Cellular Reprogramming
Published by Mary Ann Liebert
ISSN : 2152-4971 eISSN : 2152-4998
Abbreviation : Cell. Reprogramming
Aims & Scope
Cellular Reprogramming is the premier journal dedicated to providing new insights on the etiology, development, and potential treatment of various diseases through reprogramming cellular mechanisms.
The Journal delivers information on cutting-edge techniques and the latest high-quality research and discoveries that are transforming biomedical research.
Cellular Reprogramming coverage includes: Somatic cell nuclear transfer and reprogramming in early embryos Embryonic stem cells Nuclear transfer stem cells (stem cells derived from nuclear transfer embryos) Generation of induced pluripotent stem (iPS) cells and/or potential for cell-based therapies Epigenetics Adult stem cells and pluripotency.
View Aims & ScopeMetrics & Ranking
Impact Factor
Year | Value |
---|---|
2025 | 1.7 |
2024 | 1.20 |
SJR (SCImago Journal Rank)
Year | Value |
---|---|
2024 | 0.450 |
Quartile
Year | Value |
---|---|
2024 | Q3 |
h-index
Year | Value |
---|---|
2024 | 66 |
Journal Rank
Year | Value |
---|---|
2024 | 12645 |
Journal Citation Indicator
Year | Value |
---|---|
2024 | 153 |
Impact Factor Trend
Abstracting & Indexing
Journal is indexed in leading academic databases, ensuring global visibility and accessibility of our peer-reviewed research.
Subjects & Keywords
Journal’s research areas, covering key disciplines and specialized sub-topics in Biochemistry, Genetics and Molecular Biology, designed to support cutting-edge academic discovery.
Most Cited Articles
The Most Cited Articles section features the journal's most impactful research, based on citation counts. These articles have been referenced frequently by other researchers, indicating their significant contribution to their respective fields.
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Improvement of Cloned Embryos Development by Co-Culturing with Parthenotes: A Possible Role of Exosomes/Microvesicles for Embryos Paracrine Communication
Citation: 140
Authors: Islam M., Su Jin, Yoo Bin, Byeong Chun
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Histone Deacetylase Inhibitors Improve<i>In Vitro</i>and<i>In Vivo</i>Developmental Competence of Somatic Cell Nuclear Transfer Porcine Embryos
Citation: 125
Authors: Jianguo, Yanhong, Jason W., Lee D., Eric M., Melissa S., August, Clifton N., Randall S.
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Lipid, Protein, and MicroRNA Composition Within Mesenchymal Stem Cell-Derived Exosomes
Citation: 120
Authors: Hao, Chun, Yingxin, Huhu, Lin, Danbin, Qing, Xijuan
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mTOR-Mediated Activation of p70 S6K Induces Differentiation of Pluripotent Human Embryonic Stem Cells
Citation: 105
Authors: Charles A., Ahmi, Carrie J., Stacie L., Sandra T., Vonya M., Diane L., Peter J., Gerald P.
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Mesenchymal Stem/Stromal Cells in Regenerative Medicine: Past, Present, and Future
Citation: 99
Authors: Ourania, Maria G.
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The Effects of 5-Aza-2′- Deoxycytidine and Trichostatin A on Gene Expression and DNA Methylation Status in Cloned Bovine Blastocysts
Citation: 76
Authors: Yongsheng, Jianmin, Lijun, Wenbing, Fusheng, Jun, Yong
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Derivation and Characterization of Bovine Induced Pluripotent Stem Cells by Transposon-Mediated Reprogramming
Citation: 74
Authors: Thirumala R., Dharmendra, Silke, Wiebke, Zoltan, Katharina, Rüdiger, Heiner, Wilfried A.
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Mechanical Phenotyping of Mouse Embryonic Stem Cells: Increase in Stiffness with Differentiation
Citation: 70
Authors: Anand, Jaydev P., Hamid, Andrew, Antoine, Carol L.
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Increasing Histone Acetylation of Cloned Embryos, But Not Donor Cells, by Sodium Butyrate Improves Their<i>In Vitro</i>Development in Pigs
Citation: 70
Authors: Ziban Chandra, Mukesh Kumar, Sang Jun, Hoon Taek
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Amniotic Fluid Cells Are More Efficiently Reprogrammed to Pluripotency Than Adult Cells
Citation: 68
Authors: Elisa, Ioannis, Lisa, Robert J., Thomas, Georges, James, Joseph T., Michael, Valentin, Roger J., Katalin