Search

Search Results

1. Epigenetic OCT4 regulatory network: stochastic analysis of cellular reprogramming

   Experimental studies have shown that chromatin modifiers have a critical effect on cellular reprogramming, i.e., the conversion of differentiated...

   Simone Bruno, Thorsten M. Schlaeger, Domitilla Del Vecchio in npj Systems Biology and Applications

   Article Open access 06 January 2024
   

2. Stage II oesophageal carcinoma: peril in disguise associated with cellular reprogramming and oncogenesis regulated by pseudogenes

   Introduction

   Pseudogenes have been implicated for their role in regulating cellular differentiation and organismal development. However, their role in...

   Govada Pravallika, Ramalingam Rajasekaran in BMC Genomics

   Article Open access 02 February 2024
   

3. p16^High senescence restricts cellular plasticity during somatic cell reprogramming

   Despite advances in four-factor (4F)-induced reprogramming (4FR) in vitro and in vivo, how 4FR interconnects with senescence remains largely under...

   Bogdan B. Grigorash, Dominic van Essen, ... Dmitry V. Bulavin in Nature Cell Biology

   Article 31 August 2023
   

4. Comparative roadmaps of reprogramming and oncogenic transformation identify Bcl11b and Atoh8 as broad regulators of cellular plasticity

   Coordinated changes of cellular plasticity and identity are critical for pluripotent reprogramming and oncogenic transformation. However, the...

   A. Huyghe, G. Furlan, ... F. Lavial in Nature Cell Biology

   Article Open access 08 September 2022
   

5. Vitamin B₁₂ boosts cellular reprogramming

   Hannah Walters in Nature Aging

   Article 05 December 2023
   

6. Reprogramming fibroblast into human iBlastoids

   The study of early human embryogenesis has relied on the use of blastocysts donated to research or simple stem cell culture systems such as...

   Jia ** Tan, **aodong Liu, Jose M. Polo in Nature Protocols

   Article 17 April 2024
   

7. Mitochondrial metabolic reprogramming in diabetic kidney disease

   Diabetic kidney disease, known as a glomerular disease, arises from a metabolic disorder impairing renal cell function. Mitochondria, crucial...

   **aoting Fan, Meilin Yang, ... Zhimei Lv in Cell Death & Disease

   Article Open access 24 June 2024
   

8. Cellular reprogramming is driven by widespread rewiring of promoter-enhancer interactions

   Background

   Long-range interactions between promoters and cis -regulatory elements, such as enhancers, play critical roles in gene regulation. However,...

   Miao Wang, Bing He, ... Peter Fraser in BMC Biology

   Article Open access 20 November 2023
   

9. Vitamin B₁₂ emerges as key player during cellular reprogramming

   Alba Vílchez-Acosta, Gabriela Desdín-Micó, Alejandro Ocampo in Nature Metabolism

   Article 16 November 2023
   

10. Mechanisms, pathways and strategies for rejuvenation through epigenetic reprogramming

    Over the past decade, there has been a dramatic increase in efforts to ameliorate aging and the diseases it causes, with transient expression of...

    Andrea Cipriano, Mahdi Moqri, ... Vittorio Sebastiano in Nature Aging

    Article 15 December 2023
    

11. In vivo reprogramming leads to premature death linked to hepatic and intestinal failure

    The induction of cellular reprogramming via expression of the transcription factors Oct4 , Sox2 , Klf4 and c‐Myc (OSKM) can drive dedifferentiation of...

    Alberto Parras, Alba Vílchez-Acosta, ... Alejandro Ocampo in Nature Aging

    Article 27 November 2023
    

12. Partial Cell Reprogramming as a Way to Revitalize Living Systems

    Abstract

    Aging and associated diseases are acute problems of modern biology and medicine. Although aging cannot currently be prevented, its impact on...

    M. A. Shorokhova in Cell and Tissue Biology

    Article 15 April 2024
    

13. Direct Cardiac Reprogramming: Current Status and Future Prospects

    Advances in cellular reprogramming articulated the path for direct cardiac lineage conversion, bypassing the pluripotent state. Direct cardiac...

    Krishna Kumar Haridhasapavalan, Atreyee Borthakur, Rajkumar P. Thummer in Cell Biology and Translational Medicine, Volume 20

    Chapter 2023
    

14. Recent advances and future prospects in direct cardiac reprogramming

    Cardiovascular disease remains a leading cause of death worldwide despite important advances in modern medical and surgical therapies. As human adult...

    Yifang **e, Ben Van Handel, ... Reza Ardehali in Nature Cardiovascular Research

    Article 11 December 2023
    

15. MacroH2A histone variants modulate enhancer activity to repress oncogenic programs and cellular reprogramming

    Considerable efforts have been made to characterize active enhancer elements, which can be annotated by accessible chromatin and H3 lysine 27...

    Wazim Mohammed Ismail, Amelia Mazzone, ... Alexandre Gaspar-Maia in Communications Biology

    Article Open access 23 February 2023
    

16. Recent Advances in Biochemical Reprogramming Network Under Drought Stress in Soybean

    Global climatic changes and the increasing human population have severely threatened global food security. Under abiotic stresses, metabolic...

    Shifa Shaffique, Muhammad Farooq, ... In-Jung Lee in Journal of Soil Science and Plant Nutrition

    Article 18 March 2024
    

17. A fast chemical reprogramming system promotes cell identity transition through a diapause-like state

    Cellular reprogramming by only small molecules holds enormous potentials for regenerative medicine. However, chemical reprogramming remains a slow...

    ** Chen, Yunkun Lu, ... Saiyong Zhu in Nature Cell Biology

    Article 07 August 2023
    

18. A new advanced cellular model of functional cholinergic-like neurons developed by reprogramming the human SH-SY5Y neuroblastoma cell line

    Modeling human neuronal properties in physiological and pathological conditions is essential to identify novel potential drugs and to explore...

    Alessia D’Aloia, Valentina Pastori, ... Barbara Costa in Cell Death Discovery

    Article Open access 12 January 2024
    

19. Vitamin C facilitates direct cardiac reprogramming by inhibiting reactive oxygen species

    Background

    After myocardial infarction, the lost myocardium is replaced by fibrotic tissue, eventually progressively leading to myocardial...

    Juntao Fang, Qiangbing Yang, ... Joost P. G. Sluijter in Stem Cell Research & Therapy

    Article Open access 17 January 2024
    

20. NMMHC IIA triggered lipid metabolize reprogramming resulting in vascular endothelial cellular tight junction injury

    Background and purpose

    Nonmuscle myosin heavy chain IIA, played an essential role in the promotion of tight junction injury in vascular endothelial...

    Yanni Lv, Daojun Hong, ... Yisong Qian in Molecular Biology Reports

    Article 22 January 2022