Publications: Stemgent — RNA Reprogramming

Following is a list of publications in scientific journals which use Stemgent RNA reprogramming technologies. For publication which use other Stemgent pages, please see individual products.

 

StemRNA 3rd Gen Reprogramming Kit

(Cat. No. 00-0076)

 

Reprogramming and differentiation-dependent transcriptional alteration of DNA damage response and apoptosis genes in human induced pluripotent stem cells.

Shimada M; Tsukada K; Kagawa N; Matsumoto Y. J Radiation Res 2019:1-10 (2019)


Efficient RNA-mediated reprogramming of human somatic cells to naïve pluripotency facilitated by tankyrase inhibition

Bredenkamp N; Yang J; Clarke J; Stirparo GG; von Meyenn F; Baker D; Drummond R; Li D; Wu C; Rostovskaya M ;Smith A; Guo G bioRxiv https://doi.orb/10.1101/636670: (2019).

Microfluidic reprogramming to pluripotency of human somatic cells. 

Gagliano O; Luni C; Qui W; Bertin E; Torchio E; Galvanin S; Urciuolo A; Elvassore N. Nat. Protocols 14:772-737 (2019).

 

Therapeutic Potential of Patient iPSC-Derived iMelanocytes in Autologous Transplantation.

Liu L-P; Li Y-M; Guo N-N; LI S; Ma X; Zhang Y-X; Gao Y; Huang J-L; Zheng D-X; Wang L-Y; Xu H; Hui L; Zheng Y-W. Cell Reports 27:455-466.e5 (2019).

 

Diversity of dermal fibroblasts as major determinant of variability in cell reprogramming.

Sacco AM; Belviso I; Romano V; Carfora A; Schonauer F; Nurzynska D; Montagnani S; Di Meglio F; Castaldo C. J Cell Mol Med 2019:1-13; https://doi.org/10.1111/jcmm.14316 (2019).

 

Generation of two induced pluripotent stem cell lines from skin fibroblasts of sisters carrying a c.1094C>A variation in the SCN10A gene potentially associated with small fiber neuropathy.

Klein T; Klug K; Henkel L; Kwok CK; Edenhofer F; Klopocki E; Kurth I; Üceyler N. Stem Cell Res 35:101396 (2019).

 

iPSC generation, prime to naïve reversion and characterization and primordial germ cell differentiation of Northern White Rhino.

Dasgupta B; Rusha E; Drukker M. Univ Bremen : (2019).

 

A Renewable Source of Human Beige Adipocytes for Development of Therapies to Treat Metabolic Syndrome.

Su S; Guntur AR; Nguyen DC; Fakory SS; Doucette CC; Leech C; Lotana H; Kelley M; Kohil J; Martino J; Sims-Lucas S; Liaw L; Vary C; Rosen CJ; Brown AC. Cell Reports 25:3215-3228.e9 (2018).

 

Generation of the human induced pluripotent stem cell line UKWNLi002-A from dermal fibroblasts of a woman with a heterozygous c.608 C>T (p.Thr203Met) mutation in exon 3 of the nerve growth factor gene potentially associated with hereditary sensory and autonomic neuropathy type 5.

Klein T; Henkel L; Klug K; Kwok CK; Klopocki E; Üceyler N. Stem Cell Research https://doi.org/10.1016/j.scr.2018.10.017 (2018)

 

Comprehensive characterization of distinct states of human naive pluripotency generated by reprogramming.

Liu X; Nefzger CM; Rossello FH; Chen J; Knaupp AS; Firas J; Ford E; Pflueger J; Paynter JM; Chy HS; O'Brien CM; Huang C; Mishra K; Hodgson-Garms M; Jansz N; Williams SM; Blewitt ME; Nilsson SK; Schittenhelm RL; Laslett AL; Lister R; Polo JM. Nature Methods 14:1055 (2017)

 


 

StemRNA-SR Reprogramming Kit

(Cat. No. 00-0075)

 

Generation and characterization of human iPSCs from human fibroblasts in respect to osteochondral regeneration.

Danisovic L; Csobonyeiova M; Nicodemou A; Novakova ZV; Miko M; Zamborsky R; Varga I.  FASEB J 33:Ib168 (2019)

 

A Rapid and Highly Efficient Method for the Isolation, Purification, and Passaging of Human-Induced Pluripotent Stem Cells.

Gao X; Sprando RL; Yourick JJ.  Cellular Reprogramming 20:282-288 (2018)

 

Generation of nine induced pluripotent stem cell lines as an ethnic diversity panel.

Goa X; Yourick JJ; Sprando RL.  Stem Cell Research https://doi.org/10.1016/j.scr.2018.07.013: (2018)

 

Comparative transcriptomic analysis of endothelial progenitor cells derived from umbilical cord blood and adult peripheral blood: Implications for the generation of induced pluripotent stem cells.

Goa X; Yourick JJ; Sprando RI.  Stem Cell Research 25:202-212 (2017)


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