hypothetical protein YQE_10194 partial, snap_masked-scaffold380_size190731-processed-gene-0.7 (gene) Tigriopus kingsejongensis

Overview
Namehypothetical protein YQE_10194 partial
Unique Namesnap_masked-scaffold380_size190731-processed-gene-0.7
Typegene
OrganismTigriopus kingsejongensis (Tigriopus kingsejongensis)
Associated RNAi Experiments

Nothing found

Homology
BLAST of hypothetical protein YQE_10194 partial vs. L. salmonis genes
Match: EMLSAG00000004636 (supercontig:LSalAtl2s:LSalAtl2s241:1947:4259:-1 gene:EMLSAG00000004636 transcript:EMLSAT00000004636 description:"maker-LSalAtl2s241-snap-gene-0.4")

HSP 1 Score: 166.007 bits (419), Expect = 3.134e-47
Identity = 76/124 (61.29%), Postives = 98/124 (79.03%), Query Frame = 0
Query:   67 ESSKESPESQHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSE-GQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVEF 189
            E SK   + Q  CLKW +YQ+NLT+VFD LLQ EAFVDVT+++E G+ +KCHKVVLSACS YFQ+L  +NP QHPIVILRD+ W +L +I+EYMYKG+I+V   +L  +L+SAE+L IRGLV+ 
Sbjct:   21 ELSKTPEDQQQLCLKWADYQSNLTNVFDSLLQQEAFVDVTISTEAGKSLKCHKVVLSACSAYFQNLFVENPCQHPIVILRDVEWRELCHIIEYMYKGQIHVGPGDLSPLLRSAESLQIRGLVDL 144          
BLAST of hypothetical protein YQE_10194 partial vs. L. salmonis genes
Match: EMLSAG00000001548 (supercontig:LSalAtl2s:LSalAtl2s126:209647:210033:1 gene:EMLSAG00000001548 transcript:EMLSAT00000001548 description:"augustus_masked-LSalAtl2s126-processed-gene-2.5")

HSP 1 Score: 142.895 bits (359), Expect = 3.128e-40
Identity = 60/115 (52.17%), Postives = 88/115 (76.52%), Query Frame = 0
Query:   74 ESQHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVE 188
            + Q +CL+WN++QTN+ S F  L   ++F DVTL  +GQ  K HK+VLSACSPYF++LL +NP++HPI+IL+D+ +  L  I+E+MY GE+NV+ D+LP+ LK+AE L ++GL E
Sbjct:    6 DQQQFCLRWNDFQTNMVSSFKHLRDEKSFTDVTLACDGQTCKAHKMVLSACSPYFKALLEENPAKHPIIILKDVPFQHLTAILEFMYAGEVNVAQDQLPAFLKTAERLKVKGLAE 120          
BLAST of hypothetical protein YQE_10194 partial vs. L. salmonis genes
Match: EMLSAG00000002455 (supercontig:LSalAtl2s:LSalAtl2s1471:52173:56863:1 gene:EMLSAG00000002455 transcript:EMLSAT00000002455 description:"maker-LSalAtl2s1471-snap-gene-0.12")

HSP 1 Score: 152.91 bits (385), Expect = 1.918e-39
Identity = 66/114 (57.89%), Postives = 88/114 (77.19%), Query Frame = 0
Query:   76 QHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVEF 189
            Q YCL+WNN+Q NL SVF+ LL  EAFVDVTL  EG  +K HK+VLSACSPYFQS+L + P +HPIV LRD+ ++++K ++E+MY+GE++V  + L S+LK AE L I+GL E 
Sbjct:    8 QQYCLRWNNHQHNLLSVFEDLLNHEAFVDVTLAVEGLQLKAHKMVLSACSPYFQSMLYNTPDRHPIVFLRDVRYSEMKALLEFMYRGEVSVDQENLSSLLKVAEGLKIKGLAEV 121          
BLAST of hypothetical protein YQE_10194 partial vs. L. salmonis genes
Match: EMLSAG00000007481 (supercontig:LSalAtl2s:LSalAtl2s42:537429:544881:1 gene:EMLSAG00000007481 transcript:EMLSAT00000007481 description:"maker-LSalAtl2s42-augustus-gene-5.9")

HSP 1 Score: 144.821 bits (364), Expect = 4.897e-37
Identity = 63/121 (52.07%), Postives = 90/121 (74.38%), Query Frame = 0
Query:   76 QHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVEFGAKGQGD 196
            Q +CLKWNN+++ + SVFD LL+ E+ VDVTLT+EGQ ++ HKV+LSACSPYF+ +      +HP++ ++++ + +LK +VEYMYKGE NV    LPS +++AE+L IRGL E GA  Q D
Sbjct:    5 QQFCLKWNNHRSTILSVFDTLLEEESLVDVTLTAEGQFLRAHKVILSACSPYFRIMFRAANEKHPVIYMQNVDFENLKALVEYMYKGEANVPQHMLPSFIRTAESLQIRGLAE-GASHQYD 124          
BLAST of hypothetical protein YQE_10194 partial vs. L. salmonis genes
Match: EMLSAG00000009541 (supercontig:LSalAtl2s:LSalAtl2s613:57802:64681:-1 gene:EMLSAG00000009541 transcript:EMLSAT00000009541 description:"maker-LSalAtl2s613-snap-gene-0.15")

HSP 1 Score: 137.887 bits (346), Expect = 2.923e-35
Identity = 60/113 (53.10%), Postives = 85/113 (75.22%), Query Frame = 0
Query:   76 QHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVE 188
            Q YCLKWNN+QTNL  VF++LL +E F DV L +EG+ ++ HKVVLSACS YF+ L +    ++ IVIL+D  ++DL  I+E+MYKGEI++  ++L S+LK+AE L ++GL E
Sbjct:   11 QQYCLKWNNHQTNLLKVFNRLLGSEQFTDVLLAAEGRTLRGHKVVLSACSSYFEQLFSSFNEKNQIVILKDTKFDDLAAIIEFMYKGEISIIQEQLSSLLKTAENLKVKGLAE 123          
BLAST of hypothetical protein YQE_10194 partial vs. L. salmonis genes
Match: EMLSAG00000003038 (supercontig:LSalAtl2s:LSalAtl2s1728:22097:26590:1 gene:EMLSAG00000003038 transcript:EMLSAT00000003038 description:"maker-LSalAtl2s1728-augustus-gene-0.10")

