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       當前位置: 首頁  師資隊伍  教授 研究員

      吳雙


      園藝學院   發布時間: 2018-10-15   信息員:   瀏覽次數: 4043


      吳雙,教授,博士生導師,園藝一級學科帶頭人,園藝學院副院長,福建農林大學校學術委員會委員。國家青年千人計劃,國家優青,國家十大特色作物聯合攻關青梗菜項目首席科學家,福建省百人計劃

              09年博士畢業于美國麻省大學,2009-2014年在美國賓夕法尼亞大學進行博士后研究,2015年至今擔任園藝學院和海峽聯合研究院園藝中心教授。先后主持國家面上項目,國家十三五重點研發子項目,福建省重大專項專題等。在植物發育調控領域有十多年系統的研究,在領域內國際頂尖刊物發表SCI文章30余篇。兩次應邀在植物學頂尖綜述雜志撰寫文章總結領域內進展,并為Springer出版的經典方法書Methods in Molecular Biology撰寫章節,目前為PNAS, Plant Cell, New PhytologistPlant Physiology12個雜志擔任審稿。曾應邀為全美植物生物學家年會(ASPB 2014)、國際植物激素大會(2016)、冷泉港亞洲會議(2017)、中國植物生物學大會(20152018)等十幾個做專題報告。2016年獲得福建省青年科技獎、福建青年五四獎章等,并擔任福建省青年科學家協會常務理事,福建省留學生會理事等。

        

      主要研究方向:

      1)番茄,青梗菜等蔬菜生長調控和品質改良的分子基礎

      2)植物干細胞分裂和分化的分子學基礎

      3)植物根系營養吸收調控的細胞分子機制

      4)細胞間信號通訊調控植物發育的系統生物學研究

        

      聯系方式:

      Email: wus@fafu.edu.cnwusplant@163.com

      園藝中心主頁:

      http://hbmc.fafu.edu.cn/6a/b7/c4949a223927/page.htm

        

      在美國加州大學河邊分校聯系中心的主頁:

      http://fafu-ucr-hbmc.ucr.edu/shuang.html

        

      獲得榮譽或獎勵:

      2019    福建省百千萬人才

      2018    福建省高校領軍人才青年拔尖

      2018福建農林大學嚴家顯最高獎教金

      2017  中國國家基金委優秀青年基金

      2016  福建農林大學“優秀教師”

      2016  第十三屆“福建青年五四獎章

      2016  第十三屆福建省青年科技獎

      2015  中國中組部青年千人計劃

      2015  福建省百人計劃

        

      承擔科研項目:

      2018  國家重點研發園藝作物生長發育對設施環境的響應機制與調控子課題

      2018  福建省重大專項專題資助

      2017  國家優秀青年科學基金資助

      2017  國家基金委青年科學基金(2項,本課題組講師和博后主持)

      2016  國家十三五七大作物育種養分高效重點研發計劃子課題

      2016  國家基金委面上項目資助

      2015  國家青年千人計劃資助

        

      近年發表主要文章:

      1.Xu, M., Gu, X., Liang, N., Bian, X., Wang, H., Wu, S.* (2019)Intersected functional zone of transcriptional regulators patterns stemness within stem cell niche of root apical meristem. Journal of Integrative Plant Biology doi: 10.1111/jipb.12881.

      2.Chang, J., Xu, Z., Li, M., Yang, M., Qin, H., Yang, J., Wu, S.* (2019) Spatiotemporal cytoskeleton organizations determine morphogenesis of multicellular trichomes in tomato. PLoS Genet. 15(10):e1008438.

      3.Li, P., Yu, Q., Gu, X., Xu, C., Qi, S., Wang, H., Zhong, F., Baskin, T.B., Rahman, A., Wu, S.* (2018) Construction of a Functional Casparian Strip in Non-endodermal Lineages Is Orchestrated by Two Parallel Signaling Systems in Arabidopsis thaliana. Current Biology 28(17):2777-2786.

      4.Xu, M., Qi, S., Chen, F., Zhang, L., Wu, S.* (2018) Loss or duplication of key regulatory genes coincides with environmental adaptation of stomatal complex in Nymphaea colorata and Kalanchoe laxiflora. Horticulture Research 5:42. doi: 10.1038/s41438-018-0048-8.

