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人雪旺細胞 HSC

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產品名稱: 人雪旺細胞 HSC
產品型號: HSC
產品展商: ScienCell
產品價格: 0.00 元
產品文檔: 無相關文檔

簡單介紹

人雪旺細胞 HSC 人雪旺細胞 HSC 上海 安徽 合肥 ScienCell細胞庫?


人雪旺細胞 HSC  的詳細介紹
雪旺細胞是神經嵴的衍生物,形成周圍神經髓磷脂軸突的髓鞘。它們分別環繞在周圍神經軸突的軸上,沿著軸突節形成一層髓磷脂髓鞘。雪旺細胞對周圍神經的發育,功能和再生起著重要作用。當軸突快死亡時,雪旺細胞環繞其周圍幫助消化軸突。留下連續的雪旺細胞形成一個空的管道,新的軸突在管道的末端開始生長。在周圍神經中雪旺細胞的數量是受到嚴格調控的。體外增殖受到諸如PDGF,FGF,神經元和其它多肽類生長因子的刺激。雪旺細胞提供相對簡單,明確,易得的哺乳動物模型以用來研究一系列發育問題。了解血旺細胞的生物學特征具有重要的臨床意義,不僅對于研究神經病變產生的環境和神經的再生,而且細胞或他們的前體可能特別適合用作**神經系統修復的植入物。
ScienceCell實驗室的HSC提取自人脊髓神經,原代凍存,冰凍運輸。每管細胞密度超過5×105/ml。細胞經S-100,?GFAP?和?CD90免疫熒光鑒定。本細胞經檢測不含HSC?HIV-1,?HBV,?HCV,?支原體,?細菌,?酵母菌和真菌。如采用ScienCell?實驗室特制的培養基,可保證此細胞10次倍增。? ?


推薦培養基:雪旺細胞培養基(SCM, Cat. #1701)

貨號 1700
產地 美國
縮寫 HSC
規格 5 x 10^5 /1ml
用途 科研
儲存 液氮
運輸 干冰
關鍵字 人雪旺細胞 HSC  人雪旺細胞 HSC  人雪旺細胞 HSC  人雪旺細胞 HSC  人雪旺細胞 HSC  人雪旺細胞 HSC  人雪旺細胞 HSC  
公司簡介                           
    合肥星肽生物科技有限公司作為專業的ScienCell中國代理商,專業經營實驗室科研用原代細胞原代細胞專用培養基、原代細胞無血清培養基、干細胞、干細胞培養基、干細胞無血清培養基的研究和開發。合肥星肽生物科技有限公司始終致力于為客戶提供可靠的研究材料以及方便快捷的服務,對購買項目的前期資料提供,中期合同保證,后期貨物跟蹤到*終售后的確保項目準確到位,都有相關專業人士進行維護,確保您在合肥合肥星肽生物科技有限公司公司獲得*上等服務!
聯系方式

               何經理,合肥星肽生物科技有限公司,Tel:0551-63802898      400-8702-898,                                  

               E-mail:info@qingbio.com      http://www.huangyuansheng.cn      QQ:514713116

1.) Cho YR, Lim JH, Kim MY, Kim TW, Hong BY, Kim YS, Chang YS, Kim HW, Park CW. (2014) 'Therapeutic Effects of Fenofibrate on Diabetic Peripheral Neuropathy by Improving Endothelial and Neural Survival in db/db Mice.'

2.) Cho YR, Lim JH, Kim MY, Kim TW, Hong BY, Kim YS, Chang YS, Kim HW, Park CW. (2014) "Therapeutic Effects of Fenofibrate on Diabetic Peripheral Neuropathy by Improving Endothelial and Neural Survival in db/db Mice." PloS one. 9: e83204.

3.) Guerreiro LTA, Robottom-Ferreira AB, Ribeiro-Alves M, Toledo-Pinto TG, Brito TR, Rosa PS, Sandoval FG, Jardim MR, Antunes SG, Shannon EJ, Sarno EN, Pessolani MCV, Williams DL, Moraes MO. (2013) "Gene expression profiling specifies chemokine, mitochondrial and lipid metabolism signatures in leprosy." PLoS One. 8: e64748.