HSP 1 Score: 136.732 bits (343), Expect = 2.481e-34
Identity = 59/112 (52.68%), Postives = 81/112 (72.32%), Query Frame = 0
Query:   76 QHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLV 187
            QHY L+WNN+Q ++ S FD LLQ EA VD TL  E   ++ HKVVLSACSPYFQ +  DN  +HPI++L+DI   + + IV++MYKGE +V   +L S++K+AE+L +RGL 
Sbjct:    4 QHYSLRWNNHQXHVLSAFDTLLQNEALVDCTLVCEDTSVRAHKVVLSACSPYFQKIFTDNVCKHPIIVLKDIKGWEAQCIVDFMYKGETSVPESQLTSLIKAAESLKVRGLT 115          
BLAST of hypothetical protein YQE_10194 partial vs. L. salmonis genes
Match: EMLSAG00000006827 (supercontig:LSalAtl2s:LSalAtl2s385:122699:145346:1 gene:EMLSAG00000006827 transcript:EMLSAT00000006827 description:"maker-LSalAtl2s385-augustus-gene-1.13")

HSP 1 Score: 136.346 bits (342), Expect = 3.191e-34
Identity = 58/114 (50.88%), Postives = 83/114 (72.81%), Query Frame = 0
Query:   75 SQHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVE 188
            S+ +CLKWNNYQ+N+ S    L   E FVDVTL+ EG+ IK HKV+LSACS YF+ +  + P  HPI+IL+D  ++DL+ +V+Y+Y+G+  +S + L S LK+A+AL I+GL E
Sbjct:    3 SEQFCLKWNNYQSNIVSALGNLKLDEDFVDVTLSCEGRTIKAHKVILSACSLYFRDVFRETPCNHPIIILKDTQYSDLESLVKYVYQGQXYISQENLSSFLKTADALQIKGLAE 116          
BLAST of hypothetical protein YQE_10194 partial vs. L. salmonis genes
Match: EMLSAG00000005406 (supercontig:LSalAtl2s:LSalAtl2s290:493651:518008:1 gene:EMLSAG00000005406 transcript:EMLSAT00000005406 description:"maker-LSalAtl2s290-augustus-gene-5.21")

HSP 1 Score: 128.257 bits (321), Expect = 1.372e-32
Identity = 59/115 (51.30%), Postives = 84/115 (73.04%), Query Frame = 0
Query:   76 QHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLT-SEGQVIKCHKVVLSACSPYFQSLLAD-NPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVE 188
            Q YCLKWNNY  ++TS F  +L  E FVDV+L  S+G  +K H+VVL+ACS YF+ +L   +  QHP+++L+D+ + DL+ IVE++Y GE++V  D LPS+LKSAE L ++GL E
Sbjct:   15 QQYCLKWNNYAASVTSTFKNILDGEDFVDVSLVASKGHALKAHRVVLAACSVYFREILKGLSLWQHPVIVLKDVPFTDLQGIVEFIYHGEVSVDQDALPSLLKSAEILKVKGLTE 129          
BLAST of hypothetical protein YQE_10194 partial vs. L. salmonis genes
Match: EMLSAG00000011119 (supercontig:LSalAtl2s:LSalAtl2s753:172698:206363:1 gene:EMLSAG00000011119 transcript:EMLSAT00000011119 description:"augustus_masked-LSalAtl2s753-processed-gene-1.0")

HSP 1 Score: 120.168 bits (300), Expect = 2.141e-31
Identity = 55/109 (50.46%), Postives = 73/109 (66.97%), Query Frame = 0
Query:   80 LKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVE 188
            LKW+ Y  +L + F  L + E FVDVTL    Q    HKVVLSACSPYF+ LL  NP  HPI+ILRD+   D++ ++++MY GE+ +S D +   LK+AE+L IRGL E
Sbjct:   45 LKWDQYPQSLVNSFRDLKEEEDFVDVTLACNSQQFNAHKVVLSACSPYFRKLLKSNPCHHPIIILRDVVEIDIESLLKFMYNGEVQISEDRIKDFLKTAESLQIRGLAE 153          
BLAST of hypothetical protein YQE_10194 partial vs. L. salmonis genes
Match: EMLSAG00000010252 (supercontig:LSalAtl2s:LSalAtl2s67:813352:817116:1 gene:EMLSAG00000010252 transcript:EMLSAT00000010252 description:"maker-LSalAtl2s67-augustus-gene-8.26")

HSP 1 Score: 124.405 bits (311), Expect = 6.253e-31
Identity = 56/121 (46.28%), Postives = 85/121 (70.25%), Query Frame = 0
Query:   69 SKESPESQHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTL-TSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVE 188
            S ++ +SQ YCLKWNN+  N++   ++L   E FVDVTL T++ + IKCHK++LSA S Y + +L++NPS HP ++L  I +NDLK ++++MY GE+ V  D L  +L +A+ L I+GL E
Sbjct:    2 SVQAFKSQQYCLKWNNHNKNVSGFLERLRTLEQFVDVTLFTADQKSIKCHKILLSASSVYLEDILSNNPSDHPTIVLSQIYYNDLKLLIDFMYAGEVFVEQDCLVKLLDAAKVLKIKGLYE 122          
BLAST of hypothetical protein YQE_10194 partial vs. SwissProt
Match: gi|47115846|sp|Q8R179.1|KBTB4_MOUSE (RecName: Full=Kelch repeat and BTB domain-containing protein 4; AltName: Full=BTB and kelch domain-containing protein 4)

HSP 1 Score: 63.1586 bits (152), Expect = 4.226e-9
Identity = 28/94 (29.79%), Postives = 58/94 (61.70%), Query Frame = 0
Query:   97 LQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADN--PSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVE 188
            L+ E F DVT++ EG+  + H++VLSA S +F+S+   N   + + +++L+D++ +  + +V+Y+Y G + +  DEL  + + ++   +  L E
Sbjct:   55 LEEELFADVTISVEGREFQLHRLVLSAQSCFFRSMFTSNLKEAHNRVIVLQDVSESVFQLLVDYIYHGTVKLRADELQEIYEVSDMYQLTSLFE 148          
BLAST of hypothetical protein YQE_10194 partial vs. SwissProt
Match: gi|82185952|sp|Q6NYM1.1|KLH21_DANRE (RecName: Full=Kelch-like protein 21)

HSP 1 Score: 62.7734 bits (151), Expect = 6.039e-9
Identity = 30/99 (30.30%), Postives = 54/99 (54.55%), Query Frame = 0
Query:   87 TNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPI--VILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNI 183
             NL     +L     F DVTL +EG+   CH+ VL+A S YF+++ A    +  +  V+L +++   L  +V++ Y G + V++D +  +LK+A+    
Sbjct:   22 VNLLRGIHELRAERKFFDVTLCAEGKEFHCHRTVLAAASMYFRAMFAGTLRESVMDRVVLHEVSAELLGLLVDFCYTGRVTVTHDNVDLLLKTADLFQF 120          
BLAST of hypothetical protein YQE_10194 partial vs. SwissProt
Match: gi|126253842|sp|Q811F1.4|ZBT41_MOUSE (RecName: Full=Zinc finger and BTB domain-containing protein 41)

