TGME49_306330 | phospholipase

  • Computed_GO_Component_IDs:        

  • Computed_GO_Components:        

  • Computed_GO_Function_IDs:        

  • Computed_GO_Functions:        

  • 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
TGME49_306330OTHER0.9999700.0000240.000006
No Results

  • Fasta :-

    >TGME49_306330 MAPQETAPRTPATPSPAKVAKQREKEIAAAKEWYKNAGPVTQTEMRNPEGLVLHGHHWVV PNARAKVVLCHGYGMHARFDYLRHDPQNLKSPPVYEGSWVHKLNKAQCSVHCLDQQSFGL SEGHKGKKSHILDIEHLPRDTLQFLYEQVLPSQDPSLPIFICGVSLGGCITARVVELVGG GSASTKHNAVQASSNGALEKKPLPLRGAICMAPLFRMERLKKKNKHLLPLARALAALAPS LEVGKPAKNEMYPFFQDLIEVDPLCYTGKSRARLSNELLRVVDTVREQAPFFSFPDPAVK TKDSPLPYPFYVPETPSLLIVHSKNDTFVDPEGSVCVAATLGAKMDGSQETLEKYQAEYD NVVKSGKVVNHPDANLWLLDNMWHCLSKELPEGDLLMDRVIRDWLAPRIGADVNVKEVKE AKDEAPEQKEDGIKIPQPEEITERKEGESPSPEVDKAPRDAVPTASEAAPAHSEVEAPAV QSESTAPPAGEGSPAADVPARSEAEGKEQPVASPTHDESAAAEPQQATPAPQSQSATPQP GEPTNAAEQSVLAQTPEPDNRTSEEESAATAKRLSNQVAADE
  • Download Fasta
  • MitoProt II - v1.101 File : /home/rajan/sadaf/4480_mitoprot/test/TGME49_306330.fa Sequence name : TGME49_306330 Sequence length : 582 VALUES OF COMPUTED PARAMETERS Coef20 : 3.577 CoefTot : -0.947 ChDiff : -19 ZoneTo : 23 KR : 4 DE : 1 CleavSite : 11 HYDROPHOBIC SCALE USED GES KD GVH1 ECS H17 : 1.882 1.900 0.523 0.650 MesoH : -0.192 0.435 -0.222 0.233 MuHd_075 : 32.982 17.961 8.453 7.056 MuHd_095 : 19.099 11.013 5.659 4.537 MuHd_100 : 9.899 4.538 2.846 1.043 MuHd_105 : 21.227 11.245 6.597 2.919 Hmax_075 : 9.275 4.550 0.192 2.896 Hmax_095 : 5.800 2.200 -0.217 2.520 Hmax_100 : 6.400 -2.500 -0.617 1.330 Hmax_105 : 9.800 3.850 0.644 1.995 CLASS NOT-MITO MITO(/CHLORO) DFM : 0.7755 0.2245 DFMC : 0.8058 0.1942
  • ##### ProP v.1.0b ProPeptide Cleavage Site Prediction ##### ##### Furin-type cleavage site prediction (Arginine/Lysine residues) ##### 582 TGME49_306330 MAPQETAPRTPATPSPAKVAKQREKEIAAAKEWYKNAGPVTQTEMRNPEGLVLHGHHWVVPNARAKVVLCHGYGMHARFD 80 YLRHDPQNLKSPPVYEGSWVHKLNKAQCSVHCLDQQSFGLSEGHKGKKSHILDIEHLPRDTLQFLYEQVLPSQDPSLPIF 160 ICGVSLGGCITARVVELVGGGSASTKHNAVQASSNGALEKKPLPLRGAICMAPLFRMERLKKKNKHLLPLARALAALAPS 240 LEVGKPAKNEMYPFFQDLIEVDPLCYTGKSRARLSNELLRVVDTVREQAPFFSFPDPAVKTKDSPLPYPFYVPETPSLLI 320 VHSKNDTFVDPEGSVCVAATLGAKMDGSQETLEKYQAEYDNVVKSGKVVNHPDANLWLLDNMWHCLSKELPEGDLLMDRV 400 IRDWLAPRIGADVNVKEVKEAKDEAPEQKEDGIKIPQPEEITERKEGESPSPEVDKAPRDAVPTASEAAPAHSEVEAPAV 480 QSESTAPPAGEGSPAADVPARSEAEGKEQPVASPTHDESAAAEPQQATPAPQSQSATPQPGEPTNAAEQSVLAQTPEPDN 560 RTSEEESAATAKRLSNQVAADE 640 ................................................................................ 80 ................................................................................ 160 ................................................................................ 240 ................................................................................ 