發現CIPK15調控植物避免因淹水造成銨肥毒性的作用機制 | |
如何利用新發明的螢光偵測器偵測活體植物中的硝酸鹽 | |
恭喜本中心何承訓老師業經院方核定自113年1月15日起升等為副研究員。 | |
第十一屆年輕學者創新獎 | |
CIPK15通過抑制NH4+運輸保護阿拉伯芥免受淹水威脅 HELIYON, Volume 9, Issue 9, e20235, ISSN 2405-8440, https://doi.org/10.1016/j.heliyon.2023.e20235 | |
硝酸鹽的螢光生物傳感器nlsNiMet3.0使用手冊 Bio-protocol, 13(16): e4743. DOI: 10.21769/BioProtoc.4743 | |
CIPK15-mediated inhibition of NH4+ transport protects Arabidopsis from submergence HELIYON | |
Fluorescent Biosensor Imaging of Nitrate in Arabidopsis thaliana Bio-protocol | |
恭賀本中心何承訓助研究員榮獲傑出人才發展基金會第十一屆年輕學者創新獎! | |
財團法人林秋榮植物科學教育基金會 林秋榮教授植物科學創新研究獎 | |
硝酸鹽動態的直播秀-創新的基因編碼螢光共振的生物感測器 SCIENCE ADVANCES, 19 Oct 2022 Vol 8, Issue 42 | |
恭賀!本中心何承訓助研究員榮獲2022年林秋榮教授植物科學創新研究獎! | |
成功研發第一個硝酸鹽生物感測器與活體偵測 | |
偵測硝酸鹽轉運蛋白活性的生物感測器的延伸與應用 | |
In vivo visualization of nitrate dynamics using a genetically encoded fluorescent biosensor SCIENCE ADVANCES | |
In vivo visualization of nitrate dynamics using a genetically encoded biosensor BioRxiv | |
In vivo biochemistry: applications for small molecule biosensors in plant biology Current opinion in plant biology | |
Integration of nitrogen and potassium signaling Annual review of plant biology | |
Nitrate, ammonium, and potassium sensing and signaling Current Opinion in Plant Biology | |
CHL1 functions as a nitrate sensor in plants Cell | |
Nitrate transporters and peptide transporters FEBS letters | |
Concept of Fluorescent Transport Activity Biosensor for the Characterization of the Arabidopsis NPF13 Activity of Nitrate Sensors | |
Designs, applications, and limitations of genetically encoded fluorescent sensors to explore plant biology Plant Physiology | |
Feedback inhibition of AMT1 NH4+-transporters mediated by CIPK15 kinase BMC Biology | |
Current status of the multinational Arabidopsis community Plant Direct | |
TRANSPORTER OF IBA1 Links Auxin and Cytokinin to Influence Root Architecture Developmental Cell | |
From Bench to Bountiful Harvests. Multinational Arabidopsis Steering Committee (MASC) Annual Report. Plant Direct. | |
Ratiometric Matryoshka biosensors from a nested cassette of green- and orange-emitting fluorescent proteins Nature Communications | |
Design and Functional Analysis of Fluorescent Nitrate and Peptide Transporter Activity Sensors in Yeast Cultures Bio-Protocol | |
運用螢光轉運活性生物感測器的概念證明阿拉伯芥NPF1.3對硝酸鹽的活性 Sensors, 22(3), 1198 | |
探索植物生物學的基因編碼螢光生物傳感器的設計、應用和局限性 | |
Fluorescent sensors for activity and regulation of the nitrate transceptor CHL1/NRT1.1 and oligopeptide transporters. eLife | |
Border control--a membrane-linked interactome of Arabidopsis Science | |
Fluorescent sensors reporting the activity of ammonium transceptors in live cells eLife | |
CIPK15 kinase 控制銨鹽轉運蛋白AMT1s活性之反饋調控 | |
轉運蛋白TOB1的發現以與植物賀爾蒙auxin與cytokinins影響植物根系發展的研究 | |
整合銨基鹽對植物對營養物質的吸收、運送及其調控作用 | |
改善植物對營養肥料利用效能-發展全新生物感應器(Novel Biosensors)監控細胞間對氮營養物質吸收及運送 | |
改善植物對營養肥料利用效能-藉發展全新生物感應器(Novel Biosensors)監控細胞間對氮營養物質吸收及運送 | |
創新生物感應器技術之研發-Ratiometric Matryoshka 在活體植物中的表現與應用 | |
改善植物對營養肥料利用效能-發展全新生物感應器(Novel Biosensors)監控細胞間對氮營養物質吸收及運送 | |
整合銨基鹽對植物對營養物質的吸收、運送及其調控作用 | |
Taiwan Society Plant Biologist and Japan Society Plant Physiologists Joined Conference Travel Award, Nagoya, Japan. | |
基因編碼螢光傳感器用於探索植物生物學的設計、應用和限制。 Plant Physiology, kiab353, https://doi.org/10.1093/plphys/kiab353 |