Keyphrases
Pancreatic Islets
100%
Cadmium
100%
Mouse Islets
100%
Transcriptome Changes
100%
Cadmium Exposure
42%
Type 2 Diabetes Mellitus (T2DM)
28%
Islet
28%
Human Islets
28%
Changes in Gene Expression
28%
Cadmium Chloride
28%
Gene Expression
14%
Path Analysis
14%
Molecular Mechanism
14%
Insulin Resistance
14%
Plasma Membrane
14%
RNA Sequencing (RNA-seq)
14%
Environmental Exposure
14%
Glucose Homeostasis
14%
Disease Process
14%
Insulin
14%
Gene Expression Profile
14%
Multifactorial Disease
14%
Drinking Water
14%
Mediating Effect
14%
Environmentally Relevant
14%
Diabetes Susceptibility
14%
Secondary Changes
14%
Next-generation RNA Sequencing
14%
Pathophysiological Processes
14%
Cadmium Concentration
14%
Sphingosine Kinase 1 (SphK1)
14%
Exposure Conditions
14%
Intracellular Protein Trafficking
14%
Cadmium Accumulation
14%
Gene Expression Regulatory Network
14%
Molecular Regulatory Networks
14%
RNF216
14%
Islet Culture
14%
Pharmacology, Toxicology and Pharmaceutical Science
RNA-Sequencing
100%
Cell Protein
100%
Environmental Exposure
100%
Disease
100%
Insulin Resistance
100%
Transcriptome
100%
Non Insulin Dependent Diabetes Mellitus
100%
Medicine and Dentistry
Pancreatic Islet
100%
Transcriptome
100%
Gene Expression
60%
Ex Vivo
40%
Population
40%
Type 2 Diabetes
40%
Environmental Exposure
20%
Maturity Onset Diabetes of the Young
20%
Diabetes
20%
Disease Process
20%
Cell Protein
20%
Insulin Resistance
20%
Glucose Homeostasis
20%
RNA Sequencing
20%
RNA Sequence
20%
Multifactorial Disease
20%
Cell Membrane
20%
Protein Targeting
20%
Biochemistry, Genetics and Molecular Biology
Gene Expression
100%
Transcriptome
100%
Population
66%
Regulatory Network
33%
Multifactorial Disease
33%
RNA Sequencing
33%
RNA Sequence
33%
Glucose Homeostasis
33%
Protein Targeting
33%
Insulin Resistance
33%
Cell Membrane
33%
Neuroscience
In Vivo
100%
Transcriptome
100%
Gene Expression
100%
Protein Targeting
33%
RNA-Seq
33%
Cell Protein
33%
RNA Sequence
33%
Cell Membrane
33%
Diabetes Mellitus
33%
Immunology and Microbiology
Transcriptome
100%
Gene Expression
100%
Population
66%
RNA Sequencing
33%
RNA Sequence
33%
Glucose Homeostasis
33%
Insulin Resistance
33%
Cell Membrane
33%
Protein Targeting
33%