研究業績
 

<原著論文>

最近の細胞性粘菌に関するもの

太字はラボのメンバー或はメンバーだった人です。


1. Kawata, T., Steel, J.B. and Williams, J.G. (1996)

RNGB: a Dictyostelium RING finger protein that is specifically located in maturing spore cells. FEBS Lett., 386, 103-109.

 

2. Kawata, T., Early, A. and Williams, J. (1996)

Evidence that a combined activaor-repressor protein regulates Dictyostelium stalk cell differentiation. EMBO J., 15, 3085-3092.


3. Zhukovskaya, N., Early, A., Kawata, T., Abe, T. and Williams, J. (1996)

cAMP-dependent protein kinase is required for the expression of a gene specifically expressed in Dictyostelium prestalk cells. Dev. Biology, 179, 27-40.

 

4. Kawata, T., Shevchenko, A., Fukuzawa, M., Jermyn, K.A., Totty, N.F., Zhukovskaya, N.V. Sterling, A.E., Mann, M. and Williams, J.G. (1997)

SH2 signalling in a lower eukaryote: a STAT protein that regulates stalk cell differentiation in Dictyostelium. Cell, 89, 909-916.

 

5. Araki, T., Gamper, M., Early, A., Fukuzawa, M., Abe, T., Kawata, T., Kim, E., Firtel, R.A. and Williams, J. (1998)

Developmentally and spatially regulated activation of a Dictyostelium STAT protein by a serpentine receptor. EMBO J., 17, 4018-4028.


6. Mohanty, S., Jermyn, K.A., Early, A. Kawata, T., Aubry, L., Ceccarelli, A., Schaap, P., Williams, J.G. and Firtel, R.A. (1999)

Evidence that the Dictyostelium Dd-STATa protein is a repressor that regulates commitment to stalk cell differentiation and is also required for efficient chemotaxis. Development, 126, 3391-3405.

 

7. Ceccarelli, A., Zhukovskaya, N., Kawata, T., Bozzaro, S. and Williams, J. (2000)  

Characterisation of a DNA sequence element that directs Dictyostelium stalk cell-specific gene expression. Differentiation, 66, 189-196.

 

8. Zhukovskaya, N.V., Fukuzawa, M., Tsujioka, M., Jermyn, K.A., Kawata, T., Abe, T., Zvelebil, M. and Williams, J. G. (2004)

Dd-STATb, a Dictyostelium STAT protein with a highly aberrant SH2 domain, functions as a regulator of gene expression during growth and early development. Development, 131, 447-458.

 

9. Kawata, T., Nakagawa, M., Shimada, N., Fujii, S. and Oohata, A.A. (2004) 

A gene encoding prespore-cell-inducing factor in Dictyostelium discoideum. Develop. Growth & Differ., 46, 383-392.


10. Shimada, N., Nishio, K., Maeda, M., Urushihara, H. and Kawata, T. (2004)  

Extracellular matrix family proteins that are potential targets of Dd-STATa in Dictyostelium discoideum. J. Plant Res., 117, 345-353.

 

11. Shimada, N., Maeda, M., Urushihara, H. and Kawata, T. (2004)

Identification of new modes of Dd-STATa regulation of gene expression in Dictyostelium by in situ hybridisation. Int. J. Dev. Biol., 48, 679-682.

 

12. Shimada, N., Maruo, T., Maeda, M., Urushihara, H. and Kawata, T. (2005) 

Evidence that the Dictyostelium STAT protein Dd-STATa plays a role in the differentiation of inner basal disc cells and identification of a promoter element essential for expression in these cells. Differentiation, 73, 50-60.

 

13. Aoshima, R.*, Hiraoka, R.*, Shimada, N.* and Kawata, T. (2006)

Analysis of a homologue of the adducin head gene which is a potential target for the Dictyostelium STAT protein Dd-STATa. Int. J. Dev. Biol., 50, 523-532.

(*These authors contributed equally.)


14. Shimada, N. and Kawata, T. (2007)

Evidence that non-coding RNA dutA is a multicopy suppressor of Dictyostelium STAT protein, Dd-STATa.  Eukaryotic Cell, 6, 1030-1040.

 

15. Sunaga, N., Monna, M., Shimada, N., Tsukamoto, M. and Kawata, T. (2008)

Expression of zinc transporter family genes in Dictyostelium. Int. J. Dev. Biol., 52, 377-381.

 

16. Shimada, N., Kanno-Tanabe, N., Minemura, K. and Kawata, T. (2008)

GBF-dependent family genes morphologically suppress the partially active Dictyostelium STATa strain. Dev. Genes Evol., 218, 55-68.

