Eukaryotic translation initiation (Homo sapiens)

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86212, 2911, 14, 2012512, 2918, 263, 5, 11, 14411, 14, 20, 21, 28227, 9, 11, 13, 14, 2315, 18, 2655, 1610, 11, 14, 19, 20, 2643cytosolRPS24 GTP EIF4G1EIF3I RPL35A EIF2S3 RPS20 EIF4G1 EIF4A1 EIF3J RPL8 EIF2S1 RPS20 RPS4Y1 RPS26 L13a kinaseRPL39L RPL4 RPL8 RPS28 EIF3J RPS4Y1 RPS2 5S rRNA RPS24 EIF3F EIF4H 18S rRNA RPS23 EIF2S2 RPS19 RPL29 RPS6 RPL18A RPS3A RPL22L1 EIF2S3 Met-tRNAi RPL5 RPS19 RPL18A FAU RPS15 RPS20 RPL36AL RPS9 RPL9 RPS20 RPL23A GDP EIF4G1 RPS8 RPL24 RPL19 18S rRNA RPSA RPL28 EIF3E RPL21 RPL40 RPS3 RPL35A RPLP1 RPL26L1 RPS9 RPSA RPL27A EIF4A1 RPS27L RPS11 RPL19 EIF2S1 RPS13 RPL17 RPS27L RPS16 EIF3E EIF2B2 EIF3G RPS18 RPL30 EIF3H EIF2B4 eIF4F:mRNPEIF3H EIF4G1 GTP RPS6 RPS25 RPLP0 RPS28 mRNA:eIF4F:eIF4B:eIF4HRPS18 RPS29 RPL24 RPS12 GTP RPL23 RPL12 RPL23 RPS2 RPS18 EIF3A RPS15A 5.8S rRNA EIF3K Met-tRNAi Ceruloplasmin mRNA RPSA RNA-binding proteinin RNP(ribonucleoprotein)complexesRPS3 RPS3 RPS11 RPS26 EIF5B RPS20 EIF2S2 RPL23A RPS9 RPS23 EIF3I RPL39L RPL34 RPS26 RPL31 EIF2S3 EIF3M EIF4G1 RPLP1 EIF3K Met-tRNAi RPL28 FAU RPL37A RPS27L RPL10L 43S:CeruloplasminmRNA:eIF4F:eIF4B:eIF4H:PABPRPS16 RPS13 RPS12 RPL15 PiRPS14 RPS25 18S rRNA EIF4A1 RPS6 EIF2S1 EIF4E RPS29 RPS27L EIF2B2 RPL32 RPL23A EIF3B RPS3 RPL40 RPS15A RPS25 eIF2:GDP: eIF2BRPS9 RPL39 GTPRPL35 RPL6 EIF3E EIF2B4 RPL23 43S complexRPL23 RPS8 RPS7 RPS8 RPL31 RPS13 RPS8 EIF2B3 GTP RPL14 RPS7 RPS27A(77-156) 28S rRNA EIF4G1 RPS4Y2 RPS10 RPS2 EIF4A1 RPL13 mRNA EIF3J RPL22 EIF4EBP1RPL13 EIF5B EIF1AX RPS15A RPS27L EIF3I RPL12 RPS27 RPS4Y2 RPS25 RPS9 RPL26L1 EIF1AXRPLP1 RPS15A RPL36A RPS17 RPS5 RPS4X 28S rRNA RPS13 eIF1RPL23 RPL32 RPL10A RPS27 EIF5B RPS28 RPS4Y2 RPL36A RPL6 RPL36 EIF2S1 RPS14 RPL6 RPL9 RPS15 RPS23 RPS4X EIF2S1 RPL3 EIF3J RPS27 RPS4Y2 RPL21 RPS19 RPS14 RPL24 RPS27 RPL18 Met-tRNAi RPL41 RPL35 EIF3L 5S rRNA EIF3F EIF3J RPS11 EIF3C EIF1AXRPL38 RPL27A 18S rRNA EIF3C RPL37 RPL36A RPL18 RPLP2 RPS26 RPL41 RPS4Y1 RPL8 RPS6 RPS21 RPL22L1 RPL38 RPS16 EIF3H RPL18 RPL39L GDP EIF3J 60s ribosomalcomplex lackingL13a subunitEIF3B RPS4Y1 RPS27L RPL13A RPS12 RPS4X RPL19 RPS7 RPS4Y2 RPLP0 eIF2:GDPRPS15A RPS24 RPL36 RPL22 EIF2S3 EIF2S3 EIF3I RPS14 GTP eIF2B subunitscomplexATP60S ribosomalcomplexRPS11 RPL4 RPS29 RPS14 28S rRNA RPL7 RPS13 Met-tRNAiRPL10L RPS16 RPS9 EIF2S3 EIF2S2 RPL10 RPL30 RPS7 18S rRNA RPS15A RPS16 80S:Met-tRNAi:mRNA:eIF5B:GTPRPS26 RPL22L1 RPS4Y2 RPL18 RPS21 EIF3H RPS27 RPS3 EIF2S1 RPL4 EIF4A2 RPL39L EIF3A EIF3E RPS24 EIF3H FAU RPL21 RPS4X RPL23A RPL34 RPL22L1 RPL30 RPL5 EIF4E RPL40 RPS3A RPL10L RPL29 EIF3K EIF4H RPL7A PABPC1 RPS6 RPL26 EIF1AX RPS15 EIF4E RPL36AL RPS18 EIF3I RPS21 RPL27 mRNA EIF4H RPS2 RPS4X RPL19 EIF3L RPS23 RPS26 EIF4B RPS20 RPS18 RPS6 5.8S rRNA RPL27A RPS28 EIF3G RPS10 RPL13A EIF4B EIF3K RPS7 GTP RPS12 RPL7A RPL9 RPLP1 RPS17 RPS23 eIF1GDPEIF1AX RPS25 RPS19 RPL41 RPS7 PABPC1RPS21 EIF3D RPS27 RPS24 RPS23 RPS27L RPS10 RPS10 RPL17 RPS3A RPS9 RPS28 ADPEIF4E EIF4E EIF4B RPS17 RPL7 EIF3G RPL15 RPS12 RPS16 RPS12 5S rRNA RPS19 RPL13 RPS29 RPL35A RNA-binding protein in RNP (ribonucleoprotein) complexes RPL35A EIF2S2 RPS14 RPS3A RPL37 RPS3A RPL32 RPL5 eIF2:GTPGDP PiEIF3F RPS6 EIF2B5 RPS4Y1 RPL27 RPL22 RPS5 RPS28 RPSA RPS19 EIF3F RPS27A(77-156) RPS13 RPS4Y1 RPL6 EIF1AXEIF3B RPS13 RPS28 EIF2S3 RPL39L RPS27A(77-156) RPL3 EIF3B EIF2S1 RPS3A 18S rRNA 18S rRNA RPS3 RPLP2 EIF2S2 RPS4Y2 RPS23 RPL3L mRNA RPL13A EIF4G1 RPLP0 5.8S rRNA RPL9 RPL17 RPS3 