ant-mpt-进口支原体清除剂现货促销Invivogen Plasmocin™ treatmen

【简单介绍】

进口支原体清除剂现货促销Invivogen Plasmocin™ treatmen,Invivogen Plasmocin™ treatment支原体清除试剂规格50 mg (2 x 1 ml)现货,详细产品信息请

【详细说明】

进口支原体清除剂现货促销Invivogen Plasmocin™ treatmen

 

Plasmocin™

Mycoplasma Removal Agent

Plasmocin™ is used to cure cell lines infected by mycoplasma and related cell wall-less bacteria. 
ant-mpt-进口支原体清除剂现货促销Invivogen Plasmocin™ treatmenPlasmocin™ can also be used as a routine addition in liquid media to prevent mycoplasma and more generally bacterial contamination in small and large animal cell cultures.
More info on Mycoplasma eradication

Plasmocin™ is a well-established antimycoplasma reagent. It contains two bactericidal components strongly active against mycoplasmas that allow their elimination in only 2 weeks. 
The first component acts on the protein synthesis machinery while the second acts on the DNA replication. These two specific and separate targets are found only in mycoplasmas and many other bacteria and are compley absent in eukaryotic cells.

Warning: InvivoGen's anti-mycoplasma products are suitable for research purposes only, and not for human or animal care.

 

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– Active on both free mycoplasmas and intracellular forms
– No resistance in liquid cultures of mycoplasmas
– No apparent adverse effect on cellular metabolism
– Active at low concentrations on a broad range of Gram positive and negative bacteria
– Eliminates mycoplasma in as little as 2 weeks
– Treat up to 25 cell lines in T75

 

  • TDS Plasmocin™ prophylactic : 25 mg (10 x 1 ml) (ant-mpp)
  • TDS Plasmocin™ treatment : 50 mg (2 x 1 ml) (ant-mpt)
  • MSDS Plasmocin™ prophylactic : 25 mg (10 x 1 ml) (ant-mpp) , 50 mg (2 x 1 ml) (ant-mpt)

 

Plasmocin™ is provided as a yellow solution at different concentrations:

–  25 mg/ml (Plasmocin™Treatment)

–  2.5 mg/ml (Plasmocin™ Prophylactic)

In contrast to other anti-mycoplasma compounds, Plasmocin™ is active on both free mycoplasmas and intracellular forms. This advantage is conferred by one component of Plasmocin™ which is actively transported into mammalian cells. It ensures that following treatment with Plasmocin™ a cell culture is not reinfected by mycoplasmas released from intracellular compartments of infected cells.

In all animal cell lines tested to date, even at five times the working concentration, no apparent adverse effect on cellular metabolism is observed.

No resistance in liquid cultures of mycoplasmas has ever been identified in repeated experiments attempting to measure the mutation rate. Therefore, development of resistant mycoplasma strains is virtually eliminated.

Plasmocin™ is also active at low concentrations on a broad range of Gram positive and Gram negative bacteria that are otherwise resistant to the mixture of streptomycin and penicillin, and exhibits no toxicity in eukaryotic cells.

Many cell lines infected by mycoplasmas have been successfully treated with Plasmocin™, including embryonic stem cells, hybridomas and retrovirus packaging cells.

Comparison of the most common anti-mycoplasma agents [1-3]

Product Supplier Treatment Ease of use Efficacy Cytotoxicity Resistance
BM-Cyclin Roche 3 weeks +++ + +/-
Ciprobay Bayer 12 to 20 days + ++ +/- +
MRA ICN 1 to 2 weeks + ++ +/- +
Plasmocin InvivoGen 2 weeks + +++ +/-

