LmxM.27.0510 | cysteine peptidase, Clan CA, family C2, putative

_IDPredictionOTHERSPmTPCS_Position
LmxM.27.0510OTHER0.9999530.0000430.000004
No Results

  • Fasta :-

    >LmxM.27.0510 MSSPFTEVPDSKTLFKDTEFIESNQDVADQWVSIRDLYPSGVNQPLLPEAFSREQFGQGN HYECFMISALATLIRFPDVIRNCFVTKKVRQDGRYTFQFFRGQEWVRVEIDDTIPLEDDA VLYAQSPTEHWWPLLLEKAYAKFYTAYDHLEGCTLLETFHDLTGNPVLNIPMDAKLAKAA GVNTKDGPYWLSMGEGLLRGDYVLSALTKHSELESIGMQSEQQYAILGIFSLTGASALDD IVIHLHNPFEDDEYEYSGPLNKKDSKWPAKLRQQYPVDDRYSIFIPLKLLLKSLNSIQYC LMRTVEAVSQTYRAAWKGESAGGNPTSVLWRKNPFFLVRNSGPTDIKIVTMVQQEDHRRF SDPDSDATYVQCGVVVTRFTYQHPIPTFYVTGNSHKTTFKGLFLNSREVANIIMIPAHSM CYLVPSCMHKGAEASFQLSLYHFKDQDYSQLSVEQLAIPGMNWASPATKDIELCHKKKDR VDFYVDEGTDIHILVHQTKPYVSKSGGDAMTEDYMGMYLYDDTDRKIAGVHAATNFREIS IIHRLPRSGRYAISITCPRAKGEVPAYITIVGSHASNVRIVDPPEDATMFDDEDIIDEGD EAALVENPIDYVPVVFDVAHHGEQAESDSPFEDKRFYVDNRGATSEPWVHIGDLYPEGKA KPLLPDELSRDQFGQGDHYDCSTLTAFAALLERHPDVIRNCFISKKPRKDGRYTFQFHRY GQWIKVEIDDRIPMVKGDTVFCRSPTHHWWPLLLEKAYAKFYTLYQNLEDISQGEVFHDY TGRPCVSVSTDPAAAKVNMSYFDDVPYWKELASKLPDLCTTALASGKDAEQYGLLTGRYY ALLDIVPIRDGQRVCDMLVKMYNPYEDSPYKGPMNAKDGAWTREPLSRFRPRKDSHAFYI PANNFVTGFSGMQMGYVDGLAEPPRYFNSEWGPNTNGGDTSLVSWRQNPMFIFSNPTKDI VQLVGMLHQPDRRHLRHTMPNHELAYPMKGLSVAQANPSAAGISTHLVTLDNHRLIHCET PVPVREVANVLTIPPQSLCYVAGHCSNRAISKFILSYWFMRADDGEKLRIERYRPTVAQH QPAIAHVDLRNQANARVDFLVDTPTDVHAVLGQEKAFDSPQGGNVIAEDYVGVYLCDLQN NRIKGLPSAVNYREVSLVTHLTKPGHYAFLITCPRGSGDVPCKMEICAVEGAHVRITETP QDAAALGAMDMAFLESHPESIPLSELPIDRDIQFQDDLAALERLLNDPSANTEEIQRLQN CLNKRAHELAKAKLASERPIYLAGHDLHSLNPLLDDDQVYMDAERERYYLKQDLRNHYKL SAQEAKLRSIADNIADELLHIDLSFIDTRPEGIPRDAIPMISDEAFAGMMTDLLRLRRRP ESNASAIRDVEYRLVKRATEMARSMHEAERTYLDREPEFVPLDLLPLNTDERFCAEEDEL RQLLRSSTTSQATVTALQAKINKHAHELAQQLKDGERGKVLADSYEGIPTSELPLDTDAA FHEMEVERLRRLRTGTDADAEAARLGDEMRKRARDLAVSMKASERAMLRSMETPLTAGQV DALLDSDTETADMERRLRELRKRPDKNASAIKSLEKEVQKRAQGLADGHLAEERSKYLAA EYGGRAMGTLPLDGDAAYRDAEAARMKMLESGHADPAALQRLIDTMGERAAGIAHGMNVA DRAKYLPKALRGVPLRALPLDDDAEFRRLEHARARAACTPGHKAEVTALEAQLLARADAL ARARLEGDRAYLAPEPAGVPLELVPLDEDAEFCAKEAQRAELKENGKTDRTGIALKETEL NARAVVVAQQLKDGERGKVLADSYEGIPTSELPLDTDAAFHEMELQRLRLKVTDSQLSGT VKGSVDFALNRRAAELARCLRVADLSSVDDVPLGLAKEVLDLHNDAIGAALINDLRLLRK NPSGSAVILREKESALNNRAFEVARRLLAGDRTKYLDPRPRSILLEHIPLDEDVVFHALE VERSMIKVTDPVNCGAAVRKAESMLKDRACQLAELVMKDDLSHFPPLYNGICTKDLKPHS DRLFSEAAEKRRACVRDGTVTSTENIEQIMDDRLNELARELKEGELYFIDPNPEGVPLSQ LPLSTDEAFNDLRHRRQELKESDPMENRKAIAGLEDEMNSRAAELARSVLSRDFDDVDKL PLGIPLDLLKPRQDTEVVRLIDELRQSKRLPQLKHNVAELQANLNKRVHELATAALEEGR DTYLDLHPEGVPREILPLSTDAVFQKEVQRTILRLKDPVKHAGAIANLESELKACVKELA LAQKEEDLRGLDQHPHDLPLALLQPHQDAELGKTIDELRWLKASEGDRQIAIKEVQSRMN DRCYAMADGVMKEDRGYLHPKPEKVPLGRLPLDTDAAFHVLEAERAKLKLTDPRKNEHQI ADLEDQLNTRAAELARAVKMEDLKSLAQTPCGIPLELLNLHEDPTLSALIAEKEQLPEGH SADSVARLLRAMNQCAMIAATKLLRGDRGYLDQDPEGLPLAHLPLDTDAAFYEMEVERAV LKARDPVKNSSAIKGLEVQLNKRAHDLANVALAMDRGYLNPQPEGVSIEELPLFTDSKFH SMEVERAKLKVSGADGNAERMQELEGRLNKRAASLARKQLEEDLNGLDQEPEGYPLNLLR PHNDAVFAAEVVSLRRVKKEPLVSAAKVRDAQEALNVRAHGLARERIAVDRARLDQEPEN VPLSLLTLEEDALFVAMEKELRLLKASDKQSPRAIAEAEGRMNDRVHVMAAKVKAEGRDF LRSKSSDIPKELLALDADKTFVAKEKELWKQKLQPNAPHSSSAAADLRRELQARADEVGV AQLKGDRDKYLDMNPEGVDLCDIPLDTDHVFHGMEVERAILLAQDATGRGSAVEELEKKL NGRAHELAHEIVVGDRGYLPEEMHGIPLEELPLDTDRRFMKLERQRRAHKRSPDMKKEVA ADEEELRNHALKLADEVIAMDVEPIKAFYRGIAKEELNLHADSAFRELAKKRRRQRGKGR VEAAEMAVIEDEMDRRACEIADDLINAERAFLDPQPEGMYINEVPLDDDPTFQKLEQEYR RRRRDPRSANQNEDVLRELTKAMNRRSHTLARAAFAKTRGFMEQEQEGIPLAELGLDEDP EFKEAEIARYRMNHSAYPNAATVAEMELRMNERAKELACATLAADRVFMDPMPEGVLLEE LPLDSDKEFGDLARERRRRKKMLKGGMGEAEVRAIEEKMNARSHELAKEFLEAERAFLSR EPEGVPLTDLPLNADSLFRTMEDERLQLKREPLSNTAMIAAKETDLEDRAHVIAKDLLRK ERALLDQEPLGVPLEELPLNHDEILNPIERKRRALRAHPKRNHEAIRACEEQMADRVGQI AEDFVKMERAFLDQSPEGVPLRYLPLNTDREFHERELQRRKLLQRHDKSRSELADTERKM NERVHVLAKDLVLKGRAFLHSEPCGVPIADVPLNEDEGFRKMEEQRRALKEAGRSAASVK AIEEKLNNRAEELAQGLLDDERAFMDCAPLGIPLQDLRLNTDRRMREIERTRRHLRKFDP EGGAVDIAVLESGMNTRAYELADQLLSSDREYLQPEQCGVPLADLPLNTDCIFHEKELAR FRAKKKGQTDLSQMEDELNKRAMELGAEFIQTERAYLDQEPEGILLERLPLDTDPIFHNI ELERRRLKRSGENPSQVLELEHLLNRRAHELAMELRGWQDSEFHAANEHVAEQWVRVCDL