PVX_123300 | hypothetical protein, conserved

UniProt_ID: A5JZT3

Computed_GO_Component_IDs: GO:0005634
Computed_GO_Components: nucleus
Computed_GO_Function_IDs: GO:0008233
Computed_GO_Functions: peptidase activity
Computed_GO_Process_IDs: GO:0006508
Computed_GO_Processes: proteolysis
Curated_GO_Component_IDs:
Curated_GO_Components:
Curated_GO_Function_IDs:
Curated_GO_Functions:
Curated_GO_Processes:

	_ID	Prediction	OTHER	SP	mTP	CS_Position
	PVX_123300	OTHER	0.999981	0.000011	0.000008

No Results

Fasta :-
>PVX_123300 MIRKESNIYDKLDRIVCEVLRNIDADAKGVGEEAHNKGSANDADEKNINERVYKKFFELF NRESYLEKLTHDELVATYRDKNAHKYLFYMFECLLNKITQTRNVRHLDFLFLILRYITYL WFLLSNDDKLVLIFYYYFKFVDLLFNLKFVRCSFFVNIYNLLIYFYMKDKGKKKQKIVFP VKKLTEKEAGFHIKNVISELNRIIANENAHFVETVGREKNFVSLQSDALSHGKAERRNLP PNAEEDASTYGGTQNVYDYLWVGHHQGESEPQGKKHKNKHTEKIKSDGSEEDKSFYLITK CQNWRNENSTFPILSIFSVSSSYNLFLNITKHLFKISVYDFCTFFPLLSMLNVECLLSHF HLFEILHYVQLEEVHSDTNDSKKETKIVSISSCQSSPYKGNEQVTTGGKKTPSNSEVIFS NNNKSNRKILWNILFEELKKVYMVDTKNVNYTLKMLKYSFSFFLFEEKFAPKCKEGETHV TNKKEHTFALISQVYLKELLKFCLSFVNNLMSSRALKEEVIFKAISYVFYLLSKLICNTS NNLRKYILLNNDNNLTLVALITYVYKYFKRVYLEKNASGEVHKGGGGAVGMGGSGVIGGS GSQNKFKYTFVTLEKVYQKIQECLYIVLTVDEFVEGNTRKKLAQCSDGAIPHLEGHQSNR QHVDSCDLFFCIIIKINKMNMFYSNLDIIKMLSQKDRSVFRKYIYTINKNNENFGSFFSC VLNIEYNENQHDLVLKKYISNLKEKKKYKNKKLIKLMKPYHSPLKYIILKNQIDQDGAKK NSGSARKSTLAVNFSHRNYDLSTFEGDKRKAINLRAKRKSMYEFGRGEKGGGRSRPLQGD DGMDGDTVGEFASDENASDESAPDESASDESASDETAPDETASDDDPSDGEETEPSDNPA SCPRSCRKEYFSDGLKRAKVKKKDMPIFENSILRIRKKQLNGTNIDFKNVCHSITLSIKR CILISESIITYFKIHEEFEANFNIYVCKNIFINFLRVCLLSASLFSYLCVKLNYDEMLKQ MYDSNLIIMSYNIFDKYISFVLDQDVKQLRKHKNVLQVPSRRLNRGEAAAGRSAGAKEQR EAPSTVSAPTVTTSTSAIPPAQLHRDDIYDVLGARESQRGSAFFLSDQDEFIETLYLNTF MIVISIISVWEMYLEIPVEVLNKMKYTFFELFYNTTIKIIKFIKKDKGFFFLLNILKFIY LKFVSLPFNPINIHTTIKLHDFYEFLINDGDEDVKKEEEQKFNSENMYLNSISPLKFLNN PENDAHRKSLSSVQKFSLTSDDRVVPNEHDYNVLSVSKKKRVSMGGLVPVFLNNHSSKKR RRTNIDPYTSYDSFENNDNGSCCSVRKGPSAGHAQMGDKTGARVQYDLREGEYEGESVNV NANASASANVDFNASANANATPKRNHDYAQSGEGNESDIFRSTYLSNYYIPHIDLLFIIV DLEVFHYFEKKEYKKIILSVENAFKSIISKCDYNTKEYLRSSISYIYNSYQQVHLRDSKI NIQSCIVIRHIFNLYIKSKVFYLSKKIKKKLAHYKDSYTNDGVLKMGYNKIYNSLFSSEK WKNFFYFLCESDNLGRNKREKIINNLLTVHINTLLFLIFYEYLSKYVTKKFIFFFRFFLF LFNKLCVAILSLVNSSNHLEIFNLFDWRNITRASHTQGEEELADKVRRAIRLVQNCSIYP QDEEVSPYKIYSQGGRHTKGRNKPIVMIDIDELLVTYIQLNFTFCRSCCFFIFFKNVCSQ KYEMILRENFTSSYFERFKNNRDLFDPVEAVKGEKTGRRGDEWGEGHTAYQAYTTQTAYP AHTTHTAEGATPFGEPTLNDSFDEESDDNHRSDSSSSGLSQSSFTLIEYTDYSNNVDYIF LEFILEKIEEMDVDYYYRNVLNNCYYVIKIETLYNYIYGNEQLLSRFAFLNSVYYLYKLY YHMFVWSCNKSYVMGKENISAEGINGGENLTSLYNDIFYLFDVNRILGETFSSRYVQLVD QFGASDFTPSGTPDKTGRIAPYGCEDNYRPTDRRSIEESPYFVCNIYNFKLKLFHPLNFE KRDLAKGRKKNTFSNFLMVNRNYLLDLKHKYAKVNKYIRSYLVYLYHVVLRFYFNEYDID GEKLSFHHIAYSFQSAFHTFNSKICSSPHDMVCFPSIRGIGNDKDTPPYLPPFNIFPKRD LKKNILLIFDIFNNIYDVYHGNIFENSNWANSIVTQIDTKLIGYLSEMYKIAHLYKMYHF CFQILVLCLMFTSRFWLVYVFSEKHPCGQQGGSNHARWGVDSQYCQPSAREKRKVGRKAN ERSVDEDALFRSRTHFGRGAGKRAKPKEASQNSNEQMRGSSKRRRAYILTGIYNKIASKG KGDNAKEIYNDLHNYMQMLIVCASIFYLTFLCVEKIQKNLKNVFFLNCANSLYNCYVHFY EHVEKFCKGHCEDKRYASSFFFDTFHLDLINLKLQAHVKAGRYKAEMRKVKKGLGESTAR GGAQPQGGVTTMSSSGSGGESSRSSRSGWDNAREDAFAKFPYLLYYNERAGAECVSDLRK TEKKHESDGKNFFKNNICLYFNMIRYLYKKRSKYFGLLPFVNSYIISIVTLMKFTMAKYF SNFNVSSDFFSLKFEHPIHQFDMDMLTKVKKTEDEKENVKLTNKAILINLENLFCNMFLN KDLCYQIKFVYTYYKKISSIMFKMNNFLLSYYYLKKNILFICDLIYFPEVVHNYLLLMNI ILKSGRQRIELLTQEEIFFENLNNQLSIYDKKNLDQHAGADADADAVAYPDAVADPNAYP DADADTNHTKDKTAKDVNDFKIYEDSDFCNIDYVKTPLNTYLTKRHIYEYRNLLTQFLAY LTFLIKNPDHFSILSTKRRGEVLHMLCLILFTKKKTSYFCCSKARPKKSKVVANPPEGGT NGKDNCCDYGNAKLTGEDSTKQRNTQRSDHEMVVPNNVAKQNQGNHKMTNFEKNFLTCFN NCNEKREETFFNFFLEKLFIISNFDTDLFDVELDDEEQVESLIKSQVLRDVSSLNFVPPG GAHSEESFLNLGSEISSEPEQAVQNSKGETNQASCMEEAIRREFHQRASSHNSFKISDIS VLNYLYLNYHFERNLTYTENYITNRLFTLNCKKMNAYFVKILLYYINLIFLKIKNIFCDD CIYTIKKQQFLNSSANDCSRNIFFFLFLKLFRFFNFSKRTLSELCVNYFPGNDNYAVYLD ELVESKKNGDLPAEQVYANDGRHITQDTHTHNVGGKQNSWDDNPASGLDKMLMVNFLEIF LYPQKNCSFLEVLTVCYEFLANMKDDKGKKLRKRNKHKMYALLKRAITERGDRSNPPVFH FQTVLVLLSLLLHYTCKRSLVHEMRKVAQFFLDFVFFFIENLKNNLIILQIIEAYGGGHT CVSTGGSTDGYRGGHAKEHPPENRSTAARQTQVNLLKFYFRKLLSLLYLYTDELILYTIK NNIDQEISQKNYYRKHAHENLNIETISNYEYIGQPNLSEFCFYWDYAIVSMSHDKSDLYI SRCFKNFLFVLIRIIKGEALSQEADNPGRFSGENKAAVKEREISQDSSKKRRDSPPEGDE ECFNFYKKINTLFSVLNDEELCERLLLQGGNLPLSDDTIMGHLNESVKYCTGYAREVYAE QGNLGHNSNEYNGAPPGKSIQCGTIEWGGKHPGGDATIRESATRGKDEHSEVATHAGKHF ENAQMGPEQLSNPHAVNIFFTPMGKSGMETSNELIKSNKTNRVRSSNSSATFLPNGKDRL AKDIQLVRFLSRLYRSADSCIEGKTGEYFHVEKIHLNIERFPVREKWNYIKKLEKILKQY QHMIKIMCEILHESKNVDRSRSNLKMFIDLWWNNRYTLEQHLKILNLDISNTLGFSIHKL MSIPLISLNIRTKIVLNRSANWKDDHQMEVSIRSEKDHTQVNSAYNTLSIVNNQKYYLST NFDLFVVLYYYSNMLNIVAWLNKWGRYFVPLRYWDGTHFVNVLLNLTVFSIVMKNCNVQI TQAKRKYLKWVDTGGSRSSRISKDGSTFIGSVIRGDTTDGVGSFPACNLTKQSHENRGAP KSLIPIDKKVVTSYLPFINKDIETILLLEERKKKNKRRSSTVGQPYILDITPPKEAAKGE VTSSIPRWSVNIEGGNNHHDGCQATYRSLQRDQPDHVEAISTLDNKYRIVIPKGESQSAF PHNTSSRDSASRGNPLTGEIRGRRRTINIISEETKSSIDSYCAGSHSVYKKENQSRDQKK VNSTIYGYLSPLKANNFEHLKNQNQSDMLTREEKKKRTTVAGTLNLDHLKKQDDKEEKSK ENIYLKYLDLKKKCDRGVLKCSFLKLRMYLYNILIDIFENNHIHPKNIFNLFNIITHSFV TDVIKCTMVDDELDSERLTYVKNVEHRRVRKNPVVVYIHNNLNRLPFENLEPLKDSYIVR GVNKAVTAYLYERVLAKIKVEEAKRKGLSVLGTLRGEMDAAAGEEEELEAARGAYQNGGT PQNDDESDNYEDQSDDFRMDEYIQQEYSKKWKIDDVKNVGQMNSTHRSSVDLRCSHPFEW KRKNANVPQSIIGDCTTSQLCNAKGGNENISKKKGRNSLSYISTHHTEVSKSAEKNNGHY HHELNTCQVKPFNRCDDQGKATSQVDRHNGFRAQPRDTLTPYGQETLNSAGHLGANYGSR IVQARGKGRYSLIVSSEETKGHLERGDIPGKANPCESAPDKGTKQVRGKGRSKKNSRKSI SIEHSFLNPFSNNNSKKGQTGMPFSEDHSNGRADCSQKRERKTVYNRSTEEKHKLGLSHS AKRRGSVKKMNPRSSCPSHHSRSSCASPPPPSSESGSDSGSDSLSSVELIQNEDELRKIF MSARKSMNIHNMMGSYQNEEYSFFRLKKKRKKSVSESEAYFDDEKKFSTSCVEEAKKDNK RRSYSADPEHPSKASKMKYVKYVPYYIKSSRLVDPKKSNIFFVINPNGDLKRTEDATYPF IYFKNKEKYKYKNWNGYFGKVPCEKTLLKHLCCDDLYLYCGHQGGEQYIKKDIIQNAILR YDDPLGEEAKEGNAKKGKPKKAQNRGGGITKCSRSKAGKKEDPPFTQKKDKRRRYSCNFE AGKCTVEKGVKRKSVGDIIHIHGTSDSSDALCTQTEMEDGESDHVGDPHFSATQNDGINS CVFLIGCSSGLLSSHGFDLDVWGTPYDYIVGGCVFVFGNLWNVTDGEVDGFTQNFFWKWT QPNSSSLFCSNYNYNAVQMANVSTFGFRFFAKMLRGCTEESAPGGGSQMGVREEGTEWSS NCWRDDDSDHNGGRDDDLLIEVGDNFVTLDFDTYTYFRKNYFFYKYFQKCYNCNIVLNQN LFSINQNRKYSWLSMTEALAEAKQFCRLPNTTGSAVVIYGLPL
Download Fasta

