cgd8_4910 | Exonuclease, RNase T/DNA polymerase III

  • Computed_GO_Component_IDs:        

  • Computed_GO_Components:        

  • Computed_GO_Function_IDs:  GO:0005515      

  • Computed_GO_Functions:  protein binding      

  • Computed_GO_Process_IDs:        

  • Computed_GO_Processes:        

  • Curated_GO_Component_IDs:        

  • Curated_GO_Components:        

  • Curated_GO_Function_IDs:        

  • Curated_GO_Functions:        

  • Curated_GO_Processes:        

_IDPredictionOTHERSPmTPCS_Position
cgd8_4910OTHER0.9999240.0000450.000031
No Results

  • Fasta :-

    >cgd8_4910 MQNRLLYSEGDYEDSFLSGVVGLDTGSNGSGNSSRRANQGGAAGGTESGGIGLYDSRISN KGGAYYSSEINHGLTSMSGGRSSVGYYDHFGGVGSGHLDSGLGALGADLRVGQAPWGWET YTSYNMIGLFSSHTNNKKIRPFISSIYCDPFYELLWLGWTNGFLSSFRFPHCSRYTAFPV GIADSASGGGLVRDNVIYMGFPSSSHLYTVTNSGIGVYSRGGAPISSHSYNTLTNEKQQS SKILCCDSNRYQSYMMSSHPIIGIGTGKGVSILDLQQVRPIHSIPYSGSISCIKSSASSS SFIVGGVNMLGIADTRLPRLGHTIQIHPTNSGQNETLVSGLAVNEYTVAIITSTISNRKI SSDELLSSVGGVCGLPVLDLIRIHPGEVSTSPEMMVYKKNLDLTNMMRDSVVRLYDTRKF RPRKNISFSPGPINIAWSDNSLAISAGTATTPDFEDLYVIGNNGQWQIYHSNIDQMEFYA TPSVPLSNLNFSSSSNYLILADTSGSIHTMQRPHTNGGITSSSSIQPNTSSNTNISTSNT KLEQQQITGSGISGGGVGGGMGSSSAYNHQNHQHSFSVFHSYPLPNLNIPGASIGGGYNR QMNTSLYNYSYVKSIQTLMGIASNPVTKPITHNVGHPTIPNLTVALRYLQGRPVVAYDSL NSVGIPPILEKLHNGKLNIKEDNLLSFNNKFDIDQIRKIQTEFGWNTYKSSDELPHGLTI VKARTIPRQTDSSLGLNISTSNLPGPQNSAIRSPPNVGDMQGLVHAMGGINKQSGIQSNT REHNEGGEARHGHSSGALAFSVEYIREVRPEMDHYKLKALDFRMVDFIKAAINPDTTKYR NNNLVYGIPLLCLRGSMPIWYYRKKKNMSLYAFGGTQGSSGEHSHTKSLSLVPVKFHYKP RLNPNRREKMKNRRMMGGGTSIENSTAGTSGQGVAHTAGALGNMSTSSSLPNGGDAQTVS RAEDDQSSIGEGLVSIEFDNDTLDFTQPFFMLLSFIPKLSYDILLAHVPGCTSEFCLACE LVHLTFMLYSCKFNLKNGKGRNPDLFPCVILNSIYTLNMLRTVRHIPEIKQLGIDSEDSQ QSLVGAPGIGGGSVNSNGSLGGTGVGELKFGGVGSGVGSGSPTGGFDDINFNGMSLLSHL PQAAFNQIRKTEIFWKFFLENLKVDMMNKTNFNPNTERIIDEQETSTPGQFGGTNENCIF EKLIDSLFNIEVTTISSCVQAKHAFKSTQIVTYLDIPANHLLAQNSMPIGQKLDTSSKMG QKDDLILSQKLKSEKFLKALNSNLLRIIAGRSFCKECGTSTACQHVRCITKLPQLLVLSC NIQSLKHWNEYGGMSPEEHEEFVKKSQGISGSGSGTNHEQLPNTEYSIPFDIRFSKLRKG FSSQNGRATGETSGGIDIIQVDKTTVFTEGSIGHNGERDKESKLDNENPNMGGNYQEYEL VALIFGVYQGCSIQLPSGTHFCMYVKHKLLFNEMNNTQDKWYMINGSSILPVNNKNEIIN FTSCWKLPTFLFYSDKKGNLLNYLFNKYPCLEFQLDLAQSDLDLLVRKVSGTDNDDEECI DQENEKDSLSKDKVIPDQSPDNNSETNTNLESSHLTQNISEMDILDIHGIKFKIPWKYPK IIHEHVIQQLESIIKLIKNEKNLSENPDPSQINDQSPFTTRELSNLCLNYFVRYPFSKGL LKKPKEINERFINTPSHSEFIQNSPMIVALDSEYVALDVEQSVVRSDGTKEILKKSQLSL ARVSIVRCGKISLTGANDNVEIDNKKGLIMDHYVSYGSNSQQPRDYLTKYSGVRPGDLDP KTSSHFLTSKSCILKKLQFLVDAGVVFIGHALPSDFKIINIYVPPFQIIDTVEIYRLPDE RYISLKFLAKFVLNKNIQTEVHDSIVDAKTALELFLKHLSLKKSGSWNDFLSFLYSKGHS VDWKIEAIENSNFEHN
  • Download Fasta
  • MitoProt II - v1.101 File : /home/rajan/sadaf/4480_mitoprot/test/cgd8_4910.fa Sequence name : cgd8_4910 Sequence length : 1936 VALUES OF COMPUTED PARAMETERS Coef20 : 3.298 CoefTot : 0.045 ChDiff : -5 ZoneTo : 8 KR : 1 DE : 0 CleavSite : 0 HYDROPHOBIC SCALE USED GES KD GVH1 ECS H17 : 1.476 1.806 0.326 0.635 MesoH : 0.205 0.678 -0.160 0.332 MuHd_075 : 31.154 17.312 7.137 6.537 MuHd_095 : 14.498 14.004 2.871 4.535 MuHd_100 : 17.717 12.160 3.215 4.738 MuHd_105 : 16.693 7.654 2.751 3.912 Hmax_075 : 1.633 5.600 -1.027 2.613 Hmax_095 : -1.900 4.900 -2.187 2.459 Hmax_100 : 2.200 3.700 -1.880 2.170 Hmax_105 : -3.150 3.500 -3.030 2.753 CLASS NOT-MITO MITO(/CHLORO) DFM : 0.9427 0.0573 DFMC : 0.9424 0.0576