RPL29 RPS2 eIF4A subunitscomplexEIF4A2 28S rRNA RPL14 RPL39 RPL34 RPL27 RPS4Y2 EIF2S2 RPL3L RPS6 RPS27 80S ribosomeADPEIF3K EIF3H RPL27 RPS4Y1 RPL22 RPS19 RPS12 mRNA RPS9 RPL5 RNA-binding protein in RNP (ribonucleoprotein) complexes EIF4H RPS2 18S rRNA EIF4B RPSA RPS26 40S:Met-tRNAi:mRNARPS13 RPL14 RPS20 RPS27A(77-156) RPS10 EIF4H 43S:mRNA:eIF4F:eIF4B:eIF4HRPL11 RPL11 RPS11 RPS27 RPS27A(77-156) RPS3 RPS21 5S rRNA PABPC1 EIF4E RPS18 EIF2S1:EIF2S2:EIF2S3RPL35 RPS15 40S ribosomalcomplexRPS17 RPL38 RPS24 RPS21 RPL3L PiCeruloplasmin mRNA RPS2 RPL23A 5.8S rRNA EIF2S1:EIF2S2:EIF2S3RPS23 RPL12 EIF2S1 EIF4A2 EIF3G RPS27L RPS4Y1 RPL3 EIF5eIF5B:GDPEIF3K mRNA EIF4E EIF2B5 RPL7 RPS28 RPS7 RPL41 FAU RPLP0 EIF4A2 RPLP2 EIF3E EIF4BRPS6 RPSA EIF3D RPL3 Met-tRNAi EIF2S3 RPS11 RPS17 Met-tRNAi RPL31 RPS21 RPSA EIF2S3 RPS4Y2 eIF3 subunitscomplexRPS9 RPL21 EIF2B3 RPS20 RPS16 RPS27A(77-156) RPL36AL mRNA RPSA EIF3E RPS5 RPL38 RPS27A(77-156) RPS17 EIF3E EIF4A2 RPLP2 EIF2B1 RPL18A RPL37A RPL39 EIF3I eIF4E:4E-BPRPL31 EIF4A2 RPL36AL RPL10A RPS3A RPL10A EIF4A2 RPL7 EIF3F RPL35 RPL10 EIF3B mRNA RPS8 RPS15A RPL28 RPL37A RPL35A RPL26 EIF2S3 RPL3L RPL28 RPS2 RPL8 RPS15 EIF4A1 EIF1AX RPL37 RPL41 RPS21 RPS18 RPS25 EIF3D RPS27L RPL10A RPL22 RPL27 RPS5 EIF1AX RPL27A RPS3A RPS27L EIF3G RPS17 RPS29 RPS10 RPS29 RPSA RPS29 RPS17 EIF3A RPS23 RPSA EIF2S1 RPS11 RPS24 RPL14 RPS18 RPL18A EIF3B EIF3C PiRPL29 RPS15 RPS23 RPS25 RPS24 RPL35 EIF2B1 FAU RPS2 RPS16 EIF2S2 ATPRPL13 RPS14 RPS19 RPLP2 RPS24 GTP EIF1AX RPL15 RPS7 RPL14 RPS24 RPS14 EIF3C 5S rRNA RPS3 RPS5 EIF5RPS28 RPS29 RPL34 RPS27A(77-156) RPS5 EIF4B eIF4FRPL18 EIF4G1 EIF2S2 RPS12 RPL15 RPL10 RPS18 RPL7A EIF1AXRPS11 RPL9 RPL21 EIF4A1 RPL12 ATPRPL4 RPS4Y1 RPS11 18S rRNA RPL37A 80S:Met-tRNAi:mRNARPL5 RPS13 EIF3C RPS4X EIF2S1 RPL3L mRNPRPS15 RPS4X ternary complexMet-tRNAi RPS26 EIF3A RPL7A Met-tRNAi FAU EIF2S2 RPS4X RPL13 Met-tRNAi RPL11 eIF2:GTPEIF3L RPL7A RPS17 RPL10 CeruloplasminmRNA:eIF4F:eIF4B:eIF4HRPS12 RPS2 RPL29 EIF4A1 RPS6 EIF3K EIF3D RPS5 RPS8 RPS20 RPLP1 RPL15 EIF3F RPS14 EIF3B EIF3D RPSA EIF2S1 RPS5 EIF3L RPS25 RPL13ARPL30 RPS13 RPS15 RPL10L RPS14 EIF4ERPS15 RPS29 RPS10 EIF4H GTP RPS15 RPL36A EIF4E RPS4Y2 RPS26 EIF3M GTP48S complexRPS25 18S rRNA GTP EIF3J RPL39 EIF4EBP1 RPS27A(77-156) RPL18A RPS29 RPL10A RPS4Y2 RPS18 RPL12 RPS21 EIF4A1 RPL26 RPL24 ATPRPL28 RPS12 RPS4X EIF3G 18S rRNA EIF55.8S rRNA RPL37 RPL26 phospho-L13aassociated wth the 3' UTR GAIT elementof ceruloplasminmRNA within thetranslationinitiation complexRPS15A RPLP0 RPS16 RPS19 mRNA EIF3G EIF3D RPS19 RPS3 RPS21 ADPRPS8 RPL26L1 RPS28 EIF2S2 EIF4E RPL3 RPS18 40S:eIF3:eIF1ACeruloplasmin mRNA RPL17 EIF3I RPS19 EIF4A1 RPS10 RPS7 RPL26L1 RPL36AL RPL34 RPL17 FAU EIF3L p-RPL13A EIF3M GTP EIF2S3 RPS17 RPS9 RPS15 EIF3L RPS5 RPS8 EIF3M EIF3D RPS27 EIF3M EIF2S1 RPS23 EIF3M EIF4HFAU RPL38 EIF3L RPS10 RPS4Y1 RPS21 RPS14 RPL6 RPS15A RPS16 RPL22L1 FAU EIF3A RPS12 RPS13 RPS10 RPL7 RPS10 RPS27 RPS9 RPL31 RPS20 RPS17 RPS29 RPL32 RPS15A RPS24 RPL36A RPS4X EIF3M RPS8 RPL40 EIF3H EIF4A2 RPL39 RPL30 RPL37 RPL26 RPL36 RPS27L RPS3A EIF2S3 RPS11 RPL36 RPL37A RPS6 RPS27A(77-156) RPS28 EIF3C RPS15A EIF3A RPS5 RPS8 RPL36 RPS8 RPL19 FAU RPS7 p-RPL13ARPS27 RPL27A EIF3C FAU RPL10L RPS20 RPL10 RPS25 RPS5 RPL11 EIF4B RPS16 RPL32 EIF3A RPS4Y1 RPS26 RPS3A RPS2 RPL4 RPL11 RPL26L1 RPL8 RPL13A EIF4G1 RPS3A RPL40 EIF2S2 EIF4A2 RPS4X EIF2S2 RPS27A(77-156) RPS7 RPS3 EIF3F 28S rRNA RPS25 RPS26 RPS11 eIF5B:GTPRPL24 17, 2417, 2417, 2417, 2417, 242717, 2417, 2417, 2417, 2417, 24


