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Hao Y, Li X, Qin K, Shi Y, He Y, Zhang C, Cheng B, Zhang X, Hu G, Liang S, Tang Q, Chen X. Chemoproteomic and Transcriptomic Analysis Reveals that O-GlcNAc Regulates Mouse Embryonic Stem Cell Fate through the Pluripotency Network. Angewandte Chemie (International ed. in English) 2023 62(17) 36852467
Abstract:
Self-renewal and differentiation of embryonic stem cells (ESCs) are influenced by protein O-linked β-N-acetylglucosamine (O-GlcNAc) modification, but the underlying mechanism remains incompletely understood. Herein, we report the identification of 979 O-GlcNAcylated proteins and 1340 modification sites in mouse ESCs (mESCs) by using a chemoproteomics method. In addition to OCT4 and SOX2, the third core pluripotency transcription factor (PTF) NANOG was found to be modified and functionally regulated by O-GlcNAc. Upon differentiation along the neuronal lineage, the O-GlcNAc stoichiometry at 123 sites of 83 proteins-several of which were PTFs-was found to decline. Transcriptomic profiling reveals 2456 differentially expressed genes responsive to OGT inhibition during differentiation, of which 901 are target genes of core PTFs. By acting on the core PTF network, suppression of O-GlcNAcylation upregulates neuron-related genes, thus contributing to mESC fate determination.
O-GlcNAc proteins:
AMRA1, SETX, SKT, BCORL, AGRIN, MGAP, ARI1A, KANL3, CHD6, PHRF1, ZCH24, EP300, KIF7, KI67, CE350, ANR11, NUMA1, TPR, MORC3, TAF4B, KMT2B, EMD, AKAP1, TCOF, DCTN1, MNT, NCOA3, ATN1, ECP3, DPOD2, CTND2, PIAS3, AF10, ACK1, GET3, DSG2, ESS2, ATX2, PDLI1, ULK1, BARD1, KDM6A, ZN106, NSD1, ZFR, HIPK1, SETB1, LAMC1, MYCN, GCR, EGR1, RC3H2, ATX1L, DERPC, K2C8, HSPB1, JUND, FGFR1, G3P, ATF2, COF1, HEXB, VIME, PO5F1, CBL, CCNB1, PO2F1, RS2, NFKB1, MAX, PABP1, NEDD1, PTN12, FMR1, ELK1, FOXK1, STAT3, SOX15, PLIN2, CBP, NEDD4, YAP1, RFX1, SOX2, LMNA, ROA1, S1PR2, ARNT, RD23A, PLTP, KMT2A, KLF16, FOXP1, TB182, GMEB2, SENP1, YTHD1, MRTFB, DOCK4, STIM1, TBX3, NCOA1, ERF, SIAE, NACAM, ATF1, WNK1, G3BP2, DNLI3, G3BP1, RLA2, GABPA, S30BP, ZEP1, ENAH, SOX13, CAPR2, APLP2, CLUS, TLE3, GATA4, MITF, CHD8, ZCH18, TANC1, CDK12, SAP25, LIN41, MLXIP, HROB, VRTN, CO039, PDLI7, SMCA4, PRC2C, MILK2, MIDN, YETS2, PBIP1, FUBP2, TFPT, SRBP2, GSE1, F117B, ZN865, WDR62, QRIC1, FOXK2, RREB1, TNR6C, DAB2P, TNR6A, RHG17, PKHA7, COBL1, FCHO2, TET1, ARMX5, GARL3, TET2, CDV3, PHAR4, C2CD3, LIN54, NPA1P, TAB3, TASO2, RESF1, NUFP2, UNKL, COBL, KDM6B, PRSR1, SMG7, RBM27, PHF12, ZDBF2, PUR4, SYNRG, UIMC1, SIN3A, NFAC2, SRC8, SKIL, ELF1, KLF4, NCOR1, KLF3, NCOA2, FOXD3, PAPOA, HCFC1, P3C2A, SIX4, ZFHX3, TOB1, AP180, GLI3, ATRX, MAFK, NPM, M3K7, DAG1, SPTB2, TAF6, TIF1B, SPT6H, SH3G1, ARI3A, TLE1, TLE4, IF4G2, MINT, ZIC3, ZYX, NUP62, PHC1, TFE3, TIF1A, SF01, DAZL, RBL1, KNL1, BCL9L, SBNO1, SLAI1, PKP4, CDK13, SH3R1, JHD2C, HECD1, ARMX2, LAR4B, RHG21, HELZ, SCAF8, UTF1, PKHG2, NIPBL, CCD66, F135A, RPRD2, WWC2, ZN532, KRBA1, TAF9B, RBM26, INT1, BCR, AHDC1, PTN23, PAPD7, KDM3A, KMT2D, CHD4, RN220, NUP98, NFRKB, GGYF2, LCOR, TEX2, PF21A, KDM3B, FNBP4, CNOT1, LARP1, RHG26, NU188, CNDD3, PICAL, SPAG5, HUWE1, SMAP2, CPEB3, MYCB2, PRC2B, PRR14, MACOI, ATX2L, CKP2L, PRC2A, MCAF1, SI1L2, KANL1, ERBIN, R3HD2, RERE, PUM2, PUM1, NU214, WNK4, TCAM1, SAS6, CAMP3, UBN2, TNC18, AGFG2, UBP2L, WNK3, ZN598, CTIP, SHAN2, NANOG, DDX42, RHG32, VGLU3, LPP, TET3, MYPT2, IF4B, CNO10, MISSL, TB10B, CARF, TGO1, ZN879, SP130, ZC3HE, ZNT6, SUN2, TNR6B, ARI5B, EMSY, BNC2, KAT6B, KMT2C, CLAP2, CNOT4, SRRM2, TOX4, GEPH, SYP2L, LARP4, KANK2, SALL4, YTHD3, TOIP2, KAT6A, ASXL2, POGZ, SREK1, TAF5, ZHX2, EPC2, SI1L1, CND2, RBM14, SUCO, CNOT2, DIDO1, SMAG1, LENG8, CDAN1, DPPA4, LRIF1, VCIP1, MB214, TAB1, SCYL2, ASPP2, LS14B, SYEP, F193A, BCOR, OGT1, SUGP1, NAV1, SYNJ1, ADNP2, RPGF2, BICRL, EP400, PHC3, VP37A, EPN2, P66A, PDLI5, ELYS, ZBT20, ANLN, AGFG1, MATR3, CASC3, I2BPL, PO121, ALMS1, SF3A1, GRHL2, ATF7, CACL1, DC1L1, MTSS1, SPART, TDIF2, HBP1, NUP58, RFIP5, BRD8, WIPI1, CDK8, CS047, ATX7, NUP35, LUZP1, RPAP2, NDC1, MAVS, AMOT, CSKI2, P66B, TAF9, IPO4, ZCH14, UBAP2, NCOA5, FUBP1, RBM47, AJUBA, VPS36, DCP1A, EGLN2, YTHD2, SRGP2, GRHL1, BCL7B, P4R3B, PLRG1, CIC, WAC, TRPS1, MED1, ACATN, NRBP, RP25L, NONO, TAB2, RBM10, EPN4, DDAH2, NOG2, ZN281, HGS, NASP, ARIP4, ANR17, ZN318, TRI33, MZT2, ZWINT, ECD, YIF1B, ROA0, DHRS7, TPD54, SSBP3, PSRC1, SARNP, BCL9, SP2, NOP56, SH24A, FIP1, PLIN3, MYPT1, KC1D, TCF20, TOR3A, SALL1, ZN704, RBP2, UBE4B, TBX20, AFF4, RBCC1, 4ET, PALLD, ELF2, TSSC4, NUDT3, HAKAI, ADRM1, NCOA6, FANCA, GIT2, BAG3, TOB2, ZN207, SON, TBL1X, PLEC, MACF1, GOGA5, QKI, GAB1, DMRT1, YLPM1, PCM1, RHG07, TAF7, FOXO1, ADA23, AKA12, UXT, MAN1, NCOR2, AKT3, COR1B, TNIP1, GANP, DEMA, CARM1, RGAP1, ITSN2, ZO2, KLF5, ADNP, ARI3B, BCL3, SE1L1, E41L1, ZN292
Species: Mus musculus
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Gonzalez-Rellan MJ, Parracho T, Heras V, Rodriguez A, Fondevila MF, Novoa E, Lima N, Varela-Rey M, Senra A, Chantada-Vazquez MDP, Ameneiro C, Bernardo G, Fernandez-Ramos D, Lopitz-Otsoa F, Bilbao J, Guallar D, Fidalgo M, Bravo S, Dieguez C, Martinez-Chantar ML, Millet O, Mato JM, Schwaninger M, Prevot V, Crespo J, Frühbeck G, Iruzubieta P, Nogueiras R. Hepatocyte-specific O-GlcNAc transferase downregulation ameliorates nonalcoholic steatohepatitis by improving mitochondrial function. Molecular metabolism 2023 75 37453647
Abstract:
O-GlcNAcylation is a post-translational modification that directly couples the processes of nutrient sensing, metabolism, and signal transduction, affecting protein function and localization, since the O-linked N-acetylglucosamine moiety comes directly from the metabolism of glucose, lipids, and amino acids. The addition and removal of O-GlcNAc of target proteins are mediated by two highly conserved enzymes: O-linked N-acetylglucosamine (O-GlcNAc) transferase (OGT) and O-GlcNAcase (OGA), respectively. Deregulation of O-GlcNAcylation has been reported to be associated with various human diseases such as cancer, diabetes, and cardiovascular diseases. The contribution of deregulated O-GlcNAcylation to the progression and pathogenesis of NAFLD remains intriguing, and a better understanding of its roles in this pathophysiological context is required to uncover novel avenues for therapeutic intervention. By using a translational approach, our aim is to describe the role of OGT and O-GlcNAcylation in the pathogenesis of NAFLD.
