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福建农林大学园艺植物生物学及代谢组学研究中心导师教师师资介绍简介-古谷将彦教授,博士生导师

本站小编 Free考研考试/2021-05-14

古谷将彦
教授,博导、硕导
联系地址:
福建农林大学海峡联合研究院福州350002
Email:ma-furut@fafu.edu.cn
学习及工作经历:
教育、工作经历:
2017-至今福建农林大学海峡联合研究院教授
2016-2017 日本名古屋大学助理教授
2014-2016 日本奈良先端科学技術大学院大学副教授
2006-2014 日本奈良先端科学技術大学院大学助理教授
2005-2006 日本奈良先端科学技術大学院大学博士后
2005 日本奈良先端科学技術大学院大学博士
研究方向及目标
研究方向及目标:
植物生长发育、形态建成、分子生物学、细胞生物学、遗传学
1)生长素极性运输的调控机制
2)根系结构(向重力性定点角,避盐性)
3)种子发育(胚胎&胚乳发育)
植物为了使其高效生长会适应所在的环境。植物结构(简称株型)在很大程度上是由侧生器官的生长所决定的。株型的控制在农业尤其是育种上是非常有价值的。为了控制株型,我们需要了解侧生器官形成与生长的分子机制。植物激素生长素在株型的控制中起着关键作用。我的研究目标是了解生长素极性运输所产生的不对称生长素积累促进侧生器官形成和分支生长的分子机制。

Asymmetric auxin response
Figure: The growth angle of shoot and root branches is considered to be determined by the antagonistic interaction between two auxin-dependent growth components, orthogravitropism and antigravitropic offset. In lzymultiple mutants, branches of shoots and roots grow in the reverse direction. Asymmetric auxin response is also reversed in the mutant.

发表文章:
(1) The Arabidopsis LAZY1 Family Plays a Key Role in Gravity Signaling within Statocytes and in Branch Angle Control of Roots and Shoots.
Taniguchia M.#, Furutani M.#, Nishimura T.#, Nakamura M.,Fushita T.,Iijima K.,Baba K.,Tanaka H.,Toyota M.,Tasaka M.,Morita M.T.*
Plant Cell. 29, 1984-1999 (2017)
(2) Auxin-dependent compositional change in Mediator in ARF7- and ARF19-mediated
transcription.
Ito J., Fukaki H., Onoda M., Li L., Li C., Tasaka M., and *Furutani M.
Proc. Natl. Acad. Sci. U. S. A. 113, 6563-6567 (2016), *corresponding author
(3) Auxin transport sites are visualized in planta using fluorescent auxin analogs.
Hayashi K., Nakamura S., Fukunaga S., Nishimura T., Jenness M.K., Murphy A.S., Motose
H., Nozaki H., Furutani M., and Aoyama T.
Proc. Natl. Acad. Sci. U. S. A. 111, 11557-11562 (2014)
(4) The CUC1 and CUC2 genes promote carpel margin meristem formation during
Arabidopsis gynoecium development.
Kamiuchi Y., Yamamoto K., Furutani M., Tasaka M., and Aida M.
Front Plant Sci. 165, doi: 10.3389/fpls.2014.00165 (2014)
(5) MAB4-induced auxin sink generates local auxin gradients in Arabidopsis organ formation.
*Furutani M., Nakano Y., and *Tasaka M.
Proc. Natl. Acad. Sci. U. S. A. 111, 1198-1203 (2014), *co-corresponding authors
(6) CRYPTIC PRECOCIOUS/MED12 is a novel flowering regulator with multiple target
system in Arabidopsis.
Imura Y., Kobayashi Y., Yamamoto S., Furutani M., Tasaka M., Abe M., and Araki T.
Plant & Cell Physiol. 53, 287-303 (2012)
(7) Polar-localized NPH3-like proteins regulate polarity and endocytosis of PIN-FORMED
auxin efflux carriers.
Furutani M., Sakamoto N., Yoshida S., Kajiwara T., Robert H.S., Friml J., and Tasaka M.
Development 138, 2069-2078 (2011)
(8) MACCHI-BOU 2 is required for early embryo patterning and cotyledon organogenesis in
Arabidopsis.
Ito J., Sono T., Tasaka M., and *Furutani M.
Plant & Cell Physiol. 52, 539-552 (2011), *corresponding author
(9) Alkoxy-auxins are selective inhibitors of auxin transport mediated by PIN, ABCB, and
AUX1 transporters.
Tsuda E., Yang H., Nishimura T., Uehara Y., Sakai T., Furutani M., Koshiba T., Hirose M.,
Nozaki H., Murphy A.S., and Hayashi K.
J. Biol. Chem. 286, 2354-2364 (2011)
(10) Membrane association of the Arabidopsis ARF exchange factor GNOM involves
interaction of conserved domains.
Ander S., Nielsen M., Keicher J., Stierhof Y.D., Furutani M., Tasaka M., Skriver K., and
Jürgens G.
Plant Cell 20, 142-151 (2008)
(11) The gene MACCHI-BOU 4/ENHANCER OF PINOID encodes a NPH3-like protein and
reveals similarities between organogenesis and phototropism at the molecular level.
Furutani M., Kajiwara T., Kato T., Treml B.S., Stockum C., Torres-Ruiz R.A., and Tasaka M.
Development 134, 3849-3859 (2007)
(12) TCP transcription factors control the morphology of shoot lateral organs via negative
regulation of the expression of boundary-specific genes in Arabidopsis.
Koyama T., Furutani M., Tasaka M., and Ohme-Takagi M.
Plant Cell 19, 473-484 (2007)
(13) The CUP-SHAPED COTYLEDON3 Gene Regulates Postembryonic Shoot Meristem and
Organ Boundary Formation in Arabidopsis.
Hibara K., Karim M.R., Takada S., Taoka K., Furutani M., Aida M., and Tasaka M.
Plant Cell 18, 2946-2957 (2006)
(14) Insight into the basis of root growth in Arabidopsis thaliana provided by a simple
mathematical model.
Iwamoto A., Satoh D., Furutani M., Maruyama S., Ohba H., and Sugiyama M.
J Plant Res. 119, 85-93 (2006)
(15) PIN-FORMED1 and PINOID regulate boundary formation and cotyledon development in
Arabidopsis embryogenesis.
Furutani M., Vernoux T., Traas J., Kato T., Tasaka M., and Aida M.
Development 131, 5021-5030 (2004)
(16) The GURKE gene encoding an acetyl-CoA carboxylase is required for partitioning the
embryo apex into three subregions in Arabidopsis.
Kajiwara T., Furutani M., Hibara K., and Tasaka M.
Plant & Cell Physiol. 45, 1122-1128 (2004)
(17) Roles of PIN-FORMED1 and MONOPTEROS in pattern formation of the apical region of
the Arabidopsis embryo.
Aida M., Vernoux T., Furutani M., Traas J., and Tasaka M.
Development 126, 3965-3974 (2002)


Lab Personnel:
孙松
Research assistant
宋晓敏
Ph.D. Student







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