TGME49_305260 | hypothetical protein

  • 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_305260OTHER0.9999970.0000020.000000
No Results

  • Fasta :-

    >TGME49_305260 METTAPLAQTEEQPAALALNGAASSSSLPAAAGVSAAADADPAAPNSPERNNGGEPVTAG AALAASLGETAKASSAEARKSAASAKGEAEQRRPNHGVLEKVVDALEHINSPTSVRPPGA PAASPPAAASPHAEGPSTPAVAKARSKKLHFGSSHQAYTGIDEWLDNYEIDLKDLGPNFR SGKLTNAQNLDLATYTWTQDTFSHVKGAVVLFHSYTSHALWDFMRHQPTAQAVVSQVDTL TGEKETVDMLSWVPIYNGSWVEAFWNLGFNVYAIDHQSHGRSAGWREWRCNVETFDHLVD DAVLFIKSVVAADPMTPDSVPIYVLGYSMGGNITIQTLARIFADQSEEGKQLQSRVKAAV LLAPMLRILFDRKTEFLAKINRHIISCCVPNLRLGRSSGDEAYAYLDRWYEKDPYAYSGS AKSRMIANLYSATLKTKKLMKTLPEHLRVLCLQGTADATVDHRAALLLAKTPVRLDLMYL TGWSHYLAKQIGFELLRDLVAAWVHAKLQVDTAVPAHRDSLESWAAESTNPRDRVADMGT QTSVTLPPPIRTVSDKPAGAPFDAATTSDAQNLEVSRSTSQVMTSQDSGREAAA
  • Download Fasta
  • MitoProt II - v1.101 File : /home/rajan/sadaf/4480_mitoprot/test/TGME49_305260.fa Sequence name : TGME49_305260 Sequence length : 594 VALUES OF COMPUTED PARAMETERS Coef20 : 3.578 CoefTot : 0.000 ChDiff : -9 ZoneTo : 1 KR : 0 DE : 0 CleavSite : 0 HYDROPHOBIC SCALE USED GES KD GVH1 ECS H17 : 1.294 1.347 0.153 0.531 MesoH : -0.313 0.472 -0.338 0.240 MuHd_075 : 13.176 2.935 2.994 1.085 MuHd_095 : 6.725 6.926 3.142 1.450 MuHd_100 : 14.590 10.042 4.631 2.641 MuHd_105 : 19.826 12.412 5.415 3.428 Hmax_075 : 8.633 3.500 -0.368 2.415 Hmax_095 : 2.800 4.900 -1.184 2.330 Hmax_100 : 9.200 6.900 0.445 2.960 Hmax_105 : 10.500 5.500 0.637 2.790 CLASS NOT-MITO MITO(/CHLORO) DFM : 0.9809 0.0191 DFMC : 0.9503 0.0497
  • ##### ProP v.1.0b ProPeptide Cleavage Site Prediction ##### ##### Furin-type cleavage site prediction (Arginine/Lysine residues) ##### 594 TGME49_305260 METTAPLAQTEEQPAALALNGAASSSSLPAAAGVSAAADADPAAPNSPERNNGGEPVTAGAALAASLGETAKASSAEARK 80 SAASAKGEAEQRRPNHGVLEKVVDALEHINSPTSVRPPGAPAASPPAAASPHAEGPSTPAVAKARSKKLHFGSSHQAYTG 160 IDEWLDNYEIDLKDLGPNFRSGKLTNAQNLDLATYTWTQDTFSHVKGAVVLFHSYTSHALWDFMRHQPTAQAVVSQVDTL 240 TGEKETVDMLSWVPIYNGSWVEAFWNLGFNVYAIDHQSHGRSAGWREWRCNVETFDHLVDDAVLFIKSVVAADPMTPDSV 320 PIYVLGYSMGGNITIQTLARIFADQSEEGKQLQSRVKAAVLLAPMLRILFDRKTEFLAKINRHIISCCVPNLRLGRSSGD 400 EAYAYLDRWYEKDPYAYSGSAKSRMIANLYSATLKTKKLMKTLPEHLRVLCLQGTADATVDHRAALLLAKTPVRLDLMYL 480 TGWSHYLAKQIGFELLRDLVAAWVHAKLQVDTAVPAHRDSLESWAAESTNPRDRVADMGTQTSVTLPPPIRTVSDKPAGA 