O-GlcNAc proteins:
DJC25, TITIN, FIBA, AOXC, LEG9, CLCA, MTP, MYH11, NTCP, PRDX6, DLDH, HCD2, GLU2B, PRDX4, RL21, GSH0, HGD, AMACR, PHB2, DOPD, PSMD4, SRSF5, PAHX, AGT1, S27A2, BHMT1, ANXA3, AP1B1, CP4AE, TIM44, CALU, AL1A7, OST48, PGRC1, COPB2, NIPS1, RL35A, AT2A2, PSB5, DPM1, EIF3D, EF1B, NMT1, UGDH, DHB12, WDR1, RDH7, ROA2, COMT, JAM1, IDHC, CP8B1, COPE, RBM3, CP1A1, ADH1, COX1, COX2, CO3, HVM14, IGKC, IGHG1, B2MG, HA1B, HBA, HBB1, K1C10, NU3M, ATP8, K2C1, ALDOA, AATC, AATM, K1C18, LDHA, G6PI, MAOX, ANXA2, ALBU, SPA3K, HS90A, PDIA4, ENPL, APOE, SODC, MDHM, PDIA1, NUCL, PGK1, FRIH, SODM, EF1A1, CATB, THIO, GSTM1, RRAS, H10, GPX1, HS90B, MUP2, K2C8, CP2D9, OTC, TCPA, FABPL, PDCD6, RL7A, MYH8, GPDA, RL27A, RS16, RL7, MDHC, RSSA, CALR, GTR2, HSPB1, PSMD3, ANXA6, RLA0, GLNA, NDKA, CAH3, LEG3, SRP14, PH4H, MUTA, ASSY, G3P, ENOA, PTBP1, AP2A2, SBP1, COX7C, UDB17, PPIA, TPIS, PTPRA, CATD, COF1, FAS, GSTP1, RL13A, COX5B, COX41, BIP, PRDX3, VIME, CP2A5, TPM3, VTDB, TGM2, EIF3A, MOV10, CATA, PPIB, CP2DA, LKHA4, AL1A1, CO8A2, RS2, URIC, TLN1, MOES, RADI, 3BHS3, CTNA1, U2AF2, DHE3, SYSC, MA2A1, RL3, PDIA3, PSB8, ACOHC, APEX1, ADHX, MUG1, GRN, DPP4, PABP1, FRIL1, OAT, VTNC, GSTA3, CTND1, ACBP, SCP2, LA, DRG1, CP2F2, HYES, RAB18, FAAA, FBRL, CALX, PRDX1, RL12, RL18, HEM6, NCPR, HMGCL, GRP75, CAP1, TKT, INMT, RL28, ACSL1, ECI1, SEPT2, STAT1, PURA, PXMP2, TCPQ, H14, PLIN2, ACADM, MYO1B, STT3A, QOR, ALDH2, AL3A2, CAZA2, GSHR, RL6, RL29, RLA1, RL5, RL13, RL36, ANXA5, LMNA, CBR1, T23O, ROA1, HPPD, ODBA, DHB8, DHI1, SAHH, GLYC, K2C6A, VATA, ACADV, PA2G4, RAB7A, ACADL, RL9, DHB2, DHB4, GSHB, ADT2, THTR, PON1, KPYM, RIDA, CPT2, ST1A1, ST2A1, RL10A, ODB2, KPYR, MOT1, CNBP, IDHP, HMCS2, ABCD3, RAB8A, ADK, ATPK, CX6B1, CYB5, ATPB, CP2AC, FUS, EF1D, ACTN4, TM9S2, EF2, GGLO, IF5, ARPC4, EIF3E, PCBP1, ACTB, CDC42, IF4A1, RS20, UBE2N, ARP2, ARF3, ABCE1, RL26, RL27, RL37A, S61A1, ARF4, GABT, HNRPK, 1433G, RRAS2, RS7, PP1B, PRS8, RS8, RS15A, 1433E, RS14, RS23, RS18, RS29, RS11, RS13, RS4X, RL18A, RL23A, RS6, H4, RAB1A, RAN, RL23, RS15, RS24, RS25, RS26, RS28, RS30, GBB2, RL30, CYC, RL31, RS3, RL32, RL8, YBOX1, PROF1, RS27A, RAC1, HSP7C, TCTP, DNJA1, CH60, 1433Z, IF5A1, RS17, RS10, PHB1, RL22, RACK1, ACTS, 1433T, TBA4A, TBB4B, TBA1C, 1433F, IMB1, EBP, NFIX, PEBP1, HNRH2, ELAV1, NHRF1, NACAM, DHB5, TCPB, TCPD, TCPE, TCPZ, TCPG, RL36A, AP2M1, RL19, ISC2A, KHK, RS3A, PSME2, ANXA4, MYL11, RS5, GSH1, FMO3, CPT1A, FUMH, CATC, LYPA1, G3BP1, FMO5, TBB5, RLA2, PRDX5, RET4, A1AT4, HNRL2, SC23A, NDKB, TERA, UBA1, PLAK, ATPA, PPA5, CP2E1, PYC, ATP5I, CLUS, ANXA7, ACADS, LG3BP, HSDL2, ML12B, METK2, K22E, AGT2, RMD3, MCCB, SC31A, IQGA2, S27A5, DDX17, OPA3, GLSL, ACBD5, COPD, A1CF, ODO1, MYL6, HNRPD, PSB6, GCDH, IRGM1, SPB6, STIP1, CAPR1, VDAC2, VDAC3, VDAC1, COQ8A, PRDX2, ARGI1, PLSL, ABCD2, HCDH, GPAT1, GDIB, HPT, DDX5, HS105, LASP1, NPM, NNTM, PCBP2, DDX3X, SSRD, SPR1A, NDUA4, CYTB, VAT1, SBP2, EST3A, UD11, SPRE, BTF3, RGN, CH10, UD16, DHSO, CP2CT, GSTT1, GPDM, CLH1, F120A, IF4G1, ODBB, ABCF1, LPPRC, SRSF1, RS9, RS27, RL10, RL35, IF2A, RS27L, H2B1C, KAT3, 2AAA, ATPMK, MIC27, 3HAO, S22AI, SND1, OSTC, MTCH2, NDUAC, HNRPQ, TBB2A, LDHD, ACTN1, GVIN1, MOGS, FA98B, COEA1, FLNB, ACD11, BDH, EFTU, LPP, ROA3, ALAT2, AL8A1, S2512, ECHM, CHDH, IPO5, TM214, SRP68, ECHA, SYNC, RL24, ASPH, FLNA, DHPR, AOFB, SSDH, ACOT4, UD2A3, THIM, ERF1, CPSM, NAKD2, MIC60, PARP9, THIC, S2545, G6PE, SYEP, LONM, NT8F2, DPYD, AL4A1, PDLI5, COPA, CP2DQ, EIF3B, ACSL5, TXTP, UD3A2, GALM, COQ9, SDHA, HACD3, MATR3, NDUS8, ALAT1, THIL, EIF3L, HNRPL, EPIPL, SGPL1, AL1L1, BPHL, EIF3C, CMBL, QCR9, H2AJ, SDHL, HUTU, AK1CD, TKFC, GYS2, THIKB, CGL, DHB13, ABHEB, EST1D, EST3B, ACSF2, MYH9, VIGLN, PSMD2, AT1A1, HNRPU, S25A3, SEC63, OASL1, SFPQ, TRAM1, CK054, ACLY, ACSM1, NDUS1, RINI, RMXL1, ATPG, DDX1, MGST1, CBR4, GCSP, NDUS2, EIF3H, KMO, SYYC, EST1F, BAAT, GCKR, DCXR, METK1, NADC, FTCD, GLYAT, TM205, ALDOB, ATLA3, ARLY, RPN1, NDUV1, GRHPR, PCCA, UGPA, FPPS, FADS1, TADBP, ETFD, THIKA, TRFE, PDIA5, SYDC, C1TC, MARC2, LRC59, PDIA6, ATAD3, SFXN2, ROAA, S14L2, THTM, STML2, SFXN1, GORS2, ECHB, ARP3, NONO, PLST, AASS, GLO2, ACON, DPP3, DHRS1, 3HIDH, IF2B, DHRS4, SARDH, NDUAA, ETFA, RTCB, PARK7, NDUS5, DNJA3, PCCB, MCCA, PECR, NUDT7, RTN4, AAAD, RRBP1, GDIR1, NDUA5, ATP5L, RL17, AMPL, DECR, MTAP, QCR8, NDUA2, SDHB, NDUB4, SAR1B, PCYOX, NDUB5, NDUB9, TXD17, TRAP1, AT5F1, ACO13, PPP6, SC61B, MTNA, RER1, 1433B, CYB5B, MAGT1, NDUA6, RL14, M2OM, TMM33, UCRI, VKOR1, OCAD1, ARPC2, MARC1, PUR9, DDAH1, ROA0, KYNU, CENPV, RL11, TECR, SERB1, QCR1, C560, RL15, GLYM, AL1B1, CISY, RS19, ODPB, HNRPM, LMAN1, PGM1, SYRC, CY1, SYTC, GAL3A, CNDP2, TMEDA, FKB11, ERP44, HYEP, HACD2, ATPD, PLCC, NDUV2, GHC1, IDH3A, MSRA, GLGB, ACAD8, PRPS1, SAPC2, IPYR, RL37, SOX, U2AF1, RL4, EF1G, ATPO, IAH1, QCR2, HUTI, CSAD, AL7A1, CP27A, AP2B1, RPN2, PGAM1, COASY, ECHP, KCY, M2GD, NDUA9, NDUS7, RT11, 6PGD, SSRG, EIF3F, NDUA8, PUR6, GSTK1, NB5R3, ASPDH, MTL26, NDUBA, NDUS3, HOGA1, RMD1, ETFB, ATP5H, KEG1, TMT1B, LACTB, RENT1, DHB11, MMSA, DPYS, ERAP1, VPS35, MVP, SET, RT29, PYGL, IVD, TMOD3, NIT2, COPB, AK1A1, CMLO1, PLS1, RL38, PXMP4, GNA1, AL9A1, CD2AP, STA10, TRXR1, RHOA, PSA6, K1C17, F16P1, HACL1, GNMT, S2513, CLIC4, VKGC, DIC, EIF3I, COPG1, TBL2, ACOX1, ESTD, DEST, TEBP, MPU1, SQOR, PSA1, TPSN, RUVB2, KAD3, HAOX1, PDC6I, PROD, SYFB, SUCA, PREB, ECI2, ENTP5, DECR2, TAGL2, ORNT1, PACN2, EHD1, MAAI, IF2G, BPNT1, AIFM1, DX39B, SYVC, ILF3, STRAP, HNRPC, PX11A, LETM1, SUCB2, SUCB1, PSA7, HNRPF, MCAT
Species: Mus spicilegus, Mus musculus
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Narayanan B, Zahra F, Reeves RA, Aggarwal A, O'Meally RN, Henry RK, Craven M, Jacobson A, Cole RN, Kohr MJ, Umapathi P, Zachara NE. Differential Detection of O-GlcNAcylated proteins in the heart using antibodies. Analytical biochemistry 2023 678 37507081
Abstract:
Thousands of mammalian intracellular proteins are dynamically modified by O-linked β-N-acetylglucosamine (O-GlcNAc). Global changes in O-GlcNAcylation have been associated with the development of cardiomyopathy, heart failure, hypertension, and neurodegenerative disease. Levels of O-GlcNAc in cells and tissues can be detected using numerous approaches; however, immunoblotting using GlcNAc-specific antibodies and lectins is commonplace. The goal of this study was to optimize the detection of O-GlcNAc in heart lysates by immunoblotting. Using a combination of tissue fractionation, immunoblotting, and galactosyltransferase labeling, as well as hearts from wild-type and O-GlcNAc transferase transgenic mice, we demonstrate that contractile proteins in the heart are differentially detected by two commercially available antibodies (CTD110.6 and RL2). As CTD110.6 displays poor reactivity toward contractile proteins, and as these proteins represent a major fraction of the heart proteome, a better assessment of cardiac O-GlcNAcylation is obtained in total tissue lysates with RL2. The data presented highlight tissue lysis approaches that should aid the assessment of the cardiac O-GlcNAcylation by immunoblotting.