YPEGRYEAFVPEALAPDDVVSAPQDMSYLVPFIAALSRLPVLLRRLIVTQEVPVNAPYTF IFFDPHGNPVYIDVDDRVPCNDKREPKFAQSPYHLWYPLLLEKAYAKFVGGYDQLVNCTS LETLRDLTGRPVTHTPFKRNLAEAVNPDNYTSVDFWLGVKESMARGDVVVCSSNTAVPNG IHPCCSYALVDVVITLEGSTNLSDIVIKLENSYRNDEPVYTGPLCHTDVKWSLALQHVCQ YDVEKDDVLYLPLQTFLRNFSSMQTCHINCGDRLTATGTWNRRTSGGNANFTSFRNNPIF ILQNSSSRPATVLAELRHEAPQFVDPDGRTHYPQSGIVLMEPKSSTAPLTPLMTNSTASF LHKSIMLDSRELCSVMEVPAHSTCLFIPYTAKIGHYGTFHVSVYPGSAKVALTPLNYCGL SREPKSTAVTLTPGAESQRVDFTISSACDVHVLLRQEKMTDRLAAITGDAIAEDDVMMVA FSDQAMRLTSSGDPTNAREHSLVFRAEKPGYYSLLLASPNQPVSGNNPCTVSIFTPKRVM VRFVAPPAGARQLQHTSFPNLPQKLTAASGGSSPRRLGKASAVYQSKHRQHAERLPPLRK NGARPMSHGPVSSGDRISCTF
  • Download Fasta
  • MitoProt II - v1.101 File : /home/rajan/sadaf/4480_mitoprot/test/198 Sequence name : 198 Sequence length : 4341 VALUES OF COMPUTED PARAMETERS Coef20 : 3.553 CoefTot : -0.029 ChDiff : -134 ZoneTo : 6 KR : 0 DE : 0 CleavSite : 0 HYDROPHOBIC SCALE USED GES KD GVH1 ECS H17 : 1.624 1.635 0.284 0.576 MesoH : 0.160 0.462 -0.218 0.269 MuHd_075 : 30.011 16.058 8.454 6.353 MuHd_095 : 5.182 5.331 2.097 1.203 MuHd_100 : 18.530 12.918 3.772 3.873 MuHd_105 : 27.597 17.663 5.835 5.532 Hmax_075 : 9.917 8.283 0.322 3.920 Hmax_095 : 0.500 2.300 -2.066 1.270 Hmax_100 : 5.000 5.400 -1.324 2.580 Hmax_105 : 5.163 5.400 -1.040 2.791 CLASS NOT-MITO MITO(/CHLORO) DFM : 0.9936 0.0064 DFMC : 0.9641 0.0359
  • ##### ProP v.1.0b ProPeptide Cleavage Site Prediction ##### ##### Furin-type cleavage site prediction (Arginine/Lysine residues) ##### 4341 LmxM.27.0510 MSSPFTEVPDSKTLFKDTEFIESNQDVADQWVSIRDLYPSGVNQPLLPEAFSREQFGQGNHYECFMISALATLIRFPDVI 80 RNCFVTKKVRQDGRYTFQFFRGQEWVRVEIDDTIPLEDDAVLYAQSPTEHWWPLLLEKAYAKFYTAYDHLEGCTLLETFH 160 DLTGNPVLNIPMDAKLAKAAGVNTKDGPYWLSMGEGLLRGDYVLSALTKHSELESIGMQSEQQYAILGIFSLTGASALDD 240 IVIHLHNPFEDDEYEYSGPLNKKDSKWPAKLRQQYPVDDRYSIFIPLKLLLKSLNSIQYCLMRTVEAVSQTYRAAWKGES 320 AGGNPTSVLWRKNPFFLVRNSGPTDIKIVTMVQQEDHRRFSDPDSDATYVQCGVVVTRFTYQHPIPTFYVTGNSHKTTFK 400 GLFLNSREVANIIMIPAHSMCYLVPSCMHKGAEASFQLSLYHFKDQDYSQLSVEQLAIPGMNWASPATKDIELCHKKKDR 480 VDFYVDEGTDIHILVHQTKPYVSKSGGDAMTEDYMGMYLYDDTDRKIAGVHAATNFREISIIHRLPRSGRYAISITCPRA 560 KGEVPAYITIVGSHASNVRIVDPPEDATMFDDEDIIDEGDEAALVENPIDYVPVVFDVAHHGEQAESDSPFEDKRFYVDN 640 RGATSEPWVHIGDLYPEGKAKPLLPDELSRDQFGQGDHYDCSTLTAFAALLERHPDVIRNCFISKKPRKDGRYTFQFHRY 720 GQWIKVEIDDRIPMVKGDTVFCRSPTHHWWPLLLEKAYAKFYTLYQNLEDISQGEVFHDYTGRPCVSVSTDPAAAKVNMS 800 YFDDVPYWKELASKLPDLCTTALASGKDAEQYGLLTGRYYALLDIVPIRDGQRVCDMLVKMYNPYEDSPYKGPMNAKDGA 880 WTREPLSRFRPRKDSHAFYIPANNFVTGFSGMQMGYVDGLAEPPRYFNSEWGPNTNGGDTSLVSWRQNPMFIFSNPTKDI 960 VQLVGMLHQPDRRHLRHTMPNHELAYPMKGLSVAQANPSAAGISTHLVTLDNHRLIHCETPVPVREVANVLTIPPQSLCY 1040 VAGHCSNRAISKFILSYWFMRADDGEKLRIERYRPTVAQHQPAIAHVDLRNQANARVDFLVDTPTDVHAVLGQEKAFDSP 1120 QGGNVIAEDYVGVYLCDLQNNRIKGLPSAVNYREVSLVTHLTKPGHYAFLITCPRGSGDVPCKMEICAVEGAHVRITETP 1200 QDAAALGAMDMAFLESHPESIPLSELPIDRDIQFQDDLAALERLLNDPSANTEEIQRLQNCLNKRAHELAKAKLASERPI 1280 YLAGHDLHSLNPLLDDDQVYMDAERERYYLKQDLRNHYKLSAQEAKLRSIADNIADELLHIDLSFIDTRPEGIPRDAIPM 1360 ISDEAFAGMMTDLLRLRRRPESNASAIRDVEYRLVKRATEMARSMHEAERTYLDREPEFVPLDLLPLNTDERFCAEEDEL 1440 RQLLRSSTTSQATVTALQAKINKHAHELAQQLKDGERGKVLADSYEGIPTSELPLDTDAAFHEMEVERLRRLRTGTDADA 1520 EAARLGDEMRKRARDLAVSMKASERAMLRSMETPLTAGQVDALLDSDTETADMERRLRELRKRPDKNASAIKSLEKEVQK 1600 RAQGLADGHLAEERSKYLAAEYGGRAMGTLPLDGDAAYRDAEAARMKMLESGHADPAALQRLIDTMGERAAGIAHGMNVA 1680 DRAKYLPKALRGVPLRALPLDDDAEFRRLEHARARAACTPGHKAEVTALEAQLLARADALARARLEGDRAYLAPEPAGVP 1760 LELVPLDEDAEFCAKEAQRAELKENGKTDRTGIALKETELNARAVVVAQQLKDGERGKVLADSYEGIPTSELPLDTDAAF 1840 HEMELQRLRLKVTDSQLSGTVKGSVDFALNRRAAELARCLRVADLSSVDDVPLGLAKEVLDLHNDAIGAALINDLRLLRK 1920 NPSGSAVILREKESALNNRAFEVARRLLAGDRTKYLDPRPRSILLEHIPLDEDVVFHALEVERSMIKVTDPVNCGAAVRK 2000 AESMLKDRACQLAELVMKDDLSHFPPLYNGICTKDLKPHSDRLFSEAAEKRRACVRDGTVTSTENIEQIMDDRLNELARE 2080 LKEGELYFIDPNPEGVPLSQLPLSTDEAFNDLRHRRQELKESDPMENRKAIAGLEDEMNSRAAELARSVLSRDFDDVDKL 2160 PLGIPLDLLKPRQDTEVVRLIDELRQSKRLPQLKHNVAELQANLNKRVHELATAALEEGRDTYLDLHPEGVPREILPLST 2240 DAVFQKEVQRTILRLKDPVKHAGAIANLESELKACVKELALAQKEEDLRGLDQHPHDLPLALLQPHQDAELGKTIDELRW 