VACUOLE

作品数:42被引量:388H指数:6
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相关领域:生物学医药卫生更多>>
相关作者:梁承邺徐是雄叶秀麟王墨洋赵翔更多>>
相关机构:香港大学中国科学院东北林业大学徐州医学院附属医院更多>>
相关期刊:《World Journal of Biological Chemistry》《Advances in Bioscience and Biotechnology》《Journal of Integrative Plant Biology》《World Journal of Gastroenterology》更多>>
相关基金:国家自然科学基金国家重点基础研究发展计划更多>>
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CBL1/CIPK23 phosphorylates tonoplast sugar transporter TST2 to enhance sugar accumulation in sweet orange(Citrus sinensis)
《Journal of Integrative Plant Biology》2025年第2期327-344,共18页Mengdi Li Zuolin Mao Zeqi Zhao Siyang Gao Yanrou Luo Ziyan Liu Xiawei Sheng Xiawan Zhai Ji-Hong Liu Chunlong Li 
supported by National Key Research and Development Program of China(2023YFD2300603,2022YFF1003100);the National Natural Science Foundation of China(32322073);Foundation of Hubei Hongshan Laboratory(2021hszd016);Fundamental Research Funds for the Central Universities(2662023PY011);the Huazhong Agricultural University(start-up funding to C.L.)。
Fruit taste quality is greatly influenced by the content of soluble sugars,which are predominantly stored in the vacuolar lumen.However,the accumulation and regulation mechanisms of sugars in most fruits remain unclea...
关键词:CITRUS CsCBL1/CIPK23 PHOSPHORYLATION tonoplast sugar transporter VACUOLE 
Dark-vacuole Bodies Studying by High-resolution Label-free Microscopy Assisted with Fluorescence Technology
《Chemical Research in Chinese Universities》2024年第6期978-986,共9页LIU Xiangyu ZHANG Jinrui XU Haijiao SHAO Lina WANG Hongda 
supported by the Scientific Instrument Developing Project of the Chinese Academy of Sciences(No.ZDKYYQ20220005);the National Natural Science Foundation of China(Nos.22150003,21727816,and 21721003).
The intracellular logistics system,consisting of vesicles,plays a crucial role in cellular transport.However,there is a lack of research on the types and functions of intracellular vesicles,and new technologies are ne...
关键词:Dark-vacuole body Subcellular Organelle LABEL-FREE Fourier ptychographic microscopy(FPM) Living cell imaging 
The metal tolerance protein OsMTP11 facilitates cadmium sequestration in the vacuoles of leaf vascular cells for restricting its translocation into rice grains
《Molecular Plant》2024年第11期1733-1752,共20页Peng Liu Liang Sun Yu Zhang Yongjun Tan Yuxing Zhu Can Peng Jiurong Wang Huili Yan Donghai Mao Guohua Liang Gang Liang Xiaoxiang Li Yuntao Liang Feng Wang Zhenyan He Wenbang Tang Daoyou Huang Caiyan Chen 
jointly supported by the Strategic Priority Research Program of the CAS(XDA24010404);the National Natural Science Foundation of ChinaNational Natural Science Foundation of China(U19A2026 and 31972490);the Major Program of Natural Science Foundation of Hunan Province(2021JC0007);the Hunan Key Technologies R&D Program Hunan Key Technologies R&D Program(2023NK1010).
Rice(Oryza sativa)provides>20%of the consumed calories in the human diet.However,rice is also a leading source of dietary cadmium(Cd)that seriously threatens human health.Deciphering the genetic network that underlies...
关键词:rice OsCS1/OsMTP11 grain Cd TGN–PVC–vacuole transport allelic variation 
Vacuolar H^(+)-ATPase and BZR1 form a feedback loop to regulate the homeostasis of BR signaling inArabidopsis被引量:4
《Molecular Plant》2023年第12期1976-1989,共14页Yu-Tong Jiang Lu-Han Yang Ji-Xuan Zheng Xian-Chen Geng Yu-Xuan Bai Yu-Chen Wang Hong-Wei Xue Wen-Hui Lin 
the National Natural Science Foundation of China(32070342 and 32270339);the Agri-X Interdisciplinary Fund of Shanghai Jiao Tong University(Agri-X20200204);the Bio-X Interdisciplinary Fund of Shanghai Jiao Tong University(20CX-04);the Scientific and Technological Innovation Funds of Shanghai Jiao Tong University(19X160020009).
Brassinosteroid(BR)is a vital plant hormone that regulates plant growth anddevelopment.BRASSINAZOLE RESISTANT1(BZR1)is a key transcription factor in BR signaling,and its nucleocytoplasmic localization is crucial for B...
