孟文翔

2004-2010 日本理化學研究所 發生再生綜合研究中心研究員。2010年入選中國科學院百人計畫.

我組主要研究方向是非中心體微管的在細胞、個體發育中以及疾病當中的功能。

1、非中心體微管在細胞當中的功能解析。

2、Nezha，PLEKHA7基因剔除小鼠的解析。

3、非中心體微管關聯蛋白質的探索。

微管作為細胞骨骼的一個重要成員，其研究已有很多年的歷史。但是作為微管重要組成一部分的非中心體微管的研究，還基本處於一無所知的狀態。在既往研究當中，我們首次成功地同定非中心體微管負端蛋白，並命名為Nezha（Cell. 135－5, 948-959, 28. 2008）。這個發現，是展開對非中心體的研究的一個非常難得的切入口。我們研究小組主要以揭開非中心體微管的功能和調控機理為主要目標。目前我們建立了Nezha，PLEKHA7基因剔除小鼠模型，準備通過細胞生物學，生化學手法，以及分子成像技術研究它在發生髮育，以及神經系統當中的功能。我們還通過大規模質量分析技術發現了一些和Nezha相互作用，可能參與非中心體微管的重合，拋錨的蛋白質因子。我們將運用細胞生物學和生物化學等手段，研究它們在細胞內的功能，並將建立目標基因的基因剔除小鼠模型，深入探討它們在發生髮育中的作用。歡迎具有艱苦奮鬥精神的有志同仁加入我們。

Ning,W., Yu,Y., Xu,H., Liu, X., Wang, D., Wang, J.,Wang, Y., and Meng, W. (2016). The CAMSAP3-ACF7 Complex Couples Noncentrosomal Microtubules with Actin Filaments to Coordinate Their Dynamics

Toya, M., Kobayashi, S., Kawasaki, M., Shioi, G., Kaneko, M., Ishiuchi, T., Misaki, K., Meng, W., and Takeichi, M. (2016). CAMSAP3 orients the apical-to-basal polarity of microtubule arrays in epithelial cells

Popov, L.M., Marceau, C.D., Starkl, P.M., Lumb, J.H., Shah, J., Guerrera, D., Cooper, R.L., Merakou, C., Bouley, D.M., Meng, W., et al. (2015). The adherens junctions control susceptibility to Staphylococcus aureus alpha-toxin

Sako-Kubota, K., Tanaka, N., Nagae, S., Meng, W.X., and Takeichi, M. (2014). Minus end-directed motor KIFC3 suppresses E-cadherin degradation by recruiting USP47 to adherens junctions

Nagae, S., Meng, W.X., and Takeichi, M. (2013). Non-centrosomal microtubules regulate F-actin organization through the suppression of GEF-H1 activity

Tanaka, N., Meng, W., Nagae, S., and Takeichi, M. (2012). Nezha/CAMSAP3 and CAMSAP2 cooperate in epithelial-specific organization of noncentrosomal microtubules

Nagae, S.M., WX Takeichi, M (2010). Nezha, a microtubule minus end-anchoring protein, regulates axon morphogenesis Meng., W. (2009). Adherens Junction.(Short Review)

Meng, W.X., and Takeichi, M. (2009). Adherens Junction: Molecular Architecture and Regulation. Cold Spring Harbor Perspectives in Biology.

Meng, W., Mushika, Y., Ichii, T., and Takeichi, M. (2008). Anchorage of microtubule minus ends to adherens junctions regulates epithelial cell-cell contacts

Meng, W.X., Numazaki, M., Takeuchi, K., Uchibori, Y., Ando-Akatsuka, Y., Tominaga, M., and Tominaga, T. (2004). DIP (mDia interacting protein) is a key molecule regulating Rho and Rac in a Src-dependent manner

Ariga, K., Yonenobu, K., Nakase, T., Hosono, N., Okuda, S., Meng, W., Tamura, Y., and Yoshikawa, H. (2003). Mechanical stress-induced apoptosis of endplate chondrocytes in organ-cultured mouse intervertebral discs: an ex vivo study

Tominaga, T., Meng, W., Togashi, K., Urano, H., Alberts, A.S., and Tominaga, M. (2002). The Rho GTPase effector protein, mDia, inhibits the DNA binding ability of the transcription factor Pax6 and changes the pattern of neurite extension in cerebellar granule cells through its binding to Pax6

Nakase, T., Ariga, K., Meng, W., Iwasaki, M., Tomita, T., Myoui, A., Yonenobu, K., and Yoshikawa, H. (2002). Distribution of genes for parathyroid hormone (PTH)-related peptide, Indian hedgehog, PTH receptor and patched in the process of experimental spondylosis in mice

Meng, W., Yonenobu, K., Ariga, K., Nakase, T., Okuda, S., Obata, K., and Yoshikawa, H. (2001). Localization of cathepsins G and L in spontaneous resorption of intervertebral discs in a rat experimental model

Ariga, K., Miyamoto, S., Nakase, T., Okuda, S., Meng, W.X., Yonenobu, K., and Yoshikawa, H. (2001). The relationship between apoptosis of endplate chondrocytes and aging and degeneration of the intervertebral disc