TGME49_255180 | ubiquitin carboxyl-terminal hydrolase

UniProt_ID:

Computed_GO_Component_IDs:
Computed_GO_Components:
Computed_GO_Function_IDs: GO:0004221 GO:0036459
Computed_GO_Functions: obsolete ubiquitin thiolesterase activity thiol-dependent ubiquitinyl hydrolase activity
Computed_GO_Process_IDs: GO:0016579 GO:0006511
Computed_GO_Processes: protein deubiquitination ubiquitin-dependent protein catabolic process
Curated_GO_Component_IDs:
Curated_GO_Components:
Curated_GO_Function_IDs:
Curated_GO_Functions:
Curated_GO_Processes:

	_ID	Prediction	OTHER	SP	mTP	CS_Position
	TGME49_255180	OTHER	0.999997	0.000002	0.000001

No Results

Fasta :-
>TGME49_255180 MDELGDSVLQQDAAAPASSTFARCDQTATGREPSLSASVLQGSPQRTGVDISRRWASESP LASSSAATLSLCPVDQIRKTSKRTGSSRGDDRVERSVQESAWTPCSEKSEASGAAHAGSR SRHSPICSVVFTSPPAAVAPPSKASAASAVSGLCLQPEGSTPERLRVAQGAAPKVSPLED GIPVATVKLAGLETCRTDHPHSPAAPQLAPQHQAPSEELNVSARLHTETRIQANDISVSH ASASGSLPPLPSVAFFLHRAASTCALASHASSSDDGSAARPSVQGICGPEKPNARQTGSS EHELSPSISSTLSVSNSGALSPRRSRGCTAFGQTGTFISPPTACSSRLSPRGGRQERQLA GTKGELTEMEAAFGAETKTERERVSARGTERELEFGDKPMEMTQESWRVESGDVEERDSG VESDLSGDARQKGEKTAAVATEVHPMQTDAAPRLGGGTRQLHQEGQHVMSSGECLAGLLW PRDQLSLSVTASRTARVSSTHQKESLGEAREEKPSGPDTLQPTSKEGFSQTAQDSEQLSP VHVAPSSLSEQCCLGDLLFMYNLRHSFAVPRESQQDAHPMSVFGLGEFKTGVWGKGGQGG PGGGAGGASGPGASGIGKKKNENAYSLQRELQQQQMAVRWLLSVTGNGSSETSATGALPR RSRLARMSPVSKAFGAVSAKHEPAGQAASALFSGSSSSASAVTSAPGLPGDQRGPEACES TMKRERAACEDSGGVPSVSSHGRTGWEQKSEQAAILGATGLRKCRYVGLENLGATCYLNV YLQTLFMNVHFRDFLLSLPTLRELEEMERQRPAEASRLSLAPSTPETHSQVLARQPREGR TRQYSRGAEDKKSQAEESDETGSRDAETADGEFPESPEPRCKIEERETHMKQDAEERGRP QVKEESPKESTGARTEKTALVPKENPPEAERLDVAPPSATSSVPEPFTPVFSASSPACLT HGGGRAEAVDQENQADSRARWCNWREKVKGQDVCTVLCSQRYSLISSLQTIFAKLQEGIQ AAVRPSVVADLLAEDLSYQEDANELQHRLFELLESELGGRESPLDFLRVLFGGRSRQTVK CSHCMYSGNKEEYFFQLNCCHKKSHQSGKHEPGDRNSRNSPEETEASRSPSLPLSSSPFS PEGDLASQEADDSRAVTSPKQVAASTSSRCGPCPLSSLPASQGESLSSSQEDSTCAPASG PVDSDVAAVSTSRPEQSESKRHGRRGKRGPQRGAAASAHTGAGGQQGGTQGTAGGRRREG RDSCERKGEASSTSARGPGRKGVSAGQGRRPVDENKGGWKLEEDMARQYQRTENLRGDSE YFCPQCGEKREAKKRSQLSLLPPYLQLVVLRYSIDVKKQTGEWVRRKIHEALEIPLVMDV RGCCTDDCQIGHLDGTLSSLRDASHAAHQYHLFGILEHQGASATSGHYVAITRDLRERAA GRSECADAASVDDSKKTFLASSLSDGDASASLSQTTEAASPLLPQDDGDRVQGCVSVGDW REAAPLGEGTLPRQLAPSGLEFLGSPRVCPGRGGEGGAQKVKACALPAEGERRSDEDRRR SNADRICYAGGPEGKDACGKEAEGPSFSVDSPQQAPGKLVPAKGFEGDEGRDVTIASSTV ERDLSSQSVSPPRRGTSASRRKGSLREGYGSPPFLEPTKGFPGVATAAVLLGDADATTSP ITRDRDAFVFRDPSPFASPRPRWSAPLNGPNETAPEPNSVTVVVDVDASSPSLTVSAGSS SCSSGLASFPHRSLTPRLCSFPHPSTSVEKTVDKDYLRSGFAAATDACSAETSSAPGPGA LPNFPTHASPSSSILSCGLNSSPADSSTSPSLKPYDGAGETTNEDACVEVCEEPFLTHTP QAEKSRGRSQAEALDASTLSPTTVTQKDLFSLEFKSPRSRHAALGRLSTWVAAPEPNAVE ARESGRGDRKRVEALEAQKGSCGPKKKGNASLTQRTLDQYVGRTRAQVRGRDTGCTARKG GSSPCVSTASPPRLASSPPGGAATCWSRESPDKKRRKREAERGREEQTKRKADQLQRCTG RDCTQAVGDRQSRSGGKKEKQGGENSVSLVVVETPEEEDDDTDVEEEFVILASPFQHEAS RQSAHETRHENGSSQVAEADEFYQGKEPQMKTALNKLTTRSLAVDDDLEEIPEVILGAGL PAEKKQPFGVQPEPSDNADKGRSTSDVVETKAAPQTAATRWSWVRFDDSEVRPFPLPRPS SSDLDSSAPRSSSEGSPRYQTPPGGCVVSSVAAASGASASSSLSCSLLAEEGEWRRATPE AERVGATSRAPVGRSFSAGPLRIYSRTVYMVTYIRADLTAEETDMPLPRELQDFIDEENE RICEEQETLSMRQQTLLAYVQQRQAALQQLLRHALPSALKELEQQRLERVQKEALHGEVV RARLPSPVCERNLVNIQQRLSLLPQLRQLSFIPRSWWQQFVRGIDYPTMSTSLPPSLLPR RDSNNRNGICMVPLTKAENGDGNRPARKRKKNNAEQRGAAGSSREKSEDELRERGRLGAP GEEHATAGESELEGSANAGAKKEAKEEDLRGLSICEVLEGETREGRQQSRSAMKSEEAAI SGHRQQWLQTSGGGRDAYSRAANAQEEVKAYRQLEQSYADGGTTSEETREGRDGDATSPA CRSENDKEKGVIDYSSILCPHYRNALAASISCSPAAAGTVVSPQDALVTSSLSMPALPLN ASSFHEAHRPWIFNSISEPDEEKLLAEPSYPIEKLLRVTDFCGERGVDPLSIWTGEAKAI PTALFSDLLAASALRPSIPDPSLLPNLCSVCSAALSGLVDFYSEQHRSIEAILEALKRQK TIPTVCEETPVSPELVESSSACAIPSSTANLSSPPKEVTVSSTANGEADRAEGVHLQFVH AGGDGDTAPARSESSQETEKNQEETIHAEVLPSIVVPLPSPDDVHLRSSSQEPSASSVAP GDQQQGGEKEETQGGRQISCVASPCGVGALSPIVCAGVDEVPDSSKVAPVQDAEGNRQVS VSSSQSRVEGSGPDSGDNQRLETEEPLSPRILNEHETPATDLLGCCIPSASLSSSPRAAV PALNPWVLEHTATLPEFIYVSRRPLQRAFSLHSCFLTLCTLPTASSPASIPFSALLPSSS SPQSRELKVLRAKMKREGKDSREKYLSWLTLSDVRREVTLGRKLPQGDSDPSRGVKPPKK DARKDGDWERAEEGIEEGEASDGDGTNDGRRRRRKKVEDEEQGEEQVCGDEDVEDVNMDD EGEESASLGSLLHAEDEGNATKKTRVTRARKAVSSPPGANRKAVAHTLHRATSRPRSDHK QEENEDLEEEEGNTEEGQGNSQDAHTGRDNVFDFASDLLCCHQKLRIQGAVGKSNKLQRF LVNKVPTAAILNFLYFEREKAVLYRELGIANPVTFDCSTFVSQYAQECSICLTEQQAEQQ RRQVWRDKRNEESKALGQIIGKRWRLRKETGPASRLATPLPKKGRFFFVSTEWRHQWLSY VASGCETEGVTSKPPPLLNSSLLCDCPTRGLKVDPTDTLLSPTFLADPPESETDTYILVH EDDVDLLERFGLTGFKTAENLSMCVEVKHIPGEIASSLLPPSSSPSSRLAASPCFAGPVP AFFFPSLAPCSACVRTHRIEQGFYDFPPVDLSFHLRQNRWNGDAPEVKSEPETVREAGPG RGRGNTGNGGRRQASSRVLGQKKITVRVSGETEIASLLAHVVASMTEAEETKETTVYLEG PPRHVFYFSPKSSCLSVSIPDAGPTASPPNRSVYPSTSPTTTDTLPRTAPSLICNAAAAH SPPAAPRRYSGHREEGKDTQLLGDLCDGRAVTRPLCLSPSGARQKERHENREACDVLCLE RTERATTENEAEPRGERESQSQAEISTRPLVSFVDEEVGKAVKADASGTRVRLPEETYTG SEHSGITLRAVSLPHSCCLSLEVEMKTHLRDLLLYVNEAWQVSYEFQESRQLDEVRREKA VRKEAEAATEDEAALVSVALQEGGFLEAEEGTRRRQADREATERVLEIQDSEKEDDGGSA GEASQVEECVEVQDASTSAEKLARKPLSPLPGDSLVRNKRERSEEPEPVDVLTDGEEQEE LAQSDQKKSRFATTHPTSQGLCSLLRGDGKCDNGTENRRKTAGRNMPARRSDNLTQEREL RRPQDTRAGRNQRGNRQHASLLEDPGPKTGVPGQPDTTGCFIHQQLHSSTGNMRQDRTPT ETIVLLDDDEDDRAAPSR
Download Fasta

