_IDPredictionOTHERSPmTPCS_Position
TGME49_289780OTHER0.9036940.0127340.083572
No Results
  • Fasta :-

    >TGME49_289780 MRCLLSGRTRPSVGPLRPSSITGRHSPSCTVSLSKPYADSSGPALLLLPVRGERKIWSST LCVGSVCCPLPSVSSLSPLRDVSLLDRKCVSLGCLRVSRSVSTVSLALASRGPQGATGVS DEVGLRRTTRLSCSVSSRSPLLTCPPMLFSFRSYIQHPSRGSPYRRGDREGKRVSHMRGG SVQVYLHPASCGDAFSAHSRRGVFCVHQDAVIAGKERAWTSSQRLAGAASSSLFPTCISQ KRQLCTTTSQPPHTGPQSPPSHPSSSLFPSSLSSSPLSSPLSSLSSLSPCEGDSGSGFCE SAGKGSASCVVVEQQGLSSQGGLFIFAVEVPETQSRSVTQGVGITHLLSQARSPQTSSAL LFSYSYFSPALCHSFQSALPTRNTDLPSASIHRGCLSCFPPSSSSCFSSYCSSASCIPSS YSARRVCCSLFPVMSVSSSSPSFTASSSRFFASSAPPCSGASPPSLPSSRPTSLTPQTTS ERRDKSHSLCPQAMVEYLNRFIVGQVEAKRAVAVALRQRWRRRHIEDERLREDITPKNIL LIGPTGVGKTEVARRLAKRLDAPFIKVEATKFTEVGFHGRDVDQIIKDLVEVAVKTQRTK LQEVMRPAAEHRAERKILEALLGKMPAEEHQHWLRHLRCGALDARRVHVDFPQRPSGGAA SGGSFTEEGNRDAIVADLESIIRDIDRPRPAFFTTRRSGRGSEGRNLTVKEARKKLMQAE LDSMITKDLVVQKALEAVEQEGIVFIDEIDKICSKGGRNGYNPDASDEGVQRDLLPLIEG TTVSTRYGDVKTDYILFIASGAFHCVRPSDLLAELQGRLPIRVTLKSLTENDLRDILTKT QNNLLAQNTALLRTENVELHFTEEAVNEIARVACEVNASVENIGARRLHTIIEKIMEDIN FAAPSMAPGTRVEVDLERVRSSVSSLLTKTDYTRFVL
  • Download Fasta
  • MitoProt II - v1.101 File : /home/rajan/sadaf/4480_mitoprot/test/TGME49_289780.fa Sequence name : TGME49_289780 Sequence length : 937 VALUES OF COMPUTED PARAMETERS Coef20 : 4.432 CoefTot : -0.393 ChDiff : 28 ZoneTo : 80 KR : 10 DE : 2 CleavSite : 82 HYDROPHOBIC SCALE USED GES KD GVH1 ECS H17 : 1.565 1.412 0.479 0.468 MesoH : 0.647 0.608 0.097 0.225 MuHd_075 : 24.450 19.151 7.586 6.603 MuHd_095 : 31.931 14.605 8.146 6.689 MuHd_100 : 34.559 15.469 8.313 6.778 MuHd_105 : 35.212 19.266 6.547 7.245 Hmax_075 : 6.038 20.883 6.003 6.043 Hmax_095 : 8.137 10.062 1.989 3.894 Hmax_100 : 9.400 17.700 1.918 4.140 Hmax_105 : 6.825 22.633 4.970 4.888 CLASS NOT-MITO MITO(/CHLORO) DFM : 0.7148 0.2852 DFMC : 0.4095 0.5905 This protein is probably imported in chloroplast. f(Ser) = 0.2125 f(Arg) = 0.1000 CMi = 1.01190 CMi is the Chloroplast/Mitochondria Index It has been proposed by Von Heijne et al (Eur J Biochem,1989, 180: 535-545)
