Cell biology, Endocytosis, Arabidopsis, Biophysics and Endocytic cycle are his primary areas of study. His Cell biology research includes elements of Membrane, Cell membrane, Membrane protein and Lipid microdomain. The concepts of his Arabidopsis study are interwoven with issues in Arabidopsis thaliana, Plasma protein binding, Nicotiana benthamiana and Green fluorescent protein.
His studies deal with areas such as Cytoplasm and Ionomycin as well as Green fluorescent protein. His Biophysics course of study focuses on Biochemistry and Pollen tube. His Endocytic cycle research is multidisciplinary, relying on both Exocytosis, Receptor-mediated endocytosis and Vesicle, Clathrin.
Jinxing Lin mainly focuses on Cell biology, Botany, Arabidopsis, Biophysics and Endocytosis. His work carried out in the field of Cell biology brings together such families of science as Exocytosis, Membrane and Cytoskeleton. His Botany study deals with Gene intersecting with Cambium.
The various areas that he examines in his Arabidopsis study include Arabidopsis thaliana, Ectopic expression, Aquaporin and Green fluorescent protein. His Biophysics research focuses on subjects like Plant cell, which are linked to Membrane protein. His research in Endocytosis intersects with topics in Internalization, Mutant and Vacuole.
His primary areas of investigation include Cell biology, Arabidopsis, Signal transduction, Exocytosis and Endocytosis. His research integrates issues of Cambium, Vascular cambium, Plant hormone, Membrane and Abiotic stress in his study of Cell biology. His Arabidopsis research includes elements of Arabidopsis thaliana, Vacuole, Internalization, Kinase and Peptide.
Jinxing Lin usually deals with Arabidopsis thaliana and limits it to topics linked to Microtubule and Biophysics, Cell wall and Cytoskeleton. The study incorporates disciplines such as Single Molecule Imaging, Endocytic cycle, Secretory protein and Cell membrane in addition to Exocytosis. His work carried out in the field of Endocytosis brings together such families of science as Lateral root, Calcium signaling, Phosphorylation, Auxin and Endosome.
Jinxing Lin mostly deals with Cell biology, Arabidopsis, Signal transduction, Exocytosis and Endocytosis. Specifically, his work in Cell biology is concerned with the study of Function. His Arabidopsis research is multidisciplinary, incorporating perspectives in Tetratricopeptide, Phosphatase, Brefeldin A, Auxin and Endosome.
His Signal transduction research is multidisciplinary, relying on both GTPase, Transcription factor, Transcriptional regulation and Brassinosteroid. His Exocytosis research is multidisciplinary, incorporating elements of Jasmonic acid, Endocytic cycle and Fluorescence recovery after photobleaching. His Endocytosis research incorporates elements of Lateral root, Calcium signaling, Phosphorylation, Membrane protein and Unconventional protein secretion.
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Elevated CO2 induces physiological, biochemical and structural changes in leaves of Arabidopsis thaliana.
Nianjun Teng;Jian Wang;Tong Chen;Xiaoqin Wu.
New Phytologist (2006)
Single-Molecule Analysis of PIP2;1 Dynamics and Partitioning Reveals Multiple Modes of Arabidopsis Plasma Membrane Aquaporin Regulation
Xiaojuan Li;Xiaohua Wang;Yong Yang;Ruili Li.
The Plant Cell (2011)
A Membrane Microdomain-Associated Protein, Arabidopsis Flot1, Is Involved in a Clathrin-Independent Endocytic Pathway and Is Required for Seedling Development
Ruili Li;Peng Liu;Yinglang Wan;Tong Chen.
The Plant Cell (2012)
Clathrin and Membrane Microdomains Cooperatively Regulate RbohD Dynamics and Activity in Arabidopsis
Huaiqing Hao;Lusheng Fan;Tong Chen;Ruili Li.
The Plant Cell (2014)
Boron influences pollen germination and pollen tube growth in Picea meyeri.
Qinli Wang;Longdou Lu;Xiaoqin Wu;Yiqin Li.
Tree Physiology (2003)
Analysis of interactions among the CLAVATA3 receptors reveals a direct interaction between CLAVATA2 and CORYNE in Arabidopsis
Yingfang Zhu;Yuqing Wang;Ruili Li;Xiufen Song.
Plant Journal (2009)
Pollen Dispersion, Pollen Viability and Pistil Receptivity in Leymus chinensis
Zehao Huang;Jinmao Zhu;Xijin Mu;Jinxing Lin.
Annals of Botany (2004)
Endocytosis and its regulation in plants
Lusheng Fan;Lusheng Fan;Ruili Li;Jianwei Pan;Zhaojun Ding.
Trends in Plant Science (2015)
Lipid microdomain polarization is required for NADPH oxidase-dependent ROS signaling in Picea meyeri pollen tube tip growth
Peng Liu;Rui-Li Li;Liang Zhang;Qin-Li Wang.
Plant Journal (2009)
Disruption of actin filaments by latrunculin B affects cell wall construction in Picea meyeri pollen tube by disturbing vesicle trafficking.
Tong Chen;Nianjun Teng;Xiaoqin Wu;Yuhua Wang.
Plant and Cell Physiology (2007)
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