2320 LKASEGDRQIAIKEVQSRMNDRCYAMADGVMKEDRGYLHPKPEKVPLGRLPLDTDAAFHVLEAERAKLKLTDPRKNEHQI 2400 ADLEDQLNTRAAELARAVKMEDLKSLAQTPCGIPLELLNLHEDPTLSALIAEKEQLPEGHSADSVARLLRAMNQCAMIAA 2480 TKLLRGDRGYLDQDPEGLPLAHLPLDTDAAFYEMEVERAVLKARDPVKNSSAIKGLEVQLNKRAHDLANVALAMDRGYLN 2560 PQPEGVSIEELPLFTDSKFHSMEVERAKLKVSGADGNAERMQELEGRLNKRAASLARKQLEEDLNGLDQEPEGYPLNLLR 2640 PHNDAVFAAEVVSLRRVKKEPLVSAAKVRDAQEALNVRAHGLARERIAVDRARLDQEPENVPLSLLTLEEDALFVAMEKE 2720 LRLLKASDKQSPRAIAEAEGRMNDRVHVMAAKVKAEGRDFLRSKSSDIPKELLALDADKTFVAKEKELWKQKLQPNAPHS 2800 SSAAADLRRELQARADEVGVAQLKGDRDKYLDMNPEGVDLCDIPLDTDHVFHGMEVERAILLAQDATGRGSAVEELEKKL 2880 NGRAHELAHEIVVGDRGYLPEEMHGIPLEELPLDTDRRFMKLERQRRAHKRSPDMKKEVAADEEELRNHALKLADEVIAM 2960 DVEPIKAFYRGIAKEELNLHADSAFRELAKKRRRQRGKGRVEAAEMAVIEDEMDRRACEIADDLINAERAFLDPQPEGMY 3040 INEVPLDDDPTFQKLEQEYRRRRRDPRSANQNEDVLRELTKAMNRRSHTLARAAFAKTRGFMEQEQEGIPLAELGLDEDP 3120 EFKEAEIARYRMNHSAYPNAATVAEMELRMNERAKELACATLAADRVFMDPMPEGVLLEELPLDSDKEFGDLARERRRRK 3200 KMLKGGMGEAEVRAIEEKMNARSHELAKEFLEAERAFLSREPEGVPLTDLPLNADSLFRTMEDERLQLKREPLSNTAMIA 3280 AKETDLEDRAHVIAKDLLRKERALLDQEPLGVPLEELPLNHDEILNPIERKRRALRAHPKRNHEAIRACEEQMADRVGQI 3360 AEDFVKMERAFLDQSPEGVPLRYLPLNTDREFHERELQRRKLLQRHDKSRSELADTERKMNERVHVLAKDLVLKGRAFLH 3440 SEPCGVPIADVPLNEDEGFRKMEEQRRALKEAGRSAASVKAIEEKLNNRAEELAQGLLDDERAFMDCAPLGIPLQDLRLN 3520 TDRRMREIERTRRHLRKFDPEGGAVDIAVLESGMNTRAYELADQLLSSDREYLQPEQCGVPLADLPLNTDCIFHEKELAR 3600 FRAKKKGQTDLSQMEDELNKRAMELGAEFIQTERAYLDQEPEGILLERLPLDTDPIFHNIELERRRLKRSGENPSQVLEL 3680 EHLLNRRAHELAMELRGWQDSEFHAANEHVAEQWVRVCDLYPEGRYEAFVPEALAPDDVVSAPQDMSYLVPFIAALSRLP 3760 VLLRRLIVTQEVPVNAPYTFIFFDPHGNPVYIDVDDRVPCNDKREPKFAQSPYHLWYPLLLEKAYAKFVGGYDQLVNCTS 3840 LETLRDLTGRPVTHTPFKRNLAEAVNPDNYTSVDFWLGVKESMARGDVVVCSSNTAVPNGIHPCCSYALVDVVITLEGST 3920 NLSDIVIKLENSYRNDEPVYTGPLCHTDVKWSLALQHVCQYDVEKDDVLYLPLQTFLRNFSSMQTCHINCGDRLTATGTW 4000 NRRTSGGNANFTSFRNNPIFILQNSSSRPATVLAELRHEAPQFVDPDGRTHYPQSGIVLMEPKSSTAPLTPLMTNSTASF 4080 LHKSIMLDSRELCSVMEVPAHSTCLFIPYTAKIGHYGTFHVSVYPGSAKVALTPLNYCGLSREPKSTAVTLTPGAESQRV 4160 DFTISSACDVHVLLRQEKMTDRLAAITGDAIAEDDVMMVAFSDQAMRLTSSGDPTNAREHSLVFRAEKPGYYSLLLASPN 4240 QPVSGNNPCTVSIFTPKRVMVRFVAPPAGARQLQHTSFPNLPQKLTAASGGSSPRRLGKASAVYQSKHRQHAERLPPLRK 4320 NGARPMSHGPVSSGDRISCTF 4400 ................................................................................ 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 ................................................................................ 2080 ................................................................................ 2160 ................................................................................ 2240 ................................................................................ 2320 ................................................................................ 2400 ................................................................................ 2480 ................................................................................ 2560 ................................................................................ 2640 ................................................................................ 2720 ................................................................................ 2800 ................................................................................ 2880 ................................................................................ 2960 ................................................................................ 3040 ................................................................................ 3120 ................................................................................ 3200 ................................................................................ 3280 ................................................................................ 3360 ................................................................................ 3440 ................................................................................ 