ZFIN ID: ZDB-EXP-240313-3
Experiment Conditions Description: chemical treatment by environment: glucose, chemical treatment by environment: streptozocin, chemical treatment by environment: Terfenadine
chemical treatment by environment: glucose
Name: chemical treatment by environment
Synonyms:
Definition: Chemical treatment condition in which the chemical is introduced through the environment. For zebrafish this is the tank water.
Ontology: Zebrafish Environment Condition Ontology [ZECO:0000238]
Name: glucose
Synonyms: DL-glucose, Glc, gluco-hexose, Glucose, Glukose
Definition: An aldohexose used as a source of energy and metabolic intermediate.
Ontology: ChEBI [CHEBI:17234]  ( EBI )
chemical treatment by environment: streptozocin
Name: chemical treatment by environment
Synonyms:
Definition: Chemical treatment condition in which the chemical is introduced through the environment. For zebrafish this is the tank water.
Ontology: Zebrafish Environment Condition Ontology [ZECO:0000238]
Name: streptozocin
Synonyms: 2-Deoxy-2-(((methylnitrosoamino)carbonyl)amino)-D-glucopyranose, 2-Deoxy-2-(3-methyl-3-nitrosoureido)-D-glucopyranose, 2-deoxy-2-{[methyl(nitroso)carbamoyl]amino}-alpha-D-glucopyranose, estreptozocina, N-D-Glucosyl-(2)-N'-nitrosomethylharnstoff, N-D-Glucosyl-(2)-N'-nitrosomethylurea, streptozocin, streptozocine, Streptozocinium, streptozocinum, Streptozotocin, Zanosar
Definition: An N-nitrosourea that is an antibiotic produced by Streptomyces achromogenes. It is used as an antineoplastic agent and to induce diabetes in experimental animals.
Ontology: ChEBI [CHEBI:9288]  ( EBI )
chemical treatment by environment: Terfenadine
Name: chemical treatment by environment
Synonyms:
Definition: Chemical treatment condition in which the chemical is introduced through the environment. For zebrafish this is the tank water.
Ontology: Zebrafish Environment Condition Ontology [ZECO:0000238]
Name: Terfenadine
Synonyms: racemic terfenadine, seldane, Terfenadine, ternadin
Definition:
Ontology: ChEBI [CHEBI:9453]  ( EBI )
Publication: Kim et al., 2023