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Lin CH, Liao CC, Wang SY, Peng CY, Yeh YC, Chen MY, Chou TY. Comparative O-GlcNAc Proteomic Analysis Reveals a Role of O-GlcNAcylated SAM68 in Lung Cancer Aggressiveness. Cancers 2022 14(1) 35008409
Abstract:
O-GlcNAcylation is a reversible and dynamic post-translational protein modification catalyzed by O-GlcNAc transferase (OGT). Despite the reported association of O-GlcNAcylation with cancer metastasis, the O-GlcNAc proteome profile for cancer aggressiveness remains largely uncharacterized. Here, we report our comparative O-GlcNAc proteome profiling of two differentially invasive lung adenocarcinoma cell lines, which identified 158 down-regulated and 106 up-regulated candidates in highly invasive cells. Among these differential proteins, a nuclear RNA-binding protein, SAM68 (SRC associated in mitosis of 68 kDa), was further investigated. Results showed that SAM68 is O-GlcNAcylated and may interact with OGT in the nucleus. Eleven O-GlcNAcylation sites were identified, and data from mutant analysis suggested that multiple serine residues in the N-terminal region are important for O-GlcNAcylation and the function of SAM68 in modulating cancer cell migration and invasion. Analysis of clinical specimens found that high SAM68 expression was associated with late cancer stages, and patients with high-OGT/high-SAM68 expression in their tumors had poorer overall survival compared to those with low-OGT/low-SAM68 expression. Our study revealed an invasiveness-associated O-GlcNAc proteome profile and connected O-GlcNAcylated SAM68 to lung cancer aggressiveness.
O-GlcNAc proteins:
A0A024R7P5, A0A024R9E2, A0A087WWU8, A0A0A0MTS7, SHOT1, A8K3C3, A8K9J7, B7Z2Z8, B7Z596, D3DS63, E7ETM0, E7EVA0, F8VR77, G3V1C3, H0YN18, H3BPE1, K7ERG4, PSD12, DFFA, PLOD2, PSDE, BIN1, TCRG1, ML12B, HGS, HNRDL, RPAC1, P4HA2, HNRPR, PLRG1, ZN207, BUB3, ACTN4, KDM1A, PLOD3, CPNE3, FLNB, NU155, GLRX3, MTA2, SC31A, UBE4B, TFR1, ANXA1, HSPB1, ITB1, DCUP, GELS, ENOA, NPM, TPM3, LDHB, ANXA2, TBB5, HNRPC, TPM2, ANXA6, 4F2, VIME, ANXA5, RSSA, ENOG, TPM1, PARP1, UBB, UBC, CH60, ACADM, G6PD, PCNA, KCRB, KCRU, ACTN1, XRCC6, EF2, KAP2, SYDC, AMPN, EZRI, NAGAB, HMGA1, ML12A, AOC1, ICAL, VATB2, FLNA, OSBP1, UBA1, GCSH, PSA1, PSA3, SYVC, TPP2, CLIP1, HNRH3, KINH, HSP74, RADI, MYH9, MYH10, ACTN2, ADDA, FUS, MYH11, RL4, ODO2, VATA, CAP2, GARS, MSH2, PRS6B, UBP5, RS9, MAP1B, IQGA1, KC1A, NASP, FAS, SYAC, NU153, HDGF, ACLY, SYYC, RD23A, PSMD4, TERA, EIF3B, IF6, PSA6, RS3A, HNRPK, 1433G, PP1B, PRS8, RL7A, PP2AB, RS6, RL10A, RS27A, RL40, 2ABA, TPM4, EF1A1, GTF2I, RAE1L, HNRPU, SPTB2, EWS, PLCB3, FKBP4, IF4G1, SSBP, 