O-GlcNAc proteins:
A0A023T778, A0A075B5P3, A0A075B5P4, A0A075B5P6, A0A075B5T2, A0A075B5T7, A0A087WP81, A0A087WPL5, A0A087WR50, A0A087WS16, A0A087WS46, A0A087WSC6, A0A0A0MQ79, A0A0A0MQA5, A0A0A0MQD2, A0A0A0MQF6, A0A0A0MQJ4, A0A0A0MQM0, A0A0A6YVU8, A0A0A6YW67, A0A0A6YW80, A0A0A6YWP6, A0A0A6YX26, A0A0A6YXF6, A0A0A6YXH3, A0A0A6YXV1, A0A0B4J1E7, A0A0B4J1H7, A0A0F6AIX5, A0A0G2JDI9, A0A0G2JDL9, A0A0G2JDR9, GBP6, A0A0G2JDW2, A0A0G2JE25, A0A0G2JEP0, A0A0G2JEX1, A0A0G2JEY6, A0A0G2JF52, A0A0G2JF85, A0A0G2JG74, A0A0G2JGJ1, A0A0G2JGS0, A0A0J9YU07, A0A0J9YU24, A0A0J9YUZ4, A0A0M3HEQ0, A0A0N4SV40, A0A0N4SV66, A0A0N4SVB1, A0A0N4SVB8, A0A0N4SVK8, A0A0N4SVL9, A0A0N4SW07, A0A0R4J023, A0A0R4J038, A0A0R4J050, A0A0R4J052, A0A0R4J093, A0A0R4J0H8, A0A0R4J0I1, A0A0R4J0K2, A0A0R4J0L5, A0A0R4J0L6, A0A0R4J0S3, A0A0R4J0T5, A0A0R4J0X5, A0A0R4J0Z1, A0A0R4J138, A0A0R4J196, A0A0R4J1E2, A0A0R4J1J3, A0A0R4J1Q6, A0A0R4J1R7, A0A0R4J1W0, A0A0R4J1W7, A0A0R4J260, A0A0R4J275, A0A0U1RPW2, A0A0U1RPY8, A0A140LHG8, A0A140LIU4, A0A140LIZ5, A0A140LJ98, A0A140LJB7, A0A171EBL2, A0A1B0GQU8, A0A1B0GR11, A0A1B0GRP7, A0A1B0GRV0, A0A1B0GRV3, A0A1B0GRW3, A0A1B0GS58, A0A1B0GS68, A0A1B0GS70, A0A1B0GS91, A0A1B0GSG5, A0A1B0GSK8, A0A1B0GSR9, A0A1B0GX27, A0A1C7CYV0, A0A1C7ZN10, A0A1D5RM79, A0A1L1SQ51, A0A1L1SQA8, A0A1L1SS27, A0A1L1SST0, A0A1L1STE6, A0A1L1SV25, A0A1L1SV73, A0A1W2P6E6, A0A1W2P6P1, A0A1W2P768, A0A1W2P7A1, A0A1W2P812, A0A1Y7VJY8, A0A1Y7VKT9, A0A1Y7VKY1, A0A1Y7VLP0, A0A286YCI8, A0A286YCS6, A0A286YD12, A0A286YDA2, A0A2I3BPW0, A0A2I3BQE3, A0A2I3BQF4, A0A2I3BRL8, A0A2K6EDJ7, A0A2R8VHF9, A0A2R8VHX0, A0A338P6D9, A0A338P6G0, A0A338P6N4, A0A338P703, A0A338P731, A0A338P786, A0A338P7D7, A0A338P7F1, A0A338P7G4, A0A3B2W824, A0A3B2WB97, A0A3B2WBC6, A0A3B2WCN9, A0A3Q4EBV4, A0A3Q4EG54, A0A3Q4EH93, A0A3Q4EI56, A0A494B908, A0A494B923, A0A494B955, A0A494B985, A0A494B9D8, A0A494B9P3, A0A494B9W3, A0A494B9X1, A0A494B9Y4, A0A494BA51, A0A494BAJ6, A0A494BB38, A0A494BBC1, A0A494BBG8, A0A571BEC9, A0A571BEG4, A0A571BG59, A0A571BGD8, A0A5F8MPB9, A0A5F8MPD6, A0A5F8MPK9, A0A5F8MPM4, A0A5F8MPN8, A0A5F8MPW1, A0A5F8MPY2, A0A5K1VVQ9, A0A668KL51, A0A668KLD3, A0A6I8MWZ8, A0A6I8MX27, A1BN54, A2A513, A2A5F5, A2A6F8, A2A6Q8, A2A7A7, A2A813, A2A848, TM201, A2A997, A2A9Q2, OBSCN, A2AAW9, A2AE89, A2AEX6, A2AFQ0, A2AFQ2, A2AGJ9, A2AI69, A2AI87, NDUF6, A2AIM4, A2AIW9, A2AK42, A2AKD7, A2AKU9, A2AKV9, A2AL12, A2ALV7, CAVN4, A2AMW0, UBR4, A2AN84, A2APD7, A2AQN4, MYH7B, A2AQR0, A2AQY8, A2AS98, TITIN, A2AT02, A2AU61, A2AUD5, RBGP1, A2BDW0, A2BH06, A2BI12, A2CEK3, A2CES4, A2CG35, A3KFU5, A3KGU5, ARMT1, A6X925, A8DUK4, A8JYK8, CISD3, B1AR28, B1AR93, B1ARA3, B1ASE2, B1ASZ3, B1AT10, B1AU25, B1AUX2, B1AV14, B1AXW5, B1AZ14, B1B0C7, B2C3G8, GNAI1, B2RXT3, B2RY24, B7FAU9, B7ZCI2, B8JJI4, B8JJM5, B8JK32, B9EIZ7, D3YTL5, D3YU39, D3YUG3, D3YUK5, D3YUM1, D3YUP1, D3YVF4, D3YVI6, D3YVV9, D3YW19, D3YWA4, D3YX99, D3YXT0, D3YY36, D3YYE1, D3YYG9, D3YYS6, D3YZ06, D3YZ71, D3Z041, D3Z067, D3Z0G0, D3Z0X5, D3Z0Y2, D3Z1B5, D3Z1V4, D3Z263, D3Z2B3, D3Z2Y8, D3Z4A4, D3Z5K6, D3Z5W3, D3Z627, D3Z636, D3Z6F5, D3Z780, D3Z7A7, D3Z7D5, D3Z7K3, D3Z7U0, D3Z7V3, D5MCW4, D6REH1, D6RFU2, D6RFU9, D6RGM3, D6RH37, E0CXB1, E0CXH2, E0CXN7, E0CXS3, E0CY23, E0CZ90, E0CZE0, E9PUD2, E9PUE8, E9PUM3, E9PUU2, E9PUY9, E9PV12, FIBA, E9PV63, E9PV66, E9PVP0, E9PVU0, E9PWE8, E9PX89, E9PYF1, E9PYI8, E9PZ00, E9PZ88, E9PZC4, E9PZD8, E9PZF0, E9PZI9, E9PZP8, E9Q133, E9Q1J7, E9Q1T9, E9Q1V0, E9Q264, RYR2, E9Q4T8, ACACB, DESP, E9Q5B5, E9Q5I9, E9Q616, E9Q6A9, E9Q6C2, E9Q6W2, E9Q7A5, E9Q800, E9Q933, E9Q9C0, E9Q9T8, E9QJV4, E9QKY4, E9QL13, E9QN70, E9QPD7, E9QPX3, F6QPR1, F6QYE1, F6QYF8, F6RR81, F6VVE6, F6VVY4, F6VY18, F6XI62, F6YCA7, F6ZV59, F7A3N3, F7DBQ0, SKI3, F8VPN4, F8VQJ3, F8WGL3, F8WHU8, F8WIB1, F8WIE5, F8WIT2, F8WIV2, F8WIV5, F8WJ05, G3UVU2, G3UVV4, G3UW30, G3UW85, G3UWN9, G3UX26, G3UXI6, G3UXX3, G3UYR8, G3UZ33, G3UZ48, G3X8R0, G3X8R1, G3X8T3, G3X8T9, QNG1, G3X956, G3X975, G3X977, G3X983, G3X9Q1, G3X9U9, G3XA48, G5DDB7, G5E823, G5E839, G5E883, G5E8R7, H3BIY9, H3BJI5, H3BJP9, H3BJQ7, H3BKH4, H3BKH6, H3BL49, H3BLH2, H7BWZ3, H7BX01, H7BX88, H7BX99, I7HLV2, J3QMG3, J3QPW1, J3QPZ9, J3QQ13, K3W4R2, K3W4S6, K4DI63, L7N451, M0QWU8, CAN2, DPYL2, DLDH, GSTO1, RL21, AMACR, SCRB2, PSMD4, ECH1, ANXA3, C1QBP, TIM44, AL1A7, CAVN1, SYUA, IMPCT, DSG2, NIPS2, AT2A2, PGAM2, PDLI1, AOC3, FHL2, PSA3, DHB12, WDR1, MTX2, ROA2, COMT, BIRC6, IDHC, GNPI1, KBL, AFAM, C1QR1, LANC1, ADH1, COX1, CAH2, CO3, CO4B, HBE, NU1M, NU4M, NU5M, FABP4, MYG, ALDOA, KAPCA, AATC, AATM, TBA1B, CO5, G6PI, MAOX, TTHY, KCRM, ANXA2, ALBU, K2C4, HS90A, CBR2, ENPL, MDHM, PDIA1, NUCL, PGK1, FRIH, SODM, H2AZ, IFI5B, ANXA1, EF1A1, NID1, CATB, THIO, RRAS, H2B1M, H10, LIPL, FABPH, HS90B, DMD, K2C8, ITPR1, TCPA, UCP1, PFKAL, RL7A, GELS, CAH1, GPDA, AT1B1, RS16, RSSA, CALR, HA2B, PSMD3, LMNB1, GLNA, PMGE, CAH3, LEG1, LEG3, CN37, DDX3L, AMPE, ENOA, SBP1, TPIS, CATD, FAS, SERPH, COX41, BIP, PRDX3, VIME, PLMN, ENOB, VTDB, TGM2, AP1G1, EIF3A, CXA1, CRYAB, EST1C, CATA, PPIB, GSTA4, LKHA4, AL1A1, RS2, LYN, TLN1, EZRI, MOES, CTNA1, PTMA, DHE3, PSMD7, FKB1A, PDIA3, ACOHC, ADHX, PGS1, PGS2, NP1L1, ATX10, MUG1, OAT, FKBP4, HMGB2, DESM, MP2K1, SCP2, LA, ANT3, SYWC, MIF, RAB21, HSPB7, TSP1, ODPA, CALX, RL12, PPM1B, TAGL, HMGCL, GRP75, CAP1, TKT, VP26A, INMT, ECI1, H14, ALDR, ALD2, COF2, ACADM, NSF, VPS4B, PRS7, RB11B, NEDD4, PA24A, ALDH2, GSHR, MK14, PFKAM, RL6, ANXA5, ABCD1, LMNA, CBR1, COX8B, TNNI3, ADT1, HEP2, ROA1, INPP, MCM4, CAV1, SAHH, FMO1, GDIA, CSRP3, VATA, ACADL, DHB4, MLRV, HDGF, ADT2, THTR, PON1, KPYM, NDUS6, CPT2, ODB2, IDHP, RD23A, PUR8, DDX6, ADK, ACYP2, AP4A, CX6B1, UBP5, ATPB, CD38, ERP29, EF2, TPM1, B2L13, RUVB1, EIF3E, PCBP1, NPL4, ACTB, CDC42, IF4A1, UBC12, UBE2N, ARP2, ARF3, RL27, 1433G, RRAS2, RS7, PP1B, RS8, RS15A, 1433E, RS23, SMD3, EF1A2, RS4X, AP2S1, RS6, H4, RAN, RS24, RS26, CYC, RL32, FBX40, PROF1, LIS1, HSP7C, TCTP, CH60, IF4E, 1433Z, RS17, PHB1, ACTC, RACK1, 1433T, TBB4B, 1433F, USP9X, IDHG1, NACAM, F16P2, DCUP, PYRG1, TCPB, TCPE, TCPZ, ARF5, AP2M1, RL19, ISC2A, CSRP1, NRP1, RS3A, CPT1A, WBP2, FUMH, LAMA4, TBB5, G6PD1, APOA1, A1AT5, APOH, TERA, UBA1, PLAK, MYH6, KCRB, CO6A1, FABP5, ATP5I, CBG, MPRI, ACADS, AMBP, CD36, Q14BI5, ACSS3, A1BG, TRI72, Q20BD0, NLR1A, HSDL2, OSBP1, CUL4A, Q3TG45, Q3TGM7, GUAA, TM38A, Q3TXN1, PSMD1, SC31B, SYRM, DDB1, Q3U2G2, Q3U422, Q3U816, Q3U8Y1, Q3UER8, Q3UF75, TM10C, Q3UGX2, HAP28, MYLK3, Q3UJQ9, GPD1L, PP1R7, HDGR2, SC31A, THEM4, Q3UZJ4, ST1D1, Q3V117, HSPB6, D39U1, Q5SQ27, Q5SQB0, Q5SUS9, Q5SWN2, ACACA, MYH4, MYH1, COPD, A1AG1, ODO1, LAMA2, STIP1, VDAC1, COQ8A, ADIPO, 2A5G, LAMA5, HARS1, HCDH, GDIB, HS105, SERA, PZP, MIME, POSTN, PON3, DAG1, MYOM1, SPTB2, TX261, TIF1B, TSN, TFR1, NDUA4, CYTB, CAVN2, BTF3, CH10, ADH7, CP4B1, TOP2B, TPP2, H2A2B, H2A2C, NQO1, VINC, PUR2, CTNA3, CLH1, RFTN1, NOMO1, K2C73, 2ABA, U520, XPO1, KCRS, Q6P8N8, OXSR1, LPPRC, UBR2, CAND1, CAND2, MLEC, RS9, IF2A, KAT3, 