560 PFDAATTSDAQNLEVSRSTSQVMTSQDSGREAAA 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_305260 50 APNSPER|NN 0.145 . TGME49_305260 72 SLGETAK|AS 0.079 . TGME49_305260 79 ASSAEAR|KS 0.153 . TGME49_305260 80 SSAEARK|SA 0.141 . TGME49_305260 86 KSAASAK|GE 0.084 . TGME49_305260 92 KGEAEQR|RP 0.076 . TGME49_305260 93 GEAEQRR|PN 0.225 . TGME49_305260 101 NHGVLEK|VV 0.091 . TGME49_305260 116 NSPTSVR|PP 0.087 . TGME49_305260 143 STPAVAK|AR 0.082 . TGME49_305260 145 PAVAKAR|SK 0.155 . TGME49_305260 147 VAKARSK|KL 0.066 . TGME49_305260 148 AKARSKK|LH 0.390 . TGME49_305260 173 NYEIDLK|DL 0.074 . TGME49_305260 180 DLGPNFR|SG 0.091 . TGME49_305260 183 PNFRSGK|LT 0.144 . TGME49_305260 206 DTFSHVK|GA 0.069 . TGME49_305260 225 ALWDFMR|HQ 0.102 . TGME49_305260 244 DTLTGEK|ET 0.056 . TGME49_305260 281 DHQSHGR|SA 0.223 . TGME49_305260 286 GRSAGWR|EW 0.158 . TGME49_305260 289 AGWREWR|CN 0.237 . TGME49_305260 307 DAVLFIK|SV 0.108 . TGME49_305260 340 TIQTLAR|IF 0.097 . TGME49_305260 350 DQSEEGK|QL 0.067 . TGME49_305260 355 GKQLQSR|VK 0.105 . TGME49_305260 357 QLQSRVK|AA 0.068 . TGME49_305260 367 LLAPMLR|IL 0.090 . TGME49_305260 372 LRILFDR|KT 0.099 . TGME49_305260 373 RILFDRK|TE 0.063 . TGME49_305260 379 KTEFLAK|IN 0.067 . TGME49_305260 382 FLAKINR|HI 0.085 . TGME49_305260 393 CCVPNLR|LG 0.071 . TGME49_305260 396 PNLRLGR|SS 0.474 . TGME49_305260 408 AYAYLDR|WY 0.086 . TGME49_305260 412 LDRWYEK|DP 0.073 . TGME49_305260 422 AYSGSAK|SR 0.098 . TGME49_305260 424 SGSAKSR|MI 0.143 . TGME49_305260 435 LYSATLK|TK 0.058 . TGME49_305260 437 SATLKTK|KL 0.072 . TGME49_305260 438 ATLKTKK|LM 0.077 . TGME49_305260 441 KTKKLMK|TL 0.067 . TGME49_305260 448 TLPEHLR|VL 0.087 . TGME49_305260 463 DATVDHR|AA 0.074 . TGME49_305260 470 AALLLAK|TP 0.055 . TGME49_305260 474 LAKTPVR|LD 0.078 . TGME49_305260 489 WSHYLAK|QI 0.091 . TGME49_305260 497 IGFELLR|DL 0.089 . TGME49_305260 507 AAWVHAK|LQ 0.059 . TGME49_305260 518 TAVPAHR|DS 0.112 . TGME49_305260 532 AESTNPR|DR 0.111 . TGME49_305260 534 STNPRDR|VA 0.162 . TGME49_305260 551 TLPPPIR|TV 0.163 . TGME49_305260 556 IRTVSDK|PA 0.111 . TGME49_305260 577 QNLEVSR|ST 0.180 . TGME49_305260 590 TSQDSGR|EA 0.151 . ____________________________^_________________

