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Targeting Cancer Metabolism with Isoselenazolium Salts
Pavels Dimitrijevs
Research output
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Student thesis
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Doctoral Thesis
Overview
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Dive into the research topics of 'Targeting Cancer Metabolism with Isoselenazolium Salts'. Together they form a unique fingerprint.
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Medicine and Dentistry
Cancer Metabolism
100%
Cardiolipin
100%
Pyruvate Kinase
100%
Poly(adenosine Diphosphate Ribose)
75%
Combination Therapy
25%
Neoplasm
25%
Mitochondrion
25%
Breast Cancer
25%
Homeostasis
25%
Mitochondrial Respiration
25%
Carcinogenesis
25%
Cancer Cell
25%
Liver Cancer
25%
Lung Cancer
25%
Fluorometry
25%
Adult T-Cell Leukemia/Lymphoma
25%
Cell Line
25%
Cytotoxicity
25%
Phospholipid
25%
NMR Spectroscopy
25%
Organoselenium Derivative
25%
Enzyme Kinetics
25%
Binding Competition
25%
Photometry
25%
Biochemistry, Genetics and Molecular Biology
Metabolic Pathway
100%
Cardiolipin
100%
Pyruvate Kinase
100%
Adenosine Diphosphate Ribose
75%
Cancer Cell
25%
Anticancer
25%
Mitochondrion
25%
Mitochondrial Respiration
25%
Homeostasis
25%
T Cell
25%
Carcinogenesis
25%
Cytotoxicity
25%
Binding Competition
25%
Phospholipid
25%
Enzyme
25%
Homotetramer
25%
Enzyme Kinetics
25%
Pharmacology, Toxicology and Pharmaceutical Science
Cardiolipin
100%
Pyruvate Kinase
100%
Poly(adenosine Diphosphate Ribose)
75%
T Cell Leukemia
25%
Breast Cancer
25%
Combination Therapy
25%
Neoplasm
25%
Carcinogenesis
25%
Liver Cancer
25%
Lung Cancer
25%
Phospholipid
25%
Cytotoxicity
25%
Organoselenium compound
25%
Enzyme Kinetics
25%
Chemistry
Pyruvate
100%
Cardiolipin
100%
Poly(ADPribose)
75%
Selenium
50%
NMR Spectroscopy
25%
Pharmacological Effect
25%
formation
25%
Phospholipid
25%
Enzyme Kinetic
25%
Organoselenium compound
25%
Kinetics Type
25%
new drug
25%