  • ##### ProP v.1.0b ProPeptide Cleavage Site Prediction ##### ##### Furin-type cleavage site prediction (Arginine/Lysine residues) ##### 1936 cgd8_4910 MQNRLLYSEGDYEDSFLSGVVGLDTGSNGSGNSSRRANQGGAAGGTESGGIGLYDSRISNKGGAYYSSEINHGLTSMSGG 80 RSSVGYYDHFGGVGSGHLDSGLGALGADLRVGQAPWGWETYTSYNMIGLFSSHTNNKKIRPFISSIYCDPFYELLWLGWT 160 NGFLSSFRFPHCSRYTAFPVGIADSASGGGLVRDNVIYMGFPSSSHLYTVTNSGIGVYSRGGAPISSHSYNTLTNEKQQS 240 SKILCCDSNRYQSYMMSSHPIIGIGTGKGVSILDLQQVRPIHSIPYSGSISCIKSSASSSSFIVGGVNMLGIADTRLPRL 320 GHTIQIHPTNSGQNETLVSGLAVNEYTVAIITSTISNRKISSDELLSSVGGVCGLPVLDLIRIHPGEVSTSPEMMVYKKN 400 LDLTNMMRDSVVRLYDTRKFRPRKNISFSPGPINIAWSDNSLAISAGTATTPDFEDLYVIGNNGQWQIYHSNIDQMEFYA 480 TPSVPLSNLNFSSSSNYLILADTSGSIHTMQRPHTNGGITSSSSIQPNTSSNTNISTSNTKLEQQQITGSGISGGGVGGG 560 MGSSSAYNHQNHQHSFSVFHSYPLPNLNIPGASIGGGYNRQMNTSLYNYSYVKSIQTLMGIASNPVTKPITHNVGHPTIP 640 NLTVALRYLQGRPVVAYDSLNSVGIPPILEKLHNGKLNIKEDNLLSFNNKFDIDQIRKIQTEFGWNTYKSSDELPHGLTI 720 VKARTIPRQTDSSLGLNISTSNLPGPQNSAIRSPPNVGDMQGLVHAMGGINKQSGIQSNTREHNEGGEARHGHSSGALAF 800 SVEYIREVRPEMDHYKLKALDFRMVDFIKAAINPDTTKYRNNNLVYGIPLLCLRGSMPIWYYRKKKNMSLYAFGGTQGSS 880 GEHSHTKSLSLVPVKFHYKPRLNPNRREKMKNRRMMGGGTSIENSTAGTSGQGVAHTAGALGNMSTSSSLPNGGDAQTVS 960 RAEDDQSSIGEGLVSIEFDNDTLDFTQPFFMLLSFIPKLSYDILLAHVPGCTSEFCLACELVHLTFMLYSCKFNLKNGKG 1040 RNPDLFPCVILNSIYTLNMLRTVRHIPEIKQLGIDSEDSQQSLVGAPGIGGGSVNSNGSLGGTGVGELKFGGVGSGVGSG 1120 SPTGGFDDINFNGMSLLSHLPQAAFNQIRKTEIFWKFFLENLKVDMMNKTNFNPNTERIIDEQETSTPGQFGGTNENCIF 1200 EKLIDSLFNIEVTTISSCVQAKHAFKSTQIVTYLDIPANHLLAQNSMPIGQKLDTSSKMGQKDDLILSQKLKSEKFLKAL 1280 NSNLLRIIAGRSFCKECGTSTACQHVRCITKLPQLLVLSCNIQSLKHWNEYGGMSPEEHEEFVKKSQGISGSGSGTNHEQ 1360 LPNTEYSIPFDIRFSKLRKGFSSQNGRATGETSGGIDIIQVDKTTVFTEGSIGHNGERDKESKLDNENPNMGGNYQEYEL 1440 VALIFGVYQGCSIQLPSGTHFCMYVKHKLLFNEMNNTQDKWYMINGSSILPVNNKNEIINFTSCWKLPTFLFYSDKKGNL 1520 LNYLFNKYPCLEFQLDLAQSDLDLLVRKVSGTDNDDEECIDQENEKDSLSKDKVIPDQSPDNNSETNTNLESSHLTQNIS 1600 EMDILDIHGIKFKIPWKYPKIIHEHVIQQLESIIKLIKNEKNLSENPDPSQINDQSPFTTRELSNLCLNYFVRYPFSKGL 1680 LKKPKEINERFINTPSHSEFIQNSPMIVALDSEYVALDVEQSVVRSDGTKEILKKSQLSLARVSIVRCGKISLTGANDNV 1760 EIDNKKGLIMDHYVSYGSNSQQPRDYLTKYSGVRPGDLDPKTSSHFLTSKSCILKKLQFLVDAGVVFIGHALPSDFKIIN 1840 IYVPPFQIIDTVEIYRLPDERYISLKFLAKFVLNKNIQTEVHDSIVDAKTALELFLKHLSLKKSGSWNDFLSFLYSKGHS 1920 VDWKIEAIENSNFEHN 2000 ................................................................................ 80 ................................................................................ 160 ................................................................................ 240 ................................................................................ 320 ................................................................................ 400 ................................................................................ 480 ................................................................................ 560 ................................................................................ 640 ................................................................................ 720 ................................................................................ 800 ................................................................................ 880 ................................................................................ 960 ................................................................................ 1040 ................................................................................ 1120 ................................................................................ 