NCLIV_012050 | putative ubiquitin carboxyl-terminal hydrolase

UniProt_ID: F0V9X6

Computed_GO_Component_IDs:
Computed_GO_Components:
Computed_GO_Function_IDs: GO:0003677 GO:0036459
Computed_GO_Functions: DNA binding thiol-dependent ubiquitinyl hydrolase activity
Computed_GO_Process_IDs: GO:0016579
Computed_GO_Processes: protein deubiquitination
Curated_GO_Component_IDs:
Curated_GO_Components:
Curated_GO_Function_IDs:
Curated_GO_Functions:
Curated_GO_Processes:

	_ID	Prediction	OTHER	SP	mTP	CS_Position
	NCLIV_012050	OTHER	0.999900	0.000077	0.000024

No Results

Fasta :-
>NCLIV_012050 MRSRPGGPKNVAAGRLWDFEESHLGAVETVGAFGNGRGALFRMHAEGRSPRQMPSASAEQ QRFWSSFCTAGPGAQLPYNAETHPGHPFAYAAARVPDPSGVDASFVPPQLARADGGNCGS LPDVSAAAYPAFACAAPAPRYEAPPPAGASRAGEDGHSLSHGGAWTTQGGPVYPGDSGTF WFALSRQSAGTGQALPSQAVQGSVSLRDAAAAFGSHPFPGQDTSSEGLSHVPANESTAPP YLSGGAGPAPAFGCSRDPSAGANSGFLPPSQDPSRTCFRQEDAARLFSIAGDSASTTSTR RSREPLSTSRAGPASRDAGSAVSESRRGEEHCQPPSLPFAGTAGGPWDTARAAGHALSGR LGGGGKDGESGVYVHPGESDRGASGAFKLSHVPETRFSEPVMPACVDTRHGFIAHSDDLV NGAERTNVIQRQRAIPDAGHQRGDHASAVHTADAVPTGDRSTWHANTPVPASFVHPPVVV HAHTDSSFQHVPAGDWSRNGSSKTPDAPSLHAANTLANPAPCAHVNAEAPCQATATVCRA PSWDERRTASLPARSEEGGLEASAAPKKRRRVKKAASTTPSQTGVSADSGEREATAPTAK PKRMRPASSGVAPQSHPQLQAEVLSFSPSEDTPEKGTEKARQEAAPERSGGTALGWPPSR QGGCLGREDLGRPDGIGLSSSQERSDSRVQRPDAAAANQEVAASTTACSSVQRSQCVSPG DALGQTTCAASPSFSVSSGVKIPSSAGVSLPSLSPSSVAHPLASTPSSFPPLSASSKVSD SDPGPGPEGDCPSAGLLNDASRGAPEAAGPCPASLPASPSGQRLSGAPAELPPPRSRPRP RPRNLFGTGRRPGRQQGRQQRRPTEDFGAEKGTAFKGPDASGAPGAATCSRSPSVNARSV QTCVVLGYGTAMPDREVTGTSLVGLINLGGGSCFLNAVLQCLANFRPLRDFYLQWAETLP PRELLGRQYAVYTKQLERLAPFSRRRVKRRQQEKAASVCTSISWELATVINYMWRLSGSV KFLKPDALYQACCRIMPDFDPHEMQDSDEFLRLLLDILDAELRAAVLQVPLQDVLLLQRR PTKWESDDRALCPAARDCAGALPPSDASASAASRASPPTLASTSYAASAPPTASPVRCSS PASISPSVQGARLSGASDLCREATPQSPNLSLPPSASDAAAPGASVSAASGLRQAFQEAD PAKATHATRSGEAASPRLEVGAASTSGASACQQAEAEKSERSEGGQKASKVSSSTVDAVQ TLFSLVFEGGEVDEVWCSACGRRTATLVPFKSLAVAMTQEAQEQACYYSSLRAKPATFSS ELIPVDLVECLDRHFADDADSLKLSTGEGYYCSRCQRKQDAVKRCCLVKDHLPFVLCLTL KRFVRGHDTYKIWNPVRFGEFLDLSKYVRADAFPAPDAAEKNLAGAEWADGGARNDGHAT QPEARDSLDVKRASGAPEADPAQTGEVLRAAGDLPACSDSGGAGVPRTASSAGWLGATDA PHPSRSLPGCAGSVCLASPEGSAAFRASLSGFPRSLRDAETSTMASLNANNGASRGEEGS GVKEETKDSWSAVSRELHGPEKKSEKHEQGGPGDLGSPVKSERAAGTGGDSASPTASSAS SLYRYCLVALIEHEGPATDQGHYVCYVKHLETGQWFKADDKLITLVDFETQVLAAAPYML FYERVPSSETTQAYPFFAKDEADGAGVGSAQKKESQAEGDEESPCDASLCAGGRGGRTWR RCDWSAWTQRVKEIPVACELFGEDDSGEPSSSCTRQPSPERSVGADSDPRGLSPASSMSA GSVRRSRDCPVDGAPSPAGLARSSHTVPGRTGARAAPTGRSSQKAGEGTGAGRSRLAASG GSFASAPAAAHVAPLFGADGGGAARGKNGTEPVKGGDVAESQVRRRDRTSVRDAETLKRA GVAASAQEADGTRSGECTLRRGKRTVFMAPRRLSLFVSVRCLQRAPFSPTRPPLSPSVPS GRSQETQRPQTPASRDRRQGGATAPDLARLPPQGASDFSPFGSAGSVPAPCGKTQEVREE SRAQSRPPGPRARRDAAAAGVEAPEDTAGADPARGIQARAVPDVRMQAEAPLANLEVANF RPRDGGEGNQGEAYQSRQPRAGAVLGDKTSEAAGFPGRESVFGMGRGSPVKDEATRAGPS AETEEKDDACITSATGATTSPANTSGVSSSSPGSSPIKAESENAFTTEAGGPAPRPTFVS TSSPTPPGNHPQPSSDAPLPYVDARVASPAASPQTPPYWAGVPLSGPSSVSSAFFLRGDA SKKAGNSALVASAPRFPEEGDTVFHPKHDSLREDLTPALTPPRISVSVSASGVSAPGRPM LGEPQHMRAGTLTGDSWKGAVAPYPSQPLSVWSPLGVQESGMPPYPRVDGAHRISDACPP RLVEDAARGRQAELQGAGGDHASAQSVGPEAPLRGPRERTPARGTEGVGPVSEQSCGATS WHEVGDRTHVERSPCGAYGMQSANAGRPADGVASDRAEKAAQAAGAPAQSPAQSVSQDAP SAGTVATAEDDAEAAAKAAAAKAAERRRRARQQQQNRRQRKAEAAAAKAQAGAPGPSECG AGEAVPPGPGLGSSAPRGPLPAAPVGPGEFQPHHVQNGPMYAGASYPGWQAQMGHPVAGP YQDSFAGNLPTGGALSHGLSGQACRAGGQHLGSAAYPWPGHGKFYTQGVLRTHGGQPTQM LHAGQWNASVSVAAAASQEAAAAAATDAGAPVELAREAAATPPRRRKRTAAPSPEQAGSR GEGPPQVAAGVSQPGGVWNHLPQERGMSGGSALQPLARNESAEPGRGTGTFGGNLPSPHP PGVSVDYRELTQVSVHPGVPELGASPRDPRCAPFPVQVHGSGDPQSFAGPSPGVPAAEQP RASLGGAEVAASQKKPPRRRGPAANKVAARPQAQADGASISAQATACTGAAGGDANPGAF PHSAQHLGNRADRFTETFPNFSRSPWSPPQTLDSAAAARDMHTSQGVSNQAALPPNVQQA SAATVGYRDGPLAQARPPQPAAPVSGSQGFASGVCTQCGRLATATEPGVHPSCTCAARLF PTASCDGFGAPQSVASAGCPPWAGPSFPGDRNPPVELASRQAPHAASRDERVTQPVSAFA GTLQSSQKTQLEYPNSQYGWPPCAPPGRGADPTEAGFVPTPFFGEPSSSQAEPSVGASGV TAQQTGAAWGHTPTAAGQCLPNSSSRGPDGVRAEPKKRSRKKKASGQEAASVPHGSQAPG PATHSDGFEANVASRLDAASRTSNTAFQEGSLAVPRPKCRTAKSVKPADPVAHEPSPHVY SDEQNLQRQLSQVVHPAAPSAPYPGQNEKFPDRVGRGDGDRRDASSPATPDQPWEGGSFL GFQNPVDSVSPAKGTGPQEPFARGQPEGQNYAWGWTGTCVGDTRHQTSFHGVSRPAMVQA YGSGVSQVMPSTVSASRDVRVHVENNVGFSRPSPTGMAGSSANSECAYHHGATVTHAHDS GEAILQQQQQAVYAGFAIPRAQHVLQEEAPRQYCPGMQVSGPAMSHSGLPAFHAMQAANC DNVPDPGWLGSAAANHPEGAGAGMVCVAAPFPHGICAQQYPPGAVPGDFYQSGYKSSEGF FSDGAGDRLRTRPPAGALRQGGLPLSASAFASTRGNAFSGPAEGVQWNPEDWRTVLGDME SAVLKLDFSRSLDSWPALREQSTFNVTVAESNVICAHPQRRDDHLFRESPTESARDAHPK RLASAFPEMRDYLRTARLRWIVDRCFQFKDGESSEWTYEICVGKKVTQFAGNQKAGKTIG KTLLEWGTYKIGHDQLWANGTLSQTYGDGTGGRQTEVFFECRDQYPTVTAIEEVRANELR MWVGASMFCDFRPSNPAPPLLETLLRPMEGWCANFTTSGFWSYEYCHPDSLVQFHKDSSG DIHGPMFLLGTLHRSGLSSNSMWKTVASADFPILRGKGAGVNTHGSPKFRFLPVQLADFP SEIDKGREEKPQQILAMELTNGTRCEGTDVQRSTRVLFECPEDFATLGTHQVMKVMEGSP GSAVEPGLEAIPSSYLPDGRVSLNGSHFGMRQYQRHRSSWKNPAFRVGRLVRHRWSKYTA VVLSWDRSCEAPPEWIAKVYEHYPEASSQKPHYLLLVNQAVVTEPQQPLFTYVPEVSSFC RGTPEIESVL
Download Fasta