HSP 1 Score: 62.003 bits (149), Expect = 1.111e-8
Identity = 34/106 (32.08%), Postives = 59/106 (55.66%), Query Frame = 0
Query:   85 YQTNLTSVFDQLLQTE-AFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVEF 189
            Y  NL    +   Q + +F D+ +  EG+    HKVV++  S YF + L+ NPS   +V L  +T +  ++++E++Y  E  V   E+P VL++A+ L+I   V+ 
Sbjct:   70 YNKNLLKYLNDDRQKQPSFCDLLIIVEGKEFSAHKVVVAVGSSYFHACLSKNPST-DVVTLDHVTHSVFQHLLEFLYTSEFFVYKYEIPLVLEAAKFLDIIDAVKL 174          
BLAST of hypothetical protein YQE_10194 partial vs. SwissProt
Match: gi|81882416|sp|Q56A24.1|KLH24_RAT (RecName: Full=Kelch-like protein 24; AltName: Full=Kainate receptor-interacting protein for GluR6; Short=KRIP6; AltName: Full=Protein DRE1 >gi|118572491|sp|Q8BRG6.2|KLH24_MOUSE RecName: Full=Kelch-like protein 24; AltName: Full=Kainate receptor-interacting protein for GluR6; Short=KRIP6)

HSP 1 Score: 61.6178 bits (148), Expect = 1.239e-8
Identity = 37/148 (25.00%), Postives = 74/148 (50.00%), Query Frame = 0
Query:   47 SPPSSLKITEDNPPEDLSPPESSKESPESQHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADN--PSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVEFGAK 192
            SP +  K+ E +P + L+  E    S  S H          N+  +F++   +  F DV +  EG+   CH+ VLSACS YF+++  ++   S+  +V +  I    ++  ++Y+Y G++ ++ + +  + +++    I  L +  AK
Sbjct:   19 SPATKRKVFEMDP-KSLTGHEYFDFSSGSSH--------AENILQIFNEFRDSRLFTDVIICVEGKEFPCHRAVLSACSSYFRAMFCNDHRESREMLVEINGILAEAMECFLQYVYTGKVKITTENVQYLFETSSLFQISVLRDACAK 157          
BLAST of hypothetical protein YQE_10194 partial vs. SwissProt
Match: gi|74756116|sp|Q5SVQ8.1|ZBT41_HUMAN (RecName: Full=Zinc finger and BTB domain-containing protein 41)

HSP 1 Score: 62.003 bits (149), Expect = 1.297e-8
Identity = 34/106 (32.08%), Postives = 59/106 (55.66%), Query Frame = 0
Query:   85 YQTNLTSVFDQLLQTE-AFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVEF 189
            Y  NL    +   Q + +F D+ +  EG+    HKVV++  S YF + L+ NPS   +V L  +T +  ++++E++Y  E  V   E+P VL++A+ L+I   V+ 
Sbjct:   69 YNKNLLKYLNDDRQKQPSFCDLLIIVEGKEFSAHKVVVAVGSSYFHACLSKNPST-DVVTLDHVTHSVFQHLLEFLYTSEFFVYKYEIPLVLEAAKFLDIIDAVKL 173          
BLAST of hypothetical protein YQE_10194 partial vs. nr
Match: gi|1026572359|gb|OAD59607.1| (hypothetical protein WN48_08715 [Eufriesea mexicana])

HSP 1 Score: 183.341 bits (464), Expect = 3.667e-50
Identity = 83/135 (61.48%), Postives = 102/135 (75.56%), Query Frame = 0
Query:  476 KQPSWSQEQLQEAIYSVITQKMRFTQASSRYGIPKGTLYDNILGKSNRMKALEEIALGHEQEIGILEFCCEISMMPYNRRTSRSLPAVIAFVENLINRTKSRKLGGEFKFNLRKGFRWWWAFCKKYSIISLYFDN 610
            K P+W++  LQEAI +V+TQKMRFTQAS++YGIPKGTLYDNILGK+ RM  LEE  L   +E  +LEFCC+IS+ PYNRRT +SL A++ FVE L      RK    F FN   GFRWWWAFCKK+SI+SLYF++
Sbjct:   52 KAPTWTRHDLQEAIEAVVTQKMRFTQASTKYGIPKGTLYDNILGKTKRMMVLEEAGLNSSEETAVLEFCCDISVSPYNRRTKKSLNAILNFVEKL-----RRKRDPNFVFNGLSGFRWWWAFCKKHSIVSLYFND 181          
BLAST of hypothetical protein YQE_10194 partial vs. nr
Match: gi|607364713|gb|EZA58917.1| (hypothetical protein X777_16876 [Ooceraea biroi])

HSP 1 Score: 182.57 bits (462), Expect = 3.750e-50
Identity = 82/135 (60.74%), Postives = 101/135 (74.81%), Query Frame = 0
Query:  476 KQPSWSQEQLQEAIYSVITQKMRFTQASSRYGIPKGTLYDNILGKSNRMKALEEIALGHEQEIGILEFCCEISMMPYNRRTSRSLPAVIAFVENLINRTKSRKLGGEFKFNLRKGFRWWWAFCKKYSIISLYFDN 610
            K P+W++  LQEAI +V+ QKMRFTQAS++YGIPKGTLYDNILGKS RM  LEE  L   +E  +LEFCC+IS+ PYNRRT +SL A++ FVE L      RK    F F+   GFRWWWAFCKK+SI+SLYF++
Sbjct:   31 KAPTWTRHDLQEAIEAVVNQKMRFTQASTKYGIPKGTLYDNILGKSKRMMILEEAGLDPSEETAVLEFCCDISVSPYNRRTKKSLNAILNFVERL-----RRKRDPTFMFSGLAGFRWWWAFCKKHSIVSLYFND 160          
BLAST of hypothetical protein YQE_10194 partial vs. nr
Match: gi|1016157613|gb|KZC04775.1| (Protein bric-a-brac 2 [Dufourea novaeangliae])

HSP 1 Score: 186.808 bits (473), Expect = 4.281e-49
Identity = 90/175 (51.43%), Postives = 120/175 (68.57%), Query Frame = 0
Query:   76 QHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVEFGAKGQGDLLNLSQDMVLRPTNTKFPPPLVDYRPHKRKRTDSLSCDGPPHPGPAQQAPGSMP 250
            Q +CL+WNNYQTNLT+VFDQLLQ+E+FVDVTL  +G  +K HK+VLSACSPYFQ+L  DNP QHPIVI++DI W +LK  VE+MYKGEINVS +++  +LK AE+L IRGL +         +N  Q++  RP+  +       +R  +R+ +   S   PP   P + APGS+P
Sbjct:   12 QQFCLRWNNYQTNLTNVFDQLLQSESFVDVTLACDGHSVKAHKMVLSACSPYFQALFFDNPCQHPIVIMKDIKWPELKAAVEFMYKGEINVSQEQIGPLLKVAESLKIRGLAD---------VNSEQELTSRPSLEEVANAAAMHRKKRRRISGERS---PPGSSPDRVAPGSLP 174          
BLAST of hypothetical protein YQE_10194 partial vs. nr
Match: gi|1274144665|ref|XP_022832724.1| (protein bric-a-brac 1-like isoform X2 [Spodoptera litura])