Description

Initiation of translation in the majority of eukaryotic cellular mRNAs depends on the 5'-cap (m7GpppN) and involves ribosomal scanning of the 5' untranslated region (5'-UTR) for an initiating AUG start codon. Therefore, this mechanism is often called cap-dependent translation initiation. Proximity to the cap, as well as the nucleotides surrounding an AUG codon, influence the efficiency of the start site recognition during the scanning process. However, if the recognition site is poor enough, scanning ribosomal subunits will ignore and skip potential starting AUGs, a phenomenon called leaky scanning. Leaky scanning allows a single mRNA to encode several proteins that differ in their amino-termini. Merrick (2010) provides an overview of this process and hghlights several features of it that remain incompletely understood.

Several eukaryotic cell and viral mRNAs initiate translation by an alternative mechanism that involves internal initiation rather than ribosomal scanning. These mRNAs contain complex nucleotide sequences, called internal ribosomal entry sites, where ribosomes bind in a cap-independent manner and start translation at the closest downstream AUG codon.

Initiation on several viral and cellular mRNAs is cap-independent and is mediated by binding of the ribosome to internal ribosome entry site (IRES) elements. These elements are often found in characteristically long structured regions on the 5'-UTR of an mRNA that may or may not have regulatory upstream open reading frames (uORFs). Both of these features on the 5'-end of the mRNA hinder ribosomal scanning, and thus promote a cap-independent translation initiation mechanism. IRESs act as specific translational enhancers that allow translation initiation to occur in response to specific stimuli and under the control of different trans-acting factors, as for example when cap-dependent protein synthesis is shut off during viral infection. Such regulatory elements have been identified in the mRNAs of growth factors, protooncogenes, angiogenesis factors, and apoptosis regulators, which are translated under a variety of stress conditions, including hypoxia, serum deprivation, irradiation and apoptosis. Thus, cap-independent translational control might have evolved to regulate cellular responses in acute but transient stress conditions that would otherwise lead to cell death, while the same mechanism is of major importance for viral mRNAs to bypass the shutting-off of host protein synthesis after infection. Encephalomyocarditis virus (EMCV) and hepatitis C virus exemplify two distinct mechanisms of IRES-mediated initiation. In contrast to cap-dependent initiation, the eIF4A and eIF4G subunits of eIF4F bind immediately upstream of the EMCV initiation codon and promote binding of a 43S complex. Accordingly, EMCV initiation does not involve scanning and does not require eIF1, eIF1A, and the eIF4E subunit of eIF4F. Nonetheless, initiation on some EMCV-like IRESs requires additional non-canonical initiation factors, which alter IRES conformation and promote binding of eIF4A/eIF4G. Initiation on the hepatitis C virus IRES is simpler: a 43S complex containing only eIF2 and eIF3 binds directly to the initiation codon as a result of specific interaction of the IRES and the 40S subunit.

View original pathway at Reactome.</div>

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Pathway is converted from Reactome ID: 72613
Reactome-version 
Reactome version: 75

