Stemgent® mRNA 重编程试剂盒 Stemgent® mRNA Reprogramming Kit


产品编号 产品名称 产品规格 产品等级 产品价格
00-0071 Stemgent® mRNA Reprogramming Kit
Stemgent® mRNA 重编程试剂盒
1kit
  • 产品特性
  • 相关资料
  • Q&A
  • 参考文献

Stemgent® mRNA 重编程试剂盒Stemgent® mRNA 重编程试剂盒                  Stemgent® mRNA Reprogramming Kit

Stemgent® mRNA Reprogramming Kit

◆产品概况

Stemgent® mRNA 重编程试剂盒与microRNA Booster 试剂盒(00-0073)配套使用可以最快,最安全,最有效制备人iPS细胞。该方法不发生整合,不含病毒,与临床研究相关。与慢病毒,仙台病毒和其他方法相比,16天内制备iPS细胞,3周内细胞可进行传代培养。慢病毒,仙台病毒和其他方法还需要花20周时间确认没有病毒残留。该系统完全免除了病毒相关的生物污染问题的顾虑。

 Stemgent® mRNA重编程试剂盒包括5种重编程因子,监测转染效率的细胞核GFP标记蛋白,Stemgent Pluriton™ 重编程培养基, B18R 蛋白。试剂盒和操作方法都经过充分的检测和验证。该试剂盒已经能够将人BJ成纤维细胞进行重编程,该细胞可作为对照。Stemgent® mRNA重编程试剂盒可以使研究正更容易调控蛋白表达水平的时间,量化控制重编程因子。



◆优势

● 非整合-无需进行基因组整合

● 快速重编程,最快12天制备克隆

● 量化控制各种重编程因子

● 不需要进行多次传代和细胞克隆筛选

● 在正常细胞和疾病细胞上进行验证

● 提供培训课程(收费)和在线支持

Stemgent® mRNA 重编程试剂盒                  Stemgent® mRNA Reprogramming Kit

Stemgent® mRNA 重编程试剂盒                  Stemgent® mRNA Reprogramming Kit

使用mRNA重编程系统制备iPS时程图片。在第6-10天观察到的iPS细胞形态(放大 10×).

使用mRNA重编程系统制备iPS时程图片,第12天和第14天。第14天用TRA-1-60荧光染色(10×)。

◆相关产品


货号

名称

规格

00-0073

microRNA Booster Kit

microRNA增强试剂盒

1kit

00-0071

Stemgent® mRNA Reprogramming Kit

mRNA 重编程试剂盒

1kit

00-0075

Stemgent® StemRN™ SR Reprogramming Kit

StemRNATM -SR重编程试剂盒

1kit


视频

Stemgent® mRNA 重编程试剂盒                  Stemgent® mRNA Reprogramming Kit

Stemgent mRNA 重编程试剂盒使用技巧

Kit Contents

●    2 vials – Stemgent Oct4 mRNA, Human (Cat. No. 05-0014), 20µg

    1 vial – Stemgent Klf4 mRNA, Human (Cat. No. 05-0015), 20µg

    1 vial – Stemgent Sox2, Human(Cat. No. 05-0016), 20µg

    1 vial – Stemgent Lin28 mRNA, Human(Cat. No. 05-0017), 20µg

    1 vial – Stemgent c-Myc mRNA, Human(Cat. No. 05-0018), 20µg

    1 vial – Stemgent nGFP mRNA (Cat. No. 05-0019), 20µg

    B18R Recombinant Protein, Carrier-Free (Cat. No. 03-0017), 50µg

    0.2 ml of Pluriton™ Supplement 2500X (Cat. No. 01-0016)

    500 ml of Pluriton™ Medium (Cat. No. 01-0015)

 

Storage and Stability

1.      Store the box (Part 1 of 2) containing the 7 vials of mRNA, the 1 vial of B18R, and the 1 vial of Pluriton Supplement at or below -70°C. 

2.      Store the bottle (Part 2 of 2) of Pluriton Medium at -20°C.

3.    All kit components are stable for a minimum of 3 months from date of receipt, when stored as directed.

 

Quality Control

The Stemgent mRNA Reprogramming Kit is functionally tested for successful mRNA-based reprogramming of BJ human fibroblasts. Complete reprogramming of iPS cell colonies is confirmed by continued expression of pluripotency markers and expansion of primary iPS colonies into stable lines. All components are sterile and have tested negative for mycoplasma.


Recommended Usage

Refer to the Stemgent Protocol “Reprogramming Human Fibroblasts using the Stemgent mRNA Reprogramming Kit” for detailed instructions on material handling and productive use of the Stemgent mRNA Reprogramming Kit.


