LmjF.36.0780 | Calpain family cysteine protease, putative

_IDPredictionOTHERSPmTPCS_Position
LmjF.36.0780OTHER0.9997410.0000350.000224
No Results

  • Fasta :-

    >LmjF.36.0780 MRRPGVEYRWSPCSVHRPSRTSSSPDPPSVSCASATDCCNSSKDEIPPPMSTLSLAPPSL STPVIGDADSGDGDGAQRRMQKQRVLQRREEEVARLEATLARERVANANSLNTLRASLQR ERLLRTTAEKGRQAAQAEGRHLRTALRALLAQPPSNSNTEPLSSTVPVSLYEEARRLLLR CEKTFAELKALQLRSTDAAGLEVLRRYDIPVLDEIPPAWPPVTPQRSGKEEDDHARCRAR AGGGPNSTSAAREKAASGTTPLPMEDTVTGLEISELTALSPDTPCSPSSATRQVRAATAA CEATGTWRGKGRVPPVHTSSNGTANPDVGEETLSADGRRRPRPAVPSFPLPSSETSAAKV VQPWMGPMHEFAGSTPFLDATPLQELSAEHHTRLSELGREDTIRDTDHLLRSLAEEIATL ATSQGLRTASEVAALCRRRGLHYVDAAFPPVSETLGFDSSGGCRGYDVDRRTSFVVEWRP RDAVVPRGRKAELLTSAGIDPDSLRCGRLGDAGVVAALAALAESAGAVMSVLASTTSEDE DNGIYVVWLCVHGWWTRVTVDAYLPCVIEENRPIDLYGCSSTTTYDLWAPVCEKALAKVL CGYHPLCSLTAETAMGNFTGGPVECWDWWHRRSSTALEEMEAALNTSARGAGVVLLSTFS TAVLRDTSSRSVAVAGAYAAYQRLGLRPGTSYRVLAVADNAEGEPMVLLRNWTRRREQRE SGQACCRFDGDSAFRGGDRRNLSPRRDSNDGTAAAKGWLAKPPSQSSAASSQCDSCVWLN YTKEVLPYFDGCHVCFDCRRYHDLRVPIAFTGSRPAIPTQLVRVRVQEGFARPLYGVTRC PTRLWIGLHQPFSRVDTSDAAPACFPWGLKMTLVGQEEAPVPFGGGGGCARPARRSYILS ESFLGEPKELPAVWMYLELEPVADSAPHPATDLQDEDAAATTTSTEFFVVPHMEWIVRKD RAHTSQDDDGLGSLGCDVPSVQHRRSVGQEGQHRRLHKGAAPHSDQSGCASDAERAVWHQ CSNHHPTSLAELSLGNATTAIVAVLAERRESVLVDVVDAPEELRAAVYHDVLDRIDFSDC SVAGGSGHRHTSHLSQASAATALGEVRCQLNGRCMLTFSW
  • Download Fasta
  • MitoProt II - v1.101 File : /home/rajan/sadaf/4480_mitoprot/test/834 Sequence name : 834 Sequence length : 1120 VALUES OF COMPUTED PARAMETERS Coef20 : 4.169 CoefTot : -0.544 ChDiff : -13 ZoneTo : 25 KR : 5 DE : 1 CleavSite : 22 HYDROPHOBIC SCALE USED GES KD GVH1 ECS H17 : 1.429 1.741 0.194 0.619 MesoH : -0.179 0.614 -0.188 0.303 MuHd_075 : 41.654 19.500 8.375 8.572 MuHd_095 : 34.968 12.614 6.903 7.118 MuHd_100 : 32.527 10.358 6.345 6.972 MuHd_105 : 37.287 10.937 7.993 7.608 Hmax_075 : 14.117 9.567 0.868 4.608 Hmax_095 : 6.700 -1.400 -0.325 1.610 Hmax_100 : 5.200 -1.900 -0.592 1.060 Hmax_105 : 3.700 -1.750 -0.614 2.217 CLASS NOT-MITO MITO(/CHLORO) DFM : 0.2981 0.7019 DFMC : 0.2670 0.7330 This protein is probably imported in