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Helixyte Green双链DNA定量检测试剂盒

英文名称:Helixyte™ Green Fluorimetric dsDNA Quantitation Kit *Optimized for Broad Dynamic Range*
Helixyte Green双链DNA定量检测试剂盒
价格 2823
产品规格
200 Tests

产品货号
产品参数
Ex (nm)503Em (nm)527
分子量-溶剂-
存储条件-
产品概述

DNA定量是DNA样品制备过程中的一项重要工作,Helixyte 绿色双链DNA定量检测试剂盒提供了一种用Helixyte Green BR快速测定dsDNA的方法。该测定法在三个数量级上是线性的,并且比紫外线吸收度读数灵敏度高几个数量级。Helixyte Green-BR与dsDNA结合后荧光增强,序列依赖性小,可准确测定基因组DNA、病毒DNA、miniprep-DNA或PCR扩增产物等多种来源的DNA样品。该方法对RNA上的双链DNA(dsDNA)具有高度的选择性,并且被优化以测量从10 pg/ul到10 ng/ul的DNA浓度。百萤生物是AAT Bioquest的中国代理商,为您提供优质的Helixyte 绿色双链DNA定量检测试剂盒。

 

适用仪器


荧光酶标仪  
Ex: 490 nm
Em: 530 nm
Cutoff: 510 nm
推荐孔板: 纯黑色孔板
   
实验方案

样品实验方案

简要概述

  1. 准备dSDNA标准品,测试样品和染料工作溶液
  2. 添加DNA标准液或测试样品(50 uL)
  3. 添加Helixyte Green-BR工作溶液(50 uL)
  4. 在室温下孵育2分钟
  5. 检测Ex / Em = 490/530 nm的荧光强度

提示:操作前将所有组件加热到室温。暂时没有关于Helixyte Green dsDNA染色剂的致突变性或毒性的数据。由于该试剂与核酸结合,因此应将其视为潜在的诱变剂,应谨慎处理。DMSO储备溶液应特别小心,因为已知DMSO有助于有机分子进入组织。

 

溶液配制

标准溶液配制

将100 uL的100 ug / mL dsDNA标准溶液(组分C)添加到400 uL的测定缓冲液(组分B)中,以生成20 ug / mL的dsDNA标准溶液。然后用测定缓冲液(组分B)进行1:3的系列稀释,以得到0至20 ug / mL的系列稀释的dsDNA标准品。

 

工作溶液配制

Helixyte Green BR工作溶液:将50 uL Helixyte Green BR(组分A)添加到5 mL的测定缓冲液(组分B)中,使总体积为5.050 mL。通过用箔纸覆盖或将其置于黑暗中来保护工作溶液免受光照。 注意:我们建议在塑料容器中而不是玻璃中制备该溶液,因为染料可能会吸附到玻璃表面。为了获得结果,应在准备后的几个小时内使用此溶液。

 

实验步骤

表1.  在透明底部96孔微孔板中的dsDNA标准品和测试样品的布局。DS = dsDNA标准品(DS1-DS7,20至0.027 ug / mL); BL =空白对照;TS =测试样品

BL

BL

TS

TS

DS1

DS1

DS2

DS2

DS3

DS3

 

 

DS4

DS4

 

 

DS5

DS5

 

 

DS6

DS6

 

 

DS7

DS7

 

 

表2.  每个孔的试剂组成

Well

Volume

Reagent

DS1-DS7

50 uL

连续稀释 (20 to 0.027 ug/mL)

BL

50 uL

缓冲液 (Component B)

TS

50 uL

实验样品

  1. 根据表1和表2提供的布局,制备dsDNA标准品(DS)、空白对照品(BL)和测试样品(TS)。对于384孔板,每孔使用25 uL试剂,而不是50 uL。注:根据需要处理细胞或组织样本。
  2. 添加50 uL Helixyte Green-BR染料工作液(2X)分别加入dsDNA标准液、空白对照液和供试品中,使总分析体积为100ul/孔。对于384孔板,添加25 uL的Helixyte Green-BR染料工作溶液,每孔总体积为50 uL/孔。
  3. 在室温下避光培养2分钟。
  4. 在Ex/Em=490/530 nm(截止=515nm)处用荧光酶标仪检测荧光强度。

 

图示

 

 

图1.用Helixyte Green dsDNA定量试剂盒在96孔黑色孔板中测量了dsDNA剂量反应。

 

 

参考文献

A new reporter design based on DNA origami nanostructures for quantification of short oligonucleotides using microbeads
Authors: Choi, Y., Schmidt, C., Tinnefeld, P., Bald, I., Rodiger, S.
Journal: Sci Rep (2019): 4769

A universal fluorescence-based toolkit for real-time quantification of DNA and RNA nuclease activity
Authors: Sheppard, E. C., Rogers, S., Harmer, N. J., Chahwan, R.
Journal: Sci Rep (2019): 8853

Effects of Quantification Methods, Isolation Kits, Plasma Biobanking, and Hemolysis on Cell-Free DNA Analysis in Plasma
Authors: Streleckiene, G., Forster, M., Inciuraite, R., Lukosevicius, R., Skieceviciene, J.
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Flat-top TIRF illumination boosts DNA-PAINT imaging and quantification
Authors: Stehr, F., Stein, J., Schueder, F., Schwille, P., Jungmann, R.
Journal: Nat Commun (2019): 1268

Molecular-Recognition-Based DNA Nanodevices for Enhancing the Direct Visualization and Quantification of Single Vesicles of Tumor Exosomes in Plasma Microsamples
Authors: He, D., Ho, S. L., Chan, H. N., Wang, H., Hai, L., He, X., Wang, K., Li, H. W.
Journal: Anal Chem (2019): 2768-2775

Quantification of fixed adherent cells using a strong enhancer of the fluorescence of DNA dyes
Authors: Ligasova, A., Koberna, K.
Journal: Sci Rep (2019): 8701

A fluorescent reporter for quantification and enrichment of DNA editing by APOBEC-Cas9 or cleavage by Cas9 in living cells
Authors: St Martin, A., Salamango, D., Serebrenik, A., Shaban, N., Brown, W. L., Donati, F., Munagala, U., Conticello, S. G., Harris, R. S.
Journal: Nucleic Acids Res (2018): e84

Accuracy of human sperm DNA oxidation quantification and threshold determination using an 8-OHdG immuno-detection assay
Authors: Vorilhon, S., Brugnon, F., Kocer, A., Dollet, S., Bourgne, C., Berger, M., Janny, L., Pereira, B., Aitken, R. J., Moazamian, A., Gharagozloo, P., Drevet, J., Pons-Rejraji, H.
Journal: Hum Reprod (2018): 553-562

Cell Type-Specific Quantification of Telomere Length and DNA Double-strand Breaks in Individual Lung Cells by Fluorescence In Situ Hybridization and Fluorescent Immunohistochemistry
Authors: van Batenburg, A. A., Kazemier, K. M., Peeters, T., van Oosterhout, M. F. M., van der Vis, J. J., Grutters, J. C., Goldschmeding, R., van Moorsel, C. H. M.
Journal: J Histochem Cytochem (2018): 485-495

Identification and Quantification of Heterogeneously-methylated DNA Fragments Using Epiallele-sensitive Droplet Digital Polymerase Chain Reaction (EAST-ddPCR)
Authors: Menschikowski, M., J and eck, C., Friedemann, M., Richter, S., Thiem, D., Lange, B. S., Suttorp, M.
Journal: Cancer Genomics Proteomics (2018): 299-312