1200 ................................................................................ 1280 ................................................................................ 1360 ................................................................................ 1440 ................................................................................ 1520 ................................................................................ 1600 ................................................................................ 1680 ................................................................................ 1760 ................................................................................ 1840 ................................................................................ 1920 ................ 2000 Propeptide cleavage sites predicted: Arg(R)/Lys(K): 0 Name Pos Context Score Pred ____________________________v_________________ cgd8_4910 4 ---MQNR|LL 0.094 . cgd8_4910 35 GSGNSSR|RA 0.168 . cgd8_4910 36 SGNSSRR|AN 0.213 . cgd8_4910 57 IGLYDSR|IS 0.079 . cgd8_4910 61 DSRISNK|GG 0.062 . cgd8_4910 81 TSMSGGR|SS 0.142 . cgd8_4910 110 ALGADLR|VG 0.069 . cgd8_4910 137 SSHTNNK|KI 0.079 . cgd8_4910 138 SHTNNKK|IR 0.072 . cgd8_4910 140 TNNKKIR|PF 0.144 . cgd8_4910 168 GFLSSFR|FP 0.090 . cgd8_4910 174 RFPHCSR|YT 0.082 . cgd8_4910 193 SGGGLVR|DN 0.092 . cgd8_4910 220 GIGVYSR|GG 0.091 . cgd8_4910 237 NTLTNEK|QQ 0.057 . cgd8_4910 242 EKQQSSK|IL 0.063 . cgd8_4910 250 LCCDSNR|YQ 0.097 . cgd8_4910 268 IGIGTGK|GV 0.089 . cgd8_4910 279 LDLQQVR|PI 0.089 . cgd8_4910 294 GSISCIK|SS 0.070 . cgd8_4910 316 LGIADTR|LP 0.070 . cgd8_4910 319 ADTRLPR|LG 0.190 . cgd8_4910 358 TSTISNR|KI 0.111 . cgd8_4910 359 STISNRK|IS 0.093 . cgd8_4910 382 PVLDLIR|IH 0.071 . cgd8_4910 398 PEMMVYK|KN 0.070 . cgd8_4910 399 EMMVYKK|NL 0.100 . cgd8_4910 408 DLTNMMR|DS 0.083 . cgd8_4910 413 MRDSVVR|LY 0.090 . cgd8_4910 418 VRLYDTR|KF 0.079 . cgd8_4910 419 RLYDTRK|FR 0.081 . cgd8_4910 421 YDTRKFR|PR 0.196 . cgd8_4910 423 TRKFRPR|KN 0.106 . cgd8_4910 424 RKFRPRK|NI 0.299 . cgd8_4910 512 SIHTMQR|PH 0.112 . cgd8_4910 541 ISTSNTK|LE 0.063 . cgd8_4910 600 IGGGYNR|QM 0.097 . cgd8_4910 613 YNYSYVK|SI 0.077 . cgd8_4910 628 ASNPVTK|PI 0.085 . cgd8_4910 647 NLTVALR|YL 0.081 . cgd8_4910 652 LRYLQGR|PV 0.132 . cgd8_4910 671 IPPILEK|LH 0.062 . cgd8_4910 676 EKLHNGK|LN 0.063 . cgd8_4910 680 NGKLNIK|ED 0.054 . cgd8_4910 690 LLSFNNK|FD 0.088 . cgd8_4910 697 FDIDQIR|KI 0.108 . cgd8_4910 698 DIDQIRK|IQ 0.066 . cgd8_4910 709 FGWNTYK|SS 0.084 . cgd8_4910 722 HGLTIVK|AR 0.056 . cgd8_4910 724 LTIVKAR|TI 0.145 . cgd8_4910 728 KARTIPR|QT 0.125 . cgd8_4910 752 PQNSAIR|SP 0.147 . cgd8_4910 772 AMGGINK|QS 0.071 . cgd8_4910 781 GIQSNTR|EH 0.095 . cgd8_4910 790 NEGGEAR|HG 0.113 . cgd8_4910 806 FSVEYIR|EV 0.107 . cgd8_4910 809 EYIREVR|PE 0.149 . cgd8_4910 816 PEMDHYK|LK 0.064 . cgd8_4910 818 MDHYKLK|AL 0.080 . cgd8_4910 823 LKALDFR|MV 0.155 . cgd8_4910 829 RMVDFIK|AA 0.070 . cgd8_4910 838 INPDTTK|YR 0.063 . cgd8_4910 840 PDTTKYR|NN 0.086 . cgd8_4910 854 IPLLCLR|GS 0.078 . cgd8_4910 863 MPIWYYR|KK 0.077 . cgd8_4910 864 PIWYYRK|KK 0.075 . cgd8_4910 865 IWYYRKK|KN 0.088 . cgd8_4910 866 WYYRKKK|NM 0.329 . cgd8_4910 887 GEHSHTK|SL 0.111 . cgd8_4910 895 LSLVPVK|FH 0.062 . cgd8_4910 899 PVKFHYK|PR 0.054 . cgd8_4910 901 KFHYKPR|LN 0.094 . cgd8_4910 906 PRLNPNR|RE 0.080 . cgd8_4910 907 RLNPNRR|EK 0.230 . cgd8_4910 909 NPNRREK|MK 0.163 . cgd8_4910 911 NRREKMK|NR 0.084 . cgd8_4910 913 REKMKNR|RM 