  • Fasta :-

    >TGME49_305260 AAGAATTTTATTGTCTGGTCATCCTTTGCCGTTTTGGTGCGGGTCTTGCCAGCCTGCATC GGTGTGTCGAACACACGCGCGGGCCTACAGCTGGCATATTGAGTCGCCTCGACGTCAATT GAGCAATTGAGAAGTCATCGCCGTTTTTCTCTAGACTCCCCGTTTGCCAAAATTGTGGCT TCTGACTCAAGGGGTTCTACCATTGTGACGAAGACCAGAAACGAAACCGGTCCTTCGTGG TGGCCGACAGAGCATGCCCGGGGCATTTGAGATGAACGAGTTTTAAATCTATCCCAGTAC GGCATGGGAGGCGAACTGTTGTTTCTGGCCATAATTTGCGGCGTTACTCTCGCATTTTCA GAGCAAGAAACTGCTGAGAATTTTCGGTGATCCTATAGCTGTGTAGCGAGTCGGCTCGTT CCCCCGAAGTTTCGTTTTCCCTCGAACCGCTATTCAACCTATTATTTTCGGTTCTCTTTT CACCTCCCTTTTTCGCCGCCGCACGTTACTTGCCTCGATCCTCTCCTCTTTTTCCCATCA GTCTTGCACAAATTCTGGCGAGTTCTGTATCTGAATCGTTTGGCTTGCTTTCCCCCTTCA CACCCGACTCGGTCACCCAGCCCCTGCTTCTCCTGTATCTTCTATGTCCCTCTCTCTGTT CTGCGTCCCCCTCTTCCTCTAGCTGTTCTGCATCTCTTCCCGTCGTATCCCTTTCCCCTG TCTCTCCTTATCTCCGCGATTTCCCGTATCCACCATGGAAACAACCGCGCCTCTCGCGCA GACAGAGGAGCAACCGGCAGCTCTCGCGCTGAACGGAGCCGCGAGCTCCAGTTCCCTGCC TGCGGCTGCGGGCGTCAGCGCTGCCGCGGATGCCGACCCTGCTGCACCGAATTCCCCCGA GAGAAACAACGGGGGAGAACCAGTGACGGCGGGGGCAGCGCTAGCTGCCAGCCTGGGAGA GACCGCGAAAGCCAGCTCTGCGGAGGCGAGGAAGAGCGCAGCTTCTGCCAAGGGAGAGGC AGAGCAAAGAAGGCCGAACCACGGCGTCCTGGAGAAAGTTGTCGATGCTCTCGAACACAT CAACAGCCCCACCTCGGTGCGGCCGCCTGGCGCTCCAGCTGCCAGTCCACCGGCTGCCGC CTCGCCACACGCCGAAGGACCCAGCACACCTGCGGTGGCAAAAGCCAGAAGCAAAAAGCT GCACTTCGGCTCCAGCCACCAGGCCTACACGGGCATCGATGAGTGGCTGGACAACTACGA GATCGATCTGAAGGACCTCGGACCGAACTTCCGGTCGGGGAAACTGACGAACGCGCAGAA CCTTGACCTCGCCACCTACACGTGGACGCAAGACACCTTCTCCCATGTGAAAGGCGCTGT CGTCCTCTTCCACTCCTACACATCCCACGCCCTCTGGGACTTCATGCGACACCAGCCGAC CGCGCAGGCAGTCGTCTCCCAGGTCGACACGCTAACTGGAGAAAAAGAAACCGTCGACAT GCTTTCATGGGTTCCCATCTACAACGGCAGCTGGGTGGAGGCTTTCTGGAACCTCGGATT CAACGTGTACGCAATCGATCACCAAAGTCACGGCCGCTCTGCGGGGTGGAGAGAGTGGAG GTGCAATGTGGAGACGTTTGATCACCTCGTTGACGACGCTGTGCTCTTTATCAAATCCGT TGTTGCGGCAGACCCCATGACACCGGACAGCGTGCCTATCTATGTCCTGGGCTACTCCAT GGGGGGGAATATCACGATTCAGACACTGGCACGCATTTTCGCGGATCAATCGGAGGAAGG GAAACAGCTGCAATCGCGTGTGAAAGCTGCCGTGCTTCTCGCACCCATGCTGAGGATTTT GTTTGACCGAAAAACGGAGTTCCTCGCAAAAATCAACAGACATATCATCAGCTGCTGCGT ACCCAATCTGCGACTCGGACGCTCCTCCGGTGACGAGGCGTACGCCTACCTCGACAGATG GTACGAGAAGGATCCTTACGCGTACTCAGGAAGTGCCAAGTCGCGCATGATCGCGAACCT CTACTCTGCGACTCTGAAAACAAAGAAGCTCATGAAGACCCTCCCCGAGCATCTGAGAGT TCTCTGTCTCCAAGGAACAGCAGACGCCACAGTGGACCACAGAGCGGCTTTGCTTCTTGC CAAGACTCCCGTTCGGCTCGATCTTATGTACCTCACTGGATGGAGTCATTACTTGGCCAA GCAAATTGGATTCGAACTCCTGAGGGACCTGGTCGCGGCGTGGGTGCATGCGAAGCTGCA AGTCGACACGGCTGTGCCAGCTCATCGTGACTCGCTCGAGAGTTGGGCGGCGGAGTCAAC GAACCCACGAGATCGTGTCGCTGACATGGGCACACAGACTTCCGTTACTCTGCCTCCTCC CATAAGAACAGTTTCTGACAAGCCCGCCGGCGCTCCATTTGACGCTGCGACCACGAGCGA TGCCCAGAATCTGGAAGTGTCTAGATCGACAAGCCAAGTCATGACTTCGCAGGACTCGGG CAGAGAAGCCGCGGCATAGAGTCCTTTTCAGTGTTGTGTCTCTTTTGCTGGAACGCCAAC TTTAAAAACAGCGAGATTGTCCTTTCAGGACTGCTTGTGGAGAAGAAACTGCATGACGAA AAGCCACCAGAAGCAGACCTGGTACCGGCGGGAGTAAGGGGGGTTGTGGGAGTTCGCCAG CGCGTTTCTTCCATTACTGCGTGGACATGCCCACACCTTTTTGCACATTTCTGGAAGGAA ACTGAAGGGGGGAAAGGCGAGGCAGCGTTGCGTCGTCCATTTCGATCGTGGCAGCGCGAC ATTTGAAGCTGAGAAACCTGCTGTCACTTCAGTTTTACTCACACCGTTTTTCCGTTTTAT TCACCCGTTTCCGCGCACTTGCGACTCGCTGTGGAGGTTACGGTGGAGGCGATCCCTCTC GTAGCACGAGCGTGACCCAGAAAGGAATCGCCGCTGCACCTTGCTGTGACTCAGCTGGAA CATCGGTCACCCGTGTTCGGCCTCATCGGTGGAAGGCTTTTTTTGCACAACATCGGGTAC ATGCAGACGCACCCGTGAATTGCTGTTTTTTGAGAAACTGAGTAGCGCGATTTGTTCGTG GACCAGTCAGTCTACTATTCGG
  • Download Fasta

