MOD_TYR_DYR

Accession:	ELME000092
Functional site class:	TYR phosphorylation site
Functional site description:	Protein tyrosine kinases (PTKs) catalyze the transfer of the gamma-phosphate of ATP to tyrosine residues of protein substrates.
ELMs with same func. site:	MOD_TYR_CSK MOD_TYR_DYR
ELM Description:	The kinase activity of the DYRK (dual specificity kinase) is dependent on the autophosphorylation of the YXY motif in the activation loop.
Pattern:	`..[RKTC][IVL]Y[TQHS](Y)[IL]QSR`
Pattern Probability:	`5.207e-11`
Present in taxon:	Eukaryota
Interaction Domain:	Pkinase (PF00069) Protein kinase domain (Stochiometry: 1 : 1)

o See 9 Instances for MOD_TYR_DYR

o Abstract

Protein-tyrosine kinases (PTKs) are essential regulators of intracellular signal-transduction pathways in eukaryotes. Tyrosine phosphorylation plays an important role in the control of several cellular processes such as cell proliferation, cell migration, differentiation, immune response, and cell cycle. Their activity is normally tight control and regulated. Perturbation of the PTK signaling by mutation and other genetic alterations result in deregulated kinase activity and malignant transformation.
The mechanism of substrate recognition by the PTKs has been one of the major challenges in phosphorylation research over the years. Peptide library approaches have provided some insight about the role of amino acid immediately surrounding Tyr phosphorylation sites and it has been shown that the specificity of PTKs is dominated by acidic or hydrophobic residues adjacent to the phosphorylated residue (Songyang,1999). Based on a larger set of experimentally verified phosphorylation sites, it was found that some amino acids were not present in some positions, e.g. tryptophan was never found in position -5 to -1. Similarly, cysteine was never found at position -2 and -1, while methionine was always absent in position -2 (Blom,2000). Recently, numerous studies have revealed that the local amino acid sequence is certainly not the sole determinant of substrate specificity but other several factor, including local structure, protein-protein interaction and surface accessibility, also play a main role.

o 3 selected references:

Sequence characteristics, subcellular localization, and substrate specificity of DYRK-related kinases, a novel family of dual specificity protein kinases.
Becker W, Weber Y, Wetzel K, Eirmbter K, Tejedor FJ, Joost HG
J Biol Chem 1998 Oct 2; 273 (40), 25893-902
PMID: 9748265
Cloning and characterization of DYRK1B, a novel member of the DYRK family of protein kinases.
Leder S, Weber Y, Altafaj X, Estivill X, Joost HG, Becker W
Biochem Biophys Res Commun 1999 Jan 19; 254 (2), 474-9
PMID: 9918863
Structural and functional characteristics of Dyrk, a novel subfamily of protein kinases with dual specificity.
Becker W, Joost HG
Prog Nucleic Acid Res Mol Biol 1999; 62, 1-17
PMID: 9932450

o 5 GO-Terms:

Biological Process:
Peptidyl-Tyrosine Phosphorylation (also annotated in class: )
Protein Amino Acid Phosphorylation (also annotated in these classes: DOC_AGCK_PIF_1 DOC_AGCK_PIF_2 DOC_AGCK_PIF_3 DOC_CYCLIN_RevRxL_6 DOC_CYCLIN_RxL_1 DOC_CYCLIN_yClb1_LxF_4 DOC_CYCLIN_yClb3_PxF_3 DOC_CYCLIN_yClb5_NLxxxL_5 DOC_MAPK_DCC_7 DOC_MAPK_GRA24_9 DOC_MAPK_HePTP_8 DOC_MAPK_JIP1_4 DOC_MAPK_MEF2A_6 DOC_MAPK_NFAT4_5 DOC_SPAK_OSR1_1 LIG_CSK_EPIYA_1 LIG_TYR_ITAM LIG_TYR_ITIM LIG_TYR_ITSM MOD_AAK1BIKe_LxxQxTG_1 MOD_DYRK1A_RPxSP_1 MOD_GSK3_1 MOD_LOK_YxT_1 MOD_ProDKin_1 MOD_TYR_CSK )
Cellular Compartment:
Cytosol (also annotated in these classes: CLV_C14_Caspase3-7 CLV_Separin_Fungi CLV_Separin_Metazoa DEG_APCC_DBOX_1 DEG_APCC_KENBOX_2 DEG_APCC_TPR_1 DEG_Cend_DCAF12_1 DEG_Cend_FEM1AC_1 DEG_Cend_FEM1B_2 DEG_Cend_KLHDC2_1 DEG_Cend_TRIM7_1 DEG_COP1_1 DEG_CRBN_cyclicCter_1 DEG_Kelch_actinfilin_1 DEG_Kelch_Keap1_1 DEG_Kelch_Keap1_2 DEG_Kelch_KLHL12_1 DEG_Kelch_KLHL3_1 DEG_MDM2_SWIB_1 DEG_Nend_Nbox_1 DEG_Nend_UBRbox_1 DEG_Nend_UBRbox_2 DEG_Nend_UBRbox_3 DEG_Nend_UBRbox_4 DEG_ODPH_VHL_1 DEG_SCF_FBW7_1 DEG_SCF_FBW7_2 DEG_SCF_FBXO31_1 DEG_SCF_SKP2-CKS1_1 DEG_SCF_TRCP1_1 DEG_SIAH_1 DOC_AGCK_PIF_1 DOC_AGCK_PIF_2 DOC_AGCK_PIF_3 DOC_ANK_TNKS_1 DOC_CDC14_PxL_1 DOC_CKS1_1 DOC_CYCLIN_D_Helix_1 DOC_CYCLIN_RevRxL_6 DOC_CYCLIN_RxL_1 DOC_CYCLIN_yClb1_LxF_4 DOC_CYCLIN_yClb3_PxF_3 DOC_CYCLIN_yCln2_LP_2 DOC_GSK3_Axin_1 DOC_MAPK_DCC_7 DOC_MAPK_FxFP_2 DOC_MAPK_gen_1 DOC_MAPK_GRA24_9 DOC_MAPK_HePTP_8 DOC_MAPK_JIP1_4 DOC_MAPK_MEF2A_6 DOC_MAPK_NFAT4_5 DOC_MAPK_RevD_3 DOC_MIT_MIM_1 DOC_PP1_MyPhoNE_1 DOC_PP1_RVXF_1 DOC_PP1_SILK_1 DOC_PP2A_B56_1 DOC_PP2A_KARD_1 DOC_PP2B_LxvP_1 DOC_PP2B_PxIxIT_1 DOC_PUB_PIM_1 DOC_RSK_DDVF_1 DOC_SPAK_OSR1_1 DOC_TBK1_STING_1 DOC_WD40_RPTOR_TOS_1 DOC_WW_Pin1_4 LIG_14-3-3_CanoR_1 LIG_14-3-3_ChREBP_3 LIG_14-3-3_CterR_2 LIG_ActinCP_CPI_1 LIG_ActinCP_TwfCPI_2 LIG_Actin_RPEL_3 LIG_Actin_WH2_1 LIG_Actin_WH2_2 LIG_ANK_PxLPxL_1 LIG_AP2alpha_1 LIG_AP2alpha_2 LIG_APCC_ABBA_1 LIG_APCC_Cbox_1 LIG_APCC_Cbox_2 LIG_AP_GAE_1 LIG_Arc_Nlobe_1 LIG_ARL_BART_1 LIG_BH_BH3_1 LIG_BIR_II_1 LIG_BIR_III_1 LIG_BIR_III_2 LIG_BIR_III_3 LIG_BIR_III_4 LIG_CaM_1-14-15-16_REV_1 LIG_CaM_1-26_7 LIG_CaM_1-5-10-14_3 LIG_CaM_1-8-14_4 LIG_CaM_1-8-9-10_5 LIG_CaM_1-8_REV_2 LIG_CaM_IQ_9 LIG_CaMK_CASK_1 LIG_CaM_NSCaTE_8 LIG_CAP-Gly_1 LIG_CAP-Gly_2 LIG_Clathr_ClatBox_1 LIG_Clathr_ClatBox_2 LIG_CNOT1_NIM_1 LIG_CSK_EPIYA_1 LIG_CtBP_PxDLS_1 LIG_deltaCOP1_diTrp_1 LIG_DLG_GKlike_1 