mitochondria. f(Ser) = 0.2400 f(Arg) = 0.2000 CMi = 0.68571 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) ##### 1120 LmjF.36.0780 MRRPGVEYRWSPCSVHRPSRTSSSPDPPSVSCASATDCCNSSKDEIPPPMSTLSLAPPSLSTPVIGDADSGDGDGAQRRM 80 QKQRVLQRREEEVARLEATLARERVANANSLNTLRASLQRERLLRTTAEKGRQAAQAEGRHLRTALRALLAQPPSNSNTE 160 PLSSTVPVSLYEEARRLLLRCEKTFAELKALQLRSTDAAGLEVLRRYDIPVLDEIPPAWPPVTPQRSGKEEDDHARCRAR 240 AGGGPNSTSAAREKAASGTTPLPMEDTVTGLEISELTALSPDTPCSPSSATRQVRAATAACEATGTWRGKGRVPPVHTSS 320 NGTANPDVGEETLSADGRRRPRPAVPSFPLPSSETSAAKVVQPWMGPMHEFAGSTPFLDATPLQELSAEHHTRLSELGRE 400 DTIRDTDHLLRSLAEEIATLATSQGLRTASEVAALCRRRGLHYVDAAFPPVSETLGFDSSGGCRGYDVDRRTSFVVEWRP 480 RDAVVPRGRKAELLTSAGIDPDSLRCGRLGDAGVVAALAALAESAGAVMSVLASTTSEDEDNGIYVVWLCVHGWWTRVTV 560 DAYLPCVIEENRPIDLYGCSSTTTYDLWAPVCEKALAKVLCGYHPLCSLTAETAMGNFTGGPVECWDWWHRRSSTALEEM 640 EAALNTSARGAGVVLLSTFSTAVLRDTSSRSVAVAGAYAAYQRLGLRPGTSYRVLAVADNAEGEPMVLLRNWTRRREQRE 720 SGQACCRFDGDSAFRGGDRRNLSPRRDSNDGTAAAKGWLAKPPSQSSAASSQCDSCVWLNYTKEVLPYFDGCHVCFDCRR 800 YHDLRVPIAFTGSRPAIPTQLVRVRVQEGFARPLYGVTRCPTRLWIGLHQPFSRVDTSDAAPACFPWGLKMTLVGQEEAP 880 VPFGGGGGCARPARRSYILSESFLGEPKELPAVWMYLELEPVADSAPHPATDLQDEDAAATTTSTEFFVVPHMEWIVRKD 960 RAHTSQDDDGLGSLGCDVPSVQHRRSVGQEGQHRRLHKGAAPHSDQSGCASDAERAVWHQCSNHHPTSLAELSLGNATTA 1040 IVAVLAERRESVLVDVVDAPEELRAAVYHDVLDRIDFSDCSVAGGSGHRHTSHLSQASAATALGEVRCQLNGRCMLTFSW 1120 ................................................................................ 80 ................................................................................ 160 ................................................................................ 240 ................................................................................ 320 ................................................................................ 400 ................................................................................ 480 ................................................................................ 560 ................................................................................ 