MitoProt II - v1.101 File : /home/rajan/sadaf/4480_mitoprot/test/TGME49_255180.fa Sequence name : TGME49_255180 Sequence length : 4218 VALUES OF COMPUTED PARAMETERS Coef20 : 3.467 CoefTot : 0.000 ChDiff : -93 ZoneTo : 1 KR : 0 DE : 0 CleavSite : 0 HYDROPHOBIC SCALE USED GES KD GVH1 ECS H17 : 1.753 1.659 0.539 0.621 MesoH : 0.300 0.558 -0.098 0.269 MuHd_075 : 31.217 21.802 8.725 5.581 MuHd_095 : 20.617 14.879 5.802 4.708 MuHd_100 : 20.985 11.963 5.106 3.476 MuHd_105 : 25.525 12.419 5.478 3.062 Hmax_075 : 14.000 17.033 2.779 5.087 Hmax_095 : 4.200 8.750 -0.196 3.728 Hmax_100 : 7.500 6.600 -0.174 3.160 Hmax_105 : 7.963 7.350 -0.033 2.511 CLASS NOT-MITO MITO(/CHLORO) DFM : 0.9386 0.0614 DFMC : 0.9222 0.0778

##### ProP v.1.0b ProPeptide Cleavage Site Prediction ##### ##### Furin-type cleavage site prediction (Arginine/Lysine residues) ##### 4218 TGME49_255180 MDELGDSVLQQDAAAPASSTFARCDQTATGREPSLSASVLQGSPQRTGVDISRRWASESPLASSSAATLSLCPVDQIRKT 80 SKRTGSSRGDDRVERSVQESAWTPCSEKSEASGAAHAGSRSRHSPICSVVFTSPPAAVAPPSKASAASAVSGLCLQPEGS 160 TPERLRVAQGAAPKVSPLEDGIPVATVKLAGLETCRTDHPHSPAAPQLAPQHQAPSEELNVSARLHTETRIQANDISVSH 240 ASASGSLPPLPSVAFFLHRAASTCALASHASSSDDGSAARPSVQGICGPEKPNARQTGSSEHELSPSISSTLSVSNSGAL 320 SPRRSRGCTAFGQTGTFISPPTACSSRLSPRGGRQERQLAGTKGELTEMEAAFGAETKTERERVSARGTERELEFGDKPM 400 EMTQESWRVESGDVEERDSGVESDLSGDARQKGEKTAAVATEVHPMQTDAAPRLGGGTRQLHQEGQHVMSSGECLAGLLW 480 PRDQLSLSVTASRTARVSSTHQKESLGEAREEKPSGPDTLQPTSKEGFSQTAQDSEQLSPVHVAPSSLSEQCCLGDLLFM 560 YNLRHSFAVPRESQQDAHPMSVFGLGEFKTGVWGKGGQGGPGGGAGGASGPGASGIGKKKNENAYSLQRELQQQQMAVRW 640 LLSVTGNGSSETSATGALPRRSRLARMSPVSKAFGAVSAKHEPAGQAASALFSGSSSSASAVTSAPGLPGDQRGPEACES 720 TMKRERAACEDSGGVPSVSSHGRTGWEQKSEQAAILGATGLRKCRYVGLENLGATCYLNVYLQTLFMNVHFRDFLLSLPT 800 LRELEEMERQRPAEASRLSLAPSTPETHSQVLARQPREGRTRQYSRGAEDKKSQAEESDETGSRDAETADGEFPESPEPR 880 CKIEERETHMKQDAEERGRPQVKEESPKESTGARTEKTALVPKENPPEAERLDVAPPSATSSVPEPFTPVFSASSPACLT 960 HGGGRAEAVDQENQADSRARWCNWREKVKGQDVCTVLCSQRYSLISSLQTIFAKLQEGIQAAVRPSVVADLLAEDLSYQE 1040 DANELQHRLFELLESELGGRESPLDFLRVLFGGRSRQTVKCSHCMYSGNKEEYFFQLNCCHKKSHQSGKHEPGDRNSRNS 1120 PEETEASRSPSLPLSSSPFSPEGDLASQEADDSRAVTSPKQVAASTSSRCGPCPLSSLPASQGESLSSSQEDSTCAPASG 1200 PVDSDVAAVSTSRPEQSESKRHGRRGKRGPQRGAAASAHTGAGGQQGGTQGTAGGRRREGRDSCERKGEASSTSARGPGR 1280 KGVSAGQGRRPVDENKGGWKLEEDMARQYQRTENLRGDSEYFCPQCGEKREAKKRSQLSLLPPYLQLVVLRYSIDVKKQT 1360 GEWVRRKIHEALEIPLVMDVRGCCTDDCQIGHLDGTLSSLRDASHAAHQYHLFGILEHQGASATSGHYVAITRDLRERAA 1440 GRSECADAASVDDSKKTFLASSLSDGDASASLSQTTEAASPLLPQDDGDRVQGCVSVGDWREAAPLGEGTLPRQLAPSGL 1520 EFLGSPRVCPGRGGEGGAQKVKACALPAEGERRSDEDRRRSNADRICYAGGPEGKDACGKEAEGPSFSVDSPQQAPGKLV 1600 PAKGFEGDEGRDVTIASSTVERDLSSQSVSPPRRGTSASRRKGSLREGYGSPPFLEPTKGFPGVATAAVLLGDADATTSP 1680 ITRDRDAFVFRDPSPFASPRPRWSAPLNGPNETAPEPNSVTVVVDVDASSPSLTVSAGSSSCSSGLASFPHRSLTPRLCS 1760 FPHPSTSVEKTVDKDYLRSGFAAATDACSAETSSAPGPGALPNFPTHASPSSSILSCGLNSSPADSSTSPSLKPYDGAGE 1840 TTNEDACVEVCEEPFLTHTPQAEKSRGRSQAEALDASTLSPTTVTQKDLFSLEFKSPRSRHAALGRLSTWVAAPEPNAVE 1920 ARESGRGDRKRVEALEAQKGSCGPKKKGNASLTQRTLDQYVGRTRAQVRGRDTGCTARKGGSSPCVSTASPPRLASSPPG 2000 GAATCWSRESPDKKRRKREAERGREEQTKRKADQLQRCTGRDCTQAVGDRQSRSGGKKEKQGGENSVSLVVVETPEEEDD 2080 DTDVEEEFVILASPFQHEASRQSAHETRHENGSSQVAEADEFYQGKEPQMKTALNKLTTRSLAVDDDLEEIPEVILGAGL 2160 PAEKKQPFGVQPEPSDNADKGRSTSDVVETKAAPQTAATRWSWVRFDDSEVRPFPLPRPSSSDLDSSAPRSSSEGSPRYQ 2240 TPPGGCVVSSVAAASGASASSSLSCSLLAEEGEWRRATPEAERVGATSRAPVGRSFSAGPLRIYSRTVYMVTYIRADLTA 2320 EETDMPLPRELQDFIDEENERICEEQETLSMRQQTLLAYVQQRQAALQQLLRHALPSALKELEQQRLERVQKEALHGEVV 2400 RARLPSPVCERNLVNIQQRLSLLPQLRQLSFIPRSWWQQFVRGIDYPTMSTSLPPSLLPRRDSNNRNGICMVPLTKAENG 2480 DGNRPARKRKKNNAEQRGAAGSSREKSEDELRERGRLGAPGEEHATAGESELEGSANAGAKKEAKEEDLRGLSICEVLEG 2560 ETREGRQQSRSAMKSEEAAISGHRQQWLQTSGGGRDAYSRAANAQEEVKAYRQLEQSYADGGTTSEETREGRDGDATSPA 2640 CRSENDKEKGVIDYSSILCPHYRNALAASISCSPAAAGTVVSPQDALVTSSLSMPALPLNASSFHEAHRPWIFNSISEPD 2720 EEKLLAEPSYPIEKLLRVTDFCGERGVDPLSIWTGEAKAIPTALFSDLLAASALRPSIPDPSLLPNLCSVCSAALSGLVD 2800 FYSEQHRSIEAILEALKRQKTIPTVCEETPVSPELVESSSACAIPSSTANLSSPPKEVTVSSTANGEADRAEGVHLQFVH 2880 AGGDGDTAPARSESSQETEKNQEETIHAEVLPSIVVPLPSPDDVHLRSSSQEPSASSVAPGDQQQGGEKEETQGGRQISC 2960 VASPCGVGALSPIVCAGVDEVPDSSKVAPVQDAEGNRQVSVSSSQSRVEGSGPDSGDNQRLETEEPLSPRILNEHETPAT 3040 DLLGCCIPSASLSSSPRAAVPALNPWVLEHTATLPEFIYVSRRPLQRAFSLHSCFLTLCTLPTASSPASIPFSALLPSSS 3120 SPQSRELKVLRAKMKREGKDSREKYLSWLTLSDVRREVTLGRKLPQGDSDPSRGVKPPKKDARKDGDWERAEEGIEEGEA 3200 SDGDGTNDGRRRRRKKVEDEEQGEEQVCGDEDVEDVNMDDEGEESASLGSLLHAEDEGNATKKTRVTRARKAVSSPPGAN 3280 RKAVAHTLHRATSRPRSDHKQEENEDLEEEEGNTEEGQGNSQDAHTGRDNVFDFASDLLCCHQKLRIQGAVGKSNKLQRF 3360 LVNKVPTAAILNFLYFEREKAVLYRELGIANPVTFDCSTFVSQYAQECSICLTEQQAEQQRRQVWRDKRNEESKALGQII 3440 GKRWRLRKETGPASRLATPLPKKGRFFFVSTEWRHQWLSYVASGCETEGVTSKPPPLLNSSLLCDCPTRGLKVDPTDTLL 3520 SPTFLADPPESETDTYILVHEDDVDLLERFGLTGFKTAENLSMCVEVKHIPGEIASSLLPPSSSPSSRLAASPCFAGPVP 3600 AFFFPSLAPCSACVRTHRIEQGFYDFPPVDLSFHLRQNRWNGDAPEVKSEPETVREAGPGRGRGNTGNGGRRQASSRVLG 3680 QKKITVRVSGETEIASLLAHVVASMTEAEETKETTVYLEGPPRHVFYFSPKSSCLSVSIPDAGPTASPPNRSVYPSTSPT 3760 TTDTLPRTAPSLICNAAAAHSPPAAPRRYSGHREEGKDTQLLGDLCDGRAVTRPLCLSPSGARQKERHENREACDVLCLE 3840 RTERATTENEAEPRGERESQSQAEISTRPLVSFVDEEVGKAVKADASGTRVRLPEETYTGSEHSGITLRAVSLPHSCCLS 3920 LEVEMKTHLRDLLLYVNEAWQVSYEFQESRQLDEVRREKAVRKEAEAATEDEAALVSVALQEGGFLEAEEGTRRRQADRE 4000 ATERVLEIQDSEKEDDGGSAGEASQVEECVEVQDASTSAEKLARKPLSPLPGDSLVRNKRERSEEPEPVDVLTDGEEQEE 4080 LAQSDQKKSRFATTHPTSQGLCSLLRGDGKCDNGTENRRKTAGRNMPARRSDNLTQERELRRPQDTRAGRNQRGNRQHAS 4160 LLEDPGPKTGVPGQPDTTGCFIHQQLHSSTGNMRQDRTPTETIVLLDDDEDDRAAPSR 4240 ................................................................................ 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 Propeptide cleavage sites predicted: Arg(R)/Lys(K): 0