      5.Li, P., Yang, M., Chang, J., Wu, J., Zhong, F., Rahman, A., Qin, H. and Wu, S.* (2018) Spatial Expression and Functional Analysis of Casparian Strip Regulatory Genes in Endodermis Reveals the Conserved Mechanism in Tomato. Front. Plant Sci. 9:832. doi: 10.3389/fpls.2018.00832

      6.Zhong, F., Wang, S., Roan, S., Lin, B., Chen, I., Lin, Y., Pang, J., Wu, S.* (2018) Characterization of nitrate assimilation in Lactuca sativa L. under different nitrogen sources. Plant Growth Regulation https://doi.org/10.1007/s10725-018-0404-6.

      7.Yu Q, Li P, Liang N, Wang H, Xu M, Wu, S. *2017Specifying cell fate in roots requires coordinative lineage instruction and positional reprogramming. Plant Physiol.175(2):816-827.

      8.Liu, Y., Xu, M., Liang, N., Zheng, Y., Yu, Q., Wu, S. * (2017) Symplastic communication spatially directs local auxin biosynthesis to maintain root stem cell niche in Arabidopsis, Proc Natl Acad Sci U S A. 114(15):4005-4010. (Faculty of 1000)

      9.Yang, B., Zhou, X., Xu, R., Wang, J., Lin, Y., Pang, J., Wu, S. *, Zhong, F. * (2016)  Comprehensive Analysis of Photosynthetic Characteristics and Quality Improvement of Purple Cabbage under Different Combinations of Monochromatic Light, Front Plant Sci. 29;7:1788. (*Co-corresponding author)

      10.Wu, S.*, O'Lexy, R., Xu, M., Sang, Y., Chen, X., Yu, Q. & Gallagher, K.* (2016) A Symplastic signaling instructs cell division, cell expansion, and cell polarity in the ground tissue of Arabidopsis thaliana roots, Proc Natl Acad Sci U S A. 113(41):11621-11626. (*Co-corresponding author)

      11.Wu, S., Hayashi, T., Lee, C.M., Price, S., Divol, F., Henry, S., Pauluzzi, G., Perin, C. & Gallagher, K. (2014) A plausible mechanism, based upon SHORT-ROOT movement, for regulating the number of cortex cell layers in roots, Proc Natl Acad Sci U S A. 111(45):16184-9.

      12.Wu, S. & Gallagher, K.L.(2014) The movement of the non-cell-autonomous transcription factor, SHORT-ROOT relies on the endomembrane system, Plant J. 80(3):396-409. (Faculty of 1000)

      13.Wu, S. & Gallagher, K.L.(2015) Techniques for Assessing the Effects of Pharmacological Inhibitors on Intercellular Protein Movement.Methods in Molecular Biology.1217:245-58.

      14.Wu, S.& Gallagher, K.L. (2013) Intact microtubules are required for the intercellular movement of the SHORT-ROOT transcription factor. Plant J. 74(1):148-159. (Faculty of 1000)  

      15.Wu, S., Baskin, T.I. & Gallagher, K.L. (2012) Mechanical fixation techniques for processing and orienting delicate samples, such as the root of Arabidopsis thaliana, for light or electron microscopy. Nature Protocols. 7(6):1113-24.

      16.Wu, S. & Gallagher, K.L. (2012) Transcription Factors on the Move. Curr Opin Plant Biol. 15(6):645-651.

