研究成果

2019

Funayama N & Frank U..
Meeting report on At the Roots of Bilaterian Complexity: Insight from Early Emaerging metazoansTutzing (Germany) Septmber 16-19, 2019.
BioEssays, Early veiw: (2019).
DOI:10.1002/bies.201900236.
Kishimoto K, Sugano-Yasunaga W, Taniguchi A. Agata K, Nonaka S. Funayama N.
Skeleton construction upon local regression of the sponge body.
Dev. Growth Differ, 61:, 485-500 (2019).
DOI:10.1111/dgd.12636.
Funayama N.
Produce, Carry/position, and Connect: Morphogenesis Using Rigid Materials.
Current Opinion in Genetics and Development, 57:, 91-97 (2019).
DOI:https://doi.org/10.1016/j.gde.2019.08.001.

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2018

Funayama N.
The cellular and molecular bases of the sponge stem cell systems underlying reproduction, homeostasis and regeneration.
Int J Dev Biol., 62:, 6,7,8, 513-525 (2018).
DOI:http://dx.doi.org/10.1387/ijdb.180016nf.
Fukutomi Y, Matsumoto K, Agata K, Funayama N, Koshikawa S.
Pupal development and pigmentation process of a polka-dotted fruit fly, Drosophila guttifera (Insecta, Diptera).
Dev Genes Evol. , 227:, 3, 171-180 (2018).
DOI:10.1007/s00427-017-0578-3.

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2016

Pena JF, Alie A, Richter DJ, Wang L, Funayama N, and Nicholas, SA.
Conserved expression of vertebrate microvillar gene homologs in choanocytes of freshwater sponges.
EvoDevo, 7:, 13 (2016).
DOI:10.1186/s13227-016-0050-x.

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2015

Alie A, Hayashi T, Sugimura I, Manuel M, Sugano W, Mano A, Satoh N, Agata K and Funayama N.
The ancestral gene repertoire of animal stem cells.
Proc. Natl. Acad. Sci., 112:, 5, E7093-E7100 (2015).
DOI:https://doi.org/10.1073/pnas.1514789112,
カイメンが明らかにした幹細胞の起源的な分子基盤
近藤滋, 船山典子
工務店細胞が「建設」する深海のスカイツリー
細胞工学 こんどうしげるの生命科学の明日はどっちだ!?, 34:, 11, 1096-1103 (2015).
工務店細胞が「建設」する深海のスカイツリー
Nakayama S, Arima K, Kawai K, Mohri K, Inui C, Sugano W, Koba H, Tamada K, Nakata YJ, Kishimoto K, Arai-Shindo M, Kojima C, Matsumoto T, Fujimori T, Agata K, and Funayama N.
Dynamic transport and cementation of skeletal elements build up pole-and-beam structured skeleton of sponges.
Current Biology, 25:, 2549-2554 (2015).
京都大学HPに掲載されています
ネーチャー誌リサーチハイライトNature Research Highlights Cell pressの記者による紹介EurekAlert! ナショナルジオグラフィック公式ブログ:https://www.nationalgeographic.com/science/phenomena/2015/09/17/the-surprisingly-complicated-construction-work-of-simple-sponges/ Phys.orgPhys.org

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2014

Bosch TC, Adamska M, Augustin R, Domazet-Loso T, Foret S, Fraune S, Funayama N, Grasis J, Hamada M, Hatta M, Hobmayer B, Kawai K, Klimovich A, Manuel M, Shinzato C, Technau U, Yum S, Miller DJ.
How do environmental factors influence life cycles and development? An experimental framework for early-diverging metazoans.
Bioessays, 36:, 1185-1194 (2014).
Sakamaki K, Shimizu K, Iwata H, Imai K, Satou Y, Funayama N, Nozaki M, Yajima M, Nishimura O, Higuchi M, Chiba K, Yoshimoto M, Kimura H, Gracey AY, Shimizu T, Tomii K, Gotoh O Akasaka K, Sawasaki T, Miller DJ.
The Apoptotic Initiator Caspase-8: Its Functional Ubiquity and Genetic Diversity during Animal Evolution.
Mol. Biol. Evol., 31:, 12, 3282-3301 (2014).