MitoProt II - v1.101 File : /home/rajan/sadaf/4480_mitoprot/test/PVX_123300.fa Sequence name : PVX_123300 Sequence length : 5323 VALUES OF COMPUTED PARAMETERS Coef20 : 4.000 CoefTot : 0.022 ChDiff : 103 ZoneTo : 4 KR : 2 DE : 0 CleavSite : 0 HYDROPHOBIC SCALE USED GES KD GVH1 ECS H17 : 2.000 2.306 0.454 0.726 MesoH : 0.219 0.903 -0.211 0.398 MuHd_075 : 36.628 21.451 9.030 6.458 MuHd_095 : 41.807 24.075 10.282 9.399 MuHd_100 : 47.509 28.089 11.809 11.244 MuHd_105 : 42.810 26.462 10.818 10.786 Hmax_075 : 0.787 11.500 0.355 2.010 Hmax_095 : -2.000 11.500 -0.765 3.400 Hmax_100 : 6.100 14.100 0.594 5.160 Hmax_105 : 6.600 16.700 1.429 5.920 CLASS NOT-MITO MITO(/CHLORO) DFM : 0.2107 0.7893 DFMC : 0.5933 0.4067

##### ProP v.1.0b ProPeptide Cleavage Site Prediction ##### ##### Furin-type cleavage site prediction (Arginine/Lysine residues) ##### 5323 PVX_123300 MIRKESNIYDKLDRIVCEVLRNIDADAKGVGEEAHNKGSANDADEKNINERVYKKFFELFNRESYLEKLTHDELVATYRD 80 KNAHKYLFYMFECLLNKITQTRNVRHLDFLFLILRYITYLWFLLSNDDKLVLIFYYYFKFVDLLFNLKFVRCSFFVNIYN 160 LLIYFYMKDKGKKKQKIVFPVKKLTEKEAGFHIKNVISELNRIIANENAHFVETVGREKNFVSLQSDALSHGKAERRNLP 240 PNAEEDASTYGGTQNVYDYLWVGHHQGESEPQGKKHKNKHTEKIKSDGSEEDKSFYLITKCQNWRNENSTFPILSIFSVS 320 SSYNLFLNITKHLFKISVYDFCTFFPLLSMLNVECLLSHFHLFEILHYVQLEEVHSDTNDSKKETKIVSISSCQSSPYKG 400 NEQVTTGGKKTPSNSEVIFSNNNKSNRKILWNILFEELKKVYMVDTKNVNYTLKMLKYSFSFFLFEEKFAPKCKEGETHV 480 TNKKEHTFALISQVYLKELLKFCLSFVNNLMSSRALKEEVIFKAISYVFYLLSKLICNTSNNLRKYILLNNDNNLTLVAL 560 ITYVYKYFKRVYLEKNASGEVHKGGGGAVGMGGSGVIGGSGSQNKFKYTFVTLEKVYQKIQECLYIVLTVDEFVEGNTRK 640 KLAQCSDGAIPHLEGHQSNRQHVDSCDLFFCIIIKINKMNMFYSNLDIIKMLSQKDRSVFRKYIYTINKNNENFGSFFSC 720 VLNIEYNENQHDLVLKKYISNLKEKKKYKNKKLIKLMKPYHSPLKYIILKNQIDQDGAKKNSGSARKSTLAVNFSHRNYD 800 LSTFEGDKRKAINLRAKRKSMYEFGRGEKGGGRSRPLQGDDGMDGDTVGEFASDENASDESAPDESASDESASDETAPDE 880 TASDDDPSDGEETEPSDNPASCPRSCRKEYFSDGLKRAKVKKKDMPIFENSILRIRKKQLNGTNIDFKNVCHSITLSIKR 960 CILISESIITYFKIHEEFEANFNIYVCKNIFINFLRVCLLSASLFSYLCVKLNYDEMLKQMYDSNLIIMSYNIFDKYISF 1040 VLDQDVKQLRKHKNVLQVPSRRLNRGEAAAGRSAGAKEQREAPSTVSAPTVTTSTSAIPPAQLHRDDIYDVLGARESQRG 1120 SAFFLSDQDEFIETLYLNTFMIVISIISVWEMYLEIPVEVLNKMKYTFFELFYNTTIKIIKFIKKDKGFFFLLNILKFIY 1200 LKFVSLPFNPINIHTTIKLHDFYEFLINDGDEDVKKEEEQKFNSENMYLNSISPLKFLNNPENDAHRKSLSSVQKFSLTS 1280 DDRVVPNEHDYNVLSVSKKKRVSMGGLVPVFLNNHSSKKRRRTNIDPYTSYDSFENNDNGSCCSVRKGPSAGHAQMGDKT 1360 GARVQYDLREGEYEGESVNVNANASASANVDFNASANANATPKRNHDYAQSGEGNESDIFRSTYLSNYYIPHIDLLFIIV 1440 DLEVFHYFEKKEYKKIILSVENAFKSIISKCDYNTKEYLRSSISYIYNSYQQVHLRDSKINIQSCIVIRHIFNLYIKSKV 1520 FYLSKKIKKKLAHYKDSYTNDGVLKMGYNKIYNSLFSSEKWKNFFYFLCESDNLGRNKREKIINNLLTVHINTLLFLIFY 1600 EYLSKYVTKKFIFFFRFFLFLFNKLCVAILSLVNSSNHLEIFNLFDWRNITRASHTQGEEELADKVRRAIRLVQNCSIYP 1680 QDEEVSPYKIYSQGGRHTKGRNKPIVMIDIDELLVTYIQLNFTFCRSCCFFIFFKNVCSQKYEMILRENFTSSYFERFKN 1760 NRDLFDPVEAVKGEKTGRRGDEWGEGHTAYQAYTTQTAYPAHTTHTAEGATPFGEPTLNDSFDEESDDNHRSDSSSSGLS 1840 QSSFTLIEYTDYSNNVDYIFLEFILEKIEEMDVDYYYRNVLNNCYYVIKIETLYNYIYGNEQLLSRFAFLNSVYYLYKLY 1920 YHMFVWSCNKSYVMGKENISAEGINGGENLTSLYNDIFYLFDVNRILGETFSSRYVQLVDQFGASDFTPSGTPDKTGRIA 2000 PYGCEDNYRPTDRRSIEESPYFVCNIYNFKLKLFHPLNFEKRDLAKGRKKNTFSNFLMVNRNYLLDLKHKYAKVNKYIRS 2080 YLVYLYHVVLRFYFNEYDIDGEKLSFHHIAYSFQSAFHTFNSKICSSPHDMVCFPSIRGIGNDKDTPPYLPPFNIFPKRD 2160 LKKNILLIFDIFNNIYDVYHGNIFENSNWANSIVTQIDTKLIGYLSEMYKIAHLYKMYHFCFQILVLCLMFTSRFWLVYV 2240 FSEKHPCGQQGGSNHARWGVDSQYCQPSAREKRKVGRKANERSVDEDALFRSRTHFGRGAGKRAKPKEASQNSNEQMRGS 2320 SKRRRAYILTGIYNKIASKGKGDNAKEIYNDLHNYMQMLIVCASIFYLTFLCVEKIQKNLKNVFFLNCANSLYNCYVHFY 2400 EHVEKFCKGHCEDKRYASSFFFDTFHLDLINLKLQAHVKAGRYKAEMRKVKKGLGESTARGGAQPQGGVTTMSSSGSGGE 2480 SSRSSRSGWDNAREDAFAKFPYLLYYNERAGAECVSDLRKTEKKHESDGKNFFKNNICLYFNMIRYLYKKRSKYFGLLPF 2560 VNSYIISIVTLMKFTMAKYFSNFNVSSDFFSLKFEHPIHQFDMDMLTKVKKTEDEKENVKLTNKAILINLENLFCNMFLN 2640 KDLCYQIKFVYTYYKKISSIMFKMNNFLLSYYYLKKNILFICDLIYFPEVVHNYLLLMNIILKSGRQRIELLTQEEIFFE 2720 NLNNQLSIYDKKNLDQHAGADADADAVAYPDAVADPNAYPDADADTNHTKDKTAKDVNDFKIYEDSDFCNIDYVKTPLNT 2800 YLTKRHIYEYRNLLTQFLAYLTFLIKNPDHFSILSTKRRGEVLHMLCLILFTKKKTSYFCCSKARPKKSKVVANPPEGGT 2880 NGKDNCCDYGNAKLTGEDSTKQRNTQRSDHEMVVPNNVAKQNQGNHKMTNFEKNFLTCFNNCNEKREETFFNFFLEKLFI 2960 ISNFDTDLFDVELDDEEQVESLIKSQVLRDVSSLNFVPPGGAHSEESFLNLGSEISSEPEQAVQNSKGETNQASCMEEAI 3040 RREFHQRASSHNSFKISDISVLNYLYLNYHFERNLTYTENYITNRLFTLNCKKMNAYFVKILLYYINLIFLKIKNIFCDD 3120 CIYTIKKQQFLNSSANDCSRNIFFFLFLKLFRFFNFSKRTLSELCVNYFPGNDNYAVYLDELVESKKNGDLPAEQVYAND 3200 GRHITQDTHTHNVGGKQNSWDDNPASGLDKMLMVNFLEIFLYPQKNCSFLEVLTVCYEFLANMKDDKGKKLRKRNKHKMY 3280 ALLKRAITERGDRSNPPVFHFQTVLVLLSLLLHYTCKRSLVHEMRKVAQFFLDFVFFFIENLKNNLIILQIIEAYGGGHT 3360 CVSTGGSTDGYRGGHAKEHPPENRSTAARQTQVNLLKFYFRKLLSLLYLYTDELILYTIKNNIDQEISQKNYYRKHAHEN 3440 LNIETISNYEYIGQPNLSEFCFYWDYAIVSMSHDKSDLYISRCFKNFLFVLIRIIKGEALSQEADNPGRFSGENKAAVKE 3520 REISQDSSKKRRDSPPEGDEECFNFYKKINTLFSVLNDEELCERLLLQGGNLPLSDDTIMGHLNESVKYCTGYAREVYAE 3600 QGNLGHNSNEYNGAPPGKSIQCGTIEWGGKHPGGDATIRESATRGKDEHSEVATHAGKHFENAQMGPEQLSNPHAVNIFF 3680 TPMGKSGMETSNELIKSNKTNRVRSSNSSATFLPNGKDRLAKDIQLVRFLSRLYRSADSCIEGKTGEYFHVEKIHLNIER 3760 FPVREKWNYIKKLEKILKQYQHMIKIMCEILHESKNVDRSRSNLKMFIDLWWNNRYTLEQHLKILNLDISNTLGFSIHKL 3840 MSIPLISLNIRTKIVLNRSANWKDDHQMEVSIRSEKDHTQVNSAYNTLSIVNNQKYYLSTNFDLFVVLYYYSNMLNIVAW 3920 LNKWGRYFVPLRYWDGTHFVNVLLNLTVFSIVMKNCNVQITQAKRKYLKWVDTGGSRSSRISKDGSTFIGSVIRGDTTDG 4000 VGSFPACNLTKQSHENRGAPKSLIPIDKKVVTSYLPFINKDIETILLLEERKKKNKRRSSTVGQPYILDITPPKEAAKGE 4080 VTSSIPRWSVNIEGGNNHHDGCQATYRSLQRDQPDHVEAISTLDNKYRIVIPKGESQSAFPHNTSSRDSASRGNPLTGEI 4160 RGRRRTINIISEETKSSIDSYCAGSHSVYKKENQSRDQKKVNSTIYGYLSPLKANNFEHLKNQNQSDMLTREEKKKRTTV 4240 AGTLNLDHLKKQDDKEEKSKENIYLKYLDLKKKCDRGVLKCSFLKLRMYLYNILIDIFENNHIHPKNIFNLFNIITHSFV 4320 TDVIKCTMVDDELDSERLTYVKNVEHRRVRKNPVVVYIHNNLNRLPFENLEPLKDSYIVRGVNKAVTAYLYERVLAKIKV 4400 EEAKRKGLSVLGTLRGEMDAAAGEEEELEAARGAYQNGGTPQNDDESDNYEDQSDDFRMDEYIQQEYSKKWKIDDVKNVG 4480 QMNSTHRSSVDLRCSHPFEWKRKNANVPQSIIGDCTTSQLCNAKGGNENISKKKGRNSLSYISTHHTEVSKSAEKNNGHY 4560 HHELNTCQVKPFNRCDDQGKATSQVDRHNGFRAQPRDTLTPYGQETLNSAGHLGANYGSRIVQARGKGRYSLIVSSEETK 4640 GHLERGDIPGKANPCESAPDKGTKQVRGKGRSKKNSRKSISIEHSFLNPFSNNNSKKGQTGMPFSEDHSNGRADCSQKRE 4720 RKTVYNRSTEEKHKLGLSHSAKRRGSVKKMNPRSSCPSHHSRSSCASPPPPSSESGSDSGSDSLSSVELIQNEDELRKIF 4800 MSARKSMNIHNMMGSYQNEEYSFFRLKKKRKKSVSESEAYFDDEKKFSTSCVEEAKKDNKRRSYSADPEHPSKASKMKYV 4880 KYVPYYIKSSRLVDPKKSNIFFVINPNGDLKRTEDATYPFIYFKNKEKYKYKNWNGYFGKVPCEKTLLKHLCCDDLYLYC 4960 GHQGGEQYIKKDIIQNAILRYDDPLGEEAKEGNAKKGKPKKAQNRGGGITKCSRSKAGKKEDPPFTQKKDKRRRYSCNFE 5040 AGKCTVEKGVKRKSVGDIIHIHGTSDSSDALCTQTEMEDGESDHVGDPHFSATQNDGINSCVFLIGCSSGLLSSHGFDLD 5120 VWGTPYDYIVGGCVFVFGNLWNVTDGEVDGFTQNFFWKWTQPNSSSLFCSNYNYNAVQMANVSTFGFRFFAKMLRGCTEE 5200 SAPGGGSQMGVREEGTEWSSNCWRDDDSDHNGGRDDDLLIEVGDNFVTLDFDTYTYFRKNYFFYKYFQKCYNCNIVLNQN 5280 LFSINQNRKYSWLSMTEALAEAKQFCRLPNTTGSAVVIYGLPL 5360 ................................................................................ 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 ................................................................................ 4480 ................................................................................ 4560 ................................................................................ 4640 ................................................................................ 4720 ................................................................................ 4800 ................................................................................ 4880 ................................................................................ 4960 ................................................................................ 5040 ................................................................................ 5120 ................................................................................ 5200 ................................................................................ 5280 ........................................... 5360 Propeptide cleavage sites predicted: Arg(R)/Lys(K): 0

