Skip to main content


Page 2 of 4

  1. De novo organ regeneration is the process in which adventitious roots or shoots regenerate from detached or wounded organs. De novo organ regeneration can occur either in natural conditions, e.g. adventitious roo...

    Authors: Qihui Wan, Ning Zhai, Dixiang Xie, Wu Liu and Lin Xu
    Citation: Cell Regeneration 2023 12:1
  2. Myelopoiesis is the process in which the mature myeloid cells, including monocytes/macrophages and granulocytes, are developed. Irregular myelopoiesis may cause and deteriorate a variety of hematopoietic malig...

    Authors: Yang-Xi Hu and Qing Jing
    Citation: Cell Regeneration 2023 12:2
  3. Deer antlers constitute a unique mammalian model for the study of both organ formation in postnatal life and annual full regeneration. Previous studies revealed that these events are achieved through the proli...

    Authors: Hengxing Ba, Xin Wang, Datao Wang, Jing Ren, Zhen Wang, Hai-Xi Sun, Pengfei Hu, Guokun Zhang, Shengnan Wang, Chao Ma, Yusu Wang, Enpeng Wang, Liang Chen, Tianbin Liu, Ying Gu and Chunyi Li
    Citation: Cell Regeneration 2022 11:43
  4. Cell fate transition is a fascinating process involving complex dynamics of three-dimensional (3D) chromatin organization and phase separation, which play an essential role in cell fate decision by regulating ...

    Authors: Xiaoru Ling, Xinyi Liu, Shaoshuai Jiang, Lili Fan and Junjun Ding
    Citation: Cell Regeneration 2022 11:42
  5. Skeletal muscle plays a critical role in human health. Muscle stem cells (MuSCs) serve as the major cell type contributing to muscle regeneration by directly differentiating to mature muscle cells. MuSCs usual...

    Authors: Xin Fu, Cheng-le Zhuang and Ping Hu
    Citation: Cell Regeneration 2022 11:40
  6. Intestinal organoids, derived from intestinal stem cell self-organization, recapitulate the tissue structures and behaviors of the intestinal epithelium, which hold great potential for the study of development...

    Authors: Fanlu Meng, Congcong Shen, Li Yang, Chao Ni, Jianyong Huang, Kaijun Lin, Zanxia Cao, Shicai Xu, Wanling Cui, Xiaoxin Wang, Bailing Zhou, Chunyang Xiong, Jihua Wang and Bing Zhao
    Citation: Cell Regeneration 2022 11:39
  7. Malignant glioma is a highly heterogeneous and invasive primary brain tumor characterized by high recurrence rates, resistance to combined therapy, and dismal prognosis. Glioma stem cells (GSCs) are likely res...

    Authors: Xin-Xin Han, Chunhui Cai, Li-Ming Yu, Min Wang, Wenhan Yang, Dai-Yu Hu, Jie Ren, Lu-Ying Zhu, Jia-Jia Deng, Qing-Qing Chen, Hua He and Zhengliang Gao
    Citation: Cell Regeneration 2022 11:36
  8. Central nervous system (CNS) neurons typically fail to regenerate their axons after injury leading to neurological impairment. Axonal regeneration is a highly energy-demanding cellular program that requires lo...

    Authors: Ning Huang and Zu-Hang Sheng
    Citation: Cell Regeneration 2022 11:33
  9. Cilia are microtubule-based organelles projected from most eukaryotic cell surfaces performing cell motility and signaling. Several previously recognized non-ciliary proteins play crucial roles in cilium forma...

    Authors: Kaiming Xu and Guangshuo Ou
    Citation: Cell Regeneration 2022 11:29

    The Correction to this article has been published in Cell Regeneration 2022 11:41

  10. The CCCTC-binding factor (CTCF) protein and its modified forms regulate gene expression and genome organization. However, information on CTCF acetylation and its biological function is still lacking. Here, we ...

    Authors: Shixin Gong, Gongcheng Hu, Rong Guo, Jie Zhang, Yiqi Yang, Binrui Ji, Gang Li and Hongjie Yao
    Citation: Cell Regeneration 2022 11:34
  11. Human-mouse chimeras offer advantages for studying the pathophysiology of human cells in vivo. Chimeric mouse brains have been created by engrafting human fetal tissue- or pluripotent stem cell-derived progeni...