关键词:BR BZR1 VACUOLE V-ATPASE TONOPLAST 
Legionella pneumophila-mediated host posttranslational modifications被引量:1
《Journal of Molecular Cell Biology》2023年第5期7-20,共14页Yi Yang Ligang Mei Jing Chen Xiaorong Chen Zhuolin Wang Lu Liu Aimin Yang 
funded by the National Natural Science Foundation of China(32170185,22011530161,31801166,and 91854101);the Natural Science Foundation of Chongqing,China(cstc2021jcyj-msxmX0030 and CSTB2022NSCQ-MSX0463);the Venture Innovation Support Program for Chongqing Overseas Returnees(cx2022066);the Fundamental Research Funds for the Central Universities(2022CDJYGRH-002);the National Training Program of Innovation and Entrepreneurship for Undergraduates(202210611088).
Legionella pneumophila is a Gram-negative bacterium ubiquitously present in freshwater environments and causes a serious type of pneumonia called Legionnaires’disease.During infections,L.pneumophila releases over 300...
关键词:Legionella pneumophila bacterial effector posttranslational modification host-pathogen interaction Legionellacontaining vacuole PATHOGENESIS host defense system 
Major vacuolar TPC1 channel in stress signaling:what matters,K^(+),Ca^(2+) conductance or an ion‑flux independent mechanism?
《Stress Biology》2022年第1期312-323,共12页Igor Pottosin Oxana Dobrovinskaya 
Two-pore cation channel,TPC1,is ubiquitous in the vacuolar membrane of terrestrial plants and mediates the long distance signaling upon biotic and abiotic stresses.It possesses a wide pore,which transports small mono-...
关键词:TPC1 POTASSIUM Calcium Voltage gating Long-distance signaling VACUOLE 
Turnover of diacylglycerol kinase 4 by cytoplasmic acidification induces vacuole morphological change and nuclear DNA degradation in the early stage of pear self-incompatibility response被引量:2
《Journal of Integrative Plant Biology》2021年第12期2123-2135,共13页Xiao-Xiong Kong Jia-Wei Mei Jing Zhang Xiao Liu Ju-You Wu Chun-Lei Wang 
This work was supported by the National Key Research and Development Program of China(2018YFD1000107);National Natural Science Foundation of China(32001983).
Pear has an S-RNase-based gametophytic selfincompatibility(SI)system.Nuclear DNA degradation is a typical feature of incompatible pollen tube death,and is among the many physiological functions of vacuoles.However,the...
关键词:cytoplasmic acidification diacylglycerol kinase PEAR SELF-INCOMPATIBILITY VACUOLE V-ATPASE 
Multiple functions of the vacuole in plant growth and fruit quality被引量:2
《Molecular Horticulture》2021年第1期165-177,共13页Yu-Tong Jiang Lu-Han Yang Ali Ferjani Wen-Hui Lin 
This work is supported by National Natural Science Foundation of China(Grant No.32070342);the Project MDS-JF-2020-8 supported from SJTU JiRLMDS Joint Research Fund,the Agri-X Interdisciplinary Fund of Shanghai Jiao Tong University(20200204);the bio-X Interdisciplinary Fund of Shanghai Jiao Tong University(20CX-04);Shanghai Jiao Tong University Scientific and Technological Innovation Funds(19X160020009).
Vacuoles are organelles in plant cells that play pivotal roles in growth and developmental regulation.The main functions of vacuoles include maintaining cell acidity and turgor pressure,regulating the storage and tran...
关键词:VACUOLE BIOGENESIS Plant growth and development Protein trafficking Fruit quality 
Three-dimensional reconstruction and comparison of vacuolar membranes in response to viral infection被引量:3
《Journal of Integrative Plant Biology》2021年第2期353-364,共12页Xueting Wang Juncai Ma Xuejiao Jin Ning Yue Peng Gao Keith Ka Ki Mai Xian-Bing Wang Dawei Li Byung-Ho Kang Yongliang Zhang 
supported by grants from the National Transgenic Science and Technology Program (2019ZX08010-003);the National Natural Science Foundation of China (31872637);Chinese Universities Scientific Fund (2020TC181);the Research Grants Council of Hong Kong (GRF14126116, GRF14121019, C4012-16E, C4002-17G, and Ao E/M-05/12);Cooperative Research Program for Agriculture Science & Technology Development (0109532019) Rural Development Administration, Republic of Korea。
The vacuole is a unique plant organelle that plays an important role in maintaining cellular homeostasis under various environmental stress conditions. However, the effects of biotic stress on vacuole structure has no...
关键词:COMPARISON cucumber mosaic virus electron tomography SPHERULES tobacco necrosis virus A VACUOLE viral replication 
Structure and Function of TPC1 Vacuole SV Channel Gains Shape被引量:3
《Molecular Plant》2018年第6期764-775,共12页Rainer Hedrich Thomas D. Mueller Dirk Becker Irene Marten 
Plants and animals in endosomes operate TPCI/SV-type cation channels. All plants harbor at least one TPC1 gene. Although the encoded SV channel was firstly discovered in the plant vacuole membrane two decades ago, its...
关键词:Ca^2+ sensors TPC1/SV channel vacuole membrane voltage voltage sensor 
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