640 ..............................................................................P. 720 ................................................................................ 800 ................................................................................ 880 ................................................................................ 960 ........................P....................................................... 1040 ................................................................................ 1120 Propeptide cleavage sites predicted: Arg(R)/Lys(K): 2 Name Pos Context Score Pred ____________________________v_________________ LmjF.36.0780 2 -----MR|RP 0.098 . LmjF.36.0780 3 ----MRR|PG 0.117 . LmjF.36.0780 9 RPGVEYR|WS 0.114 . LmjF.36.0780 17 SPCSVHR|PS 0.100 . LmjF.36.0780 20 SVHRPSR|TS 0.244 . LmjF.36.0780 43 DCCNSSK|DE 0.069 . LmjF.36.0780 78 DGDGAQR|RM 0.071 . LmjF.36.0780 79 GDGAQRR|MQ 0.154 . LmjF.36.0780 82 AQRRMQK|QR 0.119 . LmjF.36.0780 84 RRMQKQR|VL 0.140 . LmjF.36.0780 88 KQRVLQR|RE 0.092 . LmjF.36.0780 89 QRVLQRR|EE 0.176 . LmjF.36.0780 95 REEEVAR|LE 0.075 . LmjF.36.0780 102 LEATLAR|ER 0.085 . LmjF.36.0780 104 ATLARER|VA 0.069 . LmjF.36.0780 115 NSLNTLR|AS 0.080 . LmjF.36.0780 120 LRASLQR|ER 0.074 . LmjF.36.0780 122 ASLQRER|LL 0.070 . LmjF.36.0780 125 QRERLLR|TT 0.317 . LmjF.36.0780 130 LRTTAEK|GR 0.068 . LmjF.36.0780 132 TTAEKGR|QA 0.171 . LmjF.36.0780 140 AAQAEGR|HL 0.132 . LmjF.36.0780 143 AEGRHLR|TA 0.300 . LmjF.36.0780 147 HLRTALR|AL 0.098 . LmjF.36.0780 175 SLYEEAR|RL 0.071 . LmjF.36.0780 176 LYEEARR|LL 0.126 . LmjF.36.0780 180 ARRLLLR|CE 0.083 . LmjF.36.0780 183 LLLRCEK|TF 0.080 . LmjF.36.0780 189 KTFAELK|AL 0.054 . LmjF.36.0780 194 LKALQLR|ST 0.214 . LmjF.36.0780 205 AGLEVLR|RY 0.067 . LmjF.36.0780 206 GLEVLRR|YD 0.196 . LmjF.36.0780 226 PPVTPQR|SG 0.139 . LmjF.36.0780 229 TPQRSGK|EE 0.237 . LmjF.36.0780 236 EEDDHAR|CR 0.093 . LmjF.36.0780 238 DDHARCR|AR 0.111 . LmjF.36.0780 240 HARCRAR|AG 0.137 . LmjF.36.0780 252 NSTSAAR|EK 0.099 . LmjF.36.0780 254 TSAAREK|AA 0.099 . LmjF.36.0780 292 SPSSATR|QV 0.224 . LmjF.36.0780 295 SATRQVR|AA 0.383 . LmjF.36.0780 308 EATGTWR|GK 0.108 . LmjF.36.0780 310 TGTWRGK|GR 