    Authors: Peng Jiang and Mahabub Maraj Alam
    Citation: Cell Regeneration 2022 11:32
  12. Reprogramming somatic cells to pluripotent stem cells has revolutionized the biomedical field by providing enormous hopes and opportunities for the regeneration of tissues and organs for transplantation. Using...

    Authors: Deepti Abbey
    Citation: Cell Regeneration 2022 11:27
  13. Mouse embryonic stem cells (mESCs) cycle in and out of a transient 2-cell (2C)-like totipotent state, driven by a complex genetic circuit involves both the coding and repetitive sections of the genome. While a...

    Authors: Lu Li, Pishun Li, Jiale Chen, Li Li, Yunfan Shen, Yangzixuan Zhu, Jiayi Liu, Lu Lv, Song Mao, Fang Chen, Guang Hu and Kai Yuan
    Citation: Cell Regeneration 2022 11:25
  14. Pancreatic β cells differentiated from stem cells provide promise for cell replacement therapy of diabetes. Human pluripotent stem cells could be differentiated into definitive endoderm, followed by pancreatic...

    Authors: Wenwen Jin and Wei Jiang
    Citation: Cell Regeneration 2022 11:24

    The Correction to this article has been published in Cell Regeneration 2022 11:30

  15. Malignant Glioma is characterized by strong self-renewal potential and immature differentiation potential. The main reason is that malignant glioma holds key cluster cells, glioma stem cells (GSCs). GSCs contr...

    Authors: Xin-Xin Han, Shengkai Jin, Li-Ming Yu, Min Wang, Xin-Yu Hu, Dai-Yu Hu, Jie Ren, Meng-Han Zhang, Wei Huang, Jia-Jia Deng, Qing-Qing Chen, Zhengliang Gao, Hua He and Chunhui Cai
    Citation: Cell Regeneration 2022 11:23
  16. Mesenchymal stem cells (MSCs)-based therapy has displayed some promises in ischemia heart diseases although its efficacy may be affected by changes in surrounding environments. This study evaluated the role of...

    Authors: Xing Qin, Juanjuan Fei, Yu Duan, Asli F. Ceylan, Fuyang Zhang and Jun Ren
    Citation: Cell Regeneration 2022 11:21
  17. Adult mammalian cardiomyocytes are unable to proliferate to regenerate lost tissue after heart injury. Du et al., reporting in Cell Stem Cell, employ a FUCCI- and MADM-based system to screen for small molecules c...

    Authors: Nevan Powers and Guo N. Huang
    Citation: Cell Regeneration 2022 11:20
  18. Animal models are widely used for biomedical studies and drug evaluation. The small intestine plays key roles in nutrient absorption, hormone secretion, microbiota defense and drug absorption and metabolism. A...

    Authors: Haonan Li, Xiaodan Wang, Yalong Wang, Mengxian Zhang, Fan Hong, Hong Wang, Along Cui, Jianguo Zhao, Weizhi Ji and Ye-Guang Chen
    Citation: Cell Regeneration 2022 11:19
  19. Bioprinting has exhibited remarkable promises for the fabrication of functional skin substitutes. However, there are some significant challenges for the treatment of full-thickness skin defects in clinical pra...

    Authors: Changmei Niu, Liyang Wang, Dongdong Ji, Mingjun Ren, Dongxu Ke, Qiang Fu, Kaile Zhang and Xi Yang
    Citation: Cell Regeneration 2022 11:10
  20. Long non-coding (lnc) RNA plays important roles in many cellular processes. The function of the vast majority of lncRNAs remains unknown. Here we identified that lncRNA-1700113A16RIK existed in skeletal muscle...

    Authors: Xin Fu, Sheng Li, Minzhi Jia, Bo Xu, Lele Yang, Ruimiao Ma, Hong Cheng, Wenjun Yang and Ping Hu
    Citation: Cell Regeneration 2022 11:13
  21. Adult skeletal muscle stem cells, also known satellite cells (SCs), are a highly heterogeneous population and reside between the basal lamina and the muscle fiber sarcolemma. Myofibers function as an immediate...