Fasta :-
>TGME49_255180 ATGGATGAACTTGGGGACTCCGTTCTCCAACAAGATGCAGCGGCCCCCGCTTCGTCCACT TTTGCGCGCTGCGACCAGACAGCGACGGGAAGAGAGCCCTCTCTCTCTGCATCCGTGCTG CAAGGATCCCCTCAGAGAACAGGAGTGGACATTTCCAGAAGATGGGCATCAGAAAGTCCA CTCGCCTCTTCTTCCGCCGCGACGCTGTCGCTCTGTCCTGTTGACCAGATCAGGAAAACA AGCAAACGGACTGGTTCTTCCCGAGGCGACGATAGGGTCGAACGGTCAGTTCAGGAATCC GCTTGGACTCCTTGTTCGGAGAAAAGTGAAGCCTCAGGTGCTGCGCATGCAGGCTCACGC TCTCGGCACTCCCCCATCTGTTCTGTCGTGTTCACTTCTCCGCCAGCTGCAGTTGCTCCA CCCTCCAAGGCGTCTGCTGCGTCGGCTGTTTCTGGTCTGTGCCTCCAGCCGGAGGGGTCG ACACCCGAGAGACTAAGAGTCGCGCAGGGAGCTGCTCCAAAGGTCTCGCCTCTAGAGGAT GGAATTCCAGTGGCGACCGTGAAGCTAGCAGGGCTCGAGACGTGCCGTACTGACCATCCC CACTCGCCTGCTGCTCCTCAGCTCGCTCCTCAGCATCAGGCGCCATCCGAAGAGCTCAAT GTATCTGCGAGATTGCACACGGAAACACGCATCCAGGCGAACGACATTTCTGTCTCGCAT GCGTCCGCTTCGGGGAGCCTACCTCCACTGCCTTCTGTCGCGTTTTTTCTACACCGTGCG GCAAGCACATGCGCTCTTGCTTCGCATGCATCTTCGTCAGACGACGGCAGTGCTGCACGG CCGTCTGTGCAAGGAATCTGTGGCCCTGAGAAGCCTAACGCCCGGCAGACGGGGTCGTCT GAACACGAGCTCTCTCCTTCTATCTCGTCTACATTATCTGTTTCGAATTCGGGTGCTTTG TCTCCGAGGAGATCGAGAGGTTGTACAGCCTTTGGTCAAACCGGGACCTTTATCTCGCCG CCGACTGCCTGCTCTTCGCGTCTTTCACCTCGCGGCGGTCGACAAGAGAGGCAGCTGGCT GGGACGAAAGGCGAGCTCACAGAAATGGAGGCAGCGTTTGGAGCTGAGACGAAGACAGAG AGGGAGAGAGTGAGCGCGAGAGGGACCGAGAGGGAACTGGAATTCGGCGACAAGCCAATG GAGATGACGCAAGAGAGCTGGCGAGTCGAGAGCGGAGATGTTGAAGAGCGCGACTCGGGG GTCGAAAGCGATTTGTCGGGAGATGCACGTCAGAAAGGTGAGAAGACTGCAGCGGTGGCT ACAGAGGTCCACCCGATGCAGACAGACGCAGCTCCACGGCTTGGCGGAGGAACACGGCAG CTGCATCAAGAGGGACAGCATGTTATGTCTTCTGGGGAATGCCTCGCGGGCTTACTATGG CCCAGAGACCAGCTGAGTCTATCCGTCACCGCGTCGCGAACGGCCCGAGTTTCCTCAACG CACCAGAAAGAAAGCCTAGGCGAGGCAAGAGAAGAGAAACCCAGTGGACCTGATACTCTT CAGCCGACCTCGAAGGAAGGCTTCTCACAAACAGCGCAGGACTCGGAACAGCTGTCTCCG GTTCACGTCGCCCCTTCTTCTCTGTCGGAGCAGTGCTGCCTCGGGGACCTGCTGTTTATG TATAACCTCCGGCACAGTTTTGCGGTGCCTCGAGAGAGCCAGCAAGACGCGCACCCAATG TCTGTTTTCGGCCTGGGGGAGTTCAAGACGGGCGTGTGGGGCAAGGGGGGACAGGGTGGC CCCGGCGGGGGCGCTGGCGGCGCTTCTGGGCCTGGAGCCTCAGGCATCGGGAAGAAGAAG AACGAGAACGCTTACTCCCTTCAGAGAGAGTTGCAGCAACAGCAAATGGCCGTTCGCTGG CTGCTTAGTGTCACGGGAAATGGATCGTCAGAGACATCCGCCACTGGGGCGCTGCCTCGC CGAAGCCGACTGGCAAGAATGTCTCCAGTGTCGAAGGCGTTCGGCGCAGTCTCAGCAAAG CACGAGCCTGCCGGGCAGGCGGCCTCTGCTTTGTTTTCAGGTTCCTCTTCCTCCGCATCT GCAGTTACGTCTGCGCCAGGCCTCCCTGGTGATCAACGAGGACCAGAGGCTTGCGAATCT ACGATGAAAAGAGAAAGAGCGGCTTGCGAAGATTCAGGAGGGGTTCCCTCTGTTTCCTCT CACGGTCGGACAGGATGGGAGCAGAAAAGCGAGCAGGCAGCGATCCTGGGCGCCACGGGG CTGCGGAAGTGCCGGTACGTCGGACTGGAGAATTTAGGTGCAACGTGCTACTTGAACGTG TATCTACAGACGCTGTTCATGAATGTGCACTTCCGGGACTTCCTCCTTTCGCTTCCCACG CTCCGTGAACTTGAAGAAATGGAGAGACAAAGACCCGCGGAGGCCAGTCGCCTTTCGCTC GCGCCCAGCACCCCAGAAACACACTCCCAGGTGCTGGCTAGACAGCCGAGAGAAGGACGG ACGAGGCAGTACAGCCGGGGGGCGGAAGATAAGAAGTCCCAGGCTGAGGAAAGCGACGAG ACTGGAAGCCGCGACGCTGAGACGGCGGATGGTGAATTCCCAGAGAGTCCTGAGCCCAGA TGCAAGATTGAAGAGAGAGAGACTCACATGAAACAGGACGCAGAGGAAAGAGGGAGACCA CAGGTAAAGGAGGAAAGTCCGAAAGAATCGACAGGGGCCCGCACTGAAAAGACGGCGCTC GTGCCGAAAGAGAATCCCCCCGAAGCCGAACGACTCGACGTCGCTCCTCCCTCGGCAACT TCTTCCGTTCCGGAACCCTTCACTCCCGTTTTCTCAGCGTCCTCTCCTGCCTGTCTCACG CATGGGGGCGGCCGCGCCGAGGCGGTAGACCAGGAAAACCAGGCCGACAGTCGCGCCAGG TGGTGCAACTGGCGGGAGAAGGTCAAGGGCCAAGATGTGTGCACCGTGTTGTGTAGCCAG CGGTACTCTCTGATATCTTCTCTTCAGACGATTTTCGCCAAGCTGCAGGAAGGAATCCAG GCGGCAGTTCGGCCGTCCGTCGTTGCAGATCTCCTTGCAGAGGACCTGTCCTACCAGGAG GACGCGAACGAGCTGCAGCATCGTCTCTTCGAGCTGTTAGAGAGCGAACTCGGCGGGCGA