Atsuo Iida, phD

I'm trying to solve various biological interests using fish.

Please refer my Google sites about profile and activities.

Iida A, Sakaguchi K, Sato K, Sakurai H, Nishimura D, Iwaki A, Takeuchi M, Kobayashi M, Misaki K, Yonemura S, Kawahara A, Sehara-Fujisawa A.
Metalloprotease-Dependent Onset of Blood Circulation in Zebrafish.
Current Biology 20 (2010) 1110-1116.

Iida A, Shimada A, Shima A, Takamatsu N, Hori H, Takeuchi K, Koga A.
Targeted reduction of the DNA methylation level with 5-azacytidine promotes excision of the medaka fish Tol2
Genetical Research 87 (2006) 187-193.

Koga A, Iida A, Hori H, Shimada A, Shima A.
Vertebrate DNA Transposon as a Natural Mutator: The Medaka Fish Tol2 Element Contributes to Genetic Variation without Recognizable Traces.
Molecular biology and evolution 23 (2006) 1414-1419.

Iida A, Takamatsu N, Hori H, Wakamatsu Y, Shimada A, Shima A, Koga A.
Reversion mutation of i b oculocutaneous albinism to wild-type pigmentation in medaka fish.
Pigment Cell Research 18 (2005): 382-384.

Iida A, Inagaki H, Suzuki M, Wakamatsu Y, Hori H, Koga A.
The tyrosinase gene of the i b albino mutant of the medaka fish carries a transposable element insertion in the promoter region.
Pigment Cell Research 17 (2004): 158-164.

Iida A, Tachibana A, Hamada S, Hori H and Koga A.
Low transposition frequency of the medaka fish Tol2 transposable element. element may be due to extranuclear localization of its transposase.

Genes Genetics Systems 79 (2004): 119-124.

Koga A, Iida A, Kamiya M, Hayashi R, Hori H, Ishikawa Y, Tachibana A.
The medaka fish Tol2 transposable element can undergo excision in human and mouse cells.
Journal of Human Genetics 48 (2003): 231-235.

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