Articles by Malin Kele in JoVE
Derivação livre de integração de células-tronco pluripotentes induzidas por seres humanos com Laminin 521 Matrix Elias Uhlin1, Ana Marin Navarro1,2, Harriet Rönnholm1, Kelly Day1, Malin Kele1, Anna Falk1 1Department of Neuroscience, Karolinska Institutet, 2Department of Microbiology, Tumor and Cell Biology, Karolinska Institutet A derivação robusta das células do tronco pluripotente humano induzido (hiPS) foi conseguida utilizando a reprogramação mediada por vetores de vírus Sendai não-integrante (SeV) de fibroblastos dérmicos. A manutenção da célula hiPS e a expansão clonal foram realizadas usando condições de cultura sem xeno e quimicamente definidas com matriz de laminina humana recombinante 521 (LN-521) e meio Essential E8 (E8).
Other articles by Malin Kele on PubMed
Generation of Human IPS Cell Line CTL07-II from Human Fibroblasts, Under Defined and Xeno-free Conditions Stem Cell Research. Nov, 2016 | Pubmed ID: 27789397 CTL07-II is a healthy feeder-free and characterized human induced pluripotent stem (iPS) cell line. Cultured under xeno-free and defined conditions. The line is generated from healthy human fibroblasts with non-integrating Sendai virus vectors encoding the four Yamanaka factors, OCT4, SOX2, KLF4 and cMYC. The generated iPS cells are free from reprogramming vectors and their purity, karyotypic stability and pluripotent capacity is confirmed.
Derivation of Human IPS Cell Lines from Monozygotic Twins in Defined and Xeno Free Conditions Stem Cell Research. Jan, 2017 | Pubmed ID: 28395796 Human induced pluripotent stem (hiPS) cell lines CTRL-9-II and CTRL-10-I were derived from healthy monozygotic twin donors using non-integrating RNA based Sendai virus reprogramming and cultured in a xeno-free chemically defined condition. The established hiPS cell lines, CTRL-9-II and CTRL-10-I, are karyotypically normal, free from reprogramming vectors, display endogenously expression of pluripotency factors at levels similar to embryonic stem cells. The generated iPS cell lines demonstrate pluripotency by passing bioinformatics assay PluriTest and by embryonic body assay.