      17.Koizumi, K.*, Wu, S.* (co-first author), MacRae-Crerar, A., Gallagher, K.L. (2011) An essential protein that interacts with endosomes and promotes movement of the SHORT-ROOT transcription factor. Current Biology. 21(18):1559-1564. (Faculty of 1000)

      18.Wu, S. & Gallagher, K.L. (2011) Mobile protein signals in plant development. Curr Opin Plant Biol. 14(5):563-70

      19.Wu, S.*, Koizumi, K., Macrae-Crerar, A., Gallagher, K.L. (2011) Assessing the utility of photoswitchable fluorescent proteins for tracking intercellular protein movement in the Arabidopsis root. PLoS One. 2011; 6(11):e27536. (Faculty of 1000) (Selected by the illuminated plant cell as paper of the month, Feb 2012)

      20.Wu, S., Scheible, W. R., Schindelasch, D., Van Den Daele H., De Veylder L., & Baskin, T. I. (2010) A conditional mutation in Arabidopsis thaliana separase induces chromosome non-disjunction, aberrant morphogenesis and cyclin B1;1 stability. Development.137(6):953-961. (Faculty of 1000)

      21.Wu, S., Gu, Y., Zhao, L. & Liu, J. (2003) Effects of synchrotron radiation from soft X-rays on peroxidation products of membrane lipids and activity of related enzymes in wheat seeds. Nuclear Techniques. 26: 577-581.

      22.Spiegelman, Z., Wu, S., Gallagher, K.L. (2019) A role for the endoplasmic reticulum in the cell-to-cell movement of SHORT-ROOT. Protoplasma. 256(5):1455-1459.

      23.Qi SL, Lin QF, Feng XJ, Han HL, Liu J, Zhang L, Wu S, Le J, Blumwald E, Hua X.(2019) IDD16 negatively regulates stomatal initiation via trans-repression of SPCH in Arabidopsis. Plant Biotechnol J. doi: 10.1111/pbi.13070.

      24.Chen, X., Wu, S., Liu, Z., Friml, J. (2016) Environmental and Endogenous Control of Cortical Microtubule Orientation. Trends Cell Biol. 26(6):409-19.

      25.Koizumi, K., Hayashi, T., Wu, S., Gallagher, K.L. (2012) The SHORT-ROOT protein acts as a mobile, dose-dependent signal in patterning the ground tissue. Proc Natl Acad Sci U S A. 109(32):13010-5. (Faculty of 1000)

      26.Sang, Y., Silva-Ortega, C.O., Wu, S., Yamaguchi, N., Wu, M.F., Pfluger, J., Gillmor, S., Gallagher, K.L., Wagner, D. (2012) Mutations in two non-canonical Arabidopsis SWI2/SNF2 chromatin remodeling ATPases cause embryogenesis and stem cell maintenance defects. Plant J. 72(6): 1000-1014.

      27.Vatén, A., Dettmer, J., Wu, S., Stierhof, Y.D., Miyashima, S., Yadav, S.R., Roberts, C.J., Campilho, A., Bulone, V., Lichtenberger, R., Lehesranta, S., M?h?nen, A.P., Kim, J.Y., Jokitalo, E., Sauer, N., Scheres, B., Nakajima, K., Carlsbecker, A., Gallagher, K.L., Helariutta, Y. (2011) Callose biosynthesis regulates symplastic trafficking during root development. Developmental Cell. 21(6):1144-1155. (Faculty of 1000)

      28.Yang, X., Boateng, K.A., Yuan, L., Wu, S., Baskin, T.I., Makaroff, C.A. (2011) The radially swollen 4 separase mutation of Arabidopsis thaliana blocks chromosome disjunction and disrupts the radial microtubule system in meiocytes. PLoS One. 29;6(4):e19459.

      29.Rahman, A., Takahashi, M,, Shibasaki, K., Wu, S., Inaba T., Tsurumi, S. & Baskin, T. I. (2010) Gravitropism of Arabidopsis thaliana roots requires the polarization of PIN2 toward the root tip in meristematic cortical cells. Plant Cell. 22(6):1762-76

      30.Bischoff, V., Cookson, S. J., Wu, S. & Scheible, W. R. (2009) Thaxtomin A affects CESA-complex density, expression of cell wall genes, cell wall composition, and causes ectopic lignification in Arabidopsis thaliana seedlings. J. Exp. Bot. 60(3): 955-65.

      31.Liu, J., Zhao, Y., Zhao, J., Xia, A., Jiang, L., Wu, S., Ma, L., Dong, Y. & Gu, Y. (2002) Two-photon excitation studies of hypocrellins for photodynamic therapy. J. Photochem. Photobiol. B Biol. 68: 156-164.

        

       

       

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