陈诉题目:Dynamics of Stem Cell Signaling Pathways in Meristems
陈诉人:Rüdiger Simon教授? 德国杜塞尔多夫大学,遗传学研究所,Cluster of Excellence on Plant Sciences卖力人
報告時間:2015年12月17日(周四)下午14:00分
報告地點:東北林業大學新逸夫教學樓608會議室
報告人簡曆:
Rüdiger Simon教授,男,现任德国杜塞尔多夫大学,遗传学研究所,Cluster of??Excellence on Plant Sciences卖力人、Center for Advanced Imaging (CAi)中心卖力人及Developmental Genetics实验室卖力人。Simon实验室以拟南芥、油菜籽和短柄草为模型,主要进行植物发育偏向的研究,重点致力于植物干细胞信号传导、器官分化起始以及在发育历程中时空水平上细胞命运决定机制的研究。研究结果在Nature、Science、??Cell等顶级刊物上多次发表,对植物干细胞领域的研究有重大影响。
歡迎廣大師生參加!
P.S.如想和Simon教授单独讨论,请联系電子郵件:xingqian123@hotmail.com
Simon教授的講座摘要:
Dynamics of stem cell signaling pathways in meristems
Organogenesis in plants is based on precise cell fate determination of undifferentiated cells, which are derived from stem cells that reside in meristems. Cell fate determination depends on the position of a cell within the plant body. A number of mechanisms provide positional information to cells or cell populations: (1) plant hormones like auxin establish gradients or local concentration maxima; (2) secreted ligands and membrane associated receptors enables cell-cell signaling between adjacent cell layers; (3) transcription factors can act non-cell autonomously to integrate cellular responses, and (4) long range communication takes place by transport of signals between cells through plasmodesmata.
Our current understanding is that these mechanisms act in a concerted manner to govern plant development. I will report on our most recent results on receptor kinase signaling pathways that control the growth and maintenance of meristems. Using a toolbox of fluorescence imaging techniques in planta, we studied the dynamics of receptor assembly into larger complexes at distinct regions of the plasmamembranes upon the perception of their specific ligands. Furthermore, we found that alterations of receptor expression levels can have profound developmental consequences. Finally, I will try to link aspects of peptide-receptor and hormonal signaling pathways, and highlight important commonalities and differences between developmental and pathogen response pathways.