3520 ................................................................................ 3600 ................................................................................ 3680 ................................................................................ 3760 ................................................................................ 3840 ................................................................................ 3920 ................................................................................ 4000 ................................................................................ 4080 ................................................................................ 4160 ................................................................................ 4240 ................................................................................ 4320 ..................... 4400 Propeptide cleavage sites predicted: Arg(R)/Lys(K): 0

  • Fasta :-

    >LmxM.27.0510 ATGTCGTCACCTTTTACGGAGGTACCGGACAGCAAAACGCTCTTCAAGGACACTGAGTTT ATCGAAAGTAATCAAGATGTGGCAGATCAGTGGGTGTCCATTCGAGACCTGTATCCGAGC GGCGTGAACCAGCCGCTGCTGCCGGAAGCATTCTCGCGCGAGCAGTTCGGCCAGGGCAAC CACTATGAATGCTTCATGATATCGGCACTTGCAACGCTGATCCGCTTCCCGGATGTAATC CGCAACTGCTTTGTGACGAAGAAGGTGCGCCAGGATGGTCGCTACACGTTCCAGTTCTTC CGCGGACAGGAGTGGGTGAGGGTCGAGATCGACGACACCATTCCTTTAGAGGATGATGCA GTTCTGTACGCGCAGTCCCCGACCGAGCACTGGTGGCCGCTGCTGCTGGAGAAGGCGTAC GCGAAGTTCTACACCGCCTACGACCACCTCGAGGGCTGCACCCTTTTAGAGACATTCCAC GACCTGACAGGCAACCCGGTGCTGAACATCCCCATGGACGCCAAGCTGGCCAAGGCGGCC GGCGTCAATACCAAAGATGGACCGTACTGGCTGTCGATGGGTGAAGGCCTGCTGCGCGGC GACTACGTTTTGTCTGCCCTTACGAAGCATTCGGAACTGGAAAGTATCGGGATGCAGTCG GAGCAGCAATACGCTATTCTAGGTATCTTCTCCCTTACTGGAGCTTCGGCGTTAGACGAC ATTGTTATTCATCTGCACAACCCCTTTGAAGACGATGAGTACGAGTACAGCGGTCCATTA AACAAGAAGGATAGTAAGTGGCCGGCGAAGCTGCGGCAGCAATACCCCGTAGACGACCGC TATTCTATCTTTATTCCGCTGAAGCTGCTTCTGAAATCCCTGAACTCCATCCAGTACTGC CTTATGCGCACTGTAGAGGCTGTGTCGCAAACATACCGCGCTGCATGGAAAGGTGAGTCG GCTGGCGGCAATCCGACGAGTGTGTTGTGGCGCAAGAACCCATTCTTCCTGGTGCGAAAC AGTGGCCCAACGGACATCAAGATCGTCACGATGGTACAGCAGGAAGACCATCGCCGTTTC TCCGACCCGGATAGTGACGCAACTTACGTTCAGTGTGGCGTTGTCGTGACTCGGTTCACC TACCAGCATCCGATCCCGACCTTTTACGTCACCGGAAACAGCCACAAGACAACCTTCAAG GGCCTCTTCCTCAACTCGCGCGAGGTGGCGAACATAATTATGATCCCAGCGCACTCCATG TGCTACCTCGTCCCCTCCTGCATGCACAAGGGCGCTGAGGCTAGTTTTCAGTTATCGCTG TACCACTTCAAGGATCAAGATTATTCGCAGCTCTCAGTAGAGCAGCTGGCCATCCCCGGC ATGAACTGGGCCAGCCCCGCAACGAAAGACATCGAGCTGTGCCACAAGAAAAAGGACCGT GTTGACTTTTACGTTGATGAAGGGACAGATATCCACATCCTCGTGCACCAAACAAAGCCC TACGTGAGCAAGTCCGGTGGCGACGCCATGACGGAGGACTACATGGGCATGTACCTCTAC GACGACACGGACCGCAAGATAGCCGGCGTGCACGCTGCCACGAACTTCCGCGAGATCAGC ATCATCCACCGCCTCCCCCGCAGCGGTCGCTATGCCATCTCCATCACGTGCCCGCGTGCG AAGGGCGAGGTGCCGGCGTACATCACCATCGTTGGCTCGCACGCCTCGAACGTACGCATC GTCGACCCACCAGAGGATGCCACGATGTTCGACGATGAGGACATCATCGACGAAGGCGAT GAGGCCGCCCTCGTGGAGAACCCGATCGACTACGTCCCCGTCGTATTCGATGTGGCGCAC CACGGCGAGCAGGCCGAAAGCGATTCCCCGTTCGAGGACAAGCGCTTCTACGTGGACAAC CGTGGCGCCACGAGCGAGCCGTGGGTGCACATTGGCGACCTTTACCCCGAAGGCAAGGCG AAACCGCTGCTGCCGGACGAGCTGAGTCGCGACCAGTTCGGACAGGGCGACCACTACGAC TGCAGTACGCTGACGGCGTTCGCGGCACTGCTGGAACGCCACCCCGACGTGATCCGCAAC TGCTTCATCTCGAAGAAGCCGCGCAAGGACGGCCGCTACACGTTCCAGTTCCACCGCTAC GGGCAGTGGATCAAGGTGGAGATCGACGACCGCATTCCGATGGTGAAGGGCGACACGGTG TTCTGCCGCTCGCCGACGCACCACTGGTGGCCGCTGCTGCTGGAGAAGGCGTACGCGAAG TTCTACACGCTTTACCAAAACCTCGAGGATATTTCGCAGGGCGAGGTCTTCCACGACTAT ACAGGTCGGCCGTGTGTCTCTGTCTCGACTGACCCGGCGGCGGCGAAGGTGAACATGTCC TACTTCGACGACGTCCCCTACTGGAAGGAGCTGGCTAGCAAGTTGCCGGACTTGTGCACG ACTGCGCTGGCGAGCGGCAAAGATGCGGAGCAGTACGGTTTGCTGACGGGACGGTATTAC GCCCTACTGGATATTGTACCGATCAGAGACGGGCAGCGGGTTTGTGACATGCTTGTGAAG ATGTACAACCCGTATGAAGACTCGCCGTACAAGGGCCCCATGAACGCCAAAGACGGAGCG TGGACTAGAGAGCCACTGAGCAGGTTTCGACCCCGGAAGGATAGCCACGCTTTCTACATC CCTGCCAACAACTTTGTTACAGGCTTTTCGGGGATGCAGATGGGCTACGTTGATGGTCTT GCCGAGCCTCCTCGGTACTTCAACAGTGAGTGGGGCCCGAACACGAATGGTGGGGACACG TCCCTCGTATCGTGGCGCCAGAACCCCATGTTCATTTTTTCAAACCCGACGAAAGACATT GTGCAGCTTGTGGGCATGCTTCATCAGCCGGATCGGCGACACTTGCGGCACACCATGCCA