RS13 dissociation solution for human esips cells 300

ReproCELL Other Culture reagent 細胞培養相關試劑

ReproCELL Other Culture reagent 細胞培養相關試劑 ,ReproCell 原廠有細胞培養液以外,其他適合使用在幹細胞培養的試劑或添加物,有助於細胞生長。

brands logo Reprocell

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品牌:ReproCELL

其他細胞培養試劑

bFGF-2 (146 aa)

RS13 bfgf 300

RCHEOT002 (25ug) RCHEOT003 (250ug) 1 mg/mL solution

Human Recombinant FGF-2 (146 aa) (bFGF)

鹼性纖維母細胞生長因子

bFGF 是人類胚胎幹細胞和 iPS 細胞培養基的關鍵成份,ReproCell 重組人類 FGF-2 (bFGF) 的 146 個氨基酸,使細不管在餵養細胞有或無的培養情況下,皆能維持多能性幹細胞的正常生長。bFGF 使用的濃度為 4-5 ng/ml,於 – 80℃可長期保存。

餵養細胞系統中所需的塗佈溶液

RS13 reprocoat 300

ReproCoat

餵養系統培養靈長類幹細胞與 iPS 細胞之塗佈溶液

全球有許多實驗室使用,無菌可直接使用,常溫保存。適合許多種幹細胞培養。一瓶可塗佈 150 盤 6cm 培養皿。

細胞剝離液

RS13 dissociation solution for human esips cells 300
原廠介紹

Dissociation solution for human ES/iPS cells

靈長類幹細胞與 iPS 細胞用剝離液

剝離液是專門為靈長類胚胎幹細胞和 iPS 細胞所設計,可使細胞溫和且高效率剝離,無須刮取細胞,提高繼代後的細胞存活率 (較 Trypsin 好十倍)。適用於自動化細胞培養操作程序。剝離液開封後即可使用且不含血清,保持細胞一致的活性,減少細胞代數間的變異性。數代培養後,染色體核型維持正常。

RS13 pic01

冷凍保存液

RS13 freezing medium for human es and ips cells 300
原廠介紹

Freezing Medium for Human ES/iPS cells

靈長類幹細胞與 iPS 細胞用冷凍保存液

冷凍保存幹細胞是攸關能否得到快速及可靠結果的關鍵步驟。ReproCell 的冷凍保存液是專門對靈長類的胚胎幹細胞及 iPS 細胞所研發,確保胚幹細胞及 iPS 細胞解凍後的存活率,其效果比 DMSO 好十倍以上且可以立即使用。

RS13 pic02

人類 / 老鼠 Nanog 多株抗體

Anti Nanog antibody

抗 Nanog 抗體

自 2004 年起全球銷售,抗體純度高,可清楚辨識 幹細胞表面特殊蛋白 Nanog。

RS13 pic03
RS13 pic04

bFGF

請左右移動表格位置查看更完整內容

產品貨號 產品名稱 產品容量
RCHEOT002 bFGF 25ug
RCHEOT003 bFGF 250ug

餵養細胞系統中所需的塗佈溶液

請左右移動表格位置查看更完整內容

產品貨號 產品名稱 產品容量
RCHEOT001 ReproCoat 500mL

細胞剝離液

請左右移動表格位置查看更完整內容

產品貨號 產品名稱 產品容量
RCHETP002 Dissociation solution for human ES/iPS cells 30mL

冷凍保存液

請左右移動表格位置查看更完整內容

產品貨號 產品名稱 產品容量
RCHEFM001 Freezing medium for human ES/iPS cells 25mL

人類 / 老鼠 Nanog 多株抗體

請左右移動表格位置查看更完整內容

產品貨號 產品名稱 產品容量
RCAB001P Anti mouse Nanog antibody 200μL
RCAB002P-F Anti mouse Nanog antibody 100μL
RCAB003P Anti human Nanog Antibody 200μL
RCAB004P-F Anti human Nanog Antibody 100μL