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Bibliography

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  1. Pause A, Belsham GJ, Gingras AC, Donzé O, Lin TA, Lawrence JC, Sonenberg N.; ''Insulin-dependent stimulation of protein synthesis by phosphorylation of a regulator of 5'-cap function.''; PubMed Europe PMC Scholia
  2. Sampath P, Mazumder B, Seshadri V, Fox PL.; ''Transcript-selective translational silencing by gamma interferon is directed by a novel structural element in the ceruloplasmin mRNA 3' untranslated region.''; PubMed Europe PMC Scholia
  3. Pestova TV, Borukhov SI, Hellen CU.; ''Eukaryotic ribosomes require initiation factors 1 and 1A to locate initiation codons.''; PubMed Europe PMC Scholia
  4. Mazumder B, Sampath P, Seshadri V, Maitra RK, DiCorleto PE, Fox PL.; ''Regulated release of L13a from the 60S ribosomal subunit as a mechanism of transcript-specific translational control.''; PubMed Europe PMC Scholia
  5. Grifo JA, Tahara SM, Morgan MA, Shatkin AJ, Merrick WC.; ''New initiation factor activity required for globin mRNA translation.''; PubMed Europe PMC Scholia
  6. Safer B, Adams SL, Anderson WF, Merrick WC.; ''Binding of MET-TRNAf and GTP to homogeneous initiation factor MP.''; PubMed Europe PMC Scholia
  7. Pestova TV, Shatsky IN, Hellen CU.; ''Functional dissection of eukaryotic initiation factor 4F: the 4A subunit and the central domain of the 4G subunit are sufficient to mediate internal entry of 43S preinitiation complexes.''; PubMed Europe PMC Scholia
  8. Merrick WC.; ''Eukaryotic protein synthesis: still a mystery.''; PubMed Europe PMC Scholia
  9. Kozak M.; ''Evaluation of the "scanning model" for initiation of protein synthesis in eucaryotes.''; PubMed Europe PMC Scholia
  10. Chakrabarti A, Maitra U.; ''Function of eukaryotic initiation factor 5 in the formation of an 80 S ribosomal polypeptide chain initiation complex.''; PubMed Europe PMC Scholia
  11. Trachsel H, Erni B, Schreier MH, Staehelin T.; ''Initiation of mammalian protein synthesis. II. The assembly of the initiation complex with purified initiation factors.''; PubMed Europe PMC Scholia
  12. Rowlands AG, Panniers R, Henshaw EC.; ''The catalytic mechanism of guanine nucleotide exchange factor action and competitive inhibition by phosphorylated eukaryotic initiation factor 2.''; PubMed Europe PMC Scholia
  13. Iost I, Dreyfus M, Linder P.; ''Ded1p, a DEAD-box protein required for translation initiation in Saccharomyces cerevisiae, is an RNA helicase.''; PubMed Europe PMC Scholia
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  15. Schreier MH, Erni B, Staehelin T.; ''Initiation of mammalian protein synthesis. I. Purification and characterization of seven initiation factors.''; PubMed Europe PMC Scholia
  16. Sonenberg N, Rupprecht KM, Hecht SM, Shatkin AJ.; ''Eukaryotic mRNA cap binding protein: purification by affinity chromatography on sepharose-coupled m7GDP.''; PubMed Europe PMC Scholia
  17. Dever TE, Wei CL, Benkowski LA, Browning K, Merrick WC, Hershey JW.; ''Determination of the amino acid sequence of rabbit, human, and wheat germ protein synthesis factor eIF-4C by cloning and chemical sequencing.''; PubMed Europe PMC Scholia
  18. Merrick WC, Kemper WM, Anderson WF.; ''Purification and characterization of homogeneous initiation factor M2A from rabbit reticulocytes.''; PubMed Europe PMC Scholia
  19. Asano K, Clayton J, Shalev A, Hinnebusch AG.; ''A multifactor complex of eukaryotic initiation factors, eIF1, eIF2, eIF3, eIF5, and initiator tRNA(Met) is an important translation initiation intermediate in vivo.''; PubMed Europe PMC Scholia
  20. Peterson DT, Merrick WC, Safer B.; ''Binding and release of radiolabeled eukaryotic initiation factors 2 and 3 during 80 S initiation complex formation.''; PubMed Europe PMC Scholia
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  23. Chuang RY, Weaver PL, Liu Z, Chang TH.; ''Requirement of the DEAD-Box protein ded1p for messenger RNA translation.''; PubMed Europe PMC Scholia
  24. Lahn BT, Page DC.; ''Functional coherence of the human Y chromosome.''; PubMed Europe PMC Scholia
  25. Yoder-Hill J, Pause A, Sonenberg N, Merrick WC.; ''The p46 subunit of eukaryotic initiation factor (eIF)-4F exchanges with eIF-4A.''; PubMed Europe PMC Scholia
  26. Pestova TV, Lomakin IB, Lee JH, Choi SK, Dever TE, Hellen CU.; ''The joining of ribosomal subunits in eukaryotes requires eIF5B.''; PubMed Europe PMC Scholia
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  29. Dholakia JN, Wahba AJ.; ''Mechanism of the nucleotide exchange reaction in eukaryotic polypeptide chain initiation. Characterization of the guanine nucleotide exchange factor as a GTP-binding protein.''; PubMed Europe PMC Scholia

History

View all...
CompareRevisionActionTimeUserComment
128373view17:49, 3 February 2024Ash iyerFixing error (check)
128372view17:45, 3 February 2024Ash iyeridentifier added
128371view17:43, 3 February 2024Ash iyereif1 identifier added.
128323view00:28, 1 February 2024EweitzOntology Term : 'translation pathway' added !
117720view12:33, 22 May 2021EweitzModified title
114979view16:50, 25 January 2021ReactomeTeamReactome version 75
113423view11:49, 2 November 2020ReactomeTeamReactome version 74
112625view16:00, 9 October 2020ReactomeTeamReactome version 73
101541view11:40, 1 November 2018ReactomeTeamreactome version 66
101076view21:23, 31 October 2018ReactomeTeamreactome version 65
100606view19:57, 31 October 2018ReactomeTeamreactome version 64
100157view16:42, 31 October 2018ReactomeTeamreactome version 63
99707view15:11, 31 October 2018ReactomeTeamreactome version 62 (2nd attempt)
99288view12:46, 31 October 2018ReactomeTeamreactome version 62
93969view13:48, 16 August 2017ReactomeTeamreactome version 61
93568view11:27, 9 August 2017ReactomeTeamreactome version 61
86670view09:23, 11 July 2016ReactomeTeamreactome version 56
83337view10:49, 18 November 2015ReactomeTeamVersion54
76969view08:25, 17 July 2014ReactomeTeamFixed remaining interactions
76674view12:04, 16 July 2014ReactomeTeamFixed remaining interactions
76136view13:23, 11 June 2014AnweshaRe-fixing comment source
75707view11:05, 10 June 2014ReactomeTeamReactome 48 Update
75062view13:57, 8 May 2014AnweshaFixing comment source for displaying WikiPathways description
74706view08:46, 30 April 2014ReactomeTeamReactome46
45250view18:36, 7 October 2011AlexanderPicoOntology Term : 'translation initiation pathway' added !
42035view21:51, 4 March 2011MaintBotAutomatic update
39838view05:52, 21 January 2011MaintBotNew pathway

External references

DataNodes

View all...
NameTypeDatabase referenceComment
18S rRNA ProteinX03205 (EMBL)
28S rRNA ProteinM11167 (EMBL)
40S ribosomal complexComplexR-HSA-72392 (Reactome)
40S:Met-tRNAi:mRNAComplexR-HSA-72508 (Reactome)
40S:eIF3:eIF1AComplexR-HSA-72570 (Reactome)
43S complexComplexR-HSA-72571 (Reactome)
43S:

Ceruloplasmin

mRNA:eIF4F:eIF4B:eIF4H:PABP
ComplexR-HSA-156804 (Reactome)
43S:mRNA:eIF4F:eIF4B:eIF4HComplexR-HSA-72592 (Reactome)
48S complexComplexR-HSA-72594 (Reactome)
5.8S rRNA ProteinJ01866 (EMBL)
5S rRNA ProteinV00589 (EMBL)
60S ribosomal complexComplexR-HSA-72499 (Reactome)
60s ribosomal

complex lacking

L13a subunit
ComplexR-HSA-156817 (Reactome)
80S ribosomeComplexR-HSA-72500 (Reactome)
80S:Met-tRNAi:mRNA:eIF5B:GTPComplexR-HSA-72504 (Reactome)
80S:Met-tRNAi:mRNAComplexR-HSA-72505 (Reactome)
ADPMetaboliteCHEBI:456216 (ChEBI)
ATPMetaboliteCHEBI:30616 (ChEBI)
Ceruloplasmin mRNA:eIF4F:eIF4B:eIF4HComplexR-HSA-156809 (Reactome)
Ceruloplasmin mRNA ProteinM13699 (EMBL)
EIF1AX ProteinP47813 (Uniprot-TrEMBL)
EIF1AXProteinP47813 (Uniprot-TrEMBL)
EIF2B1 ProteinQ14232 (Uniprot-TrEMBL)
EIF2B2 ProteinP49770 (Uniprot-TrEMBL)
EIF2B3 ProteinQ9NR50 (Uniprot-TrEMBL)
EIF2B4 ProteinQ9UI10 (Uniprot-TrEMBL)
EIF2B5 ProteinQ13144 (Uniprot-TrEMBL)
EIF2S1 ProteinP05198 (Uniprot-TrEMBL)
EIF2S1:EIF2S2:EIF2S3ComplexR-HSA-72515 (Reactome)
EIF2S2 ProteinP20042 (Uniprot-TrEMBL)
EIF2S3 ProteinP41091 (Uniprot-TrEMBL)
EIF3A ProteinQ14152 (Uniprot-TrEMBL)
EIF3B ProteinP55884 (Uniprot-TrEMBL)
EIF3C ProteinQ99613 (Uniprot-TrEMBL)
EIF3D ProteinO15371 (Uniprot-TrEMBL)
EIF3E ProteinP60228 (Uniprot-TrEMBL)
EIF3F ProteinO00303 (Uniprot-TrEMBL)
EIF3G ProteinO75821 (Uniprot-TrEMBL)
EIF3H ProteinO15372 (Uniprot-TrEMBL)
EIF3I ProteinQ13347 (Uniprot-TrEMBL)
EIF3J ProteinO75822 (Uniprot-TrEMBL)
EIF3K ProteinQ9UBQ5 (Uniprot-TrEMBL)
EIF3L ProteinQ9Y262 (Uniprot-TrEMBL)
EIF3M ProteinQ7L2H7 (Uniprot-TrEMBL)
EIF4A1 ProteinP60842 (Uniprot-TrEMBL)
EIF4A2 ProteinQ14240 (Uniprot-TrEMBL)
EIF4B ProteinP23588 (Uniprot-TrEMBL)
EIF4BProteinP23588 (Uniprot-TrEMBL)
EIF4E ProteinP06730 (Uniprot-TrEMBL)
EIF4EBP1 ProteinQ13541 (Uniprot-TrEMBL)
EIF4EBP1ProteinQ13541 (Uniprot-TrEMBL)
EIF4EProteinP06730 (Uniprot-TrEMBL)
EIF4G1 ProteinQ04637 (Uniprot-TrEMBL)
EIF4G1ProteinQ04637 (Uniprot-TrEMBL)
EIF4H ProteinQ15056 (Uniprot-TrEMBL)
EIF4HProteinQ15056 (Uniprot-TrEMBL)
EIF5B ProteinO60841 (Uniprot-TrEMBL)
EIF5ProteinP55010 (Uniprot-TrEMBL)
FAU ProteinP62861 (Uniprot-TrEMBL)
GDP MetaboliteCHEBI:17552 (ChEBI)
GDPMetaboliteCHEBI:17552 (ChEBI)
GTP MetaboliteCHEBI:15996 (ChEBI)
GTPMetaboliteCHEBI:15996 (ChEBI)
L13a kinaseR-HSA-170641 (Reactome)
Met-tRNAi R-ALL-72393 (Reactome)
Met-tRNAiR-ALL-72393 (Reactome)
PABPC1 ProteinP11940 (Uniprot-TrEMBL)
PABPC1ProteinP11940 (Uniprot-TrEMBL)
PiMetaboliteCHEBI:43474 (ChEBI)
RNA-binding protein

in RNP (ribonucleoprotein)

