Citations for
1EEF1A1, EEF1AKNMT
METTL13 Methylation of eEF1A Increases Translational Output to Promote Tumorigenesis.
Liu S, Hausmann S, Carlson SM, Fuentes ME, Francis JW, Pillai R, Lofgren SM, Hulea L, Tandoc K, Lu J, Li A, Nguyen ND, Caporicci M, Kim MP, Maitra A, Wang H, Wistuba II, Porco JA Jr, Bassik MC, Elias JE, Song J, Topisirovic I, Van Rechem C, Mazur PK, Gozani O.
Cell 176(3):491-504.e21. doi: 10.1016/j.cell.2018.11.038. Epub 2019 Jan 3. 2019
2EEF1AKNMT, INSL3
FEAT enhances INSL3 expression in testicular Leydig cells.
Li Y, Kobayashi K, Murayama K, Kawahara K, Shima Y, Suzuki A, Tani K, Takahashi A.
Genes Cells 23(11):952-962. doi: 10.1111/gtc.12644. Epub 2018 Oct 2. 2018
3EEF1A1, EEF1AKNMT
The dual methyltransferase METTL13 targets N terminus and Lys55 of eEF1A and modulates codon-specific translation rates.
Jakobsson ME, Małecki JM, Halabelian L, Nilges BS, Pinto R, Kudithipudi S, Munk S, Davydova E, Zuhairi FR, Arrowsmith CH, Jeltsch A, Leidel SA, Olsen JV, Falnes PŘ.
Nat Commun 9(1):3411. doi: 10.1038/s41467-018-05646-y. 2018
4EEF1AKNMT
Modifier variant of METTL13 suppresses human GAB1-associated profound deafness.
Yousaf R, Ahmed ZM, Giese AP, Morell RJ, Lagziel A, Dabdoub A, Wilcox ER, Riazuddin S, Friedman TB, Riazuddin S.
J Clin Invest 128(4):1509-1522. doi: 10.1172/JCI97350. Epub 2018 Mar 12. 2018
5EEF1AKNMT
FEAT expression correlates with tumor size, PR status, HER2 expression, Ki67 index, and molecular subtype and predicts recurrence in breast cancer.
Wang SM, Ye M, Zhou J, Ni SM, Wei QC.
Neoplasma 64(1):123-130. doi: 10.4149/neo_2017_115. 2017
6EEF1AKNMT
Immunogenic FEAT protein circulates in the bloodstream of cancer patients.
Li Y, Kobayashi K, Mona MM, Satomi C, Okano S, Inoue H, Tani K, Takahashi A.
J Transl Med 14(1):275. 2016
7EEF1AKNMT
METTL13 is downregulated in bladder carcinoma and suppresses cell proliferation, migration and invasion.
Zhang Z, Zhang G, Kong C, Zhan B, Dong X, Man X.
Sci Rep 6:19261. doi: 10.1038/srep19261. 2016
8ADIPOR1, AIG1, AMDHD2, ANKHD1, ANKRD20A1, ANKRD27, ANKRD32, APH1A, APH1B, APIP, APOLD1, ARS2, ASCC1, ATXN10, BOLA1, C10orf10, C14orf166, C19orf56, C20orf109, C20orf4, C2orf14, C2orf16, C6orf60, C6orf62, CALCOCO1, CAMKK1, CCDC113, CCDC53, CCDC9, CCNB2, CD99L2, CDK5RAP1, CDK5RAP1, CGI-96, CHMP5, CHPF, CIAO2B, CLIC4, CLPB, COPZ1, COQ4, COQ6, CRELD1, CUTC, CYBRD1, DDX47, DERA, DHRS7, DHRS7B, DHRS7B, DPH5, DTNB, DYNC1LI2, EEF1AKNMT, ELOVL1, EMC9, ERGIC3, ESPN, EXOSC1, EXOSC3, FAHD2A, FAM108B1, FAM18B, FAM32A, FAM82B, FCF1, FIP1L1, FLYWCH1, FYTTD1, GABARAPL1, GET4, GLOD4, GLRX2, GOLT1B, GOLT1B, GPR89A, GPS2, GRIPAP1, HDDC2, HDGFRP3, HIGD1A, IER3IP1, IFT52, ISOC1, KIF18A, KIF20B, KIRREL2, KL3, KLC2, LACTB2, LHX6, LMAN2L, LUC7L2, MAF1, MAGMAS, MECR, MED23, MED31, MEMO, METTL9, MIS12, MOABHD5, MOB4, MPC1, MRPL11, MRPL2, MRPL4, MRPL48, MRPS15, MRPS16, MRPS16P2, MRPS18C, MRPS23, MRPS33, MTCH1, MTERF3, MTO1, MYCBPAP, NCALD, NCIE2, NDUFAF1, NELF, NELFB, NFU1, NMD3, NOSIP, NRBF2, NRIP2, NRIP2, NRSN2, NUDT12, OTUD6B, PARVB, PCBD2, PHF20L1, PIGT, PMFBP1, PNAS-4, PRPF31, PRSS23, PTRH2, QRSL1, RBMX2, RGMA, RGMB, RNF103-CHMP3, RNF123, RNF146, RRNAD1, RRP15, RWDD1, RWDD3, SAMHD1, SAMM50, SCCPDH, SECISBP2, SEMA4F, SERBP1, SERBP1, SERP1, SH3BP5L, SIDT2, SLC25A24, SLC25A39, SLC35C2, SLC37A3, SLC41A2, SLC6A16, SLMO2, SMC6, SPEF1, SQRDL, STARD10, STMN2, SYF2, TARDBP, TBC1D3, TBL2, TFB1M, TFIP11, THAP4, THAP4, TIGD6, TIMMDC1, TMED5, TMED7, TMEM47, TPPP3, TRAF7, TRAPPC12, TRAPPC4, TRMT6, TRNT1, TSC22D3, TSPAN14, TWF2, UBE1DC1, UBE2J1, UCHL5, UNC50, USP39, UTP11L, VPS36, WDR37, WDR50, WDR91, WSB1, YARS2, YIPF3, YPEL5, ZC2HC1A, ZC3H13, ZDHHC9, ZMYND12, ZMYND15, ZRANB3
Identification of novel human genes evolutionarily conserved in Caenorhabditis elegans by comparative proteomics.
Lai CH, Chou CY, Ch'ang LY, Liu CS, Lin W.
Genome Res 10(5):703-13. 2000
9ABLIM3, ABLIM3, ABLIM3, ADGRL1, ADNP2, AHCYL2, ANKRD12, AP2A1, AP2A2, ARHGEF15, C20orf117, CLSTN1, CNKSR2, DHX30, DMXL2, EEF1AKNMT, EHBP1, FAF2, FBXO4, GOLGA8A, IVNS1ABP, MCF2L2, MLXIP, MORC2, NUP210, PCF11, PCYOX1, PNMA2, RAB11FIP5, RASGRP3, RHOBTB3, RUFY3, SACM1L, SCFD1, SEC31A, SLCO2B1, SLITRK3, UBOX5, USP19, WDR47, WWC1, ZC3H13, ZHX2, ZNF365
Prediction of the coding sequences of unidentified human genes. XII. The complete sequences of 100 new cDNA clones from brain which code for large proteins in vitro.
Nagase T, Ishikawa K, Suyama M, Kikuno R, Hirosawa M, Miyajima N, TanakaA, Kotani H, Nomura N, Ohara O.
DNA Res 5(6):355-64. 1998