MitoProt II - v1.101 File : /home/rajan/sadaf/4480_mitoprot/test/NCLIV_012050.fa Sequence name : NCLIV_012050 Sequence length : 4150 VALUES OF COMPUTED PARAMETERS Coef20 : 3.601 CoefTot : -0.582 ChDiff : -4 ZoneTo : 17 KR : 4 DE : 0 CleavSite : 0 HYDROPHOBIC SCALE USED GES KD GVH1 ECS H17 : 1.529 1.518 0.297 0.605 MesoH : 0.536 0.410 -0.052 0.289 MuHd_075 : 25.468 16.437 6.503 5.543 MuHd_095 : 11.833 9.595 2.592 2.180 MuHd_100 : 10.968 4.704 0.714 2.189 MuHd_105 : 21.493 4.395 3.819 4.095 Hmax_075 : 1.750 4.812 -1.362 2.389 Hmax_095 : 1.838 1.137 -3.045 2.214 Hmax_100 : 2.300 -0.700 -2.235 1.910 Hmax_105 : 3.617 -0.000 -2.235 2.392 CLASS NOT-MITO MITO(/CHLORO) DFM : 0.8285 0.1715 DFMC : 0.8325 0.1675

##### ProP v.1.0b ProPeptide Cleavage Site Prediction ##### ##### Furin-type cleavage site prediction (Arginine/Lysine residues) ##### 4150 NCLIV_012050 MRSRPGGPKNVAAGRLWDFEESHLGAVETVGAFGNGRGALFRMHAEGRSPRQMPSASAEQQRFWSSFCTAGPGAQLPYNA 80 ETHPGHPFAYAAARVPDPSGVDASFVPPQLARADGGNCGSLPDVSAAAYPAFACAAPAPRYEAPPPAGASRAGEDGHSLS 160 HGGAWTTQGGPVYPGDSGTFWFALSRQSAGTGQALPSQAVQGSVSLRDAAAAFGSHPFPGQDTSSEGLSHVPANESTAPP 240 YLSGGAGPAPAFGCSRDPSAGANSGFLPPSQDPSRTCFRQEDAARLFSIAGDSASTTSTRRSREPLSTSRAGPASRDAGS 320 AVSESRRGEEHCQPPSLPFAGTAGGPWDTARAAGHALSGRLGGGGKDGESGVYVHPGESDRGASGAFKLSHVPETRFSEP 400 VMPACVDTRHGFIAHSDDLVNGAERTNVIQRQRAIPDAGHQRGDHASAVHTADAVPTGDRSTWHANTPVPASFVHPPVVV 480 HAHTDSSFQHVPAGDWSRNGSSKTPDAPSLHAANTLANPAPCAHVNAEAPCQATATVCRAPSWDERRTASLPARSEEGGL 560 EASAAPKKRRRVKKAASTTPSQTGVSADSGEREATAPTAKPKRMRPASSGVAPQSHPQLQAEVLSFSPSEDTPEKGTEKA 640 RQEAAPERSGGTALGWPPSRQGGCLGREDLGRPDGIGLSSSQERSDSRVQRPDAAAANQEVAASTTACSSVQRSQCVSPG 720 DALGQTTCAASPSFSVSSGVKIPSSAGVSLPSLSPSSVAHPLASTPSSFPPLSASSKVSDSDPGPGPEGDCPSAGLLNDA 800 SRGAPEAAGPCPASLPASPSGQRLSGAPAELPPPRSRPRPRPRNLFGTGRRPGRQQGRQQRRPTEDFGAEKGTAFKGPDA 880 SGAPGAATCSRSPSVNARSVQTCVVLGYGTAMPDREVTGTSLVGLINLGGGSCFLNAVLQCLANFRPLRDFYLQWAETLP 960 PRELLGRQYAVYTKQLERLAPFSRRRVKRRQQEKAASVCTSISWELATVINYMWRLSGSVKFLKPDALYQACCRIMPDFD 1040 PHEMQDSDEFLRLLLDILDAELRAAVLQVPLQDVLLLQRRPTKWESDDRALCPAARDCAGALPPSDASASAASRASPPTL 1120 ASTSYAASAPPTASPVRCSSPASISPSVQGARLSGASDLCREATPQSPNLSLPPSASDAAAPGASVSAASGLRQAFQEAD 1200 PAKATHATRSGEAASPRLEVGAASTSGASACQQAEAEKSERSEGGQKASKVSSSTVDAVQTLFSLVFEGGEVDEVWCSAC 1280 GRRTATLVPFKSLAVAMTQEAQEQACYYSSLRAKPATFSSELIPVDLVECLDRHFADDADSLKLSTGEGYYCSRCQRKQD 1360 AVKRCCLVKDHLPFVLCLTLKRFVRGHDTYKIWNPVRFGEFLDLSKYVRADAFPAPDAAEKNLAGAEWADGGARNDGHAT 1440 QPEARDSLDVKRASGAPEADPAQTGEVLRAAGDLPACSDSGGAGVPRTASSAGWLGATDAPHPSRSLPGCAGSVCLASPE 1520 GSAAFRASLSGFPRSLRDAETSTMASLNANNGASRGEEGSGVKEETKDSWSAVSRELHGPEKKSEKHEQGGPGDLGSPVK 1600 SERAAGTGGDSASPTASSASSLYRYCLVALIEHEGPATDQGHYVCYVKHLETGQWFKADDKLITLVDFETQVLAAAPYML 1680 FYERVPSSETTQAYPFFAKDEADGAGVGSAQKKESQAEGDEESPCDASLCAGGRGGRTWRRCDWSAWTQRVKEIPVACEL 1760 FGEDDSGEPSSSCTRQPSPERSVGADSDPRGLSPASSMSAGSVRRSRDCPVDGAPSPAGLARSSHTVPGRTGARAAPTGR 1840 SSQKAGEGTGAGRSRLAASGGSFASAPAAAHVAPLFGADGGGAARGKNGTEPVKGGDVAESQVRRRDRTSVRDAETLKRA 1920 GVAASAQEADGTRSGECTLRRGKRTVFMAPRRLSLFVSVRCLQRAPFSPTRPPLSPSVPSGRSQETQRPQTPASRDRRQG 2000 GATAPDLARLPPQGASDFSPFGSAGSVPAPCGKTQEVREESRAQSRPPGPRARRDAAAAGVEAPEDTAGADPARGIQARA 2080 VPDVRMQAEAPLANLEVANFRPRDGGEGNQGEAYQSRQPRAGAVLGDKTSEAAGFPGRESVFGMGRGSPVKDEATRAGPS 2160 AETEEKDDACITSATGATTSPANTSGVSSSSPGSSPIKAESENAFTTEAGGPAPRPTFVSTSSPTPPGNHPQPSSDAPLP 2240 YVDARVASPAASPQTPPYWAGVPLSGPSSVSSAFFLRGDASKKAGNSALVASAPRFPEEGDTVFHPKHDSLREDLTPALT 2320 PPRISVSVSASGVSAPGRPMLGEPQHMRAGTLTGDSWKGAVAPYPSQPLSVWSPLGVQESGMPPYPRVDGAHRISDACPP 2400 RLVEDAARGRQAELQGAGGDHASAQSVGPEAPLRGPRERTPARGTEGVGPVSEQSCGATSWHEVGDRTHVERSPCGAYGM 2480 QSANAGRPADGVASDRAEKAAQAAGAPAQSPAQSVSQDAPSAGTVATAEDDAEAAAKAAAAKAAERRRRARQQQQNRRQR 2560 KAEAAAAKAQAGAPGPSECGAGEAVPPGPGLGSSAPRGPLPAAPVGPGEFQPHHVQNGPMYAGASYPGWQAQMGHPVAGP 2640 YQDSFAGNLPTGGALSHGLSGQACRAGGQHLGSAAYPWPGHGKFYTQGVLRTHGGQPTQMLHAGQWNASVSVAAAASQEA 2720 AAAAATDAGAPVELAREAAATPPRRRKRTAAPSPEQAGSRGEGPPQVAAGVSQPGGVWNHLPQERGMSGGSALQPLARNE 2800 SAEPGRGTGTFGGNLPSPHPPGVSVDYRELTQVSVHPGVPELGASPRDPRCAPFPVQVHGSGDPQSFAGPSPGVPAAEQP 2880 RASLGGAEVAASQKKPPRRRGPAANKVAARPQAQADGASISAQATACTGAAGGDANPGAFPHSAQHLGNRADRFTETFPN 2960 FSRSPWSPPQTLDSAAAARDMHTSQGVSNQAALPPNVQQASAATVGYRDGPLAQARPPQPAAPVSGSQGFASGVCTQCGR 3040 LATATEPGVHPSCTCAARLFPTASCDGFGAPQSVASAGCPPWAGPSFPGDRNPPVELASRQAPHAASRDERVTQPVSAFA 3120 GTLQSSQKTQLEYPNSQYGWPPCAPPGRGADPTEAGFVPTPFFGEPSSSQAEPSVGASGVTAQQTGAAWGHTPTAAGQCL 3200 PNSSSRGPDGVRAEPKKRSRKKKASGQEAASVPHGSQAPGPATHSDGFEANVASRLDAASRTSNTAFQEGSLAVPRPKCR 3280 TAKSVKPADPVAHEPSPHVYSDEQNLQRQLSQVVHPAAPSAPYPGQNEKFPDRVGRGDGDRRDASSPATPDQPWEGGSFL 3360 GFQNPVDSVSPAKGTGPQEPFARGQPEGQNYAWGWTGTCVGDTRHQTSFHGVSRPAMVQAYGSGVSQVMPSTVSASRDVR 3440 VHVENNVGFSRPSPTGMAGSSANSECAYHHGATVTHAHDSGEAILQQQQQAVYAGFAIPRAQHVLQEEAPRQYCPGMQVS 3520 GPAMSHSGLPAFHAMQAANCDNVPDPGWLGSAAANHPEGAGAGMVCVAAPFPHGICAQQYPPGAVPGDFYQSGYKSSEGF 3600 FSDGAGDRLRTRPPAGALRQGGLPLSASAFASTRGNAFSGPAEGVQWNPEDWRTVLGDMESAVLKLDFSRSLDSWPALRE 3680 QSTFNVTVAESNVICAHPQRRDDHLFRESPTESARDAHPKRLASAFPEMRDYLRTARLRWIVDRCFQFKDGESSEWTYEI 3760 CVGKKVTQFAGNQKAGKTIGKTLLEWGTYKIGHDQLWANGTLSQTYGDGTGGRQTEVFFECRDQYPTVTAIEEVRANELR 3840 MWVGASMFCDFRPSNPAPPLLETLLRPMEGWCANFTTSGFWSYEYCHPDSLVQFHKDSSGDIHGPMFLLGTLHRSGLSSN 3920 SMWKTVASADFPILRGKGAGVNTHGSPKFRFLPVQLADFPSEIDKGREEKPQQILAMELTNGTRCEGTDVQRSTRVLFEC 4000 PEDFATLGTHQVMKVMEGSPGSAVEPGLEAIPSSYLPDGRVSLNGSHFGMRQYQRHRSSWKNPAFRVGRLVRHRWSKYTA 4080 VVLSWDRSCEAPPEWIAKVYEHYPEASSQKPHYLLLVNQAVVTEPQQPLFTYVPEVSSFCRGTPEIESVL 4160 ................................................................................ 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 Propeptide cleavage sites predicted: Arg(R)/Lys(K): 0

