引用和文献 (2)

Gibco™

Waymouth 培养基

Waymouth's is a chemically defined medium developed by Charity Waymouth and originally formulated for studies on the nutrition, metabolism, and了解更多信息

货号	数量
11220035	500 mL

货号 11220035

价格（CNY)

610.00

Ends: 31-Dec-2026

762.00

共减 152.00 (20%)

500 mL

Customize this product

价格（CNY)

610.00

Ends: 31-Dec-2026

762.00

共减 152.00 (20%)

Waymouth's is a chemically defined medium developed by Charity Waymouth and originally formulated for studies on the nutrition, metabolism, and growth of mouse Strain L sublines, NCTC clone 929 (L929 cells) in a serum-free environment. Waymouth's medium is also used for the culture of whole organs and a broad range of cell types, such as carcinoma cell lines.

This Waymouth's medium is modified as follows:

With	Without
• L-glutamine	• HEPES
• Phenol Red

The complete formulation is available.

For Research Use or Further Manufacturing. Not for diagnostic use or direct administration into humans or animals.

细胞系L929，癌

细胞类型全部器官

最大浓度1 X

生产质量cGMP-compliant under the ISO 13485 standard

产品线Gibco

产品类型Waymouth 培养基

数量500 mL

有效期自生产之日起 12 个月

运输条件室温

分类非动物源性

无菌无菌过滤

加有添加剂高糖, 谷氨酰胺, 酚红

不加添加剂不含 HEPES, 不含丙酮酸钠

Unit SizeEach

内容与储存

储存条件：2-8°C。避光储存
运输条件：环境条件
有效期：自生产之日起 12 个月

常见问题解答 (FAQ)

加入血清后的培养基可以使用多久？

通常情况下，加入血清后的培养基可使用三个星期。尽管没有正式的研究支持数据，这是我们研究人员的经验。

我的培养基是室温条件下运送来的，但注明应保存于冷藏条件下。这会有影响么？

我们会在常温下运输那些需要在冰箱中长期存放的培养基。我们对代表性的培养基配方进行了研究，结果表明这些培养基在室温下放置一周不会有问题。

我该如何去除细胞培养基中的支原体污染？

绝大部分情况下支原体污染无法从培养物中去除，只能弃用。不过也许您的培养物具有独特性，您不希望丢弃而试图去除污染。环丙沙星和Plasmocin据报导适合此种应用。如果对相关实验方案或应用感兴趣，请联系抗生素供应商或参考已发表的文献。请注意支原体很难从培养物中清除，而且容易扩散，所以请对受污染的培养物进行隔离处理，直至支原体被完全清除，另外您的实验室可能也需要彻底净化。

我发现培养物的生长速率变缓。我该如何处理？

尝试更换培养基或血清。比较培养基配方中葡萄糖、氨基酸及其他成份之间的差异。比较新旧批次的血清。增加细胞的初始接种量。最后，让细胞逐步切换到新的培养基。

我的细胞不能贴附于培养容器。我该如何处理？

如果细胞经胰酶过度消化，即可能发生此种情况。尝试使用更短时间或更低浓度的胰酶进行消化处理。支原体污染也可能造成此种问题。分离部分细胞培养物，并检测支原体感染。最后，检查培养基中的粘附因子。

View all Waymouth 培养基 FAQs

引用和文献 (2)

引用和文献

Abstract

Ets-1 positively regulates Fas ligand transcription via cooperative interactions with Sp1.

Authors:Kavurma MM, Bobryshev Y, Khachigian LM,

Journal:J Biol Chem

PubMed ID:11970950

'The FasL/Fas system has been implicated in smooth muscle cell apoptosis and atherosclerotic plaque instability, a process that can lead to plaque rupture, precipitating myocardial infarction and sudden death. The transcriptional mechanisms regulating FasL gene expression in vascular smooth muscle cells are poorly understood. We recently described a novel mechanism ... More

Intracellular third loop domain of angiotensin II type-2 receptor. Role in mediating signal transduction and cellular function.

Authors: Hayashida W; Horiuchi M; Dzau V J;

Journal:J Biol Chem

PubMed ID:8703004

'The present study tests the hypothesis that the unique intracellular third loop domain of angiotensin II type-2 (AT2) receptor is essential for the subsequent intracellular signaling and plays an important role in mediating receptor function. Synthetic intracellular third loop peptide of the AT2 receptor (AT2-3LP, 22 amino acids) and control ... More