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Dynamic trk and G protein signalings regulate dopaminergic neurodifferentiation in human trophoblast stem cells
Eing Mei Tsai
, Yu Chih Wang
, Tony Tung Yin Lee
, Cheng Fang Tsai
, Hung Sheng Chen
, Feng Jie Lai
, Kazunari K. Yokoyama
,
Tsung Hsun Hsieh
, Ruey Meei Wu
, Jau Nan Lee
物理治療學系(含學士班、復健科學碩、博士班)
Kaohsiung Medical University
Accelerated Biosciences Corp.
Chi-Mei Medical Center
National Taiwan University
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同行評審
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引文 斯高帕斯(Scopus)
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深入研究「Dynamic trk and G protein signalings regulate dopaminergic neurodifferentiation in human trophoblast stem cells」主題。共同形成了獨特的指紋。
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Medicine and Dentistry
Stem Cell
100%
Tretinoin
100%
Dopamine Agonist
100%
Guanine Nucleotide Binding Protein
100%
Trophoblast
100%
Dopamine
80%
Neural Stem Cell
80%
Differentiation
60%
Parkinson's Disease
60%
Degenerative Disease
60%
Stem Cell
60%
Signal Transduction
40%
Gene Expression
40%
Tyrosine 3 Monooxygenase
40%
Pluripotent Stem Cell
40%
Regulatory Mechanism
20%
Analysis
20%
Drug
20%
Chemotherapeutic Agent
20%
Cell Protein
20%
Association
20%
Precursor
20%
Neuron
20%
Comprehension
20%
Cell Therapy
20%
Protein-Protein Interaction
20%
Epigenomics
20%
Morphogenesis
20%
Dopaminergic Neuron
20%
Substantia Nigra Pars Compacta
20%
Axon
20%
Nerve Regeneration
20%
Catenin
20%
Translational Medicine
20%
Histone Modification
20%
Receptor Tyrosine Kinase
20%
Protein Tyrosine Kinase A
20%
Neuroscience
Dopaminergic
100%
G Protein
100%
Trophoblast
100%
Tretinoin
83%
Dopamine
66%
Parkinson's Disease
50%
Neural Stem Cell
50%
Neurodegenerative Disorder
33%
Cell Signaling
33%
Gene Expression
33%
Tyrosine Hydroxylase
33%
Eicosanoid Receptor
16%
Epigenetics
16%
Cell Protein
16%
Histone Modification
16%
Tyrosine
16%
Morphogenesis
16%
Substantia Nigra Pars Compacta
16%
Axon
16%
Nervous System Regeneration
16%
Catenin
16%
Protein-Protein Interaction
16%
TrkA Receptor
16%
Nigrostriatal Pathway
16%
CGMP-dependent Protein Kinase
16%
Biochemistry, Genetics and Molecular Biology
Dynamics
100%
Dopaminergic
100%
G Protein
100%
Trophoblast
100%
Signaling Protein
100%
Retinoic Acid
55%
Dopamine
44%
Gene Expression
22%
Signal Transduction
22%
Tyrosine Hydroxylase
22%
Regulatory Mechanism
11%
Comprehension
11%
Rat Model
11%
Kinase
11%
Association
11%
Taxonomy
11%
Morphogenesis
11%
Epigenetics
11%
Precursor
11%
Catenin
11%
Histone Modification
11%
Protein-Protein Interaction
11%
Tyrosine
11%
Nerve Regeneration
11%
Molecular Network
11%
Axonogenesis
11%
Axon
11%