0.131 . cgd8_4910 914 EKMKNRR|MM 0.299 . cgd8_4910 961 DAQTVSR|AE 0.098 . cgd8_4910 998 LLSFIPK|LS 0.078 . cgd8_4910 1032 FMLYSCK|FN 0.065 . cgd8_4910 1036 SCKFNLK|NG 0.057 . cgd8_4910 1039 FNLKNGK|GR 0.062 . cgd8_4910 1041 LKNGKGR|NP 0.104 . cgd8_4910 1061 YTLNMLR|TV 0.087 . cgd8_4910 1064 NMLRTVR|HI 0.177 . cgd8_4910 1070 RHIPEIK|QL 0.067 . cgd8_4910 1109 TGVGELK|FG 0.069 . cgd8_4910 1149 AAFNQIR|KT 0.101 . cgd8_4910 1150 AFNQIRK|TE 0.066 . cgd8_4910 1156 KTEIFWK|FF 0.068 . cgd8_4910 1163 FFLENLK|VD 0.051 . cgd8_4910 1169 KVDMMNK|TN 0.056 . cgd8_4910 1178 FNPNTER|II 0.128 . cgd8_4910 1202 ENCIFEK|LI 0.071 . cgd8_4910 1222 SSCVQAK|HA 0.112 . cgd8_4910 1226 QAKHAFK|ST 0.085 . cgd8_4910 1252 SMPIGQK|LD 0.058 . cgd8_4910 1258 KLDTSSK|MG 0.057 . cgd8_4910 1262 SSKMGQK|DD 0.059 . cgd8_4910 1270 DLILSQK|LK 0.061 . cgd8_4910 1272 ILSQKLK|SE 0.074 . cgd8_4910 1275 QKLKSEK|FL 0.069 . cgd8_4910 1278 KSEKFLK|AL 0.069 . cgd8_4910 1286 LNSNLLR|II 0.087 . cgd8_4910 1291 LRIIAGR|SF 0.192 . cgd8_4910 1295 AGRSFCK|EC 0.076 . cgd8_4910 1307 TACQHVR|CI 0.119 . cgd8_4910 1311 HVRCITK|LP 0.056 . cgd8_4910 1326 CNIQSLK|HW 0.072 . cgd8_4910 1344 EHEEFVK|KS 0.060 . cgd8_4910 1345 HEEFVKK|SQ 0.240 . cgd8_4910 1373 SIPFDIR|FS 0.077 . cgd8_4910 1376 FDIRFSK|LR 0.089 . cgd8_4910 1378 IRFSKLR|KG 0.103 . cgd8_4910 1379 RFSKLRK|GF 0.116 . cgd8_4910 1387 FSSQNGR|AT 0.136 . cgd8_4910 1403 DIIQVDK|TT 0.059 . cgd8_4910 1418 IGHNGER|DK 0.127 . cgd8_4910 1420 HNGERDK|ES 0.058 . cgd8_4910 1423 ERDKESK|LD 0.066 . cgd8_4910 1466 HFCMYVK|HK 0.056 . cgd8_4910 1468 CMYVKHK|LL 0.076 . cgd8_4910 1480 MNNTQDK|WY 0.080 . cgd8_4910 1495 ILPVNNK|NE 0.059 . cgd8_4910 1506 NFTSCWK|LP 0.051 . cgd8_4910 1516 FLFYSDK|KG 0.056 . cgd8_4910 1517 LFYSDKK|GN 0.072 . cgd8_4910 1527 LNYLFNK|YP 0.064 . cgd8_4910 1547 DLDLLVR|KV 0.093 . cgd8_4910 1548 LDLLVRK|VS 0.088 . cgd8_4910 1566 IDQENEK|DS 0.067 . cgd8_4910 1571 EKDSLSK|DK 0.062 . cgd8_4910 1573 DSLSKDK|VI 0.067 . cgd8_4910 1611 LDIHGIK|FK 0.061 . cgd8_4910 1613 IHGIKFK|IP 0.068 . cgd8_4910 1617 KFKIPWK|YP 0.064 . cgd8_4910 1620 IPWKYPK|II 0.087 . cgd8_4910 1635 QLESIIK|LI 0.059 . cgd8_4910 1638 SIIKLIK|NE 0.053 . cgd8_4910 1641 KLIKNEK|NL 0.065 . cgd8_4910 1661 QSPFTTR|EL 0.087 . cgd8_4910 1673 CLNYFVR|YP 0.103 . cgd8_4910 1678 VRYPFSK|GL 0.077 . cgd8_4910 1682 FSKGLLK|KP 0.056 . cgd8_4910 1683 SKGLLKK|PK 0.154 . cgd8_4910 1685 GLLKKPK|EI 0.073 . cgd8_4910 1690 PKEINER|FI 0.099 . cgd8_4910 1725 VEQSVVR|SD 0.164 . cgd8_4910 1730 VRSDGTK|EI 0.069 . cgd8_4910 1734 GTKEILK|KS 0.055 . cgd8_4910 1735 TKEILKK|SQ 0.117 . cgd8_4910 1742 SQLSLAR|VS 0.069 . cgd8_4910 1747 ARVSIVR|CG 0.088 . cgd8_4910 1750 SIVRCGK|IS 0.121 . cgd8_4910 1765 NVEIDNK|KG 0.054 . cgd8_4910 1766 VEIDNKK|GL 0.084 . cgd8_4910 1784 SNSQQPR|DY 0.189 . cgd8_4910 1789 PRDYLTK|YS 0.077 . cgd8_4910 1794 TKYSGVR|PG 0.082 . cgd8_4910 1801 PGDLDPK|TS 0.065 . cgd8_4910 1810 SHFLTSK|SC 0.075 . cgd8_4910 1815 SKSCILK|KL 0.069 . cgd8_4910 1816 KSCILKK|LQ 0.095 . cgd8_4910 1837 ALPSDFK|II 0.060 . cgd8_4910 1856 DTVEIYR|LP 0.067 . cgd8_4910 1861 YRLPDER|YI 0.108 . cgd8_4910 1866 ERYISLK|FL 0.076 . cgd8_4910 1870 SLKFLAK|FV 0.084 . cgd8_4910 1875 AKFVLNK|NI 0.073 . cgd8_4910 1889 DSIVDAK|TA 0.065 . cgd8_4910 1897 ALELFLK|HL 0.065 . cgd8_4910 1902 LKHLSLK|KS 0.073 . cgd8_4910 1903 KHLSLKK|SG 0.107 . cgd8_4910 1917 LSFLYSK|GH 0.062 . cgd8_4910 1924 GHSVDWK|IE 0.073 . ____________________________^_________________

