riboFECT™ CP转染试剂
产品名称: riboFECT™ CP转染试剂
英文名称: ribo FECT ™ CP Transfection
产品编号: C10511-05、C10511-1
产品价格: 0
产品产地: 广州
品牌商标: ribobio
更新时间: null
使用范围: null
- 联系人 :
- 地址 : 广州科学城科学大道182号· 创新大厦C3栋 13层
- 邮编 : 510663
- 所在区域 : 广东
- 电话 : 020-322*0221 点击查看
- 传真 : 点击查看
- 邮箱 : marketing@ribobio.com
riboFECT™ CP转染试剂是一种专门用于核酸分子的转染试剂,极具生物相容性,转染效率高,细胞毒性小,适合各种核酸分子(如siRNA、miRNA、质粒)的转染实验。该转染试剂转染时无需进行培养基更换操作,尤其适合各种高通量细胞筛选实验,方便,快速,高效。
| 产品编号 | 产品名称 | 价格 |
| C10511-05 | ribo FECT ™ CP Transfection Kit (166T) | ¥950 |
| C10511-1 | ribo FECT ™ CP Transfection Kit (333T) | ¥1780 |
产品描述
riboFECT™ CP转染试剂是一种专门用于核酸分子的转染试剂,极具生物相容性,转染效率高,细胞毒性小,适合各种核酸分子(如siRNA、miRNA、质粒)的转染实验。该转染试剂转染时无需进行培养基更换操作,尤其适合各种高通量细胞筛选实验,方便,快速,高效。
产品特点
■ 高转染效率,适用于大多数细胞的转染实验
■ 低细胞毒性,助您获得可靠的生理学数据
■ 操作简单方便,可反向转染,适合高通量筛选实验
-----高转染效率,低细胞毒性,只为更佳的基因沉默效率
转染效率对基因沉默实验的重要性是毋庸置疑的。riboFECT™ CP 转染试剂极具生物相容性,能够显著提高siRNA,miRNA的转染效率,为成功进行RNAi实验提供保证,并能够降低各种核酸分子最佳使用浓度,目前已 成功应用于各种真核细胞系的核酸转染,如HeLa,A549,293T,NIH/3T3,HepG2,HUVEC等细胞系。
图1 分别用riboFECT™ CP转染HUVEC(A)和Hela(B)细胞,采用riboMONITOR™检测转染效率
图2 用riboFECT™ CP和Reagent L分别转染p65 siRNA于HUVEC和Hela细胞,采用qPCR方法检测其基因沉默效率
结果显示riboFECT™ CP转染效果更好,且随着转染试剂用量升高,转染效果越好,基因沉默效率也进一步提高。
------操作流程简单,可反向转染,非常适合高通量筛选研究
仅需简单地将siRNA或miRNA与buffer混合后,加入riboFECT™ CP形成复合物,室温孵育0~10分钟,再加入一定体积的培养液,随后加入完全细胞培养基中即可,中途无需更换培养基。
反向转染实验中,先将siRNA或miRNA与riboFECT™ CP混合,加至培养孔以形成转染复合物,再将细胞加入至培养孔中进行反向转染,以实现细胞高通量筛选。其中,转染混合物制备后可保存较长时间,即允许提前准备和储存,非常适合自动化高通量筛选系统。
------可高效转染质粒,尤其适合质粒共转实验
仅需少量的riboFECT™ CP即可实现质粒的高效转染,低毒性,对细胞伤害小,对大多数细胞转染均无需更换培养液,尤其适合进行质粒共转实验,例如miRNA靶基因双荧光素酶检测实验。
图4 采用1µl riboFECT™ CP分别转染EGFP-C1(A)和EGFP-N1(B)于Hela细胞,24h后检测其表达效率
实用案例
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转染试剂相关客户文章 |
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编号 |
文章 |
杂志 |
转染细胞类型 |
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MicroRNA-19b promotes macrophage cholesterol accumulation and aortic atherosclerosis by targeting ATP-binding cassette transporter A1 |
Atherosclerosis |
HEK293T |
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1 |
Let-7a inhibits migration, invasion and epithelial-mesenchymal transition by targeting HMGA2 in nasopharyngeal carcinoma |
Journal of Translational Medicine |
CNE-2、5-8F |
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3 |
Erythropoietin attenuates advanced glycation endproducts-induced toxicity of Schwann cells in vitro. |
Neurochem Res |
SC |
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MicroRNA-145 contributes to enhancing radiosensitivity of cervical cancer cells |
FEBS letters |
HeLa |
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The microRNAs in the pathogenesis of metabolic memory |
Endocrinology |
HAEC |
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The expression of vesicular glutamate transporter 3 and vesicular monoamine transporter 2 induced by brain-derived neurotrophic factor in dorsal root ganglion neurons in vitro |
Brain research bulletin |
DRG |
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MicroRNA-101 protects cardiac fibroblasts from hypoxia-induced apoptosis via inhibition of the TGF-β signaling pathway |
The International Journal of Biochemistry & Cell Biology |
CF |
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Diosgenin inhibits atherosclerosis via suppressing the MiR-19b-induced downregulation of ATP-binding cassette transporter A1 |
Atherosclerosis |
THP-1/MPM-derived foam cells |
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Integrated analysis of differential miRNA and mRNA expression profiles in human radioresistant and radiosensitive nasopharyngeal carcinoma cells |
PloS one |
CNE2-IR |
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3 |
Proteomic and bioinformatic analysis of differentially expressed proteins in denervated skeletal muscle |
Int J Mol Med |