LIG_Dynein_DLC8_1 LIG_EABR_CEP55_1 LIG_EF_ALG2_ABM_1 LIG_EF_ALG2_ABM_2 LIG_EH_1 LIG_eIF4E_1 LIG_eIF4E_2 LIG_EVH1_1 LIG_EVH1_2 LIG_EVH1_3 LIG_FAT_LD_1 LIG_FERM_MyoX_1 LIG_FZD_DVL_PDZ LIG_G3BP_FGDF_1 LIG_GBD_Chelix_1 LIG_GBD_WASP_1 LIG_GSK3_LRP6_1 LIG_GYF LIG_IBAR_NPY_1 LIG_IRF7_LxLS_2 LIG_IRFs_LxIS_1 LIG_KLC1_WD_1 LIG_KLC1_Yacidic_2 LIG_LIR_Apic_2 LIG_LIR_Gen_1 LIG_LIR_LC3C_4 LIG_LIR_Nem_3 LIG_LYPXL_L_2 LIG_LYPXL_S_1 LIG_LYPXL_yS_3 LIG_MYND_3 LIG_OCRL_FandH_1 LIG_PAM2_1 LIG_PAM2_2 LIG_PDZ_Class_1 LIG_PDZ_Class_2 LIG_PDZ_Class_3 LIG_PDZ_Wminus1_1 LIG_Pex14_1 LIG_Pex14_2 LIG_Pex14_3 LIG_Pex14_4 LIG_Pex3_1 LIG_PIP2_ANTH_1 LIG_PIP2_ENTH_1 LIG_PROFILIN_1 LIG_PTAP_UEV_1 LIG_PTB_Apo_2 LIG_PTB_Phospho_1 LIG_SH2_CRK LIG_SH2_GRB2like LIG_SH2_NCK_1 LIG_SH2_PTP2 LIG_SH2_SFK_2 LIG_SH2_SFK_CTail_3 LIG_SH2_STAT3 LIG_SH2_STAT5 LIG_SH2_STAT6 LIG_SH3_1 LIG_SH3_2 LIG_SH3_3 LIG_SH3_4 LIG_SH3_CIN85_PxpxPR_1 LIG_SH3_PxRPPK_7 LIG_SH3_PxxDY_5 LIG_SH3_PxxPPRxxK_8 LIG_SH3_PxxxRxxKP_6 LIG_SPRY_1 LIG_SUFU_1 LIG_SxIP_EBH_1 LIG_TPR LIG_TRAF2like_MATH_loPxQ_2 LIG_TRAF2like_MATH_shPxQ_1 LIG_TRAF3_MATH_PxP_3 LIG_TRAF4_MATH_1 LIG_TRAF6_MATH_1 LIG_TYR_ITAM LIG_TYR_ITIM LIG_TYR_ITSM LIG_UFM1_UFIM_1 LIG_VCP_SHPBox_1 LIG_VCP_VBM_3 LIG_VCP_VIM_2 LIG_Vh1_VBS_1 LIG_WH1 LIG_WRC_WIRS_1 LIG_WW_1 LIG_WW_2 LIG_WW_3 MOD_AAK1BIKe_LxxQxTG_1 MOD_CAAXbox MOD_CDC14_SPxK_1 MOD_CDK_SPK_2 MOD_CDK_SPxK_1 MOD_CDK_SPxxK_3 MOD_CK1_1 MOD_CK2_1 MOD_DYRK1A_RPxSP_1 MOD_GSK3_1 MOD_LATS_1 MOD_LOK_YxT_1 MOD_NEK2_1 MOD_NEK2_2 MOD_NMyristoyl MOD_PIKK_1 MOD_PK_1 MOD_PKA_1 MOD_PKA_2 MOD_PKB_1 MOD_PLK MOD_Plk_1 MOD_Plk_2-3 MOD_Plk_4 MOD_PRMT_GGRGG_1 MOD_ProDKin_1 MOD_SPalmitoyl_2 MOD_SPalmitoyl_4 MOD_TYR_CSK ELM:old_LIG_14-3-3_1 ELM:old_LIG_14-3-3_2 ELM:old_LIG_14-3-3_3 TRG_AP2beta_CARGO_1 TRG_Cilium_Arf4_1 TRG_Cilium_RVxP_2 TRG_DiLeu_BaEn_1 TRG_DiLeu_BaEn_2 TRG_DiLeu_BaEn_3 TRG_DiLeu_BaEn_4 TRG_DiLeu_BaLyEn_6 TRG_DiLeu_LyEn_5 TRG_ENDOCYTIC_2 TRG_ER_diArg_1 TRG_ER_diLys_1 TRG_ER_FFAT_1 TRG_ER_FFAT_2 TRG_Golgi_diPhe_1 TRG_LysEnd_APsAcLL_1 TRG_LysEnd_APsAcLL_3 TRG_LysEnd_GGAAcLL_1 TRG_LysEnd_GGAAcLL_2 TRG_NES_CRM1_1 TRG_NESrev_CRM1_2 TRG_PTS1 TRG_PTS2 )
Molecular Function:
Protein Serine/Threonine Kinase (also annotated in these classes: DOC_AGCK_PIF_1 DOC_AGCK_PIF_2 DOC_AGCK_PIF_3 DOC_MAPK_DCC_7 DOC_MAPK_HePTP_8 DOC_MAPK_MEF2A_6 MOD_AAK1BIKe_LxxQxTG_1 MOD_DYRK1A_RPxSP_1 MOD_GSK3_1 MOD_LOK_YxT_1 MOD_NEK2_1 MOD_NEK2_2 MOD_PIKK_1 )
Phosphorylase Kinase (also annotated in these classes: MOD_PK_1 )

