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EEF1A2 encodes an isoform of the alpha subunit of the elongation factor-1 complex, which is responsible for the enzymatic delivery of aminoacyl tRNAs to the ribosome. Zusätzlich bieten wir Ihnen EEF1A2 Proteine (6) und viele weitere Produktgruppen zu diesem Protein an.
Showing 10 out of 63 products:
Human Polyclonal EEF1A2 Primary Antibody für EIA, IHC (p) - ABIN952027
Lee, Surh: eEF1A2 as a putative oncogene. in Annals of the New York Academy of Sciences 2009
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Human Polyclonal EEF1A2 Primary Antibody für ELISA, WB - ABIN560693
Scaggiante, Dapas, Bonin, Grassi, Zennaro, Farra, Cristiano, Siracusano, Zanconati, Giansante, Grassi: Dissecting the expression of EEF1A1/2 genes in human prostate cancer cells: the potential of EEF1A2 as a hallmark for prostate transformation and progression. in British journal of cancer 2012
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Mouse (Murine) Polyclonal EEF1A2 Primary Antibody für IHC (p), WB - ABIN656488
Yanaka, Kaseda, Tanaka, Nogusa, Sumiyoshi, Kato: Generation of a zinc finger protein ZPR1 mutant that constitutively interacted with translation elongation factor 1alpha. in Bioscience, biotechnology, and biochemistry 2009
Human Polyclonal EEF1A2 Primary Antibody für IHC, IHC (p) - ABIN4307082
Qiu, Huang, Chen, Li, Wu, Wu, Huang: Eukaryotic elongation factor-1α 2 knockdown inhibits hepatocarcinogenesis by suppressing PI3K/Akt/NF-κB signaling. in World journal of gastroenterology 2016
Cow (Bovine) Polyclonal EEF1A2 Primary Antibody für WB - ABIN2783277
Grassi, Scaggiante, Farra, Dapas, Agostini, Baiz, Rosso, Tiribelli: The expression levels of the translational factors eEF1A 1/2 correlate with cell growth but not apoptosis in hepatocellular carcinoma cell lines with different differentiation grade. in Biochimie 2007
eEF1A2 is highly expressed in hepatocellular carcinoma. Its silencing significantly decreases HCC (zeige FAM126A Antikörper) tumorigenesis, likely by inhibiting PI3K (zeige PIK3CA Antikörper)/Akt (zeige AKT1 Antikörper)/NF-kappaB (zeige NFKB1 Antikörper) signaling.
Differential gene expression analysis demonstrated significant upregulation of PDZK1IP1, EEF1A2 and RPL41 (ENSG00000279483) genes in the intrahepatic cholangiocarcinoma samples when compared with the matched paratumor samples.
In both cases, a de novo recurrent heterozygous mutation in EEF1A2 [c.364G>A (p.E122K)] was identified by whole-exome sequencing. CONCLUSION: This report provides clinical data on epileptic encephalopathy in patients with EEF1A2 mutation. Continuous high-voltage delta activity seen over both parietal areas may be a unique manifestation of EEF1A2 mutation.
Our results provide novel information on the intracellular distribution and interaction of eEF1A (zeige EEF1A1 Antikörper) isoforms.
By directly targeting eEF1A2.
Both eEF1A1 (zeige EEF1A1 Antikörper) and eEF1A2 colocalise with all eEF1B (zeige EEF1B2 Antikörper) subunits, in such close proximity that they are highly likely to be in a complex.
De novo EEF1A2 mutations in patients with characteristic facial features, intellectual disability, autistic behaviors and epilepsy.
Finally, a strong association between the expression of EEF1A2, phosphorylated AKT (zeige AKT1 Antikörper) and MDM4 (zeige MDM4 Antikörper) was observed in human HCC (zeige FAM126A Antikörper) samples. Strong activation of the EEF1A2/PI3K (zeige PIK3CA Antikörper)/AKT (zeige AKT1 Antikörper)/mTOR (zeige FRAP1 Antikörper)/MDM4 (zeige MDM4 Antikörper) signaling pathway was observed in HCC (zeige FAM126A Antikörper) patients
Overexpression of eEF1A2 was correlated with worse outcomes in gastric cancer patients, suggesting its critical roles in the carcinogenesis of gastric cancer.
miR (zeige MLXIP Antikörper)-663 and miR (zeige MLXIP Antikörper)-744 mediate inhibition of the proto-oncogene (zeige RAB1A Antikörper) eEF1A2 expression that results in retardation of the MCF7 cancer cells proliferation. We also observed upregulation of miR (zeige MLXIP Antikörper)-663 and miR (zeige MLXIP Antikörper)-744 with corresponding downregulation of eEF1A2 in resveratrol-treated MCF7 cells, suggesting that resveratrol may influence eEF1A2 expression through a miRNA-dependent pathway.
eEF1A2 crystals obtained using ammonium sulfate as precipitant diffracted to 2.5 A resolution and belonged to space group P6(1)22 or P6(3)22 (unit-cell parameters a = b = 135.4, c = 304.6 A).
This provides the first in vivo confirmation that eEF1A2 plays an important role in translation.
Heterozygous mutant mice showed no deficit in neuromuscular function or signs of spinal cord pathology, in spite of the low levels of eEF1A2
In-depth analysis using site-directed mutagenesis revealed that PKCbetaI could phosphorylate Ser (zeige SIGLEC1 Antikörper)(3) of the eEF1A2 isoform and that the association between eEF1A2 and PKCbetaI was dependent on the phosphorylation status of eEF1A2
EEF1A2 may play contribute to the induction or progression of some plasmacytomas and a small percentage of multiple myeloma.
these results suggest an important role for eEF1A2 in driving cap-independent translation of utrophin (zeige UTRN Antikörper) A in skeletal muscle.
expression of eEF1A-2/S1 protein is activated upon myogenic differentiation
This is a putative oncogene (zeige RAB1A Antikörper) in ovarian cancer.
Data suggest that spontaneous failure of eEF1A2 expression in the wasted mutant first triggers gliosis in spinal cord and retraction of motor nerve terminals in muscle, and then motor neuron pathology and death.
eEF1A-2 interacts with Prdx-I to functionally provide cells with extraordinary resistance to oxidative stress-induced (zeige SQSTM1 Antikörper) cell death[eEF1A-2 and Prdx-I]
The above findings suggest that an increase in free-form eEF1A under alkaline conditions plays a critical role in alkalinization-induced cell growth.
This gene encodes an isoform of the alpha subunit of the elongation factor-1 complex, which is responsible for the enzymatic delivery of aminoacyl tRNAs to the ribosome. This isoform (alpha 2) is expressed in brain, heart and skeletal muscle, and the other isoform (alpha 1) is expressed in brain, placenta, lung, liver, kidney, and pancreas. This gene may be critical in the development of ovarian cancer. Alternatively spliced transcript variants encoding different isoforms have been found for this gene.
eukaryotic translation elongation factor 1 alpha 2
, elongation factor 1-alpha 1
, elongation factor 1-alpha 2
, elongation factor-1 alpha
, eukaryotic elongation factor 1 A-2
, statin S1
, elongation factor 1 A-2
, elongation factor 1 A2
, Statin-like protein