L6 skeletal muscle cells |
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MiR-193a-3p promotes the multi-chemoresistance of bladder cancer by targeting the HOXC9 gene |
Cancer Lett. |
5637、H-bc |
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4 |
MiR-9a-5p regulates proliferation and migration of hepatic stellate cells under pressure through inhibition of Sirt1 |
World J Gastroenterol. |
HSC |
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5 |
TRAF6 inhibition rescues dexamethasone-induced muscle atrophy |
International Journal of Molecular Science |
C2C12 |
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6 |
Sodium fluoride induces apoptosis through reactive oxygen species-mediated endoplasmic reticulum stress pathway in Sertoli cells |
Chinese Academy of Sciences |
Sertoli |
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7 |
Fluid Shear Stress Upregulates E-Tmod41 via miR-23b-3p and Contributes to F-Actin Cytoskeleton Remodeling during Erythropoiesis |
PloS one |
MEL |
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8 |
KITLG is a novel target of miR-34c that is associated with the inhibition of growth and invasion in colorectal cancer cells |
J Cell Mol Med. |
HCT-116 |
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MicroRNA-21 Negatively Regulates Treg Cells Through a TGF-β1/Smad-Independent Pathway in Patients with Coronary Heart Disease |
Cell Physiol Biochem |
PBMC |
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10 |
miR-193a-3p regulates the multi-drug resistance of bladder cancer by targeting the LOXL4 gene and the Oxidative Stress pathway |
Mol Cancer |
5637、H-bc |
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The DNA methylation-regulated miR-193a-3p dictates the multi-chemoresistance of bladder cancer via repression of SRSF2/PLAU/HIC2 expression |
Cell Death Dis |
5638、H-bc |
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11 |
Nestin overexpression promotes the embryonic development of heart and brain through the regulation of cell proliferation. |
Brain Res |
NSC |
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MiRNA‐30a inhibits AECs‐II apoptosis by blocking mitochondrial fission dependent on Drp‐1 |
J Cell Mol Med. |
A549 |
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Intercellular Adhesion Molecule-1 Inhibits Osteogenic Differentiation of Mesenchymal Stem Cells and Impairs Bio-Scaffold-Mediated Bone Regeneration In Vivo |
TISSUE ENGINEERING: Part A |
MSC |
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9 |
Characterization of Cep85–a new antagonist of Nek2A that is involved in the regulation of centrosome disjunction |
J Cell Sci. |
U2OS |
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BRCC3 acts as a prognostic marker in nasopharyngeal carcinoma patients treated with radiotherapy and mediates radiation resistance in vitro |
Radiation Oncology |
HNE1、CNE2R |
*编号为实验图对应号码
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图1. Wu et al. Journal of Translational Medicine (2015) 13:105 |
图2. Yu et al. Neurochem Res (2015) 40:698–712 |
图3. Sun et al. Int J Mol Med (2014) 33: 1586-1596 |
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图4. Lv et al. Cancer Letters 357 (2015) 105–113 |
图5. Qi et al. World J Gastroenterol (2015) 21(34): 9900-9915 |
图6. Sun et al.Int J Mol Sci(2014) 15:11126-11141 |
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图7. Yang et al. J Environ Sci (2015) 30:81-89 |
图8. Mu et al. PLoS ONE (2015) 10(8): e0136607 |
图9. Chen et al. Journal of Cell Science (2015) 128, 3290-3303 |
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图10. Deng et al. Molecular Cancer (2014) 13:234 |
图11. Liu et al. Brain Research (2015) 1-11 |
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