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Merck
CN

EMU014751

MISSION® esiRNA

targeting mouse Eif2ak3

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NACRES:
NA.51
UNSPSC Code:
41105324

主要文件

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产品名称

MISSION® esiRNA, targeting mouse Eif2ak3

description

Powered by Eupheria Biotech

product line

MISSION®

form

lyophilized powder

esiRNA cDNA target sequence

CGATCAAATGGAAGCCCTTAATCCATTCTCCTTCTAGGACTCCTGTCTTGGTTGGGTCTGATGAATTTGACAAATGTCTAAGTAATGATAAGTATTCCCACGAAGAATACAGTAATGGTGCACTTTCAATCCTCCAGTATCCATACGATAACGGTTACTATCTGCCATACTACAAGAGAGAAAGGAATAAGCGGAGCACGCAGATCACAGTCAGGTTCCTGGACAGCCCCCACTACAGCAAGAACATCCGCAAGAAGGACCCTATCCTCCTGCTGCACTGGTGGAAGGAGATATTCGGGACGATCCTGCTTTGCATCGTAGCCACGACCTTCATCGTGCGCAGGCTTTTCCATCCTCAGCCCCACAGGCAGCGGAAGGAGTCTGAAACTCAGTGCCAGACTGAAAGTAAATACGACTCCGTGAGTGCC

Ensembl | mouse accession no.

ENSMUSG00000031668

NCBI accession no.

NM_010121

shipped in

ambient

storage temp.

−20°C

Quality Level

100

Gene Information

mouse ... EIF2AK3(13666), Eif2ak3(13666)

相关类别

General description

MISSION® esiRNA are endoribonuclease prepared siRNA. They are a heterogeneous mixture of siRNA that all target the same mRNA sequence. These multiple silencing triggers lead to highly-specific and effective gene silencing.

For additional details as well as to view all available esiRNA options, please visit SigmaAldrich.com/esiRNA.

Legal Information

MISSION is a registered trademark of Merck KGaA, Darmstadt, Germany

存储类别

10 - Combustible liquids

flash_point_f

Not applicable

flash_point_c

Not applicable

法规信息

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分析证书(COA)

Lot/Batch Number
QXU
QCS

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Yue Wang et al.
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Journal of immunology research, 2015, 183738-183738 (2015-06-20)
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Shu Wang et al.
Molecular cancer therapeutics, 14(4), 877-888 (2015-01-24)
We previously reported that a pan-PAD inhibitor, YW3-56, activates p53 target genes to inhibit cancer growth. However, the p53-independent anticancer activity and molecular mechanisms of YW3-56 remain largely elusive. Here, gene expression analyses found that ATF4 target genes involved in
Fei Sun et al.
Toxicology, 325, 52-66 (2014-08-19)
While it has been well-documented that excessive fluoride exposure caused the skeletal disease and osteoblasts played a critical role in the advanced skeletal fluorosis, the underlying mechanism that mediated these effects remain poorly understood. The present study was undertaken to

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