GCN1 Antibody [G16A4] Datasheet

Biological Description

Specificity	GCN1 Antibody [G16A4] detects endogenous levels of total GCN1 protein.
Background	GCN1 (GCN1 activator of EIF2AK4) is a large ribosome‑bound regulatory protein that functions as a collision sensor and upstream activator of the protein kinase GCN2, thereby integrating translational status and amino acid availability with the integrated stress response and co‑translational quality control. The protein contains extended HEAT‑like repeats and an EF3‑related region that contacts elongating ribosomes and forms a complex with its partner GCN20; this architecture allows GCN1 to bind disomes and higher‑order collided ribosome assemblies and to position GCN2 at the interface between ribosomal subunits and the A‑site region. During amino acid limitation or other stresses that slow elongation, ribosomes stall with unoccupied A sites, trailing ribosomes collide with the stalled ones, and GCN1 is recruited to these collided ribosomes, where it in turn recruits and stabilizes GCN2, enabling GCN2 activation by specific interactions with the collided ribosome and by local enrichment of uncharged tRNA cognate to the A‑site codon. Activated GCN2 phosphorylates the α subunit of eukaryotic initiation factor 2, which converts eIF2 into an inhibitor of ternary complex recycling, attenuates global cap‑dependent translation, and promotes selective translation of stress‑responsive mRNAs such as ATF4, thereby triggering a transcriptional program that upregulates amino acid transporters and biosynthetic enzymes and restores metabolic balance. Beyond this canonical amino acid response, GCN1 contributes to responses to UV irradiation and other stresses that induce ribosome pausing, and mammalian genetic analyses show that GCN1 is essential for embryonic development, cell proliferation, and proper G2/M progression, linking its ribosome‑associated functions to cell‑cycle regulation. GCN1 also participates directly in ribosome‑centric quality control: GCN1 binding to collided ribosomes promotes engagement of the RNF14–RNF25 ubiquitin ligase pathway, which targets elongation factor eEF1A and release factor eRF1 for ubiquitination and degradation and modifies ribosomal proteins, coupling persistent stalling to the clearance of key translation factors and reconfiguration of the translational machinery.

Specificity

GCN1 Antibody [G16A4] detects endogenous levels of total GCN1 protein.

Background

GCN1 (GCN1 activator of EIF2AK4) is a large ribosome‑bound regulatory protein that functions as a collision sensor and upstream activator of the protein kinase GCN2, thereby integrating translational status and amino acid availability with the integrated stress response and co‑translational quality control. The protein contains extended HEAT‑like repeats and an EF3‑related region that contacts elongating ribosomes and forms a complex with its partner GCN20; this architecture allows GCN1 to bind disomes and higher‑order collided ribosome assemblies and to position GCN2 at the interface between ribosomal subunits and the A‑site region. During amino acid limitation or other stresses that slow elongation, ribosomes stall with unoccupied A sites, trailing ribosomes collide with the stalled ones, and GCN1 is recruited to these collided ribosomes, where it in turn recruits and stabilizes GCN2, enabling GCN2 activation by specific interactions with the collided ribosome and by local enrichment of uncharged tRNA cognate to the A‑site codon. Activated GCN2 phosphorylates the α subunit of eukaryotic initiation factor 2, which converts eIF2 into an inhibitor of ternary complex recycling, attenuates global cap‑dependent translation, and promotes selective translation of stress‑responsive mRNAs such as ATF4, thereby triggering a transcriptional program that upregulates amino acid transporters and biosynthetic enzymes and restores metabolic balance. Beyond this canonical amino acid response, GCN1 contributes to responses to UV irradiation and other stresses that induce ribosome pausing, and mammalian genetic analyses show that GCN1 is essential for embryonic development, cell proliferation, and proper G2/M progression, linking its ribosome‑associated functions to cell‑cycle regulation. GCN1 also participates directly in ribosome‑centric quality control: GCN1 binding to collided ribosomes promotes engagement of the RNF14–RNF25 ubiquitin ligase pathway, which targets elongation factor eEF1A and release factor eRF1 for ubiquitination and degradation and modifies ribosomal proteins, coupling persistent stalling to the clearance of key translation factors and reconfiguration of the translational machinery.

Usage Information

Application

WB

Dilution

WB

1:1000

Reactivity

Human, Mouse, Rat

Source

Rabbit Monoclonal Antibody

MW

293 kDa

Storage Buffer

PBS, pH 7.2+50% Glycerol+0.05% BSA+0.01% NaN3

Storage
(from the date of receipt)

-20°C (avoid freeze-thaw cycles), 2 years

References

https://pubmed.ncbi.nlm.nih.gov/38474243/
https://pubmed.ncbi.nlm.nih.gov/41037622/

GCN1 Antibody [G16A4]

Biological Description

Usage Information

References

Application Data