柴森

    2020-06-15 11:33:31           浏览数:0

  柴森,博士,讲师

  籍贯:山东 泰安

  性别:男

  E-mail:chaisen@qau.edu.cn

  教育经历

  2010/09-2014/06,山东农业大学,理学学士

  2014/09-2019/06,山东农业大学,博士

  工作经历

  2019/09-至今,青岛农业大学,园艺学院,讲师

  研究方向

  甜瓜果实发育调控的功能基因研究

  植物分子细胞生物学研究

  科研项目

  拟南芥棕榈酰基转移酶(PAT1/2/3/4/8)调控花粉管接纳的功能和机理研究,国家自然基金委面上基金,参与

  小G蛋白ROP2动态定位的分子调控机理研究,国家自然基金委青年基金,参与

  代表性科研成果

  1. Chai S †, Li E † Zhang Y, et al. NRT1.1-Mediated Nitrate Suppression of Root Coiling Relies on PIN2- and AUX1-Mediated Auxin Transport[J]. Frontiers in Plant Science, 2020, https://doi.org/10.3389/fpls.2020.00671

  2. Wei S J †, Chai S †, Zhu R M, et al. HUA ENHANCER1 Mediates Ovule Development[J]. Frontiers in Plant Science, 2020, 11: 397.

  3. Chai S, Ge F R, Zhang Y, et al. S‐acylation of CBL10/SCaBP8 by PAT10 is crucial for its tonoplast association and function in salt tolerance[J]. Journal of integrative plant biology, 2019.

  4. Chai S†., Ge F. R†., Feng Q. N., Li S., and Zhang Y.. PLURIPETALA mediates ROP2 localization and stability in parallel to SCN1 but synergistically with TIP1 in root hairs. Plant J., 2016a, 86:413–425

  5. Chai S., Ge F., Li S., and Zhang Y.. The journey to glory: receptor-like kinases in pollen tube growth. Sci Bull., 2016b, 61:827–831

  6. Zhu R M, Chai S, Zhang Z Z, et al. Arabidopsis Chloroplast protein for Growth and Fertility1 (CGF1) and CGF2 are essential for chloroplast development and female gametogenesis[J]. BMC plant biology, 2020, 20: 1-12.

  7. Ge F R, Chai S, Li S, et al. Targeting and signaling of ROP GTPases require synergistic interaction between GDI and vesicular trafficking[J]. Journal of Integrative Plant Biology, 2020: 0.

  8. Li E., Cui Y., Ge F. R., Chai S., Zhang W. T., Feng Q. N., Jiang L., Li S., and Zhang Y.. AGC1.5 Kinase Phosphorylates RopGEFs to Control Pollen Tube Growth. Mol Plant., 2018, 11:1198–1209

  9. Wan Z.-Y., Chai S., Ge F.-R., Feng Q.-N., Zhang Y. and Li S.. Arabidopsis PROTEIN S-ACYL TRANSFERASE4 mediates root hair growth. Plant J., 2017, 90: 249-260.

  10. Feng H. L., Ma N. N., Meng X., Zhang S., Wang J. R., Chai S., and Meng Q. W.. A novel tomato MYC-type ICE1-like transcription factor, SlICE1a, confers cold, osmotic and salt tolerance in transgenic tobacco. Plant Physiol Biochem., 2013, 73:309–320

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