GAAAGTCCTCTTGACTTCCTCAGGGTCCTGTTTGGGGGCCGTTCCAGGCAGACAGTCAAG TGCAGCCACTGCATGTACAGCGGCAACAAGGAGGAGTACTTCTTTCAACTTAACTGTTGC CACAAGAAGTCCCACCAGTCTGGCAAACACGAACCTGGAGACCGGAACAGTCGAAACTCC CCGGAAGAGACCGAAGCGTCGAGGTCTCCTTCTCTTCCGCTATCTTCGTCGCCTTTCAGC CCGGAAGGAGACCTCGCATCGCAGGAAGCTGACGACAGCCGCGCGGTGACCTCGCCCAAA CAGGTCGCGGCTTCCACCTCGTCTCGCTGCGGCCCCTGTCCTTTGTCATCTCTACCTGCT AGCCAGGGGGAGTCTCTCTCTTCCTCTCAAGAAGACAGCACGTGTGCGCCAGCGTCAGGT CCCGTCGACAGTGACGTAGCGGCTGTCTCAACTTCTCGTCCTGAGCAGAGCGAAAGCAAG AGGCACGGCCGAAGAGGCAAACGAGGCCCCCAGCGGGGCGCTGCCGCGTCAGCGCACACT GGCGCAGGGGGACAGCAAGGTGGGACGCAGGGCACTGCCGGCGGTAGGAGGCGAGAAGGA CGAGACAGTTGTGAACGCAAGGGAGAAGCGAGTTCGACTTCAGCTCGAGGTCCCGGAAGA AAAGGTGTGAGTGCTGGGCAAGGACGGCGACCAGTTGACGAGAACAAAGGCGGTTGGAAA CTCGAGGAAGACATGGCGCGGCAGTATCAGAGAACGGAGAACCTCCGCGGCGATTCAGAG TACTTCTGTCCTCAGTGTGGAGAAAAGCGGGAGGCAAAGAAACGCAGTCAACTTTCACTT CTTCCGCCGTATCTGCAGCTGGTTGTTCTTCGTTACAGCATCGACGTGAAGAAGCAGACA GGCGAGTGGGTGAGGAGGAAAATTCATGAGGCGCTGGAGATCCCTCTCGTCATGGATGTT CGTGGCTGCTGCACGGACGACTGCCAAATAGGGCATCTCGACGGCACCCTCTCCTCTTTA AGGGACGCTTCTCATGCGGCTCACCAGTACCATCTGTTTGGCATTCTCGAACACCAAGGC GCGTCCGCCACGTCGGGGCATTACGTAGCCATTACAAGAGACCTGCGAGAAAGGGCAGCC GGAAGAAGCGAGTGCGCGGACGCGGCATCAGTCGATGACTCCAAGAAAACGTTTCTTGCT TCGTCTCTTTCGGATGGAGATGCTTCTGCGTCTCTCAGTCAGACGACTGAGGCCGCCTCG CCACTCCTTCCGCAAGACGATGGAGATCGCGTTCAAGGTTGCGTGTCTGTTGGAGACTGG CGAGAGGCGGCCCCTTTGGGAGAGGGGACATTACCAAGACAATTGGCTCCTTCTGGCTTG GAGTTCCTTGGTTCCCCTCGGGTGTGCCCAGGTCGCGGCGGTGAAGGCGGCGCACAGAAA GTGAAAGCATGTGCACTGCCCGCTGAGGGAGAACGGCGATCAGACGAAGACCGCCGACGC TCGAACGCTGACCGGATATGTTACGCAGGAGGTCCGGAAGGGAAAGATGCTTGCGGAAAA GAAGCCGAGGGGCCATCGTTTAGTGTTGATAGTCCGCAACAGGCGCCAGGGAAGTTGGTT CCAGCGAAAGGTTTTGAAGGAGACGAAGGCAGAGATGTTACGATTGCTTCTTCCACTGTG GAGCGTGATTTATCATCTCAATCGGTCTCGCCTCCACGCAGAGGGACGAGTGCGTCGAGG AGGAAGGGGAGTCTGCGGGAAGGTTACGGAAGTCCTCCTTTTCTTGAGCCGACAAAGGGC TTCCCTGGAGTCGCGACTGCGGCCGTCCTCCTTGGCGACGCTGACGCCACAACTTCGCCT ATCACGAGAGACAGAGACGCTTTTGTATTCAGAGACCCAAGTCCTTTTGCATCTCCTCGC CCTCGCTGGTCTGCGCCTTTGAATGGACCGAACGAGACGGCACCAGAGCCAAACTCCGTG ACAGTTGTGGTAGACGTGGATGCGTCTTCCCCGTCCCTCACCGTGTCAGCTGGCTCTTCC TCTTGCAGCAGCGGTCTTGCTTCGTTTCCCCATCGTTCCTTGACACCTCGCCTTTGCTCG TTCCCTCACCCGTCCACCTCAGTTGAAAAAACAGTTGATAAAGATTATTTGAGGTCAGGC TTCGCGGCGGCAACTGATGCCTGCTCGGCGGAGACGTCGAGCGCCCCTGGACCTGGTGCA TTGCCAAACTTCCCAACTCACGCCTCACCGTCTTCTTCTATTTTGTCTTGTGGGCTGAAT TCCTCGCCTGCGGACAGTTCTACGTCCCCAAGCTTGAAGCCCTATGACGGAGCCGGGGAG ACTACGAACGAAGACGCTTGCGTGGAAGTCTGTGAAGAGCCGTTTTTGACGCATACTCCC CAGGCGGAGAAAAGCCGCGGGAGGAGCCAAGCCGAGGCTCTGGATGCTAGCACTCTGTCT CCGACAACAGTGACGCAGAAAGACCTTTTTTCGCTCGAGTTTAAGTCTCCCCGATCGCGT CATGCCGCCCTGGGGCGTCTCTCGACGTGGGTGGCGGCCCCGGAACCCAATGCGGTCGAA GCCAGAGAGAGCGGCCGCGGAGACAGGAAGCGGGTTGAGGCGCTGGAGGCGCAGAAAGGA TCCTGCGGCCCGAAGAAAAAGGGCAATGCCTCGTTGACGCAGCGCACCCTTGACCAGTAT GTCGGGAGGACCAGAGCGCAGGTTCGGGGTCGAGACACAGGCTGCACTGCGAGGAAAGGA GGCTCTTCACCATGCGTTTCCACCGCCTCGCCGCCACGCCTTGCCTCATCACCTCCGGGG GGCGCGGCGACTTGCTGGTCTCGCGAGTCCCCCGACAAGAAACGGCGGAAGCGAGAGGCG GAGCGAGGCAGGGAGGAACAGACGAAGCGAAAAGCAGACCAGCTGCAGAGGTGTACTGGA CGGGACTGCACGCAGGCGGTTGGCGATCGACAGAGCCGGAGCGGAGGGAAGAAGGAGAAG CAAGGAGGAGAGAACAGCGTCTCTCTCGTCGTGGTGGAAACACCGGAAGAGGAGGACGAC GATACCGACGTCGAGGAGGAATTTGTCATTCTTGCCTCGCCGTTTCAACACGAGGCCTCC AGGCAGTCTGCGCACGAGACAAGGCACGAGAACGGGTCGTCGCAGGTTGCAGAGGCGGAC