1433F, PUR1, PRDX1, KHDR1, ACTN3, PP2BA, ILF2, ACACA, CBX3, G3BP1, EIF3I, DC1I2, ROCK1, HDAC1, CUL1, NACA, SPTN1, SMC1A, GANAB, PSME4, SYK, PLEC, PP1R7, SC23A, SC23B, TSN, CIP4, MARE1, DDB1, CART, RBBP7, ACTBL, ST1C3, P4R3A, Q6IPH7, C2D1A, POTEE, SND1, CYFP1, MON2, MYH14, CAND1, ABCA7, LRC47, THMS1, CPSF7, GT251, PAIRB, ABCF1, Q8TDJ5, Q8WWH9, AGRV1, TCPW, TFG, STAM1, SNR40, VPS35, SIN3A, NIBA2, PSB7, TSNAX, BDH2, RBM4, XRN2, SPTN4, SLK, MYG1, XPP1, UGGG1, CPSF2, NAGK, NUDT5, PRP19, UBQL1, PACN2, SNX6, NCKP1, HYOU1, LSM4, SNX5, S23IP, V9HVZ7, V9HW77
Species: Homo sapiens
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Fan Z, Li J, Liu T, Zhang Z, Qin W, Qian X. A new tandem enrichment strategy for the simultaneous profiling of O-GlcNAcylation and phosphorylation in RNA-binding proteome. The Analyst 2021 146(4) 33465208
Abstract:
RNA-protein interactions play important roles in almost every step of the lifetime of RNAs, such as RNA splicing, transporting, localization, translation and degradation. Post-translational modifications, such as O-GlcNAcylation and phosphorylation, and their "cross-talk" (OPCT) are essential to the activity and function regulation of RNA-binding proteins (RBPs). However, due to the extremely low abundance of O-GlcNAcylation and the lack of RBP-targeted enrichment strategies, large-scale simultaneous profiling of O-GlcNAcylation and phosphorylation on RBPs is still a challenging task. In the present study, we developed a tandem enrichment strategy combining metabolic labeling-based RNA tagging for selective purification of RBPs and HILIC-based enrichment for simultaneous O-GlcNAcylation and phosphorylation profiling. Benefiting from the sequence-independent RNA tagging by ethynyluridine (EU) labeling, 1115 RBPs binding to different types of RNAs were successfully enriched and identified by quantitative mass spectrometry (MS) analysis. Further HILIC enrichment on the tryptic-digested RBPs and MS analysis led to the first large-scale identification of O-GlcNAcylation and phosphorylation in the RNA-binding proteome, with 461 O-GlcNAc peptides corresponding to 300 RBPs and 671 phosphopeptides corresponding to 389 RBPs. Interestingly, ∼25% RBPs modified by two PTMs were found to be related to multiple metabolism pathways. This strategy has the advantage of high compatibility with MS and provides peptide-level evidence for the identification of O-GlcNAcylated RBPs. We expect it will support simultaneous mapping of O-GlcNAcylation and phosphorylation on RBPs and facilitate further elucidation of the crucial roles of OPCT in the function regulation of RBPs.
O-GlcNAc proteins:
NACAM, SAP18, PLOD2, NOP56, DDX3X, PLXB2, RRP8, SERA, PSMD3, MCA3, PRPF3, TPD54, TIM44, ACTN4, ACSL4, PLOD3, IF2P, ZC11A, SC22B, PR40A, MPPB, CSDE1, U520, NU155, EIF3G, SPF27, RL1D1, CLPX, RTN3, LC7L3, VAPB, SMC2, AP2A1, WIZ, BAG2, TOM40, ACL6A, EGFR, LMNA, TFR1, FRIH, RPN1, RPN2, ITB1, SYEP, HNRPC, SRPRA, VIME, GNAI3, ANXA5, LAMP1, ACADM, TOP1, TOP2A, PABP1, ADT3, TPR, EF2, PDIA4, FPPS, ENPL, ALDR, NDKA, RS2, UBF1, ARF4, NUCL, RAB6A, PSB1, FLNA, SDHB, UBA1, NDKB, ITA6, SFPQ, IF4B, AT2B4, THIL, RS12, PSA4, SYVC, 1433T, MAP4, PSA5, PSB4, NDUS1, ECHM, KCY, AMRP, SDHA, METK2, CPSM, PUR9, HNRH1, 1433S, STIP1, P5CR1, MCM4, HSP74, CTNA1, MYH9, DEK, RL4, SPB5, NUP62, RBMX, TCPZ, ECE1, PRS6B, KI67, RAGP1, ATRX, SYQ, LMAN1, NASP, FAS, AL7A1, SYSC, MCM2, ACADV, NU153, RBP2, DNLI3, MRE11, CPT1A, F10A1, TCPD, RAB7A, IDH3G, HCFC1, DHB4, HDGF, ROA3, 6PGD, NUP98, ACLY, TCP4, SYYC, UBP14, SNAA, IF5, TERA, DSRAD, TPD52, EIF3B, NU107, EPIPL, SC61B, SRP54, B2MG, SMD2, RL23A, YBOX1, NOP14, IF4G2, GTF2I, NUCB2, RT22, HMGN5, RBM10, TFAM, CLH1, SPTB2, SET, CAP1, EXOSX, EWS, ODO1, RL18A, NUCB1, M2OM, LMNB2, SRS11, CALD1, RL18, C1QBP, CKAP4, KHDR1, DHX9, GOGA2, SSRP1, AHNK, AIMP1, ILF3, SRSF5, SRSF6, TIF1B, TCOF, PICAL, SNW1, TRI29, EIF3A, MLEC, CAPR1, SMC1A, RRP1B, GANAB, NUMA1, U5S1, RRS1, ACOX1, PLEC, RNPS1, PUM3, RB11B, SEPT7, DDB1, CDC37, SRSF7, PCKGM, HNRL2, INF2, PDS5A, PREP, RRP12, TOIP1, HP1B3, RBM26, BRE1A, CDKAL, PRP8, ZC3HE, QSOX2, IKIP, TM10C, EIF3M, PABP2, KTN1, CAND1, THOC6, P66A, MISP, CCAR1, PELP1, NDUF2, RM50, PAF1, TXND5, TOIP2, THOC2, TM263, NU133, PDC6I, SCFD1, LMO7, ELYS, RT27, HS105, NU205, RAD50, SMRC1, TNPO1, FUBP1, P5CR2, PTCD3, DDX27, EFGM, IWS1, NIBA2, YMEL1, PSMD1, EIF3C, ROAA, CMS1, MBB1A, GNL3, PDIP3, PININ, ACAD9, SFXN1, CYBP, RM47, RTN4, DDX21, AAAS, CARF, AATF, BCLF1, MYOF, SYLC, NXF1, SEC63, LIMA1, SEPT9, KAD3, RCOR1, ACINU, TMCO1, PPIE, PA2G4, RUVB2, TR150, RT23, CHTOP, TLN1, HYOU1, SAM50, SP16H, UTP18, SRPRB
Species: Homo sapiens
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Wang J, Dou B, Zheng L, Cao W, Zeng X, Wen Y, Ma J, Li X. Synthesis of Na2S2O4 mediated cleavable affinity tag for labeling of O-GlcNAc modified proteins via azide-alkyne cycloaddition. Bioorganic & medicinal chemistry letters 2021 48 34229054
Abstract:
A facile and convergent procedure for the synthesis of azobenzene-based probe was reported, which could selectively release interested proteins conducted with sodium dithionite. Besides, the cleavage efficiency is closely associated with the structural features, in which an ortho-hydroxyl substituent is necessary for reactivity. In addition, the azobenzene tag applied in the Ac4GlcNAz-labled proteins demonstrated high efficiency and selectivity in comparison with Biotin-PEG4-Alkyne, which provides a useful platform for enrichment of any desired bioorthogonal proteomics.