  • Fasta :-

    >cgd8_4910 GTTATTTGATTTAGGAAATATATTAGAATATCTCAATACAGTTTCTGAGGAAGTTTATGC ATTCAGAAAGTAGAAAAATATATGTATAAACATTGTGGGAACTTAATCAGAATTGAAAGA CTCTGTAAAGTTCTTAGAGGGAGTAGATGAAAATTAATCTAACAATTCAAGAAGTTGATA AGAGCCTGGGAAAAAGGTAATGCAGTCCTGTGGGAAAAGATTAGATAGTCTGGAAGAAAA GATACATGCAGAACAGGCTATTATATTCAGAAGGAGACTATGAGGACTCTTTTTTAAGCG GAGTTGTTGGTCTAGATACCGGATCAAATGGTTCAGGCAATTCTTCTAGAAGAGCTAATC AAGGAGGAGCAGCAGGGGGAACTGAATCAGGAGGGATTGGACTTTATGACAGTAGAATTT CTAATAAAGGCGGCGCATATTATTCTTCAGAAATTAATCATGGATTAACAAGTATGAGTG GTGGTAGATCATCTGTTGGCTATTATGATCATTTTGGTGGGGTTGGATCGGGACATTTGG ATAGTGGCTTAGGGGCTTTAGGAGCAGACTTGAGAGTTGGACAAGCTCCATGGGGATGGG AAACATATACGAGTTATAATATGATTGGCTTGTTTTCTTCCCATACTAATAATAAGAAAA TTAGGCCTTTTATTTCTTCAATTTATTGTGATCCATTTTATGAGCTCCTTTGGCTTGGTT GGACAAATGGATTTCTGAGTTCATTCAGATTTCCCCATTGTAGTAGATATACAGCATTTC CAGTAGGAATAGCTGATTCTGCAAGTGGGGGTGGACTTGTCAGAGATAATGTGATTTACA TGGGATTTCCATCATCTTCGCACTTATATACAGTGACTAATAGTGGAATAGGTGTCTATT CCAGAGGAGGAGCACCAATATCTTCTCATTCATATAATACACTAACCAATGAAAAGCAAC AAAGCTCAAAAATACTGTGCTGTGATTCAAATAGATATCAGTCTTATATGATGAGTAGTC ATCCAATCATTGGTATTGGAACAGGAAAAGGTGTGTCAATCCTAGATTTACAGCAAGTAC GACCAATTCACAGTATTCCATATAGTGGAAGTATTAGCTGTATTAAAAGCTCAGCAAGTT CCTCAAGTTTTATTGTTGGAGGAGTAAATATGCTTGGAATTGCTGATACAAGACTTCCAA GATTAGGACATACTATTCAGATACATCCTACTAATTCAGGACAAAATGAGACATTGGTTT CAGGATTAGCAGTTAATGAATACACAGTAGCAATAATTACCAGTACAATCTCAAATAGGA AGATATCGTCGGATGAACTTTTAAGTTCTGTTGGAGGAGTTTGTGGACTTCCTGTGCTTG ATTTAATTAGAATCCATCCTGGAGAAGTTTCTACTTCACCAGAAATGATGGTTTATAAGA AGAACTTAGATTTGACAAACATGATGAGGGATTCTGTAGTTAGATTATATGATACCAGAA AATTCAGACCAAGGAAAAATATCTCATTTTCTCCAGGACCAATAAACATTGCTTGGAGTG ATAATTCACTGGCCATTTCAGCAGGAACTGCTACTACACCTGATTTTGAGGATTTATACG TTATTGGAAATAATGGACAGTGGCAAATTTACCACTCTAATATAGACCAAATGGAATTCT ATGCTACTCCATCTGTTCCTTTATCAAATCTTAATTTTAGCTCGTCTAGCAATTACCTAA TATTGGCTGATACTTCTGGGTCAATCCACACCATGCAGAGGCCTCATACAAATGGAGGAA TAACTTCCTCATCTTCAATTCAACCAAATACTTCATCAAACACGAATATTAGTACAAGCA ACACAAAACTAGAACAGCAACAAATCACAGGTTCAGGAATTTCTGGAGGTGGTGTTGGTG GAGGAATGGGTTCAAGTTCGGCTTATAATCACCAAAATCATCAACACTCTTTTAGTGTCT TCCATTCTTATCCTCTTCCTAATTTAAATATACCGGGAGCAAGCATTGGAGGAGGTTACA ACAGACAAATGAATACTTCTCTATATAATTACTCATATGTGAAGTCAATTCAAACTCTAA