GAGTTCTATCAAGGAAAGGAACCCCAAATGAAGACAGCACTCAACAAGTTGACGACTCGG AGTCTAGCCGTAGACGATGATCTGGAGGAAATCCCTGAAGTGATCCTCGGTGCCGGTCTC CCGGCGGAGAAGAAACAACCTTTCGGTGTTCAACCGGAGCCCAGTGACAACGCAGACAAA GGACGGAGCACCTCAGACGTTGTGGAGACGAAGGCAGCTCCTCAAACGGCGGCAACGCGA TGGTCCTGGGTGCGTTTCGACGACAGCGAAGTGCGTCCCTTTCCCTTGCCGCGCCCAAGT TCTTCAGACCTGGATTCGTCAGCGCCCCGGTCCTCTTCTGAAGGCTCGCCTCGTTACCAA ACACCTCCGGGGGGTTGCGTCGTGTCCTCGGTTGCTGCCGCTTCTGGCGCATCGGCCTCC TCGTCTTTGTCTTGCTCTCTTCTGGCAGAGGAAGGAGAGTGGCGACGTGCAACGCCAGAA GCCGAGCGAGTGGGGGCTACCAGCAGGGCGCCGGTGGGACGCTCCTTTTCCGCTGGGCCG CTCCGGATCTACAGCCGCACAGTCTACATGGTCACCTACATCAGGGCTGATCTAACTGCA GAGGAGACAGACATGCCGCTCCCTCGTGAGCTACAGGACTTCATTGATGAAGAGAATGAA CGAATCTGCGAAGAGCAAGAAACTCTGTCCATGCGACAGCAGACCCTCTTGGCTTACGTG CAGCAACGGCAGGCAGCGCTCCAGCAGCTTCTCCGTCACGCCTTGCCCTCAGCGTTGAAG GAGTTGGAGCAGCAGAGACTAGAACGGGTTCAGAAGGAGGCGCTGCACGGTGAGGTGGTT CGCGCACGACTTCCTTCTCCTGTGTGTGAGAGGAATTTGGTGAATATCCAGCAGCGGCTG TCTCTGCTGCCGCAGCTGCGACAGCTGTCCTTCATTCCGCGGTCCTGGTGGCAACAGTTT GTTCGTGGCATTGACTACCCGACGATGTCGACGTCTCTGCCGCCTTCGCTTCTCCCGAGA AGAGATAGCAACAATCGTAACGGGATCTGCATGGTTCCTCTCACCAAGGCTGAGAACGGA GACGGCAACAGGCCAGCGAGAAAGAGGAAGAAAAACAATGCAGAGCAACGAGGCGCGGCA GGCAGCAGCCGAGAAAAGAGCGAGGACGAGCTAAGGGAAAGGGGGCGACTTGGAGCTCCA GGTGAAGAGCACGCGACGGCTGGAGAGAGTGAACTCGAGGGGAGTGCAAATGCTGGCGCG AAGAAAGAAGCGAAAGAAGAGGATTTGAGAGGATTGAGCATATGCGAGGTTCTGGAAGGG GAGACGCGTGAAGGTAGGCAGCAAAGCCGTAGCGCCATGAAGAGCGAGGAAGCAGCGATA TCAGGGCATCGACAGCAATGGCTCCAGACATCAGGCGGTGGACGGGACGCTTACAGCCGA GCTGCAAATGCCCAGGAAGAGGTGAAGGCTTATCGCCAGCTAGAGCAGTCTTATGCCGAC GGTGGAACGACGAGCGAGGAGACACGAGAAGGTCGCGATGGCGACGCCACTTCGCCAGCC TGTCGCTCTGAGAATGACAAGGAGAAGGGCGTCATCGATTACTCAAGCATCCTCTGTCCC CATTATCGCAACGCGCTTGCGGCTTCCATCTCATGCTCGCCTGCCGCTGCCGGAACCGTG GTGTCGCCACAAGATGCCTTGGTCACATCCTCGCTTTCCATGCCTGCTCTTCCGTTAAAC GCGTCCTCTTTCCACGAAGCACACCGGCCTTGGATCTTCAACTCCATCAGCGAACCAGAT GAAGAGAAGCTGCTCGCAGAGCCGTCTTACCCCATCGAGAAGCTTTTGCGTGTCACGGAT TTTTGTGGCGAGCGTGGAGTGGATCCTCTCTCGATTTGGACCGGGGAGGCGAAGGCTATT CCCACTGCGCTTTTCTCGGACCTCCTTGCGGCTTCGGCCCTTCGGCCTTCCATCCCGGAT CCGTCGTTGCTTCCGAATCTCTGCAGCGTCTGCAGCGCGGCTCTCAGCGGCCTTGTTGAC TTTTACTCTGAGCAACATCGCTCCATCGAAGCCATTCTCGAGGCGCTAAAGAGACAGAAA ACGATTCCAACGGTCTGCGAGGAGACGCCGGTCTCTCCGGAGCTTGTCGAGTCCTCCTCT GCATGCGCGATTCCAAGTTCAACAGCGAATCTTTCAAGTCCGCCAAAAGAAGTGACTGTC TCATCTACGGCCAACGGCGAAGCAGATAGAGCCGAGGGTGTGCACCTGCAGTTCGTTCAC GCTGGGGGGGACGGGGACACTGCGCCTGCTCGTTCCGAGTCAAGTCAGGAAACGGAGAAG AACCAGGAAGAGACAATCCATGCAGAGGTTCTGCCTTCTATCGTGGTGCCTTTACCGTCT CCTGACGACGTGCATCTGCGGTCTTCGTCTCAAGAACCTTCTGCCTCGTCTGTCGCGCCT GGCGACCAGCAGCAAGGTGGTGAGAAAGAGGAAACCCAAGGAGGCAGACAGATTAGCTGC GTTGCCAGCCCGTGTGGCGTAGGTGCTCTGTCGCCGATCGTCTGCGCAGGCGTCGACGAG GTTCCCGATTCTTCGAAGGTGGCGCCTGTCCAAGACGCGGAAGGAAACCGCCAAGTCTCT GTCTCTTCTTCCCAAAGCAGAGTTGAGGGGAGTGGTCCGGATAGCGGCGACAACCAGCGC CTGGAGACTGAGGAGCCTTTGTCTCCTCGGATTTTGAATGAACACGAGACGCCTGCGACG GATCTTCTAGGGTGCTGCATTCCGTCTGCGTCTCTCTCTTCTTCGCCACGAGCCGCCGTC CCCGCCTTGAATCCGTGGGTTCTCGAACATACGGCGACGCTTCCAGAGTTTATTTACGTC TCGCGTCGGCCCCTTCAGAGGGCGTTTTCCCTGCACTCGTGTTTCCTCACACTCTGCACG CTTCCCACAGCCTCCTCACCTGCGTCGATTCCTTTCTCGGCGTTGCTGCCTTCTTCGTCG AGTCCTCAGTCGCGAGAGTTGAAGGTGTTGCGGGCAAAAATGAAGCGAGAGGGAAAAGAC AGCAGAGAGAAATATCTCTCTTGGCTTACCCTCAGCGACGTGCGTCGCGAAGTGACTCTC GGACGAAAGCTGCCACAGGGCGACTCCGATCCAAGCAGGGGAGTGAAGCCCCCGAAGAAG