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Evolutionary conservation of histone modifications in mammals
Yong H. Woo, Wen Hsiung Li
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Corresponding author for this work
Research output
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Contribution to journal
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Article
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peer-review
41
Scopus citations
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Biochemistry, Genetics and Molecular Biology
Histone Modification
100%
Genetic Conservation
100%
Transcription Factor
40%
Binding Site
40%
Lysine
30%
Methylation
20%
Histone
20%
Mouse
20%
Human
20%
Intergenic Region
10%
Housekeeping Gene
10%
Acetylation
10%
Epigenetics
10%
Gene Control
10%
Promoter Region
10%
Eukaryote
10%
GC-content
10%
CTCF
10%
Medicine and Dentistry
Histone Modification
100%
Genetic Conservation
100%
Transcription Factor
40%
Binding Site
40%
Lysine
30%
Methylation
20%
Histone
20%
Epigenomics
10%
Promoter Region
10%
Spacer DNA
10%
Gene Control
10%
Housekeeping Gene
10%
Acetylation
10%
Immunology and Microbiology
Histone Modification
100%
Genetic Conservation
100%
Transcription Factor
40%
Binding Site
40%
Mouse
20%
Methylation
20%
Human
20%
Epigenetics
10%
Eukaryote
10%
Gene Control
10%
Promoter Region
10%
Housekeeping Gene
10%
Acetylation
10%
Keyphrases
Site Conservation
10%
Human Modification
10%
Slow Evolution
10%
H3K27ac
10%