0.070 . LmjF.36.0780 312 TWRGKGR|VP 0.098 . LmjF.36.0780 338 TLSADGR|RR 0.076 . LmjF.36.0780 339 LSADGRR|RP 0.151 . LmjF.36.0780 340 SADGRRR|PR 0.120 . LmjF.36.0780 342 DGRRRPR|PA 0.361 . LmjF.36.0780 359 SETSAAK|VV 0.074 . LmjF.36.0780 393 SAEHHTR|LS 0.130 . LmjF.36.0780 399 RLSELGR|ED 0.097 . LmjF.36.0780 404 GREDTIR|DT 0.193 . LmjF.36.0780 411 DTDHLLR|SL 0.118 . LmjF.36.0780 427 ATSQGLR|TA 0.105 . LmjF.36.0780 437 EVAALCR|RR 0.076 . LmjF.36.0780 438 VAALCRR|RG 0.090 . LmjF.36.0780 439 AALCRRR|GL 0.173 . LmjF.36.0780 464 DSSGGCR|GY 0.113 . LmjF.36.0780 470 RGYDVDR|RT 0.098 . LmjF.36.0780 471 GYDVDRR|TS 0.127 . LmjF.36.0780 479 SFVVEWR|PR 0.100 . LmjF.36.0780 481 VVEWRPR|DA 0.099 . LmjF.36.0780 487 RDAVVPR|GR 0.152 . LmjF.36.0780 489 AVVPRGR|KA 0.092 . LmjF.36.0780 490 VVPRGRK|AE 0.082 . LmjF.36.0780 505 IDPDSLR|CG 0.078 . LmjF.36.0780 508 DSLRCGR|LG 0.202 . LmjF.36.0780 557 VHGWWTR|VT 0.077 . LmjF.36.0780 572 CVIEENR|PI 0.087 . LmjF.36.0780 594 WAPVCEK|AL 0.067 . LmjF.36.0780 598 CEKALAK|VL 0.064 . LmjF.36.0780 631 CWDWWHR|RS 0.113 . LmjF.36.0780 632 WDWWHRR|SS 0.390 . LmjF.36.0780 649 ALNTSAR|GA 0.274 . LmjF.36.0780 665 FSTAVLR|DT 0.092 . LmjF.36.0780 670 LRDTSSR|SV 0.230 . LmjF.36.0780 683 AYAAYQR|LG 0.069 . LmjF.36.0780 687 YQRLGLR|PG 0.071 . LmjF.36.0780 693 RPGTSYR|VL 0.102 . LmjF.36.0780 710 EPMVLLR|NW 0.105 . LmjF.36.0780 714 LLRNWTR|RR 0.099 . LmjF.36.0780 715 LRNWTRR|RE 0.156 . LmjF.36.0780 716 RNWTRRR|EQ 0.152 . LmjF.36.0780 719 TRRREQR|ES 0.593 *ProP* LmjF.36.0780 727 SGQACCR|FD 0.122 . LmjF.36.0780 735 DGDSAFR|GG 0.074 . LmjF.36.0780 739 AFRGGDR|RN 0.068 . LmjF.36.0780 740 FRGGDRR|NL 0.172 . LmjF.36.0780 745 RRNLSPR|RD 0.131 . LmjF.36.0780 746 RNLSPRR|DS 0.201 . LmjF.36.0780 756 DGTAAAK|GW 0.067 . LmjF.36.0780 761 AKGWLAK|PP 0.074 . LmjF.36.0780 783 VWLNYTK|EV 0.066 . LmjF.36.0780 799 HVCFDCR|RY 0.080 . LmjF.36.0780 800 VCFDCRR|YH 0.104 . LmjF.36.0780 805 RRYHDLR|VP 0.086 . LmjF.36.0780 814 IAFTGSR|PA 0.089 . LmjF.36.0780 823 IPTQLVR|VR 0.076 . LmjF.36.0780 825 TQLVRVR|VQ 0.081 . LmjF.36.0780 832 VQEGFAR|PL 0.104 . LmjF.36.0780 