  • Fasta :-

    METTAPLAQTEEQPAALALNGAASSSSLPAAAGVSAAADADPAAPNSPERNNGGEPVTAG AALAASLGETAKASSAEARKSAASAKGEAEQRRPNHGVLEKVVDALEHINSPTSVRPPGA PAASPPAAASPHAEGPSTPAVAKARSKKLHFGSSHQAYTGIDEWLDNYEIDLKDLGPNFR SGKLTNAQNLDLATYTWTQDTFSHVKGAVVLFHSYTSHALWDFMRHQPTAQAVVSQVDTL TGEKETVDMLSWVPIYNGSWVEAFWNLGFNVYAIDHQSHGRSAGWREWRCNVETFDHLVD DAVLFIKSVVAADPMTPDSVPIYVLGYSMGGNITIQTLARIFADQSEEGKQLQSRVKAAV LLAPMLRILFDRKTEFLAKINRHIISCCVPNLRLGRSSGDEAYAYLDRWYEKDPYAYSGS AKSRMIANLYSATLKTKKLMKTLPEHLRVLCLQGTADATVDHRAALLLAKTPVRLDLMYL TGWSHYLAKQIGFELLRDLVAAWVHAKLQVDTAVPAHRDSLESWAAESTNPRDRVADMGT QTSVTLPPPIRTVSDKPAGAPFDAATTSDAQNLEVSRSTSQVMTSQDSGREAAA

    No Results
No Results
No Results
IDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethod
TGME49_305260114 SNSPTSVRPP0.995unspTGME49_305260114 SNSPTSVRPP0.995unspTGME49_305260114 SNSPTSVRPP0.995unspTGME49_305260235 SQAVVSQVDT0.992unspTGME49_305260398 SLGRSSGDEA0.997unspTGME49_305260520 SAHRDSLESW0.994unspTGME49_305260554 SIRTVSDKPA0.991unspTGME49_305260580 SSRSTSQVMT0.991unspTGME49_305260588 STSQDSGREA0.997unspTGME49_30526075 SAKASSAEAR0.992unspTGME49_30526084 SKSAASAKGE0.996unsp

TGME49_105260      



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