H-Glu-Gly-Arg-CMK 品牌:Enzo CAS No.:65113-67-9


品牌:Enzo
CAS No.:65113-67-9
储存条件:-20℃
纯度:
产品编号

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等级 规格 运输包装 零售价(RMB) 库存情况 参考值

BML-PI156-0005

5 mg 3,750.00


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洁特/jetbiofil_CAF012850_CellATTACH 超亲水细胞培养瓶Flasks_培养面积300 cm2 容量850ml 无菌 过滤盖 CellATTACH超亲水表面处理

洁特/jetbiofil_CAF012850_CellATTACH 超亲水细胞培养瓶Flasks_培养面积300 cm2  容量850ml  无菌  过滤盖 CellATTACH超亲水表面处理

CellATTACH 超亲水细胞培养瓶Flasks_培养面积300 cm2 容量850ml 无菌 过滤盖 CellATTACH超亲水表面处理

培养面积300 cm2 容量850ml 无菌 过滤盖 CellATTACH超亲水表面处理

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 CellATTACH? 超亲水细胞培养瓶-new

产品特点: 
=CellATTACH? 超亲水性细胞培养系列产品使用了最顶尖的超亲水表面处理工艺,

使细胞在不同条件下增强贴壁能力,生长更好。CellATTACH TM 超亲水性表面注入了氧气,

提高了细胞产量,同时缩短不稳定、费时、昂贵的生物包被过程。 
  
=CellATTACH? 细胞培养瓶 
=5种容量规格可选:25ml、50ml、250ml、600ml和850ml
=提供密封盖和滤膜盖 
=瓶体厚度均匀,表面无畸变 
=上部三角形而下部加宽的外型设计,增加摆放稳定性 
=磨砂区域,方便实验记录;两侧面均有容量刻度 
=可叠放,更有效的利用培养箱空间 
=经过严格的气密性测试 
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=无DNase、RNase,无热原 

洁特/jetbiofil_CAF012850_CellATTACH 超亲水细胞培养瓶Flasks_培养面积300 cm2  容量850ml  无菌  过滤盖 CellATTACH超亲水表面处理

  • 培养面积
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BG琥珀酰亚胺酯 货号12564-AAT Bioquest荧光染料

上海金畔生物科技有限公司代理AAT Bioquest荧光染料全线产品,欢迎访问AAT Bioquest荧光染料官网了解更多信息。

BG琥珀酰亚胺酯

BG琥珀酰亚胺酯

BG琥珀酰亚胺酯    货号12564 货号 12564 存储条件 在零下15度以下保存, 避免光照
规格 1 mg 价格 2472
Ex (nm) Em (nm)
分子量 溶剂 DMSO
产品详细介绍

简要概述

产品基本信息

货号:12564

产品名称:BG琥珀酰亚胺酯

规格:1 mg

储存条件:-15℃避光防潮

保质期:24个月

 

产品物理化学光谱特性

外观:固体

溶剂:DMSO

 

产品介绍

SNAP蛋白质标记系统使几乎任何分子都可以特异性地,共价地结合到目标蛋白质上。SNAP标签是基于人O6-烷基鸟嘌呤-DNA-烷基转移酶(hAGT)的蛋白质。SNAP标签的底物是荧光团,生物素或通过苄基接头与鸟嘌呤或氯嘧啶去掉基团缀合的微珠。在标记反应中,底物取代的苄基共价附着于SNAP标签。BG琥珀酰亚胺酯是一种可与胺反应的结构单元,可从含胺的标记物或生物靶标制备SNAP底物。BG琥珀酰亚胺酯构建基块为各种SNAP标签底物的开发提供了便利,这些底物用于标记SNAP标签融合蛋白,可用于多种生物学应用。

 

参考文献

Photo-SNAP-tag, a Light-Regulated Chemical Labeling System.
Authors: Cleveland, Joseph D and Tucker, Chandra L
Journal: ACS chemical biology (2020)

The covalent SNAP tag for protein display quantification and low-pH protein engineering.
Authors: Jin, Wei and Madan, Bharat and Mussman, Brooklyn K and Hailemariam, Amen T and Fahad, Ahmed S and Wolfe, Jacy R and Kwon, Young Do and Zhang, Baoshan and Shapiro, Lawrence and Kwong, Peter D and DeKosky, Brandon J
Journal: Journal of biotechnology (2020): 50-56

Visualizing and Manipulating Biological Processes by Using HaloTag and SNAP-Tag Technologies.
Authors: Hoelzel, Conner A and Zhang, Xin
Journal: Chembiochem : a European journal of chemical biology (2020): 1935-1946

