農生中心相片 點選關閉

論文著作 (2019)
Arabidopsis BRUTUS-LIKE E3 ligases negatively regulate iron uptake by targeting transcription factor FIT for recycling
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
論文著作 (2018)
S-nitrosoglutathione works downstream of nitric oxide to mediate iron deficiency signaling in Arabidopsis
Plant Journal
論文著作 (2017)
Triplin, a small molecule, reveals copper ion transport in ethylene signaling from ATX1 to RAN1
PLOS Genetics
論文著作 (2017)
Effect of Gallium Exposure in Arabidopsis thaliana is Similar to Aluminum Stress
Environmental Science and Technology
論文著作 (2017)
Role of root exudates in metal acquisition and tolerance
Current Opinion in Plant Biology
論文著作 (2016)
Evolutionary analysis of Fe acquisition system in Marchantia polymorpha
New Phytologist
論文著作 (2016)
Identification of metal species by ESI-MS/MS through release of free metals from the corresponding metal-ligand complexes
Scientific Reports
論文著作 (2015)
Glutathione plays an essential role in nitric oxide-mediated iron deficiency signaling and iron deficiency tolerance in Arabidopsis
The Plant Journal
論文著作 (2014)
Alternative Functions of Arabidopsis Yellow Stripe-like3: from Metal Translocation to Pathogen Defense
PLoS ONE
論文著作 (2014)
Root-secreted nicotianamine from Arabidopsis halleri facilitates zinc hypertolerance by regulating zinc bioavailability
Plant Physiology
論文著作 (2013)
Iron is involved in maintenance of circadian period length in Arabidopsis
Plant Physiology
論文著作 (2013)
A vicilin-like seed storage protein, PAP85, is involved in Tobacco mosaic virus replication
JOURNAL OF VIROLOGY
論文著作 (2013)
Control of Zn uptake in Arabidopsis halleri: a balance between Zn and Fe
Frontiers in Plant Science
論文著作 (2013)
IRT1 DEGRADATION FACTOR 1, a RING E3 ubiquitin ligase, regulates the degradation of IRON-REGULATED TRANSPORTER 1 in Arabidopsis
Plant Cell
論文著作 (2012)
ZINC TOLERANCE INDUCED BY IRON 1 reveals the importance of glutathione in the cross homeostasis between zinc and iron in Arabidopsis thaliana
Plant Journal
論文著作 (2012)
Copper chaperone antioxidant protein1 is essential for copper homeostasis
Plant Physiology
論文著作 (2012)
Overexpression of Arabidopsis ATX1 retards plant growth under severe copper deficiency
Plant Signaling & Behavior
論文著作 (2012)
A sensitive LC-ESI-Q-TOF-MS method for the detection of phytosiderophores and their iron complexes in roots
New Phytologist
論文著作 (2011)
Differential expression and regulation of iron regulated metal transporters in Arabidopsis halleri and Arabidopsis thaliana – the role in zinc tolerance
New Phytologist
論文著作 (2011)
Arabidopsis SUMO E3 ligase SIZ1 is involved in excess copper tolerance
Plant Physiology
論文著作 (2011)
Effect of Cu content on the activity of Cu/ZnSOD1 in the arabidopsis SUMO E3 ligase siz1 mutant
Plant Signaling & Behavior
論文著作 (2009)
Model Evaluation of the Phytoextraction Potential of Heavy Metal Hyperaccumulators and Non-hyperaccumulators
Environmental Pollution
論文著作 (2009)
Arabidopsis IRT3 is a zinc-regulated and plasma membrane localized zinc/iron transporter
New Phytologist