TGGGAATTGCCTCCAATCCTGTAACTAAGCCTATCACTCATAATGTTGGACACCCAACAA TACCTAACCTTACAGTCGCACTCAGATATCTTCAAGGACGTCCTGTTGTTGCTTACGATT CTCTAAATTCAGTTGGAATTCCTCCTATTCTTGAGAAACTACATAATGGAAAGCTTAATA TTAAAGAAGATAACCTACTTAGCTTTAACAACAAGTTTGATATTGACCAAATTCGTAAAA TTCAAACAGAATTTGGTTGGAATACCTACAAATCATCTGATGAGCTCCCACACGGACTTA CTATAGTTAAAGCTAGAACAATTCCCCGACAAACAGATTCTTCACTTGGTCTCAATATTA GCACATCCAATCTCCCTGGACCTCAGAACTCTGCCATAAGGAGCCCGCCTAACGTGGGAG ACATGCAAGGTTTAGTGCATGCAATGGGGGGCATTAATAAGCAGAGTGGAATTCAGTCAA ACACGAGGGAACACAATGAAGGTGGAGAGGCCCGACATGGTCACTCTAGCGGAGCTTTGG CATTTTCTGTGGAGTATATCCGTGAAGTTCGACCAGAGATGGACCATTATAAACTAAAAG CATTGGATTTTAGAATGGTTGACTTTATAAAGGCTGCTATTAACCCTGATACGACTAAAT ACAGAAACAATAACTTGGTTTATGGTATCCCTCTCCTTTGTCTTAGAGGTTCTATGCCAA TTTGGTACTATCGCAAGAAGAAGAATATGTCTCTTTATGCATTTGGAGGTACTCAAGGCT CTTCAGGTGAACATTCTCACACAAAAAGCCTTTCCTTAGTCCCCGTTAAATTCCATTATA AACCAAGATTGAACCCGAATAGGCGGGAAAAAATGAAGAACAGAAGGATGATGGGTGGAG GAACTTCAATTGAGAATTCAACTGCAGGAACTTCGGGCCAAGGTGTCGCTCATACAGCAG GAGCTTTGGGAAATATGAGTACTAGCTCATCCCTTCCAAATGGAGGGGATGCTCAGACAG TTTCGAGAGCAGAGGATGATCAATCTTCAATTGGAGAAGGTCTGGTTTCAATAGAATTTG ATAACGATACTTTGGACTTTACTCAGCCATTCTTTATGTTACTTTCTTTTATTCCAAAGC TTTCATATGACATCCTTCTTGCTCATGTACCAGGCTGTACCTCAGAATTTTGTCTTGCTT GTGAGCTTGTTCATCTAACATTTATGTTGTACAGTTGCAAGTTTAATTTAAAGAATGGAA AAGGACGAAATCCCGACTTATTTCCATGCGTAATACTCAATTCAATCTATACATTAAACA TGTTAAGAACTGTTAGGCATATACCAGAAATAAAACAGCTTGGGATAGATTCCGAGGATA GTCAACAAAGTCTAGTAGGGGCTCCTGGAATTGGAGGAGGATCTGTGAATAGTAATGGCT CTTTGGGAGGTACTGGGGTTGGGGAATTAAAATTTGGAGGAGTTGGATCAGGAGTTGGAT CAGGAAGTCCAACTGGTGGATTCGATGATATTAACTTTAATGGAATGTCTTTATTGAGTC ACTTACCTCAAGCAGCTTTCAACCAGATTCGGAAGACCGAGATCTTTTGGAAGTTCTTCT TGGAGAATTTGAAAGTTGATATGATGAATAAAACAAATTTTAATCCAAATACTGAAAGGA TAATCGATGAGCAAGAAACAAGTACTCCTGGCCAGTTTGGAGGTACAAATGAGAATTGTA TTTTTGAAAAGTTGATAGATTCTCTTTTCAATATTGAGGTTACAACAATCAGTAGTTGTG TACAAGCTAAACACGCATTTAAATCAACGCAGATTGTCACGTATTTAGATATACCAGCAA ATCATTTATTAGCACAGAATTCTATGCCGATAGGCCAGAAGTTGGATACATCTTCCAAAA TGGGTCAGAAGGATGACCTAATTCTATCCCAGAAGCTGAAATCTGAGAAATTTTTGAAGG CCTTGAATTCTAACTTACTGAGGATCATTGCCGGAAGAAGCTTCTGTAAGGAATGTGGAA CTTCAACTGCTTGTCAGCATGTTAGATGTATCACAAAGCTCCCTCAGCTTCTTGTTCTTT