一般描述
Corning® 100µm 细胞筛网是一种使用简便的无菌筛网,可快速分离原代细胞,从组织中稳定地获得均匀的单细胞悬液。适用干细胞和原代细胞。独立包装,50/箱。
应用
- 更快速且更简便,可替代纱网过滤
- 适用于制备流式细胞分析样本,包括:
从骨髓、胰腺、胸腺、扁桃体和淋巴结来源的血细胞制备单细胞悬液
干细胞、组织来源细胞和肿瘤细胞
制备原代细胞培养物和免疫原样本
制备冻存细胞
过滤去除血清灭活中产生的凝集蛋白
特点和优势
- 采用坚固的尼龙网制成,孔径为100微米,可在各种应用中发挥最佳性能
- 网孔分布均匀,可获得一致且可靠的结果
- 方便取用的独立包装
- 筛网突出的边缘便于用镊子进行无菌操作
- 模制聚丙烯框架带颜色标识和突起,便于操作和识别
- 适用于各大品牌的50mL锥形管
- 使用简便且实惠的一次性筛网,可维持样本完整性
- 经过γ-辐照灭菌且无细胞毒性
法律信息
Corning is a registered trademark of Corning, Inc.
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Microorganisms, 9(1) (2021-01-17)
Marek's disease (MD), caused by MD herpesvirus (MDV), is an economically important disease in chickens. The efficacy of the existing vaccines against evolving virulent stains may become limited and necessitates the development of novel antiviral strategies to protect poultry from
Emma Lång et al.
Nature communications, 9(1), 3665-3665 (2018-09-12)
Epithelial sheet spreading is a fundamental cellular process that must be coordinated with cell division and differentiation to restore tissue integrity. Here we use consecutive serum deprivation and re-stimulation to reconstruct biphasic collective migration and proliferation in cultured sheets of
Zhi Chen et al.
American journal of translational research, 12(6), 2379-2395 (2020-07-14)
Inflammation is a leading cause of severe acute pancreatitis (SAP). MicroRNAs (miRNAs) are emerging as important regulators involved in the pathogenesis of many diseases including pancreatitis. To identify miRNAs that contribute to the pathology of SAP, we carried out a
Joanna Kalucka et al.
Cell, 180(4), 764-779 (2020-02-16)
The heterogeneity of endothelial cells (ECs) across tissues remains incompletely inventoried. We constructed an atlas of >32,000 single-EC transcriptomes from 11 mouse tissues and identified 78 EC subclusters, including Aqp7+ intestinal capillaries and angiogenic ECs in healthy tissues. ECs from
Christinna V Jørgensen et al.
Journal of pharmacological and toxicological methods, 97, 59-66 (2019-04-05)
Adipose tissues release adipokines, which regulate energy intake and expenditure. G protein-coupled receptors (GPCRs) and associated signaling pathways in adipocytes are potentially important drug targets for conditions with disturbed energy metabolism. The aim of the current study was to compare
商品
可生成组织和干细胞来源3D脑、胃肠道、肺和癌症肿瘤类器官模型的类器官培养产品。
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