  • ##### ProP v.1.0b ProPeptide Cleavage Site Prediction ##### ##### Furin-type cleavage site prediction (Arginine/Lysine residues) ##### 937 TGME49_289780 MRCLLSGRTRPSVGPLRPSSITGRHSPSCTVSLSKPYADSSGPALLLLPVRGERKIWSSTLCVGSVCCPLPSVSSLSPLR 80 DVSLLDRKCVSLGCLRVSRSVSTVSLALASRGPQGATGVSDEVGLRRTTRLSCSVSSRSPLLTCPPMLFSFRSYIQHPSR 160 GSPYRRGDREGKRVSHMRGGSVQVYLHPASCGDAFSAHSRRGVFCVHQDAVIAGKERAWTSSQRLAGAASSSLFPTCISQ 240 KRQLCTTTSQPPHTGPQSPPSHPSSSLFPSSLSSSPLSSPLSSLSSLSPCEGDSGSGFCESAGKGSASCVVVEQQGLSSQ 320 GGLFIFAVEVPETQSRSVTQGVGITHLLSQARSPQTSSALLFSYSYFSPALCHSFQSALPTRNTDLPSASIHRGCLSCFP 400 PSSSSCFSSYCSSASCIPSSYSARRVCCSLFPVMSVSSSSPSFTASSSRFFASSAPPCSGASPPSLPSSRPTSLTPQTTS 480 ERRDKSHSLCPQAMVEYLNRFIVGQVEAKRAVAVALRQRWRRRHIEDERLREDITPKNILLIGPTGVGKTEVARRLAKRL 560 DAPFIKVEATKFTEVGFHGRDVDQIIKDLVEVAVKTQRTKLQEVMRPAAEHRAERKILEALLGKMPAEEHQHWLRHLRCG 640 ALDARRVHVDFPQRPSGGAASGGSFTEEGNRDAIVADLESIIRDIDRPRPAFFTTRRSGRGSEGRNLTVKEARKKLMQAE 720 LDSMITKDLVVQKALEAVEQEGIVFIDEIDKICSKGGRNGYNPDASDEGVQRDLLPLIEGTTVSTRYGDVKTDYILFIAS 800 GAFHCVRPSDLLAELQGRLPIRVTLKSLTENDLRDILTKTQNNLLAQNTALLRTENVELHFTEEAVNEIARVACEVNASV 880 ENIGARRLHTIIEKIMEDINFAAPSMAPGTRVEVDLERVRSSVSSLLTKTDYTRFVL 960 ................................................................................ 80 ..................P............................................................. 160 ................................................................................ 240 ................................................................................ 320 ................................................................................ 400 ................................................................................ 480 ................................................................................ 560 ................................................................................ 640 ................................................................................ 720 ................................................................................ 800 ................................................................................ 880 ......................................................... 960 Propeptide cleavage sites predicted: Arg(R)/Lys(K): 1 Name Pos Context Score Pred ____________________________v_________________ TGME49_289780 2 -----MR|CL 0.098 . TGME49_289780 8 RCLLSGR|TR 0.071 . TGME49_289780 10 LLSGRTR|PS 0.094 . TGME49_289780 17 PSVGPLR|PS 0.097 . TGME49_289780 24 PSSITGR|HS 0.104 . TGME49_289780 35 CTVSLSK|PY 0.057 . TGME49_289780 51 LLLLPVR|GE 0.083 . TGME49_289780 54 LPVRGER|KI 0.204 . TGME49_289780 55 PVRGERK|IW 0.084 . TGME49_289780 80 SSLSPLR|DV 0.111 . TGME49_289780 87 DVSLLDR|KC 0.068 . TGME49_289780 88 VSLLDRK|CV 0.083 . TGME49_289780 96 VSLGCLR|VS 0.064 . TGME49_289780 99 GCLRVSR|SV 0.596 *ProP* TGME49_289780 111 SLALASR|GP 0.087 . TGME49_289780 126 SDEVGLR|RT 0.069 . TGME49_289780 127 DEVGLRR|TT 0.099 . TGME49_289780 130 GLRRTTR|LS 0.236 . TGME49_289780 138 SCSVSSR|SP 0.114 . TGME49_289780 152 PMLFSFR|SY 0.132 . TGME49_289780 160 YIQHPSR|GS 0.084 . TGME49_289780 165 SRGSPYR|RG 0.130 . TGME49_289780 166 RGSPYRR|GD 0.233 . TGME49_289780 169 PYRRGDR|EG 0.155 . TGME49_289780 172 RGDREGK|RV 0.229 . TGME49_289780 173 GDREGKR|VS 0.161 . TGME49_289780 178 KRVSHMR|GG 0.144 . TGME49_289780 200 AFSAHSR|RG 0.089 . TGME49_289780 201 FSAHSRR|GV 0.400 . TGME49_289780 215 DAVIAGK|ER 0.056 . TGME49_289780 217 VIAGKER|AW 0.111 . TGME49_289780 224 AWTSSQR|LA 0.115 . TGME49_289780 241 PTCISQK|RQ 0.054 . TGME49_289780 242 TCISQKR|QL 0.215 . TGME49_289780 304 FCESAGK|GS 0.062 . TGME49_289780 336 VPETQSR|SV 0.284 . TGME49_289780 352 HLLSQAR|SP 0.111 . TGME49_289780 382 QSALPTR|NT 0.085 . TGME49_289780 393 PSASIHR|GC 0.084 . TGME49_289780 424 PSSYSAR|RV 0.230 . TGME49_289780 425 SSYSARR|VC 0.144 . TGME49_289780 449 FTASSSR|FF 0.092 . TGME49_289780 470 PSLPSSR|PT 0.096 . TGME49_289780 482 PQTTSER|RD 0.062 . TGME49_289780 483 QTTSERR|DK 0.183 . TGME49_289780 485 TSERRDK|SH 0.258 . TGME49_289780 500 MVEYLNR|FI 0.102 . TGME49_289780 509 VGQVEAK|RA 0.070 . TGME49_289780 510 GQVEAKR|AV 0.274 . TGME49_289780 517 AVAVALR|QR 0.076 . TGME49_289780 519 AVALRQR|WR 0.082 . TGME49_289780 521 ALRQRWR|RR 0.083 . TGME49_289780 522 LRQRWRR|RH 0.486 . TGME49_289780 523 RQRWRRR|HI 0.310 . TGME49_289780 529 RHIEDER|LR 0.079 . TGME49_289780 531 IEDERLR|ED 0.067 . TGME49_289780 537 REDITPK|NI 0.069 . TGME49_289780 549 GPTGVGK|TE 0.058 . TGME49_289780 554 GKTEVAR|RL 0.093 . TGME49_289780 555 KTEVARR|LA 0.122 . TGME49_289780 558 VARRLAK|RL 0.136 . TGME49_289780 559 ARRLAKR|LD 0.203 . TGME49_289780 566 LDAPFIK|VE 0.063 . TGME49_289780 571 IKVEATK|FT 0.100 . TGME49_289780 580 EVGFHGR|DV 0.295 . TGME49_289780 587 DVDQIIK|DL 0.057 . TGME49_289780 595 LVEVAVK|TQ 0.060 . TGME49_289780 598 VAVKTQR|TK 0.078 . TGME49_289780 600 VKTQRTK|LQ 0.065 . TGME49_289780 606 KLQEVMR|PA 