O-GlcNAc proteins:
PGP, EIFCL, KIF2A, PDLI1, BACH, DFFA, CLIC1, EIF3F, IF2B3, RTCA, PSDE, PPP6, RPC1, PSA7, HNRDL, SC16A, RPAC1, NKRF, EIF3H, PAPS1, SNUT1, ARK72, MYO1B, IDH3B, SAHH2, PLIN3, IMA7, UGDH, CTND1, SNX2, BRD4, WDR1, TBCA, FLNB, PR40A, MPPB, NDUS3, ECI2, CSDE1, U520, WDHD1, EIF3G, PSD10, IDHC, GLRX3, RL1D1, CIAO1, PLPHP, ERLN2, GLSK, SC31A, UBR5, ELP1, VAPB, 6PGL, AGM1, AHSA1, PSMG1, SGPL1, AP2A1, STAU1, TTC4, BPNT1, MBD3, TOM40, ACL6A, GSHR, PNPH, CYTB, KITH, P53, TPM3, PROF1, FUMH, ODPA, CY1, SRP19, DLDH, RU2A, UCHL1, ALDOC, THIO, KAP0, ESTD, ODPB, PYGB, ACADM, G6PD, ADHX, CDK4, HARS1, PEPD, P4HA1, ETFA, MIF, AK1A1, CCNB1, GLNA, DESP, FER, UBF1, PRS6A, RL35A, NELFE, RCC1, E2AK2, SPEE, ANXA7, RAB6A, PSB1, IMDH1, GSTM3, VATB2, FLNA, ACOC, SDHB, PIMT, FBRL, NDKB, ADRO, TCEA1, TBG1, MAOM, IF4B, THTM, RS12, BRD2, DNJB1, PSA1, PSA2, PSA4, STOM, PYR1, PSB4, PSB6, NDUS1, DPOD1, AMPL, ERP29, PRDX3, ECHM, PEBP1, PDIA3, HMOX2, PURA2, PUR8, AL1B1, RPB2, GDIA, TIA1, QCR1, HNRH3, STIP1, PRDX2, P5CR1, DUT, PROF2, SPB6, RADI, T2FA, MYH9, MYH10, FUS, PRS7, MP2K2, HEM6, GNL1, ODO2, SRP14, TALDO, ETFB, VATA, IF4A3, TXLNA, BUD31, CSK, THIM, LIS1, NAMPT, PRS6B, RECQ1, NOP2, CRKL, NSF, CAPZB, COPD, IDHP, AL9A1, RL34, FAS, SYCC, PSB3, IDH3A, SERPH, ANX11, FXR1, FXR2, SMCA4, GALK1, ROA3, HNRPM, IMA5, GDIR1, HNRPF, KIF11, THOP1, CAZA1, BIEA, MAP11, SUCA, SC24C, DRG2, ECHB, DSRAD, HNRH2, IF6, CORO7, ARPC4, CD81, SC61B, MYL6, PSA6, CDC42, SRP54, UB2D3, UBC12, ARP3, RL37A, COPZ1, NTF2, 1433G, PP1A, PP1B, SMD2, PRS10, ERF1, CNBP, H4, RAP1A, RS30, GBB1, GBB2, TRA2B, 2ABA, DYL1, RL38, PP2AA, TBA1B, GSTO1, DCD, RT05, RT09, RL36A, H33, VIGLN, FKBP3, DHSO, EXOSX, ODO1, MMSA, TF65, LGUL, 1433F, CSTF1, SRS11, EF1A2, PTN11, PUR1, GFPT1, C1QBP, BAX, SRSF4, RBBP4, ASPH, GRSF1, AIMP1, ILF3, CSN1, RED, MTAP, TADBP, ROA0, STX5, SRSF9, SRSF5, IFIT5, EIF3I, DC1I2, PICAL, ULA1, SNW1, FHL1, BOP1, UBP2L, DYHC1, EI2BA, TRI25, FLNC, GNA13, CAPR1, KPRA, UBP10, CHD4, NUMA1, GAPD1, EMC2, SEPT2, IF4H, IPYR, CNN3, SC23B, SF01, TRIP6, MARE1, ELAV1, TOM34, VAMP3, ADRM1, PKN2, CSRP2, DPYL2, RBBP7, H2B2E, PCKGM, TRXR1, TIM50, FA98B, ZN326, PREP, RRP12, SYAM, EXOS6, CAF17, UBR4, NT5D1, PDE12, JMJD6, CDC73, EDC4, PRP8, RL22L, SYDM, GGYF2, HSDL2, TM10C, ZCCHV, DHX29, DCXR, HUWE1, ACOT1, KTN1, CARM1, STX12, HORN, SPB1, SRRM1, SUV3, TXND5, SCPDL, FA98A, PCAT1, FAD1, UBA3, NEK9, BRX1, ZC3HF, SCFD1, HNRLL, ATX2L, PSPC1, P66B, DNJC9, DDX1, H1X, PSMF1, RT27, LAR4B, ARC1A, RENT1, FUBP1, P5CR2, TRM61, ZCCHL, PGAM5, FUBP3, SPF45, THOC3, ZFR, SNX27, RBM14, PRPK, TBCB, CDC5L, PARK7, HCD2, ROAA, EBP2, VRK1, NIPS1, MEP50, TBA1C, ERP44, NTPCR, DDX23, MTNA, NTM1A, TM109, SYTM, THIC, RBM4, HDHD5, ITPA, EIF2A