4.) Das A, Shergill U, Thakur L, Sinha S, Urrutia R, Mukhopadhyay D, Shah VH. (2013) "Ephrin B2/EphB4 pathway in hepatic stellate cells stimulates Erk-dependent VEGF production and sinusoidal endothelial cell recruitment." Am J Physiol Gastrointest Liver Physiol. 298: G908-15.

5.) Ramesh G, Santana-Gould L, Inglis FM, England JD, Philipp MT. (2013) "The Lyme disease spirochete Borrelia burgdorferi induces inflammation and apoptosis in cells from dorsal root ganglia." J Neuroinflammation. 10: 88.

6.) Stavniichuk R, Obrosov AA, Drel VR, Nadler JL, Obrosova IG, Yorek MA. (2013) '12/15-Lipoxygenase inhibition counteracts MAPK phosphorylation in mouse and cell culture models of diabetic peripheral neuropathy.'

7.) Stavniichuk R, Obrosov AA, Drel VR, Nadler JL, Obrosova IG, Yorek MA. (2013) "12/15-Lipoxygenase inhibition counteracts MAPK phosphorylation in mouse and cell culture models of diabetic peripheral neuropathy." J diabetes mellitus. 3.

8.) Peng J, Wang Y, Zhang L, Zhao B, Zhao Z, Chen J, Guo Q, Liu S, Sui X, Xu W, Lu S. (2011) "Human umbilical cord Wharton's jelly-derived mesenchymal stem cells differentiate into a Schwann-cell phenotype and promote neurite outgrowth in vitro." Brain Res Bull. 84: 235-43.

9.) Ahmad Z, Brown CM, Patel AK, Ryan AF, Ongkeko R, Doherty JK. (2010) "Merlin knockdown in human Schwann cells: clues to vestibular schwannoma tumorigenesis." Otol Neurotol. 31: 460-66.

10.) Arima Y, Hayashi H, Kamata K, Goto TM, Sasaki M, Kuramochi A, Saya H. (2010) "Decreased expression of neurofibromin contributes to epithelial-mesenchymal transition in neurofibromatosis type 1." Exp Dermatol. 19: e136-41.

11.) Meyer Zu Horste G, Heidenreich H, Lehmann HC, Ferrone S, Hartung HP, Wiendl H, Kieseier BC. (2010) "Expression of antigen processing and presenting molecules by Schwann cells in inflammatory neuropathies." Glia. 58: 80-92.

12.) Stavniichuk R, Drel VR, Shevalye H, Vareniuk I, Stevens MJ, Nadler JL, Obrosova IG. (2010) "Role of 12/15-lipoxygenase in nitrosative stress and peripheral prediabetic and diabetic neuropathies." Free Radic Biol Med. 49: 1036-45.

13.) Suenaga T, Satoh T, Somboonthum P, Kawaguchi Y, Mori Y, Arase H. (2010) "Myelin-associated glycoprotein mediates membrane fusion and entry of neurotropic herpesviruses." Proc Natl Acad Sci USA. 107: 866-71.

14.) Wu H, Chen Y, Wang ZY, Li W, Li JQ, Zhang L, Lu YJ. (2010) "Involvement of p21 (waf1) in merlin deficient sporadic vestibular schwannomas." Neuroscience. 170: 149-55.

15.) Ahmad ZK, Altuna X, Lopez JP, An Y, Wang-Rodriguez J, Juneja VR, Chen JS, Arandazi MJ, Aguilera J, Harris JP, Ongkeko WM. (2009) "p73 expression and function in vestibular schwannoma." Arch Otolaryngol Head Neck Surg. 135: 662-69.

16.) Askwith T, Zeng W, Eggo MC, Stevens MJ. (2009) "Oxidative stress and dysregulation of the taurine transporter in high-glucose-exposed human Schwann cells: implications for pathogenesis of diabetic neuropathy." Am J Physiol Endocrinol Metab. 297: E620-28.

17.) Bodempudi V, Yamoutpoor F, Pan W, Dudek AZ, Esfandyari T, Piedra M, Babovick-Vuksanovic D, Woo RA, Mautner VF, Kluwe L, Clapp DW, De Vries GH, Thomas SL, Kurtz A, Parada LF, Farassati F. (2009) "Ral overactivation in malignant peripheral nerve sheath tumors." Mol Cell Biol. 29: 3964-74.