AACCATGAGCTGGCTTATCCCATGAAAGGACTTTCTGTCGCCCAGGCAAACCCCAGCGCT GCAGGCATCTCGACGCACCTGGTCACCCTCGATAATCACCGTCTTATTCACTGCGAGACG CCGGTGCCGGTGCGCGAGGTGGCCAACGTGCTGACGATTCCGCCACAGTCGCTGTGCTAC GTCGCTGGACACTGCAGCAACCGCGCTATCAGCAAATTTATTCTCTCCTATTGGTTCATG CGGGCGGACGATGGCGAGAAGCTGCGCATTGAACGCTACCGCCCGACGGTGGCGCAGCAC CAGCCGGCCATCGCGCACGTCGATCTCCGCAACCAAGCAAACGCGCGGGTCGACTTTTTG GTCGACACGCCGACGGACGTGCACGCGGTACTTGGGCAGGAGAAGGCGTTTGATTCTCCT CAGGGTGGTAACGTGATCGCCGAAGACTACGTTGGTGTCTACTTGTGCGATCTGCAGAAC AATCGCATCAAGGGACTTCCGTCCGCCGTGAACTACCGCGAGGTGAGTCTCGTGACGCAC CTCACGAAACCAGGTCACTATGCCTTCCTCATTACCTGCCCCCGGGGTAGCGGTGATGTG CCGTGCAAGATGGAGATCTGTGCGGTTGAGGGGGCACACGTGCGCATCACAGAGACGCCG CAGGATGCTGCCGCTCTGGGCGCGATGGACATGGCCTTCCTCGAGTCGCACCCAGAGAGT ATTCCACTATCGGAGTTACCCATTGACAGGGATATCCAGTTCCAGGACGACTTGGCCGCA CTCGAGCGCCTCCTCAACGACCCGTCTGCGAACACGGAGGAGATTCAACGCCTCCAGAAT TGCCTGAACAAGCGGGCGCATGAGTTGGCAAAGGCAAAACTGGCCAGTGAGCGGCCGATC TACCTGGCAGGCCACGACCTCCATTCACTAAACCCGCTGCTGGACGATGACCAGGTGTAC ATGGATGCGGAACGTGAGCGGTACTACCTCAAACAGGATCTGCGCAATCATTACAAGTTG TCTGCACAGGAGGCTAAGCTGCGCAGCATCGCCGACAACATCGCGGACGAGCTTCTTCAC ATCGACCTCTCTTTCATCGATACGCGGCCTGAGGGAATCCCACGCGACGCGATTCCGATG ATCTCCGACGAGGCATTCGCCGGGATGATGACGGACCTGCTGCGTCTACGACGTCGTCCG GAGTCGAATGCGTCCGCCATTCGCGACGTTGAATATCGCCTCGTGAAAAGAGCGACGGAA ATGGCTCGATCTATGCACGAAGCCGAGCGCACCTACCTCGATCGAGAACCGGAGTTTGTC CCTCTGGACTTGTTGCCGCTGAACACAGACGAACGCTTCTGCGCCGAAGAGGACGAACTC AGGCAGCTGCTCCGCTCATCCACCACTTCCCAAGCGACTGTCACCGCATTGCAAGCGAAG ATAAACAAACACGCTCATGAACTGGCGCAGCAGCTGAAGGATGGGGAGCGTGGCAAGGTT CTGGCCGACTCGTACGAGGGCATACCGACGTCGGAGCTGCCGCTCGACACGGATGCCGCT TTCCACGAGATGGAGGTGGAGCGGCTGCGCCGACTGCGCACCGGCACCGATGCGGATGCG GAGGCTGCGCGTCTGGGGGACGAGATGCGGAAGCGCGCGCGTGATCTGGCTGTGTCGATG AAGGCGAGCGAGCGAGCGATGCTGCGGAGCATGGAGACGCCGCTGACGGCGGGGCAGGTG GACGCGCTGCTGGACAGCGACACGGAGACTGCTGACATGGAGCGAAGGCTGCGCGAGCTG AGAAAGAGGCCGGACAAGAACGCCTCGGCGATCAAGTCGCTGGAGAAGGAGGTGCAGAAA CGTGCGCAGGGGCTCGCTGACGGGCATCTTGCCGAGGAGCGTTCCAAGTATTTGGCGGCA GAGTACGGAGGCCGTGCGATGGGGACGCTTCCTCTTGACGGCGACGCCGCGTACCGTGAC GCGGAGGCAGCGCGCATGAAAATGCTCGAGTCTGGCCACGCAGACCCCGCTGCGCTGCAG CGGCTGATCGACACGATGGGGGAGCGTGCGGCGGGCATTGCCCACGGCATGAACGTCGCC GACCGTGCCAAGTACCTGCCAAAGGCTCTGCGCGGTGTGCCTCTGCGGGCGCTGCCGCTG GACGATGACGCGGAGTTTCGGCGCTTGGAGCACGCACGTGCGCGTGCGGCGTGCACGCCT GGCCACAAGGCCGAGGTCACAGCTCTGGAGGCGCAGCTCCTTGCCCGCGCGGATGCGTTG GCGCGAGCCCGACTTGAGGGTGACCGCGCGTATCTTGCGCCGGAGCCGGCGGGGGTTCCT CTAGAGCTGGTGCCGCTGGACGAGGATGCCGAGTTCTGCGCGAAGGAGGCGCAGCGCGCG GAGCTGAAAGAGAATGGGAAGACCGACCGGACCGGCATAGCGCTCAAGGAGACGGAGCTG AACGCGCGTGCCGTAGTGGTTGCGCAGCAGCTGAAGGATGGGGAGCGTGGCAAGGTTCTG GCCGACTCGTACGAGGGCATACCGACGTCGGAGCTGCCGCTCGACACGGATGCCGCTTTC CACGAGATGGAGTTGCAGCGGTTGAGACTGAAGGTGACGGACTCTCAGCTCAGTGGGACA GTTAAGGGTAGCGTTGATTTCGCGCTAAATCGGCGGGCAGCTGAGTTGGCGCGCTGCCTT CGCGTTGCGGATCTCTCCTCCGTTGATGACGTTCCTCTTGGTCTTGCGAAGGAGGTGCTG GATTTGCACAACGACGCGATTGGGGCAGCACTCATCAATGACTTGCGGCTGCTCCGCAAG AATCCTTCGGGCAGCGCTGTCATTCTCCGCGAGAAGGAGTCGGCGTTGAATAACCGCGCT TTCGAGGTGGCGCGAAGGCTGCTGGCAGGCGATCGGACGAAGTACCTCGACCCCAGGCCG CGCAGCATTCTGCTGGAGCATATTCCGCTTGACGAGGACGTTGTGTTCCACGCTTTGGAG GTGGAACGAAGCATGATAAAGGTCACCGACCCGGTTAACTGCGGCGCTGCTGTACGCAAG GCGGAGAGCATGCTGAAGGACCGCGCATGCCAGCTGGCGGAGTTGGTGATGAAGGACGAT CTTTCCCACTTTCCCCCACTCTACAATGGCATCTGCACAAAGGATCTGAAGCCGCACTCC GATCGCCTCTTCAGCGAGGCAGCCGAGAAGCGTCGCGCCTGCGTGCGCGACGGGACCGTC ACATCTACGGAGAATATTGAGCAAATCATGGATGACCGTCTGAACGAGCTTGCGCGGGAG CTTAAGGAAGGTGAGCTGTACTTTATTGACCCCAACCCAGAGGGGGTGCCGCTATCACAG CTGCCGCTGAGCACCGACGAGGCCTTCAATGACTTGCGGCATCGGCGACAGGAGCTCAAG GAGAGCGATCCAATGGAAAACCGGAAGGCTATTGCTGGTCTAGAGGACGAGATGAACAGC AGGGCGGCGGAGCTTGCTCGCAGTGTGCTGAGCAGAGACTTTGACGACGTGGACAAGCTT CCATTGGGTATTCCGCTGGACCTGTTGAAGCCGCGCCAAGATACTGAGGTGGTGCGGCTA ATCGACGAGCTGCGGCAGTCGAAGCGTTTGCCACAGCTGAAGCATAATGTCGCGGAACTG CAGGCAAACTTGAACAAGCGTGTCCACGAGCTTGCAACGGCGGCGCTGGAGGAAGGGCGC GACACATACCTTGACCTCCACCCTGAAGGTGTTCCGCGTGAGATACTGCCGCTGAGTACT GACGCGGTGTTCCAAAAGGAGGTGCAGCGGACAATTCTGCGTCTGAAGGACCCCGTCAAG CACGCTGGTGCCATAGCGAATCTGGAGAGCGAGCTCAAGGCTTGCGTGAAAGAGTTGGCA