Since the early 1990s, the presence of endocrine-disrupting compounds (EDCs) in the environment displaying estrogen-like activities has become a major issue in environmental research and policy. Both natural estrogen, estrone (E1), 17β-estradiol (E2) and synthetic estrogen, 17α-ethinylestraiol (EE2), are excreted in urine and feces of humans and livestocks reach the natural environment through discharge from sewage treatment plants and manure disposal units. The aim of this study is to isolate estrogen-degrading bacteria from pig manure and sewage treatment plant and study their mechanism in the reduced estrogenic activities. Five bacteria were isolated, they are two Gram-positive bacteria,strain SH11 and SH102, three Gram-negative bacteria strain SH28, SH101 and SH104. All isolates can grow in the media containing 0.0003% or 0.003% 17α-ethinylestradiol. In addition to estrogens the strain SH28 could be cultivated on other EDCs, such as octylphenol and nonylphenol. High-performance liquid chromatography analysis of E2 degradation metabolites revealed that all isolates were able to convert C17-OH to C17-keto and produce estrone. Degradation of E2 up to 70% for strain SH11, strain SH28, strain SH102 and EE2 up to 50% for strain SH28, SH102, SH104. The best degradation rate was 90.8% of E2 was degraded by strain11 in 10 ppm at 5 days, 64.6% of EE2 was degraded by strain SH102 in 5 ppm at 5 days. Besides E1, there were ten unknown compounds which they distinguish from retention time during those isolates degradation E1, E2, EE2. Six unknown compounds are more hydrophobic than the original carbon source. The presence of potential degradation genes were preliminarily screened by polymerase chain reaction using the primer sets to amplify specific fragments. The result showed that strain SH11 and strain SH28 have both gene sequences of multiple component phenol hydroxylase and catechol 1, 2- dioxygenase were present in their genomes.