GACGCCAGGAAGGATGGCGACTGGGAGCGGGCAGAGGAGGGAATCGAAGAGGGGGAAGCC AGCGATGGCGACGGGACAAACGACGGAAGGAGAAGGCGAAGAAAGAAGGTCGAGGACGAG GAACAGGGCGAGGAACAGGTCTGCGGGGACGAAGACGTGGAGGATGTCAACATGGATGAC GAAGGGGAGGAGTCGGCTTCTTTAGGGTCTTTGTTGCATGCAGAAGACGAGGGAAACGCG ACGAAAAAAACGAGAGTCACACGCGCAAGGAAAGCCGTGTCTTCTCCCCCTGGGGCGAAT CGCAAGGCGGTGGCGCACACACTGCATCGGGCGACAAGTCGGCCGCGCAGCGACCATAAG CAGGAAGAGAACGAAGACTTGGAGGAGGAAGAAGGAAACACAGAGGAGGGTCAGGGGAAC AGTCAGGATGCGCACACCGGTCGCGACAATGTCTTCGACTTCGCCTCAGATCTCCTCTGC TGCCACCAAAAACTCCGTATTCAAGGAGCCGTTGGAAAAAGCAACAAACTTCAGCGTTTC TTGGTAAATAAAGTGCCGACGGCCGCGATTTTGAACTTTCTGTATTTCGAAAGAGAGAAG GCCGTCCTGTACCGGGAACTGGGAATTGCGAATCCTGTTACCTTCGACTGTTCGACGTTC GTCAGCCAATACGCTCAGGAGTGCTCGATCTGCCTTACGGAGCAACAGGCGGAGCAGCAA CGGAGACAGGTGTGGCGGGACAAAAGGAACGAAGAGTCAAAGGCCTTGGGGCAGATCATT GGAAAGCGATGGCGGCTGAGGAAGGAAACGGGGCCGGCCAGCAGACTGGCTACGCCCCTG CCGAAGAAGGGCCGGTTCTTTTTTGTCAGCACAGAGTGGCGGCACCAGTGGCTCTCCTAC GTTGCTTCGGGGTGCGAGACAGAGGGTGTCACGAGTAAACCTCCTCCACTGCTCAATTCT TCGCTGCTCTGCGACTGCCCGACTCGTGGCCTCAAGGTCGACCCGACAGACACGCTTCTT TCTCCAACCTTTTTGGCGGATCCTCCGGAGAGTGAAACCGACACTTACATCCTCGTTCAC GAAGACGACGTTGACTTGCTGGAGCGGTTCGGCCTGACGGGTTTCAAGACGGCAGAGAAC CTGTCGATGTGTGTGGAGGTCAAGCATATTCCTGGGGAGATTGCGAGCTCGTTGCTGCCT CCGTCGTCTTCCCCGTCTTCAAGGCTGGCTGCGTCGCCCTGCTTTGCCGGCCCGGTCCCT GCCTTTTTCTTCCCCTCTCTCGCCCCGTGCTCTGCATGCGTCCGTACCCACCGCATCGAG CAAGGCTTCTACGATTTCCCTCCAGTAGACCTCTCGTTCCACCTTCGTCAGAACAGATGG AATGGAGACGCCCCGGAGGTGAAGAGCGAACCGGAGACCGTGCGCGAGGCTGGGCCAGGG CGAGGCAGGGGCAACACAGGAAACGGCGGTCGAAGACAAGCGAGTAGTCGCGTGCTCGGG CAGAAGAAAATTACCGTTCGTGTCAGTGGCGAAACAGAGATTGCGTCGCTCCTGGCGCAT GTCGTCGCGAGCATGACGGAGGCAGAGGAGACGAAAGAAACGACAGTATACCTGGAAGGG CCGCCTCGGCATGTCTTCTACTTCTCTCCAAAGTCTTCGTGTCTCTCCGTGTCCATACCC GACGCGGGACCTACTGCCTCGCCTCCTAATCGTTCTGTGTATCCTTCGACATCTCCGACC ACCACAGATACGCTCCCGCGCACGGCTCCAAGTCTGATCTGTAACGCCGCTGCAGCGCAT TCACCTCCCGCCGCCCCTCGTCGTTATTCAGGTCACCGGGAAGAGGGGAAGGACACTCAA CTTCTAGGCGATCTGTGTGACGGGCGGGCGGTTACTCGTCCCCTTTGCTTGTCGCCGTCA GGAGCAAGACAGAAGGAGCGTCACGAGAATCGAGAAGCATGCGACGTGCTCTGCCTGGAG CGTACTGAAAGGGCCACAACGGAAAATGAGGCGGAGCCAAGAGGAGAACGCGAATCACAG AGCCAAGCAGAGATATCCACGCGTCCTTTGGTTTCGTTTGTCGACGAGGAGGTAGGGAAG GCAGTTAAGGCGGACGCGTCCGGCACGCGTGTACGGCTGCCCGAAGAAACATACACAGGG AGCGAGCACAGCGGGATTACCCTGCGCGCTGTTTCTCTTCCCCATTCGTGCTGTCTCTCG CTGGAGGTGGAAATGAAGACACATCTCCGCGATCTCCTTCTGTATGTCAATGAGGCTTGG CAGGTGTCCTACGAATTCCAGGAGAGCAGACAGCTGGACGAGGTGAGGCGGGAGAAGGCA GTGAGAAAGGAAGCAGAGGCGGCGACAGAGGACGAGGCGGCACTCGTCTCCGTCGCCCTG CAGGAGGGGGGCTTTTTGGAGGCCGAGGAGGGAACGCGTCGAAGACAGGCTGATCGCGAA GCGACAGAGAGAGTGTTGGAAATCCAAGATTCTGAAAAAGAAGATGACGGCGGATCCGCG GGGGAGGCGTCGCAGGTGGAAGAGTGTGTTGAGGTTCAAGATGCATCGACGAGCGCTGAG AAGCTGGCACGCAAGCCGCTTTCACCACTGCCGGGAGACTCTCTTGTCAGAAACAAACGA GAGAGATCAGAGGAACCCGAACCCGTTGACGTCCTGACGGACGGTGAGGAGCAAGAAGAG CTAGCACAGTCAGACCAGAAGAAAAGTCGTTTTGCCACAACTCACCCCACCAGTCAGGGA CTCTGCTCGCTTCTGCGGGGAGATGGCAAGTGCGACAACGGGACAGAAAACAGGAGAAAG ACAGCAGGAAGAAACATGCCAGCCCGCAGGAGCGACAACTTGACTCAAGAACGTGAGCTG CGGAGACCCCAGGACACACGCGCCGGGCGAAACCAGAGGGGCAACAGGCAGCACGCTTCG TTACTTGAAGACCCTGGTCCGAAAACAGGAGTCCCGGGACAGCCGGATACCACCGGATGC TTTATACATCAGCAGCTTCACAGCTCGACTGGAAATATGAGGCAGGACCGTACACCAACA GAGACTATCGTGCTCCTTGATGATGACGAGGATGATCGAGCAGCACCGTCTCGCTGA
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Fasta :-