18.) Stevens MJ, Li F, Drel VR, Abatan OI, Kim H, Burnett D, Larkin D, Obrosova IG. (2007) "Nicotinamide reverses neurological and neurovascular deficits in streptozotocin diabetic rats." Journal of Pharmacology and Experimental Therapeutics. 320: 458-64.

19.) Li F, Drel VR, Szab C, Stevens MJ, Obrosova IG. (2005) "Low-Dose Poly(ADP-Ribose) Polymerase Inhibitor-Containing Combination Therapies Reverse Early Peripheral Diabetic Neuropathy." Diabetes. 54: 1514-22.

20.) Obrosova IG, Drel VR, Pacher P, Ilnytska O, Wang ZQ, Stevens MJ, Yorek MA. (2005) "Oxidative-nitrosative stress and poly(ADP-ribose) polymerase (PARP) activation in experimental diabetic neuropathy - The relation is revisited." Diabetes. 54: 3435-41.

1、Question:

What is the best way you suggest to cryopreserve primary human Schwann cells?

Answers:

We do not recommend that customers re-freeze our cells since primary cells are fragile and they may be damaged during re-freeze and re-thaw process.
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2、Question:

In the product description, these cells were analyzed by immunofluorescence using antibodies against S100, GFAP, and CD90. Would you be able to provide manufacturer/catalog# for those antibodies? Your protocols for cell preparation and immunofluorescence using those antibodies would be kindly appreciated as well? Thank you

Answers:

Posted by Manoj Sharma on Thursday, January 14, 2016 Dear Amish, Here are the antibodies we use for staining #1700 Human Schwann Cells: (1)S-100 beta: Sigma Cat. No. S2532 1:500 dilution (2)GFAP: Sigma Cat. No. G3893 1:1000 dilution And following is the protocol that we use for staining the cells. Immunofluorescence Staining Protocol a. Fixing the slide i. Wash each well with 500 μl PBS making sure to add along the side of the well wall. ii. Add 500 μl 4% PFA (paraformaldehyde) to each well and place at room temperature for 5 minutes. b. Blocking Solution i. Wash each well with 500 μl PBS. ii. The blocking solution consists of 5% NGS (Normal Goat Serum) and 0.1% Triton-X-100 in PBS. iii. The blocking solution can be made in bulk in a 15mL conical tube and then placed in the wells. iv. For every 1 ml of PBS add 50 μl of NGS and 10 μl of 10% Triton-X 100. Add 250 μl per well and incubate at room temperature for 1 hour. c. Primary Antibody i. Prepare the solution for the primary antibody. This consists of 1% NGS and 1% Triton-X 100 in PBS. For every 1 ml of PBS add 10 μl of NGS and 10 μl of Triton-X 100. This can be made in bulk in a conical tube. ii. Dilute each primary antibody needed with the necessary dilution factor (depending on the antibody used) and add 250 μl to the appropriate wells. Place the slide in 4°C overnight. Dilutions can be made in 1.5mL microcentrifuge tubes. iii. If the slide needs be stained on the same day, it can be placed in the 37°C incubator for 2 hours instead of 4°C overnight. iv. Make sure to note on the Immunocytochemistry form the specific antibody placed in the well. d. Secondary Antibody i. Wash the slide 3 times with 500 μl PBS leaving the PBS in the wells 5-7 minutes per rinse. ii. Dilute each secondary antibody (usually 1:1000 to 1:2000, depending on the intensity) needed with PBS and add 250 μl to the appropriate wells. Incubate at 37°C in the incubator for 45 minutes. iii. Wash the slide 5 times with 500 μl PBS leaving the PBS in the wells 5-7 minutes per rinse. iv. The secondary antibody is specific to the primary antibody such as IgG Rabbit or IgG Mouse. The animal it derives from must be the same as the primary antibody. e. Preparing the slide for microscopic examination i. Drop about 5-8 μl of mounting medium (DAPI) to a slide, remove cover slips from the well using tweezers and place them over the slide on the mounting medium gently. ii. Make sure the DAPI covers the entire area of the cover slips. f. Microscopic Examination Examine the slides after 20-30 minutes under fluorescence microscope. Thank you for your interest in ScienCell Products
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3、Question:

Has anyone used these cells to look at myelin production? I work with a virus that may disrupt myelination and I was interested in looking at this in primary tissue culture cells. Thanks! Lee

Answers:

We do not test for myelin production. thank you for your interest.
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