報告時間:2024年4月10日(星期三)14:00-16:30
報告地點:新逸夫教學樓(生命學院)608會議室
報告一:
報告題目:Plant Stress Research for Climate Change
報告人:Yun, Dae-Jin(尹大珍),韩国开国大学教授、韩国科学院院士
報告人簡介:
Yun, Dae-Jin(尹大珍),韩国开国大学教授、韩国科学院院士。1994年于日本京都大学获得博士学位,同年进入美国普渡大学开展博士后研究。主要研究偏向是解析植物对情况胁迫响应历程中分子和生化信号的传导机制,在Cell, Nature Genetics, Molecular Cell, Nature Communications, Nature Plant, PNAS, Molecular Plant, Plant Cell等杂志累计发表论文263篇,H-index 76,总引用量1.8万次以上。
報告內容:
Plant responses to environmental stress are governed by a complex molecular and biochemical signal transduction processes, which act in coordination to determine tolerance or sensitivity at the whole-plant level. The abiotic stresses imply homeostatic biochemical reactions, recorded in terms of cellular information transfer at various levels of gene expression, including transcriptional, translational, and post-translational regulation.Despite considerable progress made with plant molecular genetics and genomics in understanding of plant behavior under field stress, research thus far indicates that we have not yet found the most important processes and genes that protect plants against prevalent stresses.In the past 25 years, our laboratoryhas studied the stress tolerance mechanisms with multi-dimensional approaches including molecular genetics, biochemical and molecular biology, andgenomics tools usingArabidopsisplant. We have identified genes important for abiotic stress tolerance and extended the gene networks based on the identified genes to learn the abiotic stress signaling network. Here, I will present novel important genes for plant stress tolerance and unveil new molecular mechanisms in plant stress responses, which will benefit agricultural application as well as basic science.
報告二:
報告題目:水稻OsNAC3-OsSSRP1轉錄模塊調控OsERF117的表達從而影響早期生長勢的分子機理
報告人:徐正一,東北師範大學教授
報告人簡介:
徐正一,東北師範大學教授、博士生导师,国家高条理青年人才,现任植物学主流期刊Plant Cell Reports编委、中国植物生理与植物分子生物学学会理事。致力于植(作)应答逆境和情况变化的遗传基础与分子机理方面的研究,先后主持多项国家自然科学基金项目,获首选发现专利3项,且近五年以通讯作者在Plant Cell、New Phytologist、Plant Biotechnology Journal等期刊上发表研究论文20篇,并连续入选高被引论文,曾获吉林省自然科学二等奖,吉林省首批“教育世家”荣誉称谓。
報告內容:
水稻旱直播因其栽培方式高效、輕簡,並能夠節省成本,逐漸成爲了適應未來規模化栽培水稻的主流耕作方式。適合旱直播的水稻一般具有耐低溫低氧發芽及早期幼苗耐旱、根系漫衍深、苗期生長快等特性,然而至今大部门研究事情都集中在挖掘調控中胚軸伸長的關鍵基因,而對影響水稻早期生長勢的遺傳基礎以及調控生長能力的分子調控網絡尚不清楚。前期通過正向遺傳學,篩選到oserf117突變體在覆土直播下出土率降低,而OsERF117過量表達质料的出土率升高。進一步對啓動子區域的核苷酸多肽性分析發現,OsERF117在差异水稻品種間存在自然變異,分化成差异單倍型,且差异單倍型受到OsNAC3和OsSSRP1的結合能力差异,影響其表達水平;同時SnRK2磷酸激酶家族成員能夠通過改變OsERF117的磷酸化形式調控其活性從而進一步影響産量相關性狀。研究结果將對創制耐旱、早發水稻新品種和分子設計育種提供新的理論依據。
歡迎列位教師、同學積極參加!
