Faculty Information - LIU Xiaohui

LIU Xiaohui

Department / Course FACULTY OF BIOTECHNOOLOGY AND LIFE SCIENCE Department of Biotechnology and Life Sciences

Job

Academic conference presentation
1.	2025/11/03	Subtype-specific regulatory mechanism mediated through the N-terminal domain in activation of estrogen receptor ERα for the next-generation bisphenols
2.	2025/10/21	N-terminal domain of estrogen receptor α regulates a subtype-specific agonist/antagonist mechanism for next-generation bisphenols (The 62nd Japanese Peptide Symposium)
3.	2024/11/06	The N-terminal activation function 1 (AF-1) adjacent to the C-terminal AF-2 interacts directly with each other in wild-type ERα to recruit the coactivator proteins
4.	2024/11/08	Elucidation of the mechanism of androgen receptor transcriptional activity suppression mediated by ERRγ in prostate cancer cells
5.	2024/08/27	Ecological survey Sitophilus oryzae and Sitophilus zeamais in Japan (第27回国際昆虫学会議（ICE2024）)
6.	2023/10/31	Exploration of the ERα N-terminal domain AF-1 site essential in mRNA transcriptional activation
7.	2022/06/14	London dispersion forces as driving force for the ERβ antagonist activity of ERα-agonist next-generation bisphenols
8.	2021/11/04	Halogen-bonding is not necessarily the reason of ERα-agonist and ERβ-antagonist bifunctional activities: ERα/ERβ-heterobifunctionality of hydrocarbon-group-containing next-generation bisphenols
9.	2020/09/14	London dispersion force acting between bisphenol-halogen atoms and estrogen receptors causes a strong functional ERα-agonist / ERβ-antagonist activities
10.	2019/12/12	Evaluation of binding affinity of next generation bisphenols for 21 human nuclear receptors
11.	2019/09/19	Binding affinity of next generation bisphenols for human nuclear receptors
12.	2019/09/19	Position specific halogen substitution of bisphenol A induces differently in binding and transcriptional activity on estrogen receptors
13.	2018/12/05	Evaluation of the binding ability of an orphan nuclear receptor Nurr1 and synthetic peptides． (10th International Peptide Symposium)
14.	2017/11/22	Homodimer function of human nuclear receptor ERRα evidenced using α-helix peptides in the dimer interface. (The 54nd Japanese Peptide Symposium)