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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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Joiner CM, Levine ZG, Aonbangkhen C, Woo CM, Walker S. Aspartate Residues Far from the Active Site Drive O-GlcNAc Transferase Substrate Selection. Journal of the American Chemical Society 2019 141(33) 31373491
Abstract:
O-GlcNAc is an abundant post-translational modification found on nuclear and cytoplasmic proteins in all metazoans. This modification regulates a wide variety of cellular processes, and elevated O-GlcNAc levels have been implicated in cancer progression. A single essential enzyme, O-GlcNAc transferase (OGT), is responsible for all nucleocytoplasmic O-GlcNAcylation. Understanding how this enzyme chooses its substrates is critical for understanding, and potentially manipulating, its functions. Here we use protein microarray technology and proteome-wide glycosylation profiling to show that conserved aspartate residues in the tetratricopeptide repeat (TPR) lumen of OGT drive substrate selection. Changing these residues to alanines alters substrate selectivity and unexpectedly increases rates of protein glycosylation. Our findings support a model where sites of glycosylation for many OGT substrates are determined by TPR domain contacts to substrate side chains five to fifteen residues C-terminal to the glycosite. In addition to guiding design of inhibitors that target OGT's TPR domain, this information will inform efforts to engineer substrates to explore biological functions.
Species: Homo sapiens
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