MDELGDSVLQQDAAAPASSTFARCDQTATGREPSLSASVLQGSPQRTGVDISRRWASESP LASSSAATLSLCPVDQIRKTSKRTGSSRGDDRVERSVQESAWTPCSEKSEASGAAHAGSR SRHSPICSVVFTSPPAAVAPPSKASAASAVSGLCLQPEGSTPERLRVAQGAAPKVSPLED GIPVATVKLAGLETCRTDHPHSPAAPQLAPQHQAPSEELNVSARLHTETRIQANDISVSH ASASGSLPPLPSVAFFLHRAASTCALASHASSSDDGSAARPSVQGICGPEKPNARQTGSS EHELSPSISSTLSVSNSGALSPRRSRGCTAFGQTGTFISPPTACSSRLSPRGGRQERQLA GTKGELTEMEAAFGAETKTERERVSARGTERELEFGDKPMEMTQESWRVESGDVEERDSG VESDLSGDARQKGEKTAAVATEVHPMQTDAAPRLGGGTRQLHQEGQHVMSSGECLAGLLW PRDQLSLSVTASRTARVSSTHQKESLGEAREEKPSGPDTLQPTSKEGFSQTAQDSEQLSP VHVAPSSLSEQCCLGDLLFMYNLRHSFAVPRESQQDAHPMSVFGLGEFKTGVWGKGGQGG PGGGAGGASGPGASGIGKKKNENAYSLQRELQQQQMAVRWLLSVTGNGSSETSATGALPR RSRLARMSPVSKAFGAVSAKHEPAGQAASALFSGSSSSASAVTSAPGLPGDQRGPEACES TMKRERAACEDSGGVPSVSSHGRTGWEQKSEQAAILGATGLRKCRYVGLENLGATCYLNV YLQTLFMNVHFRDFLLSLPTLRELEEMERQRPAEASRLSLAPSTPETHSQVLARQPREGR TRQYSRGAEDKKSQAEESDETGSRDAETADGEFPESPEPRCKIEERETHMKQDAEERGRP QVKEESPKESTGARTEKTALVPKENPPEAERLDVAPPSATSSVPEPFTPVFSASSPACLT HGGGRAEAVDQENQADSRARWCNWREKVKGQDVCTVLCSQRYSLISSLQTIFAKLQEGIQ AAVRPSVVADLLAEDLSYQEDANELQHRLFELLESELGGRESPLDFLRVLFGGRSRQTVK CSHCMYSGNKEEYFFQLNCCHKKSHQSGKHEPGDRNSRNSPEETEASRSPSLPLSSSPFS PEGDLASQEADDSRAVTSPKQVAASTSSRCGPCPLSSLPASQGESLSSSQEDSTCAPASG PVDSDVAAVSTSRPEQSESKRHGRRGKRGPQRGAAASAHTGAGGQQGGTQGTAGGRRREG RDSCERKGEASSTSARGPGRKGVSAGQGRRPVDENKGGWKLEEDMARQYQRTENLRGDSE YFCPQCGEKREAKKRSQLSLLPPYLQLVVLRYSIDVKKQTGEWVRRKIHEALEIPLVMDV RGCCTDDCQIGHLDGTLSSLRDASHAAHQYHLFGILEHQGASATSGHYVAITRDLRERAA GRSECADAASVDDSKKTFLASSLSDGDASASLSQTTEAASPLLPQDDGDRVQGCVSVGDW REAAPLGEGTLPRQLAPSGLEFLGSPRVCPGRGGEGGAQKVKACALPAEGERRSDEDRRR SNADRICYAGGPEGKDACGKEAEGPSFSVDSPQQAPGKLVPAKGFEGDEGRDVTIASSTV ERDLSSQSVSPPRRGTSASRRKGSLREGYGSPPFLEPTKGFPGVATAAVLLGDADATTSP ITRDRDAFVFRDPSPFASPRPRWSAPLNGPNETAPEPNSVTVVVDVDASSPSLTVSAGSS SCSSGLASFPHRSLTPRLCSFPHPSTSVEKTVDKDYLRSGFAAATDACSAETSSAPGPGA LPNFPTHASPSSSILSCGLNSSPADSSTSPSLKPYDGAGETTNEDACVEVCEEPFLTHTP QAEKSRGRSQAEALDASTLSPTTVTQKDLFSLEFKSPRSRHAALGRLSTWVAAPEPNAVE ARESGRGDRKRVEALEAQKGSCGPKKKGNASLTQRTLDQYVGRTRAQVRGRDTGCTARKG GSSPCVSTASPPRLASSPPGGAATCWSRESPDKKRRKREAERGREEQTKRKADQLQRCTG RDCTQAVGDRQSRSGGKKEKQGGENSVSLVVVETPEEEDDDTDVEEEFVILASPFQHEAS RQSAHETRHENGSSQVAEADEFYQGKEPQMKTALNKLTTRSLAVDDDLEEIPEVILGAGL PAEKKQPFGVQPEPSDNADKGRSTSDVVETKAAPQTAATRWSWVRFDDSEVRPFPLPRPS SSDLDSSAPRSSSEGSPRYQTPPGGCVVSSVAAASGASASSSLSCSLLAEEGEWRRATPE AERVGATSRAPVGRSFSAGPLRIYSRTVYMVTYIRADLTAEETDMPLPRELQDFIDEENE RICEEQETLSMRQQTLLAYVQQRQAALQQLLRHALPSALKELEQQRLERVQKEALHGEVV RARLPSPVCERNLVNIQQRLSLLPQLRQLSFIPRSWWQQFVRGIDYPTMSTSLPPSLLPR RDSNNRNGICMVPLTKAENGDGNRPARKRKKNNAEQRGAAGSSREKSEDELRERGRLGAP GEEHATAGESELEGSANAGAKKEAKEEDLRGLSICEVLEGETREGRQQSRSAMKSEEAAI SGHRQQWLQTSGGGRDAYSRAANAQEEVKAYRQLEQSYADGGTTSEETREGRDGDATSPA CRSENDKEKGVIDYSSILCPHYRNALAASISCSPAAAGTVVSPQDALVTSSLSMPALPLN ASSFHEAHRPWIFNSISEPDEEKLLAEPSYPIEKLLRVTDFCGERGVDPLSIWTGEAKAI PTALFSDLLAASALRPSIPDPSLLPNLCSVCSAALSGLVDFYSEQHRSIEAILEALKRQK TIPTVCEETPVSPELVESSSACAIPSSTANLSSPPKEVTVSSTANGEADRAEGVHLQFVH AGGDGDTAPARSESSQETEKNQEETIHAEVLPSIVVPLPSPDDVHLRSSSQEPSASSVAP GDQQQGGEKEETQGGRQISCVASPCGVGALSPIVCAGVDEVPDSSKVAPVQDAEGNRQVS VSSSQSRVEGSGPDSGDNQRLETEEPLSPRILNEHETPATDLLGCCIPSASLSSSPRAAV PALNPWVLEHTATLPEFIYVSRRPLQRAFSLHSCFLTLCTLPTASSPASIPFSALLPSSS SPQSRELKVLRAKMKREGKDSREKYLSWLTLSDVRREVTLGRKLPQGDSDPSRGVKPPKK DARKDGDWERAEEGIEEGEASDGDGTNDGRRRRRKKVEDEEQGEEQVCGDEDVEDVNMDD EGEESASLGSLLHAEDEGNATKKTRVTRARKAVSSPPGANRKAVAHTLHRATSRPRSDHK QEENEDLEEEEGNTEEGQGNSQDAHTGRDNVFDFASDLLCCHQKLRIQGAVGKSNKLQRF LVNKVPTAAILNFLYFEREKAVLYRELGIANPVTFDCSTFVSQYAQECSICLTEQQAEQQ RRQVWRDKRNEESKALGQIIGKRWRLRKETGPASRLATPLPKKGRFFFVSTEWRHQWLSY VASGCETEGVTSKPPPLLNSSLLCDCPTRGLKVDPTDTLLSPTFLADPPESETDTYILVH EDDVDLLERFGLTGFKTAENLSMCVEVKHIPGEIASSLLPPSSSPSSRLAASPCFAGPVP AFFFPSLAPCSACVRTHRIEQGFYDFPPVDLSFHLRQNRWNGDAPEVKSEPETVREAGPG RGRGNTGNGGRRQASSRVLGQKKITVRVSGETEIASLLAHVVASMTEAEETKETTVYLEG PPRHVFYFSPKSSCLSVSIPDAGPTASPPNRSVYPSTSPTTTDTLPRTAPSLICNAAAAH SPPAAPRRYSGHREEGKDTQLLGDLCDGRAVTRPLCLSPSGARQKERHENREACDVLCLE RTERATTENEAEPRGERESQSQAEISTRPLVSFVDEEVGKAVKADASGTRVRLPEETYTG SEHSGITLRAVSLPHSCCLSLEVEMKTHLRDLLLYVNEAWQVSYEFQESRQLDEVRREKA VRKEAEAATEDEAALVSVALQEGGFLEAEEGTRRRQADREATERVLEIQDSEKEDDGGSA GEASQVEECVEVQDASTSAEKLARKPLSPLPGDSLVRNKRERSEEPEPVDVLTDGEEQEE LAQSDQKKSRFATTHPTSQGLCSLLRGDGKCDNGTENRRKTAGRNMPARRSDNLTQEREL RRPQDTRAGRNQRGNRQHASLLEDPGPKTGVPGQPDTTGCFIHQQLHSSTGNMRQDRTPT ETIVLLDDDEDDRAAPSR