Antibiotics commonly used in cell culture are inactive on mycoplasma (e.g. penicillins and streptomycin). Three classes of antibiotics have been shown to kill mycoplasma at relatively low concentrations: tetracyclines, macrolides and quinolones. Tetracyclines and macrolides block the protein synthesis by interfering with ribosome translation, while quinolones inhibit the replication of bacterial DNA.
Several antibiotics are commercially available for the removal of mycoplasma: BM-cyclin (Roche) contains a macrolide and a tetracycline, Ciprobay (Bayer, available only with a prescription) and MRA (ICN) are both quinolones. Plasmocin™ is the only antimycoplasma reagent that combines a macrolide and a quinolone. Unlike BM-Cyclin that requires the sequential and cyclic use of 2 antibiotics, Plasmocin™ is ready-to-use and can be added to the culture medium directly. Furre, the 2 antibiotics in Plasmocin™ act on separate targets blocking protein synthesis and DNA replication, whereas the 2 antibiotics in BM-Cyclin are both inhibitors of protein synthesis. Therefore, Plasmocin™ is more effective in removing mycoplasma and prevents the appearance of resistant strains. In contrast to other anti-mycoplasma compounds, Plasmocin™ is active on both free mycoplasma as well as intracellular forms. This advantage is conferred by one component of Plasmocin™ which is actively transported into mammalian cells. It ensures that following treatment with Plasmocin™ a cell culture is not reinfected by mycoplasma released from intracellular compartments of infected cells. To date, no consistent and permanent alterations that affect the eukaryotic cells during and after the treatment have been detected[1].

1. Uphoff CC, Drexler HG., 2005. Eradication of mycoplasma contaminations. Methods Mol Biol. 290:25-34.
2. Somasundaram C. et al., 1992. Use of ciprofloxacin and BM-Cyclin in mycoplasma decontamination.In Vitro Cell Dev Biol. 28A(11-12):708-10
3. Drexler HG. et al., 1994. Treatment of mycoplasma contamination in a large panel of cell cultures. In vitro Cell Dev Biol Anim. 30A(5):344-7

 

Recent articles using Plasmocin™

 

 

  • 2012 – J Virol Methods., Epub ahead of print
    Mycoplasma removal: Simple curative methods for viral supernatants.
    Baronti C, Pastorino B, Charrel R, de Lamballerie X
  • 2011 – Mol Pharmacol., 80(6):1066-75
    Ca2+/calmodulin-dependent kinase (CaMK) signaling via CaMKI and AMP-activated protein kinase contributes to the regulation of WIPI-1 at the onset of autophagy.
    Pfisterer SG, Mauthe M, Codogno P, Proikas-Cezanne T
  • 2011 – J Immunol., 186(12):6822-6829
    Tumor cell programmed death ligand 1-mediated T cell suppression is overcome by coexpression of CD80.
    Haile ST, Bosch JJ, Agu NI, Zeender AM, Somasundaram P, Srivastava MK, Britting S, Wolf JB, Ksander BR, Ostrand-Rosenberg S
  • 2012 – J. Biol. Chem., 287: 8082 – 8091
    Loss of lysosomal ion channel transient receptor potential channel mucolipin-1 (TRPML1) leads to cathepsin B-dependent apoptosis.
    Colletti GA, Miedel MT, Quinn J, Andharia N, Weisz OA, Kiselyov K
  • 2012 – Immunity, 36(3):464-476
    An NLRP7-containing inflammasome mediates recognition of microbial lipopeptides in human macrophages.
    Khare S, Dorfleutner A, Bryan NB, Yun C, Radian AD, de Almeida L, Rojanasakul Y, Stehlik C

 

 

ORDERING

Plasmocin™ prophylactic

Description Removal agent to prevent mycoplasma contamination
Cat. Code ant-mpp
Unit Size 25 mg (10 x 1 ml)
Price Please contact our distributor

 

  • TDS
  • MSDS

 

Plasmocin™ treatment

Description Removal agent to eliminate mycoplasmas
Cat. Code ant-mpt
Unit Size 50 mg (2 x 1 ml)
Price Please contact our distributor

 

  • TDS
  • MSDS

 

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InvivoGen MycoStrip™ – 支原体检测试剂盒


InvivoGen MycoStrip™ – 支原体检测试剂盒

简要描述:InvivoGen由具有悠久的微生物学历史的科学家于1997年创立。MycoStrip™ 是一项简单的测试,不需要特殊的实验室设备,灵敏度高,结果清晰,没有误报。此外,MycoStrip™ 可在不到一小时内得出结果,让您可以迅速开始处理受污染的细胞培养物。 InvivoGen销售 InvivoGen产品供应 InvivoGen MycoStrip™ – 支原体检测试剂盒