Fasta :-
>NCLIV_012050 ATGCGCTCCCGCCCGGGCGGTCCGAAGAACGTGGCAGCGGGGCGTCTCTGGGATTTCGAA GAGAGTCATCTGGGGGCCGTAGAGACCGTCGGCGCCTTCGGCAACGGCCGAGGCGCCCTC TTCAGAATGCATGCCGAGGGACGGTCTCCCCGGCAAATGCCGTCCGCTTCTGCCGAACAG CAACGGTTTTGGTCTTCGTTCTGCACAGCAGGGCCTGGCGCTCAGCTTCCCTACAACGCC GAGACGCACCCGGGCCATCCTTTCGCGTACGCTGCTGCTCGAGTTCCCGACCCTTCCGGC GTGGACGCCTCCTTTGTCCCTCCCCAGTTAGCCAGGGCGGATGGCGGCAACTGCGGATCT CTCCCGGATGTCTCCGCGGCCGCGTACCCTGCCTTCGCGTGTGCGGCGCCTGCCCCCAGG TACGAGGCGCCACCGCCGGCTGGGGCGTCTCGAGCCGGCGAGGACGGGCACAGTCTCTCG CACGGCGGCGCGTGGACGACTCAGGGGGGTCCAGTGTATCCAGGAGACAGCGGAACGTTT TGGTTCGCACTCTCGAGGCAGAGCGCGGGGACCGGTCAGGCACTCCCGTCTCAGGCCGTC CAAGGTTCAGTCAGTCTGAGGGACGCAGCCGCTGCTTTCGGTTCGCATCCCTTTCCCGGC CAGGACACGTCCTCAGAGGGGCTTTCCCACGTGCCAGCGAACGAATCTACAGCACCTCCG TACCTTTCTGGCGGGGCGGGGCCAGCGCCCGCATTCGGTTGCTCCAGAGACCCAAGCGCG GGGGCAAATTCAGGCTTCCTGCCTCCGTCTCAGGATCCGAGTCGGACTTGCTTTCGTCAG GAGGATGCCGCGCGACTTTTCTCCATCGCGGGCGACTCGGCCTCCACGACGTCCACGCGC CGTTCAAGGGAGCCCCTCAGCACCTCTCGTGCTGGGCCAGCTTCACGGGATGCAGGAAGC GCCGTTTCTGAAAGCAGGAGAGGCGAGGAGCACTGCCAACCGCCTTCCTTGCCTTTCGCT GGGACGGCGGGTGGGCCGTGGGACACGGCGCGGGCGGCGGGACACGCTCTGTCGGGAAGA CTCGGAGGTGGGGGGAAAGACGGTGAATCTGGCGTGTATGTACACCCCGGGGAATCAGAC CGTGGAGCCTCAGGCGCCTTCAAGCTTTCCCACGTGCCGGAAACGCGCTTTTCTGAACCG GTGATGCCAGCGTGCGTCGACACCAGGCATGGCTTTATCGCGCATTCCGACGACCTGGTG AACGGCGCCGAAAGGACAAACGTTATCCAGCGGCAAAGGGCGATACCCGACGCTGGTCAC CAAAGAGGTGATCATGCATCGGCTGTACATACAGCTGACGCTGTGCCGACTGGCGATAGG TCAACTTGGCACGCAAACACGCCCGTGCCAGCCTCGTTTGTTCATCCCCCCGTCGTTGTC CATGCACACACTGACAGCAGTTTCCAGCATGTGCCTGCGGGAGATTGGAGCAGAAACGGC TCTTCGAAGACTCCAGATGCTCCTTCCCTGCATGCCGCCAATACTCTTGCAAACCCGGCA CCTTGCGCCCACGTGAACGCAGAAGCGCCTTGTCAGGCCACCGCCACTGTCTGTCGTGCG CCTTCTTGGGACGAGCGGCGAACTGCCTCTCTCCCTGCGCGAAGCGAGGAAGGAGGTCTG GAGGCGTCCGCAGCTCCGAAGAAGCGCAGGCGTGTGAAGAAGGCCGCGTCAACGACACCG AGTCAAACTGGGGTTTCGGCAGACTCGGGAGAGCGGGAGGCAACGGCGCCGACAGCAAAG CCCAAGCGGATGCGTCCTGCGAGCTCGGGAGTCGCTCCACAGAGCCATCCGCAGCTCCAG GCCGAAGTTTTGTCATTCTCGCCCTCAGAAGACACGCCCGAGAAGGGCACGGAAAAGGCG CGCCAGGAAGCGGCGCCGGAGCGAAGCGGCGGAACGGCCCTCGGTTGGCCGCCAAGTCGT CAAGGCGGGTGCCTAGGGAGAGAAGACCTGGGGCGACCAGACGGGATTGGGCTCTCGAGT TCGCAGGAAAGGTCAGACTCGCGCGTGCAGAGACCGGATGCAGCTGCAGCGAACCAAGAG GTTGCTGCCTCCACCACAGCGTGTTCGTCCGTTCAACGCTCCCAGTGTGTCTCTCCCGGG GATGCTTTGGGTCAGACGACTTGCGCAGCTTCTCCCAGTTTCTCTGTGTCTTCTGGAGTG AAAATCCCGTCTTCCGCAGGCGTGTCTCTCCCTTCCTTGTCTCCATCTTCTGTTGCACAT CCACTCGCATCGACTCCTTCGTCTTTCCCGCCTCTCTCCGCCTCCTCAAAGGTTTCCGAC AGCGATCCCGGCCCCGGTCCAGAGGGAGACTGTCCGTCGGCAGGCCTCCTCAATGACGCA TCCCGCGGAGCACCTGAAGCTGCAGGTCCATGTCCTGCGTCTCTGCCTGCGTCGCCCTCC GGGCAGAGGCTCTCCGGCGCGCCGGCCGAGCTGCCGCCGCCGCGCAGTCGCCCGCGGCCT CGCCCGCGGAATCTCTTTGGCACTGGTAGACGACCCGGACGCCAGCAAGGTCGCCAGCAG CGGAGACCGACTGAGGACTTTGGCGCGGAGAAAGGGACGGCGTTCAAAGGGCCAGATGCG AGCGGCGCGCCTGGAGCCGCAACGTGCAGCAGAAGTCCCTCAGTGAATGCGCGCAGCGTG CAGACGTGCGTCGTTCTGGGGTACGGCACGGCGATGCCCGATCGCGAGGTGACGGGCACG TCGCTCGTCGGGCTCATCAACCTCGGCGGCGGGAGCTGCTTCCTGAACGCCGTTCTCCAG TGCCTCGCCAACTTCCGACCTCTCCGAGACTTTTACCTGCAGTGGGCTGAGACGCTCCCG CCCCGCGAACTTCTCGGGCGTCAGTACGCGGTGTACACGAAGCAGCTGGAGCGTCTCGCG CCGTTCTCCCGGCGCCGAGTGAAGCGGCGACAGCAAGAAAAGGCCGCGTCCGTCTGCACG TCCATCAGCTGGGAGCTCGCCACCGTCATCAACTACATGTGGAGACTTTCCGGCTCCGTC AAGTTCCTCAAACCCGACGCGCTCTACCAGGCGTGTTGCCGCATCATGCCCGACTTCGAT