0.114 . TGME49_289780 612 RPAAEHR|AE 0.135 . TGME49_289780 615 AEHRAER|KI 0.269 . TGME49_289780 616 EHRAERK|IL 0.110 . TGME49_289780 624 LEALLGK|MP 0.059 . TGME49_289780 635 EHQHWLR|HL 0.096 . TGME49_289780 638 HWLRHLR|CG 0.146 . TGME49_289780 645 CGALDAR|RV 0.118 . TGME49_289780 646 GALDARR|VH 0.082 . TGME49_289780 654 HVDFPQR|PS 0.095 . TGME49_289780 671 FTEEGNR|DA 0.090 . TGME49_289780 683 DLESIIR|DI 0.100 . TGME49_289780 687 IIRDIDR|PR 0.087 . TGME49_289780 689 RDIDRPR|PA 0.096 . TGME49_289780 696 PAFFTTR|RS 0.092 . TGME49_289780 697 AFFTTRR|SG 0.213 . TGME49_289780 700 TTRRSGR|GS 0.464 . TGME49_289780 705 GRGSEGR|NL 0.129 . TGME49_289780 710 GRNLTVK|EA 0.102 . TGME49_289780 713 LTVKEAR|KK 0.083 . TGME49_289780 714 TVKEARK|KL 0.096 . TGME49_289780 715 VKEARKK|LM 0.106 . TGME49_289780 727 LDSMITK|DL 0.082 . TGME49_289780 733 KDLVVQK|AL 0.091 . TGME49_289780 751 FIDEIDK|IC 0.066 . TGME49_289780 755 IDKICSK|GG 0.059 . TGME49_289780 758 ICSKGGR|NG 0.080 . TGME49_289780 772 SDEGVQR|DL 0.110 . TGME49_289780 786 GTTVSTR|YG 0.106 . TGME49_289780 791 TRYGDVK|TD 0.072 . TGME49_289780 807 GAFHCVR|PS 0.079 . TGME49_289780 818 LAELQGR|LP 0.073 . TGME49_289780 822 QGRLPIR|VT 0.102 . TGME49_289780 826 PIRVTLK|SL 0.078 . TGME49_289780 834 LTENDLR|DI 0.089 . TGME49_289780 839 LRDILTK|TQ 0.067 . TGME49_289780 853 QNTALLR|TE 0.073 . TGME49_289780 871 AVNEIAR|VA 0.124 . TGME49_289780 886 VENIGAR|RL 0.106 . TGME49_289780 887 ENIGARR|LH 0.123 . TGME49_289780 894 LHTIIEK|IM 0.064 . TGME49_289780 911 SMAPGTR|VE 0.089 . TGME49_289780 918 VEVDLER|VR 0.068 . TGME49_289780 920 VDLERVR|SS 0.091 . TGME49_289780 929 VSSLLTK|TD 0.063 . TGME49_289780 934 TKTDYTR|FV 0.118 . ____________________________^_________________
  • Fasta :-

    >TGME49_289780 GCGGAGAAGATGCGAACGTGCGAGTAAAACACACACCCCTCTCGTGATGAGAAAAGATTG TGAACGAGCGAGCGCTCTCAGCACAGGCGCACCAAGAGGTGTCGCGTTTTCGGTTGTCGC GTTTTCGCGCCAGAACTCGTGTTTTTTGGCCGGGAAATGCCTCGCTCCAGCGGTATCACC AGACTTTCTTGACTAAGCGCATTTCGGACGTCTTGCGAGTCCCAGCTTTTCTGTCTTTCT CGTTTCCTATCTCTTCAGTGTTAACCAGGCACCGCTCTGGCTCTCTCCTTTCGATCGCGG CGGAAATGAGTGCGGCGCCGAGAGTCAAAAGACGAAACGTGTGTCTCTGGCTTTCTCTCT CTCTCCTCAATTTCAGTCGAAGGCGCATTTTCCTGTAGTTCCGAAAATTCCCTTTACTTC TCCGTCCTGTCTGCTTGTGCACACATCTGGAACCGCGTCTTCGGCCTTGCCAGACGAGCG CGTAACTGAGACAAAACATTGACTTTGTCTCCTCCACATGGAAAACGCGTTTCTCTTCGT