839 PLYGVTR|CP 0.079 . LmjF.36.0780 843 VTRCPTR|LW 0.079 . LmjF.36.0780 854 LHQPFSR|VD 0.074 . LmjF.36.0780 870 CFPWGLK|MT 0.059 . LmjF.36.0780 891 GGGGCAR|PA 0.107 . LmjF.36.0780 894 GCARPAR|RS 0.242 . LmjF.36.0780 895 CARPARR|SY 0.245 . LmjF.36.0780 908 SFLGEPK|EL 0.060 . LmjF.36.0780 958 HMEWIVR|KD 0.090 . LmjF.36.0780 959 MEWIVRK|DR 0.087 . LmjF.36.0780 961 WIVRKDR|AH 0.246 . LmjF.36.0780 984 VPSVQHR|RS 0.170 . LmjF.36.0780 985 PSVQHRR|SV 0.663 *ProP* LmjF.36.0780 994 GQEGQHR|RL 0.093 . LmjF.36.0780 995 QEGQHRR|LH 0.161 . LmjF.36.0780 998 QHRRLHK|GA 0.234 . LmjF.36.0780 1015 CASDAER|AV 0.160 . LmjF.36.0780 1048 VAVLAER|RE 0.071 . LmjF.36.0780 1049 AVLAERR|ES 0.080 . LmjF.36.0780 1064 DAPEELR|AA 0.071 . LmjF.36.0780 1074 YHDVLDR|ID 0.068 . LmjF.36.0780 1089 AGGSGHR|HT 0.083 . LmjF.36.0780 1107 TALGEVR|CQ 0.084 . LmjF.36.0780 1113 RCQLNGR|CM 0.076 . ____________________________^_________________

  • Fasta :-

    >LmjF.36.0780 ATGCGTCGCCCAGGTGTGGAGTACCGGTGGTCCCCTTGCTCTGTACACAGACCCTCGCGC ACGTCTTCCTCGCCAGATCCGCCGTCTGTGTCGTGCGCCTCCGCAACAGACTGCTGCAAC TCGAGCAAGGATGAAATCCCACCGCCGATGTCGACGTTGTCGCTAGCGCCGCCGTCGCTG TCCACCCCGGTGATCGGCGATGCGGACAGCGGAGACGGAGACGGAGCCCAGCGCAGGATG CAAAAACAACGAGTGCTGCAGCGACGAGAAGAGGAAGTGGCGCGTCTCGAAGCCACCTTG GCACGGGAACGCGTCGCCAACGCCAACTCGCTGAACACCCTTCGAGCGTCGCTGCAGCGT GAGCGCCTGCTGCGCACCACGGCGGAGAAGGGGCGACAGGCCGCTCAGGCTGAGGGCAGA CACCTGCGCACCGCACTCCGGGCGCTCCTAGCTCAGCCACCAAGCAACAGCAACACCGAA CCGTTGTCGTCGACGGTGCCTGTCTCCCTTTACGAAGAGGCGCGCCGCCTCCTCCTGCGG TGTGAGAAGACGTTTGCGGAGCTTAAGGCGCTCCAGCTGCGCTCAACCGATGCCGCTGGC CTCGAGGTACTCCGCCGGTACGACATTCCGGTGCTCGACGAGATCCCGCCCGCGTGGCCG CCTGTGACGCCGCAGCGCAGCGGCAAAGAGGAAGACGACCACGCGCGATGCCGGGCGCGT GCTGGTGGTGGACCGAATTCTACCTCGGCCGCACGTGAGAAGGCTGCTTCTGGCACTACT CCACTCCCGATGGAGGACACGGTGACCGGGCTCGAGATATCGGAGCTGACTGCTCTCTCG CCAGACACACCGTGCAGCCCGAGTTCGGCAACGCGGCAGGTGAGGGCGGCCACAGCTGCC TGTGAGGCGACGGGGACGTGGCGTGGGAAGGGGCGCGTACCCCCTGTCCACACCTCGTCA AACGGCACGGCTAACCCTGATGTCGGAGAGGAAACCCTCAGCGCCGACGGTCGTCGTCGT CCACGGCCCGCCGTCCCCAGTTTCCCGCTGCCATCTTCGGAGACCAGCGCCGCGAAAGTT GTGCAGCCGTGGATGGGGCCCATGCACGAGTTCGCCGGGTCGACGCCCTTTCTTGACGCC