CCCCACGAGATGCAAGACAGCGACGAGTTTCTGCGTCTCCTCCTGGACATCCTCGACGCC GAGCTCCGCGCGGCCGTCCTCCAGGTGCCTCTACAAGATGTCTTGCTGCTCCAGAGGCGC CCGACAAAGTGGGAGTCGGACGACAGGGCCCTCTGCCCCGCGGCGCGCGACTGCGCGGGG GCCTTGCCGCCCTCAGATGCTTCCGCGTCTGCTGCCTCTCGTGCTTCCCCGCCGACGTTA GCTTCGACTTCGTACGCCGCGTCTGCCCCCCCCACGGCCTCTCCCGTTCGCTGTTCTTCC CCGGCGTCGATCTCGCCCTCCGTGCAGGGCGCGCGTCTCTCGGGCGCGTCTGATCTCTGC CGGGAAGCCACCCCACAGAGCCCCAACCTGTCCCTGCCGCCCTCAGCCTCGGACGCCGCT GCACCAGGCGCCTCTGTCAGTGCTGCTTCCGGTTTGCGGCAGGCGTTTCAGGAAGCCGAC CCGGCAAAAGCGACGCATGCCACTCGCTCCGGAGAAGCTGCCTCGCCGCGCCTCGAGGTC GGCGCCGCGTCCACCAGCGGGGCCTCGGCCTGCCAGCAGGCCGAAGCGGAGAAGAGTGAG AGGAGCGAGGGAGGACAGAAGGCGTCGAAGGTGTCGAGCAGCACTGTGGACGCGGTACAG ACTCTGTTCTCGCTGGTCTTTGAAGGCGGCGAGGTCGACGAAGTTTGGTGCAGCGCCTGT GGGCGGCGGACGGCAACACTAGTGCCGTTCAAGAGTCTCGCCGTGGCCATGACGCAGGAG GCGCAGGAGCAGGCGTGCTACTACTCGAGCCTGCGCGCCAAGCCCGCGACGTTCTCCTCC GAGCTGATTCCCGTCGACCTCGTCGAGTGTCTCGATCGGCACTTTGCGGACGACGCGGAC TCCCTCAAGCTGTCGACTGGCGAGGGGTACTACTGCAGTCGGTGTCAGCGGAAACAAGAT GCGGTCAAGCGCTGTTGCCTCGTGAAAGACCATCTTCCCTTTGTGCTGTGCCTCACGCTC AAGCGCTTCGTGCGTGGACACGACACCTACAAGATCTGGAACCCCGTTCGCTTCGGCGAG TTCCTGGACCTATCCAAGTACGTTCGCGCCGACGCGTTCCCCGCGCCGGACGCAGCTGAG AAAAACCTCGCAGGCGCCGAGTGGGCCGACGGAGGCGCCAGAAACGACGGGCACGCGACG CAGCCCGAGGCCAGGGACAGCCTCGACGTGAAACGGGCGAGCGGGGCCCCAGAGGCCGAC CCCGCGCAGACGGGCGAGGTTCTGCGTGCCGCAGGCGACCTGCCTGCGTGCTCAGATTCG GGCGGCGCCGGAGTTCCGCGAACCGCCTCGTCGGCGGGGTGGCTGGGGGCGACGGACGCC CCTCACCCCTCGCGGTCTCTCCCTGGCTGTGCAGGCAGCGTCTGCCTCGCTTCTCCAGAG GGCTCGGCCGCCTTCCGCGCGTCCCTCTCGGGATTTCCACGCTCTCTGCGAGACGCAGAA ACTTCCACGATGGCGAGTTTGAATGCGAACAACGGCGCCTCGCGAGGGGAGGAAGGGAGC GGCGTCAAAGAAGAGACCAAGGACAGCTGGTCTGCAGTGTCGCGAGAACTGCACGGCCCC GAAAAAAAGAGCGAGAAACACGAGCAGGGAGGTCCCGGCGACCTGGGGAGTCCCGTCAAG TCTGAGAGAGCTGCGGGCACGGGTGGCGACTCCGCCTCGCCGACTGCTTCCTCGGCTTCT TCTTTGTACCGTTACTGTTTGGTGGCGCTCATCGAGCATGAGGGCCCTGCGACGGACCAG GGACACTACGTGTGCTATGTGAAGCATTTGGAGACGGGTCAGTGGTTCAAGGCGGACGAC AAGCTGATCACGCTGGTGGACTTTGAGACCCAGGTTCTGGCGGCAGCACCGTACATGCTG TTCTACGAGCGCGTGCCGAGCTCGGAAACGACCCAGGCGTACCCATTCTTCGCCAAAGAT GAAGCGGACGGCGCCGGTGTGGGCTCCGCGCAGAAGAAAGAGTCGCAGGCGGAAGGAGAC GAGGAGAGCCCGTGCGACGCCAGTCTCTGCGCCGGCGGGCGAGGGGGGCGAACGTGGAGG AGGTGCGACTGGTCGGCGTGGACGCAGAGAGTGAAGGAAATCCCGGTCGCATGCGAACTC TTTGGAGAGGACGACAGTGGCGAGCCTAGTTCCTCGTGCACCCGCCAACCGTCCCCCGAG CGGTCTGTGGGTGCCGACAGTGACCCGCGAGGACTGTCTCCAGCGTCTTCGATGTCGGCA GGCTCGGTCCGTCGCTCTCGCGATTGCCCCGTCGACGGCGCGCCTTCCCCAGCTGGTCTG GCGCGGTCTTCCCACACGGTCCCAGGGAGAACGGGAGCTCGCGCGGCCCCGACTGGCCGC AGCAGCCAGAAAGCGGGAGAAGGAACCGGCGCTGGAAGAAGCCGCCTCGCGGCTTCGGGT GGGTCCTTCGCGTCCGCGCCTGCAGCTGCGCACGTCGCCCCTCTTTTCGGCGCCGATGGA GGCGGCGCGGCGAGGGGGAAGAACGGGACGGAGCCCGTCAAAGGTGGCGACGTGGCCGAG AGCCAGGTACGGAGAAGAGACCGGACGTCTGTGCGCGATGCAGAGACCCTGAAGCGTGCG GGGGTGGCGGCCAGCGCACAGGAAGCGGACGGAACACGATCTGGTGAGTGTACGCTCCGC AGGGGGAAGCGAACTGTTTTCATGGCCCCGCGCCGCCTCTCCCTCTTTGTGTCTGTTCGT TGCCTGCAGCGTGCACCCTTCTCGCCGACTCGCCCGCCGCTCTCTCCGTCCGTCCCCAGT GGCCGCAGCCAGGAGACACAGAGACCACAGACCCCTGCGTCTCGCGATCGTCGCCAGGGC GGGGCGACGGCGCCGGACCTAGCCCGTCTCCCGCCTCAGGGCGCAAGCGATTTCTCCCCG TTCGGCTCTGCCGGCTCCGTTCCCGCCCCGTGTGGCAAGACGCAGGAGGTGAGGGAGGAG TCGAGAGCTCAGAGTCGCCCGCCTGGTCCGAGGGCGAGGCGAGACGCAGCTGCAGCCGGC GTCGAGGCGCCAGAAGACACCGCGGGGGCGGACCCCGCGAGAGGCATCCAGGCGCGCGCA