HSP 1 Score: 188.348 bits (477), Expect = 5.024e-49
Identity = 113/290 (38.97%), Postives = 158/290 (54.48%), Query Frame = 0
Query:   61 EDLSPPESSKESPESQHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVEFGAKGQGDLLNLSQDMVLRPTNTKFPPPLVDYRPHKRKRTDSLSCDGPPHPGPAQQAPGSMPYPTNSREKSRSPPAYPAHVGGPASPFHARGSHASHSPPSSRGTPQTGAHPPS--LLSLSNNKSMMMDDLSDVKPGIMELIQEERRAKLLEASQITQSWMN 348
            ED +  E  + S   Q +CL+WNNYQ+NLTS FDQLLQT++FVDVTL+ +GQ +K HKVVLSACSPYFQSL  DNP QHPI+I+RD  + DLK  V++MY+GEINVS +++P++LK AE+L IRGL +    G+  ++        RP  ++      D  P  R+R       G                                            GS  +H P  S  TP +   PP+  +++      M  +D+ D++PGI E+I+EE RAK++E S   Q+W+ 
Sbjct:    5 EDPAAMECREPSDSPQQFCLRWNNYQSNLTSSFDQLLQTQSFVDVTLSCDGQSLKAHKVVLSACSPYFQSLFMDNPCQHPIIIMRDTKYCDLKAAVDFMYRGEINVSQEQIPALLKVAESLKIRGLTDVS--GEHAVVQPGGRSAKRPDRSRE----ADSPPKSRRRMSEDRASG--------------------------------------------GSSRAHQPTPS-PTPASDLLPPTEPVIATPVMPPMHPEDV-DIRPGIAEMIREEERAKMIENS---QAWLG 239          
BLAST of hypothetical protein YQE_10194 partial vs. nr
Match: gi|913308468|ref|XP_013184772.1| (PREDICTED: protein bric-a-brac 2-like [Amyelois transitella])

HSP 1 Score: 181.03 bits (458), Expect = 5.134e-49
Identity = 96/206 (46.60%), Postives = 121/206 (58.74%), Query Frame = 0
Query:   67 ESSKESPESQHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVEFGAKGQGDLLNLSQDMVLRPTNTKFPPPLVDYRPHKRKRTDSLSCD---GPPHPGPAQQAPGSMPYPTNSREKSRSPPAYPAHV 269
            ES     E Q +CL+WNNYQTNLT+ FDQLL+T++FVDVTL+ EGQ +K HKVVLSACSPYFQSLL DNP  HPI+I+RDI ++DLK +V++MY+GEINV+ D++ ++L  A  L +RGL +  A             VLRP             P K +R  S        P  PGPA   PG  P       +   P A P H 
Sbjct:   11 ESRDVDGEPQQFCLRWNNYQTNLTNCFDQLLRTQSFVDVTLSCEGQSLKAHKVVLSACSPYFQSLLMDNPCNHPIIIMRDIKFSDLKSLVDFMYRGEINVAQDQIQALLNVAGTLKVRGLADVSA----------DHAVLRPPKRPTSGSERSESPSKTRRRGSSEHSPRRSPSTPGPALSVPGPGPEREGGEREHAGPAALPLHA 206          
BLAST of hypothetical protein YQE_10194 partial vs. nr
Match: gi|332026650|gb|EGI66759.1| (hypothetical protein G5I_04563 [Acromyrmex echinatior])

HSP 1 Score: 181.415 bits (459), Expect = 5.299e-49
Identity = 83/135 (61.48%), Postives = 101/135 (74.81%), Query Frame = 0
Query:  476 KQPSWSQEQLQEAIYSVITQKMRFTQASSRYGIPKGTLYDNILGKSNRMKALEEIALGHEQEIGILEFCCEISMMPYNRRTSRSLPAVIAFVENLINRTKSRKLGGEFKFNLRKGFRWWWAFCKKYSIISLYFDN 610
            K P+W++  LQEAI +V+TQKMRFTQAS++YGIPKGTLYDNILGKS RM  LEE AL   +E  +LEFCC+IS+ PYNRRT +SL A++ FVE L      RK    F F    GFRWWWAFCKK+SI+SLY ++
Sbjct:   84 KAPTWTRHDLQEAIEAVVTQKMRFTQASTKYGIPKGTLYDNILGKSKRMMILEETALNSNEETAVLEFCCDISVSPYNRRTKKSLNAILNFVERL-----RRKHDPGFMFTGLSGFRWWWAFCKKHSIVSLYIND 213          
BLAST of hypothetical protein YQE_10194 partial vs. nr
Match: gi|555902|gb|AAA50834.1| (BTB-II protein domain, partial [Drosophila melanogaster])

HSP 1 Score: 177.178 bits (448), Expect = 6.778e-49
Identity = 76/113 (67.26%), Postives = 96/113 (84.96%), Query Frame = 0
Query:   76 QHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVE 188
            Q +CL+WNNYQ+NLT+VFD+LLQ+E+FVDVTL+ EG  IK HK+VLSACSPYFQ+L  DNP QHPI+I+RD++W+DLK +VE+MYKGEINV  D++  +LK AE L IRGL E
Sbjct:    1 QQFCLRWNNYQSNLTNVFDELLQSESFVDVTLSCEGHSIKAHKMVLSACSPYFQALFYDNPCQHPIIIMRDVSWSDLKALVEFMYKGEINVCQDQINPLLKVAETLKIRGLAE 113          
BLAST of hypothetical protein YQE_10194 partial vs. nr
Match: gi|515970|gb|AAA87052.1| (BTB domain, partial [Drosophila melanogaster])

HSP 1 Score: 177.563 bits (449), Expect = 7.021e-49
Identity = 75/114 (65.79%), Postives = 96/114 (84.21%), Query Frame = 0
Query:   75 SQHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVE 188
            SQ +CL+WNNYQTNLT++FDQLLQ E FVDVTL  +G+ +K HK+VLSACSPYFQ+LLA+ P QHPIVI+RD+ W+DLK IVE+MY+GEINVS D++  +L+ AE L +RGL +
Sbjct:    1 SQQFCLRWNNYQTNLTTIFDQLLQNECFVDVTLACDGRSMKAHKMVLSACSPYFQTLLAETPCQHPIVIMRDVNWSDLKAIVEFMYRGEINVSQDQIGPLLRIAEMLKVRGLAD 114          
BLAST of hypothetical protein YQE_10194 partial vs. nr
Match: gi|1009368632|gb|KYM93477.1| (hypothetical protein ALC62_15835 [Cyphomyrmex costatus])