ACGCCGTTGCAAGAGCTCAGCGCAGAGCACCACACGCGACTGAGTGAGTTGGGGCGAGAG GACACGATTCGCGACACGGATCACCTTCTCCGGTCTCTGGCAGAAGAGATCGCAACGCTG GCGACGAGCCAAGGGCTCCGCACTGCGTCCGAGGTGGCAGCGCTGTGCCGCCGCCGCGGG CTGCACTACGTCGATGCCGCGTTTCCTCCCGTGTCGGAGACGCTTGGCTTTGACAGCAGT GGTGGCTGCCGCGGCTACGATGTAGACCGGCGCACTTCGTTTGTAGTGGAGTGGCGCCCC CGCGACGCCGTCGTGCCTCGTGGTAGGAAAGCTGAGCTGCTGACGAGCGCCGGCATCGAC CCCGACTCGCTGCGCTGCGGCCGACTGGGCGACGCTGGTGTTGTTGCCGCCTTGGCTGCG CTCGCTGAGTCTGCTGGTGCGGTGATGAGCGTGCTCGCCAGCACGACGAGCGAGGACGAG GACAATGGCATCTACGTTGTCTGGCTGTGCGTGCACGGCTGGTGGACGCGCGTCACGGTC GACGCGTATCTGCCGTGCGTCATCGAGGAAAACAGACCTATCGACCTGTACGGATGCAGC AGCACCACTACCTACGACCTCTGGGCACCTGTTTGTGAGAAAGCGCTAGCCAAAGTGCTG TGTGGCTATCACCCGCTCTGCAGTCTGACAGCAGAGACGGCGATGGGCAACTTTACGGGA GGACCGGTCGAGTGCTGGGACTGGTGGCACAGGCGCAGCAGCACGGCGCTGGAGGAGATG GAGGCGGCTCTCAACACAAGCGCACGCGGCGCGGGCGTGGTGCTGCTCTCCACCTTTTCA ACGGCGGTCCTGCGTGACACATCTTCGAGATCGGTGGCTGTGGCTGGGGCATATGCGGCC TACCAGCGCCTCGGGCTTCGACCTGGCACGTCGTACCGCGTGCTGGCCGTGGCTGATAAT GCAGAGGGTGAGCCGATGGTCCTCCTGCGCAACTGGACACGAAGGCGCGAACAGCGGGAG AGCGGTCAGGCGTGCTGTCGCTTTGATGGCGATTCCGCATTCCGCGGTGGTGACCGTCGC AACCTTTCGCCGCGGCGGGACAGCAATGACGGCACTGCGGCCGCGAAGGGATGGCTGGCA AAGCCGCCGTCGCAGTCGAGTGCCGCTTCAAGTCAGTGCGACTCGTGTGTGTGGCTGAAC TACACCAAAGAAGTGCTACCCTACTTCGACGGATGCCACGTGTGCTTTGACTGCCGCCGG TACCACGACCTTCGCGTTCCGATTGCGTTTACGGGCTCACGGCCGGCCATTCCAACGCAG CTGGTTCGTGTCCGTGTTCAGGAAGGTTTCGCGAGGCCCCTGTACGGGGTGACGCGCTGC CCGACACGGCTGTGGATCGGGCTACACCAGCCGTTCTCCCGCGTCGACACCAGCGATGCT GCTCCCGCTTGCTTTCCGTGGGGGCTGAAGATGACCCTGGTGGGCCAAGAAGAGGCCCCG GTCCCCTTTGGGGGAGGCGGCGGCTGTGCGCGTCCTGCGCGCCGGTCATACATCTTGTCC GAGTCCTTCTTAGGCGAGCCAAAGGAGCTGCCAGCGGTGTGGATGTACTTGGAACTGGAG CCAGTCGCGGACAGCGCACCTCATCCTGCCACGGATCTCCAAGATGAGGACGCCGCGGCG ACAACCACGTCAACAGAGTTCTTCGTTGTGCCGCACATGGAATGGATCGTCAGGAAGGAC AGGGCACACACCAGCCAGGATGATGATGGACTCGGCTCTCTCGGATGTGACGTACCCTCT GTTCAGCACCGGCGCAGTGTAGGGCAAGAGGGTCAGCACAGGCGCCTCCACAAGGGTGCG GCACCGCATAGCGACCAAAGCGGCTGCGCAAGTGATGCGGAGAGAGCGGTGTGGCACCAG TGCAGTAATCACCATCCCACCAGTTTAGCTGAACTCTCACTCGGCAACGCCACGACAGCA ATCGTGGCGGTCTTGGCAGAGCGCAGGGAGTCGGTGCTAGTGGACGTCGTTGACGCGCCG GAGGAGCTGCGCGCTGCTGTGTATCACGACGTATTGGATCGTATCGACTTCTCTGATTGT TCAGTCGCAGGGGGCAGTGGCCACCGCCACACATCCCACCTGTCGCAAGCGAGCGCTGCT ACAGCACTGGGAGAGGTGCGCTGCCAGTTGAATGGACGCTGCATGCTAACGTTTTCCTGG TGA
