Å‹ß‚Ì‹LŽ–
2024/04/26
ƒ[ƒuƒ‰ƒtƒBƒbƒVƒ…‘n–ò‚Ì—˜“_‚Ɖۑè
2024/04/25
V‚µ‚¢S“Å«–hŒäˆâ“`Žqstannniocalcin1‚Ì—Õ°‰ž—p
2024/04/24
PDXZ and Tour Angiogenesis Analysis
2024/04/23
Aging-associated microstructural deterioration of vertebra in zebra fi sh
2024/04/22
Š³ŽÒ‚ª‚ñˆÚAƒ[ƒuƒ‰ƒtƒBƒbƒVƒ…ƒ‚ƒfƒ‹(PDXZ)‚ÆR‘̈ã–ò
2023/11/21
zebrafish”F’mǃ‚ƒfƒ‹ƒXƒNƒŠ[ƒjƒ“ƒO‚É‚æ‚éV‹KŽ¡—ÖòŠJ”‚̬Œ÷—á
2023/10/31
ƒ[ƒuƒ‰ƒtƒBƒbƒVƒ…‘n–ò‚̉ۑè‚ÆŽ•ží—ª
2023/05/15
TG Zebrafish Insuline Fluorescent Proteins
2023/05/15
foods that are typically used in diet-induced zebrafish type 2 diabetes mellitus models
2023/05/15
Zebrafish Developmental Systems Toxicology
Zebrafish developmental systems toxicology is a field of research that uses the zebrafish model organism to study the effects of environmental chemicals on embryonic development and organogenesis. Zebrafish are ideal for this purpose because they have a high degree of genetic and physiological similarity to humans, they are transparent and externally fertilized, they have a rapid and well-characterized development, and they are amenable to high-throughput screening and imaging techniques. Zebrafish developmental systems toxicology aims to identify the molecular and cellular mechanisms of toxicity, the developmental windows of susceptibility, the phenotypic outcomes and the potential transgenerational effects of exposure to various chemicals. Zebrafish developmental systems toxicology can also provide insights into the etiology and prevention of human developmental disorders and diseases that may have an environmental origin.
*Congenital Anomalies 2016:56, 18-27
ŠÖ˜Aƒtƒ@ƒCƒ‹
Zebrafish Developmental Systems Toxicology
ŠÖ˜AƒŠƒ“ƒN
In Vivo
ƒnƒCƒXƒ‹[ƒvƒbƒgƒXƒNƒŠ[ƒjƒ“ƒO