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2013

Funayama N.
The stem cell system in demosponges: suggested involvement of two types of cells: archeocytes (active stem cells) and choanocytes (food-entrapping flagellated cells).
Dev Genes. Evol, 223:, 23-38 (2013).
DOI:10.1007/s00427-012-0417-5.

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2012

船山典子
カイメンの花模様が教えてくれたこと
細胞工学 一枚の写真館, 31:, 975 (2013).
in Japanese.
Okamoto K, Nakatsukasa M, Alie A, Masuda Y, Agata A, and Funayama N.
The active stem cell specific expression of sponge Musashi homolog EflMsiA suggests its involvement in maintaining the stem cell state.
Mec. Dev, 129:, 24-37 (2012).
DOI:10.1016/j.mod.2012.03.001.

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2011

船山典子
動物の多細胞化を知る手がかり
生命誌年刊号 70:, 154-160 (2011).70 Reserch
Web版には骨片骨格形成のことも載っています

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2010

Funayama N, Nakatsukasa M, Mohri K, Masuda Y, and Agata K.
Piwi expression in archeocytes and choanocytes in demosponges: Insights into the stem cell system in demosponges.
Evo &Dev, 12:, 275-287 (2010).
DOI:10.1111/j.1525-142X.2010.00413.x.
Funayama N.
The stem cell system in sponges: Insights into the origin of somatic stem cells review article.
Dev. Growth Differ, 52:,1-14 (2010).
DOI:10.1111/j.1440-169X.2009.01162.x.

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2009

船山典子
幹細胞システムの起源と進化(The origin and evolution of stem cell system in multicellular animals).
蛋白質核酸酵素(PNE) short review, 54:, 1856-1863 (2009).
Egger B, Steinke D, Tarui H, De Mulder K, Arendt D, Borgonie G, Funayama N, Gschwentner R, Hartenstein V, Hobmayer B, Hooge M, Hrouda M, Ishida S, Kobayashi C, Kuales G, Nishimura O, Pfister D, Rieger R, Salvenmoser W, Smith J, Technau U, Tyler S, Agata K, Salzburger W, Ladurner P.
To Be or not to Be a Flatworm: The Acoel Controversy..
PLoS ONE, 4:, 5, e5502 (2009).
船山典子・益田芳樹・毛利蔵人
伊豆沼・内沼研究報告書(Izunuma-Uchinuma wetland researches), 3:, 41-47 (2009).

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2008

Mohri K, Nakatsukasa M, Masuda Y, Agata K, Funayama N.
Towards understanding the morphogenesis of siliceous spicules in freshwater sponge: Differential expression of spicule-type-specific silicatein genes in Ephydatia fluviatilis.
Dev. Dyn, 237:, 3024-3039 (2008).
Funayama N.
Stem cell system of sponge.
Stem Cells, p 17-35 (2008).
Thomas G Bosh editor. From Hydra To Man Springer

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2007

Miller DJ, Hemmrich G, Ball EE, Hayward DC, Khalturin K, Funayama N, Agata K, Bosch TC.
The innate immune repertoire in Cnidaria - ancestral complexity and stochastic gene loss.
Genome Biol. Apr 16, 8:, 4, R59 (2007).

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2006

Agata K, Nakajima E, Funayama N, Shibata N, Saito Y, Umesono Y.
Two different evolutionary origins of stem cell systems and their molecular basis.
Semin Cell Dev Biol, 17:, 4, 503-9 (2006).

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2005

Funayama N, Nakatsukasa M, Kuraku S, Takechi K, Dohi M, Iwabe N, Miyata T, Agata K.
Isolation of Ef silicatein and Ef lectin as molecular markers for sclerocytes and cells involved in innate immunity in the fresh water sponge, Ephydatia fluviatilis.
Zoological Science, 22:, 1113-1122 (2005).
Funayama N, Nakatsukasa M, Hayashi T, Agata K.
Isolation of the choanocyte in the fresh water sponge, Ephydatia fluviatilis and its lineage marker, Ef annexin.
Dev. Growth Differ, 47:, 243-254 (2005).