2AAA, ATPMK, Q7TNL5, SRCA, ELP1, SESD1, FLNB, PANK4, IREB2, EFTU, MIRO1, SAM50, S2540, SYAC, SYNM, F210A, S2512, F13A, EHD2, ECHM, SYIM, AHSA1, RCC2, IPO5, ODPX, MAON, ODP2, ECHA, PPA6, Q8BRB6, AAPK2, Q8BTS3, CSN7B, PPME1, NUDT9, AOFB, SSDH, THIM, KANK2, VP13C, COMD2, PGM5, NHLC2, GPCP1, ASGL1, LCAP, EXOG, THOP1, Q8C483, EMC1, Q8C845, Q8C8G3, ANK2, VWA8, ARK72, SYEP, LONM, UN45B, BICRL, PGP, FBX4, AL4A1, PDLI5, DI3L2, PYGB, FERM2, COPA, PAK2, HMCS1, ACAD9, MIRO2, AFG32, EIF3B, ACSL5, FIBB, TACO1, PDXK, COQ9, SDHA, FMO2, LZIC, HIBCH, THIL, ERF3A, SUOX, FAHD1, S2542, EIF3C, CMBL, COQ6, Q8R2P8, FABD, GBRL1, CLYBL, TMC2, UBP15, RMC1, MAVS, EST1D, ACSF2, CK068, SYLM, MYH9, PPCS, HNRL1, AT1A1, LMCD1, HNRPU, S25A3, RBM39, FLNC, ETFR1, Q91VB8, NDUS1, HNMT, DDX1, CBR4, EIF3H, CISD1, HEMO, VPS36, RHG35, FAKD4, L2HDH, RPN1, TWF1, MYH7, PCCA, UGPA, SMCA5, HNRLL, ETFD, TRFE, RHEB, MACD1, SYDC, MPI, RT02, CPT1B, DCMC, SMRD2, EIF3M, ECHB, Q99JZ4, RRAGC, VMA5A, ACON, DCTN2, NAMPT, PPIF, DHRS1, 3HIDH, DHRS4, MAT2B, NDUAA, ETFA, DDAH2, RTCB, GRPE1, NDUS5, DNJA3, ASPN, MCCA, PPR3A, RM09, ACS2L, NUDT7, RTN4, GDIR1, PRP8, NDUA5, COX6C, ATP5L, LGUL, AMPL, MYL9, NDUC2, DECR, MTAP, PKP2, NDUA2, SDHB, NDUB4, TM223, COTL1, NDUB9, TXD17, TRAP1, AT5F1, ACO13, 1433B, DPH2, M2OM, CHSP1, NAR4, TPPP3, MIC19, SMC1A, NUD17, PUR9, SNX2, CYGB, ROA0, COQ5, MITOS, MPPB, CYBP, BIEA, QCR1, HS12B, RL15, GLYM, EFTS, AL1B1, CISY, 5NT3A, ODPB, SYRC, EXOS7, CY1, SYTC, HINT2, ILEUA, GAL3A, HHATL, RM53, ODO2, OXSM, CUL2, EFHD1, PLCC, NDUV2, FUND2, F162A, ECHD3, IPYR, QCR7, ITPA, RL4, EF1G, T126A, PHP14, MTU1, ATPO, QCR2, PLIN3, LMAN2, PGAM1, ACDSB, OCTC, RT15, 6PGD, NDUA8, PUR6, GSTK1, MECR, NDUBA, NDUS3, CRIP2, RMD1, ETFB, LACTB, DHB11, MMSA, ERAP1, VPS35, RM46, EHD4, PARVB, M3K20, PSMG2, PYGL, IVD, DYHC1, NQO2, ACTN2, COPB, AK1A1, DDX21, RL38, SH3L1, PROF2, TBA8, PRELP, IQGA1, HYOU1, LDB3, GLTP, PALS2, PPCE, MLRA, DRG2, PLEC, S2513, TOM40, CLIC4, DNJA2, ACOT2, AAKB1, DEST, ACOT9, KAD1, PSA4, PSB3, PSB2, SAE1, BMP10, MYO1C, KAD2, KAD3, CUL1, PDC6I, COR1C, SUCA, KAD4, CATZ, ABEC2, CBPQ, EHD1, S12A7, GRK1, MTNB, GBP2, SYUG, TWF2, NFS1, NDUA7, CLIC1, STK39, MTMR9, SUCB2, SUCB1, PCKGC, PSD10, MCAT, S4R1F2, S4R1N1, S4R242
Species: Mus musculus
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Zhu WZ, Palazzo T, Zhou M, Ledee D, Olson HM, Paša-Tolić L, Olson AK. First comprehensive identification of cardiac proteins with putative increased O-GlcNAc levels during pressure overload hypertrophy. PloS one 2022 17(10) 36288343
Abstract:
Protein posttranslational modifications (PTMs) by O-GlcNAc globally rise during pressure-overload hypertrophy (POH). However, a major knowledge gap exists on the specific proteins undergoing changes in O-GlcNAc levels during POH primarily because this PTM is low abundance and easily lost during standard mass spectrometry (MS) conditions used for protein identification. Methodologies have emerged to enrich samples for O-GlcNAcylated proteins prior to MS analysis. Accordingly, our goal was to identify the specific proteins undergoing changes in O-GlcNAc levels during POH. We used C57/Bl6 mice subjected to Sham or transverse aortic constriction (TAC) to create POH. From the hearts, we labelled the O-GlcNAc moiety with tetramethylrhodamine azide (TAMRA) before sample enrichment by TAMRA immunoprecipitation (IP). We used LC-MS/MS to identify and quantify the captured putative O-GlcNAcylated proteins. We identified a total of 700 putative O-GlcNAcylated proteins in Sham and POH. Two hundred thirty-three of these proteins had significantly increased enrichment in POH over Sham suggesting higher O-GlcNAc levels whereas no proteins were significantly decreased by POH. We examined two MS identified metabolic enzymes, CPT1B and the PDH complex, to validate by immunoprecipitation. We corroborated increased O-GlcNAc levels during POH for CPT1B and the PDH complex. Enzyme activity assays suggests higher O-GlcNAcylation increases CPT1 activity and decreases PDH activity during POH. In summary, we generated the first comprehensive list of proteins with putative changes in O-GlcNAc levels during POH. Our results demonstrate the large number of potential proteins and cellular processes affected by O-GlcNAc and serve as a guide for testing specific O-GlcNAc-regulated mechanisms during POH.
O-GlcNAc proteins:
MA7D1, CAVN4, OTUD4, FIBA, TRDN, DPYL2, CLCA, MYH11, KNG1, PRDX6, AKAP1, DLDH, NDUBB, GSTO1, CASQ2, RL21, PHB2, ECH1, NDUA1, TIM44, CAVN1, AKAP2, SLK, NIPS2, AT2A2, PGAM2, EF1B, ATX2, NMT1, XIRP1, PDLI1, MYPC3, SNX3, DC1I2, PLIN4, ROA2, RAD, CLPP, TOM1, COX1, COX2, CAH2, CO3, IGJ, KV2A7, IGKC, GCAB, IGHG1, IGH1M, B2MG, HBA, HBB1, LAMC1, FABP4, CFAB, MYG, ALDOA, ANF, AATC, AATM, TBA1B, LDHA, G6PI, TRY2, TTHY, KCRM, ANXA2, ALBU, SPA3K, ENPL, APOE, MDHM, ITB1, PDIA1, NUCL, PGK1, FRIH, MYL3, SODM, NDUB1, ANXA1, EF1A1, CATB, TAU, THIO, GSTM1, H2B1F, H10, CO1A1, FABPH, HS90B, DMD, PFKAL, COX5A, RL7A, GELS, MYH3, AT1B1, GLUT4, RL7, MDHC, RSSA, CALR, HSPB1, ANXA6, GLNA, B4GT1, GSTM2, H12, LDHB, SPTN1, G3P, ENOA, HXK1, PPIA, TPIS, BASI, COF1, RL13A, SERPH, COX5B, COX41, BIP, PRDX3, VIME, CYTC, ENOB, TGM2, EIF3A, CBX3, CXA1, PIMT, CRYAB, CATA, CAPG, GSTA4, RS2, TLN1, MOES, RADI, CTNA1, DHE3, FKB1A, MAP4, RL3, H2AX, PDIA3, PABP1, FRIL1, FETUA, DESM, AIMP1, LA, ANT3, RANG, MIF, PTN11, HSPB7, ODPA, CALX, PRDX1, RL12, RL18, FBLN2, HMGCL, GRP75, CAP1, TKT, RL28, ACSL1, ECI1, H14, H11, H15, H13, ALDR, COF2, ACADM, PRS7, ADX, ALDH2, CAPZB, RL6, RL29, CACP, RL13, ANXA5, TBCA, LMNA, CX7A2, TNNI3, ADT1, ROA1, PCY1A, CAV1, ODBA, CSRP3, ACADV, PA2G4, TNNT2, ICAL, ACADL, CAV3, MLRV, ADT2, LUM, KPYM, NDUS6, CPT2, RL10A, ODB2, CCHL, MOT1, IDHP, STOM, ADK, ATPK, ACYP2, ATP68, ATP5E, AT5G2, CX6B1, CX7A1, COX7B, CYB5, UBP5, ATPB, WFS1, ACTN4, EF2, OPA1, TPM1, B2L13, PCBP1, ACTB, RS20, PPLA, UB2D3, UBC12, UBE2N, RL26, RL27, SUMO2, 1433G, RS7, RS8, 1433E, RS14, RS18, RS11, RS13, DLRB1, EF1A2, RS4X, RL23A, RS6, H4, RAN, RS15, RS25, RS30, RL30, CYC, RL31, RS3, RL32, RL8, FBX40, YBOX1, RS27A, HSP7C, MPC1, CH60, GNAS2, 1433Z, HMGB1, IF5A1, ACTG, ACTH, RS12, RS10, RL22, ACTC, UB2L3, TBA4A, TBB4B, H31, IMB1, PEBP1, HINT1, IDHG1, NACAM, TCPD, SGCD, SGCA, WNK1, RL19, SRSF3, H32, RS3A, G3BP2, ANXA4, COQ7, G3BP1, LAMA4, QCR6, PRDX5, APOA1, CO1A2, NDKB, TERA, UBA1, MYH6, ATPA, KCRB, CO6A1, PGBM, EMAL1, ATP5I, CLUS, ANXA7, ACADS, CD36, NEBL, PERM1, TRI72, HSDL2, HP1B3, PRC2C, TM38A, Q3TV00, SRSF6, FUBP2, SDHF1, EI3JA, LIMC1, AAK1, NDUB6, MCCB, COBL1, SLMAP, SRBS2, K22O, CPZIP, NDUF2, MYPN, HSPB6, MLIP, IASPP, TM1L2, ODO1, LAMA2, STIP1, REEP5, VDAC2, VDAC1, COQ8A, LAP2B, PRDX2, HCFC1, LAMB2, HSP74, HCDH, FBN1, FXR1, KTN1, GDIB, DDX5, KINH, LASP1, PZP, NPM, NNTM, SNRPA, SPTB2, SPEG, SRBS1, DBNL, NDUA4, FKBP3, IF4G2, ZYX, CAVN2, SPRE, SF01, CD34, CH10, H2A2B, H2A2C, NQO1, VINC, EI3JB, CLH1, H2A2A, GPSM1, IF4G1, KCRS, LPPRC, AT1A2, CAND2, RS9, CMYA5, FHOD3, ATPMK, MIC27, MSRB2, NP1L4, MTCH1, MTCH2, PICAL, NDUAC, HNRPQ, HUWE1, LC7L2, MIC10, NEXN, SRCA, LNP, CLAP1, SRA1, UBP2L, NRAP, BDH, GLRX5, ATPF1, EFTU, H2A3, LPP, MYPT2, IF4B, ECHM, RCN3, SYIM, EIF2A, ODPX, EEA1, ODP2, ECHA, COQ3, RL24, FLNA, TIDC1, PLIN5, SYP2L, SSDH, THIM, MIC60, PABP2, BOLA3, SYEP, LONM, H2A1F, H2A1H, H2A1K, SEPT8, PGP, AL4A1, SLAI2, PDLI5, PYGB, PAK2, AFG32, EIF3B, FIBB, COXM2, COQ9, SDHA, SIR5, ACD10, NDUS8, NNRE, HIBCH, THIL, MARE2, QCR9, H2AJ, DC1L1, SPART, NAR3, MIC13, CLYBL, PP14C, TXLNB, MAVS, MYH9, VIGLN, PSMD2, AT1A1, LMCD1, HNRPU, S25A3, FLNC, SFPQ, NDUS1, MIC25, ATPG, SH3L3, UBAP2, NDUS2, EIF3H, CISD1, HEMO, EGLN1, L2HDH, RPN1, NDUV1, GRHPR, MYH7, PCCA, UGPA, ETFD, THIKA, TRFE, TOIP1, MACD1, CLIP1, K2C5, UBXN1, ALPK3, RT02, CPT1B, TALDO, ROAA, THTM, STML2, PACN3, ECHB, PLST, ACON, DCTN2, NAMPT, PPIF, NDUAA, ETFA, GRPE1, PARK7, NDUS5, DNJA3, PCCB, MCCA, PPR3A, EH1L1, ACS2L, RRBP1, GDIR1, NDUA5, COX6C, TOM22, ATP5L, NDUB2, COXM1, RM24, NDUC2, DECR, QCR8, NDUA2, FIS1, SDHB, NDUB4, NDUB5, NDUB9, AT5F1, RS21, ACO13, 