Clariom™ S 测定试剂盒,小鼠
Clariom™ S 测定试剂盒,小鼠
Applied Biosystems™

Clariom™ S 测定试剂盒,小鼠

通过 Clariom S 小鼠测定试剂盒,可获得小鼠转录组的基因水平视图。Clariom S Assays(小鼠)作为下一代全转录组基因水平表达谱分析工具,实现较快速、简单了解更多信息
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货号阵列数量
90293130 阵列
货号 902931
价格(CNY)
55,070.00
Each
添加至购物车
阵列数量:
30 阵列
价格(CNY)
55,070.00
Each
添加至购物车
通过 Clariom S 小鼠测定试剂盒,可获得小鼠转录组的基因水平视图。Clariom S Assays(小鼠)作为下一代全转录组基因水平表达谱分析工具,实现较快速、简单、可扩展的途径以生成可行结果。基于行业前列的微阵列技术,新型人类 Clariom S Assay 设计可对所有已知良好注释的基因进行广泛覆盖,与研究样品类型兼容,具有可扩展的形式以及灵活的数据分析软件。Clariom S Assay 是一种尽可能快速、简单、经济地找到具有已知功能的表达生物标记物的工具。

找到答案,继续前行
虽然近年来已知转录基因数量迅速扩大,但对每个基因的功能了解仍在不断加深。在数据库中发现的许多基因和转录本注释不充分或没有注释,这会使数据分析和解释工作变得复杂和耗时。Clariom S 小鼠测定试剂盒专注于充分注释的基因,使得研究人员可以执行基因水平表达谱分析研究并快速评估关键基因和通路的变化。Clariom S 小鼠测定试剂盒所需的数据分析时间更短,可帮助研究人员更快地得出结论。

简单、快速发现生物标记物
•准确测量 > 20,000 个良好注释基因的基因水平表达,从而快速得出结果。
• 选择一种符合处理量需求的规格,处理量范围从每日 1 至 192 份样品。
•采用专为生物学家设计的直观、高度可视化、免费分析软件,在数分钟内即可从数据获得结果

当有珍贵样品时,一次获得正确结果
• 从总 RNA 量低至 100 pg 的样品中–低至 10 个细胞样品,生成具有可靠性的表达谱。
• 使用来自不同样品类型的 RNA,包括血液、细胞、新鲜/新鲜冷冻或 FFPE 组织。
•通过无需去除球蛋白或 rRNA 步骤的测定,保持样品完整性并降低数据差异性。
•采用全自动样品制备选项,可节省时间和成本。

Clariom S 解决方案可用于在 GeneChip ™ 3000 仪器系统上进行单样品(检测盒阵列)处理和 GeneTitan ™ 微阵列系统上进行高通量自动处理(板阵列),从而提供适合小型和大型队列研究的灵活性。完整的解决方案包含试剂和快速、简单的转录组分析控制台 (TAC) 软件、可在数分钟内分析和显示基因、通路和网络交互模式的全局表达模式。

获得较真实水平的基因水平表达
获得稳健基因水平表达,小鼠 Clariom S Assay 仅检测所有已知转录本亚型(单个基因座组成型外显子表达)。这与其他基因水平的阵列技术和浅层 RNA 测序不同,后者提供了对基因表达的偏倚或因转录本变体表达变化而复杂的数据。小鼠 Clariom S Assay 只能测定每个已知基因长度的组成型外显子,从而生成目前更准确、真实的基因表达测量结果。