CTCGCGCAGAAGGAGGAGGACCTGCGCGGTCTGGATCAGCACCCGCACGACCTGCCGTTG GCACTCCTGCAGCCGCACCAGGATGCCGAGCTCGGGAAGACGATAGATGAGCTGCGCTGG CTAAAAGCGTCGGAAGGCGATAGGCAAATTGCGATAAAGGAGGTGCAGTCTCGCATGAAC GACCGTTGCTACGCGATGGCAGACGGTGTCATGAAGGAGGACCGCGGTTACCTGCATCCG AAACCGGAGAAGGTGCCACTTGGGCGCCTGCCGCTCGACACGGATGCCGCCTTCCACGTT CTTGAGGCGGAGCGGGCAAAGCTGAAGCTGACAGACCCCAGGAAGAATGAGCACCAAATC GCCGACTTGGAAGATCAGCTGAACACCCGCGCAGCGGAGCTGGCCAGGGCTGTGAAGATG GAAGATCTCAAGTCGCTGGCGCAGACACCGTGCGGCATCCCGTTGGAGCTGCTGAACCTG CATGAGGACCCCACGCTTAGTGCGTTGATTGCGGAGAAGGAGCAGCTGCCCGAGGGCCAC AGCGCAGATTCGGTCGCCAGGCTGCTCCGCGCGATGAACCAATGCGCGATGATAGCAGCC ACCAAGCTTCTCCGTGGCGACCGCGGTTACCTCGATCAGGACCCGGAGGGCCTGCCTCTT GCGCATCTGCCTCTTGACACCGACGCGGCCTTCTATGAGATGGAGGTGGAGCGGGCAGTT CTGAAGGCGCGTGATCCTGTCAAGAACTCTTCCGCCATAAAGGGCCTCGAGGTCCAACTG AACAAGCGTGCGCACGATCTGGCGAATGTGGCACTCGCGATGGATCGTGGCTACCTCAAC CCACAGCCGGAAGGTGTGTCGATCGAGGAGCTGCCACTCTTCACGGACAGCAAGTTCCAC TCGATGGAGGTGGAGCGGGCGAAGTTGAAGGTGTCCGGCGCGGATGGGAACGCGGAGCGT ATGCAGGAGCTGGAGGGCCGCCTCAACAAACGCGCGGCGAGTCTGGCGAGGAAGCAACTC GAGGAGGACCTGAACGGGCTGGACCAGGAGCCTGAAGGGTACCCGCTCAACTTACTGCGG CCTCACAACGACGCGGTCTTTGCTGCGGAGGTGGTGTCGCTGCGTCGGGTCAAGAAGGAG CCGCTGGTAAGTGCGGCTAAGGTGCGCGACGCGCAAGAGGCGCTTAATGTGCGCGCGCAC GGGCTGGCCAGGGAGCGCATTGCGGTGGATCGCGCTCGGCTGGACCAGGAACCGGAGAAC GTGCCGCTGTCACTGCTGACGCTTGAGGAAGACGCGCTGTTTGTGGCGATGGAAAAGGAG CTCCGATTACTAAAGGCTTCTGACAAGCAGAGCCCGAGGGCAATCGCCGAGGCGGAGGGG CGGATGAACGACCGCGTGCACGTGATGGCTGCCAAGGTGAAGGCGGAGGGCCGCGACTTT CTTCGAAGCAAGTCGTCCGATATTCCGAAGGAGCTCCTGGCCCTCGACGCGGACAAGACC TTTGTGGCCAAGGAGAAGGAACTTTGGAAGCAGAAACTGCAGCCAAATGCCCCTCACTCC TCCAGCGCCGCCGCCGACTTGCGACGCGAGCTGCAGGCGCGGGCCGACGAGGTGGGTGTC GCGCAGCTGAAGGGTGACCGTGACAAGTACCTCGACATGAATCCCGAAGGTGTGGACCTG TGCGACATCCCGCTCGACACCGACCATGTTTTCCACGGAATGGAGGTCGAACGGGCAATC CTGCTGGCCCAAGACGCGACCGGCAGAGGTTCTGCAGTGGAGGAACTGGAGAAGAAGCTG AATGGGCGCGCCCACGAGTTGGCGCATGAAATTGTCGTGGGCGATCGCGGCTACTTGCCG GAAGAGATGCACGGCATCCCTTTGGAGGAGCTACCCCTGGATACGGACAGGAGGTTCATG AAGCTGGAGCGGCAGCGCCGTGCGCACAAGCGCTCACCTGACATGAAGAAGGAAGTGGCG GCTGATGAGGAGGAGCTACGCAATCACGCGCTGAAGTTGGCGGACGAGGTGATTGCGATG GATGTGGAGCCCATCAAGGCGTTCTACCGCGGCATCGCGAAGGAGGAGCTCAACCTGCAC GCTGACTCGGCGTTTCGCGAGCTCGCGAAGAAGCGCCGCCGGCAACGTGGTAAGGGGCGT GTCGAGGCGGCGGAGATGGCCGTCATCGAGGACGAGATGGACCGCCGCGCCTGTGAGATT GCCGATGACTTGATCAACGCCGAGCGTGCCTTCCTCGACCCCCAGCCGGAGGGCATGTAC ATAAATGAGGTTCCGCTCGATGACGACCCGACATTCCAGAAGCTGGAACAGGAGTACCGC CGGCGCCGCAGGGACCCACGTTCGGCGAATCAGAATGAAGATGTGCTTCGCGAGCTCACC AAGGCGATGAACCGGCGCTCCCACACCCTCGCACGGGCCGCCTTTGCGAAGACCCGCGGC TTCATGGAGCAGGAACAGGAGGGCATCCCGTTGGCTGAGCTCGGTCTGGACGAGGATCCA GAGTTCAAGGAGGCGGAAATCGCGCGGTACCGCATGAACCACAGCGCCTATCCCAACGCG GCCACGGTGGCCGAGATGGAATTGCGCATGAACGAAAGAGCGAAGGAGCTTGCGTGTGCA ACACTGGCTGCCGACCGCGTCTTTATGGACCCCATGCCGGAGGGCGTGCTGCTGGAGGAG CTGCCGCTGGACTCGGATAAGGAGTTCGGCGACCTCGCAAGAGAGCGGCGCCGTCGCAAG AAAATGCTGAAGGGAGGCATGGGTGAGGCAGAAGTCAGGGCTATCGAGGAGAAGATGAAC GCTCGTTCGCACGAGCTGGCCAAGGAATTCCTCGAGGCGGAGCGGGCCTTTCTGTCACGC GAGCCGGAAGGTGTGCCGCTGACGGATTTGCCCCTCAACGCCGACTCACTGTTCCGCACT ATGGAGGACGAGCGACTGCAGTTAAAACGCGAGCCTCTCAGCAACACCGCGATGATAGCG GCGAAGGAGACGGATTTGGAGGATAGGGCACACGTGATTGCCAAGGATCTGCTTCGCAAG GAGCGCGCGCTTCTCGATCAGGAGCCGCTTGGCGTTCCGCTGGAGGAGCTGCCTCTGAAT CACGACGAGATCCTCAACCCTATCGAACGTAAGCGCCGAGCACTGAGGGCGCATCCGAAA CGCAATCATGAGGCCATTCGTGCCTGCGAAGAGCAGATGGCGGACCGCGTTGGGCAGATC GCGGAGGATTTTGTAAAGATGGAGCGGGCGTTTCTGGATCAGAGTCCGGAGGGGGTCCCG CTGCGCTACCTACCCCTCAACACAGATCGCGAGTTCCATGAGAGGGAGCTGCAGCGCCGT AAGCTGCTCCAGCGCCACGATAAGAGCCGCAGCGAGCTTGCCGACACGGAGCGGAAGATG AACGAGCGCGTGCACGTGCTCGCCAAGGATCTGGTCCTCAAGGGGCGCGCCTTCCTTCAC TCGGAGCCGTGCGGCGTCCCTATCGCAGATGTTCCGTTAAACGAAGATGAGGGCTTCCGC AAGATGGAGGAGCAGCGCCGTGCCCTTAAAGAGGCGGGCCGCAGCGCCGCTTCCGTGAAG GCGATCGAGGAAAAGCTGAACAATCGCGCCGAGGAGCTGGCGCAAGGGCTCCTGGACGAC GAGCGAGCCTTCATGGACTGCGCTCCGCTCGGTATTCCGCTGCAGGACCTGCGGCTCAAC ACGGACCGCCGAATGCGCGAAATTGAGCGGACGCGGCGGCACCTTCGTAAGTTCGACCCG GAAGGTGGTGCGGTCGATATCGCGGTGCTGGAGTCGGGCATGAACACTCGCGCGTATGAG TTGGCCGATCAGCTGCTGAGCAGCGACCGGGAATACCTGCAACCGGAGCAGTGTGGCGTG