complexes
R-ALL-72595 (Reactome)
RNA-binding protein in RNP (ribonucleoprotein) complexes R-ALL-72595 (Reactome)
RPL10 ProteinP27635 (Uniprot-TrEMBL)
RPL10A ProteinP62906 (Uniprot-TrEMBL)
RPL10L ProteinQ96L21 (Uniprot-TrEMBL)
RPL11 ProteinP62913 (Uniprot-TrEMBL)
RPL12 ProteinP30050 (Uniprot-TrEMBL)
RPL13 ProteinP26373 (Uniprot-TrEMBL)
RPL13A ProteinP40429 (Uniprot-TrEMBL)
RPL13AProteinP40429 (Uniprot-TrEMBL)
RPL14 ProteinP50914 (Uniprot-TrEMBL)
RPL15 ProteinP61313 (Uniprot-TrEMBL)
RPL17 ProteinP18621 (Uniprot-TrEMBL)
RPL18 ProteinQ07020 (Uniprot-TrEMBL)
RPL18A ProteinQ02543 (Uniprot-TrEMBL)
RPL19 ProteinP84098 (Uniprot-TrEMBL)
RPL21 ProteinP46778 (Uniprot-TrEMBL)
RPL22 ProteinP35268 (Uniprot-TrEMBL)
RPL22L1 ProteinQ6P5R6 (Uniprot-TrEMBL)
RPL23 ProteinP62829 (Uniprot-TrEMBL)
RPL23A ProteinP62750 (Uniprot-TrEMBL)
RPL24 ProteinP83731 (Uniprot-TrEMBL)
RPL26 ProteinP61254 (Uniprot-TrEMBL)
RPL26L1 ProteinQ9UNX3 (Uniprot-TrEMBL)
RPL27 ProteinP61353 (Uniprot-TrEMBL)
RPL27A ProteinP46776 (Uniprot-TrEMBL)
RPL28 ProteinP46779 (Uniprot-TrEMBL)
RPL29 ProteinP47914 (Uniprot-TrEMBL)
RPL3 ProteinP39023 (Uniprot-TrEMBL)
RPL30 ProteinP62888 (Uniprot-TrEMBL)
RPL31 ProteinP62899 (Uniprot-TrEMBL)
RPL32 ProteinP62910 (Uniprot-TrEMBL)
RPL34 ProteinP49207 (Uniprot-TrEMBL)
RPL35 ProteinP42766 (Uniprot-TrEMBL)
RPL35A ProteinP18077 (Uniprot-TrEMBL)
RPL36 ProteinQ9Y3U8 (Uniprot-TrEMBL)
RPL36A ProteinP83881 (Uniprot-TrEMBL)
RPL36AL ProteinQ969Q0 (Uniprot-TrEMBL)
RPL37 ProteinP61927 (Uniprot-TrEMBL)
RPL37A ProteinP61513 (Uniprot-TrEMBL)
RPL38 ProteinP63173 (Uniprot-TrEMBL)
RPL39 ProteinP62891 (Uniprot-TrEMBL)
RPL39L ProteinQ96EH5 (Uniprot-TrEMBL)
RPL3L ProteinQ92901 (Uniprot-TrEMBL)
RPL4 ProteinP36578 (Uniprot-TrEMBL)
RPL40 ProteinP62987 (Uniprot-TrEMBL)
RPL41 ProteinP62945 (Uniprot-TrEMBL)
RPL5 ProteinP46777 (Uniprot-TrEMBL)
RPL6 ProteinQ02878 (Uniprot-TrEMBL)
RPL7 ProteinP18124 (Uniprot-TrEMBL)
RPL7A ProteinP62424 (Uniprot-TrEMBL)
RPL8 ProteinP62917 (Uniprot-TrEMBL)
RPL9 ProteinP32969 (Uniprot-TrEMBL)
RPLP0 ProteinP05388 (Uniprot-TrEMBL)
RPLP1 ProteinP05386 (Uniprot-TrEMBL)
RPLP2 ProteinP05387 (Uniprot-TrEMBL)
RPS10 ProteinP46783 (Uniprot-TrEMBL)
RPS11 ProteinP62280 (Uniprot-TrEMBL)
RPS12 ProteinP25398 (Uniprot-TrEMBL)
RPS13 ProteinP62277 (Uniprot-TrEMBL)
RPS14 ProteinP62263 (Uniprot-TrEMBL)
RPS15 ProteinP62841 (Uniprot-TrEMBL)
RPS15A ProteinP62244 (Uniprot-TrEMBL)
RPS16 ProteinP62249 (Uniprot-TrEMBL)
RPS17 ProteinP08708 (Uniprot-TrEMBL)
RPS18 ProteinP62269 (Uniprot-TrEMBL)
RPS19 ProteinP39019 (Uniprot-TrEMBL)
RPS2 ProteinP15880 (Uniprot-TrEMBL)
RPS20 ProteinP60866 (Uniprot-TrEMBL)
RPS21 ProteinP63220 (Uniprot-TrEMBL)
RPS23 ProteinP62266 (Uniprot-TrEMBL)
RPS24 ProteinP62847 (Uniprot-TrEMBL)
RPS25 ProteinP62851 (Uniprot-TrEMBL)
RPS26 ProteinP62854 (Uniprot-TrEMBL)
RPS27 ProteinP42677 (Uniprot-TrEMBL)
RPS27A(77-156) ProteinP62979 (Uniprot-TrEMBL)
RPS27L ProteinQ71UM5 (Uniprot-TrEMBL)
RPS28 ProteinP62857 (Uniprot-TrEMBL)
RPS29 ProteinP62273 (Uniprot-TrEMBL)
RPS3 ProteinP23396 (Uniprot-TrEMBL)
RPS3A ProteinP61247 (Uniprot-TrEMBL)
RPS4X ProteinP62701 (Uniprot-TrEMBL)
RPS4Y1 ProteinP22090 (Uniprot-TrEMBL)
RPS4Y2 ProteinQ8TD47 (Uniprot-TrEMBL)
RPS5 ProteinP46782 (Uniprot-TrEMBL)
RPS6 ProteinP62753 (Uniprot-TrEMBL)
RPS7 ProteinP62081 (Uniprot-TrEMBL)
RPS8 ProteinP62241 (Uniprot-TrEMBL)
RPS9 ProteinP46781 (Uniprot-TrEMBL)
RPSA ProteinP08865 (Uniprot-TrEMBL)
eIF1R-ALL-72617 (Reactome)
eIF1R-HSA-72613 (Reactome)
eIF2:GDP: eIF2BComplexR-HSA-72529 (Reactome)
eIF2:GDPComplexR-HSA-72530 (Reactome)
eIF2:GTPComplexR-HSA-72531 (Reactome)
eIF2B subunits complexComplexR-HSA-72526 (Reactome)
eIF3 subunits complexComplexR-HSA-72555 (Reactome)
eIF4A subunits complexComplexR-HSA-72576 (Reactome)
eIF4E:4E-BPComplexR-HSA-72581 (Reactome)
eIF4F:mRNPComplexR-HSA-72597 (Reactome)
eIF4FComplexR-HSA-72587 (Reactome)
eIF5B:GDPComplexR-HSA-72502 (Reactome)
eIF5B:GTPComplexR-HSA-72503 (Reactome)
mRNA R-HSA-72323 (Reactome)
mRNA:eIF4F:eIF4B:eIF4HComplexR-HSA-72593 (Reactome)
mRNPComplexR-HSA-72596 (Reactome)
p-RPL13A ProteinP40429 (Uniprot-TrEMBL)
p-RPL13AProteinP40429 (Uniprot-TrEMBL)
phospho-L13a

associated wth the 3' UTR GAIT element of ceruloplasmin mRNA within the translation

initiation complex
ComplexR-HSA-156824 (Reactome)
ternary complexComplexR-HSA-72532 (Reactome)

Annotated Interactions

View all...
SourceTargetTypeDatabase referenceComment
40S ribosomal complexArrowR-HSA-72673 (Reactome)
40S ribosomal complexR-HSA-72676 (Reactome)
40S:Met-tRNAi:mRNAArrowR-HSA-72619 (Reactome)
40S:Met-tRNAi:mRNAR-HSA-72672 (Reactome)
40S:eIF3:eIF1AArrowR-HSA-72676 (Reactome)
40S:eIF3:eIF1AR-HSA-72691 (Reactome)
43S complexArrowR-HSA-72691 (Reactome)
43S complexR-HSA-156808 (Reactome)
43S complexR-HSA-157849 (Reactome)
43S:

Ceruloplasmin

mRNA:eIF4F:eIF4B:eIF4H:PABP
ArrowR-HSA-156808 (Reactome)
43S:

Ceruloplasmin

mRNA:eIF4F:eIF4B:eIF4H:PABP
R-HSA-156823 (Reactome)
43S:mRNA:eIF4F:eIF4B:eIF4HArrowR-HSA-157849 (Reactome)
43S:mRNA:eIF4F:eIF4B:eIF4HR-HSA-72621 (Reactome)
48S complexArrowR-HSA-72621 (Reactome)
48S complexArrowR-HSA-72697 (Reactome)
48S complexR-HSA-72619 (Reactome)
48S complexR-HSA-72697 (Reactome)
60S ribosomal complexArrowR-HSA-72673 (Reactome)
60S ribosomal complexR-HSA-156826 (Reactome)
60S ribosomal complexR-HSA-72672 (Reactome)
60s ribosomal

complex lacking

L13a subunit
ArrowR-HSA-156826 (Reactome)
80S ribosomeR-HSA-72673 (Reactome)
80S:Met-tRNAi:mRNA:eIF5B:GTPArrowR-HSA-72672 (Reactome)
80S:Met-tRNAi:mRNA:eIF5B:GTPR-HSA-72671 (Reactome)
80S:Met-tRNAi:mRNAArrowR-HSA-72671 (Reactome)
ADPArrowR-HSA-156832 (Reactome)
ADPArrowR-HSA-72621 (Reactome)
ADPArrowR-HSA-72647 (Reactome)
ATPArrowR-HSA-72621 (Reactome)
ATPR-HSA-156832 (Reactome)
ATPR-HSA-72621 (Reactome)
ATPR-HSA-72647 (Reactome)
Ceruloplasmin mRNA:eIF4F:eIF4B:eIF4HR-HSA-156808 (Reactome)
EIF1AXArrowR-HSA-156808 (Reactome)
EIF1AXArrowR-HSA-157849 (Reactome)
EIF1AXArrowR-HSA-72619 (Reactome)
EIF1AXArrowR-HSA-72673 (Reactome)
EIF1AXArrowR-HSA-72697 (Reactome)
EIF1AXR-HSA-156808 (Reactome)
EIF1AXR-HSA-157849 (Reactome)
EIF1AXR-HSA-72673 (Reactome)
EIF1AXR-HSA-72676 (Reactome)
EIF1AXR-HSA-72697 (Reactome)
EIF2S1:EIF2S2:EIF2S3ArrowR-HSA-72697 (Reactome)
EIF2S1:EIF2S2:EIF2S3R-HSA-72663 (Reactome)
EIF2S1:EIF2S2:EIF2S3R-HSA-72697 (Reactome)
EIF4BArrowR-HSA-72619 (Reactome)
EIF4BR-HSA-72647 (Reactome)
EIF4EArrowR-HSA-72619 (Reactome)
EIF4EArrowR-HSA-72622 (Reactome)
EIF4EBP1ArrowR-HSA-72622 (Reactome)
EIF4ER-HSA-72631 (Reactome)
EIF4G1ArrowR-HSA-72619 (Reactome)
EIF4G1R-HSA-72631 (Reactome)
EIF4HArrowR-HSA-72619 (Reactome)
EIF4HR-HSA-72647 (Reactome)
EIF5ArrowR-HSA-72619 (Reactome)
EIF5ArrowR-HSA-72697 (Reactome)
EIF5R-HSA-72619 (Reactome)
EIF5R-HSA-72697 (Reactome)
GDPArrowR-HSA-72722 (Reactome)
GTPArrowR-HSA-72669 (Reactome)
GTPR-HSA-72663 (Reactome)
GTPR-HSA-72722 (Reactome)
L13a kinasemim-catalysisR-HSA-156832 (Reactome)
Met-tRNAiR-HSA-72669 (Reactome)
PABPC1R-HSA-156808 (Reactome)
PiArrowR-HSA-72619 (Reactome)
PiArrowR-HSA-72621 (Reactome)
PiArrowR-HSA-72647 (Reactome)
PiArrowR-HSA-72671 (Reactome)
R-HSA-156808 (Reactome) The precise order of events leading to the circularization of poly (A) mRNA during translation initiation is unknown. Here the association of PABP with the poly (A) mRNA and the association of PABP with eIF4F are represented as occuring simultaneously after formation of the initiation complex. However, it is also possible that these interactions occur during the formation of the translation initiation complex. The binding of eIF4F to the cap and binding of PABP to the poly (A) tail, for example, may occur at the same time. In fact, the eIF4G-PABP interaction helps eIF4F to bind tighter to the cap (Borman et al. 2000.) In addition, eIF4B and eIF4H bind more transiently to the mRNA and may not be part of an initial complex in which PABP has not yet touched eIF4G.
R-HSA-156823 (Reactome) Although the mechanism through which L13a prevents translation initiation has not been determined, Mazumder et al. (2003) have described four alternatives. L13a could (1) inhibit the function of eIF4F, (2) block the recruitment of the 43S preinitiation complex, (3) prevent scanning of the 43S complex to the initiation codon, or 4) interfere with joining of the 60S ribosomal subunit.
R-HSA-156826 (Reactome) The L13a subunit of the 60s ribosome is phosphorylated about 16 hours after INF gamma induction by an unknown kinase. At this time, L13a is also released from the 60s subunit (Mazumder et al.,2003). It is unclear, however, whether phosphorylation occurs before or after the release of L13a. Here, phosphorylation is shown as occurring after release.
R-HSA-156832 (Reactome) The L13a subunit of the 60s ribosome is phosphorylated about 16 hours after INF gamma induction by an unknown kinase. At this time, L13a is also released from the 60s subunit (Mazumder et al.,2003). It is unclear, however, whether phosphorylation occurs before or after the release of L13a. Here, phosphorylation is shown as occurring after release.
R-HSA-157849 (Reactome) The translation initiation complex forms when the 43S complex binds the mRNA that is associated with eIF4F, eIF4B and eIF4H. eIF4G in the eIF4F complex can directly contact eIF3 in the 43S complex. eIF1A is necessary for the formation of this complex.
R-HSA-72619 (Reactome) Once the Met-tRNAi has recognized the AUG, eIF2-bound GTP is hydrolyzed. The reaction is catalyzed by eIF5 (or eIF5B) and is thought to cause dissociation of all other initiation factors and allow joining of the large 60S ribosomal subunit. Release of the initiation factors from 40S leaves the Met-tRNAi in the ribosomal P-site base-paired to the start codon on the mRNA.
R-HSA-72621 (Reactome) The mRNA-bound ribosomal complex moves along the 5'-untranslated region (5'-UTR) of the mRNA from its initial site to the initiation codon to form a 48S complex, in which the initiation codon (AUG) is base paired to the anticodon of the Met-tRNAi. It is not known whether eIF4A (or another ATPase, such as DED1) facilitates scanning by melting mRNA secondary structures or by actively propelling the ribosome.
R-HSA-72622 (Reactome) eIF4E gets released from the inactive eIF4E:4EBP complex.
R-HSA-72631 (Reactome) eIF4A interacts with eIF4G, and eIF4E interacts with the amino-terminal domain of eIF4G to form the cap-binding complex eIF4F.
R-HSA-72635 (Reactome) The factor eIF4E within the eIF4F (cap-binding) complex directly binds the 5'-cap on eukaryotic mRNAs. Note that the mRNA is in complex with cytoplasmic proteins constituting an mRNP complex.
R-HSA-72647 (Reactome) The DEAD-box RNA helicase eIF4A, together with the RNA-binding proteins eIF4B or eIF4H, is thought to unwind RNA secondary structures near the 5'-end of the mRNA and in the presence of ATP.
R-HSA-72663 (Reactome) Activation of eIF2 through direct binding of GTP.
R-HSA-72669 (Reactome) The ternary complex forms upon binding of the initiator methionyl-tRNA to the active eIF2:GTP complex.
R-HSA-72670 (Reactome) Inactive eIF2:GDP binds eIF2B to form an eIF2:GDP:eIF2B intermediate.
R-HSA-72671 (Reactome) Once the 60S subunit joins the translation initiation complex, eIF5B hydrolyzes its GTP and is released from the now 80S monosome. The fully assembled 80s ribosome is now ready to start elongation of the polypeptide chain.
R-HSA-72672 (Reactome) Joining of the 60S subunit to form the 80S ribosome is catalyzed by the presence of GTP-bound eIF5B.
R-HSA-72673 (Reactome) 80S monosomes dissociate into 40S and 60S ribosomal subunits. eIF1A promotes this dissociation.
R-HSA-72676 (Reactome) eIF3 and eIF1A bind to the 40S ribosomal subunit.
R-HSA-72691 (Reactome) The ternary complex (Met-tRNAi:eIF2:GTP) binds to the complex formed by the 40S subunit, eIF3 and eIF1A, to form the 43S complex. eIF1A promotes binding of the ternary complex to the 40S subunit within 43S. The initiator methionyl-tRNA from the ternary complex is positioned at the ribosomal P site.
R-HSA-72697 (Reactome) The AUG initiation codon in the mRNA is recognized by base pairing with the anticodon of the Met-tRNAi. This reaction requires eIF1, eIF1A, eIF2 and eIF5.
R-HSA-72722 (Reactome) eIF2B is a guanine nucleotide releasing factor that is required to cause GDP release so that a new GTP molecule can bind and activate eIF2, so that it can be reused.
RNA-binding protein