Ubiquitin carboxyl-terminal hydrolase, UCH

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	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	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
	TGME49_255180	124 S	RSRHSPICS	0.998	unsp	TGME49_255180	3002	S QVSVSSSQ	S 0.99	0 unsp	TGME49_255180	3015	S SGPDSGDN	Q 0.99	2 unsp	TGME49_255180	3055	S SLSSSPRA	A 0.99	5 unsp	TGME49_255180	3141	S EGKDSREK	Y 0.99	3 unsp	TGME49_255180	3201	S EGEASDGD	G 0.99	2 unsp	TGME49_255180	3293	S HRATSRPR	S 0.99	3 unsp	TGME49_255180	124 S	RSRHSPICS	0.998	unsp	TGME49_255180	3002	S QVSVSSSQ	S 0.99	0 unsp	TGME49_255180	3015	S SGPDSGDN	Q 0.99	2 unsp	TGME49_255180	3055	S SLSSSPRA	A 0.99	5 unsp	TGME49_255180	3141	S EGKDSREK	Y 0.99	3 unsp	TGME49_255180	3201	S EGEASDGD	G 0.99	2 unsp	TGME49_255180	3293	S HRATSRPR	S 0.99	3 unsp	TGME49_255180	124 S	RSRHSPICS	0.998	unsp	TGME49_255180	3002	S QVSVSSSQ	S 0.99	0 unsp	TGME49_255180	3015	S SGPDSGDN	Q 0.99	2 unsp	TGME49_255180	3055	S SLSSSPRA	A 0.99	5 unsp	TGME49_255180	3141	S EGKDSREK	Y 0.99	3 unsp	TGME49_255180	3201	S EGEASDGD	G 0.99	2 unsp	TGME49_255180	3293	S HRATSRPR	S 0.99	3 unsp	TGME49_255180	3297	S SRPRSDHK	Q 0.99	7 unsp	TGME49_255180	3531	S DPPESETD	T 0.99	7 unsp	TGME49_255180	3689	S TVRVSGET	E 0.99	6 unsp	TGME49_255180	3790	S PRRYSGHR	E 0.99	7 unsp	TGME49_255180	272 S	SHASSSDDG	0.996	unsp	TGME49_255180	3859	S GERESQSQ	A 0.99	6 unsp	TGME49_255180	3872	S RPLVSFVD	E 0.99	2 unsp	TGME49_255180	4002	T DREATERV	L 0.99	4 unsp	TGME49_255180	4011	S EIQDSEKE	D 0.99	7 unsp	TGME49_255180	4063	S KRERSEEP	E 0.99	5 unsp	TGME49_255180	300 S	QTGSSEHEL	0.995	unsp	TGME49_255180	321 S	SGALSPRRS	0.997	unsp	TGME49_255180	325 S	SPRRSRGCT	0.992	unsp	TGME49_255180	349 S	SSRLSPRGG	0.998	unsp	TGME49_255180	385 S	RERVSARGT	0.997	unsp	TGME49_255180	389 T	SARGTEREL	0.995	unsp	TGME49_255180	419 S	EERDSGVES	0.998	unsp	TGME49_255180	498 S	TARVSSTHQ	0.995	unsp	TGME49_255180	505 S	HQKESLGEA	0.995	unsp	TGME49_255180	515 S	EEKPSGPDT	0.997	unsp	TGME49_255180	573 S	VPRESQQDA	0.997	unsp	TGME49_255180	668 S	LARMSPVSK	0.993	unsp	TGME49_255180	845 S	TRQYSRGAE	0.995	unsp	TGME49_255180	876 S	EFPESPEPR	0.993	unsp	TGME49_255180	906 S	VKEESPKES	0.998	unsp	TGME49_255180	1062 S	GGRESPLDF	0.993	unsp	TGME49_255180	1120 S	NSRNSPEET	0.998	unsp	TGME49_255180	1140 S	SSPFSPEGD	0.997	unsp	TGME49_255180	1181 S	SLPASQGES	0.994	unsp	TGME49_255180	1189 S	SLSSSQEDS	0.998	unsp	TGME49_255180	1263 S	EGRDSCERK	0.997	unsp	TGME49_255180	1462 S	FLASSLSDG	0.996	unsp	TGME49_255180	1554 S	GERRSDEDR	0.998	unsp	TGME49_255180	1561 S	DRRRSNADR	0.997	unsp	TGME49_255180	1637 S	RRGTSASRR	0.991	unsp	TGME49_255180	1644 S	RRKGSLREG	0.997	unsp	TGME49_255180	1730 S	VDASSPSLT	0.99	unsp	TGME49_255180	1767 S	HPSTSVEKT	0.994	unsp	TGME49_255180	86 S	KRTGSSRGD	0.996	unsp	TGME49_255180	1831 S	STSPSLKPY	0.991	unsp	TGME49_255180	1869 S	SRGRSQAEA	0.996	unsp	TGME49_255180	1924 S	EARESGRGD	0.996	unsp	TGME49_255180	2028 T	REEQTKRKA	0.995	unsp	TGME49_255180	2103 S	ASRQSAHET	0.997	unsp	TGME49_255180	2183 S	DKGRSTSDV	0.994	unsp	TGME49_255180	2220 S	LPRPSSSDL	0.997	unsp	TGME49_255180	2231 S	SAPRSSSEG	0.996	unsp	TGME49_255180	2232 S	APRSSSEGS	0.997	unsp	TGME49_255180	2233 S	PRSSSEGSP	0.993	unsp	TGME49_255180	87 S	RTGSSRGDD	0.997	unsp	TGME49_255180	2236 S	SSEGSPRYQ	0.991	unsp	TGME49_255180	2278 T	WRRATPEAE	0.992	unsp	TGME49_255180	2406 S	ARLPSPVCE	0.994	unsp	TGME49_255180	2507 S	SREKSEDEL	0.997	unsp	TGME49_255180	2575 S	SAMKSEEAA	0.991	unsp

TGME49_255180 | ubiquitin carboxyl-terminal hydrolase

ID's

UniProt_ID:

GEO Functions

Computed_GO_Component_IDs:

Computed_GO_Components:

Computed_GO_Function_IDs: GO:0004221 GO:0036459

Computed_GO_Functions: obsolete ubiquitin thiolesterase activity thiol-dependent ubiquitinyl hydrolase activity

Computed_GO_Process_IDs: GO:0016579 GO:0006511

Computed_GO_Processes: protein deubiquitination ubiquitin-dependent protein catabolic process

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

Ubiquitin carboxyl-terminal hydrolase, UCH

Structure

Post Translational Modifications

N_Linked Glycosylation

O_Linked Glycosylation

Phosphorylation

Protein-Protein Interaction

String

TGME49_055180

Literature

PubMed

Google Scholar

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