HSP 1 Score: 179.104 bits (453), Expect = 1.009e-48
Identity = 83/135 (61.48%), Postives = 101/135 (74.81%), Query Frame = 0
Query:  476 KQPSWSQEQLQEAIYSVITQKMRFTQASSRYGIPKGTLYDNILGKSNRMKALEEIALGHEQEIGILEFCCEISMMPYNRRTSRSLPAVIAFVENLINRTKSRKLGGEFKFNLRKGFRWWWAFCKKYSIISLYFDN 610
            K P+W++  LQEAI +V+TQKMRFTQAS++YGIPKGTLYDNILGKS RM  LEE AL   +E  +LEFCC+IS+ PYNRRT +SL A++ FVE L      RK    F F    GFRWWWAFCKK+SI+SLY ++
Sbjct:   42 KAPTWTRHDLQEAIEAVVTQKMRFTQASTKYGIPKGTLYDNILGKSKRMMILEETALDPSEESAVLEFCCDISVSPYNRRTKKSLNAILNFVERL-----RRKHDPGFMFTGLSGFRWWWAFCKKHSIVSLYIND 171          
BLAST of hypothetical protein YQE_10194 partial vs. nr
Match: gi|1004402038|gb|KYB28743.1| (hypothetical protein TcasGA2_TC031038 [Tribolium castaneum])

HSP 1 Score: 189.889 bits (481), Expect = 1.281e-48
Identity = 115/281 (40.93%), Postives = 160/281 (56.94%), Query Frame = 0
Query:   76 QHYCLKWNNYQTNLTSVFDQLLQTEAFVDVTLTSEGQVIKCHKVVLSACSPYFQSLLADNPSQHPIVILRDITWNDLKYIVEYMYKGEINVSYDELPSVLKSAEALNIRGLVEFGAKGQGDLLNLSQDMVLRPTNTKFPPPLVDYRPHKRKRTDSLSC----DGPPHPGPAQQAPG-----SMPYPTNSREKSRSPPAYPAHVGGPASPFHARGSHASHSPPSSRGTPQTGAHPPSLLSLSNNKSMMMDDLSDVKPGIMELIQEERRAKLLEASQITQSWM 347
            Q +CL+WNNYQ+NLT+VFDQLLQ+E+FVDVTL  +G  +K HK+VLSACSPYFQSL  +NP QHPIVI+RDI W +LK  VE+MYKGEINVS +++  +LK AE+L IRGL +    G+ D++  + ++    T+T+    L+         +    C    DGPP     ++  G     S P  + S E    PP+        A+P  +  S+               +H  S            DD+ ++KPGI E+I+EE RAKLLE+S    +W+
Sbjct:  130 QQFCLRWNNYQSNLTNVFDQLLQSESFVDVTLACDGHSVKAHKMVLSACSPYFQSLFFENPCQHPIVIMRDIKWPELKAAVEFMYKGEINVSQEQIGPLLKVAESLKIRGLAD--VNGEQDIVAPTGELT---TSTR---TLLKTASTPNNGSGEWECRPEGDGPPRVKKRRRPSGERSSLSSPAESASTEIPDPPPSVEMSPAPSATPLPSSVSNEPLPLTLPLPQQPQVSHASS------------DDM-EIKPGIAEMIREEERAKLLESS---HAWL 386          

HSP 2 Score: 183.341 bits (464), Expect = 2.326e-46
Identity = 83/135 (61.48%), Postives = 102/135 (75.56%), Query Frame = 0
Query:  476 KQPSWSQEQLQEAIYSVITQKMRFTQASSRYGIPKGTLYDNILGKSNRMKALEEIALGHEQEIGILEFCCEISMMPYNRRTSRSLPAVIAFVENLINRTKSRKLGGEFKFNLRKGFRWWWAFCKKYSIISLYFDN 610
            K P+W+QEQL+EAI +V+ QKMRFTQAS+RYGIPKGTLYDNILGKS RM  LEE  L   +E  +LEFCC++S+ PYNRRT +SL +V+ FVE L      R    EF F    GFRWWWAFCKK++I+SLY++N
Sbjct:  403 KTPTWTQEQLKEAIDAVVKQKMRFTQASARYGIPKGTLYDNILGKSKRMAVLEEAGLTPSEEAAVLEFCCDVSVSPYNRRTKKSLQSVLNFVEKL-----RRARDPEFIFTGLSGFRWWWAFCKKHNIVSLYYEN 532          
The following BLAST results are available for this feature:
BLAST of hypothetical protein YQE_10194 partial vs. L. salmonis genes
Analysis Date: 2018-04-19 (T. kinsejongensis vs L. Salmonis peptides)
Total hits: 25
Match NameE-valueIdentityDescription
EMLSAG000000046363.134e-4761.29supercontig:LSalAtl2s:LSalAtl2s241:1947:4259:-1 ge... [more]
EMLSAG000000015483.128e-4052.17supercontig:LSalAtl2s:LSalAtl2s126:209647:210033:1... [more]
EMLSAG000000024551.918e-3957.89supercontig:LSalAtl2s:LSalAtl2s1471:52173:56863:1 ... [more]
EMLSAG000000074814.897e-3752.07supercontig:LSalAtl2s:LSalAtl2s42:537429:544881:1 ... [more]
EMLSAG000000095412.923e-3553.10supercontig:LSalAtl2s:LSalAtl2s613:57802:64681:-1 ... [more]
EMLSAG000000030382.481e-3452.68supercontig:LSalAtl2s:LSalAtl2s1728:22097:26590:1 ... [more]
EMLSAG000000068273.191e-3450.88supercontig:LSalAtl2s:LSalAtl2s385:122699:145346:1... [more]
EMLSAG000000054061.372e-3251.30supercontig:LSalAtl2s:LSalAtl2s290:493651:518008:1... [more]
EMLSAG000000111192.141e-3150.46supercontig:LSalAtl2s:LSalAtl2s753:172698:206363:1... [more]
EMLSAG000000102526.253e-3146.28supercontig:LSalAtl2s:LSalAtl2s67:813352:817116:1 ... [more]

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BLAST of hypothetical protein YQE_10194 partial vs. SwissProt
Analysis Date: 2018-04-19 (T. kingejongensis peptided Blastp vs. SwissProt)
Total hits: 25
Match NameE-valueIdentityDescription
gi|47115846|sp|Q8R179.1|KBTB4_MOUSE4.226e-929.79RecName: Full=Kelch repeat and BTB domain-containi... [more]
gi|82185952|sp|Q6NYM1.1|KLH21_DANRE6.039e-930.30RecName: Full=Kelch-like protein 21[more]
gi|126253842|sp|Q811F1.4|ZBT41_MOUSE1.111e-832.08RecName: Full=Zinc finger and BTB domain-containin... [more]
gi|81882416|sp|Q56A24.1|KLH24_RAT1.239e-825.00RecName: Full=Kelch-like protein 24; AltName: Full... [more]
gi|74756116|sp|Q5SVQ8.1|ZBT41_HUMAN1.297e-832.08RecName: Full=Zinc finger and BTB domain-containin... [more]