bFGF

出版物

  • Hirata, Nao, et al. “A Chemical Probe that Labels Human Pluripotent Stem Cells.” Cell reports 6.6 (2014): 1165-1174.
  • Isono, Kaori, et al. “Generation of familial amyloidotic polyneuropathy-specific induced pluripotent stem cells.” Stem Cell Research (2014).
  • Luo, Lan, et al. “Effects of antioxidants on the quality and genomic stability of induced pluripotent stem cells.” Scientific reports 4 (2014).
  • Mull, Amber N., Amanda Klar, and Christopher S. Navara. “Differential Localization and High Expression of SURVIVIN Splice Variants in Human Embryonic Stem Cells but not in Differentiated Cells Implicate a Role for SURVIVIN in Pluripotency.” Stem Cell Research (2014).
  • Fukamachi, Hiroshi, et al. “CD49fhigh Cells Retain Sphere-Forming and Tumor-Initiating Activities in Human Gastric Tumors.” PloS one 8.8 (2013): e72438.
  • Haraguchi, Yuji, et al. “Simple suspension culture system of human iPS cells maintaining their pluripotency for cardiac cell sheet engineering.” Journal of tissue engineering and regenerative medicine (2013).
  • Liu, Yang, Shinji Sakai, and Masahito Taya. “Impact of the composition of alginate and gelatin derivatives in bioconjugated hydrogels on the fabrication of cell sheets and spherical tissues with living cell sheaths.” Acta biomaterialia 9.5 (2013): 6616-6623.
  • Murakami, Masashi, et al. “The use of granulocyte-colony stimulating factor induced mobilization for isolation of dental pulp stem cells with high regenerative potential.” Biomaterials 34.36 (2013): 9036-9047.
  • Nakajima-Takagi, Yaeko, et al. “Role of SOX17 in hematopoietic development from human embryonic stem cells.” Blood 121.3 (2013): 447-458.
  • Takase, Osamu, et al. “The Role of NF-κB Signaling in the Maintenance of Pluripotency of Human Induced Pluripotent Stem Cells.” PloS one 8.2 (2013): e56399.
  • Terai, Hideki, et al. “Activation of the FGF2-FGFR1 Autocrine Pathway: A Novel Mechanism of Acquired Resistance to Gefitinib in NSCLC.” Molecular Cancer Research 11.7 (2013): 759-767.
  • Higuchi, Takuma, et al. “High Expression of Nuclear Factor 90 (NF90) Leads to Mitochondrial Degradation in Skeletal and Cardiac Muscles.” PloS one 7.8 (2012): e43340.
  • Koyama, Noriaki, et al. “Human induced pluripotent stem cells differentiated into chondrogenic lineage via generation of mesenchymal progenitor cells.” Stem cells and development 22.1 (2012): 102-113.
  • Ishiwata, Toshiyuki, et al. “Enhanced expression of fibroblast growth factor receptor 2 IIIc promotes human pancreatic cancer cell proliferation.” The American journal of pathology 180.5 (2012): 1928-1941.
  • Kunisada, Yuya, et al. “Small molecules induce efficient differentiation into insulin-producing cells from human induced pluripotent stem cells.” Stem cell research 8.2 (2012): 274-284.
  • Matsuura, Katsuhisa, et al. “Creation of human cardiac cell sheets using pluripotent stem cells.” Biochemical and biophysical research communications 425.2 (2012): 321-327.
  • Nomura, Yoshiaki, et al. “Human periodontal ligament fibroblasts are the optimal cell source for induced pluripotent stem cells.” Histochemistry and cell biology 137.6 (2012): 719-732.
  • Sato, Atsuki, et al. “Expression and role of nestin in human cervical intraepithelial neoplasia and cervical cancer.” International journal of oncology 41.2 (2012): 441-448.
  • Shimojima, Keiko, et al. “Reduced PLP1 expression in induced pluripotent stem cells derived from a Pelizaeus?Merzbacher disease patient with a partial PLP1 duplication.” Journal of human genetics 57.9 (2012): 580-586.
  • Yabe, Tomio, et al. “A peptide found by phage display discriminates a specific structure of a trisaccharide in heparin.” Journal of Biological Chemistry 286.14 (2011): 12397-12406.
  • YAMAMOTO, TeTSuSHI, TOSHIYuKI ISHIwATA, and ZENYA NAITO. “Morphological and cytoskeletal alterations of nervous system tumor cells with different culturing methods.” International journal of oncology 38 (2011): 1253-1258.

Dissociation solution for human ES/iPS cells

出版物

Freezing Medium for human ES and iPS Cells

出版物

  • Saeki, Kumiko. “Feeder-Free Culture for High Efficiency Production of Subculturable Vascular Endothelial Cells from Human Embryonic Stem Cells.” Human Embryonic and Induced Pluripotent Stem Cells. Humana Press, (2012):77-294.
  • Toyoda, Masashi, et al. “Generation of Induced Pluripotent Stem Cells from Human Amnion Cells.” Human Embryonic and Induced Pluripotent Stem Cells. Humana Press, (2012): 249-264.
  • Akasaka, Tsukasa, et al. “Maintenance of hemiround colonies and undifferentiated state of mouse induced pluripotent stem cells on carbon nanotube-coated dishes.” Carbon 49.7 (2011): 2287-2299.
  • Kumazaki, Tsutomu, et al. “Establishment of human induced pluripotent stem cell lines from normal fibroblast TIG-1.” Human cell 24.2 (2011): 96-103.

Dissociation Solution for Human ES/iPS Cells

Manuals

Freezing Medium for Human ES/iPS Cells

Specification Sheets

Manuals