Fasta :-
>PVX_123300 ACAATGTGAGCAGATTCCTCTCCTGCGGTAGTACCCTTTGCCTTTTTAAGTGTGATGCAT TACTAGCTTATTTCATTTGAAACTTATTCTGTTTTTCCTTCCTTTTCCATTTCGGCCATT TTGTCCTTTATGTTTCGCTAAAGTTCGAAATAAGACAAAAGGAAGAGGGGGAAAAAATAA GCAAAAGGTAGAGGAGAGAGTAACGAACGAATTAATAAATGGGTGAGTGGAGCAGAGAAG TGGAACGCACTGAGAGAGGTCTCCATAGCTGGTTAGCTTTACCTAGCTACAATTTTTTGC AGTACATAAAAAGGACCATGTGACTCTTTTTTTTTTTTTTTGGGAGCCTTTTTGTGGAGG ACTTTTTTGAAGTTCTTTTTTAATTCTTAAGGACCCGCTGCGGAAAAATGGTCGCCAGAG AAATAGTACCCGAAATAGACAAATGCAAAGGGGGCACGCAGCAGCGAAGCCGAGTAAGCT GGCCAGGCTGCTAACACTGCCAAAGTGCTAAAGCTGCTAAACTGTTAAACTGTTAAAACT GCTAAACTGCTAACAGTGCTAATACGGCTTACCTGTTGGGCGGGCGGACGAATGAACCAA TCGGCCAATCGGCCCAGCAACCGAGTGAGCTGCGGCATAACGGGCAGCTGGCACACGCAC GGGGAAAAATGATAAGGAAAGAGTCCAACATATACGACAAGCTGGACCGGATAGTGTGCG AGGTGCTGCGAAACATAGATGCAGATGCTAAAGGCGTAGGTGAAGAGGCACACAATAAGG GGAGTGCAAATGATGCCGATGAAAAAAACATAAACGAACGGGTGTATAAAAAATTCTTCG AACTCTTTAACAGGGAGAGTTACCTAGAAAAGCTAACACACGACGAATTAGTAGCAACAT ATAGAGACAAAAATGCACACAAATACCTATTTTACATGTTCGAATGTCTGCTTAATAAAA TCACCCAAACGAGGAATGTAAGACATTTAGATTTTTTATTTCTCATACTGAGGTACATTA CATATCTGTGGTTTTTGCTGTCCAATGATGATAAATTAGTTTTAATTTTCTACTACTATT TCAAGTTCGTGGATTTGTTGTTTAATTTAAAATTTGTGAGATGTTCCTTTTTTGTGAATA TTTACAATTTGCTGATTTATTTTTATATGAAAGATAAAGGGAAAAAAAAACAAAAAATCG TCTTTCCAGTGAAAAAATTAACCGAGAAGGAAGCAGGCTTCCACATAAAAAATGTCATAT CGGAACTGAACAGAATAATTGCAAATGAAAATGCTCACTTTGTTGAGACTGTTGGGAGGG AAAAAAATTTTGTGAGTCTCCAAAGTGATGCCCTGTCACATGGAAAGGCAGAAAGGAGAA ATTTGCCGCCAAATGCGGAAGAGGATGCATCTACATACGGGGGTACGCAAAATGTGTATG ACTACCTATGGGTAGGCCATCATCAAGGGGAAAGCGAGCCTCAGGGAAAGAAGCATAAAA ATAAACATACGGAAAAGATAAAATCAGATGGATCCGAGGAAGACAAATCATTTTACCTCA TAACAAAATGTCAAAATTGGCGTAATGAGAATTCTACCTTCCCAATTTTGAGCATTTTCT CAGTTAGCAGCTCATATAATCTCTTTTTAAACATCACGAAGCATTTGTTCAAAATTAGTG TCTACGATTTTTGTACCTTTTTCCCCCTCCTTAGTATGCTTAACGTGGAATGTCTACTTT CCCATTTTCACCTTTTTGAAATTTTGCACTATGTCCAACTGGAGGAGGTGCACTCGGATA CAAATGACTCCAAAAAGGAAACAAAAATTGTCTCAATTAGTTCCTGCCAATCTTCACCTT ACAAAGGGAATGAGCAAGTCACCACAGGGGGGAAGAAAACCCCCTCAAACAGCGAAGTTA TTTTTTCAAATAATAATAAAAGTAACAGAAAAATTTTGTGGAATATCCTTTTTGAAGAGC TAAAAAAGGTATACATGGTAGACACGAAAAATGTGAACTACACATTAAAAATGTTAAAGT ACTCTTTTAGCTTTTTCCTGTTTGAAGAAAAATTTGCTCCAAAATGTAAAGAAGGGGAAA CTCACGTGACCAATAAAAAAGAACACACCTTCGCGCTCATTTCGCAAGTATACCTAAAGG AGTTACTAAAATTCTGCCTCTCCTTTGTGAATAATTTAATGAGCTCAAGAGCGCTAAAGG AGGAAGTCATTTTTAAGGCCATTTCGTACGTATTTTATTTGCTTTCCAAATTGATATGCA ACACGAGTAATAACCTTAGAAAGTACATTCTGCTCAACAACGATAATAATCTCACCCTCG TTGCGCTAATTACGTATGTGTATAAATACTTCAAAAGGGTTTACCTGGAAAAGAACGCAT CGGGGGAGGTGCACAAGGGGGGTGGAGGCGCTGTTGGAATGGGTGGAAGTGGTGTAATTG GTGGAAGTGGAAGTCAAAATAAATTCAAGTACACATTCGTAACGCTCGAAAAGGTGTACC AGAAAATTCAAGAGTGCTTGTACATCGTCCTAACCGTTGACGAATTTGTTGAAGGGAATA CCAGAAAAAAGCTAGCTCAATGTAGTGATGGGGCGATACCCCATTTGGAGGGACATCAAA GCAATAGACAGCATGTAGATAGCTGCGACCTTTTCTTTTGTATCATCATCAAGATTAACA AAATGAACATGTTCTACTCCAATTTGGACATTATCAAAATGCTGTCGCAGAAGGATAGGA GCGTTTTCAGAAAATACATATACACCATTAACAAGAACAATGAAAATTTTGGCTCCTTTT TTTCGTGTGTACTAAATATTGAGTATAACGAAAATCAGCATGACTTGGTTTTAAAAAAGT ACATCTCTAATTTGAAGGAAAAAAAAAAATATAAAAATAAAAAGTTAATCAAGCTTATGA AGCCTTACCATTCCCCCCTCAAGTACATCATTTTGAAAAACCAAATTGACCAAGATGGGG CAAAAAAGAATTCCGGTTCCGCAAGGAAAAGCACCCTGGCAGTTAATTTCTCTCATAGGA ATTACGACCTTAGTACCTTCGAGGGAGATAAGCGGAAGGCTATTAACTTGCGAGCCAAAA GGAAGAGCATGTACGAGTTTGGGAGAGGTGAGAAGGGGGGCGGTCGTTCCAGGCCCCTCC AGGGTGACGACGGGATGGATGGCGACACAGTAGGTGAATTCGCATCTGACGAAAACGCAT CTGATGAAAGCGCACCTGACGAAAGCGCATCCGATGAAAGCGCATCCGACGAAACCGCAC CCGACGAGACCGCATCTGATGATGACCCCTCCGATGGCGAGGAGACCGAACCCAGTGACA ACCCCGCAAGCTGCCCACGCAGCTGCCGTAAGGAGTACTTTTCCGACGGACTGAAGCGCG CGAAGGTGAAAAAAAAAGACATGCCCATATTCGAAAATTCGATCCTTCGAATCAGGAAGA AGCAGCTGAACGGAACCAACATAGATTTTAAAAACGTCTGCCATAGCATCACTCTGTCCA TTAAAAGGTGCATACTAATCTCAGAGAGTATTATTACCTACTTCAAAATTCACGAAGAGT TTGAAGCTAACTTTAACATTTACGTGTGCAAAAATATATTTATTAATTTTTTACGAGTTT GCCTGCTAAGCGCCAGTCTCTTTTCCTACCTCTGCGTTAAGCTGAACTATGACGAGATGC TGAAGCAGATGTACGACTCGAATTTGATCATTATGTCGTACAACATTTTTGACAAATATA TCAGTTTCGTGTTGGACCAGGACGTCAAACAGTTGCGCAAGCATAAGAACGTGTTGCAGG TGCCTAGCAGGCGGTTGAACAGGGGGGAGGCAGCAGCTGGCCGCTCCGCCGGGGCGAAGG AGCAGAGGGAAGCCCCCTCCACGGTAAGCGCCCCCACGGTTACCACCTCCACCAGCGCTA TTCCCCCGGCGCAGCTGCACCGGGACGACATATACGACGTGCTGGGCGCCCGGGAGAGCC AACGCGGGAGCGCCTTCTTCCTGTCGGACCAAGACGAATTCATCGAGACGCTCTACCTGA ACACGTTCATGATTGTGATAAGCATCATTTCGGTGTGGGAAATGTACCTAGAAATTCCCG