Clariom S 小鼠测定试剂盒简单、迅速地识别转录组中的生物标记物,使您获得所需要的覆盖范围、所需的重现性以及您希望针对发现采取措施的见解。
仅供科研使用。不可用于诊断程序。
规格
阵列转录组谱分析
芯片格式过柱
适用于(应用)微阵列分析
反应次数30 次反应
阵列数量30 阵列
产品线Applied Biosystems™
产品类型S 测定试剂盒
数量30 reactions
运输条件经批准可在室温下或者湿冰或干冰上运输
种属小鼠
样品类型RNA
Unit SizeEach
内容与储存
• Poly-A RNA 对照试剂盒,在 -20°C 下储存
• 杂交对照试剂盒,在 -20°C 下储存
• WT 末端标记试剂盒,在 -20°C 下储存
•WT 扩增试剂盒,模块1,在 -20°C 下储存
• WT 扩增试剂盒,模块2,在 4°C 下储存
• Clariom S 30 阵列(小鼠),在 4°C 下储存

常见问题解答 (FAQ)

What reagent kit should I use with my array?

Please refer to the Microarray Reagent Guide for Arrays and Expression Kits to match the correct reagents your array.

Find additional tips, troubleshooting help, and resources within our Microarray Analysis Support Center.

Why is it important to use Tough-Spots® labels when using GeneChip cartridge arrays?

Tough-Spots® labels are small adhesive stickers used to temporarily seal the backs of cartridge arrays during the overnight hybridization step. They are required to prevent loss of volume due to evaporation through the septa. We recommend using Tough-Spots® labels on Rolls from USA Scientific (Item No. 9185-0000)

Find additional tips, troubleshooting help, and resources within our Microarray Analysis Support Center.

What are the respective hybridization volumes based on array format for Affymetrix gene expression arrays?

Proper hybridization volume is critical to obtaining an even signal across a given array. Too little volume can lead to black circles in the middle of the array. Too much volume can leak out of the back of the array. The correct hybridization volume leaves enough room for a small air bubble to circulate around the array surface during the overnight hybridization. Here are the recommended hybridization and fill volumes based on the array format:
Array Format; Hybridization Volume; Fill Volume
- 49 Format (Standard); 200 µL; 250 µL
- 64 Format; 200 µL; 250 µL
- 100 Format (Midi); 130 µL; 160 µL
- 169 Format (Mini); 80 µL; 100 µL
- 400 Format (Micro); 80 µL; 100µL

Find additional tips, troubleshooting help, and resources within our Microarray Analysis Support Center.

Why is strand-specificity important when performing Clariom D and Clariom S assays?

Clariom D arrays have probes that cover all known regions of transcription including probes in overlapping regions from both strands. To obtain strand-specific information from the Clariom D arrays, the WT Pico and WT Plus reagents (which are strand-specific) must be used. This is important because without strand-specific reagent, it would not be possible to decipher the source strand of DNA, which makes it challenging to untangle true gene- and exon- level expression and alternative splicing events.

Strand-specificity is significantly less important for customers interested in gene-level only information (i.e., those using Clariom S) as compared to customers who want to understand the complexities of the whole transcriptome including identifying antisense transcripts and ncRNA (i.e., those using Clariom D). While strand-specificity is less important for gene-level expression only, probes within regions of overlapping transcription from both strands are avoided in the Clariom S array design (unlike Clariom D). This is important because if Clariom S did not preserve strand-specificity, there could be an overestimation of gene-level expression causing false positive or negative results. With Clariom S having a "stranded" design, it does not necessarily need a strand-specific reagent kit.

Find additional tips, troubleshooting help, and resources within our Microarray Analysis Support Center.

What is an Event Score in TAC 4.0 Software?

TAC 4.0 includes two algorithms for identifying alternative splicing events: the TAC 2.0 algorithm and the new EventPointer. Algorithmic determination of alternate splicing remains a challenging problem. TAC 4.0 supports two different approaches that have different sets of strengths and weaknesses. After considerable testing, the new TAC 4.0 “'Event Score” leverages both previous TAC 2.0 event estimation score and Event Pointer p-value and sorts the most likely alternative splicing events to the top. Of course, the TAC 2.0 event score and EventPointer p-values remain individually available.

Find additional tips, troubleshooting help, and resources within our Microarray Analysis Support Center.

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