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Molecular approaches to lung cancer evaluation
Jacek Niklinski, Fred R. Hirsch
Research output
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Contribution to journal
›
Article
›
peer-review
15
Scopus citations
Overview
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Dive into the research topics of 'Molecular approaches to lung cancer evaluation'. Together they form a unique fingerprint.
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Keyphrases
Lung Cancer
100%
Molecular Approaches
100%
Methylation
50%
Early Detection
50%
Molecular Mechanism
50%
Malignancy
50%
Protein Level
50%
MRNA Level
50%
CDNA Microarray
50%
Epigenetic Mechanisms
50%
TP53 mutation
50%
Increased Incidence
50%
Treatment Results
50%
DNA Modification
50%
Tumor Suppressor Gene
50%
RNA-based
50%
Efficiency Increase
50%
Functional Assay
50%
Genetic Changes
50%
Promoter Region
50%
Early Prevention
50%
Aberrant Cells
50%
Lack of Understanding
50%
Therapeutic Outcome
50%
β-tubulin Gene
50%
Preneoplastic Lesions
50%
Microsatellite Alterations
50%
Actual Situation
50%
Molecular Biology Techniques
50%
Cell Identification
50%
Therapeutic Progress
50%
Protein-based Methods
50%
Simultaneous Identification
50%
Biochemistry, Genetics and Molecular Biology
Methylation
100%
Promoter Region
100%
RNA
100%
Volume
100%
Gene Mutation
100%
cDNA Microarray
100%
DNA RNA Hybridization
100%
P53
100%
Cancer Staging
100%
Epigenetic Mechanism
100%
Molecular Biology
100%
Tumor Suppressor Gene
100%
Tubulin
100%
Microsatellite
100%
Medicine and Dentistry
Lung Cancer
100%
Disease
100%
Cancer Staging
100%
Methylation
50%
Promoter Region
50%
Cancer
50%
DNA RNA Hybridization
50%
Protein P53
50%
Gene Mutation
50%
Tumor Suppressor Gene
50%
cDNA Microarray
50%
Deoxyribonucleoprotein
50%
Epigenetic Mechanism
50%
Beta Tubulin
50%
Pharmacology, Toxicology and Pharmaceutical Science
Disease
100%
Lung Cancer
100%
Cancer Staging
100%
Complementary DNA
50%
Protein P53
50%
Tumor Suppressor Protein
50%
Beta Tubulin
50%
Chemical Engineering
Methylation
100%
Veterinary Science and Veterinary Medicine
P53
100%