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品牌 其他品牌 供货周期 一个月
应用领域 化工,生物产业,制药,综合

InvivoGen MycoStrip™ – 支原体检测试剂盒

轻松快速地检测细胞培养物中的支原体污染

凭借 40 多年为科学界开发支原体解决方案的经验,InvivoGen 的 MycoStrip™ 提供了一种检测细胞培养物中支原体的新方法,使您能够对抗污染。


MycoStrip™ 是一项简单的测试,不需要特殊的实验室设备,灵敏度高,结果清晰,没有误报。此外,MycoStrip™ 可在不到一小时内得出结果,让您可以迅速开始处理受污染的细胞培养物。 


测定原理

通过 MycoStrip™ 检测细胞培养物中的支原体污染是基于等温 PCR。只需准备您的样品并添加我们专有的 Reaction Mix 即可针对细胞培养中最常见的支原体物种靶向并扩增 16S rRNA 基因。 5 分钟内即可在免疫层析条上清楚地看到结果。

 

MycoStrip™ 的主要特点

➔ 简单

易于执行,与大多数其他支原体检测分析不同,不需要特殊的实验室设备。

➔ 快速

在 1 小时内完成,动手操作时间不到 15 分钟。

➔ 清除

在 2-5 分钟内出现快速且易于解释的结果,如条带上的 1 或 2 个条带。

  • 一条带 – 支原体阴性 

  • 两条带 – 支原体阳性

➔ 具体的

MycoStrip™ 专门设计用于检测最常污染细胞培养物的支原体和无胆原体。其中包括占所有污染 95% 的六个物种:M. oraleM. hyorhinisM. argininiM. fermentansM. hominisA. laidlawii。重要的是,由于 MycoStrip™ 反应混合物检测 DNA 的一定区域,因此不会与其他细菌、真菌或哺乳动物 DNA 发生交叉反应。

➔ 敏感

MycoStrip™ 能够检测低至 10-10 2 CFU/ml,因此可用于在支原体污染显着影响实验结果之前检测支原体污染,这通常发生在 ~10 7 CFU/ml [1]。 

➔ 也可提供无盒式磁带

更大的单元尺寸(50 和 100 条)不带包埋盒,提供更经济和环保的 Mycostrip™ 版本。

MycoStrip™在室温下运输。

InvivoGen MycoStrip™ - 支原体检测试剂盒 将所有组件(包括检测条)储存在-20°C。

InvivoGen MycoStrip™ - 支原体检测试剂盒 如果储存得当,所有组件都可以稳定保存 12 个月。

支原体污染

支原体是细胞培养中的一个主要问题,具有各种污染源,例如实验室操作人员、脏水浴/培养箱和生物试剂。由于体积小,支原体无法通过目视检查检测到,它们通过标准过滤,并且对大量抗生素具有抗药性。 定期检测细胞培养的支原体的原因有很多,其中包括:

  • 珍贵样品丢失

  • 严重影响数据可靠性和可重复性

  • 大多数期刊要求进行测试才能发表

  • 时间和金钱的损失


上海金畔生物科技有限公司 是一家专注于分子生物学、细胞生物学、细菌学、遗传学、免疫学、生物化学、蛋白质学、细胞治疗、临床应用等领域,以销售为主的生物技术公司。销售的产品涉及,细胞株和菌株、胎牛血清、生化试剂、ELISA试剂盒、抗体和抗原、细胞因子、技术服务、实验耗材和消耗品、仪器设备等。客户遍布大学、研究所、医院、卫生防疫、商品检验检疫、制药公司、生物技术公司和食品工业等单位。InvivoGen销售

InvivoGen在微生物发酵方面的技能使我们能够提供广泛的生物分子,包括超纯抗生素,新颖的支原体治疗以及来自多种微生物的大模式识别受体激动剂。 此外,我们拥有强大的化学和分子生物学团队,可以合成用于研究用途的分子和质粒以及专注于基因治疗和疫苗接种的研究。此外,我们对先天免疫受体信号传导途径的专门研究导致收集了报告细胞系,这些细胞通常用于内部质量控制和研究与开发

InvivoGen销售 InvivoGen MycoStrip™ – 支原体检测试剂盒