GTACCGGATGTTCGCATGCAGGCGGAAGCGCCGCTCGCTAACCTCGAGGTTGCGAACTTC AGGCCCAGAGACGGCGGAGAAGGAAACCAAGGCGAGGCTTATCAAAGCCGGCAGCCGCGC GCGGGAGCGGTTCTAGGAGACAAGACCTCCGAGGCAGCAGGGTTCCCTGGAAGGGAATCG GTTTTTGGCATGGGCCGAGGCAGTCCCGTGAAGGACGAGGCGACGCGGGCGGGACCGTCT GCGGAAACGGAGGAGAAAGACGACGCATGCATCACATCTGCGACGGGCGCAACCACGTCT CCCGCCAACACAAGTGGCGTCTCTTCTTCCTCTCCCGGTTCCTCTCCAATTAAGGCTGAG AGCGAAAACGCGTTTACGACTGAGGCAGGCGGTCCCGCTCCCCGCCCCACGTTCGTCTCG ACCTCGAGTCCGACTCCACCCGGGAACCACCCGCAACCCTCCAGCGACGCGCCGCTTCCC TACGTGGACGCGCGCGTCGCCAGCCCCGCTGCTTCTCCACAGACGCCGCCTTACTGGGCA GGGGTTCCGCTGTCTGGGCCGAGCTCGGTCTCGAGCGCCTTTTTTCTCCGCGGCGATGCG TCCAAGAAAGCCGGGAACTCGGCGCTTGTCGCCTCTGCTCCGCGCTTTCCAGAGGAGGGC GACACTGTGTTTCACCCAAAACACGACAGTCTCCGGGAAGACCTGACACCGGCGCTGACA CCGCCCCGCATCAGTGTCTCTGTCAGCGCCTCGGGAGTCTCAGCCCCTGGACGTCCCATG CTCGGAGAACCGCAGCACATGCGTGCGGGAACGCTGACAGGCGACAGCTGGAAGGGCGCG GTTGCGCCGTATCCTTCCCAGCCGCTGTCTGTGTGGAGCCCCCTGGGAGTTCAAGAGTCA GGCATGCCGCCGTACCCCCGCGTCGACGGCGCGCACAGGATTTCTGACGCGTGCCCGCCC CGGCTGGTGGAAGACGCAGCCCGGGGCAGGCAGGCGGAGCTGCAGGGCGCCGGCGGAGAC CACGCGAGCGCGCAGTCGGTGGGTCCCGAGGCGCCGTTGAGGGGCCCCAGAGAGCGCACG CCGGCAAGAGGAACGGAGGGCGTGGGGCCTGTCTCCGAGCAGAGCTGTGGGGCGACCTCG TGGCACGAGGTGGGAGACAGAACCCACGTCGAACGCAGTCCGTGCGGAGCGTACGGGATG CAGTCGGCAAACGCAGGCCGCCCTGCGGACGGCGTCGCCTCAGATCGCGCCGAAAAAGCT GCTCAGGCCGCAGGCGCTCCTGCACAGAGTCCCGCTCAGTCTGTCTCTCAAGATGCTCCG AGCGCCGGAACGGTTGCCACTGCCGAAGACGACGCAGAGGCCGCAGCGAAAGCCGCAGCC GCCAAGGCAGCTGAGAGGCGGCGGCGAGCGCGCCAGCAGCAGCAGAACCGACGGCAGCGG AAGGCCGAAGCAGCCGCCGCAAAGGCACAAGCTGGGGCTCCAGGCCCTTCAGAATGTGGC GCTGGCGAGGCTGTCCCTCCCGGTCCGGGTCTCGGCTCCAGTGCACCGAGAGGGCCCCTG CCGGCGGCCCCGGTCGGTCCAGGCGAGTTTCAGCCGCACCACGTGCAGAATGGGCCGATG TATGCGGGCGCTTCGTATCCTGGGTGGCAAGCGCAGATGGGGCATCCTGTCGCGGGGCCC TACCAGGACAGCTTTGCAGGAAACCTGCCGACTGGGGGTGCTCTGTCGCACGGCCTTTCC GGGCAAGCCTGCAGAGCCGGCGGACAGCATCTGGGGTCTGCCGCATACCCCTGGCCCGGG CATGGAAAGTTCTACACCCAGGGCGTCCTGCGAACGCACGGTGGCCAGCCTACACAGATG CTGCATGCAGGCCAGTGGAACGCGTCCGTGTCCGTTGCGGCAGCTGCGTCTCAGGAGGCG GCGGCGGCTGCTGCGACGGACGCTGGAGCGCCCGTGGAACTTGCGAGAGAAGCCGCGGCA ACGCCACCGAGACGACGCAAGAGGACTGCGGCGCCTTCCCCGGAGCAGGCCGGGAGTCGA GGTGAAGGTCCACCGCAGGTCGCGGCAGGTGTCTCGCAGCCGGGGGGCGTCTGGAATCAT CTGCCTCAAGAGCGAGGTATGTCGGGAGGTTCGGCTCTCCAGCCCCTGGCGAGGAACGAG TCTGCGGAACCGGGACGAGGAACCGGAACCTTTGGCGGCAACCTCCCAAGCCCACACCCG CCAGGCGTGTCAGTGGACTACCGGGAACTCACGCAGGTGTCCGTACACCCCGGCGTTCCC GAGCTCGGCGCGAGTCCCAGAGATCCCCGGTGTGCGCCCTTCCCTGTGCAAGTCCACGGC AGTGGAGACCCGCAGTCCTTCGCGGGGCCGAGTCCAGGCGTTCCTGCGGCAGAGCAGCCA AGGGCGAGTTTGGGCGGCGCGGAAGTCGCGGCGTCCCAGAAGAAACCTCCGCGGAGAAGG GGGCCGGCCGCGAACAAGGTGGCCGCTCGGCCCCAAGCGCAGGCAGACGGCGCGTCGATT TCCGCGCAGGCGACTGCGTGCACCGGCGCCGCGGGCGGGGATGCGAACCCCGGCGCGTTT CCCCACTCTGCGCAGCACTTGGGAAACCGGGCTGACAGGTTCACGGAGACGTTTCCGAAC TTCTCGAGGAGCCCATGGTCGCCGCCGCAGACCCTCGACTCGGCCGCGGCGGCGCGCGAC ATGCACACCAGCCAAGGCGTTTCAAATCAAGCAGCTCTGCCGCCGAATGTCCAGCAGGCG TCTGCGGCGACCGTTGGATACAGGGATGGGCCGCTCGCGCAGGCACGCCCACCCCAACCG GCGGCGCCGGTGTCTGGGTCGCAGGGCTTCGCGTCCGGTGTATGTACACAGTGTGGGAGG CTGGCCACCGCTACGGAGCCGGGCGTCCACCCTTCCTGCACGTGTGCCGCGCGCCTGTTC CCTACGGCGTCTTGTGACGGCTTCGGCGCGCCTCAGAGCGTGGCAAGCGCGGGGTGCCCC CCGTGGGCCGGTCCCTCCTTTCCGGGGGACAGAAACCCTCCCGTTGAACTTGCGTCTCGA CAAGCGCCGCATGCGGCCTCTCGCGACGAGCGCGTCACGCAGCCCGTGTCTGCGTTCGCG