会. ハイアット リージェンシー東京. 東京、2014年7月31日
Junichi Fujii (Symposium), Toshihiro Kurahashi.
      Oxidative protein folding in endoplasmic reticulum as a vulnerabl machinery to oxidativ einsult.
      第87回日本生化学会、京都国際会議場、京都、2014年10月15-18日
  
[2013]
藤井順逸:
(ランチオンセミナー若手研究者からの多数の論文投稿を願って.
      第66回日本酸化ストレス学会、ウインクあいち、名古屋、2013年6月13-14日
[2012]
藤井順逸: Peroxiredoxin-4は細胞局所の過酸化水素を調節することで多様なレドックス制御を担う.
      第38回日本応用酵素研究会.大阪;2012年11月19日
 
藤井順逸:Peroxiredoxin 4 (Prx4)の多様な作用
      産業医科大学セミナー. 北九州;2012年12月14日
 

[2011]
藤井順逸(シンポジウム): 「赤血球を酸化ストレスによるレドックスバランスの破綻から護る抗酸化機構」
      第64回日本酸化ストレス学会、ルスツ(北海道)、2011年7月
藤井順逸(
特別講演):「活性酸素のもつ二面性:生体傷害と細胞増殖・老化の制御」
      第12回Vitamemebrane研究会、東京2011年7月
[2010]

藤井順逸(特別講演):「ぺルオキシレドキシンによる抗酸化と活性酸素シグナルの制御.」
      第27回臨床フリーラジカル会議 2010年12 月
藤井順逸(ワークショップ):「Prx4の抗酸化活性による活性酸素シグナルの制御」 
      第33回日本分子生物学会第83回日本生化学合同年会. 2010年12月、神戸
[2009]
藤井順逸、井内良仁、岡田太高宮里奈末松誠曽我朋義シンポジウム
      「赤血球メタボロミクスによる酸化ストレス応答解析」 第4回 メタボロームシンポジウム、 横浜 2009年11月

[2008]
藤井順逸シンポジウム:「赤血球の酸化ストレスと老化・疾患」APPI Anti-aging Club 2008年3月
[2007]
藤井順逸:「赤血球酸化に起因する疾患のモデルマウスを用いた解明」 第4回分子生体膜研究会学術フロンティアセミナー.
      東北薬科大学仙台, 2007年5月
藤井順逸シンポジウム:「活性酸素は老化の原因となるか」生命環境医科学専攻完成記念シンポジウム、山形;
2007年3月
藤井順逸:「SOD1欠損マウスの病態と酸化ストレス」 レドックス生命科学170委員会 第18回研究会. 山形;2007年8月
藤井順逸シンポジウム:「精子形成に関わる抗酸化・レドックス制御系」 平成19年度 日本生化学会近畿支部会シンポジウム,
      大阪;2007年
9月

藤井順逸、井内良仁、岡田太、中島修 (ワークショップ):「SOD1-KOマウスは酸素毒性による赤血球脆弱性・自己抗体産生などの異常な表現型を示す」第80回生化学会・第30回分子生物学合同年会 横浜12月
[2006]
藤井順逸:SOD1欠損マウスの解析から明らかになった活性酸素に起因する疾患、『21世紀COEプログラム山形大学医学部
   公開講演会』山形;2006年4月

[2005]
藤井順逸:活性酸素と細胞死:カスパーゼ経路抑制による不完全なアポトーシスの誘導、『岩手医科大学オープン・リサーチ 
   特別講演』盛岡;2005年7月

[2004]

藤井順逸: 「活性酸素の病態生化学」 (社)山形県臨床衛生検査技師会生物化学分析部門 第2回研修会山形2004年7月
[2003]
藤井順逸シンポジウム:神経疾患・老化の原因としての活性酸素、『市民公開講座「もの忘れシンポジウム」』、山形;2003年10月
[2002]
藤井順逸:「一重抗酸素によるアポトーシスの制御」 大学院研究セミナー,岩手医科大学,盛岡,2002年8月
[2001]