320 ................................................................................ 400 ................................................................................ 480 ................................................................................ 560 ...................... 640 Propeptide cleavage sites predicted: Arg(R)/Lys(K): 0 Name Pos Context Score Pred ____________________________v_________________ TGME49_306330 9 PQETAPR|TP 0.066 . TGME49_306330 18 ATPSPAK|VA 0.067 . TGME49_306330 21 SPAKVAK|QR 0.118 . TGME49_306330 23 AKVAKQR|EK 0.117 . TGME49_306330 25 VAKQREK|EI 0.073 . TGME49_306330 31 KEIAAAK|EW 0.066 . TGME49_306330 35 AAKEWYK|NA 0.093 . TGME49_306330 46 VTQTEMR|NP 0.085 . TGME49_306330 64 WVVPNAR|AK 0.084 . TGME49_306330 66 VPNARAK|VV 0.087 . TGME49_306330 78 GYGMHAR|FD 0.093 . TGME49_306330 83 ARFDYLR|HD 0.100 . TGME49_306330 90 HDPQNLK|SP 0.068 . TGME49_306330 102 EGSWVHK|LN 0.075 . TGME49_306330 105 WVHKLNK|AQ 0.062 . TGME49_306330 125 GLSEGHK|GK 0.070 . TGME49_306330 127 SEGHKGK|KS 0.073 . TGME49_306330 128 EGHKGKK|SH 0.119 . TGME49_306330 139 DIEHLPR|DT 0.106 . TGME49_306330 173 GGCITAR|VV 0.154 . TGME49_306330 186 GGSASTK|HN 0.078 . TGME49_306330 200 SNGALEK|KP 0.064 . TGME49_306330 201 NGALEKK|PL 0.081 . TGME49_306330 206 KKPLPLR|GA 0.090 . TGME49_306330 216 CMAPLFR|ME 0.077 . TGME49_306330 219 PLFRMER|LK 0.163 . TGME49_306330 221 FRMERLK|KK 0.068 . TGME49_306330 222 RMERLKK|KN 0.238 . TGME49_306330 223 MERLKKK|NK 0.096 . TGME49_306330 225 RLKKKNK|HL 0.068 . TGME49_306330 232 HLLPLAR|AL 0.102 . TGME49_306330 245 PSLEVGK|PA 0.064 . TGME49_306330 248 EVGKPAK|NE 0.061 . TGME49_306330 269 PLCYTGK|SR 0.070 . TGME49_306330 271 CYTGKSR|AR 0.072 . TGME49_306330 273 TGKSRAR|LS 0.096 . TGME49_306330 280 LSNELLR|VV 0.167 . TGME49_306330 286 RVVDTVR|EQ 0.072 . TGME49_306330 300 FPDPAVK|TK 0.059 . TGME49_306330 302 DPAVKTK|DS 0.074 . TGME49_306330 324 LLIVHSK|ND 0.068 . TGME49_306330 344 AATLGAK|MD 0.067 . TGME49_306330 354 SQETLEK|YQ 0.067 . TGME49_306330 364 EYDNVVK|SG 0.067 . TGME49_306330 367 NVVKSGK|VV 0.068 . TGME49_306330 388 MWHCLSK|EL 0.067 . TGME49_306330 399 GDLLMDR|VI 0.076 . TGME49_306330 402 LMDRVIR|DW 0.266 . TGME49_306330 408 RDWLAPR|IG 0.079 . TGME49_306330 416 GADVNVK|EV 0.071 . TGME49_306330 419 VNVKEVK|EA 0.075 . TGME49_306330 422 KEVKEAK|DE 0.077 . TGME49_306330 429 DEAPEQK|ED 0.086 . TGME49_306330 434 QKEDGIK|IP 0.066 . TGME49_306330 444 PEEITER|KE 0.086 . TGME49_306330 445 EEITERK|EG 0.069 . TGME49_306330 456 PSPEVDK|AP 0.077 . TGME49_306330 459 EVDKAPR|DA 0.102 . TGME49_306330 501 AADVPAR|SE 0.149 . TGME49_306330 507 RSEAEGK|EQ 0.066 . TGME49_306330 561 TPEPDNR|TS 0.097 . TGME49_306330 572 ESAATAK|RL 0.078 . TGME49_306330 573 SAATAKR|LS 0.235 . ____________________________^_________________

