Bor Luen Tang mostly deals with Cell biology, Golgi apparatus, Endoplasmic reticulum, Secretory pathway and Neuroscience. The various areas that Bor Luen Tang examines in his Cell biology study include Autophagy and SIRT2. His Golgi apparatus study introduces a deeper knowledge of Biochemistry.
Bor Luen Tang interconnects Exocytosis, Secretion, ΔF508, PDZ domain and Unfolded protein response in the investigation of issues within Secretory pathway. His Neuroscience research includes elements of Signal transduction and Neurodegeneration. In his study, Neuroglia and Axoplasmic transport is strongly linked to Vesicular transport protein, which falls under the umbrella field of Rab.
Bor Luen Tang focuses on Cell biology, Golgi apparatus, Endoplasmic reticulum, Molecular biology and Rab. The concepts of his Cell biology study are interwoven with issues in Vesicular transport protein, Biochemistry and Syntaxin. In the subject of general Golgi apparatus, his work in Secretory pathway, Brefeldin A and Vesicular-tubular cluster is often linked to Dipeptidyl peptidase, thereby combining diverse domains of study.
His COPII, KDEL and COPI study in the realm of Endoplasmic reticulum connects with subjects such as Vesicular Transport Proteins. His Molecular biology study combines topics in areas such as Epitope, Chinese hamster ovary cell and Transfection. The Rab study combines topics in areas such as Autophagy, Cancer, Guanine nucleotide exchange factor and Small GTPase.
His primary scientific interests are in Cell biology, Neuroscience, Rab, Cell and Autophagy. As part of his studies on Cell biology, Bor Luen Tang often connects relevant areas like Secretion. His work in Secretion addresses issues such as Endoplasmic reticulum, which are connected to fields such as Membrane protein.
His Neuroscience research integrates issues from Histone, Disease, Regeneration and HDAC6. He has included themes like Cancer, Guanine nucleotide exchange factor, Prohibitin and Microbiology in his Rab study. His Autophagy course of study focuses on Mutation and BAG3, SNARE complex and Lipid bilayer fusion.
His scientific interests lie mostly in Cell biology, Small GTPase, Neuroscience, Histone and Importin. His Guanine nucleotide exchange factor and Rab study in the realm of Cell biology interacts with subjects such as C9orf72. His Guanine nucleotide exchange factor research includes elements of Carcinogenesis, Cancer, Metastasis, Epidermal growth factor receptor and Effector.
His Rab study incorporates themes from Autophagy, BAG3 and Mutation. His study in Neuroscience is interdisciplinary in nature, drawing from both Neurodegeneration, Cognitive decline and Longevity. His Histone research is multidisciplinary, incorporating perspectives in Cell, Transcription factor, Function, Hippocampal formation and Circadian rhythm.
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Early/recycling endosomes-to-TGN transport involves two SNARE complexes and a Rab6 isoform
Frédéric Mallard;Bor Luen Tang;Thierry Galli;Danièle Tenza.
Journal of Cell Biology (2002)
Rescue of ΔF508-CFTR Trafficking via a GRASP-Dependent Unconventional Secretion Pathway
Heon Yung Gee;Shin Hye Noh;Bor Luen Tang;Kyung Hwan Kim.
Cellular COPII proteins are involved in production of the vesicles that form the poliovirus replication complex.
René C. Rust;Lukas Landmann;Rainer Gosert;Bor Luen Tang.
Journal of Virology (2001)
The recycling pathway of protein ERGIC-53 and dynamics of the ER-Golgi intermediate compartment
Judith Klumperman;Anja Schweizer;Henrik Clausen;Bor Luen Tang.
Journal of Cell Science (1998)
Localization of the Lys, Asp, Glu, Leu tetrapeptide receptor to the Golgi complex and the intermediate compartment in mammalian cells.
Gareth Griffiths;Maria Ericsson;Jacomine Krijnse-Locker;Tommy Nilsson.
Journal of Cell Biology (1994)
Sirtuins' modulation of autophagy
Fanny Ng;Bor Luen Tang;Bor Luen Tang.
Journal of Cellular Physiology (2013)
Molecular cloning, characterization, subcellular localization and dynamics of p23, the mammalian KDEL receptor.
Bor Luen Tang;Siew Heng Wong;Xiao Li Qi;Seng Hui Low.
Journal of Cell Biology (1993)
Regulation of Nogo and Nogo receptor during the development of the entorhino-hippocampal pathway and after adult hippocampal lesions.
Ana Mingorance;Xavier Fontana;Marta Solé;Ferran Burgaya.
Molecular and Cellular Neuroscience (2004)
Localization and Recycling of gp27 (hp24γ3): Complex Formation with Other p24 Family Members
Joachim Füllekrug;Tatsuo Suganuma;Bor Luen Tang;Wanjing Hong.
Molecular Biology of the Cell (1999)
Involvement of members of the Rab family and related small GTPases in autophagosome formation and maturation.
Christelle En Lin Chua;Bin Qi Gan;Bor Luen Tang.
Cellular and Molecular Life Sciences (2011)
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