TAGAAGTTCTAAACAAAATGAAGTACACCTTTTTCGAGCTATTTTACAACACCACAATTA AAATCATAAAGTTTATAAAAAAGGACAAGGGGTTTTTCTTCCTACTGAACATTTTAAAAT TCATTTATCTCAAATTTGTCAGCCTCCCTTTTAACCCAATAAACATACACACCACAATAA AGCTGCACGACTTTTACGAGTTCCTCATTAATGATGGCGACGAAGATGTGAAGAAAGAGG AGGAGCAAAAATTTAATAGTGAAAATATGTACCTAAATTCGATTAGCCCCCTCAAATTTT TGAATAACCCAGAGAATGACGCACACAGGAAGAGCCTTAGCAGTGTACAAAAATTCAGCC TAACTTCTGACGACCGCGTAGTGCCAAACGAACATGACTACAATGTGCTAAGTGTAAGTA AAAAGAAGAGGGTAAGCATGGGGGGGTTAGTTCCCGTGTTTTTAAATAACCACAGCAGCA AGAAGAGGAGGAGGACCAACATCGACCCGTACACCTCGTATGACAGTTTTGAAAATAACG ATAACGGTTCCTGCTGCTCGGTGAGGAAGGGCCCCTCTGCTGGTCACGCACAAATGGGTG ATAAAACGGGCGCGAGGGTGCAGTACGATTTGCGCGAGGGAGAATACGAAGGTGAAAGTG TCAATGTTAATGCTAATGCTAGTGCCAGTGCTAATGTCGATTTCAATGCCAGTGCCAATG CCAACGCGACGCCGAAACGGAACCATGACTACGCGCAATCAGGGGAAGGGAACGAAAGCG ACATCTTTAGAAGCACCTACCTGAGCAACTACTACATCCCGCACATCGATCTGCTGTTCA TCATCGTCGATTTGGAAGTCTTTCACTACTTCGAAAAGAAGGAGTACAAAAAAATAATCC TCTCCGTGGAGAACGCCTTCAAAAGTATTATCAGCAAATGTGACTACAACACCAAGGAGT ACTTACGATCGTCCATTTCGTACATTTACAACAGCTACCAACAAGTGCATCTGCGTGACA GCAAAATTAACATCCAAAGTTGCATCGTCATTAGGCACATATTTAACCTTTACATCAAAT CTAAGGTCTTCTATTTGAGCAAAAAAATTAAAAAAAAATTAGCACACTATAAGGACAGCT ACACCAATGATGGGGTGCTAAAAATGGGTTACAACAAAATTTATAACAGCCTTTTTAGCA GCGAAAAGTGGAAGAACTTTTTTTACTTCCTGTGCGAAAGTGACAACCTAGGAAGAAACA AAAGGGAGAAAATTATAAACAATCTGCTGACCGTACATATAAACACGTTGCTTTTTTTGA TATTTTATGAGTACCTATCCAAGTATGTGACTAAAAAGTTCATATTTTTCTTCCGCTTCT TCCTATTTTTGTTTAACAAATTATGTGTTGCCATTCTAAGTTTGGTGAATTCGTCAAACC ACCTCGAAATTTTTAACCTTTTCGATTGGCGCAATATCACTCGAGCAAGCCACACACAGG GAGAGGAAGAACTGGCTGACAAGGTAAGGAGAGCCATACGCCTCGTTCAAAACTGCTCCA TATACCCACAGGATGAGGAGGTGTCTCCCTACAAAATTTACAGCCAGGGTGGAAGACACA CCAAGGGTAGAAATAAACCAATTGTCATGATCGACATTGATGAACTGCTAGTCACCTACA TCCAGCTGAACTTCACATTTTGCAGATCGTGCTGCTTTTTCATTTTCTTCAAAAATGTCT GCTCGCAAAAGTATGAAATGATTTTGAGGGAGAACTTCACTAGCAGCTATTTTGAGCGGT TTAAGAATAACCGGGATTTGTTCGACCCCGTGGAGGCTGTGAAGGGGGAGAAGACTGGGC GGAGGGGCGACGAGTGGGGGGAAGGCCACACCGCGTACCAAGCGTACACCACACAAACCG CTTACCCCGCGCACACCACACACACCGCAGAAGGGGCCACCCCCTTCGGGGAACCAACTC TTAATGACTCCTTTGACGAAGAGTCGGACGACAACCACAGAAGCGACTCCAGCAGCTCAG GTCTCTCCCAGTCCAGCTTCACCCTCATAGAGTACACGGACTATTCCAACAACGTAGATT ACATTTTCCTAGAATTTATTTTAGAAAAAATAGAAGAAATGGACGTGGATTATTACTACA GGAATGTACTTAACAATTGTTACTACGTCATCAAAATAGAAACACTTTATAATTACATAT ACGGAAATGAGCAGCTGTTAAGCAGATTTGCTTTCCTAAATAGTGTGTACTACCTGTACA AGTTGTACTACCACATGTTTGTCTGGTCTTGCAATAAGAGCTATGTCATGGGTAAGGAGA ACATCTCTGCTGAGGGGATCAACGGAGGAGAAAATTTAACCAGTCTGTACAATGACATCT TTTACCTCTTCGATGTGAACCGCATTTTGGGGGAAACCTTCTCCAGCAGGTATGTGCAGC TGGTCGATCAGTTCGGGGCCTCCGATTTTACCCCAAGTGGAACGCCCGACAAAACTGGCA GAATTGCTCCCTACGGCTGCGAAGATAATTACCGCCCAACTGATCGGAGAAGCATCGAAG AGTCGCCCTACTTCGTGTGCAACATTTACAACTTCAAATTGAAATTGTTCCACCCGCTAA ATTTTGAAAAAAGGGACTTGGCCAAAGGGAGGAAAAAAAACACATTCAGCAACTTCCTAA TGGTTAACAGAAATTATCTACTGGACTTGAAGCATAAGTATGCCAAAGTGAACAAGTACA TAAGGAGCTACTTGGTCTACCTCTACCACGTAGTTCTTCGCTTTTATTTCAATGAATATG ACATAGACGGGGAGAAATTATCTTTTCACCACATTGCGTACTCTTTTCAAAGTGCGTTCC ACACGTTTAACAGTAAAATATGCAGCAGTCCTCATGACATGGTGTGCTTTCCTTCCATCC GGGGAATCGGCAATGATAAGGACACCCCTCCATACCTCCCCCCTTTCAATATCTTTCCAA AAAGGGACCTAAAAAAAAACATTCTTCTCATTTTCGACATTTTTAATAACATATACGATG TATACCATGGCAACATATTTGAAAATTCCAACTGGGCAAACTCCATTGTAACACAAATTG ATACAAAGCTTATTGGCTACCTCAGCGAAATGTACAAAATTGCCCACCTGTATAAAATGT ATCATTTCTGCTTCCAAATTTTGGTACTCTGCCTTATGTTTACTTCCAGGTTTTGGCTAG TTTACGTGTTTAGCGAGAAGCACCCATGTGGGCAGCAGGGTGGTAGTAATCATGCCCGTT GGGGGGTGGATAGCCAATATTGTCAACCTTCCGCTAGGGAGAAACGAAAGGTTGGGCGTA AGGCAAACGAGAGGAGCGTAGACGAGGACGCACTGTTTCGAAGTCGTACACACTTTGGAC GTGGCGCGGGCAAGAGGGCCAAACCTAAAGAAGCTTCTCAAAACTCAAATGAACAAATGA GAGGAAGCTCCAAGCGAAGGAGAGCGTACATACTAACCGGAATTTATAACAAAATAGCGT CTAAAGGGAAGGGAGATAACGCGAAAGAGATATACAACGATTTGCACAACTATATGCAGA TGCTAATCGTTTGTGCATCCATATTTTACCTCACATTTTTGTGTGTAGAAAAGATACAGA AGAATTTGAAAAATGTTTTTTTTCTTAACTGCGCTAATAGTTTGTATAACTGTTATGTCC ATTTTTATGAGCACGTTGAGAAATTCTGCAAGGGGCACTGCGAGGATAAGCGCTACGCCT CCTCCTTCTTCTTCGACACTTTCCACTTGGACCTGATAAACTTGAAACTCCAGGCTCACG TAAAGGCAGGAAGGTACAAGGCCGAAATGAGAAAAGTGAAGAAAGGGCTAGGCGAATCCA CCGCGAGGGGGGGCGCACAGCCCCAAGGTGGGGTCACCACTATGTCAAGCAGCGGAAGTG GTGGAGAAAGCAGCAGAAGTAGCAGAAGCGGCTGGGATAACGCGCGGGAAGACGCATTCG CCAAATTTCCATACCTCCTTTACTACAACGAACGCGCGGGCGCCGAATGCGTGTCCGACT TGAGGAAGACGGAGAAGAAACACGAAAGCGATGGAAAGAACTTTTTCAAAAATAACATTT GCCTATATTTTAATATGATAAGATATTTGTACAAAAAGAGGAGCAAGTACTTCGGTTTGC