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Merck
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EHU091461

Sigma-Aldrich

MISSION® esiRNA

targeting human XRCC4

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About This Item

分類程式碼代碼:
41105324
NACRES:
NA.51

描述

Powered by Eupheria Biotech

品質等級

100

產品線

MISSION®

形狀

lyophilized powder

esiRNA cDNA 標靶序列

TCAGACTTGGTTCCTTCAACCTAGAGAAAGTTGAAAACCCAGCTGAAGTCATTAGAGAACTTATTTGTTATTGCTTGGACACCATTGCAGAAAATCAAGCCAAAAATGAGCACCTGCAGAAAGAAAATGAAAGGCTTCTGAGAGATTGGAATGATGTTCAAGGACGATTTGAAAAATGTGTGAGTGCTAAGGAAGCTTTGGAGACTGATCTTTATAAGCGGTTTATTCTGGTGTTGAATGAGAAGAAAACAAAAATCAGAAGTTTGCATAATAAATTATTAAATGCAGCTCAAGAACGAGAAAAGGACATCAAACAAGAAGGGGAAACTGCAATCTGTTCTGAAATGACTGCTGACCGAGATCCAGTCTATGATGAGAGTACTGATGAGGAAAGTGAAAACCAAACTGATCTCTCTGGGTTGGCTT

Ensembl | 人類登錄號

ENSG00000152422

NCBI登錄號

NM_022406

運輸包裝

ambient

儲存溫度

−20°C

基因資訊

human ... XRCC4(7518) , XRCC4(7518)

相关类别

一般說明

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.

法律資訊

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

儲存類別代碼

10 - Combustible liquids

閃點(°F)

Not applicable

閃點(°C)

Not applicable

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Wen Li et al.
Nature cell biology, 21(10), 1273-1285 (2019-09-25)
Chromosome translocation is a major cause of the onset and progression of diverse types of cancers. However, the mechanisms underlying this process remain poorly understood. Here, we identified a non-homologous end-joining protein, IFFO1, which structurally forms a heterotetramer with XRCC4.
Idit Hazan et al.
Cell reports, 29(3), 560-572 (2019-10-17)
DNA double-strand breaks (DSBs) are deleterious and tumorigenic but could also be essential for DNA-based processes. Yet the landscape of physiological DSBs and their role and repair are still elusive. Here, we mapped DSBs at high resolution in cancer and
Masahiro Terasawa et al.
PLoS genetics, 10(8), e1004563-e1004563 (2014-08-29)
DNA double-strand breaks (DSBs) can be repaired by one of two major pathways-non-homologous end-joining (NHEJ) and homologous recombination (HR)-depending on whether cells are in G1 or S/G2 phase, respectively. However, the mechanisms of DSB repair during M phase remain largely

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