1433B, CYB5B, KGD4, NDUA6, NDUB3, PSMD9, RL14, NDUB7, M2OM, UCRI, MIC19, OCAD1, PIN4, NDUS4, RT28, SERB1, SPCS2, SSBP, QCR1, NSF1C, C560, CISY, TOM70, RS19, ODPB, HNRPM, PGM1, SCOT1, CY1, HINT2, GAL3A, MCEE, CHCH2, ERP44, NOL3, MMAB, ODO2, COA3, RT33, ATPD, NDUB8, NDUV2, IDH3A, F162A, ARMC1, RL37, QCR7, RL4, EF1G, EFHD2, PRS37, ATPO, QCR2, PGAM1, MYPT1, LNEBL, TELO2, NDUA9, NDUS7, NDUA8, NDUBA, NDUS3, CRIP2, ETFB, ATP5H, MIC26, MMSA, EHD4, NDUAD, POPD1, HRG, PALLD, JPH2, IVD, NHRF2, PALMD, ACTN2, AK1A1, DBLOH, MYOZ2, PDK2, HSPB8, HIG1A, BAG3, AUHM, MACF1, VAPB, NDRG2, ACOT2, QKI, PRS30, UBQL2, H2AY, GLYG, ACOX1, DEST, KAD1, PSA1, KAD2, KAD3, CAD13, PYGM, IF4H, COR1B, SUCA, ECI2, SH3BG, TAGL2, PACN2, EHD1, AIFM1, NDUA7, BAG6, USO1, PLM, LETM1, SUCB2, SUCB1, K2C6B
Species: Mus musculus
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Huynh VN, Wang S, Ouyang X, Wani WY, Johnson MS, Chacko BK, Jegga AG, Qian WJ, Chatham JC, Darley-Usmar VM, Zhang J. Defining the Dynamic Regulation of O-GlcNAc Proteome in the Mouse Cortex---the O-GlcNAcylation of Synaptic and Trafficking Proteins Related to Neurodegenerative Diseases. Frontiers in aging 2021 2 35822049
Abstract:
O-linked conjugation of ß-N-acetyl-glucosamine (O-GlcNAc) to serine and threonine residues is a post-translational modification process that senses nutrient availability and cellular stress and regulates diverse biological processes that are involved in neurodegenerative diseases and provide potential targets for therapeutics development. However, very little is known of the networks involved in the brain that are responsive to changes in the O-GlcNAc proteome. Pharmacological increase of protein O-GlcNAcylation by Thiamet G (TG) has been shown to decrease tau phosphorylation and neurotoxicity, and proposed as a therapy in Alzheimer's disease (AD). However, acute TG exposure impairs learning and memory, and protein O-GlcNAcylation is increased in the aging rat brain and in Parkinson's disease (PD) brains. To define the cortical O-GlcNAc proteome that responds to TG, we injected young adult mice with either saline or TG and performed mass spectrometry analysis for detection of O-GlcNAcylated peptides. This approach identified 506 unique peptides corresponding to 278 proteins that are O-GlcNAcylated. Of the 506 unique peptides, 85 peptides are elevated by > 1.5 fold in O-GlcNAcylation levels in response to TG. Using pathway analyses, we found TG-dependent enrichment of O-GlcNAcylated synaptic proteins, trafficking, Notch/Wnt signaling, HDAC signaling, and circadian clock proteins. Significant changes in the O-GlcNAcylation of DNAJC6/AUXI, and PICALM, proteins that are risk factors for PD and/or AD respectively, were detected. We compared our study with two key prior O-GlcNAc proteome studies using mouse cerebral tissue and human AD brains. Among those identified to be increased by TG, 15 are also identified to be increased in human AD brains compared to control, including those involved in cytoskeleton, autophagy, chromatin organization and mitochondrial dysfunction. These studies provide insights regarding neurodegenerative diseases therapeutic targets.
O-GlcNAc proteins:
TANC2, AMRA1, CAMP1, SKT, AGRIN, KANL3, TTLL3, NHSL2, CTTB2, CCDC6, SHAN1, SYGP1, DPYL2, STXB1, CLOCK, NOTC2, VIAAT, CTND2, TPD53, REPS1, NLK, ACK1, SYUA, ATX2, PDLI1, ZFR, HCN1, BSN, TOM1, SYN1, GCR, EGR1, NFL, NFM, ATX1L, DERPC, KCC2A, CNTN1, HSPB1, MAP1B, G3P, ATF2, MTAP2, RS2, FOXK1, STAT3, AINX, EPB41, RFX1, LMNA, INPP, VATA, DVL1, CNBP, ATX1, NCAN, GOGA3, PTPA, GCP3, TB182, GMEB2, YTHD1, PI5PA, MRTFB, LIPA3, NACAM, TNIK, WNK1, NPTN, NEO1, S30BP, ZEP1, APOC2, EMAL1, RELCH, PRC2C, YETS2, FUBP2, QRIC1, LIMC1, DAB2P, ZEP2, AAK1, TNR6A, FCHO2, DRC1, SRBS2, GRM5, PACS2, OXR1, PHAR4, LIN54, MLIP, UNKL, SMG7, RBM27, CYFP2, SYNRG, SRC8, SKIL, NCOR1, LAMA5, HCFC1, P3C2A, SAP, APC, TOB1, AP180, FXR1, HS71A, LASP1, MAFK, M3K7, TAF6, ASPP1, SRBS1, DBNL, SH3G1, TLE4, IF4G2, MINT, ZYX, NUP62, OMGP, TFE3, SYN2, TBR1, RBL2, SBNO1, SLAI1, PKP4, SH3R1, JHD2C, ABLM3, ARMX2, LAR4B, HELZ, S23IP, RBM26, BCR, AHDC1, PAPD7, MFF, KMT2D, ERC2, NFRKB, WDFY3, GGYF2, TEX2, CNOT1, IF2A, PICAL, PLPR3, PRC2B, C2CD5, TPPP, ATX2L, MAP6, NAV3, AUXI, RIMB2, AVL9, NU214, AP4E1, UBP2L, C2C2L, IF4G3, ZN598, SHAN2, LPP, MYPT2, PHIPL, TB10B, CCD40, ZC3HE, DLGP2, ZC21A, BAIP2, EMSY, CLAP2, LIPA2, SRRM2, PAMR1, GEPH, YTHD3, POGZ, EPC2, SI1L1, RBM14, HYCC2, ANK2, CDAN1, SYNPO, VCIP1, TAB1, MEF2C, F193A, OGT1, EP400, EPN2, P66A, PDLI5, GTPBA, ZBT20, RTN1, BRD3, AGFG1, ABLM1, MRTFA, DC1L1, SPART, RFIP5, NUP35, WASF1, SC6A8, SGIP1, AGAP3, P66B, TAF9, WDR13, LRP5, UBAP2, BASP1, DCP1A, SYUB, TRFE, TRIM7, CIC, S12A6, GORS2, TAB2, EPN4, RNF34, ANR17, NECP1, FLIP1, ROA0, RBM33, TPD54, ODO2, DLGP1, FIP1, TM263, PLIN3, LNEBL, KC1D, NBEA, INP4A, RIMS2, RBP2, RTN3, NUDT3, ATR, ADRM1, FMN2, NCOA6, SON, ULK2, ADDA, MAGD1, MAP1A, GRM3, PCLO, GAB1, FBX6, NPAS3, GUAD, NCOR2, ATRN, NFAT5, DEMA, E41L3, SLIT3, CARM1, DYR1B, MECP2, E41L1, HDAC6
Species: Mus musculus
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Deracinois B, Camoin L, Lambert M, Boyer JB, Dupont E, Bastide B, Cieniewski-Bernard C. O-GlcNAcylation site mapping by (azide-alkyne) click chemistry and mass spectrometry following intensive fractionation of skeletal muscle cells proteins. Journal of proteomics 2018 186 30016717
Abstract:
The O-linked-N-acetyl-d-glucosaminylation (O-GlcNAcylation) modulates numerous aspects of cellular processes. Akin to phosphorylation, O-GlcNAcylation is highly dynamic, reversible, and responds rapidly to extracellular demand. Despite the absolute necessity to determine post-translational sites to fully understand the role of O-GlcNAcylation, it remains a high challenge for the major reason that unmodified proteins are in excess comparing to the O-GlcNAcylated ones. Based on a click chemistry approach, O-GlcNAcylated proteins were labelled with azido-GalNAc and coupled to agarose beads. The proteome extracted from C2C12 myotubes was submitted to an intensive fractionation prior to azide-alkyne click chemistry. This combination of fractionation and click chemistry is a powerful methodology to map O-GlcNAc sites; indeed, 342 proteins were identified through the identification of 620 peptides containing one or more O-GlcNAc sites. We localized O-GlcNAc sites on proteins involved in signalling pathways or in protein modification, as well as structural proteins. Considering the recent role of O-GlcNAcylation in the modulation of sarcomere morphometry and interaction between key structural protein, we focused on proteins involved in the cytoarchitecture of skeletal muscle cells. In particular, several O-GlcNAc sites were located into protein-protein interaction domains, suggesting that O-GlcNAcylation could be strongly involved in the organization and reorganization of sarcomere and myofibrils.