CCGCTAGCGGATCTCCCGTTGAACACGGATTGCATCTTCCACGAAAAGGAATTGGCACGC TTCCGTGCGAAGAAAAAAGGTCAGACAGACCTGTCGCAGATGGAGGATGAGCTGAACAAG CGCGCCATGGAGCTTGGGGCGGAGTTCATTCAGACGGAGCGCGCGTACCTTGACCAGGAG CCGGAGGGCATTCTACTTGAACGGCTGCCGTTGGATACGGACCCAATCTTTCACAACATT GAGCTGGAGCGGCGGCGTCTGAAGCGCAGCGGCGAGAACCCGTCCCAGGTGCTGGAGCTG GAGCATCTGCTGAACCGCCGCGCGCACGAGCTGGCGATGGAGCTTCGAGGGTGGCAGGAC TCGGAATTCCATGCGGCCAATGAACACGTGGCGGAGCAGTGGGTGCGTGTGTGCGATCTG TACCCGGAGGGTCGCTACGAGGCCTTCGTGCCGGAAGCCCTGGCGCCGGATGACGTCGTG TCCGCGCCGCAGGACATGAGCTACCTTGTCCCGTTCATTGCCGCTCTGTCGCGGCTCCCG GTGCTGCTGCGGCGTCTCATAGTTACGCAGGAGGTCCCAGTCAACGCACCTTACACGTTC ATCTTCTTCGATCCCCACGGCAACCCCGTTTACATTGATGTCGACGACCGCGTGCCGTGC AACGACAAGCGGGAGCCGAAGTTCGCGCAGTCGCCGTACCACCTATGGTACCCGCTGTTG CTGGAGAAGGCGTACGCCAAGTTTGTCGGCGGCTACGACCAGCTTGTCAACTGCACCTCT CTGGAGACGCTGCGTGACCTGACGGGCCGCCCAGTGACGCACACCCCTTTCAAACGGAAC CTGGCGGAGGCTGTCAACCCCGACAACTATACGTCCGTGGACTTCTGGCTAGGCGTGAAA GAGAGCATGGCGCGCGGCGACGTTGTCGTATGCTCGTCGAACACTGCGGTACCGAATGGC ATTCACCCCTGCTGCAGCTACGCGCTCGTCGACGTGGTCATCACACTGGAGGGCTCCACG AACTTGTCCGACATTGTCATCAAGCTAGAAAACTCGTACCGCAACGATGAGCCGGTCTAC ACCGGTCCACTTTGCCACACGGACGTGAAGTGGAGCCTGGCGCTGCAGCACGTGTGCCAG TACGACGTGGAGAAGGACGACGTGCTCTACCTACCCCTGCAGACGTTTCTGCGCAACTTC TCGAGCATGCAGACGTGCCACATCAACTGCGGTGACCGGCTTACGGCGACGGGCACGTGG AACCGCCGCACGAGCGGCGGTAACGCCAACTTCACGAGCTTCCGCAACAACCCCATCTTC ATTCTTCAGAACAGCAGCTCTCGTCCGGCGACCGTCCTAGCAGAACTCCGCCACGAGGCG CCACAGTTCGTCGATCCTGATGGACGCACCCACTACCCGCAGTCGGGTATTGTTCTCATG GAGCCGAAGTCCTCGACAGCCCCGCTGACGCCCTTGATGACAAACAGCACGGCTAGCTTC CTGCATAAGAGCATCATGCTCGACTCGCGTGAGCTGTGTAGCGTGATGGAGGTGCCAGCG CACAGCACGTGCCTTTTCATTCCCTACACAGCCAAGATAGGCCACTACGGCACCTTTCAC GTGTCCGTCTACCCAGGATCGGCGAAGGTCGCGCTCACTCCGCTTAACTACTGCGGACTC TCGCGAGAGCCGAAGAGCACCGCTGTCACGCTGACACCCGGCGCAGAGAGTCAGCGAGTG GACTTCACGATCAGCAGCGCTTGCGATGTGCATGTGCTGCTGCGCCAGGAGAAGATGACA GACCGACTGGCCGCGATTACGGGTGATGCTATTGCCGAAGACGACGTGATGATGGTGGCG TTCAGCGACCAGGCGATGAGGCTCACCTCCTCCGGCGATCCAACAAACGCGCGCGAGCAC TCGCTTGTGTTCAGGGCGGAGAAACCGGGCTACTACTCGCTTCTCCTTGCATCGCCTAAT CAACCTGTCTCTGGCAACAACCCGTGCACTGTGAGCATCTTCACCCCGAAGCGGGTGATG GTAAGGTTTGTAGCGCCTCCTGCCGGGGCACGGCAGCTGCAACACACCAGCTTCCCGAAC TTGCCACAAAAGCTCACTGCGGCCTCGGGTGGTAGCAGCCCGCGTCGACTGGGAAAGGCC TCCGCCGTGTATCAGTCGAAGCACCGGCAGCACGCTGAGAGGCTGCCGCCACTGCGCAAA AACGGCGCCCGTCCCATGAGTCACGGTCCTGTCTCGAGCGGCGACAGGATTTCTTGCACT TTTTAA
  • Download Fasta

  • Fasta :-

    MSSPFTEVPDSKTLFKDTEFIESNQDVADQWVSIRDLYPSGVNQPLLPEAFSREQFGQGN HYECFMISALATLIRFPDVIRNCFVTKKVRQDGRYTFQFFRGQEWVRVEIDDTIPLEDDA VLYAQSPTEHWWPLLLEKAYAKFYTAYDHLEGCTLLETFHDLTGNPVLNIPMDAKLAKAA GVNTKDGPYWLSMGEGLLRGDYVLSALTKHSELESIGMQSEQQYAILGIFSLTGASALDD IVIHLHNPFEDDEYEYSGPLNKKDSKWPAKLRQQYPVDDRYSIFIPLKLLLKSLNSIQYC LMRTVEAVSQTYRAAWKGESAGGNPTSVLWRKNPFFLVRNSGPTDIKIVTMVQQEDHRRF SDPDSDATYVQCGVVVTRFTYQHPIPTFYVTGNSHKTTFKGLFLNSREVANIIMIPAHSM CYLVPSCMHKGAEASFQLSLYHFKDQDYSQLSVEQLAIPGMNWASPATKDIELCHKKKDR VDFYVDEGTDIHILVHQTKPYVSKSGGDAMTEDYMGMYLYDDTDRKIAGVHAATNFREIS IIHRLPRSGRYAISITCPRAKGEVPAYITIVGSHASNVRIVDPPEDATMFDDEDIIDEGD EAALVENPIDYVPVVFDVAHHGEQAESDSPFEDKRFYVDNRGATSEPWVHIGDLYPEGKA KPLLPDELSRDQFGQGDHYDCSTLTAFAALLERHPDVIRNCFISKKPRKDGRYTFQFHRY GQWIKVEIDDRIPMVKGDTVFCRSPTHHWWPLLLEKAYAKFYTLYQNLEDISQGEVFHDY TGRPCVSVSTDPAAAKVNMSYFDDVPYWKELASKLPDLCTTALASGKDAEQYGLLTGRYY ALLDIVPIRDGQRVCDMLVKMYNPYEDSPYKGPMNAKDGAWTREPLSRFRPRKDSHAFYI PANNFVTGFSGMQMGYVDGLAEPPRYFNSEWGPNTNGGDTSLVSWRQNPMFIFSNPTKDI VQLVGMLHQPDRRHLRHTMPNHELAYPMKGLSVAQANPSAAGISTHLVTLDNHRLIHCET PVPVREVANVLTIPPQSLCYVAGHCSNRAISKFILSYWFMRADDGEKLRIERYRPTVAQH QPAIAHVDLRNQANARVDFLVDTPTDVHAVLGQEKAFDSPQGGNVIAEDYVGVYLCDLQN NRIKGLPSAVNYREVSLVTHLTKPGHYAFLITCPRGSGDVPCKMEICAVEGAHVRITETP QDAAALGAMDMAFLESHPESIPLSELPIDRDIQFQDDLAALERLLNDPSANTEEIQRLQN CLNKRAHELAKAKLASERPIYLAGHDLHSLNPLLDDDQVYMDAERERYYLKQDLRNHYKL SAQEAKLRSIADNIADELLHIDLSFIDTRPEGIPRDAIPMISDEAFAGMMTDLLRLRRRP ESNASAIRDVEYRLVKRATEMARSMHEAERTYLDREPEFVPLDLLPLNTDERFCAEEDEL RQLLRSSTTSQATVTALQAKINKHAHELAQQLKDGERGKVLADSYEGIPTSELPLDTDAA FHEMEVERLRRLRTGTDADAEAARLGDEMRKRARDLAVSMKASERAMLRSMETPLTAGQV DALLDSDTETADMERRLRELRKRPDKNASAIKSLEKEVQKRAQGLADGHLAEERSKYLAA