TGCCCTTTGTCAATTCGTACATCATCTCGATAGTGACGCTCATGAAATTTACGATGGCGA AGTATTTTTCCAATTTTAATGTGTCGTCCGATTTCTTTTCTCTAAAATTTGAACATCCAA TCCACCAGTTCGACATGGACATGCTGACAAAAGTAAAAAAAACGGAAGACGAAAAGGAAA ATGTCAAGTTAACCAACAAGGCGATTTTGATCAACCTGGAAAATCTCTTCTGCAATATGT TCTTGAATAAGGACTTGTGTTACCAAATAAAATTCGTTTATACCTACTACAAAAAAATTT CCAGCATCATGTTCAAAATGAATAATTTTTTGCTCAGTTATTATTATTTGAAGAAAAACA TCCTCTTCATATGCGATTTGATTTACTTCCCCGAAGTTGTTCACAACTATTTGCTGCTGA TGAACATCATTTTGAAAAGTGGACGGCAGAGAATCGAGTTGCTAACCCAGGAGGAGATCT TCTTCGAGAACTTAAACAACCAGCTGAGCATTTACGACAAAAAAAACTTGGACCAGCACG CAGGCGCGGACGCGGATGCGGACGCAGTTGCATACCCAGACGCAGTTGCAGACCCAAACG CATACCCAGATGCAGATGCAGACACGAACCATACAAAGGACAAAACCGCCAAAGATGTGA ACGATTTTAAAATTTATGAAGACAGCGATTTTTGCAATATCGATTATGTAAAAACGCCGC TTAACACCTACTTAACCAAGAGGCACATTTACGAGTACAGAAATCTGTTGACTCAGTTTT TGGCCTACTTAACCTTTTTAATAAAAAATCCTGACCATTTTAGCATATTGTCGACGAAGC GTAGAGGGGAGGTACTCCACATGTTGTGTCTAATCCTTTTTACGAAGAAGAAAACGAGTT ACTTTTGCTGCAGCAAGGCGCGTCCCAAAAAGTCAAAGGTGGTGGCTAACCCGCCAGAGG GAGGTACTAACGGAAAAGACAACTGCTGCGACTATGGCAATGCAAAACTAACAGGGGAAG ATTCCACAAAGCAGAGGAACACACAAAGGAGCGATCACGAAATGGTGGTACCCAACAATG TTGCAAAGCAAAATCAAGGCAACCACAAAATGACCAATTTTGAAAAGAACTTTTTAACAT GCTTCAACAACTGTAACGAAAAAAGAGAAGAAACGTTTTTTAACTTCTTCCTCGAAAAAT TATTCATCATAAGTAACTTCGACACGGACCTATTCGACGTCGAGTTAGACGATGAAGAGC AAGTTGAGTCTCTCATAAAGTCTCAAGTGTTACGTGATGTAAGCAGTCTCAATTTCGTCC CCCCAGGAGGTGCCCACTCGGAAGAGAGCTTCTTAAACCTGGGGAGTGAAATTTCGAGTG AGCCAGAACAGGCAGTCCAAAACAGCAAAGGGGAGACAAATCAGGCCAGCTGCATGGAGG AAGCAATTCGTCGTGAGTTCCACCAGAGGGCTTCTTCCCACAACTCGTTCAAGATTAGCG ACATTTCCGTTTTGAACTACCTCTATTTAAATTACCACTTTGAGCGAAACTTAACCTACA CGGAAAACTACATTACTAATAGACTTTTCACACTTAACTGCAAAAAAATGAACGCCTATT TTGTGAAAATATTGCTATACTATATCAACTTGATATTTTTAAAAATAAAAAATATTTTCT GCGATGACTGCATTTACACCATCAAAAAGCAGCAGTTCCTTAACTCCTCGGCGAATGATT GCTCTAGGAACATTTTTTTCTTCTTGTTCTTAAAACTTTTTCGTTTTTTCAATTTTTCCA AGCGAACTTTGAGTGAGTTATGCGTCAATTATTTCCCCGGAAATGACAATTACGCGGTTT ACCTAGACGAACTAGTTGAGAGCAAGAAAAATGGAGACCTCCCAGCAGAGCAGGTCTACG CGAATGATGGAAGGCACATCACTCAAGATACACACACACATAATGTGGGGGGCAAACAAA ACAGCTGGGATGATAATCCGGCAAGTGGACTAGACAAAATGTTGATGGTTAATTTTTTGG AAATCTTTTTATACCCACAAAAAAATTGCAGCTTTTTGGAGGTGCTAACTGTGTGCTATG AATTCTTGGCAAACATGAAAGACGATAAAGGGAAAAAACTCAGGAAGAGAAATAAACACA AAATGTACGCACTCCTAAAAAGGGCGATTACCGAAAGGGGGGACCGAAGCAACCCACCTG TTTTTCATTTCCAAACTGTACTGGTGCTCCTATCCCTGCTGCTGCACTATACCTGCAAAA GGTCGCTCGTGCATGAAATGAGGAAGGTCGCCCAGTTTTTCCTAGACTTTGTGTTTTTCT TCATAGAGAACTTAAAGAACAATTTGATCATACTGCAGATAATTGAGGCCTACGGGGGGG GGCACACATGTGTAAGCACAGGTGGGAGCACAGATGGGTACAGAGGTGGACACGCAAAGG AGCACCCACCTGAGAATCGCTCCACCGCTGCACGGCAGACCCAAGTCAACCTGCTAAAAT TCTACTTCCGAAAATTGCTGTCCCTGCTGTACCTCTACACAGACGAGCTGATATTGTACA CCATCAAAAATAATATAGACCAAGAAATCAGCCAAAAAAATTACTACAGAAAGCATGCGC ACGAAAATTTAAATATAGAAACGATTAGTAATTATGAATACATAGGCCAACCGAACTTGA GCGAATTTTGCTTCTACTGGGACTACGCCATAGTGTCGATGAGCCACGACAAGAGCGACC TGTACATTTCGCGCTGCTTTAAGAACTTCCTCTTTGTGCTAATTCGAATCATTAAGGGGG AGGCATTAAGCCAAGAGGCAGATAATCCGGGCCGATTCAGTGGGGAAAATAAAGCCGCCG TCAAAGAGAGGGAAATTTCTCAAGACAGTAGTAAAAAAAGGAGAGATTCCCCCCCTGAGG GAGATGAAGAATGTTTCAATTTTTACAAAAAAATAAATACCCTTTTTAGCGTTCTAAATG ATGAAGAGTTATGCGAGCGGTTACTCCTGCAGGGGGGGAATCTCCCCCTAAGTGATGACA CTATAATGGGACACCTAAATGAGAGTGTAAAATATTGCACAGGTTATGCGCGCGAAGTGT ACGCTGAGCAGGGTAATTTGGGGCACAATTCGAACGAATACAATGGAGCGCCTCCGGGGA AGTCCATCCAGTGTGGTACAATCGAATGGGGAGGTAAACACCCCGGGGGTGACGCGACTA TCCGTGAAAGCGCCACACGTGGGAAAGATGAGCATAGCGAAGTAGCCACCCACGCGGGGA AACATTTTGAAAATGCTCAAATGGGACCTGAGCAGTTATCCAACCCGCACGCAGTAAATA TCTTTTTCACTCCCATGGGAAAAAGCGGAATGGAGACATCTAACGAGCTTATCAAATCGA ATAAAACGAACCGAGTTAGGAGTAGCAATTCCTCTGCAACGTTTCTGCCGAATGGGAAAG ACCGGCTAGCCAAGGACATCCAACTTGTGCGCTTCCTATCTCGCCTGTACAGAAGTGCCG ATAGCTGCATTGAGGGCAAAACGGGTGAATACTTCCACGTAGAAAAAATACACCTAAATA TCGAAAGGTTCCCAGTTAGGGAGAAATGGAATTACATAAAGAAATTAGAAAAAATACTAA AGCAGTATCAACATATGATAAAAATAATGTGCGAAATATTACACGAATCGAAGAACGTAG ATCGGAGCAGAAGCAATTTAAAGATGTTCATAGATTTGTGGTGGAACAATAGATATACAT TAGAGCAGCATTTAAAGATACTTAACTTAGACATCTCCAACACTCTCGGGTTTTCCATTC ACAAATTGATGTCCATCCCGTTGATTTCTTTAAATATAAGAACCAAAATAGTCCTAAACA GGAGTGCCAACTGGAAGGATGACCACCAGATGGAGGTTTCCATTCGCAGTGAAAAAGACC ACACACAGGTGAACAGCGCATATAACACCCTGTCAATTGTTAATAACCAGAAATATTATT TGAGTACCAATTTTGACCTATTCGTGGTGCTATACTACTATTCTAACATGCTCAACATTG TAGCGTGGCTTAATAAGTGGGGGAGGTACTTTGTTCCTCTCAGATACTGGGACGGTACCC