O-GlcNAc proteins:
A2A7H5, MYOM3, CKAP5, BRWD3, A2AIR2, DCA10, A2AMY5, B1AXE9, B1AXR5, B1B0C9, B2RXQ9, B7ZC18, B8JJB2, D3YU08, D3YUW7, D3YVS1, D3YYR9, D3Z216, D3Z2W0, D3Z4C0, D3Z589, D3Z6H5, D3Z7Q3, D6RH90, D6RHQ6, E0CYM1, E9Q016, I2BP2, E9Q3W4, KIF23, E9Q616, E9Q6A3, E9Q6Q2, E9Q8K5, E9Q9Q7, E9QKG6, E9QNY8, E9QQ33, F6T0L5, F6UTU1, F6V513, F6WNS2, F6YRR2, F7AWU3, F7C957, F7D291, F8VQK3, F8WGN6, F8WIT2, G3UYW7, G3UZ19, G3X9H7, G3XA78, G5E8J9, H3BK97, CELR1, LNX1, PDLI1, UBB, HSPB1, VIME, CRYAB, CRYAA, TNR6, TLN1, DESM, AIMP1, RAB6A, FOXK1, CNR1, WN10B, LMNA, LIMK1, MRTFB, ACTB, HSP7C, IPKA, ACTC, RGRF2, MYBPH, NACAM, WNK1, STAC, CADH6, G3BP2, G3BP1, NOTC1, ENAH, NF1, INF2, Q3TBU7, MILK2, FOXK2, FCSD2, HERC2, TRI67, TAB3, FBXL7, MYPN, ICEF1, Q5SQY9, TLL1, SRBS1, DBNL, SH3G1, ZYX, M3K10, SH3R1, NCK5L, HYCCI, WDFY3, AKIB1, FHOD3, SI1L2, PKHH1, CYLD, DCAF1, TCPR1, DAPK1, MYPT2, CNOT4, Q8BUJ6, KANK2, IFFO1, ANKK1, VCIP1, CBPC2, TAB1, ASPP2, PDLI5, PP14C, KLH20, MARK1, SYNP2, UBP26, FLIP1, TX1B3, MYPT1, SYNCI, LIMA1, RBP2, ADRM1, BAG3, LIMD1, MACF1, Q9Z1A1
Species: Mus musculus
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Qin K, Zhu Y, Qin W, Gao J, Shao X, Wang YL, Zhou W, Wang C, Chen X. Quantitative Profiling of Protein O-GlcNAcylation Sites by an Isotope-Tagged Cleavable Linker. ACS chemical biology 2018 13(8) 30059200
Abstract:
Large-scale quantification of protein O-linked β- N-acetylglucosamine (O-GlcNAc) modification in a site-specific manner remains a key challenge in studying O-GlcNAc biology. Herein, we developed an isotope-tagged cleavable linker (isoTCL) strategy, which enabled isotopic labeling of O-GlcNAc through bioorthogonal conjugation of affinity tags. We demonstrated the application of the isoTCL in mapping and quantification of O-GlcNAcylation sites in HeLa cells. Furthermore, we investigated the O-GlcNAcylation sensitivity to the sugar donor by quantifying the levels of modification under different concentrations of the O-GlcNAc labeling probe in a site-specific manner. In addition, we applied isoTCL to compare the O-GlcNAcylation stoichiometry levels of more than 100 modification sites between placenta samples from male and female mice and confirmed site-specifically that female placenta has a higher O-GlcNAcylation than its male counterpart. The isoTCL platform provides a powerful tool for quantitative profiling of O-GlcNAc modification.
O-GlcNAc proteins:
A0A0A6YVU8, A0A1B0GSG7, RBM47, ZN335, A2A8N0, SBNO1, CNOT1, PHRF1, ZN462, TAGAP, D3YUK0, E9PUR0, E9PVW1, E9PWI7, PARP4, E9PZS2, E9Q2C0, E9Q3G8, E9Q616, BD1L1, E9Q732, ARHG5, E9Q7N9, E9Q842, E9Q9B4, E9Q9Q2, E9QA22, E9QAE1, F6Y6L6, F8VQ29, F8VQM5, J9JI28, PDLI1, SPT5H, TAF4, ARI1A, ABLM1, KMT2D, MYPT1, ZN609, SET1A, SYNEM, PUR4, TNC18, KDM6A, DPOD2, M3K7, TPD54, SYNJ1, ZN207, SRPK2, ACK1, SYUA, MYPT2, KIF1B, HBP1, OGA, VINEX, PLIN3, MAFK, BRD4, PDLI1, KDM6A, SRPK1, N4BP1, ANR17, NCOR1, CREG1, CRTAP, MYO1A, MTR1L, CREG1, TOX4, SUN1, M3K6, PSMG1, SC24B, CNOT4, ABL1, ABL1, EGFR, LAMC1, LMNA, GBA1, GCR, HSPB1, PPBT, RLA2, ITB1, K1C18, K2C8, SAP, CATL1, LAMB1, ENPL, BGLR, NFIC, VIME, SNRPA, ROA1, ATX1L, TGAP1, GLI2, HLAC, CATB, TAU, BIP, FINC, K2C8, TPR, MSH3, ENPL, PO2F1, ATF2, GNS, ZEP1, RS2, MUC1, JUNB, ATF7, CATD, SON, SERPH, NELFE, BIP, ROA2, CBL, IF4B, APC, ARNT, MAP4, TEAD1, RXRA, RXRB, RXRG, CLIP1, AIMP1, HXA11, ELF1, NU214, MP2K2, VATA, CUX1, PBX2, MLH1, STAT3, SSRB, KI67, STT3A, RFX5, LMNA, DPOD2, PAXI, CDK8, YLPM1, NU153, RBP2, TAF6, EMD, PPT1, FXR1, ICAL, HCFC1, AGFG1, NUP98, ATX1, ATN1, PTN5, AF17, DSRAD, AMRP, ACYP2, NU107, ACOT8, S26A1, TB182, YTHD1, ASXL1, PI5PA, RIN3, MRTFB, RL37, KCNA2, RALA, STIM1, PITX1, IF4G2, SRPK2, RENBP, COG7, WNK1, SERF2, RPTN, SPSY, DAB2, RBM10, HNRPU, SPTB2, FOXK2, EWS, MEF2A, SP2, CO7A1, S30BP, NUCB1, ENL, IF4G1, K1C17, TLE3, TLE4, TOP1, SUH, CBG, ACK1, DEMA, AHNK, FOXO1, TROAP, BPTF, NFIA, ROA0, G3BP1, PABP4, ATM, PICAL, MAMD1, RIPK1, STIM1, MTMR1, CUL4B, ASPP2, KLF5, NFYC, CDK13, VEZF1, DSG2, TRI29, UBP2L, SRC8, PUM1, EPN4, RRP1B, NCOA6, DIP2A, MEF2D, NUMA1, R3HD1, KIF14, EBP, RCN1, KS6A1, RBMS2, TAF1C, NCOA2, SF01, JHD2C, MARE1, ELF2, TAB1, ZFHX3, ZYX, ADRM1, CCDC6, TAF9, STX1A, RFX7, QSER1, QRIC1, PRC2C, PBIP1, GSE1, TNR6A, CEAM5, Q3UKP4, COBL1, ARH40, SC31A, PEG3, SRBS2, Q3UU43, Q3UUE0, F91A1, ARBK2, Q497W2, Q4KL65, PHAR4, EPC2, CRTC2, BCORL, BRD10, TGO1, PRC2B, TOIP1, SPG17, SHRM1, ZN362, LRIF1, RHG21, UBAP2, RBM26, RPRD2, ZN318, NCOR1, LAMA5, HCFC1, P3C2A, SAP, AP180, MAFK, SPTB2, SH3G1, ZYX, TSH3, INADL, WAPL, KAZRN, SBNO1, ARID2, DYH17, SAM9L, CDK13, LAR4B, BICRL, RHG21, HELZ, TTLL5, PANX2, PKHG2, NIPBL, LIN54, F135A, RPRD2, IF4G1, SPIC, SCYL2, NFRKB, INT1, ZN182, UGGG1, MDEAS, ZC3HE, RICTR, FIP1, CRTC3, SAS6, MCAF1, BCOR, GGYF2, NU188, CO039, UBN2, HAKAI, ASXL2, SPT6H, DDX46, KDM3B, PICAL, PRC2B, OOG2, ZIC5, NRK, POGZ, MAVS, CLAP1, EMSY, I2BP2, SRGP1, SH3R1, HUWE1, YTHD3, NU214, UBP2L, TMC5B, ZN598, TOPRS, SHAN2, Q80ZX0, ZNF18, Q810G1, BCL9L, LUZP1, PRSR1, DDX42, PALB2, P66A, GNS, LPP, TB10B, TGO1, Q8BIB6, ZN771, ZNT6, AAPK2, CNOT4, SP110, IFFO1, YTHD3, NCBP3, DEFI6, RBM14, CNOT2, CABS1, Q8C6L9, TCAL5, TAB1, SCYL2, ASPP2, PHC3, EPN2, PDLI5, I2BP1, RN135, AHNK2, NAV2, MISP, MGAP, ANKH1, PHAR4, XRN1, PELP1, Q8JZK6, Q8K0U8, AGFG1, TXD11, IL23R, ARHG6, SPART, SPICE, NUP93, CLASR, ZN786, SYNPO, FNBP4, ARFG1, ENAH, TNR6A, PHC3, SP20H, NAV1, VP37A, KMT2C, BD1L1, NUP35, STXB6, KNL1, TCAL3, MTSS1, SPART, NUP35, PUM2, STT3B, ALMS1, GEMI5, WIPF2, MAVS, UTP6, PI3R4, AMOT, P66B, STAG1, PCNP, LMO7, ATX2L, CSKI2, P66B, BBX, TITIN, HNMT, UBAP2, DCP1A, NRIF1, SMG7, RTF1, MAML1, ZN592, LAR4B, TAF4B, SHIP1, DDX17, RENT1, GPKOW, FUBP2, LPP, TTC28, PF21A, INT12, RCN3, CERS2, PDLI5, FUBP3, MY15B, ANCHR, CLP1L, Z512B, ZFR, EP400, NOL4L, RBM14, CIC, MED15, PIGS, DCR1C, SIN3A, MINT, EYA3, TEAD3, ATX2, RFC4, DHX58, ANX13, GORS2, TAB2, EPN4, ANR17, DPH2, WAC, DIDO1, YTHD1, AMRA1, TANC1, TXD12, F133B, RBM33, GPI8, Q9D2U0, ZC21B, FUND2, F162A, APMAP, Q9D809, FIP1, CNPY3, Q9DAV5, Q9DB24, ALG2, PLIN3, MYPT1, WWTR1, Q9EQC8, SALL1, RBP2, GILT, MFF, SP130, APC1, I2BPL, RBNS5, EPC1, ADNP, ZN106, TM245, CPVL, PTN23, WNK1, E41L1, ZHX3, ZN335, PKHG2, CCSE2, CQ10B, MLXIP, PKHA5, RC3H2, TAF9B, ZBT20, NCOA5, ZN532, APMAP, HYOU1, ADRM1, GIT2, BAG3, UBN1, PDLI7, DIAP3, RBM12, CARF, ETAA1, HXC10, TAB2, UGGG1, CDK12, ITSN2, CNOT2, TMEM9, DAPLE, NYAP2, KANL3, SON, LIMD1, KI21B, KI21A, PPIE, PCM1, GALK1, MRP5, SE1L1, LIMD1, TCF20, SUN2, AFF4, UBQL2, S30BP, NRBP, SIX4, TASOR, GMEB2, PARP4, NUP50, ZHX1, YETS2, HECD1, SCAF8, SRRM2, SCML2, S22AL, NCOR2, DEMA, POLH, R3HD2, ZN281, FBX7, RPGF2, IRS2, HYOU1, PRC2C, NCOR2, GMEB1, S23IP, SRPK3, SLFN1, VNN1, KLK4, SE1L1, RGS6, E41L1
Species: Homo sapiens, Mus musculus
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Chuh KN, Batt AR, Zaro BW, Darabedian N, Marotta NP, Brennan CK, Amirhekmat A, Pratt MR. The New Chemical Reporter 6-Alkynyl-6-deoxy-GlcNAc Reveals O-GlcNAc Modification of the Apoptotic Caspases That Can Block the Cleavage/Activation of Caspase-8. Journal of the American Chemical Society 2017 139(23) 28528544
Abstract:
O-GlcNAc modification (O-GlcNAcylation) is required for survival in mammalian cells. Genetic and biochemical experiments have found that increased modification inhibits apoptosis in tissues and cell culture and that lowering O-GlcNAcylation induces cell death. However, the molecular mechanisms by which O-GlcNAcylation might inhibit apoptosis are still being elucidated. Here, we first synthesize a new metabolic chemical reporter, 6-Alkynyl-6-deoxy-GlcNAc (6AlkGlcNAc), for the identification of O-GlcNAc-modified proteins. Subsequent characterization of 6AlkGlcNAc shows that this probe is selectively incorporated into O-GlcNAcylated proteins over cell-surface glycoproteins. Using this probe, we discover that the apoptotic caspases are O-GlcNAcylated, which we confirmed using other techniques, raising the possibility that the modification affects their biochemistry. We then demonstrate that changes in the global levels of O-GlcNAcylation result in a converse change in the kinetics of caspase-8 activation during apoptosis. Finally, we show that caspase-8 is modified at residues that can block its cleavage/activation. Our results provide the first evidence that the caspases may be directly affected by O-GlcNAcylation as a potential antiapoptotic mechanism.
