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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)
Fingerprint
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%