 

17. Ogasawara, S., Shimada, N. and Kawata, T. (2009)

Role of an expansin-like molecule in Dictyostelium morphogenesis and regulation of its gene expression by the STAT protein Dd-STATa. Develop. Growth & Differ. 51, 109-122.

  

18. Yamada, Y. Minamisawa, H., Fukuzawa, M., Kawata, T. and Oohata, A.A. (2010)

The prespore cell inducing factor, psi factor (PsiA), controls both prestalk and prespore gene expression in Dictyostelium discoideum. Develop. Growth & Differ. 52, 377-383.


19. Shimada, N., Inouye, K., Sawai, S. and Kawata, T. (2010)

SunB, a novel SUN domain-containing protein required for development of Dictyostelium discoideum. Develop. Growth & Differ. 52, 577-590.


20. Kawata, T., Hirano, T., Ogasawara, S., Aoshima, R. and Yachi, A. (2011)

Evidence for a functional link between Dd-STATa and Dd-PIAS, a Dictyostelium PIAS homologue. Develop. Growth & Differ. 53, 897-909.


21. Araki, T., Kawata, T. and Williams, J.G. (2012)

Identification of the kinase that activates a non-metazoan STAT gives insights the evolution of phosphotyrosine-SH2 domain signaling. Proc. Natl. Acad. Sci. U.S.A. 109, E1931-E1937.


22. Kunii, M., Yasuno, M., Shindo, Y. and Kawata, T. (2014)

A Dictyostelium cellobiohydrolase  that affects developmental timing.

Dev. Genes Evol., 224, 25-35.


23. Araki, T., Vu, L.H. Sasaki, N., Kawata, T., Eichinger, L. and Williams, J.G. (2014)
Two
Dictyostelium tyrosine kinase-like kinases function in parallel, stress-induced STAT activation pathways. Mol. Biol. Cell, 25, 3222-3233.


24. Kawata, T., Nakamura, Y., Saga, Y., Iwade, Y., Ishikawa, M., Sakurai, A. and Shimada, N.   (2015)

Implications of expansin-like 3 gene in Dictyostelium morphogenesis. SpringerPlus, 4, 190.


25. Saga, Y., Inamura, T., Shimada, N. and Kawata, T. (2016)

Regulation of ecmF gene expression and genetic hierarchy among STATa, CudA, and MybC on several prestalk A-specific gene expressions in Dictyostelium. Develop. Growth & Differ. 58, 383-399. Young Investigator Paper Award 2017を受賞


  1. 26.Saga, Y., Iwade, Y., Araki, T., Ishikawa, M. and Kawata, T. (2019)

Analysis of DrkA kinase’s role in STATa activation. Genes Cells, 24, 422-135.


27. Bodinier, R., Leiba, J., Sabra, A., Jauslin, T.N., Lamrabet, O., Guilhen, C., Marchetti, A.,  Iwade, Y., Kawata, T., Lima, W.C. and Cosson, P. (2020)

LrrkA, a kinase with leucine-rich repeats links folate sensing with Kil2 activity and intracellular killing. Cell. Microbiol. 22, e13129.


28. Bodinier, R., Sabra, A., Leiba, J., Marchetti, A., Lamrabet, O., Ayadi, I., Filic, V., Kawata, T., Weber, I. and Cosson, P. (2021)

Role of LrrkA in the control of phagocytosis and cell motility in Dictyostelium discoideum. Front. Cell Dev. Biol. Article 629200.


29. Yamada, Y., Forbes, G., Du, Q., *Kawata, T. and *Schaap, P. (2021)

Loss of PIKfyve causes transdifferentiation of Dictyostelium spores into basal disc cells. Front. Cell Dev. Biol. Article 692473.




植物関連の原著論文

1. Yoshida, S., Kawata, T., Uemura, M. and Niki, T. (1986)

Properties of plasma membrane isolated from chilling-sensitive etiolated seedlings of Vigna radiata  L..  Plant Physiol., 80, 152-160.


2. Yoshida, S., Kawata, T., Uemura, M. and Niki, T. (1986)

Isolation and characterization of tonoplast from chilling-sensitive etiolated seedlings of Vigna radiata  L..  Plant Physiol., 80, 161-166.


3. Mikami, K., Tabata, T., Kawata, T., Nakayama, T. and Iwabuchi, M. (1987)

Nuclear protein(s) binding to the conserved DNA hexameric sequence postulated to regulate transcription of wheat histone genes. FEBS Lett. 223, 273-278.


4. Kawata, T., Nakayama, T., Mikami, K., Tabata, T., Takase, H. and Iwabuchi, M. (1988)

DNA-binding protein(s) interacts with a conserved nonameric sequence in the upstream region of wheat histone genes.  FEBS Lett., 239, 319-323.


