biology and biotechnology

(やまだぃちぅ) #1

PUBLICATION(S)


Kakikawa M, Yamamoto T, Chowdhury VS, et al. Determination of calcium sensing receptor in
the scales of goldfish and induction of its mRNA expression by acceleration loading. Biological
Sciences in Space. 2012;26:26-31. doi: 10.2187/bss.26.26.


Omori K, Wada S, Maruyama Y, et al. Prostaglandin E 2 increases both osteoblastic and
osteoclastic activity in the scales and participates in calcium metabolism in goldfish. Zoological
Science. August 2012;29(8):499-504. doi: 10.2108/zsj.29.499.


Thamamongood TA, Furuya R, Fukuba S, Nakamura M, Suzuki N, Hattori A. Expression of
osteoblastic and osteoclastic genes during spontaneous regeneration and autotransplantation
of goldfish scale: A new tool to study intramembranous bone regeneration. Bone. June
2012;50(6):1240-1249. doi: 10.1016/j.bone.2012.03.021.


Yano S, Masuda D, Kasahara H, et al. Excellent thermal control ability of cell biology experiment
facility (CBEF) for ground-based experiments and experiments onboard the Kibo Japanese
Experiment Module of International Space Station. Biological Sciences in Space. 2012;26:12-20.
doi: 10.2187/bss.26.12.


Suzuki N, Danks JA, Maruyama Y, et al. Parathyroid hormone 1 (1–34) acts on the scales and
involves calcium metabolism in goldfish. Bone. May 2011;48(5):1186-1193. doi:
10.1016/j.bone.2011.02.004.


Kitamura K, Suzuki N, Satoh Y, et al. Osteoblast activity in the goldfish scale responds sensitively
to mechanical stress. Comparative Biochemistry and Physiology Part A: Molecular and
Integrative Physiology. July 2010;156(3):357-363. doi: 10.1016/j.cbpa.2010.03.002.


Suzuki N, Kitamura K, Omori K, et al. Response of osteoblasts and osteoclasts in regenerating
scales to gravity loading. Biological Sciences in Space. 2009;23(4):211-217. doi:
10.2187/bss.23.211.


Suzuki N, Omori K, Nakamura M, et al. Scale osteoblasts and osteoclasts sensitively respond to
low-gravity loading by centrifuge. Biological Sciences in Space. 2008;22(1):3-7. doi:
10.2187/bss.22.3.


Suzuki N, Somei M, Kitamura K, Reiter RJ, Hattori A. Novel bromomelatonin derivatives
suppress osteoclastic activity and increase osteoblastic activity: Implications for the treatment
of bone diseases. Journal of Pineal Research. April 2008;44(3):326-334. doi: 10.1111/j.1600-
079X.2007.00533.x.


Suzuki N, Somei M, Seki A, Reiter RJ, Hattori A. Novel bromomelatonin derivatives as potentially
effective drugs to treat bone diseases. Journal of Pineal Research. October 2008;45(3):229-234.
doi: 10.1111/j.1600-079X.2008.00623.x.

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