CTTGCAATATCCAGTCACTAAAACACTGGAATGAATATGGAGGTATGTCTCCTGAAGAAC ATGAAGAATTTGTCAAAAAGAGCCAGGGAATAAGTGGAAGTGGCTCTGGAACCAACCACG AACAACTTCCAAATACAGAATATTCAATACCTTTCGATATTCGATTCTCAAAGTTAAGAA AAGGGTTCAGTTCTCAGAATGGACGTGCCACTGGAGAGACATCAGGCGGAATAGATATTA TCCAGGTTGATAAGACTACTGTATTTACAGAGGGTAGTATTGGACATAATGGTGAACGAG ATAAAGAATCCAAGTTAGACAACGAAAATCCCAATATGGGAGGAAACTACCAAGAATATG AGTTAGTTGCATTGATATTTGGAGTTTATCAAGGTTGTTCAATTCAGCTTCCATCCGGTA CCCATTTTTGTATGTATGTTAAGCATAAGTTATTATTTAACGAAATGAATAATACACAAG ATAAATGGTACATGATCAATGGATCTTCAATTCTTCCAGTGAATAACAAGAACGAGATTA TTAATTTTACATCTTGTTGGAAACTTCCTACTTTCTTATTCTATTCAGACAAGAAAGGGA ATTTATTGAATTACTTATTCAATAAATATCCATGTTTAGAATTTCAACTTGATTTGGCCC AAAGTGACTTGGATCTTTTAGTAAGAAAGGTTTCTGGTACTGATAATGATGATGAAGAAT GCATTGATCAAGAAAATGAGAAAGATTCTCTTAGTAAAGACAAAGTAATACCTGATCAAA GCCCTGATAATAATTCAGAAACTAACACCAATCTTGAATCAAGTCATTTAACCCAGAATA TTTCTGAAATGGATATTTTAGATATTCATGGTATTAAATTTAAGATACCTTGGAAGTATC CAAAAATAATACATGAGCACGTAATACAACAATTGGAATCAATAATAAAGCTAATTAAGA ACGAAAAGAATCTTTCAGAAAATCCGGATCCAAGTCAGATCAATGATCAGTCTCCATTCA CAACTAGAGAACTTTCAAATCTTTGCTTAAATTACTTTGTAAGATATCCATTTTCTAAAG GACTTTTGAAGAAACCAAAAGAAATTAATGAAAGATTTATAAATACTCCTAGTCATTCAG AATTTATTCAAAATTCTCCAATGATTGTTGCACTGGATTCAGAGTATGTTGCTTTAGATG TTGAACAATCTGTTGTAAGATCTGATGGAACAAAAGAAATCTTGAAAAAATCTCAATTGT CTTTAGCAAGAGTTTCAATTGTACGTTGTGGAAAGATATCATTAACGGGAGCTAATGATA ATGTTGAAATTGATAACAAAAAAGGACTGATAATGGACCATTATGTATCTTACGGATCAA ATAGTCAGCAACCTAGAGATTATTTGACAAAATATTCAGGAGTGAGACCTGGAGATTTGG ATCCTAAAACTTCATCTCACTTTCTTACCAGTAAATCCTGTATACTTAAGAAACTTCAGT TCTTGGTAGATGCTGGTGTAGTATTTATTGGACACGCACTCCCAAGTGACTTTAAAATAA TTAATATTTATGTTCCTCCATTTCAAATTATTGATACTGTTGAGATTTACAGACTCCCTG ATGAAAGATATATCAGTCTTAAATTTTTGGCTAAATTTGTACTCAACAAGAATATCCAAA CTGAGGTCCATGATTCTATCGTTGATGCTAAAACTGCACTCGAGCTTTTCTTAAAGCACC TTTCTTTAAAGAAGAGCGGATCTTGGAATGATTTCCTTAGTTTCCTTTATTCAAAGGGTC ATTCTGTTGATTGGAAGATTGAAGCTATTGAAAACTCAAATTTTGAGCATAATTAAAACA AAGCATGTTATCGTCATTTAAAAATCCAATTCAGCCTGAGATTGGATTAAGTAGAATAAA GACACAATACAGGTTATGCTACGTTTTGTTTTAATAGGCTCAACAATTTAACTTATTTTT ATTACGATTCTTTACTCTAAATCATTAATTTTTGACTGGAAAATTGTCTCAAGCATAATT TAGTAGTCGTCATATTGGCT
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  • Fasta :-

