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AB263184

Human EIF4H knockout HEK-293T cell lysate

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EIF4H KO cell lysate available now. KO validated by. Free of charge wild type control included. Knockout achieved by using CRISPR/Cas9, 1 bp insertion in exon1.

View Alternative Names

AU018978, D5Ertd355e, E430026L18Rik, Ef4h, Eukaryotic translation initiation factor 4H, IF4H_HUMAN, KIAA0038, WBSCR1, WSCR1, Williams Beuren syndrome chromosomal region 1 protein homolog, Williams-Beuren syndrome chromosomal region 1 protein, Williams-Beuren syndrome chromosome region 1, eIF-4H

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Sanger Sequencing - Human EIF4H knockout HEK-293T cell lysate (AB263184)
  • Sanger seq

Unknown

Sanger Sequencing - Human EIF4H knockout HEK-293T cell lysate (AB263184)

Homozygous : 1 bp insertion in exon1

Key facts

Cell type

HEK-293T

Species or organism

Human

Tissue

Kidney

Knockout validation

Sanger Sequencing

Mutation description

Knockout achieved by using CRISPR/Cas9, 1 bp insertion in exon1.

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Product details

Knockout cell lysate achieved by CRISPR/Cas9.

REACH authorisation
Abcam has not and does not intend to apply for the REACH Authorisation of customers' uses of products that contain European Authorisation list (Annex XIV) substances.
It is the responsibility of our customers to check the necessity of application of REACH Authorisation, and any other relevant authorisations, for their intended uses.

Lysate preparation: Our lysates are made using RIPA buffer to which we add a protease inhibitor cocktail and phosphatase inhibitor cocktail (ratio: 300:100:10). This means that the protein of interest is denatured. If you require a native form of the protein please use the live cell version. Please refer to our lysis protocol for further details on how our lysates are prepared.

User storage instructions: Lyophilizate may be stored at 4°C. After reconstitution, store at -20°C for short-term storage or -80°C for long-term storage.

This product is subject to limited use licenses from The Broad Institute, ERS Genomics Limited and Sigma-Aldrich Co. LLC, and is developed with patented technology. For full details of the licenses and patents please refer to our limited use license and patent pages.

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What's included?

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Properties and storage information

Gene name
EIF4H
Gene editing type
Knockout
Gene editing method
CRISPR technology
Knockout validation
Sanger Sequencing
Shipped at conditions
Ambient - Can Ship with Ice
Appropriate short-term storage conditions
-20°C
Appropriate long-term storage conditions
-20°C
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Supplementary information

This supplementary information is collated from multiple sources and compiled automatically.

The eukaryotic translation initiation factor 4H commonly known as eIF4H is an essential protein participating in the initiation phase of protein synthesis. It holds a mass of approximately 27 kDa. eIF4H is expressed in various tissues including the brain liver and muscle. The protein promotes the unwinding of RNA secondary structures aiding ribosome attachment to the mRNA. This function aligns closely with its alternate name eukaryotic translation initiation factor 4H.
Biological function summary

EIF4H enhances the helicase activity of eIF4A an RNA helicase vital for translation initiation. It forms part of the translation initiation complex. The complex brings together eIF4E eIF4G and eIF4A enhancing mRNA recognition and processing. eIF4H stabilizes the eIF4A-mRNA interaction reducing the likelihood of premature dissociation and permitting efficient scanning for the start codon.

Pathways

EIF4H plays a significant role in the mTOR (mechanistic target of rapamycin) signaling pathway which regulates cell growth and proliferation. This pathway influences protein synthesis by controlling the availability and activity of initiation factors like eIF4A and eIF4E. mTOR signaling overlaps with the MAPK (mitogen-activated protein kinase) pathway with eIF4H indirectly interacting with RAF proteins which regulate cell cycle progression and differentiation.

Researchers link eIF4H to neurological disorders like Autism Spectrum Disorder and certain cancers such as glioblastoma. Alterations in the expression or function of eIF4H may impact the mTOR pathway influencing tumor progression and neural development. These dysfunctional roles also involve eIF4E as both proteins contribute to abnormal translation initiation and gene expression in these conditions.
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Quality control

STR analysis

CSF1PO, D13S317, D7S820, D5S818, TH01, D16S539, TPOX

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Cell culture

Biosafety level

EU: 2 US: 2

Adherent/suspension

Adherent

Gender

Female

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Product protocols

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Product promise

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For full details, please see our Terms & Conditions

Please note: All products are 'FOR RESEARCH USE ONLY. NOT FOR USE IN DIAGNOSTIC OR THERAPEUTIC PROCEDURES'.

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