O-GlcNAc proteins:
A2A4A6, A2A5R8, GPTC8, SPD2B, A2ACG7, A2AFQ9, A2AFW6, A2AG46, CKAP5, A2AH75, A2AJ72, MA7D1, A2AL12, A2AMW0, A2AMY5, TPX2, PPIG, LAS1L, A5A4Y9, A6PWC3, A6PWK7, UBP36, B1AT03, B1AT82, B1AU75, B2RQG2, OTUD4, B7ZCP4, B7ZP47, D3YUW8, D3YWF6, D3YWK1, D3YX62, SAFB1, D3YXM7, D3YZ06, D3YZP6, D3Z069, D3Z158, D3Z3F8, D3Z6W2, E0CYM1, E9PUH7, E9PVM7, E9PWG6, E9PWV3, E9PWW9, E9PY48, E9PYT3, E9PZM7, E9Q066, E9Q2X6, E9Q3G8, E9Q450, E9Q4K7, E9Q4Q2, KIF23, BD1L1, NUMA1, E9Q7M2, E9Q986, E9Q9E1, E9Q9H2, E9QKG3, E9QKG6, E9QKZ2, E9QLA5, E9QP49, E9QP59, E9QPI5, F2Z3X7, F6S5I0, F7AA26, F7BQE4, FARP1, F8VQ93, F8VQC7, F8VQE9, F8VQK5, F8WI30, G3UZ44, G3UZX6, G3X8R0, G3X8Y3, G3X928, G3X963, G3X972, G3X9V0, G5E896, G5E8E1, H3BJU7, H3BK31, H3BKK2, H7BX26, I1E4X0, I7HIK9, J3QNW0, DPYL2, GTPB1, AKAP1, TCOF, AIP, HDAC1, RL21, GSH0, KIF1C, DHX15, SC6A6, IF6, ILK, ATX2, NMT1, E41L2, DHB12, SRPK1, ZN326, ZFR, PARG, SPD2A, SP1, CASP8, HPRT, LDHA, G6PI, TYSY, RIR1, GNAI2, ITB1, 4F2, H2B1F, MAP1B, HMOX1, LEG1, G3P, KS6A3, COF1, GNAO, IFRD1, VIME, UBL4A, CBX3, CXA1, CATA, IMDH2, IL1RA, MCM3, CDK4, NKTR, FKBP4, CBX2, HMGB2, AIMP1, KAP3, MP2K1, SYWC, KIF4, NEDD1, DPOLA, RANG, UBP4, PTN11, RAB18, PTN1, PTN12, LDLR, DNLI1, CAP1, STAT3, STA5B, PURA, ALD2, RAGP1, NEDD4, STT3A, ALDH2, GSHR, GFPT1, PCY1A, MCM4, ICAL, PLCB3, CDN2A, HDGF, UBP10, KPYM, CCHL, IDHP, DDX6, GOGA3, COX17, ACTN4, GCP3, TB182, EIF3E, ABCE1, PFD3, 1433E, RAP1A, RS25, TCTP, DNJA1, HMGB1, IF5A1, RS17, RS12, UB2L3, HXD13, HDAC2, ELAV1, TP53B, CASP3, PYRG1, TCPB, STIM2, SRSF3, CSRP2, SPTC2, BOP1, SMAD4, M4K4, HNRL2, MARK3, LARP7, CNN2, PP4R2, PEPD, CDCA2, Q3TFP0, GUAA, PDE12, Q3TL72, PRC2C, NOL9, FUBP2, TRADD, CTU2, ZN865, Q3U4W8, Q3UG37, NAT9, NOL8, Q3UJQ9, SC31A, NCBP1, LRRF1, DDX17, LRC47, JIP4, EHMT1, CA050, AAPK1, NSRP1, Q5RL57, Q5SQB0, TENS3, PUR4, Q5UE59, SRC8, SAMH1, KHDR1, GRB10, HELLS, SPB6, RIPK1, CAPR1, ASNS, LAP2A, CDC37, TS101, SNTB2, FNTA, BAP31, PLPP1, FSCN1, FXR1, DDX5, ATRX, DDX3Y, DDX3X, TGFI1, DBNL, SH3G1, CYTB, SMAD2, NDRG1, ZYX, SQSTM, TPP2, ZN512, LAR4B, F120A, CNDG2, NOP58, LTV1, Q6NV52, Q6NXL1, Q6NZD2, ANKL2, Q6P5B5, XPO1, KIF15, FHOD1, TXLNA, PTN23, JUPI2, NUDC1, TACC1, UBE2O, LARP1, ACAP2, 2AAA, MTCH2, ZN503, CYFP1, HNRPQ, SPAG7, DEK, ACTN1, ATX2L, CKP2L, ZN516, ERBIN, SEPT9, PGRC2, Q80VB6, UBP2L, PI42B, ZN598, SAFB2, Q80ZX0, DLG1, LPP, PEF1, IF4B, FTO, TIPRL, Q8BH80, MISSL, ERC6L, CARF, PRUN1, NUP93, FBX30, HBAP1, AHSA1, RCC2, IPO5, SYLC, CKAP4, MAP11, PALM2, CPNE3, SENP7, CSN7B, NSD2, DPP9, Q8BWW3, KANK2, PXK, PIGT, ITPK1, NHLC2, MAP1S, GWL, PKHH2, CND2, THOP1, SEP11, SKA3, CA198, SEP10, AROS, UBA6, LIPB1, SMAG1, Q8CCM0, ZN276, NAA30, SNX8, SYEP, OGT1, GNL3, PDLI5, FERM2, AGO2, HMCS1, AMERL, SCNM1, DNM1L, NEK9, ANLN, EDC3, MATR3, CHAP1, MEPCE, ERF3A, CC137, TDIF2, VPS18, RFC3, MCMBP, HEXI1, LUZP1, SNP47, TMX1, MAVS, UBXN4, Q8VCQ8, ACSF2, PARN, VIGLN, PSMD2, NAA40, F1142, ZNG1, PAXI, SFPQ, CPIN1, RAB14, IPYR2, PUS7, CSDE1, PIP30, RABE2, CISD1, Q91X76, DUS3L, KCC1A, TTC1, SRGP2, SNX18, RISC, HNRLL, Q921K2, PP6R3, LRC59, UBXN1, DBR1, KCC2G, Q924B0, WAC, SMC6, PAWR, SIAS, STML2, PSIP1, NXF1, PDXD1, NONO, PLST, RRAGC, VMA5A, MAOM, DCTN2, ZN281, CT2NL, GRPE1, ABD12, NU155, OGFR, NPM3, NOP16, GLOD4, DUT, MTAP, IFM3, CYB5B, PAF15, PSMD9, WIPI3, SKA2, VATG1, CHSP1, LRC40, RANB3, SMC1A, MFR1L, ARHGP, DDX47, TBC15, PPIL4, MPPB, CYBP, TECR, SERB1, ZCHC8, SPCS2, Q9CZP3, CD37L, SSBP3, MMS19, MGRN1, ARPIN, HNRPM, SYRC, MCES, Q9D4G5, ATAD1, F162A, TRIR, IPYR, PHF10, ARFG3, ORN, BOLA1, CNN3, KAP0, PLIN3, AKAP8, XRN2, GNAI3, PUR6, RAI14, SENP3, ARFG1, SIL1, VPS35, DGCR8, SYCC, ELP4, LIMA1, XPO2, RBP2, RTN3, PALLD, TMOD3, STK3, COPB, NUP50, DDX21, SH3L1, DDX20, MBNL1, BAG3, GKAP1, ZN207, TRXR1, PPCE, CAF1A, LIMD1, NDRG3, DNJC7, NFU1, COPG1, NUBP1, SMAP, DEST, ACOT9, PR40A, FOXO1, FIZ1, NFKB2, KAD2, AKA12, PRKRA, PDC6I, CHIP, COR1C, VAPA, NDKM, E41L3, TAGL2, CARM1, MTNB, BCL10, IF2G, P5CS, COG1, MD2L1, EIF3G, SAE2, ILF3, TRIP6, USO1, BAZ1B, HNRPF, KEAP1
Species: Mus musculus
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Morris M, Knudsen GM, Maeda S, Trinidad JC, Ioanoviciu A, Burlingame AL, Mucke L. Tau post-translational modifications in wild-type and human amyloid precursor protein transgenic mice. Nature neuroscience 2015 18(8) 26192747
Abstract:
The microtubule-associated protein tau has been implicated in the pathogenesis of Alzheimer's disease (AD) and other neurodegenerative disorders. Reducing tau levels ameliorates AD-related synaptic, network, and behavioral abnormalities in transgenic mice expressing human amyloid precursor protein (hAPP). We used mass spectrometry to characterize the post-translational modification of endogenous tau isolated from wild-type and hAPP mice. We identified seven types of tau modifications at 63 sites in wild-type mice. Wild-type and hAPP mice had similar modifications, supporting the hypothesis that neuronal dysfunction in hAPP mice is enabled by physiological forms of tau. Our findings provide clear evidence for acetylation and ubiquitination of the same lysine residues; some sites were also targeted by lysine methylation. Our findings refute the hypothesis of extensive O-linked N-acetylglucosamine (O-GlcNAc) modification of endogenous tau. The complex post-translational modification of physiological tau suggests that tau is regulated by diverse mechanisms.