GGAAAAAAACGAAACACACGTCTCGTTCCCACCTCCTGGCGCCCTTGTGTTCTCCGTGTG TCGTGGAACCGGGCTCTTGCCGAGTTCGTCTTGATGACTTCGACTGCTCTTTGAGGCGCT GTCTGTCTTGACGACACTTGCCACCTTCAAGAGTTGTCTTCTGATTCTTTCCACCCGTTG CTCCATTCTTGAGTGAACCGTGTCTCGTGTGTCACCAGATTTCTTGACTCGCGACCAGCA CGAGGTGCAAGGGGAGAAACAACAGACTGGACTCACCGCGACTGCAGAAGACAGAGATCA GAGACGCATTGCACAAGAATTTTTTTACCACCCTACGTACCCGGTGTTCTGCCCGCATAT TCTCGGTTTCCAATGTATCTCGTGACCAGTTTAGACGATAGATGTCCACACTCAAAGTTA CCTCGGCCCTCACAACATCTTAATGACGAATGTGTTGAACACCCACCACACTAAGGAGGA GTTCCTCTTGTAACTGCGGCCGCCCGTCTCCAAACTTTTTTCCCCTATCGAGGCACACGC GACAGAACTTCGTGGGAGAGGTGTATTCTTTCAAAGTGCAGATTTTCTCCGTCTCTTGCT CTGAACTTCTCGACACCAGACGGAGCGTCAAGACGGCGTTCTTCGCATTTGCCAAAGGCC AATTTTAGAACGTTCGTGAAGAGAAGAATAAAATACGGAACACACTGAATCTGACTGTCG TGCCGGACTGGAAAGACTTCTGCGTGTTTCTCGTTGGTTATTTGCCTCACATTCTTTCTG TCTGAGAACGAACAAGGCGTCGACAGACTCTCCAGGAAAGAGCAGTCTGCGAGACGCTCT GTTTCGTGTTGCCTAACTCTCCTACGCCTTCTTTTCGCTCTCCGTAGGGCTCTGTCCCTC CTGTCCTTCCTGCACTTTTCTGTCGTTTCTTCCCCGAGAAATTTGGCACTTACTCGCCTG TCTTGCCGCTGTCACATGCAACCTTTTCTTCCCCCCAGCAAACGGATTGGGAGAAAACGC AGGGATAGTTCATTAGGCGAATGCTCCTGCTTTTTCAGGGAAAACGACTTCTCAGATGCT AGGATTTCGGTCGCCGCCATCGTCACGGGGTCACCGTATCTGATACAGGGAAATTGATGA ACTATTGTTGGGATTTTCTCTGGCGGAAATGCGGTGCCTCCTCTCCGGCAGGACGCGCCC CTCAGTGGGGCCTCTGCGGCCTTCTTCTATAACTGGACGGCACTCTCCAAGCTGCACAGT GTCGCTCTCAAAACCTTACGCGGATTCCTCTGGTCCGGCTCTGTTGCTCCTTCCAGTGAG AGGAGAGAGAAAGATTTGGTCTTCGACTTTGTGTGTGGGGTCTGTTTGCTGTCCTCTTCC TTCCGTGTCGTCTCTGTCTCCACTGAGAGACGTCTCTTTGCTCGACAGGAAGTGCGTGTC TCTCGGGTGTCTCCGCGTCTCCCGTTCTGTCTCCACTGTCTCTCTTGCTCTCGCCTCCAG GGGTCCTCAAGGGGCGACGGGCGTCAGCGACGAAGTTGGACTCCGACGCACCACGCGTCT GTCTTGTTCTGTCTCGTCGCGTTCACCTCTTCTGACTTGTCCTCCCATGCTTTTTTCTTT CCGTTCATATATTCAGCACCCTTCGCGCGGGTCTCCGTACCGTAGAGGAGACAGAGAGGG AAAACGTGTCTCGCACATGAGAGGCGGAAGCGTTCAGGTGTACCTCCACCCCGCCTCCTG TGGTGACGCGTTTTCAGCTCACTCTCGCCGCGGTGTTTTCTGTGTACATCAAGACGCCGT GATAGCGGGGAAAGAACGCGCGTGGACCTCCTCACAACGGCTGGCCGGAGCGGCTTCTTC CTCGCTTTTTCCAACTTGCATCTCGCAAAAGAGACAGCTCTGCACTACCACATCACAGCC ACCCCACACTGGCCCGCAAAGCCCCCCGTCCCACCCCTCCTCTTCTCTCTTTCCTTCTTC TCTCTCTTCATCCCCTCTTTCATCCCCTCTTTCTTCTCTTTCCTCCCTGTCTCCTTGCGA GGGAGACTCGGGGAGCGGGTTCTGTGAGTCTGCGGGCAAGGGAAGTGCGTCGTGCGTCGT CGTAGAGCAACAAGGACTTTCGTCGCAAGGTGGACTGTTCATTTTCGCTGTTGAAGTGCC GGAGACGCAGAGTCGATCTGTCACTCAAGGCGTCGGAATCACGCATTTGCTGTCGCAGGC