    MQNRLLYSEGDYEDSFLSGVVGLDTGSNGSGNSSRRANQGGAAGGTESGGIGLYDSRISN KGGAYYSSEINHGLTSMSGGRSSVGYYDHFGGVGSGHLDSGLGALGADLRVGQAPWGWET YTSYNMIGLFSSHTNNKKIRPFISSIYCDPFYELLWLGWTNGFLSSFRFPHCSRYTAFPV GIADSASGGGLVRDNVIYMGFPSSSHLYTVTNSGIGVYSRGGAPISSHSYNTLTNEKQQS SKILCCDSNRYQSYMMSSHPIIGIGTGKGVSILDLQQVRPIHSIPYSGSISCIKSSASSS SFIVGGVNMLGIADTRLPRLGHTIQIHPTNSGQNETLVSGLAVNEYTVAIITSTISNRKI SSDELLSSVGGVCGLPVLDLIRIHPGEVSTSPEMMVYKKNLDLTNMMRDSVVRLYDTRKF RPRKNISFSPGPINIAWSDNSLAISAGTATTPDFEDLYVIGNNGQWQIYHSNIDQMEFYA TPSVPLSNLNFSSSSNYLILADTSGSIHTMQRPHTNGGITSSSSIQPNTSSNTNISTSNT KLEQQQITGSGISGGGVGGGMGSSSAYNHQNHQHSFSVFHSYPLPNLNIPGASIGGGYNR QMNTSLYNYSYVKSIQTLMGIASNPVTKPITHNVGHPTIPNLTVALRYLQGRPVVAYDSL NSVGIPPILEKLHNGKLNIKEDNLLSFNNKFDIDQIRKIQTEFGWNTYKSSDELPHGLTI VKARTIPRQTDSSLGLNISTSNLPGPQNSAIRSPPNVGDMQGLVHAMGGINKQSGIQSNT REHNEGGEARHGHSSGALAFSVEYIREVRPEMDHYKLKALDFRMVDFIKAAINPDTTKYR NNNLVYGIPLLCLRGSMPIWYYRKKKNMSLYAFGGTQGSSGEHSHTKSLSLVPVKFHYKP RLNPNRREKMKNRRMMGGGTSIENSTAGTSGQGVAHTAGALGNMSTSSSLPNGGDAQTVS RAEDDQSSIGEGLVSIEFDNDTLDFTQPFFMLLSFIPKLSYDILLAHVPGCTSEFCLACE LVHLTFMLYSCKFNLKNGKGRNPDLFPCVILNSIYTLNMLRTVRHIPEIKQLGIDSEDSQ QSLVGAPGIGGGSVNSNGSLGGTGVGELKFGGVGSGVGSGSPTGGFDDINFNGMSLLSHL PQAAFNQIRKTEIFWKFFLENLKVDMMNKTNFNPNTERIIDEQETSTPGQFGGTNENCIF EKLIDSLFNIEVTTISSCVQAKHAFKSTQIVTYLDIPANHLLAQNSMPIGQKLDTSSKMG QKDDLILSQKLKSEKFLKALNSNLLRIIAGRSFCKECGTSTACQHVRCITKLPQLLVLSC NIQSLKHWNEYGGMSPEEHEEFVKKSQGISGSGSGTNHEQLPNTEYSIPFDIRFSKLRKG FSSQNGRATGETSGGIDIIQVDKTTVFTEGSIGHNGERDKESKLDNENPNMGGNYQEYEL VALIFGVYQGCSIQLPSGTHFCMYVKHKLLFNEMNNTQDKWYMINGSSILPVNNKNEIIN FTSCWKLPTFLFYSDKKGNLLNYLFNKYPCLEFQLDLAQSDLDLLVRKVSGTDNDDEECI DQENEKDSLSKDKVIPDQSPDNNSETNTNLESSHLTQNISEMDILDIHGIKFKIPWKYPK IIHEHVIQQLESIIKLIKNEKNLSENPDPSQINDQSPFTTRELSNLCLNYFVRYPFSKGL LKKPKEINERFINTPSHSEFIQNSPMIVALDSEYVALDVEQSVVRSDGTKEILKKSQLSL ARVSIVRCGKISLTGANDNVEIDNKKGLIMDHYVSYGSNSQQPRDYLTKYSGVRPGDLDP KTSSHFLTSKSCILKKLQFLVDAGVVFIGHALPSDFKIINIYVPPFQIIDTVEIYRLPDE RYISLKFLAKFVLNKNIQTEVHDSIVDAKTALELFLKHLSLKKSGSWNDFLSFLYSKGHS VDWKIEAIENSNFEHN

    No Results
  • title: active site
  • coordinates: D1711,S1712,E1713,Y1714,A1716,L1787,S1791,H1830,A1831,P1833,S1834,D1835,H1882,D1887
No Results
No Results
IDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethod
cgd8_4910361 SNRKISSDEL0.995unspcgd8_4910361 SNRKISSDEL0.995unspcgd8_4910361 SNRKISSDEL0.995unspcgd8_4910391 SEVSTSPEMM0.996unspcgd8_4910458 YFEDLYVIGN0.99unspcgd8_49101273 SQKLKSEKFL0.996unspcgd8_49101335 SYGGMSPEEH0.998unspcgd8_49101422 SRDKESKLDN0.995unspcgd8_49101550 SVRKVSGTDN0.997unspcgd8_49101884 SEVHDSIVDA0.995unspcgd8_491012 YSEGDYEDSF0.991unspcgd8_491059 SDSRISNKGG0.996unsp

cgd8_4910      



Dinesh Gupta lab Translational bioinformatics group, ICGEB, New Delhi, India