O-GlcNAc proteins:
KANL3, PTGDS, CTND2, RNF13, SYUA, CRIPT, BSN, THY1, CATB, TAU, AT1B2, CATD, STMN1, TB182, NACAM, WNK1, SHPS1, NOTC1, S30BP, MA6D1, PRC2C, MAST3, F117B, FOXK2, CDV3, SAP, PGCB, AP180, SRBS1, MINT, OMGP, WIPF2, PF21A, TPPP, MAP6, T106B, MAST4, LPP, C99L2, ZC21A, ENPP4, SHSA7, SYNPO, PDLI5, DIAC, LUZP1, ZFN2B, LRP1, SARNP, TM263, CRIP2, PPR1A, NUDT3, NCOA6, PCS1N, PCLO, ASAH1, APCL, MECP2
Species: Mus musculus
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Chuh KN, Zaro BW, Piller F, Piller V, Pratt MR. Changes in metabolic chemical reporter structure yield a selective probe of O-GlcNAc modification. Journal of the American Chemical Society 2014 136(35) 25153642
Abstract:
Metabolic chemical reporters (MCRs) of glycosylation are analogues of monosaccharides that contain bioorthogonal functionalities and enable the direct visualization and identification of glycoproteins from living cells. Each MCR was initially thought to report on specific types of glycosylation. We and others have demonstrated that several MCRs are metabolically transformed and enter multiple glycosylation pathways. Therefore, the development of selective MCRs remains a key unmet goal. We demonstrate here that 6-azido-6-deoxy-N-acetyl-glucosamine (6AzGlcNAc) is a specific MCR for O-GlcNAcylated proteins. Biochemical analysis and comparative proteomics with 6AzGlcNAc, N-azidoacetyl-glucosamine (GlcNAz), and N-azidoacetyl-galactosamine (GalNAz) revealed that 6AzGlcNAc exclusively labels intracellular proteins, while GlcNAz and GalNAz are incorporated into a combination of intracellular and extracellular/lumenal glycoproteins. Notably, 6AzGlcNAc cannot be biosynthetically transformed into the corresponding UDP sugar-donor by the canonical salvage-pathway that requires phosphorylation at the 6-hydroxyl. In vitro experiments showed that 6AzGlcNAc can bypass this roadblock through direct phosphorylation of its 1-hydroxyl by the enzyme phosphoacetylglucosamine mutase (AGM1). Taken together, 6AzGlcNAc enables the specific analysis of O-GlcNAcylated proteins, and these results suggest that specific MCRs for other types of glycosylation can be developed. Additionally, our data demonstrate that cells are equipped with a somewhat unappreciated metabolic flexibility with important implications for the biosynthesis of natural and unnatural carbohydrates.
O-GlcNAc proteins:
A1BN54, A2A4Z1, A2A6U3, A2AFJ1, A2AG83, A2AL12, A2AMW0, A2AMY5, LAS1L, B1AU75, OTUD4, B7FAU9, B7ZP47, D3YUC9, D3YVJ7, SAFB1, D3Z4W3, E9PVC5, E9PZM7, E9Q066, E9Q2X6, E9Q310, E9Q5L7, E9Q7M2, E9Q986, F6T2Z7, G3UZ44, G3UZI2, G3X8Q0, G3X8Y3, G3X928, G3X972, G3X9V0, G5E8E1, H3BKK2, J3JS94, CAN2, DPYL2, AIP, HDAC1, MP2K3, GSH0, DHX15, ZW10, AKAP2, SLK, NMT1, E41L2, SRPK1, PARG, SPD2A, LDHA, ANXA2, RIR1, ANXA1, LMNB1, LEG1, G3P, TPIS, COF1, FAS, CBX3, BCAT1, MCM3, MAP4, FKBP4, HMGB2, AIMP1, MP2K1, SYWC, RANG, UBP4, PTN11, RAB5C, DNLI1, CAP1, STAT3, EPS15, PURA, MSH2, ALD2, PURA2, NEDD4, GFPT1, PCY1A, ICAL, HDGF, UBP10, ACTN4, EF2, TB182, SF3B6, PCBP1, PSME3, PFD3, MTPN, DNJA1, SUMO1, IF5A1, UB2L3, HDAC2, ELAV1, 4EBP2, PYRG1, TCPB, BOP1, DAB2, XDH, UBA1, LARP7, CNN2, PP4R2, PSA, Q3TFP0, GUAA, METK2, FA98A, Q3TT92, UAP1L, NOL9, FUBP2, Q3U4W8, YRDC, NOL8, COBL1, CSTOS, LRRF1, Q3V3Y9, DDX17, MDC1, TENS3, Q5UE59, SRC8, SAMH1, KHDR1, SPB6, CAPR1, PAPS1, ASNS, LAP2B, LAP2A, PPM1G, CDC37, FXR1, PCBP2, KPCI, DDX3X, TSN, DBNL, CYTB, ZYX, RALY, SQSTM, TPP2, PEAK1, NOP58, TPM4, LTV1, ZC11A, Q6P5B5, SMHD1, GGA2, TXLNA, JUPI2, UBE2O, LARP1, 2AAA, MTCH2, DEK, MBB1A, ATX2L, OTUB1, MAP6, AFTIN, FLNB, PI42B, ZN598, SAFB2, GRWD1, CPPED, LPP, PEF1, IF4B, SYAC, RUFY1, PRUN1, CTF18, AHSA1, RCC2, IPO5, CKAP4, PPR18, HEAT3, SRRM2, HAT1, MAP1S, TLK1, CND2, THOP1, SEP11, TBL3, SEP10, UBA6, SYEP, GNL3, PDLI5, HMCS1, PKHO2, NEK9, ANLN, MATR3, CBR3, MEPCE, ERF3A, SPART, TDIF2, MCMBP, UBP15, MAVS, Q8VCQ8, PSMD2, FLNC, CPIN1, ACLY, MK67I, RINI, PUS7, CSDE1, DUS3L, KCC1A, TTC1, TADBP, RIN1, NONO, RRAGC, SERB, UBQL4, OGFR, NPM3, GLOD4, MTAP, CYB5B, PSMD9, CHSP1, OCAD1, RANB3, MFR1L, TBC15, CYBP, ZCHC8, GARS, CD37L, UB2V1, HNRPM, Q9D4G5, NOP56, IPYR, CNN3, KAP0, PLIN3, AKAP8, XRN2, MYPT1, PUR6, WDR4, SENP3, LIMA1, ANM1, NUP50, DDX20, IQGA1, MBNL1, ELOV1, DCLK1, BAG3, PPCE, CAF1A, LIMD1, DREB, TOM40, DEST, FOXO1, NFKB2, PDC6I, COR1C, TAGL2, CARM1, MTNB, GBP2, P5CS, EIF3G, SAE2, USO1, HNRPF, KEAP1
Species: Mus musculus
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Alfaro JF, Gong CX, Monroe ME, Aldrich JT, Clauss TR, Purvine SO, Wang Z, Camp DG 2nd, Shabanowitz J, Stanley P, Hart GW, Hunt DF, Yang F, Smith RD. Tandem mass spectrometry identifies many mouse brain O-GlcNAcylated proteins including EGF domain-specific O-GlcNAc transferase targets. Proceedings of the National Academy of Sciences of the United States of America 2012 109(19) 22517741
Abstract:
O-linked N-acetylglucosamine (O-GlcNAc) is a reversible posttranslational modification of Ser and Thr residues on cytosolic and nuclear proteins of higher eukaryotes catalyzed by O-GlcNAc transferase (OGT). O-GlcNAc has recently been found on Notch1 extracellular domain catalyzed by EGF domain-specific OGT. Aberrant O-GlcNAc modification of brain proteins has been linked to Alzheimer's disease (AD). However, understanding specific functions of O-GlcNAcylation in AD has been impeded by the difficulty in characterization of O-GlcNAc sites on proteins. In this study, we modified a chemical/enzymatic photochemical cleavage approach for enriching O-GlcNAcylated peptides in samples containing ∼100 μg of tryptic peptides from mouse cerebrocortical brain tissue. A total of 274 O-GlcNAcylated proteins were identified. Of these, 168 were not previously known to be modified by O-GlcNAc. Overall, 458 O-GlcNAc sites in 195 proteins were identified. Many of the modified residues are either known phosphorylation sites or located proximal to known phosphorylation sites. These findings support the proposed regulatory cross-talk between O-GlcNAcylation and phosphorylation. This study produced the most comprehensive O-GlcNAc proteome of mammalian brain tissue with both protein identification and O-GlcNAc site assignment. Interestingly, we observed O-β-GlcNAc on EGF-like repeats in the extracellular domains of five membrane proteins, expanding the evidence for extracellular O-GlcNAcylation by the EGF domain-specific OGT. We also report a GlcNAc-β-1,3-Fuc-α-1-O-Thr modification on the EGF-like repeat of the versican core protein, a proposed substrate of Fringe β-1,3-N-acetylglucosaminyltransferases.
O-GlcNAc proteins:
ZEP3, CAMP1, FRPD1, SKT, DLGP4, DPYL2, STXB1, MAP2, NUMBL, M3K5, NOTC2, CTND2, CSK22, ACK1, SYUA, ATX2, ZFR, BSN, GCR, EGR1, NFL, NFM, RC3H2, MAMD1, ATX1L, DERPC, NCAM1, MAP1B, G3P, ATF2, MAP4, KCC2B, AIMP1, FOXK1, STAT3, AINX, NEDD4, RP3A, DVL1, GOGA3, FOXP1, TB182, GMEB2, PI5PA, MRTFB, DOCK4, ABI2, KCNJ3, NCOA1, RGRF2, TNIK, WNK1, G3BP2, MPRIP, XRN1, RLA2, S30BP, NFIA, MARK3, ENAH, PGBM, CDK12, MA6D1, PHAR1, PSD3, NELL1, PRC2C, YETS2, FOXK2, WNK2, LIMC1, TNR6C, AGAP2, ZEP2, AAK1, TNR6A, CAMKV, PKHA7, GRIN1, FCHO2, GARL3, STOX2, UBN1, ABL2, CDV3, PHAR4, TAB3, NUFP2, UNKL, OSBP2, RBM27, CYFP2, TM1L2, ANR40, NACAD, SIN3A, NCOR1, LAMA5, NCOA2, AP180, RAI1, M3K7, TAF6, SRBS1, SH3G1, TLE4, MINT, ZYX, SF01, SYN2, TBR1, SBNO1, CRTC1, GIT1, SLAI1, PKP4, CDK13, RHG23, SH3R1, JHD2C, HECD1, ABLM3, ARMX2, LAR4B, RHG21, FBX41, RPRD2, WWC2, ZN532, BCR, DLGP3, NYAP1, GMIP, NFRKB, MAGI1, CNOT1, NU188, PICAL, SMAP2, SPAG7, PRC2B, ATX2L, MAP6, MCAF1, PHF24, NAV3, AUXI, RERE, RIMB2, PUM1, NU214, KCMF1, EPN1, AGFG2, UBP2L, C2C2L, CNKR2, ZN598, SHAN2, MAST4, RHG32, MYPT2, TB10B, FRM4A, SP130, DLGP2, ZNT6, ABLM2, EMSY, CLAP2, CNOT4, PAMR1, CREST, IFFO1, OSBL6, YTHD3, TM266, SI1L1, SH3R3, RBM14, CNOT2, ANK2, DIDO1, SYNPO, VCIP1, TAB1, SCYL2, ASPP2, F193A, OGT1, NAV1, SYNJ1, RPGF2, EP400, P66A, PDLI5, SCAM1, HS12A, AGFG1, I2BPL, PO121, ABLM1, SPART, RFIP5, CS047, SIR2, AMOT, CCG8, ZCH14, WDR13, UBAP2, NCOA5, FRS3, ZFN2B, BASP1, DCP1A, SRGP2, SRGP1, SYUB, CLIP1, UBXN1, GORS2, EPN4, RB6I2, ANR17, TXD12, NECP1, DLGP1, FIP1, F135B, TM263, PLIN3, MYPT1, CRIP2, TSC1, NBEA, RIMS2, ZN704, RBP2, RTN3, 4ET, ELF2, NUDT3, FMN2, NCOA6, SRCN1, ASAP1, RAD1, SON, PLEC, ULK2, ADDA, PCLO, HIPK2, SH2D3, YLPM1, RHG07, TEN1, NCOR2, COR1B, TNIP1, DEMA, E41L3, SYUG, APCL, MECP2, E41L1
Species: Mus musculus
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