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BLAST of hypothetical protein YQE_10194 partial vs. nr
Analysis Date: 2018-05-15 (T. kingsejongensis proteins Blastp vs. NR)
Total hits: 25
Match NameE-valueIdentityDescription
gi|1026572359|gb|OAD59607.1|3.667e-5061.48hypothetical protein WN48_08715 [Eufriesea mexican... [more]
gi|607364713|gb|EZA58917.1|3.750e-5060.74hypothetical protein X777_16876 [Ooceraea biroi][more]
gi|1016157613|gb|KZC04775.1|4.281e-4951.43Protein bric-a-brac 2 [Dufourea novaeangliae][more]
gi|1274144665|ref|XP_022832724.1|5.024e-4938.97protein bric-a-brac 1-like isoform X2 [Spodoptera ... [more]
gi|913308468|ref|XP_013184772.1|5.134e-4946.60PREDICTED: protein bric-a-brac 2-like [Amyelois tr... [more]
gi|332026650|gb|EGI66759.1|5.299e-4961.48hypothetical protein G5I_04563 [Acromyrmex echinat... [more]
gi|555902|gb|AAA50834.1|6.778e-4967.26BTB-II protein domain, partial [Drosophila melanog... [more]
gi|515970|gb|AAA87052.1|7.021e-4965.79BTB domain, partial [Drosophila melanogaster][more]
gi|1009368632|gb|KYM93477.1|1.009e-4861.48hypothetical protein ALC62_15835 [Cyphomyrmex cost... [more]
gi|1004402038|gb|KYB28743.1|1.281e-4840.93hypothetical protein TcasGA2_TC031038 [Tribolium c... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold380_size190731supercontigscaffold380_size190731:103934..132397 +
Analyses
This gene is derived from or has results from the following analyses
Analysis NameDate Performed
maker2018-02-12 .496401
T. kinsejongensis vs L. Salmonis peptides2018-04-19
T. kingejongensis peptided Blastp vs. SwissProt2018-04-19
T. kingsejongensis proteins Blastp vs. NR2018-05-15
Properties
Property NameValue
Note-
Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameSpeciesType
snap_masked-scaffold380_size190731-processed-gene-0.7-mRNA-1snap_masked-scaffold380_size190731-processed-gene-0.7-mRNA-1Tigriopus kingsejongensismRNA


Sequences
The following sequences are available for this feature:

gene from alignment at scaffold380_size190731:103934..132397+

Legend: mRNA
Hold the cursor over a type above to highlight its positions in the sequence below.
>snap_masked-scaffold380_size190731-processed-gene-0.7 ID=snap_masked-scaffold380_size190731-processed-gene-0.7|Name=hypothetical protein YQE_10194 partial|organism=Tigriopus kingsejongensis|type=gene|length=28464bp|location=Sequence derived from alignment at scaffold380_size190731:103934..132397+ (Tigriopus kingsejongensis)
ATGAAGATCTGTCAGTTTGGAGATCAAGATGCGGCTGTCACATTACAACC ATTCCAGGAGCGTCAAACCCAAAGTGACAGAGGACGGGTAAGAAGTCGGA ATGCGGACCGAACGTCAGGGAAGTGGGCTGGAAATCAGCGGATTCCTTGG AAATAGGAGGAATTCACACCAATGCATGGGCCAGCAGCCTTCGCTAACGT CAGCTTTCCGTAGGCGTTGACGCGAAATGAGAACAGGTCAAGTCGGAAGC CCGTCTGGCTCATTGGAGGATCAGGTCTCCCACTTAATAGATACGGGAGA TGGACGCATCGGGCTTCCCATTGTTGTCCGGAGGAGTGTCCTCCAGCGGA AAACAATGATCATCTTGAGTTCCTGAAAGCTGAAAATTCACAATGACCAA ATCTAGACGAGCATCTTGATATATTGTTCCGAGTATTGAAGATTGCGTCC TGATCCTCCCTATGGACTACTTAGCACGGTATGGAATGCCACTGCCCTCC GCTCACGTGACCGGAATGGGCATTTCAGCCGGCCAAATTCACTGAGTGTC CGACATGTCTGGGAGTTATCGCATTCACACTGGGTCTCATTGTTCCCGTG GGGTATGTACAGTAGGTATAAGCTGTCCTGCACATTGTCCTCATGGGCAC CCATCCGAGCTTTTAACCTATTCAGGAGTGGTCAAGATCTCGGGTGAATG CATAAGCGACGCGTCTGGGCCAACTCGGCGTTCAAATCTCTTTCTCACCG TTGATGATATGGGGCCCATTGGAGACATTACGCGGATTGCGTACCCTGAA CCGATCTGTCCATGCGTTTACATATAAGCAGCCAGGGCCGTCAATGGAAC ACTATGCCTCGGATTCAGACACGGCCACGTCGCCCAATGGCGATAAGCTG ACACTTGGAGCTGCATTTCGAAACTCGATTGAATGCTCGATGGAAAATCG ATCTCCAGCAGCGAGGAAATTCCGCCTGGATGGGATGAAATTTGGACAAT GAGCATCGCTGATGGAGATTATGACTGAGACTCGTGCAAAACTGGGTCCA GTTTTTGTGAATGCAATCCAACCATGGGTTCTTATTCAAAGTGACACATT GTCAGCTCAAGACCTTCATGACGATGTTGATTGTCTAGATGTTTTTGCTC CCCCCAAAATCTGTCTGCAATCCAGTTGGGCCAGTTGGGAAGTGCTCAGC CAACCTCCTTGAATGGCCATTAAACCGAGTTCTCACCCTGGTGTATAGCC TACTGTATATCCACTTTTCAAGTTGGTTGAATACATTATTGCCTGTACGC AGCTTGTGTGCAGGTATGTTGAAAATGGGTCAAATCAAGCATTGGCCCAC CCACCACATCAATGAGATGTGGACAATGATATTGCCTTTCCCTGATTAGT GTTCCGATTGGGGTGCAGGGACATGGAACACTAGCAGTGAGCACTTGCAT TCTCTAAATATTCTGACGGTGATTTATTTGGATCTGCGAATATAGTGTGT TCTCAATGTCGCATGTTATTCCGGCCCAATTGGAAGTGTCAATTATGCGC TAAATAACGACATTACACACCTGGAACCACCTTTGTCACCAACATGTTCT CGTCTCTGTGTTTTTCACCGATGACTAACTACGATCTGTATGAATGGAAC ACTCATCCTGTAACGAGTGCTATCTGACCCCGTCATCCTGTAGCGTACGA AATGAAGTGATTTAGTACGTATGTAGTAGACTAGTTCATTCTAGGCCAGG CAATAAGCACATGGCAGTTAAGCCATACTATTTTCACCCATTAGTTTTTG CGTGAATGTAAGTAGGCTCCGGATTTGGAGGTGAATCACATTAAGTCACC TACAATGCCATTGTTGGCAAATGATCACCTGACCCAACGTTTTTGGTAAA AATTGAAATAAAATGCCGTTTTGACTCTTTTTGCGGGCAATTTGGGTATT TTCTGAATACAAAAATTCACAGCTTGAACCAAATTTTGAAAACCGACCGC CAATATTCGGTTTAGCCTAAATCAGAAAAGGTTAGGAACACCCTCAAGAT GAAGAGGAAGATGAACCCATTTTCATCCCCGATAATTTGTCAAAAAGGGG TGGCATTTTTTTGCGAAAATAGTACATAGCAGTTCAGTATTAGGCCCCCC AAATCCTCTTAATTGTCACTTTCACCGGAATTTTCACCTTACAAGCCGTT TTTGATCACCTATTTGCACGTTTCTCATCTCATGAGACAAAGCGTGACAA ATGTTGGAGAGCCAAATATTTCACGGCACAAATAGGATCTTAATAGGATC ATTATGATGTTTGCGGACTTCAGATGTTCAGACCGAGAGTTTCTTCGATA CCGACAATTGTCTCCTTGCCCTCGATGCCGCAAGTCTGACCGAATCTGCT TCATTTGAGAGGAATCGTCCATCGGTGCCTTTTCGGCATAGCTGATTGAA AGAAACCCCTGGTTATGATATGGTTTGAAATTGAAAGTTCTCCGTTTTGA GGCGGACTAAACAAAATTGGGGTATCAGTCAGAGTGTGTACAAAATAGCC CATCAGGCAATGAAGGATGATGACCAGCTATATCAATTGTAAATGATATG GTTCCGACATCGATTGGACTCTGTCAAATTTTAAGGATTTGCGATATCCC TCACTTTTTGTGTTGAAATGATTGACCAATAACCATGTATCTCATAAGTG ACAAATCGAAATCATCAATGTTTCAGTTTTTTCCAGTGGATGAAACAAAA AGTAGTTGTTTCAAATTTTAGTCAGCGTTATTGAGAAATCGAGGATCGCT CTAGCATATATTTTGATCATTCCACAAATCACCTTTTCATCGCGCTCTAA ACAATGCTGAAAGCAATGTTCTCTCCCCATTGGGCCAATAATTTTGTTAA CCATCAAACGTCCAAAAGTTGTTTCGAATGAAGTGCGACCAAAGAGAATT GTTACACATTTCGTAAGGCAGAGCTACTTTCGAAAAGTCATAGTGGTCGT TAAAGGTTCTTCTCAAAATAGATAACGCTCTACGAGACAAAGCTTGTCGT CTGTGATTCCTTCCGAAAAGTATGAATTTGGGCTTCACATCTAACTAAAT CAATGGCAGTAAGTCCCACAGTTGGTCAAAGGGATCGCCATGTTCTACCC AAGATTGATGCCCGCCAATGAAGGCAAATTACCGTTCGGCCCAAATTGTT CCATTCAATTCAGGTCAGGCTGAAGGTAGCCAGCGATTGTCTCATGTGTT TGGCATGTCTGATCGGTGAATCAGGGTCGACAATGGGTGACTCTCAAGAC TATTTTGGGCACGGTCTTTTCACAGTTAAGGCACTTTTTAACTGGATTGG TTTCGCGGAAATCAAGAATGTGGTGCCCAGTGGGCTGGAATGCTTGACAC AGTATTGTCCTAATCAGTGATCGCTGGATATGGAGTCCAAGGAGGTGCTA CTCCAGGTTGAGCCGATGCATCTCGAGCTCCCAATGTTGGCTCTGGCTCG ATGAATCTTCCGACGTCAAGAGCCACCAATGTCGAACAAACTACTGATCA GATTAGATTTTGTCAAAAGTGTCGCTCAATCCTTTGTTGTCTTGCAATCT GAGAATTGAACTCAATTTATTGCTAGTCTGATTATGGAGTGGAATGAATT TAGCCCGTGCCCACCAAGGGTGACCTTGATTCGGGAGTGAATCATCCCCT