Documents

Limited Use License MIT

Limited Use License iPS Academia Japan


Related Products

●   Stemgent Oct4 mRNA, Human (Cat. No. 05-0014)

●   Stemgent Klf4 mRNA, Human (Cat. No. 05-0015)

●   Stemgent Sox2 mRNA, Human(Cat. No. 05-0016)

●   Stemgent Lin-28 mRNA, Human(Cat. No. 05-0017)

●   Stemgent c-Myc mRNA, Human(Cat. No. 05-0018)

●   Stemgent nGFP mRNA (Cat. No. 05-0019)

●   Stemedia™ NutriStem™ XF/FF Culture Medium (Cat. No. 01-0005)

●   Stemolecule™ Y27632 (Cat. No. 04-0012)

●   Stemfactor™ Fibroblast Growth Factor-basic (Human Recombinant) (Cat. No. 03-0002)

●   microRNA Booster Kit (00-0073)

      ●   RNA Transfection Kit (00-0069)

      ●   mRNA Reprogramming Factors Set: hOKSML (00-0067)

      ●   NuFF-RQ™ IRR (GSC3002G)

   FGF-basic, Human Recombinant (03-0002)

   XF/FF Culture Medium (01-0005)

      ●   TRA-1-60 Antibody (DyLight™ 488), Mouse anti-Human (09-0068)

      ●   TRA-1-81 Antibody (DyLight™ 488), Mouse anti-Human (09-0069)

      ●   TRA-1-81 Antibody (Purified), Mouse anti-Human (09-0011)

      ●   TRA-1-60 Antibody (Purified), Mouse anti-Human (09-0010)

●   Nanog Antibody (Affinity Purified), Rabbit anti-Mouse/Human (09-0020)

●   Oct4 Antibody (Affinity Purified), Rabbit anti-Mouse/Human (09-0023)

   SSEA-4 Antibody (Purified), Mouse anti-Human (09-0006)

●   StemRNA™-SR Reprogramming Kit (00-0075)


Specification Sheets

●    00-0071 Product Specification Sheet

Safety Data Sheets

   03-0017 Safety Data Sheet

   00-0071 Safety Data Sheet

   01-0015 Safety Data Sheet

   05-XXXX mRNA Safety Data Sheet

   01-0016 Safety Data Sheet

Manuals

   User Manual: Stemgent mRNA Reprogramming System (updated January 2012)

Application Notes

   Generation of Safe, Integration-free Human Induced Pluripotent Stem (iPS) Cells using the mRNA Reprogramming System

Brochures

   Brochure: Stemgent mRNA Reprogramming System

Other Documents

   Scientific Poster: mRNA Reprogramming SLAS 2011

   FAQs: mRNA Reprogramming

   Limited Use License MIT

   Limited Use License iPS Academia Japan

Product Sheets

   mRNA Reprogramming System: The fastest and safest non-integrating reprogramming technology

 

  [1]    Pankaj K Mandal and Derrick J Rossi. (2013) Reprogramming human fibroblasts to pluripotency 

       using modified mRNA. Nature Protocols, 8: 568 – 582.

  [2]     Angel, M., and Yanik, M.F. (2010) Innate immune suppression enables frequent transfection with 

       RNA encoding reprogramming proteins. PLoS One 5: e11756.

  [3]     Warren, L., Manos, P.D., Ahfeldt, T., Loh, Y.H., Li, H., Lau, F., Ebina, W., Mandal, P.K., Smith, Z.D.,

        Meissner, A., Daley, D.Q., Brack, A.S., Collins, J.J., Cowan, C., Schlaeger, T.M., and Rossi, D.J. (2010)

       Highly efficient reprogramming to pluripotency and directed differentiation of human cells with 

       synthetic modified mRNA. Cell Stem Cell 7: 618-630.

  [4]     Yakubov, E., Rechavi, G., Rozenblatt, S., and Givol, D. (2010) Reprogramming of human fibroblasts

       to pluripotent stem cells using mRNA of four transcription factors. Biochem Biophys Res Commun.

      394: 189-193.


Additional Publications

●     Paull D; Sevilla A; Zhou H; Hahn AK; Kim H; Napolitano C; Tsankov A; Shang L; Krumholz K; 

 Jagaseesan P; Woodard CM; Sun B; Vilboux T; Zimmer M; Forero E; Moroziewicz DN; 

Martinez H; Malicdan MCV; Weiss KA; Vensand LB; Dusenberry CR; Polus H; Sy KTL; 

Kahler DJ; Gahl WA; Solomon SL; Chang S; Meissner A; Eggan K; Noggle SA. "Automated,

 high-throughput derivation, characterization and differentiation of induced pluripotent 

stem cells." Naure Methods 12:885 (2015)

●        Briggs SF; Dominguez AA; Chavez SL; Reijo Pera RA. "XIST in human preimplantation 

embryos and iPSCs." Stem Cells 33:1771 (2015)

 ●     Josowitz R, Lu J, Falce C, D’Souza SL, Wu M, Cohen N, Dubois NC; Zhao Y; Sobie EA; Fishman

 GI; Gelb BD. Identification and purification of human induced pluripotent stem cell-derived

 atrial-like cardiomyocytes based on sarcolipin expression. PLoS ONE 9(7): e101316 (2014)

 

jQuery(“.nltabbox”).slide({effect:”fade”});