GGGACTCTGCAGTCGAGTCAGAAAACGCAGCTCGAGTACCCCAACAGTCAGTACGGATGG CCGCCGTGTGCGCCCCCAGGACGAGGCGCAGACCCGACCGAAGCAGGGTTCGTGCCGACT CCGTTTTTTGGGGAACCGAGTTCCAGTCAGGCCGAACCGTCGGTGGGCGCATCCGGCGTC ACAGCTCAGCAAACGGGTGCGGCGTGGGGCCATACCCCGACAGCTGCTGGTCAGTGCCTG CCGAATTCGAGCTCTCGAGGCCCTGACGGTGTGCGCGCGGAACCGAAGAAGCGGAGCAGG AAGAAGAAGGCGAGTGGACAAGAGGCTGCAAGCGTGCCGCACGGCAGCCAGGCGCCGGGC CCCGCGACCCACAGCGACGGTTTCGAAGCCAACGTGGCTTCGCGTCTCGACGCAGCTTCT CGGACGAGCAACACAGCGTTTCAAGAGGGTTCTCTGGCGGTGCCGCGCCCCAAGTGTCGG ACAGCAAAAAGCGTGAAGCCAGCAGATCCGGTGGCCCATGAGCCGAGTCCGCACGTCTAC AGTGACGAACAGAATTTGCAAAGGCAGCTCTCGCAAGTGGTGCATCCGGCCGCTCCGAGT GCACCCTATCCCGGTCAAAATGAAAAGTTTCCAGACAGGGTGGGGCGCGGAGACGGCGAT CGGCGAGACGCTAGCTCTCCAGCGACGCCGGACCAACCCTGGGAAGGGGGCTCTTTCTTA GGTTTTCAGAACCCCGTCGACTCCGTTTCTCCCGCGAAGGGAACGGGGCCTCAAGAGCCC TTTGCGCGCGGGCAGCCAGAGGGGCAAAATTACGCTTGGGGCTGGACAGGTACATGCGTT GGAGACACACGTCATCAGACCAGTTTCCATGGCGTTTCTCGACCGGCCATGGTGCAAGCG TACGGGTCCGGTGTCTCCCAAGTGATGCCTTCCACCGTTTCAGCCAGCCGAGACGTTAGG GTACACGTGGAGAACAATGTGGGGTTTTCGCGGCCGAGCCCAACGGGAATGGCCGGTAGC TCCGCGAATTCAGAGTGTGCGTATCATCACGGAGCGACCGTTACCCACGCACATGACTCG GGCGAGGCAATTCTGCAACAGCAGCAACAGGCAGTCTACGCGGGTTTTGCAATTCCCAGG GCCCAGCATGTGCTTCAAGAAGAGGCGCCGCGGCAGTATTGCCCCGGCATGCAAGTGTCC GGACCTGCCATGTCTCACAGCGGTCTTCCCGCCTTTCACGCGATGCAAGCAGCGAACTGC GACAATGTGCCTGATCCGGGCTGGCTCGGCTCGGCGGCCGCGAATCACCCGGAGGGCGCA GGCGCAGGCATGGTATGCGTCGCGGCGCCGTTTCCGCATGGAATTTGCGCTCAGCAGTAC CCTCCTGGGGCCGTGCCTGGGGACTTCTACCAATCCGGGTACAAAAGTTCTGAAGGATTT TTCTCGGACGGCGCTGGGGACCGATTGCGAACTCGGCCACCTGCCGGTGCTCTGCGGCAA GGTGGCCTACCGCTCTCTGCCTCTGCGTTCGCCTCTACCCGCGGAAATGCGTTTTCTGGA CCCGCAGAGGGAGTGCAGTGGAACCCAGAGGACTGGAGAACCGTTCTCGGGGACATGGAA AGCGCCGTCCTCAAACTCGACTTTTCCCGAAGCCTCGACAGCTGGCCAGCCCTCAGAGAA CAGTCCACCTTCAACGTCACAGTCGCTGAGTCGAACGTCATATGCGCCCACCCCCAACGC CGGGATGACCATCTGTTTCGGGAGTCCCCGACGGAGAGCGCGAGAGACGCGCACCCGAAG CGATTGGCCTCTGCATTCCCAGAGATGCGCGACTACTTGAGAACTGCTCGACTCAGATGG ATCGTCGACAGGTGCTTCCAGTTCAAAGACGGAGAGTCTTCCGAATGGACCTACGAAATC TGCGTCGGCAAAAAGGTGACGCAGTTCGCAGGCAACCAAAAGGCAGGCAAAACGATTGGC AAGACTTTGTTGGAGTGGGGCACGTACAAGATTGGTCACGACCAGCTGTGGGCGAACGGC ACTTTGAGTCAGACTTATGGGGACGGAACGGGAGGTCGGCAGACGGAGGTTTTCTTCGAG TGTCGCGATCAGTACCCGACAGTTACGGCGATCGAGGAGGTTCGGGCAAACGAGCTACGC ATGTGGGTCGGAGCCTCCATGTTCTGCGACTTCCGACCGAGCAACCCGGCGCCACCCTTG CTGGAGACGCTCCTTCGGCCAATGGAAGGCTGGTGCGCGAACTTCACGACTTCGGGTTTT TGGTCCTACGAATACTGTCACCCAGACAGCCTGGTTCAATTCCACAAAGACAGTTCAGGA GACATTCACGGTCCCATGTTCCTTCTGGGAACGCTGCACAGGTCGGGGCTGTCGTCCAAT TCCATGTGGAAGACCGTCGCCTCTGCCGACTTCCCCATACTGCGGGGGAAAGGCGCGGGT GTCAATACACACGGCAGTCCAAAGTTCCGTTTCCTGCCAGTGCAGCTGGCCGACTTTCCG TCAGAGATCGACAAGGGTCGCGAGGAGAAACCCCAGCAGATCCTGGCTATGGAGTTGACC AATGGTACACGCTGCGAAGGTACTGACGTCCAGCGGAGCACACGCGTCCTCTTTGAGTGT CCCGAGGACTTCGCCACGCTAGGGACGCACCAGGTCATGAAGGTGATGGAGGGTTCCCCG GGGAGTGCAGTGGAGCCAGGACTCGAAGCTATCCCGTCAAGTTATCTTCCTGATGGGAGA GTCAGTTTAAATGGCAGCCACTTCGGCATGCGACAATACCAGAGACACAGGTCATCCTGG AAGAACCCCGCCTTCAGGGTTGGCCGCCTCGTCAGGCATCGGTGGTCAAAGTACACGGCG GTGGTTCTGTCTTGGGACCGCAGCTGCGAGGCCCCTCCGGAGTGGATTGCAAAGGTTTAC GAGCACTATCCTGAAGCATCCAGTCAAAAGCCTCATTATCTCCTACTGGTGAACCAGGCG GTTGTGACGGAACCTCAGCAGCCTCTGTTCACCTACGTGCCAGAAGTGAGTAGCTTTTGC CGTGGAACGCCTGAAATCGAGTCGGTTCTCTGA
Download Fasta