    Authors: Hu Li, Lin Kang, Rimao Wu, Changyin Li, Qianying Zhang, Ran Zhong, Lijing Jia, Dahai Zhu and Yong Zhang
    Citation: Cell Regeneration 2022 11:11

    The Correction to this article has been published in Cell Regeneration 2022 11:17

  22. The Chchd10 gene encodes a coiled-coil-helix-coiled-coil-helix-domain containing protein predicted to function in the mitochondrion and nucleus. Mutations of Chchd10 are associated with ALS, dementia and myopathy...

    Authors: Wei Xia, Jiamin Qiu, Ying Peng, Madigan M. Snyder, Lijie Gu, Kuilong Huang, Nanjian Luo, Feng Yue and Shihuan Kuang
    Citation: Cell Regeneration 2022 11:14
  23. Myocardial regeneration has been considered a promising option for the treatment of adult myocardial injuries. Previously, a chick early amniotic fluid (ceAF) preparation was shown to contain growth-related fa...

    Authors: Baiping Cui, Yufan Zheng, Xiang Gao, Lihong Zhang, Borui Li, Jia Chen, Xinyan Zhou, Mengyuan Cai, Wenrui Sun, Yuting Zhang, Keejong Chang, Jiayi Xu, Fuyin Zhu, Yan Luo, Tao Sun, Jin Qian…
    Citation: Cell Regeneration 2022 11:9
  24. Long non-coding RNAs (lncRNAs) are important regulators of diverse biological processes, especially skeletal muscle cell differentiation. Most of the lncRNAs identified to date are localized in the nucleus and...

    Authors: Lili Zhai, Xin Wan, Rimao Wu, Xiaohua Yu, Hu Li, Ran Zhong, Dahai Zhu and Yong Zhang
    Citation: Cell Regeneration 2022 11:8
  25. Early human brain development can be affected by multiple prenatal factors that involve chemical exposures in utero, maternal health characteristics such as psychiatric disorders, and cancer. Breast cancer is one...

    Authors: Kangli Cui, Wenwen Chen, Rongkai Cao, Yingying Xie, Peng Wang, Yunsong Wu, Yaqing Wang and Jianhua Qin
    Citation: Cell Regeneration 2022 11:7
  26. Cell metabolism plays vital roles in organismal development, but it has been much less studied than transcriptional and epigenetic control of developmental programs. The difficulty might be largely attributed ...

    Authors: Ting Li, Yejun Zou, Shuning Liu, Yi Yang, Zhuo Zhang and Yuzheng Zhao
    Citation: Cell Regeneration 2022 11:5
  27. The liver has remarkable capability to regenerate, employing mechanism to ensure the stable liver-to-bodyweight ratio for body homeostasis. The source of this regenerative capacity has received great attention...

    Authors: Wenjuan Pu and Bin Zhou
    Citation: Cell Regeneration 2022 11:2

    The Correction to this article has been published in Cell Regeneration 2022 11:12

  28. Studying the etiology of human neurodevelopmental diseases has long been a challenging task due to the brain’s complexity and its limited accessibility. Human pluripotent stem cells (hPSCs)-derived brain organ...

    Authors: Xiaoxiang Lu, Jiajie Yang and Yangfei Xiang
    Citation: Cell Regeneration 2022 11:1
  29. Information about the dynamic change and post-injury regeneration of cervical epithelium is relatively rare, even though it is tightly related to gynecologic malignancy. Here, using a feeder cell-based culturi...

    Authors: Zixian Zhao, Yujia Wang, Yingchuan Wu, Dandan Li, Ting Zhang, Yu Ma, Xiaoming Teng and Wei Zuo
    Citation: Cell Regeneration 2021 10:36
  30. The evolution of pluripotent stem cell-derived retinal organoids (ROs) has brought remarkable opportunities for developmental studies while also presenting new therapeutic avenues for retinal diseases. With a ...

    Authors: Xiao Zhang, Wen Wang and Zi-Bing Jin
    Citation: Cell Regeneration 2021 10:33

Annual Journal Metrics

  • Citation Impact 2023
    Journal Impact Factor: 4.0
    5-year Journal Impact Factor: N/A
    Source Normalized Impact per Paper (SNIP): 0.618
    SCImago Journal Rank (SJR): 1.047

    Speed 2023
    Submission to first editorial decision (median days): 8
    Submission to acceptance (median days): 95

    Usage 2023
    Downloads: 241,999
    Altmetric mentions: 146