SOX4 facilitates PGR protein stability and FOXO1 expression conducive for human endometrial decidualization

  1. Pinxiu Huang
  2. Wenbo Deng
  3. Haili Bao
  4. Zhong Lin
  5. Mengying Liu
  6. Jinxiang Wu
  7. Xiaobo Zhou
  8. Manting Qiao
  9. Yihua Yang
  10. Han Cai
  11. Faiza Rao
  12. Jingsi Chen
  13. Dunjin Chen
  14. Jinhua Lu
  15. Haibin Wang  Is a corresponding author
  16. Aiping Qin  Is a corresponding author
  17. Shuangbo Kong  Is a corresponding author
  1. The First Affiliated Hospital of Guangxi Medical University, China
  2. Xiamen University, China
  3. Liuzhou Maternity and Child Health Hospital, China
  4. The Third Affiliated Hospital of Guangzhou Medical University, China

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History

  1. Version of Record published
  2. Accepted Manuscript published
  3. Accepted
  4. Preprint posted
  5. Received

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  1. Pinxiu Huang
  2. Wenbo Deng
  3. Haili Bao
  4. Zhong Lin
  5. Mengying Liu
  6. Jinxiang Wu
  7. Xiaobo Zhou
  8. Manting Qiao
  9. Yihua Yang
  10. Han Cai
  11. Faiza Rao
  12. Jingsi Chen
  13. Dunjin Chen
  14. Jinhua Lu
  15. Haibin Wang
  16. Aiping Qin
  17. Shuangbo Kong
(2022)
SOX4 facilitates PGR protein stability and FOXO1 expression conducive for human endometrial decidualization
eLife 11:e72073.
https://doi.org/10.7554/eLife.72073

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https://doi.org/10.7554/eLife.72073