Fasta :-

MRSRPGGPKNVAAGRLWDFEESHLGAVETVGAFGNGRGALFRMHAEGRSPRQMPSASAEQ QRFWSSFCTAGPGAQLPYNAETHPGHPFAYAAARVPDPSGVDASFVPPQLARADGGNCGS LPDVSAAAYPAFACAAPAPRYEAPPPAGASRAGEDGHSLSHGGAWTTQGGPVYPGDSGTF WFALSRQSAGTGQALPSQAVQGSVSLRDAAAAFGSHPFPGQDTSSEGLSHVPANESTAPP YLSGGAGPAPAFGCSRDPSAGANSGFLPPSQDPSRTCFRQEDAARLFSIAGDSASTTSTR RSREPLSTSRAGPASRDAGSAVSESRRGEEHCQPPSLPFAGTAGGPWDTARAAGHALSGR LGGGGKDGESGVYVHPGESDRGASGAFKLSHVPETRFSEPVMPACVDTRHGFIAHSDDLV NGAERTNVIQRQRAIPDAGHQRGDHASAVHTADAVPTGDRSTWHANTPVPASFVHPPVVV HAHTDSSFQHVPAGDWSRNGSSKTPDAPSLHAANTLANPAPCAHVNAEAPCQATATVCRA PSWDERRTASLPARSEEGGLEASAAPKKRRRVKKAASTTPSQTGVSADSGEREATAPTAK PKRMRPASSGVAPQSHPQLQAEVLSFSPSEDTPEKGTEKARQEAAPERSGGTALGWPPSR QGGCLGREDLGRPDGIGLSSSQERSDSRVQRPDAAAANQEVAASTTACSSVQRSQCVSPG DALGQTTCAASPSFSVSSGVKIPSSAGVSLPSLSPSSVAHPLASTPSSFPPLSASSKVSD SDPGPGPEGDCPSAGLLNDASRGAPEAAGPCPASLPASPSGQRLSGAPAELPPPRSRPRP RPRNLFGTGRRPGRQQGRQQRRPTEDFGAEKGTAFKGPDASGAPGAATCSRSPSVNARSV QTCVVLGYGTAMPDREVTGTSLVGLINLGGGSCFLNAVLQCLANFRPLRDFYLQWAETLP PRELLGRQYAVYTKQLERLAPFSRRRVKRRQQEKAASVCTSISWELATVINYMWRLSGSV KFLKPDALYQACCRIMPDFDPHEMQDSDEFLRLLLDILDAELRAAVLQVPLQDVLLLQRR PTKWESDDRALCPAARDCAGALPPSDASASAASRASPPTLASTSYAASAPPTASPVRCSS PASISPSVQGARLSGASDLCREATPQSPNLSLPPSASDAAAPGASVSAASGLRQAFQEAD PAKATHATRSGEAASPRLEVGAASTSGASACQQAEAEKSERSEGGQKASKVSSSTVDAVQ TLFSLVFEGGEVDEVWCSACGRRTATLVPFKSLAVAMTQEAQEQACYYSSLRAKPATFSS ELIPVDLVECLDRHFADDADSLKLSTGEGYYCSRCQRKQDAVKRCCLVKDHLPFVLCLTL KRFVRGHDTYKIWNPVRFGEFLDLSKYVRADAFPAPDAAEKNLAGAEWADGGARNDGHAT QPEARDSLDVKRASGAPEADPAQTGEVLRAAGDLPACSDSGGAGVPRTASSAGWLGATDA PHPSRSLPGCAGSVCLASPEGSAAFRASLSGFPRSLRDAETSTMASLNANNGASRGEEGS GVKEETKDSWSAVSRELHGPEKKSEKHEQGGPGDLGSPVKSERAAGTGGDSASPTASSAS SLYRYCLVALIEHEGPATDQGHYVCYVKHLETGQWFKADDKLITLVDFETQVLAAAPYML FYERVPSSETTQAYPFFAKDEADGAGVGSAQKKESQAEGDEESPCDASLCAGGRGGRTWR RCDWSAWTQRVKEIPVACELFGEDDSGEPSSSCTRQPSPERSVGADSDPRGLSPASSMSA GSVRRSRDCPVDGAPSPAGLARSSHTVPGRTGARAAPTGRSSQKAGEGTGAGRSRLAASG GSFASAPAAAHVAPLFGADGGGAARGKNGTEPVKGGDVAESQVRRRDRTSVRDAETLKRA GVAASAQEADGTRSGECTLRRGKRTVFMAPRRLSLFVSVRCLQRAPFSPTRPPLSPSVPS GRSQETQRPQTPASRDRRQGGATAPDLARLPPQGASDFSPFGSAGSVPAPCGKTQEVREE SRAQSRPPGPRARRDAAAAGVEAPEDTAGADPARGIQARAVPDVRMQAEAPLANLEVANF RPRDGGEGNQGEAYQSRQPRAGAVLGDKTSEAAGFPGRESVFGMGRGSPVKDEATRAGPS AETEEKDDACITSATGATTSPANTSGVSSSSPGSSPIKAESENAFTTEAGGPAPRPTFVS TSSPTPPGNHPQPSSDAPLPYVDARVASPAASPQTPPYWAGVPLSGPSSVSSAFFLRGDA SKKAGNSALVASAPRFPEEGDTVFHPKHDSLREDLTPALTPPRISVSVSASGVSAPGRPM LGEPQHMRAGTLTGDSWKGAVAPYPSQPLSVWSPLGVQESGMPPYPRVDGAHRISDACPP RLVEDAARGRQAELQGAGGDHASAQSVGPEAPLRGPRERTPARGTEGVGPVSEQSCGATS WHEVGDRTHVERSPCGAYGMQSANAGRPADGVASDRAEKAAQAAGAPAQSPAQSVSQDAP SAGTVATAEDDAEAAAKAAAAKAAERRRRARQQQQNRRQRKAEAAAAKAQAGAPGPSECG AGEAVPPGPGLGSSAPRGPLPAAPVGPGEFQPHHVQNGPMYAGASYPGWQAQMGHPVAGP YQDSFAGNLPTGGALSHGLSGQACRAGGQHLGSAAYPWPGHGKFYTQGVLRTHGGQPTQM LHAGQWNASVSVAAAASQEAAAAAATDAGAPVELAREAAATPPRRRKRTAAPSPEQAGSR GEGPPQVAAGVSQPGGVWNHLPQERGMSGGSALQPLARNESAEPGRGTGTFGGNLPSPHP PGVSVDYRELTQVSVHPGVPELGASPRDPRCAPFPVQVHGSGDPQSFAGPSPGVPAAEQP RASLGGAEVAASQKKPPRRRGPAANKVAARPQAQADGASISAQATACTGAAGGDANPGAF PHSAQHLGNRADRFTETFPNFSRSPWSPPQTLDSAAAARDMHTSQGVSNQAALPPNVQQA SAATVGYRDGPLAQARPPQPAAPVSGSQGFASGVCTQCGRLATATEPGVHPSCTCAARLF PTASCDGFGAPQSVASAGCPPWAGPSFPGDRNPPVELASRQAPHAASRDERVTQPVSAFA GTLQSSQKTQLEYPNSQYGWPPCAPPGRGADPTEAGFVPTPFFGEPSSSQAEPSVGASGV TAQQTGAAWGHTPTAAGQCLPNSSSRGPDGVRAEPKKRSRKKKASGQEAASVPHGSQAPG PATHSDGFEANVASRLDAASRTSNTAFQEGSLAVPRPKCRTAKSVKPADPVAHEPSPHVY SDEQNLQRQLSQVVHPAAPSAPYPGQNEKFPDRVGRGDGDRRDASSPATPDQPWEGGSFL GFQNPVDSVSPAKGTGPQEPFARGQPEGQNYAWGWTGTCVGDTRHQTSFHGVSRPAMVQA YGSGVSQVMPSTVSASRDVRVHVENNVGFSRPSPTGMAGSSANSECAYHHGATVTHAHDS GEAILQQQQQAVYAGFAIPRAQHVLQEEAPRQYCPGMQVSGPAMSHSGLPAFHAMQAANC DNVPDPGWLGSAAANHPEGAGAGMVCVAAPFPHGICAQQYPPGAVPGDFYQSGYKSSEGF FSDGAGDRLRTRPPAGALRQGGLPLSASAFASTRGNAFSGPAEGVQWNPEDWRTVLGDME SAVLKLDFSRSLDSWPALREQSTFNVTVAESNVICAHPQRRDDHLFRESPTESARDAHPK RLASAFPEMRDYLRTARLRWIVDRCFQFKDGESSEWTYEICVGKKVTQFAGNQKAGKTIG KTLLEWGTYKIGHDQLWANGTLSQTYGDGTGGRQTEVFFECRDQYPTVTAIEEVRANELR MWVGASMFCDFRPSNPAPPLLETLLRPMEGWCANFTTSGFWSYEYCHPDSLVQFHKDSSG DIHGPMFLLGTLHRSGLSSNSMWKTVASADFPILRGKGAGVNTHGSPKFRFLPVQLADFP SEIDKGREEKPQQILAMELTNGTRCEGTDVQRSTRVLFECPEDFATLGTHQVMKVMEGSP GSAVEPGLEAIPSSYLPDGRVSLNGSHFGMRQYQRHRSSWKNPAFRVGRLVRHRWSKYTA VVLSWDRSCEAPPEWIAKVYEHYPEASSQKPHYLLLVNQAVVTEPQQPLFTYVPEVSSFC RGTPEIESVL

