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Jue SHI, Prof
Professor
,
Department of Physics
Associate Dean (Teaching and Learning)
,
Office of the Dean of Science
Director
,
Centre for Quantitative Systems Biology
https://orcid.org/0000-0003-4061-3496
Email
jshi
hkbu.edu
hk
Accepting PhD Students
2004
2025
Research activity per year
Overview
Fingerprint
Network
Projects / Grants
(10)
Research Output
(46)
Similar Scholars
(3)
Supervised Work
(10)
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Dive into the research topics where Jue SHI is active. Topic labels come from the works of this scholar. Together they form a unique fingerprint.
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Keyphrases
Cancer Cells
68%
Mitotic Arrest
55%
Antimitotic Drugs
52%
Antimitotic
51%
DNA Damage
48%
Cell Death
43%
Natural Killer Cells
42%
Apoptosis
40%
Magnetic Iron Oxide Nanoparticles
36%
Kinesin-5
35%
Cell Fate
34%
Single-molecule Kinetics
34%
Mitosis
33%
Slippage
33%
P53 Dynamics
32%
Tumor Microenvironment
30%
Paclitaxel
30%
P53 Network
26%
P53 Pathway
24%
Cell Migration
24%
Mammalian Cells
24%
Network Dynamics
23%
Single-cell Imaging
23%
Nanoparticles Effect
22%
Dihydroorotate Dehydrogenase (DHODH)
22%
Cell Morphology
22%
Magnetic Nanoparticles
22%
Live Cell Imaging
22%
Cellular Response
21%
Drug Sensitivity
21%
Kinetic Data
20%
Single Molecule
19%
In Cancer
19%
Cell Behavior
19%
Transitional Dynamics
19%
Cellular Heterogeneity
19%
Drug Response
19%
Drug-induced
18%
Phosphorylation
18%
Cancer Drugs
18%
Interaction Dynamics
17%
Chemoresistance
17%
Cancer Therapy Responses
17%
Three-dimensional (3D)
17%
Landscape Analysis
17%
Bcl-xL
17%
Attractor Landscape
17%
Hepatocellular Carcinoma Metastasis
16%
Cell Death Response
16%
Chromosome Missegregation
16%
Biochemistry, Genetics and Molecular Biology
Dynamics
100%
Cancer Cell
75%
P53
63%
Enzyme
41%
Natural Killer Cell
40%
Mitosis Inhibition
39%
Cell Fate
38%
Cell Death
36%
Drug Response
25%
Cellular Imaging
23%
Kinesin
22%
Dihydroorotate Dehydrogenase
22%
DNA Damage Response
22%
Programmed Cell Death
18%
Anticancer
18%
Macrophage
17%
Drug Resistance
17%
Chromosome Segregation
15%
MicroRNA
15%
Cytotoxicity
15%
Transcription
14%
Genomics
14%
Chemical Reaction Kinetics
13%
Metabolite
13%
Cooperation
13%
DNA Damage
12%
Tumor Progression
12%
Single-Cell Analysis
11%
CEACAM1
11%
CCL3
11%
Lysyl Oxidase
11%
Enzyme Kinetics
11%
Fas Ligand
11%
Enzyme Mechanism
11%
Bcl-2
11%
Metaphase
11%
Intravenous Immunoglobulin
11%
Electric Field
11%
Granzyme
11%
Pyruvate Kinase
11%
Catenin
11%
Anabolism
11%
Nicotinamide Adenine Dinucleotide Phosphate
11%
Mir-200
11%
Transforming Growth Factor Beta
11%
Cell Cycle Progression
11%
Necroptosis
11%
Cell Migration
9%
Cell-Cell Interaction
8%
Drug Sensitivity
8%