EYGGRAMGTLPLDGDAAYRDAEAARMKMLESGHADPAALQRLIDTMGERAAGIAHGMNVA DRAKYLPKALRGVPLRALPLDDDAEFRRLEHARARAACTPGHKAEVTALEAQLLARADAL ARARLEGDRAYLAPEPAGVPLELVPLDEDAEFCAKEAQRAELKENGKTDRTGIALKETEL NARAVVVAQQLKDGERGKVLADSYEGIPTSELPLDTDAAFHEMELQRLRLKVTDSQLSGT VKGSVDFALNRRAAELARCLRVADLSSVDDVPLGLAKEVLDLHNDAIGAALINDLRLLRK NPSGSAVILREKESALNNRAFEVARRLLAGDRTKYLDPRPRSILLEHIPLDEDVVFHALE VERSMIKVTDPVNCGAAVRKAESMLKDRACQLAELVMKDDLSHFPPLYNGICTKDLKPHS DRLFSEAAEKRRACVRDGTVTSTENIEQIMDDRLNELARELKEGELYFIDPNPEGVPLSQ LPLSTDEAFNDLRHRRQELKESDPMENRKAIAGLEDEMNSRAAELARSVLSRDFDDVDKL PLGIPLDLLKPRQDTEVVRLIDELRQSKRLPQLKHNVAELQANLNKRVHELATAALEEGR DTYLDLHPEGVPREILPLSTDAVFQKEVQRTILRLKDPVKHAGAIANLESELKACVKELA LAQKEEDLRGLDQHPHDLPLALLQPHQDAELGKTIDELRWLKASEGDRQIAIKEVQSRMN DRCYAMADGVMKEDRGYLHPKPEKVPLGRLPLDTDAAFHVLEAERAKLKLTDPRKNEHQI ADLEDQLNTRAAELARAVKMEDLKSLAQTPCGIPLELLNLHEDPTLSALIAEKEQLPEGH SADSVARLLRAMNQCAMIAATKLLRGDRGYLDQDPEGLPLAHLPLDTDAAFYEMEVERAV LKARDPVKNSSAIKGLEVQLNKRAHDLANVALAMDRGYLNPQPEGVSIEELPLFTDSKFH SMEVERAKLKVSGADGNAERMQELEGRLNKRAASLARKQLEEDLNGLDQEPEGYPLNLLR PHNDAVFAAEVVSLRRVKKEPLVSAAKVRDAQEALNVRAHGLARERIAVDRARLDQEPEN VPLSLLTLEEDALFVAMEKELRLLKASDKQSPRAIAEAEGRMNDRVHVMAAKVKAEGRDF LRSKSSDIPKELLALDADKTFVAKEKELWKQKLQPNAPHSSSAAADLRRELQARADEVGV AQLKGDRDKYLDMNPEGVDLCDIPLDTDHVFHGMEVERAILLAQDATGRGSAVEELEKKL NGRAHELAHEIVVGDRGYLPEEMHGIPLEELPLDTDRRFMKLERQRRAHKRSPDMKKEVA ADEEELRNHALKLADEVIAMDVEPIKAFYRGIAKEELNLHADSAFRELAKKRRRQRGKGR VEAAEMAVIEDEMDRRACEIADDLINAERAFLDPQPEGMYINEVPLDDDPTFQKLEQEYR RRRRDPRSANQNEDVLRELTKAMNRRSHTLARAAFAKTRGFMEQEQEGIPLAELGLDEDP EFKEAEIARYRMNHSAYPNAATVAEMELRMNERAKELACATLAADRVFMDPMPEGVLLEE LPLDSDKEFGDLARERRRRKKMLKGGMGEAEVRAIEEKMNARSHELAKEFLEAERAFLSR EPEGVPLTDLPLNADSLFRTMEDERLQLKREPLSNTAMIAAKETDLEDRAHVIAKDLLRK ERALLDQEPLGVPLEELPLNHDEILNPIERKRRALRAHPKRNHEAIRACEEQMADRVGQI AEDFVKMERAFLDQSPEGVPLRYLPLNTDREFHERELQRRKLLQRHDKSRSELADTERKM NERVHVLAKDLVLKGRAFLHSEPCGVPIADVPLNEDEGFRKMEEQRRALKEAGRSAASVK AIEEKLNNRAEELAQGLLDDERAFMDCAPLGIPLQDLRLNTDRRMREIERTRRHLRKFDP EGGAVDIAVLESGMNTRAYELADQLLSSDREYLQPEQCGVPLADLPLNTDCIFHEKELAR FRAKKKGQTDLSQMEDELNKRAMELGAEFIQTERAYLDQEPEGILLERLPLDTDPIFHNI ELERRRLKRSGENPSQVLELEHLLNRRAHELAMELRGWQDSEFHAANEHVAEQWVRVCDL YPEGRYEAFVPEALAPDDVVSAPQDMSYLVPFIAALSRLPVLLRRLIVTQEVPVNAPYTF IFFDPHGNPVYIDVDDRVPCNDKREPKFAQSPYHLWYPLLLEKAYAKFVGGYDQLVNCTS LETLRDLTGRPVTHTPFKRNLAEAVNPDNYTSVDFWLGVKESMARGDVVVCSSNTAVPNG IHPCCSYALVDVVITLEGSTNLSDIVIKLENSYRNDEPVYTGPLCHTDVKWSLALQHVCQ YDVEKDDVLYLPLQTFLRNFSSMQTCHINCGDRLTATGTWNRRTSGGNANFTSFRNNPIF ILQNSSSRPATVLAELRHEAPQFVDPDGRTHYPQSGIVLMEPKSSTAPLTPLMTNSTASF LHKSIMLDSRELCSVMEVPAHSTCLFIPYTAKIGHYGTFHVSVYPGSAKVALTPLNYCGL SREPKSTAVTLTPGAESQRVDFTISSACDVHVLLRQEKMTDRLAAITGDAIAEDDVMMVA FSDQAMRLTSSGDPTNAREHSLVFRAEKPGYYSLLLASPNQPVSGNNPCTVSIFTPKRVM VRFVAPPAGARQLQHTSFPNLPQKLTAASGGSSPRRLGKASAVYQSKHRQHAERLPPLRK NGARPMSHGPVSSGDRISCTF

  • title: catalytic site
  • coordinates: C681,R838,N863
No Results
No Results
IDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethodIDSitePeptideScoreMethod
LmxM.27.0510503 SKPYVSKSGG0.994unspLmxM.27.0510503 SKPYVSKSGG0.994unspLmxM.27.0510503 SKPYVSKSGG0.994unspLmxM.27.0510505 SYVSKSGGDA0.996unspLmxM.27.0510629 SAESDSPFED0.993unspLmxM.27.0510800 SKVNMSYFDD0.993unspLmxM.27.0510825 STALASGKDA0.998unspLmxM.27.0510887 SREPLSRFRP0.992unspLmxM.27.0510944 STSLVSWRQN0.99unspLmxM.27.05101404 SEMARSMHEA0.996unspLmxM.27.05101484 SVLADSYEGI0.994unspLmxM.27.05101539 SDLAVSMKAS0.996unspLmxM.27.05101823 SVLADSYEGI0.994unspLmxM.27.05101886 SVADLSSVDD0.994unspLmxM.27.05102104 SQLPLSTDEA0.995unspLmxM.27.05102581 SSKFHSMEVE0.99unspLmxM.27.05102727 SLLKASDKQS0.99unspLmxM.27.05102871 STGRGSAVEE0.992unspLmxM.27.05103478 SRSAASVKAI0.996unspLmxM.27.05103612 SQTDLSQMED0.994unspLmxM.27.05103670 SRLKRSGENP0.995unspLmxM.27.05103932 SKLENSYRND0.993unspLmxM.27.05104005 SNRRTSGGNA0.993unspLmxM.27.05104210 SMRLTSSGDP0.996unspLmxM.27.05104293 SSGGSSPRRL0.995unspLmxM.27.0510254 YEDDEYEYSG0.992unspLmxM.27.0510361 SHRRFSDPDS0.998unsp

     



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