  • Download Fasta

  • Fasta :-

    MRRPGVEYRWSPCSVHRPSRTSSSPDPPSVSCASATDCCNSSKDEIPPPMSTLSLAPPSL STPVIGDADSGDGDGAQRRMQKQRVLQRREEEVARLEATLARERVANANSLNTLRASLQR ERLLRTTAEKGRQAAQAEGRHLRTALRALLAQPPSNSNTEPLSSTVPVSLYEEARRLLLR CEKTFAELKALQLRSTDAAGLEVLRRYDIPVLDEIPPAWPPVTPQRSGKEEDDHARCRAR AGGGPNSTSAAREKAASGTTPLPMEDTVTGLEISELTALSPDTPCSPSSATRQVRAATAA CEATGTWRGKGRVPPVHTSSNGTANPDVGEETLSADGRRRPRPAVPSFPLPSSETSAAKV VQPWMGPMHEFAGSTPFLDATPLQELSAEHHTRLSELGREDTIRDTDHLLRSLAEEIATL ATSQGLRTASEVAALCRRRGLHYVDAAFPPVSETLGFDSSGGCRGYDVDRRTSFVVEWRP RDAVVPRGRKAELLTSAGIDPDSLRCGRLGDAGVVAALAALAESAGAVMSVLASTTSEDE DNGIYVVWLCVHGWWTRVTVDAYLPCVIEENRPIDLYGCSSTTTYDLWAPVCEKALAKVL CGYHPLCSLTAETAMGNFTGGPVECWDWWHRRSSTALEEMEAALNTSARGAGVVLLSTFS TAVLRDTSSRSVAVAGAYAAYQRLGLRPGTSYRVLAVADNAEGEPMVLLRNWTRRREQRE SGQACCRFDGDSAFRGGDRRNLSPRRDSNDGTAAAKGWLAKPPSQSSAASSQCDSCVWLN YTKEVLPYFDGCHVCFDCRRYHDLRVPIAFTGSRPAIPTQLVRVRVQEGFARPLYGVTRC PTRLWIGLHQPFSRVDTSDAAPACFPWGLKMTLVGQEEAPVPFGGGGGCARPARRSYILS ESFLGEPKELPAVWMYLELEPVADSAPHPATDLQDEDAAATTTSTEFFVVPHMEWIVRKD RAHTSQDDDGLGSLGCDVPSVQHRRSVGQEGQHRRLHKGAAPHSDQSGCASDAERAVWHQ CSNHHPTSLAELSLGNATTAIVAVLAERRESVLVDVVDAPEELRAAVYHDVLDRIDFSDC SVAGGSGHRHTSHLSQASAATALGEVRCQLNGRCMLTFSW

  • title: catalytic site
  • coordinates: A512,T690,N711
No Results
No Results
IDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethod
LmjF.36.078023 SSRTSSSPDP0.997unspLmjF.36.078023 SSRTSSSPDP0.997unspLmjF.36.078023 SSRTSSSPDP0.997unspLmjF.36.078041 SDCCNSSKDE0.996unspLmjF.36.0780169 STVPVSLYEE0.993unspLmjF.36.0780227 STPQRSGKEE0.997unspLmjF.36.0780402 TGREDTIRDT0.997unspLmjF.36.0780503 SIDPDSLRCG0.991unspLmjF.36.0780743 SRRNLSPRRD0.997unspLmjF.36.0780748 SPRRDSNDGT0.997unspLmjF.36.0780771 SSAASSQCDS0.997unspLmjF.36.07801051 SERRESVLVD0.994unspLmjF.36.078019 SVHRPSRTSS0.995unspLmjF.36.078022 SPSRTSSSPD0.996unsp

LmjF.36.0780      



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