ACTTTGTTAATGTCCTCCTAAACTTGACTGTTTTTTCCATCGTGATGAAGAACTGCAATG TGCAAATTACGCAGGCGAAGAGGAAATACCTAAAATGGGTCGACACTGGGGGAAGCCGCT CAAGCAGAATTAGCAAAGATGGGAGCACCTTCATCGGTAGCGTCATCCGCGGAGACACCA CTGATGGGGTGGGCTCCTTCCCAGCTTGTAACCTAACGAAGCAGAGCCATGAAAATAGGG GGGCTCCCAAAAGTTTGATCCCCATTGACAAAAAAGTCGTGACGTCCTATTTGCCCTTCA TTAATAAGGACATCGAGACGATTCTACTTTTGGAGGAAAGGAAAAAAAAAAACAAAAGGA GAAGCAGCACAGTAGGTCAGCCATATATACTCGATATAACCCCCCCAAAAGAAGCAGCAA AAGGGGAGGTCACTTCGAGTATCCCTCGCTGGAGTGTAAACATTGAGGGGGGAAACAATC ACCATGATGGTTGCCAAGCTACATATAGAAGCTTGCAAAGGGATCAACCCGATCATGTGG AGGCCATCTCAACCCTGGACAACAAGTACAGAATTGTCATACCCAAAGGGGAGAGCCAAT CTGCCTTCCCACACAACACCAGCAGTAGGGACAGTGCCAGCAGGGGCAACCCCCTCACTG GTGAGATACGAGGCAGGAGAAGAACTATCAATATTATCAGCGAAGAGACGAAGAGTAGTA TAGACAGCTATTGTGCGGGTAGCCATTCGGTTTATAAAAAGGAAAACCAAAGCAGAGATC AAAAAAAGGTCAACTCAACAATATATGGATATTTGAGCCCCCTAAAAGCGAACAATTTTG AGCACTTGAAGAATCAAAACCAAAGTGACATGCTGACAAGGGAGGAAAAAAAAAAAAGAA CTACAGTAGCAGGGACGTTAAATTTAGATCATCTGAAGAAACAAGATGATAAAGAAGAAA AGAGTAAAGAAAATATTTATTTAAAATATTTGGATTTAAAAAAAAAATGCGATAGGGGGG TACTGAAATGCTCTTTTTTAAAACTAAGGATGTACCTGTATAATATACTCATAGACATTT TCGAAAACAATCACATCCATCCGAAGAACATCTTTAACCTTTTTAACATCATCACCCATT CGTTCGTTACGGATGTGATCAAATGCACCATGGTGGATGATGAGCTAGATAGTGAACGAT TAACATATGTGAAAAACGTAGAACATAGGAGAGTCAGGAAAAACCCCGTCGTTGTGTATA TACATAATAATTTGAATAGACTCCCCTTTGAAAATTTAGAGCCTTTAAAAGATTCCTACA TCGTGCGCGGGGTGAACAAAGCGGTCACTGCGTATTTGTACGAAAGGGTGTTGGCGAAGA TTAAAGTGGAGGAAGCCAAGCGGAAGGGGCTCTCCGTTTTGGGTACTCTTCGGGGGGAGA TGGACGCAGCGGCGGGGGAGGAAGAAGAATTGGAGGCAGCCCGAGGAGCTTATCAAAACG GTGGAACCCCCCAAAACGATGACGAATCGGACAATTACGAAGACCAAAGTGATGATTTTC GAATGGACGAATACATACAGCAGGAATACTCAAAAAAGTGGAAAATTGATGATGTGAAAA ATGTGGGCCAAATGAACAGTACCCATCGTAGCAGCGTCGATTTGCGTTGTTCGCATCCCT TCGAATGGAAAAGGAAAAACGCCAATGTGCCACAAAGCATCATAGGTGATTGTACCACCT CCCAATTGTGTAATGCAAAAGGGGGAAATGAAAACATTTCCAAAAAGAAAGGAAGAAACT CCCTTTCGTATATATCAACACACCACACGGAGGTCTCCAAAAGTGCAGAAAAGAATAACG GTCATTACCACCATGAGCTTAACACATGTCAGGTAAAACCGTTCAATCGTTGTGATGACC AGGGCAAGGCAACCTCCCAAGTGGATCGCCACAACGGTTTTAGAGCCCAACCGAGAGATA CGCTAACTCCATATGGGCAGGAAACTCTCAACAGCGCAGGACACCTTGGCGCTAATTATG GCTCACGGATTGTGCAGGCAAGGGGAAAGGGAAGATACAGCCTGATCGTTTCGAGTGAAG AGACAAAAGGTCATCTCGAAAGGGGAGACATCCCCGGTAAAGCCAATCCCTGTGAAAGCG CCCCGGATAAAGGCACAAAGCAGGTACGTGGGAAAGGGCGAAGTAAAAAAAACTCGCGCA AGAGTATCTCCATTGAGCACTCCTTCCTAAACCCCTTCAGTAATAATAATAGTAAAAAGG GCCAAACTGGCATGCCATTTAGCGAGGATCACTCAAACGGTAGAGCTGACTGCAGCCAAA AAAGGGAAAGAAAAACTGTATACAACAGATCAACAGAGGAGAAACACAAATTGGGATTAT CACATTCTGCCAAAAGGAGGGGTAGCGTTAAGAAAATGAACCCCCGTTCGTCATGCCCGT CTCACCATTCCCGCTCATCCTGCGCGTCGCCTCCCCCTCCATCCTCCGAATCGGGGTCCG ACTCCGGGTCCGATTCCCTTTCATCAGTGGAACTAATTCAAAATGAAGACGAGCTGAGAA AAATATTCATGAGCGCTAGAAAATCGATGAATATTCACAACATGATGGGTTCTTACCAAA ACGAAGAATACAGCTTTTTTCGTTTAAAAAAAAAAAGAAAAAAAAGTGTAAGTGAATCGG AAGCCTACTTTGATGACGAAAAAAAGTTTTCAACTTCGTGCGTAGAAGAGGCTAAAAAGG ATAATAAAAGGAGAAGCTACTCGGCCGACCCGGAGCATCCTTCAAAGGCGTCCAAAATGA AATACGTAAAGTACGTTCCTTATTATATTAAAAGTTCCAGGCTGGTTGATCCCAAAAAGA GTAACATTTTTTTTGTGATTAACCCTAATGGGGATTTAAAAAGAACGGAAGACGCTACGT ACCCTTTCATATATTTTAAAAATAAAGAAAAGTACAAGTATAAAAATTGGAATGGATACT TTGGCAAAGTGCCATGCGAAAAAACGCTGCTAAAGCATTTGTGCTGTGATGACTTGTATC TTTATTGCGGCCACCAGGGGGGCGAGCAGTACATCAAAAAGGACATAATTCAAAATGCCA TTCTGCGCTATGACGACCCGTTGGGGGAGGAGGCCAAAGAGGGCAACGCGAAAAAGGGGA AACCCAAAAAAGCGCAAAATAGAGGTGGTGGAATCACAAAATGTAGTAGAAGCAAAGCGG GGAAAAAAGAAGATCCCCCTTTTACTCAAAAAAAAGACAAAAGGAGAAGATATTCTTGCA ATTTTGAGGCAGGAAAATGTACTGTGGAGAAGGGGGTTAAGAGAAAATCTGTTGGAGATA TCATCCACATCCATGGCACTAGTGACAGCAGCGATGCTCTATGCACACAGACAGAAATGG AAGATGGTGAGAGTGACCATGTTGGGGATCCCCATTTTTCGGCTACCCAAAATGATGGCA TAAACTCGTGCGTTTTTTTAATTGGGTGCAGTTCAGGGTTGCTATCTTCACATGGTTTTG ACTTGGACGTATGGGGCACCCCCTACGACTACATCGTAGGAGGGTGTGTTTTCGTTTTTG GGAATTTATGGAATGTGACAGACGGAGAAGTGGACGGATTTACACAAAACTTTTTCTGGA AATGGACGCAGCCAAATTCTTCCTCCCTATTTTGCTCCAACTATAATTATAACGCTGTCC AGATGGCAAACGTTTCAACATTTGGCTTTCGCTTCTTCGCAAAAATGTTAAGGGGGTGCA CTGAGGAGAGTGCACCTGGGGGGGGCTCACAAATGGGTGTGCGCGAAGAAGGCACAGAAT GGAGCAGCAACTGCTGGAGGGATGACGATAGTGACCATAACGGCGGTAGGGACGACGACC TTCTAATCGAAGTGGGAGACAATTTCGTTACACTCGATTTCGACACGTACACATACTTCA GAAAGAATTATTTTTTTTATAAATATTTCCAAAAATGCTACAATTGCAACATCGTTTTAA ATCAAAACCTTTTTAGTATAAATCAGAACCGGAAGTACTCCTGGCTTAGTATGACAGAGG CTTTAGCGGAGGCCAAGCAATTTTGCCGCTTACCAAACACGACGGGCTCGGCCGTTGTTA TTTATGGCCTACCTTTGTAG
Download Fasta

