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BACH2: A marker of DNA damage and ageing
L. M. Uittenboogaard
, C. Payan-Gomez
, J. Pothof
, W. van IJcken
, P. G. Mastroberardino
, I. van der Pluijm
, J. H.J. Hoeijmakers
, M. Tresini
urosario
Research output
:
Contribution to Journal
›
Research Article
›
peer-review
24
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Scopus citations
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Keyphrases
Aging
100%
DNA Damage
100%
BACH2
100%
Antioxidant System
33%
Transcription Factor
33%
Meta-analysis
16%
Immune System
16%
Expression Pattern
16%
Omics Technologies
16%
Homeostasis
16%
Accelerated Aging
16%
Response Pathways
16%
Small Interfering RNA (siRNA)
16%
Highly Sensitive
16%
MRNA Expression
16%
Cell Cycle Regulation
16%
Microarray Analysis
16%
Response Pattern
16%
Natural Aging
16%
DNA Lesions
16%
Nucleotide Excision Repair
16%
Gene Expression Profiling
16%
Specific Response
16%
Nuclear Factor Erythroid 2-related Factor 2 (Nrf2)
16%
Parallel Measurements
16%
Maintenance System
16%
Expression Change
16%
Transcription Regulation
16%
Expression Dataset
16%
Identified Set
16%
UV Aging
16%
Affymetrix Microarray
16%
Cellular Constituents
16%
B Cell Differentiation
16%
Similar Expression
16%
Blocking DNA
16%
UV Damage
16%
Large-scale Parallel
16%
Small Maf
16%
UV-induced DNA Damage
16%
Failed Repair
16%
Defense Pathways
16%
Genome Maintenance
16%
Metabolism Suppression
16%
Organ Aging
16%
Murine Cells
16%
Biochemistry, Genetics and Molecular Biology
DNA Damage
100%
Transcription
33%
Transcription Factor
33%
Metabolic Pathway
16%
Dynamics
16%
Gene Expression Profiling
16%
Tamsulosin
16%
Homeostasis
16%
Messenger RNA
16%
Small Interfering RNA
16%
B Cell
16%
Cellular Differentiation
16%
Cell Cycle Regulation
16%
Base Excision Repair
16%
Nucleotide Excision Repair
16%
Downregulation
16%
Upregulation
16%
DNA Damage Response
16%
Transcription Regulation
16%
Transcription Factor Maf
16%
Immunology and Microbiology
DNA Damage
100%
Transcription Factor
33%
Gene Expression Assay
16%
Dynamics
16%
Immune System
16%
Homeostasis
16%
B Cell
16%
Cell Differentiation
16%
Upregulation
16%
Downregulation
16%
Excision Repair
16%
DNA Damage Response
16%
Cell Cycle Regulation
16%
Transcription Regulation
16%
Transcription Factor Maf
16%
Agricultural and Biological Sciences
DNA Damage
100%
Antioxidant
28%
Transcription Factor
28%
Tamsulosin
14%
Gene Expression
14%
Mouse
14%
Transponder
14%
Homeostasis
14%
Meta-Analysis
14%
Messenger RNA
14%
Base Excision Repair
14%
Immune System
14%
Cell Cycle
14%
Cell Differentiation
14%
B Cell
14%
Nucleotide Excision Repair
14%