A SNAP-tag fluorogenic probe mimicking the chromophore of the red fluorescent protein Kaede.
Authors: Jung, Kwan Ho and Fares, Matthew and Grainger, Leeann S and Wolstenholme, Charles H and Hou, Anna and Liu, Yu and Zhang, Xin
Journal: Organic & biomolecular chemistry (2019): 1906-1915

Applications of SNAP-tag technology in skin cancer therapy.
Authors: Padayachee, Eden Rebecca and Adeola, Henry Ademola and Van Wyk, Jennifer Catherine and Nsole Biteghe, Fleury Augustine and Chetty, Shivan and Khumalo, Nonhlanhla Patience and Barth, Stefan
Journal: Health science reports (2019): e103

One-step site-specific antibody fragment auto-conjugation using SNAP-tag technology.
Authors: Hussain, Ahmad Fawzi and Heppenstall, Paul A and Kampmeier, Florian and Meinhold-Heerlein, Ivo and Barth, Stefan
Journal: Nature protocols (2019): 3101-3125

[Combined application of SNAP-tag and fluorescence technique in in-situ protein analysis].
Authors: Qiao, Qinglong and Zhou, Wei and Chen, Jie and Liu, Wenjuan and Miao, Lu and Yin, Wenting and Xu, Zhaochao
Journal: Se pu = Chinese journal of chromatography (2019): 872-877

Beyond O6-Benzylguanine: O6-(5-Pyridylmethyl)guanine as a Substrate for the Self-Labeling Enzyme SNAP-Tag.
Authors: Macias-Contreras, Miguel and He, Huan and Zhu, Lei
Journal: Bioconjugate chemistry (2018): 4104-4109

Imaging Newly Synthesized and Old Histone Variant Dynamics Dependent on Chaperones Using the SNAP-Tag System.
Authors: Torné, Júlia and Orsi, Guillermo A and Ray-Gallet, Dominique and Almouzni, Geneviève
Journal: Methods in molecular biology (Clifton, N.J.) (2018): 207-221

A wash-free SNAP-tag fluorogenic probe based on the additive effects of quencher release and environmental sensitivity.
Authors: Leng, Shuang and Qiao, Qinglong and Miao, Lu and Deng, Wuguo and Cui, Jingnan and Xu, Zhaochao
Journal: Chemical communications (Cambridge, England) (2017): 6448-6451

说明书
BG琥珀酰亚胺酯.pdf

热电/Thermofisher_A1413201_Gibco 基质 Geltrex™ LDEV-Free Reduced_1ml –

热电/Thermofisher_A1413201_Gibco 基质 Geltrex™ LDEV-Free Reduced_1ml -

代理商Gibco 基质 Geltrex™ LDEV-Free Reduced_1ml

1ml

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Geltrex™ LDEV-Free Reduced Growth Factor Basement Membrane Matrix is a soluble form of basement membrane extracted from murine Engelbreth-Holm-Swarm (EHS) tumors and is free of viruses, including lactose dehydrogenase elevating virus (LDEV), sometimes found in this type of preparation. The major components of Geltrex™ matrix include laminin, collagen IV, entactin, and heparin sulfate proteoglycans. It is ideal for the promotion and maintenance of differentiated phenotypes in a variety of cell cultures including primary epithelial cells, endothelial cells, smooth muscle cells, and human induced pluripotent stem cells (iPSC). Geltrex™ matrix offers, on average, a 2-fold reduction in several growth factors. As a result, analysis of specific growth factor effects in applications requiring basement membrane extract can be carried out in a controlled and reproducible format.

Key Features of Geltrex™ LDEV-Free Reduced Growth Factor Basement Membrane Matrix:

• Free of lactose dehydrogenase elevating virus (LDEV) making it ideal for all types of cell culture and mouse in vivo applications
• Consistent protein concentration lot-to-lot helps reduce the need to screen lots
• Protocols for various applications, including tube formation assays, are available

Gain Reliability and Consistency in Your hESC Studies
Recent advances in processing EHS tumor cells have resulted in virus free basement membrane extracts. Every lot is tested by RT-PCR methods so you can now have confidence that every lot of Geltrex™ is virus free. Additionally, our consistent manufacturing process helps ensure a protein concentration with very little variation from lot-to-lot, averaging 15 mg/ml so you can have confidence in every purchase.

Investigate Angiogenesis with Validated Gibco® Protocols
There are many applications for Geltrex™ LDEV-Free reduced growth factor basement membrane matrix, each requiring different thicknesses and concentrations. In general, a protein concentration of >5 mg/ml is used for differentiation studies of primary cells. Geltrex™ LDEV-Free reduced growth factor basement membrane matrix has been used to develop tube formation assay protocols using Gibco® primary cells and specialty media. See this and other angiogenesis assay protocols

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