in RNP (ribonucleoprotein)

complexes
ArrowR-HSA-72647 (Reactome)
RPL13AArrowR-HSA-156826 (Reactome)
RPL13AR-HSA-156832 (Reactome)
eIF1ArrowR-HSA-72697 (Reactome)
eIF1R-HSA-72619 (Reactome)
eIF1R-HSA-72697 (Reactome)
eIF1mim-catalysisR-HSA-72621 (Reactome)
eIF1mim-catalysisR-HSA-72697 (Reactome)
eIF2:GDP: eIF2BArrowR-HSA-72670 (Reactome)
eIF2:GDP: eIF2BR-HSA-72722 (Reactome)
eIF2:GDPArrowR-HSA-72619 (Reactome)
eIF2:GDPR-HSA-72670 (Reactome)
eIF2:GTPArrowR-HSA-72663 (Reactome)
eIF2:GTPArrowR-HSA-72722 (Reactome)
eIF2:GTPR-HSA-72669 (Reactome)
eIF2B subunits complexArrowR-HSA-72722 (Reactome)
eIF2B subunits complexR-HSA-72670 (Reactome)
eIF2B subunits complexmim-catalysisR-HSA-72722 (Reactome)
eIF3 subunits complexArrowR-HSA-72619 (Reactome)
eIF3 subunits complexR-HSA-72676 (Reactome)
eIF4A subunits complexArrowR-HSA-72619 (Reactome)
eIF4A subunits complexArrowR-HSA-72647 (Reactome)
eIF4A subunits complexR-HSA-72631 (Reactome)
eIF4A subunits complexR-HSA-72647 (Reactome)
eIF4A subunits complexmim-catalysisR-HSA-72647 (Reactome)
eIF4E:4E-BPR-HSA-72622 (Reactome)
eIF4F:mRNPArrowR-HSA-72635 (Reactome)
eIF4F:mRNPR-HSA-72647 (Reactome)
eIF4FArrowR-HSA-72631 (Reactome)
eIF4FR-HSA-72635 (Reactome)
eIF5B:GDPArrowR-HSA-72671 (Reactome)
eIF5B:GTPR-HSA-72672 (Reactome)
mRNA:eIF4F:eIF4B:eIF4HArrowR-HSA-72647 (Reactome)
mRNA:eIF4F:eIF4B:eIF4HR-HSA-157849 (Reactome)
mRNPR-HSA-72635 (Reactome)
p-RPL13AArrowR-HSA-156832 (Reactome)
p-RPL13AR-HSA-156823 (Reactome)
phospho-L13a

associated wth the 3' UTR GAIT element of ceruloplasmin mRNA within the translation

initiation complex
ArrowR-HSA-156823 (Reactome)
ternary complexArrowR-HSA-72669 (Reactome)
ternary complexR-HSA-72691 (Reactome)

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