藤井順逸シンポジウム:「抗酸化・レドックス系による活性酸素からの防御機構」 第24回北陸呼吸器シンポジウム,金沢;2001年2月
[2000]
藤井順逸:「レドックス調節における抗酸化酵素の役割」第73回日本生化学会大会,横浜;2000年10月
藤井順逸:「生体防御における酸化還元(レドックス)系とその役割」 第64回分子生物学フォーラム,秋田大学, 秋田,
  2000年6月

藤井順逸:レドックス酵素の活性制御と新たな役割の可能性.筑波大学分子生物学セミナー,筑波;2000年11月
[1999]
藤井順逸,谷口直之:「活性酵素によるアポトーシスにおけるレドックス制御系の役割」 第20回日本炎症学会,
  仙台;1999年7月
藤井順逸,谷口直之:「細胞死における抗酸化酵素およびレドックス酵素系の役割」 第72回A日本生化学会,
  横浜;1999年10月
[1998]
藤井順逸、谷口直之:「NOによるアポトーシス」 第14回フリーラジカル会議。京都、1998年2月
藤井順逸:「活性酸素障害とその対策」 第5回日本血液代替物学会。札幌、1998年8月
藤井順逸:「フルクトース糖化タンパク質の生理作用」 公開セミナー:糖鎖の新しい生理活性、東京、1998年11月
[1997]
藤井順逸、谷口直之:スーパーオキシドディスムターゼと老化。第70回日本薬理学会大会:舟橋、1997年3月
藤井順逸、谷口直之:酸化ストレス下におけるグルタチオンペルオキシダーゼとNO。第50回日本細胞生物学会大会。  
  横浜、1997年9-10月
藤井順逸、谷口直之:NOによる細胞死の分子メカニズム。第18回日本炎症学会、東京、1997年11月
[1996]
藤井順逸:SOD1の変異による筋萎縮性側索硬化症の発症機構。第12回フリーラジカル会議。京都、1996年2月
藤井順逸、谷口直之:NOとSODのクロストークとレドックス制御。第17回日本炎法 学会。東京、1996年9月
藤井順逸、谷口直之:NOによる細胞障害と誘導型NOSの発現制御。第69回日本生化学 会大会、第19回日本分子
  生物学会大会札幌、1996年8月
藤井順逸、谷口直之:酸素ラジカルの基礎。第16回千里セミナー:注目される血管作動物質。吹田、1996年8月
[1995]
藤井順逸、Theingi Myint、谷口直之: Cu,Zn-SOD遺伝子変異と筋萎縮性側索硬化症。平成7年度日本生化学会近畿
  支部シンポジウム?活性酸素シグナルによる生体制御。大阪、1995年12月
[1994]
藤井順逸:がん細胞におけるMn-SODの発現。第10回フリーラジカル会議、京都、1994年2月
藤井順逸、Theingi Myint、谷口直之:変異Cu,Zn-SODの発現と特性。第5回SODフォーラム。大阪、1994年9月
[1993]
藤井順逸、谷口直之:SODの分子生物学、機能。新潟神経内科シンポジウム'93。新潟、1993年10月
[1991]
藤井順逸、谷口直之:サイトカインおよびホルボールエステルによるMn-SOD遺伝子発現の誘導機構。大阪大学蛋白研
  セミナー。吹田、1991年10月


【その他】

 
[2013]
1)  藤井順逸 (ランチオンセミナー若手研究者からの多数の論文投稿を願って.
第66回日本酸化ストレス学会、ウインクあいち、名古屋、2013年6月13-14日
 