, PDIP3, MK67I, GTPB4, REN3B, API5, UBE2O, WDR12, SLIRP, NAA50, ILKAP, SLK, PININ, YTDC2, RPF2, QTRT2, ARMT1, CSN7B, ELP3, KT3K, MRM3, GLOD4, MCCB, CWC22, WDR6, VTA1, EXOS4, INO1, LUC7L, TIGAR, XPP1, SIAS, PHP14, HELLS, ECHD1, RBM12, DD19A, SEP11, TBC13, ATD3A, DDX18, PNPO, RBM28, LYAR, DPP3, BCLF1, F120A, HPBP1, MAT2B, RRBP1, GMPR2, GRHPR, TES, CHRD1, SEPT9, EI2BD, DBNL, DDX41, APC7, STML2, MRT4, ACINU, NUP50, PSME2, MYO6, CHIP, CSN3, SRRM2, CD11A, SMC3, RTRAF, PIN4, PLAP, NUDC, COF2, AP3M1, TR150, NOP58, SGT1, SYYM, SBDS, EXOS1, SF3B6, RRP15, RT23, STRAP, CHTOP, SAMH1, TLN1, HYOU1, ATG4B, TBL2, PRC2C, PPME1, YTHD2, SNX9, SERC, CLIC4, DC1L1, S23IP
Species: Homo sapiens
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Ramirez DH, Aonbangkhen C, Wu HY, Naftaly JA, Tang S, O'Meara TR, Woo CM. Engineering a Proximity-Directed O-GlcNAc Transferase for Selective Protein O-GlcNAcylation in Cells. ACS chemical biology 2020 15(4) 32119511
Abstract:
O-Linked β-N-acetylglucosamine (O-GlcNAc) is a monosaccharide that plays an essential role in cellular signaling throughout the nucleocytoplasmic proteome of eukaryotic cells. Strategies for selectively increasing O-GlcNAc levels on a target protein in cells would accelerate studies of this essential modification. Here, we report a generalizable strategy for introducing O-GlcNAc into selected target proteins in cells using a nanobody as a proximity-directing agent fused to O-GlcNAc transferase (OGT). Fusion of a nanobody that recognizes GFP (nGFP) or a nanobody that recognizes the four-amino acid sequence EPEA (nEPEA) to OGT yielded nanobody-OGT constructs that selectively delivered O-GlcNAc to a series of tagged target proteins (e.g., JunB, cJun, and Nup62). Truncation of the tetratricopeptide repeat domain as in OGT(4) increased selectivity for the target protein through the nanobody by reducing global elevation of O-GlcNAc levels in the cell. Quantitative chemical proteomics confirmed the increase in O-GlcNAc to the target protein by nanobody-OGT(4). Glycoproteomics revealed that nanobody-OGT(4) or full-length OGT produced a similar glycosite profile on the target protein JunB and Nup62. Finally, we demonstrate the ability to selectively target endogenous α-synuclein for O-GlcNAcylation in HEK293T cells. These first proximity-directed OGT constructs provide a flexible strategy for targeting additional proteins and a template for further engineering of OGT and the O-GlcNAc proteome in the future. The use of a nanobody to redirect OGT substrate selection for glycosylation of desired proteins in cells may further constitute a generalizable strategy for controlling a broader array of post-translational modifications in cells.