o 9 Instances for MOD_TYR_DYR
(click table headers for sorting; Notes column: =Number of Switches, =Number of Interactions)

Acc., Gene-, Name	Start	End	Subsequence	Logic	#Ev.	Organism
Q09815 ppk5 PPK5_SCHPO	672	682	SCFYNEKVYTYLQSRFYRAP	TP	1	Schizosaccharomyces pombe (Fission yeast)
Q09690 pom1 POM1_SCHPO	853	863	SCFEGECVYTYIQSRFYRSP	TP	1	Schizosaccharomyces pombe (Fission yeast)
Q13627 DYRK1A DYR1A_HUMAN	315	325	SCQLGQRIYQYIQSRFYRSP	TP	1	Homo sapiens (Human)
Q61214 Dyrk1a DYR1A_MOUSE	315	325	SCQLGQRIYQYIQSRFYRSP	TP	1	Mus musculus (House mouse)
P83102 Dyrk3 DYRK3_DROME	430	440	SCFENQRIYTYIQSRFYRAP	TP	1	Drosophila melanogaster (Fruit fly)
Q9Y463 DYRK1B DYR1B_HUMAN	267	277	SCQLGQRIYQYIQSRFYRSP	TP	1	Homo sapiens (Human)
Q9Z188 Dyrk1b DYR1B_MOUSE	267	277	SCQLGQRIYQYIQSRFYRSP	TP	1	Mus musculus (House mouse)
Q63470 Dyrk1a DYR1A_RAT	315	325	SCQLGQRIYQYIQSRFYRSP	TP	2	Rattus norvegicus (Norway rat)
P14680 YAK1 YAK1_YEAST	524	534	SCEEARTVYTYIQSRFYRAP	TP	3	Saccharomyces cerevisiae (Baker"s yeast)

Please cite: ELM-the Eukaryotic Linear Motif resource-2024 update. (PMID:37962385)

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