Keyphrases
Transcriptomics
100%
Perna Viridis
100%
Marine mussels
100%
Triphenyltin (TPhT)
100%
Molecular Toxicity
100%
Gill
62%
Hepatopancreas
62%
P. Viridis
37%
Chloride
25%
Bioaccumulation
25%
Pollution
12%
Transcriptome Sequencing
12%
Risk Assessment
12%
Lipid Metabolism
12%
Transcriptome Analysis
12%
Differentially Expressed Genes
12%
South-East Asia
12%
Cell Behavior
12%
Marine Organisms
12%
Xenobiotic Detoxification
12%
Antifouling Paint
12%
Endocrine Disruptors
12%
Active Ingredients
12%
Chronic Exposure
12%
Metabolic Genes
12%
Toxic Mechanism
12%
Ecotoxicity
12%
Apoptotic Pathway
12%
Toxicity Data
12%
Immune Response
12%
Biomonitoring
12%
Gene Expression Pattern
12%
Endocrine System
12%
Nuclear Receptor
12%
Risk Management
12%
Fungicide
12%
Commercially Important
12%
Coastal Marine Ecosystems
12%
Triphenyltin Chloride
12%
Endoplasmic Reticulum-associated Degradation
12%
Continuous Release
12%
Marine Pollution
12%
LC10
12%
Biochemistry, Genetics and Molecular Biology
Transcriptomics
100%
Mussel
100%
Frequency Doubled Neodymium YAG Laser
100%
Perna viridis
100%
Bioaccumulation
66%
Dry Weight
66%
Gene Expression
33%
Gene Expression Profiling
33%
Programmed Cell Death
33%
RNA Sequencing
33%
Lipid Metabolism
33%
Nuclear Receptor
33%
Cell Function
33%
Immune Response
33%
Ecotoxicity
33%
Endoplasmic-Reticulum-Associated Protein Degradation
33%
LC10
33%
EC10
33%
Differentially Expressed Gene
33%
Pharmacology, Toxicology and Pharmaceutical Science
Mussel
100%
Perna viridis
100%
Triphenyltin
100%
Transcriptome
25%
Bioaccumulation
25%
Endocrine Disruptor
12%
Cell Nucleus Receptor
12%
Xenobiotic Metabolism
12%
Peptides and Proteins
12%
Detoxication
12%
Long Term Exposure
12%
Ecotoxicity
12%
Fungicide
12%
Triphenyltin Chloride
12%