  • Fasta :-

    >TGME49_306330 GGTGTTTCCGGTTGTTGTGTCTTGGTTTCCTCGCTGCGAACTCACCAACGGCGTGCTGCA GCTCGGGGCACAACAGCAAACTGGGCGCGCGGTGGCTTGTACCCGCGGGTGTGAAATGTC GACTGTTTTCTGGCTTTCTTAGGTCATTTTTCTGCATTTTGTGTGGAGCACTTTTGTCCC TTCAGAACGTGTTTCTGGAAGAGTCGTGTTGGCACAGGAGGGGCAATAAATGTCGCTAAA GTGTCACCTACCTCAAGGGCCAACCTCCCCCCCCCCTCCGCTTCTTCCAGCAAGAATCGC TGTACAGCCACGCATGCGCTGGGGCTTGATTTGCACATCTGGCACATCTTTCCTGGAACC CGATTTGAGTGCCTGGCGCGGCGCTTTTTTCCCCACTTAGCAGTGCGTTAGTAGTTTCAC AAAAAAGCGCGTGCCTCTTTCCTTCTTCCTTCTGCGGAGAGCGTCAACTGCGCAATCAGG CATGCCAGGGACTTCGCTGACCATTTGCCCTCACCCGAGACCCCCGTTCAGCCCGCCGGT TCTGGGAGCCGCCAACACTTCTTTTGGTGTGAACCTCAAGCCCGATTGCTTGAAACTCTC CAAATCATTGTTTTCCACCTCTCTAATTCTCCGCGTCGGTCGTCGCAGTTTTTTTTATTC TAAGAAGCAGCAATGGCTCCGCAAGAAACCGCACCAAGAACACCCGCAACGCCTTCGCCG GCAAAGGTGGCGAAGCAGCGCGAAAAAGAGATTGCCGCGGCAAAGGAGTGGTACAAGAAC GCAGGTCCGGTGACTCAGACCGAAATGCGGAATCCCGAGGGTCTTGTGCTTCACGGCCAC CACTGGGTCGTTCCCAACGCTCGCGCAAAAGTAGTCCTGTGTCACGGGTACGGCATGCAC GCTCGCTTCGATTACCTTCGCCACGACCCTCAAAACCTCAAGAGCCCGCCTGTGTACGAA GGCTCTTGGGTGCACAAACTCAACAAGGCACAGTGCAGTGTGCACTGCCTCGACCAGCAG TCTTTTGGCCTGTCGGAGGGGCACAAGGGCAAAAAGAGTCACATTCTGGACATTGAGCAC CTGCCTCGGGACACTCTCCAGTTCCTCTACGAGCAAGTCCTCCCGAGCCAGGATCCCAGT CTCCCGATCTTCATCTGCGGTGTCTCTCTCGGAGGCTGTATCACGGCGCGCGTCGTCGAA CTCGTAGGAGGCGGCTCCGCCAGCACAAAACACAACGCAGTTCAGGCATCTAGCAACGGT GCGCTGGAAAAGAAACCTTTGCCACTGAGAGGAGCGATCTGCATGGCCCCCCTATTCCGC ATGGAGAGACTCAAGAAGAAGAATAAGCATTTGCTTCCCCTCGCACGGGCTCTCGCTGCG CTTGCACCCTCCCTCGAGGTGGGAAAGCCGGCGAAAAACGAAATGTATCCTTTCTTCCAA GACCTCATCGAAGTCGACCCCCTCTGCTACACGGGCAAGTCCAGAGCGCGACTGTCGAAC GAGTTGCTCCGCGTTGTGGACACAGTCCGGGAGCAGGCCCCTTTCTTTTCTTTCCCCGAC CCAGCTGTGAAAACGAAGGACTCTCCTCTGCCGTATCCTTTCTACGTCCCGGAGACCCCG TCCTTGCTGATCGTGCACTCGAAGAACGACACCTTCGTGGACCCGGAAGGCTCTGTCTGC GTCGCCGCCACGCTTGGCGCAAAGATGGACGGGAGCCAGGAGACCCTCGAGAAATATCAA GCCGAGTACGACAACGTGGTGAAGTCGGGAAAGGTGGTGAACCATCCAGACGCGAATCTG TGGCTTCTCGACAACATGTGGCACTGCCTCTCGAAGGAACTGCCCGAAGGTGACTTGCTG ATGGATCGTGTGATCCGTGACTGGCTCGCACCACGAATTGGTGCTGATGTCAATGTGAAG GAAGTGAAGGAGGCTAAAGACGAGGCACCGGAGCAAAAGGAAGATGGGATTAAGATACCA CAACCTGAGGAGATTACAGAACGCAAGGAAGGGGAATCTCCCTCCCCAGAAGTCGATAAG GCGCCGCGCGATGCAGTTCCAACGGCATCGGAGGCCGCTCCTGCACACTCTGAGGTGGAG GCTCCGGCTGTTCAATCTGAGTCAACAGCGCCCCCAGCTGGCGAAGGCTCTCCTGCCGCC GATGTGCCTGCCCGAAGTGAGGCAGAGGGTAAGGAACAGCCGGTTGCTTCCCCAACTCAT GATGAGTCGGCAGCTGCTGAACCGCAGCAAGCCACACCCGCACCTCAGTCTCAGTCTGCC ACACCACAGCCCGGAGAACCAACTAACGCCGCCGAGCAGTCTGTGCTAGCTCAAACTCCC GAGCCCGACAACAGAACGTCGGAGGAGGAATCCGCAGCTACTGCCAAGAGGCTCTCGAAT CAAGTTGCTGCCGACGAATGAGCTCGCCGTGAGCCAATGGAGTTGTACTCAGACGTTAAT TTGTAGCGTAGGCGCAGCAGAGGAGAAATTGATGTAACAGGTCGGTCAAGCATCAACCAT GTATCGGCTCCGTTCGATCGGTAAATTCTATTTGGGTTTATCTATCGGTACAACCGGCAG TCACTCGAAGGAGCCACTGGAAGATAACTGGAGAGCCACATGCATTGAGGATCCAACAGT CGCATTTCGTGATGACACCTGAGTCAGCATCATCAGCCGGTTAAACGGGATCGGGGCAAA TTCGAGTACGGGTCTGGATCGAGCTCTAGAGAAGTGGAGCCGCTTGTCCGTAATTCACCG TTGCTTATCAATGGTCATAGTGGCATTGTTGAATGCTCCGCTTTGGCTTTTTTGTCGATG GGACCAGCTCGGAAGCAGTTTATTCCCTCTTGTTCGAAGGCGGAAATCCCTTATGGAACA CGCGTTTCTTATGATTTTGCGCGAACAACGTATCCTGTGGTGTCAGCTGAGCAGACTCAC TAACTGTTGAAATCCCGGATATAACCGTGAAAAGGTGTGGTGATTCA
  • Download Fasta