GCGTTCGCCTCAAACTTCCTCAGCTCTTCTTTTTTCTTATTCTTACTTCTCTCCGGCTCT CTGCCACTCCTTTCAAAGCGCGCTCCCCACCCGGAACACTGACTTGCCGTCTGCGTCAAT CCACAGAGGTTGCTTGTCTTGTTTCCCCCCTTCTTCCTCTTCTTGCTTCTCTTCTTACTG CTCGTCTGCTTCCTGTATACCTTCTTCTTACTCTGCTCGGCGAGTGTGTTGTTCGCTCTT CCCCGTGATGTCTGTCTCTTCTTCTTCGCCTTCCTTCACTGCTTCCTCTTCTCGCTTCTT TGCTTCTTCTGCGCCTCCCTGCTCCGGCGCCTCTCCACCGTCTCTCCCCTCCTCGCGACC TACGAGTCTCACCCCACAAACTACCTCCGAAAGAAGAGACAAGTCTCACAGTCTCTGTCC CCAGGCCATGGTTGAGTATCTCAACAGATTCATCGTCGGACAGGTGGAGGCTAAACGTGC CGTCGCCGTTGCTCTCAGACAGCGCTGGAGACGCAGGCATATTGAAGACGAGAGACTGCG AGAAGACATAACGCCGAAAAACATTCTTCTCATTGGACCCACAGGTGTTGGAAAGACGGA AGTTGCTCGGCGTCTGGCAAAGCGTCTCGACGCACCATTCATCAAGGTGGAAGCGACAAA GTTCACTGAAGTTGGGTTTCACGGAAGAGATGTCGACCAGATCATCAAAGACTTAGTGGA AGTGGCAGTAAAGACTCAACGAACGAAACTGCAGGAGGTGATGAGGCCGGCGGCCGAGCA CCGCGCAGAGAGGAAAATTCTTGAGGCTCTTCTCGGCAAAATGCCTGCTGAGGAGCACCA GCACTGGCTTCGGCACCTGCGCTGCGGGGCTCTTGACGCGCGACGCGTCCACGTGGACTT TCCCCAGAGGCCGAGCGGCGGCGCAGCCTCAGGTGGATCCTTCACGGAGGAAGGAAACAG AGATGCGATTGTGGCCGACTTGGAAAGCATTATTCGAGACATCGACCGGCCCCGTCCTGC CTTCTTTACAACACGTCGCAGCGGGCGAGGCTCTGAGGGTCGGAATTTGACAGTGAAGGA AGCGCGAAAAAAGCTCATGCAAGCAGAACTGGATTCCATGATCACCAAGGACCTGGTTGT CCAGAAAGCACTCGAGGCCGTCGAACAAGAAGGCATCGTCTTTATTGATGAAATCGACAA AATCTGCAGCAAGGGCGGTCGGAACGGCTACAATCCTGATGCTTCAGACGAAGGAGTCCA GCGCGACTTGCTTCCCTTGATTGAGGGCACAACCGTCAGCACTCGCTACGGAGACGTGAA GACGGATTACATCCTCTTCATAGCTTCGGGCGCGTTTCACTGCGTGCGGCCGAGCGACCT GCTGGCGGAACTGCAGGGGCGTCTCCCCATTCGTGTCACTCTCAAATCTCTGACAGAAAA CGACTTGAGAGACATTTTGACGAAGACGCAAAACAATCTGCTTGCGCAGAACACAGCGCT CCTGCGCACCGAGAACGTGGAACTCCACTTCACCGAAGAGGCAGTAAACGAAATCGCTCG AGTTGCTTGCGAAGTGAACGCGAGTGTCGAGAACATTGGTGCCCGACGTCTACACACCAT CATTGAAAAAATCATGGAAGACATCAACTTCGCAGCCCCCTCGATGGCTCCTGGAACGCG AGTGGAAGTCGACCTCGAACGCGTTCGGTCGAGCGTCAGCTCGCTCCTCACCAAGACGGA CTACACGCGTTTCGTGCTGTGACACTTTCCTCTGCAAATCTGCTGCAAATCTGCGGCTCT TCACCGTCTGTTTCTGCACAGTTTTCGTTCTTTCCTGTCCCGCGAGAGTGAGAGAGTGAA AACGCGGCTTCCTTCGTGCGGACGGCAACTCACTCGACAGGACGGGTGCGACGGAAAGAC CCAGAAGATCGCCTAAAGCCTGTTTTGCGCTTCCTGTACAGATGTGCGCATGTCATCCTG CATAAAGGTGCAAATACACCTGGTCACATTGGCGTATGCTTGTGCAAGCCTCGTCACTGG AAAGCGGAAACGTAAAGAGAAAGTCTTATGTGGAGCTTTCGTGACCAGCTGGAAACACAT CCAACATATACAGACAATATACGTATATATCTATATATATTTGGATGCCGCATACAAGCA TATGTACATGTGTACAAGCATATACATAGTCATATATGTGGATAAACGTACCATTTATAT AGTGTTTTTTGTGGATATTTGTGTCGTAGTTCTCGGGTCTGCATGCCCGTGATTCTTTTT