Regolazione della traduzione
•generale
•specifica
Initiation FactorInitiation Factor ActivityActivity
eIF-1 Fidelity of AUG codon recognition
eIF-1A Facilitate Met-tRNAiMet binding to small subunit
eIF-2 Ternary complex formation
eIF-2B (GEF) GTP/GDP exchange during eIF-2 recycling
eIF-3 (10 subunits) Ribosome subunit antiassociation, binding to 40S subunit
eIF-4F (4E, 4A, 4G) mRNA binding to 40S, ATPase-dependent RNA helicase activity
eIF-4A ATPase-dependent RNA helicase
eIF-4E 5' cap recognition
eIF-4G Scaffold for of eIF-4E and -4A in the eIF-4F complex
eIF-4B Stimulates helicase, binds simultaneously with eIF-4F
eIF-4H Similar to eIF4B
eIF-5 Release of eIF-2 and eIF-3, ribosome-dependent GTPase
eIF5B Subunit joining
eIF-6 Ribosome subunit antiassociation
Via delle MAP chinasi
stress
Figure 3.
Stress-Responsive eIF2 Kinases Inhibit General Translation yet Stimulate Expression of a Special Class of Genes(A) Architecture of the four eIF2 Ser-51 kinases. The conserved kinase domains (KD) are depicted in green. The two heme-binding sites in HRI are marked in red. The dsRNA binding domains (dsRBD) in PKR are shown in blue. The N-terminal half of PERK resembles the corresponding domain of the ER stress-responsive IRE1 kinase. Also indicated are signal peptide (SP) and transmembrane (TM) domain of PERK. The regulatory histidyl-tRNA synthetase (HisRS) domain in GCN2 is shown in purple. The locations of the N-terminal GCN1 binding domain (blue), charged region (+/-), and pseudokinase domain (KD), as well as the C-terminal ribosome binding and dimerization domain (RB/DD) in GCN2 are also indicated. The activating condition or ligand for each kinase and the known sources of the kinases are also indicated.
Chinasi di eIF2
Stress-Responsive eIF2 Kinases Inhibit General Translation yet Stimulate Expression of a Special Class of Genes(B) Stress response pathway for regulation of translation by eIF2 phosphorylation. The eIF2 kinases phosphorylate eIF2 leading to inhibition of eIF2B (red bar). This results in low levels of ternary complex (gray arrow) resulting in reduced general translation (gray arrow) and increased translation of GCN4, ATF4, or certain isoforms of C/EBP (black arrow). Increased production of the transcription factors GCN4, ATF4, or C/EBP results in increased expression of their target genes.
Azione delle chinasi di eIF2
Regolazione eIF2Regolazione eIF2
Fosforilazione su ser 51 in risposta a stress da parte di 4 chinasi: PKR, GCN2, PERK, HRI
La fosforilazione impedisce il riciclo da parte di eIF2B
La traduzione di alcuni mRNA è stimolata da bassi livelli di eIF2 attivo
Molti virus hanno sistemi per impedire la fosforilazione di eIF2
eIF4F
Regolazione eIF4ERegolazione eIF4E
Fosforilazione su ser 209 da parte di Mnk1 (e Mnk2) correlata con attivazione
Mnk interagiscono con eIF4G e sono attivate dalla via delle MAP chinasi
eIF4E è inibito dall’interazione con 4E-BP (1, 2 e 3)
4E-BP sono inibite da fosforilazione dipendente dalla via di mTOR