5. Yoshida, S. and Kawata T. (1988)

Isolation of smooth endoplasmic reticulum and tonoplast from mung bean hypocotyls (Vigna radiata  [L.] Wilczek) using a Ficoll gradient and two-polymer phase partition.  Plant Cell Physiol., 29, 1391-1397.


6. *Kawata, T. and Yoshida, S. (1988)

Characterization of ATPases associated with various cellular membranes isolated from hypocotyls of Vigna radiata (L.) Wilczek.  Plant Cell Physiol., 29, 1399-1410.


7. *Kawata, T. and Yoshida, S. (1988)

Alterations in protein synthesis in vivo in chilling sensitive mung bean hypocotyls caused by chilling stress.  Plant Cell Physiol., 29, 1423-1427.


8. Kawata, T., Nakatsuka, A., Tabata, T. and Iwabuchi, M. (1989)

Function of the hexameric sequence in the cauliflower mosaic virus 35S RNA promoter region.  Biochem. Biophysic. Res. Commun., 164, 387-397.


9. Mikami, K., Nakayama, T., Kawata, T., Tabata, T. and Iwabuchi, M. (1989) 

Specific interaction of nuclear protein HBP-1 with the conserved hexameric sequence ACGTCA in the regulatory region of wheat histone genes. Plant Cell Physiol., 30, 107-119.


10. Nakayama, T., Ohtsubo, N., Mikami, K., Kawata, T., Tabata, T., Kanazawa, H. and Iwabuchi, M (1989) 

Cis-acting sequences that modulate transcription of wheat histone H3 gene and 3' processing of H3 premature mRNA. Plant Cell Physiol., 30, 825-832.


11. Yokota, Y., Kawata, T., Iida, Y., Kato, A. and Tanifuji, S. (1989) 

Nucleotide sequences of the 5.8S rRNA gene and internal transcribed spacer in carrot and broad bean ribosomal DNA.  J. Mol. Evol., 29, 294-301.


12. Tabata, T., Takase, H., Takayama, S., Mikami, K., Nakatsuka, A., Kawata, T., Nakayama, T. and Iwabuchi, M. (1989)

A protein that binds to a cis-acting element of wheat histone genes has a leucine zipper motif.  Science, 245, 965-967.


13. Kawata, T., Imada, T., Shiraishi, H., Okada, K., Shimura, Y. and Iwabuchi, M (1992)

A cDNA clone encoding HBP-1b homologue in Arabidopsis thaliana. Nucl. Acids Res., 20, 1141.


14. Kawata, T., Minami, M., Tamura, T., Sumita, K. and Iwabuchi, M. (1992) 

Isolation and characterization of cDNA clone encoding TATA-box binding protein (TFIID) from wheat.  Plant Mol. Biol., 19, 867-872.


 

  <著書>

. 川田健文 三上浩司、中山卓哉、多羽田哲也、岩淵雅樹 (1989)   植物ヒストン遺伝子の転写発現調節。 In「最新植物バイオテクノロジー要覧」(山口彦之編),  pp68-84.  R&D プランニング社.

. 川田健文. (1992)  リポーター遺伝子を用いた解析。 −ラボマニュアル−植物遺伝子の機能解析 (岩淵雅樹・志村令郎編), pp73-80、丸善.

 

 

<総説>

1. 川田健文 (1998) 転写因子と細胞分化—STATの細胞性粘菌における役割— 

   蛋白質 核酸 酵素 43, 825-833.

2. Kawata, T., Nakayama, T., Ohtsubo, N., Tabata, T. and Iwabuchi, M. (1990)

  Cell cycle-regulated gene expression in transgenic plant cells. Dev. Genet.,11, 205-213.

3. 三上浩司、中山卓哉、川田健文、中塚篤司、多羽田哲也、岩淵雅樹 (1989)

 植物細胞の周期依存性発現遺伝子の制御─ヒストン遺伝子を中心に─. 

  蛋白質 核酸 酵素, 34, 1113-1124. 

4. 岩淵雅樹、多羽田哲也、三上浩司、川田健文 中山卓哉  (1987) 

 細胞周期に依存する遺伝子転写発現制御系.  蛋白質 核酸 酵素, 別冊 No. 30, 

    207-216.

5. Kawata, T. (2011) STAT signaling in Dictyostelium development. Develop. Growth & Differ.  53, 548-557.

 


<おまけ>

1. 川田健文(2004)「粘菌ってなにもの?」先端シンポジウム植物科学の新展開ー分子から群集まで広視野研究をめざすー要旨集 pp 69-74.

 恩師である吉田静夫北海道大学名誉教授の古希を祝ってかつての門下生が一堂に会して本格的なシンポジウムを行ったときの記念要旨集への寄稿。

 

 

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