Endocrine Disruption
TEDX List of Potential Endocrine Disruptors
4-n-pentylphenol
CAS # 14938-35-3
Alternative Names
4-n-amylphenol
4-pentylphenol
Category*
Medical/Veterinary/Research
Evidence Supporting This Chemical as an Endocrine Disruptor
Akahori Y, Nakai M, Yamasaki K, Takatsuki M, Shimohigashi Y, Ohtaki M. 2008. Relationship between the results of in vitro receptor binding assay to human estrogen receptor alpha and in vivo uterotrophic assay: Comparative study with 65 selected chemicals. Toxicol in Vitro 22(1):225-231.
Nakagomi M, Suzuki E, Usumi K, Saitoh Y, Yoshimura S, Nagao T, Ono H. 2001. Effects of endocrine disrupting chemicals on the microtubule network in Chinese hamster V79 cells in culture and in Sertoli cells in rats. Teratogenesis, Carcinogenesis & Mutagenesis 21(6):453-462.
Nishihara T, Nishikawa J, Kanayama T, Dakeyama F, Saito K, Imagawa M, Takatori S, Kitagawa Y, Hori S, Utsumi H. 2000. Estrogenic activities of 517 chemicals by yeast two-hybrid assay. Journal of Health Science 46(4):282-298.
Schultz TW, Sinks GD, Cronin MTD. 2000. Effect of substituent size and dimensionality on potency of phenolic xenoestrogens evaluated with a recombinant yeast assay. Environ Toxicol Chem 19(11):2637-2642.
*Category References
ChemIDPlus Lite.
Schultz TW, Sinks GD, Cronin MTD. 2000. Effect of substituent size and dimensionality on potency of phenolic xenoestrogens evaluated with a recombinant yeast assay. EnvironToxicol Chem 19(11):2637-2642.