  • Fasta :-

    MAPQETAPRTPATPSPAKVAKQREKEIAAAKEWYKNAGPVTQTEMRNPEGLVLHGHHWVV PNARAKVVLCHGYGMHARFDYLRHDPQNLKSPPVYEGSWVHKLNKAQCSVHCLDQQSFGL SEGHKGKKSHILDIEHLPRDTLQFLYEQVLPSQDPSLPIFICGVSLGGCITARVVELVGG GSASTKHNAVQASSNGALEKKPLPLRGAICMAPLFRMERLKKKNKHLLPLARALAALAPS LEVGKPAKNEMYPFFQDLIEVDPLCYTGKSRARLSNELLRVVDTVREQAPFFSFPDPAVK TKDSPLPYPFYVPETPSLLIVHSKNDTFVDPEGSVCVAATLGAKMDGSQETLEKYQAEYD NVVKSGKVVNHPDANLWLLDNMWHCLSKELPEGDLLMDRVIRDWLAPRIGADVNVKEVKE AKDEAPEQKEDGIKIPQPEEITERKEGESPSPEVDKAPRDAVPTASEAAPAHSEVEAPAV QSESTAPPAGEGSPAADVPARSEAEGKEQPVASPTHDESAAAEPQQATPAPQSQSATPQP GEPTNAAEQSVLAQTPEPDNRTSEEESAATAKRLSNQVAADE

    No Results
No Results
No Results
IDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethod
TGME49_306330473 SAPAHSEVEA0.993unspTGME49_306330473 SAPAHSEVEA0.993unspTGME49_306330473 SAPAHSEVEA0.993unspTGME49_306330502 SVPARSEAEG0.993unspTGME49_306330563 SDNRTSEEES0.998unspTGME49_306330449 SKEGESPSPE0.995unspTGME49_306330451 SGESPSPEVD0.992unsp

TGME49_106330      



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