O-GlcNAc proteins:
SBNO1, CNOT1, P121C, DX39A, GTPB1, AP3B1, PGRC1, TAF4, EIF3F, IPO5, IF2B3, NOP56, DDX3X, ARI1A, IRS4, ANM5, TCRG1, PSA7, HGS, MYPT1, HNRDL, XPO1, SET1A, PUR4, NPC1, TIF1A, NKRF, OGT1, PPM1G, EIF3D, EIF3H, DHX15, SERA, HNRPR, IF4G3, E41L2, ZN207, BUB3, ACTN4, HTSF1, AP1G1, SYNC, AKAP8, CALU, SMCA5, JIP4, OGA, HNRPQ, DIAP1, TSN3, SNX2, DKC1, CLAP2, CPNE3, PHF2, ANR17, H2AY, FLNB, NCOR1, CISY, PR40A, SF3B1, CSDE1, U520, EIF3G, PRAF3, SRP72, MTA2, TOX4, SC24D, SC31A, SCAF4, ZRAB2, LC7L3, VAPB, IPO7, SC24B, ACSL3, AP2A1, AIFM1, LDHA, COX2, HPRT, AATM, PGK1, LMNA, TFR1, ALDOA, OAT, G3P, RPN1, RPN2, AT1A1, ADT2, PCCA, IF2A, RLA0, ITB1, ATPB, ENOA, PYGL, G6PI, NPM, LDHB, PDIA1, H10, TBB5, HEXB, PROF1, SYEP, HS90A, HNRPC, 4F2, HS90B, ASNS, ODPA, RU17, RSSA, SNRPA, GSTP1, HMGB1, DLDH, ROA1, PARP1, LKHA4, HS71B, H14, ODP2, THIO, CH60, BIP, HSP7C, EPB41, ODPB, LAMP1, ACADM, TOP1, TOP2A, PYC, C1TC, MPRI, PRPS2, PABP1, PCNA, HARS1, IMDH2, TPR, KCRB, XRCC6, XRCC5, EF2, PDIA4, PLST, GLU2B, KPYM, ENPL, PO2F1, HNRPL, SYDC, PLAK, ALDR, EZRI, GNS, RS2, CREB1, H12, AT2A2, JUNB, PYRG1, DDX5, PRS6A, TCPA, RL35A, RL7, VINC, SON, RCC1, NUCL, HXK1, E2AK2, SPEE, IF2B, ANXA7, LMNB1, FLNA, VDAC1, FBRL, PUR2, PUR6, UBA1, NDKB, ROA2, RFX1, TCEA1, SFPQ, PPIB, RS3, NFYA, SAHH, COF1, IF4B, EF1B, MCM3, BRD2, ATPA, PSA1, PSA3, PSA4, PAX6, U2AF2, RL13, PTBP1, SYTC, SYVC, EF1G, RFA1, APEX1, PYR1, CALR, MAP4, CALX, PSB5, TKT, PRDX6, PRDX5, PRDX3, RL12, PEBP1, PDIA3, 2AAA, CDC27, AMRP, SDHA, QCR1, PUR9, HNRH1, STIP1, PRDX2, RL9, CSTF2, MCM4, MCM5, MCM7, GLYM, HSP74, PHB1, MYH9, COPB2, ADDA, BASI, FUS, NU214, DEK, MP2K2, ATPG, RL4, SRP14, NUP62, RBMX, GRP75, IF4A3, RS19, RL3, TXLNA, TCPZ, MDHC, MDHM, ECHA, IF2G, GARS, SYIC, LAP2A, LAP2B, MTREX, RS27, LPPRC, MATR3, RANG, VDAC2, UBP5, KI67, RAGP1, NOP2, CRKL, BAG6, RL27A, RL5, RL21, RL28, RS9, STT3A, COPD, PRC2A, TCPE, AL9A1, RL34, NASP, FAS, TCPG, EFTU, SYAC, SYSC, PSB3, MCM2, YLPM1, TMEDA, RBM25, NU153, RBP2, GSK3A, TAF6, GUAA, MRE11, GDIB, EMD, F10A1, LRBA, RL14, TCPQ, TCPD, ANX11, PAPOA, RAB7A, SMCA4, HCFC1, DHB4, ROA3, 6PGD, HNRPM, IMA1, AGFG1, HNRPF, MSH6, RBM5, NUP98, ACLY, COPB, COPA, MOT1, SC24C, SYRC, SYYC, AT1B3, RD23B, P5CS, IF5, XPO2, TERA, AFAD, DSRAD, PSA, SYMC, CTBP2, NU107, TPIS, ACTB, IF4A1, PSA6, ARF3, ABCE1, RAP1B, RS3A, RL26, RL15, S61A1, HNRPK, RS7, RS8, 