CTTCGTTGAGAGTGCCACGGGAGACACTGCCGGTGTCTCCTGTTACACATTCTCTGTTCT AAGTCTGCTGTTTTTTCTATTCTGATGTTTATCTCGTCTACTGCGATGATACGCGCAATA CTCTATAAACTCAGGGAGCCGTGTATATATACATGCATATGCATATGCGTATGCATACAT ATATACATATATATGCATATATATATATATATATATATATACACGCGCATATTTGTGCAC ATATACATATATCCGTATATATTTATATGTGCATGTTTGTACGAGGATAAGTGCATGCGT GTATATTTGCATTGGTTTTATGAAATGCGAAGGAAGGGGGGTCTGGAGATGTTCCTGTCC CATGTTGTGCAGTGGGAACAAGGGAGAATCATCGGTTTTCTTGTTAACGTCCTTTTTGAG GCAATTCGCCTGATTGGACTGGATCTTTTCTCGTTTCTCTCCGTCTTTTCGATCCCGAGT GTTTTTTTGCGTCTACGCGTTTCTCTCCACGGTTTCTGTCGGTTCGTTCGAAGACTAGAG CTGCGTGGG
  • Download Fasta
  • Fasta :-

    MRCLLSGRTRPSVGPLRPSSITGRHSPSCTVSLSKPYADSSGPALLLLPVRGERKIWSST LCVGSVCCPLPSVSSLSPLRDVSLLDRKCVSLGCLRVSRSVSTVSLALASRGPQGATGVS DEVGLRRTTRLSCSVSSRSPLLTCPPMLFSFRSYIQHPSRGSPYRRGDREGKRVSHMRGG SVQVYLHPASCGDAFSAHSRRGVFCVHQDAVIAGKERAWTSSQRLAGAASSSLFPTCISQ KRQLCTTTSQPPHTGPQSPPSHPSSSLFPSSLSSSPLSSPLSSLSSLSPCEGDSGSGFCE SAGKGSASCVVVEQQGLSSQGGLFIFAVEVPETQSRSVTQGVGITHLLSQARSPQTSSAL LFSYSYFSPALCHSFQSALPTRNTDLPSASIHRGCLSCFPPSSSSCFSSYCSSASCIPSS YSARRVCCSLFPVMSVSSSSPSFTASSSRFFASSAPPCSGASPPSLPSSRPTSLTPQTTS ERRDKSHSLCPQAMVEYLNRFIVGQVEAKRAVAVALRQRWRRRHIEDERLREDITPKNIL LIGPTGVGKTEVARRLAKRLDAPFIKVEATKFTEVGFHGRDVDQIIKDLVEVAVKTQRTK LQEVMRPAAEHRAERKILEALLGKMPAEEHQHWLRHLRCGALDARRVHVDFPQRPSGGAA SGGSFTEEGNRDAIVADLESIIRDIDRPRPAFFTTRRSGRGSEGRNLTVKEARKKLMQAE LDSMITKDLVVQKALEAVEQEGIVFIDEIDKICSKGGRNGYNPDASDEGVQRDLLPLIEG TTVSTRYGDVKTDYILFIASGAFHCVRPSDLLAELQGRLPIRVTLKSLTENDLRDILTKT QNNLLAQNTALLRTENVELHFTEEAVNEIARVACEVNASVENIGARRLHTIIEKIMEDIN FAAPSMAPGTRVEVDLERVRSSVSSLLTKTDYTRFVL

  • title: ATP binding site
  • coordinates: P544,T545,G546,V547,G548,K549,T550,E551
No Results
No Results
IDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethod
TGME49_28978077 SVSSLSPLRD0.992unspTGME49_28978077 SVSSLSPLRD0.992unspTGME49_28978077 SVSSLSPLRD0.992unspTGME49_289780175 SGKRVSHMRG0.992unspTGME49_289780288 SLSSLSPCEG0.997unspTGME49_289780440 SVSSSSPSFT0.995unspTGME49_289780473 SSRPTSLTPQ0.994unspTGME49_289780480 SPQTTSERRD0.993unspTGME49_289780698 STTRRSGRGS0.997unspTGME49_289780702 SSGRGSEGRN0.997unspTGME49_289780827 SVTLKSLTEN0.994unspTGME49_289780922 SRVRSSVSSL0.992unspTGME49_28978012 SRTRPSVGPL0.992unspTGME49_28978026 STGRHSPSCT0.998unsp

TGME49_089780      



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