Fasta :-

MIRKESNIYDKLDRIVCEVLRNIDADAKGVGEEAHNKGSANDADEKNINERVYKKFFELF NRESYLEKLTHDELVATYRDKNAHKYLFYMFECLLNKITQTRNVRHLDFLFLILRYITYL WFLLSNDDKLVLIFYYYFKFVDLLFNLKFVRCSFFVNIYNLLIYFYMKDKGKKKQKIVFP VKKLTEKEAGFHIKNVISELNRIIANENAHFVETVGREKNFVSLQSDALSHGKAERRNLP PNAEEDASTYGGTQNVYDYLWVGHHQGESEPQGKKHKNKHTEKIKSDGSEEDKSFYLITK CQNWRNENSTFPILSIFSVSSSYNLFLNITKHLFKISVYDFCTFFPLLSMLNVECLLSHF HLFEILHYVQLEEVHSDTNDSKKETKIVSISSCQSSPYKGNEQVTTGGKKTPSNSEVIFS NNNKSNRKILWNILFEELKKVYMVDTKNVNYTLKMLKYSFSFFLFEEKFAPKCKEGETHV TNKKEHTFALISQVYLKELLKFCLSFVNNLMSSRALKEEVIFKAISYVFYLLSKLICNTS NNLRKYILLNNDNNLTLVALITYVYKYFKRVYLEKNASGEVHKGGGGAVGMGGSGVIGGS GSQNKFKYTFVTLEKVYQKIQECLYIVLTVDEFVEGNTRKKLAQCSDGAIPHLEGHQSNR QHVDSCDLFFCIIIKINKMNMFYSNLDIIKMLSQKDRSVFRKYIYTINKNNENFGSFFSC VLNIEYNENQHDLVLKKYISNLKEKKKYKNKKLIKLMKPYHSPLKYIILKNQIDQDGAKK NSGSARKSTLAVNFSHRNYDLSTFEGDKRKAINLRAKRKSMYEFGRGEKGGGRSRPLQGD DGMDGDTVGEFASDENASDESAPDESASDESASDETAPDETASDDDPSDGEETEPSDNPA SCPRSCRKEYFSDGLKRAKVKKKDMPIFENSILRIRKKQLNGTNIDFKNVCHSITLSIKR CILISESIITYFKIHEEFEANFNIYVCKNIFINFLRVCLLSASLFSYLCVKLNYDEMLKQ MYDSNLIIMSYNIFDKYISFVLDQDVKQLRKHKNVLQVPSRRLNRGEAAAGRSAGAKEQR EAPSTVSAPTVTTSTSAIPPAQLHRDDIYDVLGARESQRGSAFFLSDQDEFIETLYLNTF MIVISIISVWEMYLEIPVEVLNKMKYTFFELFYNTTIKIIKFIKKDKGFFFLLNILKFIY LKFVSLPFNPINIHTTIKLHDFYEFLINDGDEDVKKEEEQKFNSENMYLNSISPLKFLNN PENDAHRKSLSSVQKFSLTSDDRVVPNEHDYNVLSVSKKKRVSMGGLVPVFLNNHSSKKR RRTNIDPYTSYDSFENNDNGSCCSVRKGPSAGHAQMGDKTGARVQYDLREGEYEGESVNV NANASASANVDFNASANANATPKRNHDYAQSGEGNESDIFRSTYLSNYYIPHIDLLFIIV DLEVFHYFEKKEYKKIILSVENAFKSIISKCDYNTKEYLRSSISYIYNSYQQVHLRDSKI NIQSCIVIRHIFNLYIKSKVFYLSKKIKKKLAHYKDSYTNDGVLKMGYNKIYNSLFSSEK WKNFFYFLCESDNLGRNKREKIINNLLTVHINTLLFLIFYEYLSKYVTKKFIFFFRFFLF LFNKLCVAILSLVNSSNHLEIFNLFDWRNITRASHTQGEEELADKVRRAIRLVQNCSIYP QDEEVSPYKIYSQGGRHTKGRNKPIVMIDIDELLVTYIQLNFTFCRSCCFFIFFKNVCSQ KYEMILRENFTSSYFERFKNNRDLFDPVEAVKGEKTGRRGDEWGEGHTAYQAYTTQTAYP AHTTHTAEGATPFGEPTLNDSFDEESDDNHRSDSSSSGLSQSSFTLIEYTDYSNNVDYIF LEFILEKIEEMDVDYYYRNVLNNCYYVIKIETLYNYIYGNEQLLSRFAFLNSVYYLYKLY YHMFVWSCNKSYVMGKENISAEGINGGENLTSLYNDIFYLFDVNRILGETFSSRYVQLVD QFGASDFTPSGTPDKTGRIAPYGCEDNYRPTDRRSIEESPYFVCNIYNFKLKLFHPLNFE KRDLAKGRKKNTFSNFLMVNRNYLLDLKHKYAKVNKYIRSYLVYLYHVVLRFYFNEYDID GEKLSFHHIAYSFQSAFHTFNSKICSSPHDMVCFPSIRGIGNDKDTPPYLPPFNIFPKRD LKKNILLIFDIFNNIYDVYHGNIFENSNWANSIVTQIDTKLIGYLSEMYKIAHLYKMYHF CFQILVLCLMFTSRFWLVYVFSEKHPCGQQGGSNHARWGVDSQYCQPSAREKRKVGRKAN ERSVDEDALFRSRTHFGRGAGKRAKPKEASQNSNEQMRGSSKRRRAYILTGIYNKIASKG KGDNAKEIYNDLHNYMQMLIVCASIFYLTFLCVEKIQKNLKNVFFLNCANSLYNCYVHFY EHVEKFCKGHCEDKRYASSFFFDTFHLDLINLKLQAHVKAGRYKAEMRKVKKGLGESTAR GGAQPQGGVTTMSSSGSGGESSRSSRSGWDNAREDAFAKFPYLLYYNERAGAECVSDLRK TEKKHESDGKNFFKNNICLYFNMIRYLYKKRSKYFGLLPFVNSYIISIVTLMKFTMAKYF SNFNVSSDFFSLKFEHPIHQFDMDMLTKVKKTEDEKENVKLTNKAILINLENLFCNMFLN KDLCYQIKFVYTYYKKISSIMFKMNNFLLSYYYLKKNILFICDLIYFPEVVHNYLLLMNI ILKSGRQRIELLTQEEIFFENLNNQLSIYDKKNLDQHAGADADADAVAYPDAVADPNAYP DADADTNHTKDKTAKDVNDFKIYEDSDFCNIDYVKTPLNTYLTKRHIYEYRNLLTQFLAY LTFLIKNPDHFSILSTKRRGEVLHMLCLILFTKKKTSYFCCSKARPKKSKVVANPPEGGT NGKDNCCDYGNAKLTGEDSTKQRNTQRSDHEMVVPNNVAKQNQGNHKMTNFEKNFLTCFN NCNEKREETFFNFFLEKLFIISNFDTDLFDVELDDEEQVESLIKSQVLRDVSSLNFVPPG GAHSEESFLNLGSEISSEPEQAVQNSKGETNQASCMEEAIRREFHQRASSHNSFKISDIS VLNYLYLNYHFERNLTYTENYITNRLFTLNCKKMNAYFVKILLYYINLIFLKIKNIFCDD CIYTIKKQQFLNSSANDCSRNIFFFLFLKLFRFFNFSKRTLSELCVNYFPGNDNYAVYLD ELVESKKNGDLPAEQVYANDGRHITQDTHTHNVGGKQNSWDDNPASGLDKMLMVNFLEIF LYPQKNCSFLEVLTVCYEFLANMKDDKGKKLRKRNKHKMYALLKRAITERGDRSNPPVFH FQTVLVLLSLLLHYTCKRSLVHEMRKVAQFFLDFVFFFIENLKNNLIILQIIEAYGGGHT CVSTGGSTDGYRGGHAKEHPPENRSTAARQTQVNLLKFYFRKLLSLLYLYTDELILYTIK NNIDQEISQKNYYRKHAHENLNIETISNYEYIGQPNLSEFCFYWDYAIVSMSHDKSDLYI SRCFKNFLFVLIRIIKGEALSQEADNPGRFSGENKAAVKEREISQDSSKKRRDSPPEGDE ECFNFYKKINTLFSVLNDEELCERLLLQGGNLPLSDDTIMGHLNESVKYCTGYAREVYAE QGNLGHNSNEYNGAPPGKSIQCGTIEWGGKHPGGDATIRESATRGKDEHSEVATHAGKHF ENAQMGPEQLSNPHAVNIFFTPMGKSGMETSNELIKSNKTNRVRSSNSSATFLPNGKDRL AKDIQLVRFLSRLYRSADSCIEGKTGEYFHVEKIHLNIERFPVREKWNYIKKLEKILKQY QHMIKIMCEILHESKNVDRSRSNLKMFIDLWWNNRYTLEQHLKILNLDISNTLGFSIHKL MSIPLISLNIRTKIVLNRSANWKDDHQMEVSIRSEKDHTQVNSAYNTLSIVNNQKYYLST NFDLFVVLYYYSNMLNIVAWLNKWGRYFVPLRYWDGTHFVNVLLNLTVFSIVMKNCNVQI TQAKRKYLKWVDTGGSRSSRISKDGSTFIGSVIRGDTTDGVGSFPACNLTKQSHENRGAP KSLIPIDKKVVTSYLPFINKDIETILLLEERKKKNKRRSSTVGQPYILDITPPKEAAKGE VTSSIPRWSVNIEGGNNHHDGCQATYRSLQRDQPDHVEAISTLDNKYRIVIPKGESQSAF PHNTSSRDSASRGNPLTGEIRGRRRTINIISEETKSSIDSYCAGSHSVYKKENQSRDQKK VNSTIYGYLSPLKANNFEHLKNQNQSDMLTREEKKKRTTVAGTLNLDHLKKQDDKEEKSK ENIYLKYLDLKKKCDRGVLKCSFLKLRMYLYNILIDIFENNHIHPKNIFNLFNIITHSFV TDVIKCTMVDDELDSERLTYVKNVEHRRVRKNPVVVYIHNNLNRLPFENLEPLKDSYIVR GVNKAVTAYLYERVLAKIKVEEAKRKGLSVLGTLRGEMDAAAGEEEELEAARGAYQNGGT PQNDDESDNYEDQSDDFRMDEYIQQEYSKKWKIDDVKNVGQMNSTHRSSVDLRCSHPFEW KRKNANVPQSIIGDCTTSQLCNAKGGNENISKKKGRNSLSYISTHHTEVSKSAEKNNGHY HHELNTCQVKPFNRCDDQGKATSQVDRHNGFRAQPRDTLTPYGQETLNSAGHLGANYGSR IVQARGKGRYSLIVSSEETKGHLERGDIPGKANPCESAPDKGTKQVRGKGRSKKNSRKSI SIEHSFLNPFSNNNSKKGQTGMPFSEDHSNGRADCSQKRERKTVYNRSTEEKHKLGLSHS AKRRGSVKKMNPRSSCPSHHSRSSCASPPPPSSESGSDSGSDSLSSVELIQNEDELRKIF MSARKSMNIHNMMGSYQNEEYSFFRLKKKRKKSVSESEAYFDDEKKFSTSCVEEAKKDNK RRSYSADPEHPSKASKMKYVKYVPYYIKSSRLVDPKKSNIFFVINPNGDLKRTEDATYPF IYFKNKEKYKYKNWNGYFGKVPCEKTLLKHLCCDDLYLYCGHQGGEQYIKKDIIQNAILR YDDPLGEEAKEGNAKKGKPKKAQNRGGGITKCSRSKAGKKEDPPFTQKKDKRRRYSCNFE AGKCTVEKGVKRKSVGDIIHIHGTSDSSDALCTQTEMEDGESDHVGDPHFSATQNDGINS CVFLIGCSSGLLSSHGFDLDVWGTPYDYIVGGCVFVFGNLWNVTDGEVDGFTQNFFWKWT QPNSSSLFCSNYNYNAVQMANVSTFGFRFFAKMLRGCTEESAPGGGSQMGVREEGTEWSS NCWRDDDSDHNGGRDDDLLIEVGDNFVTLDFDTYTYFRKNYFFYKYFQKCYNCNIVLNQN LFSINQNRKYSWLSMTEALAEAKQFCRLPNTTGSAVVIYGLPL