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
	NCLIV_012050	298 S	ASTTSTRRS	0.995	unsp	NCLIV_012050	298 S	ASTTSTRRS	0.995	unsp	NCLIV_012050	298 S	ASTTSTRRS	0.995	unsp	NCLIV_012050	302 S	STRRSREPL	0.997	unsp	NCLIV_012050	307 S	REPLSTSRA	0.991	unsp	NCLIV_012050	542 S	CRAPSWDER	0.994	unsp	NCLIV_012050	555 S	LPARSEEGG	0.991	unsp	NCLIV_012050	589 S	VSADSGERE	0.996	unsp	NCLIV_012050	608 S	MRPASSGVA	0.991	unsp	NCLIV_012050	627 S	VLSFSPSED	0.995	unsp	NCLIV_012050	681 S	GLSSSQERS	0.996	unsp	NCLIV_012050	718 S	SQCVSPGDA	0.997	unsp	NCLIV_012050	731 S	TCAASPSFS	0.992	unsp	NCLIV_012050	779 S	SSKVSDSDP	0.996	unsp	NCLIV_012050	818 S	SLPASPSGQ	0.994	unsp	NCLIV_012050	1254 S	KVSSSTVDA	0.997	unsp	NCLIV_012050	1345 S	SLKLSTGEG	0.993	unsp	NCLIV_012050	1535 S	GFPRSLRDA	0.997	unsp	NCLIV_012050	1715 S	QKKESQAEG	0.996	unsp	NCLIV_012050	1723 S	GDEESPCDA	0.995	unsp	NCLIV_012050	1778 S	TRQPSPERS	0.998	unsp	NCLIV_012050	1802 S	MSAGSVRRS	0.996	unsp	NCLIV_012050	1806 S	SVRRSRDCP	0.995	unsp	NCLIV_012050	1842 S	TGRSSQKAG	0.998	unsp	NCLIV_012050	1910 S	RDRTSVRDA	0.998	unsp	NCLIV_012050	1975 S	RPPLSPSVP	0.992	unsp	NCLIV_012050	2148 S	MGRGSPVKD	0.995	unsp	NCLIV_012050	2191 S	VSSSSPGSS	0.996	unsp	NCLIV_012050	2195 S	SPGSSPIKA	0.993	unsp	NCLIV_012050	2356 S	LTGDSWKGA	0.996	unsp	NCLIV_012050	2753 S	TAAPSPEQA	0.996	unsp	NCLIV_012050	2759 S	EQAGSRGEG	0.99	unsp	NCLIV_012050	99 S	VPDPSGVDA	0.995	unsp	NCLIV_012050	2845 S	ELGASPRDP	0.998	unsp	NCLIV_012050	2883 S	QPRASLGGA	0.994	unsp	NCLIV_012050	2892 S	EVAASQKKP	0.993	unsp	NCLIV_012050	3225 S	KKKASGQEA	0.995	unsp	NCLIV_012050	3284 S	RTAKSVKPA	0.991	unsp	NCLIV_012050	3453 S	FSRPSPTGM	0.994	unsp	NCLIV_012050	3709 S	LFRESPTES	0.996	unsp	NCLIV_012050	3713 S	SPTESARDA	0.995	unsp	NCLIV_012050	3753 S	KDGESSEWT	0.993	unsp	NCLIV_012050	4059 S	RHRSSWKNP	0.998	unsp	NCLIV_012050	205 S	QGSVSLRDA	0.996	unsp

NCLIV_012050 | putative ubiquitin carboxyl-terminal hydrolase

ID's

UniProt_ID: F0V9X6

GEO Functions

Computed_GO_Component_IDs:

Computed_GO_Components:

Computed_GO_Function_IDs: GO:0003677 GO:0036459

Computed_GO_Functions: DNA binding thiol-dependent ubiquitinyl hydrolase activity

Computed_GO_Process_IDs: GO:0016579

Computed_GO_Processes: protein deubiquitination

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

Literature

PubMed

Google Scholar

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