論文著作 (2008)
Genomics and proteomics of immune modulatory effects of a butanol fraction of echinacea purpurea in human dendritic cells
BMC Genomics
論文著作 (2006)
Isolation and characterization of tomato Hsa32 encoding a novel heat-shock protein
Plant Science
論文著作 (2006)
Proteomic survey of copper-binding proteins in Arabidopsis roots by immobilized metal affinity chromatography and mass spectrometry
PROTEOMICS
論文著作 (2006)
Modulatory effe cts of Echinacea purpurea extracts on human dendritic cells: A cell- and gene-based study
Genomics
論文著作 (2006)
Genes Associated with Heavy Metal Tolerance and Accumulation in Zn/Cd Hyperaccumulator Arabidopsis halleri: A Genomic Survey with cDNA Microarray
ENVIRONMENTAL SCIENCE & TECHNOLOGY
重要特殊獎項 (2021)
科技部傑出研究獎
徵才 2022-03-3
【葉國楨實驗室】誠徵博士後研究
論文著作 (2022)
Insight into the mechanism of indium toxicity in rice
Journal of Hazardous Materials
論文著作 (2022)
Soil Gallium Speciation and Resulting Gallium Uptake by Rice Plants
Journal of Hazardous Materials
中心訊息 2022-03-2
恭賀!本中心葉國楨主任榮獲110年度科技部傑出研究獎。

重要發現與突破 (2021)
組蛋白 H3的離胺酸4三甲基化調節GRF11 基因表現對於阿拉伯芥缺鐵反應的必要性
論文著作 (2021)
Divalent nutrient cations: Friend and foe during zinc stress in rice
Plant Cell & Environment
論文著作 (2021)
Histone H3 lysine4 trimethylation‐regulated GRF11 expression is essential for the iron deficiency response in Arabidopsis thaliana
New Phytologist
論文著作 (2020)
Assessment of indium toxicity to the model plant Arabidopsis
Journal of Hazardous Materials
論文著作 (2020)
The dual benefit of a dominant mutation in Arabidopsis IRON DEFICIENCY TOLERANT1 for iron biofortification and heavy metal phytoremediation
Plant Biotechnology Journal
論文著作 (2020)
A HemK class glutamine-methyltransferase is involved in the termination of translation and essential for iron homeostasis in Arabidopsis
New Phytologist
論文著作 (2020)
Indium Uptake and Accumulation by Rice and Wheat and Health Risk Associated with Their Consumption
Environmental Science & Technology
論文著作 (2019)
Small-Molecules Selectively Modulate Iron-Deficiency Signaling Networks in Arabidopsis
Frontiers in Plant Science
重要發現與突破 (2019)
植物基因IRON DEFICIENCY TOLERANT1於鐵強化作物及重金屬植生復育的應用
重要發現與突破 (2015)
穀胱甘肽對缺鐵訊息分子一氧化氮累積的必要性
重要發現與突破 (2014)
重金屬高富集植物根部分泌物nicotianamine與過量鋅的耐受性相關
重要發現與突破 (2013)
植物根部鐵吸收轉運子的降解調控
重要發現與突破 (2013)
微量營養素鐵與生物時鐘
重要發現與突破 (2012)
微量營養元素-銅-對植物生長最佳化的貢獻:銅伴蛋白的生物功能
重要發現與突破 (2012)
建立一個有效率又敏感LC-ESI-TOF-MS質譜方法以直接偵測根的分泌物
重要發現與突破 (2011)
Zn/Cd 高累植物A. halleri維持鐵的恆定的抗鋅機制
重要發現與突破 (2011)
SUMOylation 與植物內重金屬銅抗性,運送及分佈的關係
重要發現與突破 (2011)
Glutathione在植物鋅、鐵恆定上扮演重要角色
重要發現與突破 (2009)
阿拉伯芥受鋅調控且位於細胞膜的鋅/鐵運輸蛋白IRT3
重要發現與突破 (2009)
一個能讓我們更精確預測植生復育的效率的方法
重要發現與突破 (2006)
重金屬螯合序列之分析
重要特殊獎項 (2016, 2017, 2018, 2019, 2020)
科技部尖端研究計畫
重要特殊獎項 (2016)
科技部傑出研究獎
重要特殊獎項 (2002)
吳大猷紀念獎
專利
Metal-binding motif composition and method
USA-regular US7659362
葉國楨,龔政哲
專利
金屬鍵結區域之組合物及方法
Taiwan I312784
葉國楨,龔政哲
徵才 2021-09-16
【葉國楨實驗室】誠徵研究助理
網站導覽 葉國楨
中心訊息 (1)
徵才 (2)
專利 (2)
論文著作 (37)
重要發現與突破 (14)
重要特殊獎項 (4)
網站導覽-選擇研究人員
葉國楨 楊玉良 葉信宏 施明哲 徐麗芬 邱子珍 常怡雍 楊文欽 蕭培文 詹明才 方素瓊 陳逸然 陳荷明 劉明容 孫德芬 何承訓 林耀正 山田昌史 林于鈴 林哲揚 吳岱娜 陳繪名 陳韻竹 林崇熙 辜瑞雪 梁佑全 董啟功 匡麟芸 greenhouse
";