No Results

	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method	ID	Site	Peptide	Score	Method
	PVX_123300	693 S	IKMLSQKDR	0.997	unsp	PVX_123300	693 S	IKMLSQKDR	0.997	unsp	PVX_123300	693 S	IKMLSQKDR	0.997	unsp	PVX_123300	820 S	AKRKSMYEF	0.998	unsp	PVX_123300	858 S	DENASDESA	0.992	unsp	PVX_123300	866 S	APDESASDE	0.993	unsp	PVX_123300	871 S	ASDESASDE	0.995	unsp	PVX_123300	873 S	DESASDETA	0.99	unsp	PVX_123300	888 S	DDDPSDGEE	0.994	unsp	PVX_123300	1303 S	KKRVSMGGL	0.997	unsp	PVX_123300	1333 S	TSYDSFENN	0.994	unsp	PVX_123300	2015 S	TDRRSIEES	0.998	unsp	PVX_123300	2127 S	KICSSPHDM	0.995	unsp	PVX_123300	2320 S	QMRGSSKRR	0.996	unsp	PVX_123300	2477 S	SSSGSGGES	0.995	unsp	PVX_123300	2481 S	SGGESSRSS	0.99	unsp	PVX_123300	2485 S	SSRSSRSGW	0.997	unsp	PVX_123300	2487 S	RSSRSGWDN	0.994	unsp	PVX_123300	2908 S	NTQRSDHEM	0.995	unsp	PVX_123300	3185 S	ELVESKKNG	0.995	unsp	PVX_123300	3219 S	GKQNSWDDN	0.996	unsp	PVX_123300	3524 S	EREISQDSS	0.992	unsp	PVX_123300	3528 S	SQDSSKKRR	0.996	unsp	PVX_123300	3534 S	KRRDSPPEG	0.998	unsp	PVX_123300	3641 S	TIRESATRG	0.994	unsp	PVX_123300	3705 S	NRVRSSNSS	0.991	unsp	PVX_123300	3739 S	RSADSCIEG	0.994	unsp	PVX_123300	3800 S	NVDRSRSNL	0.99	unsp	PVX_123300	3874 S	VSIRSEKDH	0.997	unsp	PVX_123300	3979 S	GSRSSRISK	0.993	unsp	PVX_123300	3982 S	SSRISKDGS	0.997	unsp	PVX_123300	4059 S	NKRRSSTVG	0.994	unsp	PVX_123300	289 S	KSDGSEEDK	0.998	unsp	PVX_123300	4060 S	KRRSSTVGQ	0.997	unsp	PVX_123300	4145 S	PHNTSSRDS	0.995	unsp	PVX_123300	4149 S	SSRDSASRG	0.997	unsp	PVX_123300	4176 S	EETKSSIDS	0.996	unsp	PVX_123300	4259 S	KEEKSKENI	0.994	unsp	PVX_123300	4531 S	NENISKKKG	0.994	unsp	PVX_123300	4635 S	SLIVSSEET	0.995	unsp	PVX_123300	4672 S	GKGRSKKNS	0.997	unsp	PVX_123300	4676 S	SKKNSRKSI	0.996	unsp	PVX_123300	4679 S	NSRKSISIE	0.994	unsp	PVX_123300	381 S	DTNDSKKET	0.998	unsp	PVX_123300	4681 S	RKSISIEHS	0.991	unsp	PVX_123300	4709 S	SEDHSNGRA	0.991	unsp	PVX_123300	4746 S	KRRGSVKKM	0.997	unsp	PVX_123300	4775 S	PSSESGSDS	0.996	unsp	PVX_123300	4779 S	SGSDSGSDS	0.997	unsp

PVX_123300

PVX_123300 | hypothetical protein, conserved

ID's

UniProt_ID: A5JZT3

GEO Functions

Computed_GO_Component_IDs: GO:0005634

Computed_GO_Components: nucleus

Computed_GO_Function_IDs: GO:0008233

Computed_GO_Functions: peptidase activity

Computed_GO_Process_IDs: GO:0006508

Computed_GO_Processes: proteolysis

Curated_GO_Component_IDs:

Curated_GO_Components:

Curated_GO_Function_IDs:

Curated_GO_Functions:

Curated_GO_Processes:

Subcellular Localization

Targetp

Signalp

Fasta :-

Mitoprot

ProPeptide Prediction

Sequence

Nucleotide sequence

Fasta :-

Protein sequence

Fasta :-

Domains

Structure

Post Translational Modifications

N_Linked Glycosylation

O_Linked Glycosylation

Phosphorylation

Protein-Protein Interaction

String

Literature

PubMed

Google Scholar

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