Quant-iT™ 1X dsDNA 定量试剂盒，高灵敏度 (HS) 和宽范围 (BR)

Use 96- and 384-well Microplates for Fluorescence-based Assays with Quant-iT assays for optimal results

Quant-iT™ 1X dsDNA 定量试剂盒，高灵敏度 (HS) 和宽范围 (BR)

引用和文献 (2)

Invitrogen™

Quant-iT™ 1X dsDNA 定量试剂盒，高灵敏度 (HS) 和宽范围 (BR)

Name: Quant-iT™ 1X dsDNA 定量试剂盒，高灵敏度 (HS) 和宽范围 (BR)
SKU: Q33232
Price: 6484.00 CNY

为了方便、准确地进行 dsDNA 定量，Quant-iT 1X dsDNA HS 和 BR 定量试剂盒能够以96孔微孔板规格进行多达1,000次基于荧光的测定。

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货号	数量	检测	定量范围
Q33232	1000 assays	1 x dsDNA，高灵敏度	0.2 至 100 ng
Q33267	1 kit	1 x dsDNA，宽范围	4 至 4000 ng

2 选项

货号 Q33232

价格（CNY)

6,484.00

Each

添加至购物车

数量:

1000 assays

检测:

1 x dsDNA，高灵敏度

定量范围:

0.2 至 100 ng

价格（CNY)

6,484.00

Each

添加至购物车

借助 Quant-iT 1X dsDNA HS（高灵敏度）和 Quant-iT 1X dsDNA BR（宽范围）定量试剂盒，可在即用型 1X 配方中轻松、精确地进行 DNA 定量。两种试剂盒均提供即用型工作溶液。只需上样，加入 Qubit 1X dsDNA HS 或 BR 工作溶液，然后就可使用基于荧光的微孔板读数仪读取浓度。

相较于 RNA，Quant-iT 1X dsDNA HS 和 BR 定量试剂盒对双链 DNA (dsDNA) 具有高度选择性，提供一种精准的 dsDNA 样品定量方法。进行测定时，只需将您的样品（1–20 µL 的任何体积均可接受）稀释到提供的 1X 工作溶液中，然后就可使用 Qubit 荧光板读数仪读取浓度值。

Quant-iT 1X dsDNA HS 定量试剂盒可在测定试管中准确检测初始浓度为 10 pg/µL 至 100 ng/µL 的样品（取决于样品体积），核心检测范围为 0.2 ng 至 100 ng DNA。Quant-iT 1X dsDNA BR 定量试剂盒可准确检测初始浓度为 200 pg/µL 至 4000 ng/µL 的 DNA 样品（具体取决于样品体积），检测范围为 4–4000 ng DNA。

dsDNA 定量试剂盒对于常见污染物具有良好的耐受性，如盐、游离核苷酸、溶剂、去污剂和蛋白等。'1X’ dsDNA 定量试剂盒提供的试剂和缓冲液为即用型配方，相较于 ssDNA、RNA 和蛋白，该试剂盒对 dsDNA 具有高度选择性。

For Research Use Only. Not for use in diagnostic procedures.

规格

检测1 x dsDNA，高灵敏度

适用于（设备）微孔板读数仪

环保功能节省资源、减少浪费

产品线Quant-iT

定量范围0.2 至 100 ng

数量1000 assays

运输条件湿冰

检测方法荧光

产品规格试剂盒

样品类型DNA

Unit SizeEach

常见问题解答 (FAQ)

What is the expiration date for the Quant-iT 1X dsDNA Assay Kits, high sensitivity (HS) and broad range (BR) (Cat. Nos. Q33232, Q3367)?

The expiration date for the Quant-iT 1X dsDNA Assay Kits, high sensitivity (HS) and broad range (BR) (Cat. Nos. Q33232, Q3367) is 6 months from the date of receipt.

Find additional tips, troubleshooting help, and resources within our Nucleic Acid Purification and Analysis Support Center.

引用和文献 (2)

引用和文献

Abstract

Total circulating cell-free miRNA in plasma as a predictive biomarker of the thyroid diseases.

Authors:Caglar O, Cayir A

Journal:J Cell Biochem

PubMed ID:30506793

Thyroid cancer is a common endocrine cancer. Great progress has been made in resolving its molecular mechanisms in recent years. The molecular changes observed in thyroid cancer can be used as biomarkers for diagnostic, prognostic and therapeutic purposes. MicroRNAs (miRNAs) are important components in biological and metabolic pathways, such as ... More

Tendon response to matrix unloading is determined by the patho-physiological niche.

Authors:Wunderli SL, Blache U, Beretta Piccoli A, Niederöst B, Holenstein CN, Passini FS, Silván U, Bundgaard L, Auf dem Keller U, Snedeker JG

Journal:Matrix Biol

PubMed ID:31917255

Although the molecular mechanisms behind tendon disease remain obscure, aberrant stromal matrix turnover and tissue hypervascularity are known hallmarks of advanced tendinopathy. We harness a tendon explant model to unwind complex cross-talk between the stromal and vascular tissue compartments. We identify the hypervascular tendon niche as a state-switch that gates ... More