1433E, RS14, RS23, RS11, SMD1, RL7A, RS4X, H4, RAN, RL23, GBB2, RL10A, RL11, RL8, PPIA, RL40, TRA2B, AP2B1, IF5A1, RACK1, YBOX1, EF1A1, TBB4B, CSK21, IF4G2, GTF2I, TCPB, PRKDC, RL24, RL19, SRSF3, FOXK1, RBM10, MPCP, CLH1, HNRPU, SPTB2, FOXK2, CAP1, LAT1, EXOSX, EWS, RL18A, FKBP4, RL6, TOP2B, KMT2A, LMNB2, TF65, IF4G1, TLE3, SRS11, PUR1, SUH, GABPA, PRDX1, RL18, C1QBP, KHDR1, SRSF1, DHX9, CD47, SSRP1, RBBP4, AHNK, AP1B1, NU160, BPTF, TP53B, AIMP1, ILF2, ILF3, LMAN2, TRAP1, PP1R8, ACACA, ROA0, PRDX4, CBX3, PSMD2, SRSF6, TIF1B, PTK7, PABP4, EIF3I, TCOF, SF3B2, TMED1, PICAL, RIPK1, HDAC1, CUL4B, CD166, IDI1, NFYC, CKAP5, HNRPD, SCRB2, DSG2, EIF3A, UBP2L, SCRIB, TTL12, DCTN1, DYHC1, SRC8, CAPR1, RBM39, MCM6, MDC1, EPN4, SMC1A, RRP1B, UBP10, GANAB, LBR, ZN638, IMB1, NUMA1, SEPT2, SART3, U5S1, SYK, BRD3, PDIA6, IPYR, TEBP, NONO, PWP2, RCN1, PCBP1, PCBP2, SF3B3, SAFB1, SF3A1, NCOA2, SF01, MARE1, NSDHL, TAB1, AAAT, VAS1, ZYX, CCDC6, PKN2, DDB1, CDC37, SRSF7, CPSF6, NRF1, H31T, QSER1, QRIC1, P3H1, TB10B, AMOT, DHB12, PRC2B, H2B2F, HP1B3, CE170, ZC3HD, RBM26, RIF1, RPRD2, ZN318, ECM29, ZMYM4, MAP1S, LIN54, EDC4, PRP8, SCYL2, NFRKB, ZC3HE, LARP1, FIP1, MCAF1, GGYF2, SPT6H, SND1, DHX30, KDM3B, ZCCHV, NUP54, POGZ, NUFP2, MAVS, I2BP2, RBBP6, HUWE1, YTHD3, CENPV, LYRIC, ZN598, GP180, CAND1, CARM1, DDX42, P66A, ARI3B, MGAP, PHF6, CHERP, ANKH1, SUGP1, CCAR1, SPB1, PHAR4, SPART, CCAR2, NUP93, S11IP, FNBP4, CPSF7, ARFG1, ENAH, AFG2H, TXND5, LS14A, Z280C, TNR6A, SMRC2, TBC15, PNPT1, HM13, PO210, GEMI5, ZN384, SMAP2, NU133, PDC6I, PCNP, CKAP2, ATX2L, P66B, ELYS, DDX1, GBF1, NICA, UBXN4, HS105, LAR4B, NU205, AKAP1, TFG, CBP, DDX17, CELF1, RENT1, SMRC1, FUBP2, TNPO1, UBP7, NCLN, FUBP1, FKB10, KBP, PDLI5, FUBP3, CHAP1, Z512B, ZFR, PRRC1, DOCK7, RBM14, VPS35, CIC, EFGM, SIN3A, MINT, CDC5L, PSMD1, EYA3, ATX2, HCD2, ACON, TS101, TCPH, ANM1, SH3G1, COR1B, DIDO1, HNRL1, DDX23, TMED9, NUP58, RBM4, NAA15, B2L13, YTHD1, UNK, ILKAP, SP130, BRD8, I2BPL, SLK, S6A15, PININ, NELFA, PTN23, WNK1, AMPB, GORS2, CYBP, TAF9B, GLOD4, CBX8, NCOA5, CHD8, APMAP, DCP1A, RTN4, ANLN, GEPH, PDLI7, DDX21, SYFB, SYIM, SMC4, RBM12, DDX18, CARF, UGGG1, CDK12, TECR, IF2B1, HPBP1, ITSN2, CNOT2, HACD3, RCC2, SYLC, SUCB1, UBQL2, PCYOX, S30BP, PUF60, NRBP, DACH1, BAZ2A, BAZ1B, CDC23, TASOR, ACINU, CDV3, MRTFB, YETS2, HECD1, PKCB1, DD19B, PRP19, MAGD2, FAF1, TRI33, SRRM2, PA2G4, RUVB2, RUVB1, VDAC3, E41L3, TR150, NOP58, SHLB1, LC7L2, TMED7, STRAP, RTCB, HBS1L, TLN1, HYOU1, PRC2C, SP16H, COPG1, DC1L1, S23IP
Species: Homo sapiens
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