Keyphrases
Drastic Change
100%
Cellular Processes
100%
Dimethyl Sulfoxide
100%
Epigenetic Landscape
100%
Process Landscape
100%
MicroRNA
37%
Microtissue
37%
Biological Effects
25%
Biomedical Science
12%
Clinical Trials
12%
Tissue Type
12%
Biological Processes
12%
Transcriptome
12%
Differentially Expressed Genes
12%
Transcriptome Analysis
12%
Tissue Specificity
12%
Epigenomics
12%
Deregulation
12%
DNA Methylation (DNAm)
12%
Proteome
12%
Embryonic Development
12%
Technological Innovation
12%
Biomedical Field
12%
Field Effect
12%
In Vitro Assay
12%
High-throughput Methods
12%
DNA Methylation Profile
12%
Oocyte Cryopreservation
12%
Methylation Reaction
12%
Genome-wide Methylation
12%
Methylation Pattern
12%
Cryopreservation
12%
MicroRNA Analysis
12%
Medical Applications
12%
Embryo Cryopreservation
12%
Cross-organ
12%
Safer Solvents
12%
New Research Areas
12%
Cardiac Microtissues
12%
INIS
humans
100%
in vitro
100%
dimethyl sulfoxide
100%
liver
37%
methylation
37%
tissues
25%
dna
25%
biological effects
25%
specificity
12%
applications
12%
clinical trials
12%
genes
12%
toxicity
12%
organs
12%
embryos
12%
oocytes
12%
solvents
12%
deregulation
12%
embryonic development
12%
Immunology and Microbiology
Epigenetics
100%
DNA Methylation
66%
Biological Activity
66%
Cryopreservation
66%
Biological Phenomena and Functions Concerning the Entire Organism
33%
Methylation
33%
Transcriptome
33%
Tissue Specificity
33%
Gene Expression Profiling
33%
Embryo Development
33%
Oocyte
33%
Medicine and Dentistry
In Vitro
100%
Dimethyl Sulfoxide
100%
microRNA
50%
Biological Activity
25%
DNA Methylation
25%
Cryopreservation
25%
Clinical Trial
12%
Biological Phenomena and Functions Concerning the Entire Organism
12%
Transcriptome
12%
Tissue Specificity
12%
Embryo Development
12%
Methylation
12%
Gene Expression Profiling
12%
Biomedical Discipline
12%
Tissue (Anatomy)
12%
Epigenomics
12%
Oocyte
12%
Biochemistry, Genetics and Molecular Biology
Epigenetics
100%
Dimethyl Sulfoxide
100%
MicroRNA
50%
DNA Methylation
25%
Cryopreservation
25%
Biological Activity
25%
Biological Phenomena and Functions Concerning the Entire Organism
12%
Methylation
12%
Clinical Trial
12%
Embryogenesis
12%
Gene Expression Profiling
12%
Proteome
12%
Transcriptome
12%
Tissue Specificity
12%
Epigenomics
12%
Neuroscience
In Vitro
100%
Dimethyl Sulfoxide
100%
MicroRNA
50%
DNA Methylation
25%
Transcriptome
25%
Methylation
12%