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Regulatory patterns analysis of transcription factor binding site clustered regions and identification of key genes in endometrial cancer.


ABSTRACT: Endometrial cancer (EC) is one of the three fatal tumors of the female reproductive system. Epigenetic alterations have been reported to be important in tumorigenesis, especially the chromatin accessibility changes and transcription factor binding differences. However, the regulatory mechanism underlying epigenetic alterations in EC development remains unclear. Here, we identified and characterized transcription factor binding site clustered regions (TFCRs) by integrating chromatin accessibility and transcription factor binding information. We totally identified 78,820 TFCRs and explored the relationship between TFCRs and regulatory elements, gene expression and mutation. Finally, we constructed a bioinformatic framework to identify candidate oncogenes and screened 13 candidate key genes, which may serve as potential diagnostic markers or therapeutic targets of EC.

SUBMITTER: Tang X 

PROVIDER: S-EPMC8844752 | biostudies-literature | 2022

REPOSITORIES: biostudies-literature

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Regulatory patterns analysis of transcription factor binding site clustered regions and identification of key genes in endometrial cancer.

Tang Xiaohan X   Wang Junting J   Tao Huan H   Yuan Lin L   Du Guifang G   Ding Yang Y   Xu Kang K   Bai Xuemei X   Li Yaru Y   Sun Yu Y   Huang Xin X   Zheng Xiushuang X   Li Qianqian Q   Gong Bowen B   Zheng Yang Y   Xu Jingxuan J   Xu Xiang X   Wang Zhe Z   Bo Xiaochen X   Lu Meisong M   Li Hao H   Chen Hebing H  

Computational and structural biotechnology journal 20220120


Endometrial cancer (EC) is one of the three fatal tumors of the female reproductive system. Epigenetic alterations have been reported to be important in tumorigenesis, especially the chromatin accessibility changes and transcription factor binding differences. However, the regulatory mechanism underlying epigenetic alterations in EC development remains unclear. Here, we identified and characterized transcription factor binding site clustered regions (TFCRs) by integrating chromatin accessibility  ...[more]

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