[2012]  
1)  Junichi Fujii:
Current Issues in Redox Biology,
Seminer, Nagoya University, 2012 Oct 12
2)  藤井順逸:
Peroxiredoxin 4 (Prx4)の多様な作用.
産業医科大学, 2012, Dec 12   
[2011]  
1) 藤井順逸(特別講演):「活性酸素のもつ二面性:生体傷害と細胞増殖・老化の制御」
12回Vitamemebrane研究会、東京2011年7
2)  藤井順逸(シンポジウム): 「赤血球を酸化ストレスによるレドックスバランスの破綻から護る抗酸化機構」
第64回日本酸化ストレス学会、ルスツ(北海道)、2011年7月
 
[2010] 
1)  藤井順逸: 哺乳動物生殖の酸化ストレス傷害とレドックス制御.
第12回山形大学生命・環境科学交流セミナー
2010年11月、鶴岡
2)  藤井順逸(特別講演):ぺルオキシレドキシンによる抗酸化と活性酸素シグナルの制御.
第27回臨床フリーラジカル会議「抗酸化剤、抗酸化機構の新たな展開. 2010年12 月
[2008]
1) 藤井順逸:「赤血球の酸化ストレスと老化・疾患」APPI Anti-aging Club 2008年3
[2007]
1) 藤井順逸:「遺伝子生物学基礎」バイオテクノロジー入門、第6回理科教員のための組換えDNA実験研修、山形;2006年8月
2) 藤井順逸:「活性酸素は老化の原因となるか」生命環境医科学専攻完成記念シンポジウム、山形;2007年3月
3) 藤井順逸:「赤血球酸化に起因する疾患のモデルマウスを用いた解明」 
第4回分子生体膜研究会学術フロンティアセミナー. 東北薬科大学仙台, 2007年5月
[2006]
1) 藤井順逸:SOD1欠損マウスの解析から明らかになった活性酸素に起因する疾患、21世紀COEプログラム山形大学医学部公開講演会 山形;2006年4月
2) 藤井順逸:「遺伝子生物学基礎」バイオテクノロジー入門、第5回理科教員のための組換えDNA実験研修、山形;2006年8月
[2005]
1) 藤井順逸:活性酸素からの防御に働く遺伝子、山形大学理学部公開講座「健康と長生きの先端科学」、山形;2005年6月
2)

藤井順逸:活性酸素と細胞死:カスパーゼ経路抑制による不完全なアポトーシスの誘導、岩手医科大学オープン・リサーチ 特別講演』盛岡;2005年7月

3) 藤井順逸:「遺伝子生物学基礎」バイオテクノロジー入門、第4回理科教員のための組換えDNA実験研修、山形;2005年8月
[2004]
1) 藤井順逸:活性酸素の病体生化学、山形県臨床衛生検査技師会第2回研修会、山形;2004年7月
2) 藤井順逸:「遺伝子生物学基礎」バイオテクノロジー入門、第3回理科教員のための組換えDNA実験研修、山形;2004年8月
[2003]
1) 藤井順逸:「遺伝子生物学基礎」バイオテクノロジー入門、第2回理科教員のための組換えDNA実験研修、山形;2003年8月
2) 藤井順逸:神経疾患・老化の原因としての活性酸素、市民公開講座「もの忘れシンポジウム」、山形;2003年10月
[2002]
1) 藤井順逸:活性酵素傷害と老化、岩手医科大学講義、盛岡;2002年8月
2) 藤井順逸:活性酵素による老化促進の基礎、平成14年度山形大学公開講座 加齢に伴う病気:基礎と臨床、山形;2002年10月
3) 藤井順逸:「遺伝子生物学基礎」バイオテクノロジー入門、第1回理科教員のための組換えDNA実験研修、山形;2002年12月
[2001]
1) 藤井順逸:遺伝子発現制御機構、大阪大学医学部生化学講義、大阪;2001年11月
[2000]
1) 藤井順逸:活性酸素から身を護る.秋田大学医学部生化学講義,秋田;2000年6月
2) 藤井順逸:レドックス酵素の活性制御と新たな役割の可能性.筑波大学分子生物学セミナー,筑波;2000年11月



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