TAGCAGCACTTGGGTTAACTTTCCAATCCAGGGATCCAAAGGACGCCCAA TCAGTTGGAGCAAGTGGGGCCCTCCCCGGAAATAGTGCCTTCAATTATAT CTAACGTTGGAGCGAGTGTTTCTCTCAAATAAATAAATCTCCCAAATTGG GCCATTGAGCAATTGGAGTCAAGGATTGAGGTCAGATCACTAGATGGTTG GACCTCGAAAATGGTGGCTAGAAATTTCGACCTCATTGCGCTTGTGGCTC AAGTTTCATGAATATTCTAGTTACTCCCAGCCATTGTATTCAATGCTCAG TCATATTTCCAATATCAATGTGACAGTTTGCGGTTGCACACGCAATCACA AAGAAAGTGATCGTCGAAGCTACCAGAGAGAGCGTGTGCTTCCATTCCGC CCAAAGGGTGGATGAAGAGGGTCTTTTTTCACTTGAATTACTGCACTTAC AGGTTGGCTCCATACATTGAGTCACTAACAAGCTCCCCATATTCATTGAT CGTCTTCTACGCCGTAGACGTTTCTCTCCCAAAAATCTGGCCAGTCGCTC GCTCCAATTCAGTGCCTCGTTCTAATTTTTGAGACGCTTGAGCCATCTCG TCGTTTGGCGGCGATTACCAGGATTCTACATATGTATTCGTATTTTCTGC TCCTCCAGCCGGAATCGTTGTTATTATCGATTAGCTTGATTCACTTGACC TCTCTCTCCCTCAGGCTTCCATTTGGGGAGATCAGATTTTGAACCAGAAA ACCCACTTAAATTAGATGAGCAGCGCAGTTTTCCCCCCCAATCAATAACA AAACGTCCAAAATATTTCATCTGCGTGGGTTGGTCGCAGAGGCCAATATA CTGCACGTGTCTCAATGCTGGCAATTACCAGTGAACCGCAACTTGCACTT TTGGTCGAGGATTCTTACCGAACACCAATTCATCGAGTCACTCTGAACTG CTTAGGTGAACTGTACAGTGCGTCAAGCGTTTTGAGCTCAAAGTCAGACA GTCTTGGAGAAGAAACTCAAAGACTCATCGAGGGCAAGGGTGGGGGGGTG GTTGTACTATTTTCTTTGACCCCATGCATAATACAAATCAAGGACTTTTG ATTATTATGAAACATACTGGGATACATAAAAAATGCATGATTCGTTGCTA CTGTGTTATGCCCAGAGTGAGGCAAAACGTTGATTTGTGATGGCCAAATA TATGTCATGATTATGCGACAAGAAATTATATATATTAGGCGATGTAGAAG AGAAAATTCTGTTTCAGAGTGTTCTGTTTATTTTGAACAAAATTGCTGAA AAAAGGTTAAAGAAAACAAGTTTTGGGTTTTTTTTAAAGCTTTCGTTTCA GGTGAAGTAGAGTTTGATATAGGTGTTTACACCTTTTTCCCGCACACATG TGATAATTTCACAGACCTGCTGAAGCAGGTGTCGTATCCATGTTTCGTAT CTTGAGTTTTGCTGGCGCATGACGAAGTAGTTCCATGAAAGTACTCATTG CCTTTAAGCTCAATAAGGTTACCTCTTAGGAGCACCTCTCGGGAGAGTTG AAAACCTTAACAAGGCCACCAACTAAGCTTCAAGTTTAAGATTCAATTAT TGCTGCTCTGAATAGGTCCTAGCATAAGGTGATTGCAATCGTGGGATTGA TTGTACCATTGAGCTGAATACGATTTTAAGCCACTGAACTGTTGCCACGA AAGTATGATTGGGGATTGGCTGTATTGTCAAGCAAGAGTACATGCACACC AGTCGTGGGATCCATGGGTCAATAATATCTTCCCACATTTCCGTCAGGGT TATATGATTGGAATCTCAGCTTATGGCACAATCAAGTCAGAAACATGTTA AGTCAACTCTGTATCGATAAACTTGATTCAAATAGACCGATTGGGTGGGT TTACTCTCATCGGTATGTGGATGGGGCCAATCCGACTACCCAACAATTGG GAATGATAAGCATCAGGCTCATCTCTTTAGGAGGGAACAATATATTCTTC GTCGTTGAGTTACTGATAGAGACAAATGTATTTGACTAGCGTCTTATCGT GTAATTCACGTTGTCTCAAAATTTGAATGCATCTCCAGCCGAGAGTACAA ACATATGTGCAATTGCTCCAATCTTTCAATTCTGAAGTCGCCTCATTAGC TCGTTTGTGACAGATATTAGACCAACCCTAATCCATACATAATTCCCCAC TGATGAAGTGGAGGAGGAAGAGGAACACAGCGTTACATCCACTACCTAAA AACTCGTACACCACTGGGCCCTTTTAAATTAATAGAGCTATCAATTACAG GTTTGCCGCCAGGGCGCCGTCCCGCGGTAGCTTATTTGTTGGCCGAGCAC CCATCTTGGAAGGAGCCCATTCCACACGGGGCATTGTGCATCTAATTCAT GCTCATCGGGAGTAATGGACATGTGTAACACGGGTCGGCCAAGATTCCCA GTCGGTTAAGTCGATCACCTGTGGCCACACCAAAGGTGGAAGATGCGCCT CTTCTTCCTCGTGCCAGATTTCTTCAGCGAGACAGCGAACGTCTTAAAGT CAGGGACATGGCACGGTATGTGTACATTCATGTACAAAGGGCTCATGGTG TGGCTCACAAAATAGTGATGGCTCAAAATATGATTCACCCTAGAGGTGAT AGGTTTTGGAGAACTCAAAATGTCATGACGTCAACCGTACGAAAGTAATT GGCTCCAAATCATCGTCATTTCGAGTTTCATTCCCAAGATTAGAAAACCT GAAAAAGGGGAAAAGTAGAATTTTGCAAGTTGAAAAAAGGACAGTAATTC AATTTATATATACCAACTGAGAAAAACCACCTCAAAATGAACTTGAAATC CATTGAAAATGGCCTAACGAGCGGTTTTCATTATGGAACGGAAGAAGTGG TCTGTTAACCAGGTACACTTTTTTCCACAACCTAGAAATTACCAAGACAA AAACACAAAAAGATTCTAAATTAACAGTTCAGTATAAAAGATCAGTAAAC TAAGTTATTGTTTTGATTGATAAACACACATTAGGGAATACTTTGCCAAA ATGGAACACTGGGTCTGTCTTTAAAGTTGGAATGAATCAACGTTTATCGT TTTTTCTGCTCTGTTCATAAAATGATGTTGTGAAACCTCGTAACTTGTTT GAATATTTCAAAGGTAAATTGATTCCATGGCGTCCAACATTCTCTTCGCC GTGGCTTTTCCTTACTTAAGAACCAGTATCCCAATAACTTTTCCCATTTT TAAATCCCTAGGGTCTAGGGAATGTTCTCAAAACCCACCAGGGCATATTC TGAAATACATATATTGATGCATTCAATTATTTGCCATGAGCCATCGGGTC TTTCTGCCCATCTCTTTCTTCACTACTTCATCGGTATGCAGTACGTAGTC CTGCGGAGGACAGTGTTGCCCTTCTTCAGTAAGGGAAGGGTTTCCCCTCC TTCTACTCGCCCTCTCTTGGAATAATCCTTCAAGTGATCATCTATCTTCA AATTCATAATCAAGTACAGTGACACTTGTCCTCGAGCCATCCTGGGATCG TTCTACTGTGCCAAGTCCAGGGCCTCCAGAGGTTCATGGCTATGAACCAT ACAGTTGGACAAACTCATTCCAGGCCCCAAATAGCTCACAAGTACGATCA ACCAGGGCAGGATTCGGAGGCTGTGAAGGGGTGGATCGTTGTTCTTAGCA TGAATGCTGATTAAATTGCGCTCTATAAATCATTTGCGAGAGTGGATAAG GAGTATGGGCGACCCTTTTGTGCTACACATGTCTCGAGTCCAACTTTGGG CTAACCGACTTCTTTGCTCTAGACACAATAAAAGATGATAAGAAACATTG GAAGCACTGGGAGCACTGGGAGCATGGTGCGGTTTGTCCTCGATTTCAAA TGCACCAAAGAGTGTCAGGCAATTAGGACAATGATATGATTAATAAAGGC GGCGCCATGTTTTCTATTGATAGATCGTAAATAGTCACTTCCTGTGTGGA TTTATTCAAAATTCGTATCACCCCTGTTGTCCCAAACTTCGATTGTCACC TGATGCACAAATCATAATAGCATTGGATGGGCCTACCTGCCAGTCAATCC AATCATGTTGATCCTGATTAACGACCACGCTCGACCACGGCTCAATGACC CCCTTTTCGGGTGCTTTGACGCTCATGCATTGGAATTAATAGAATGTCGC AAATTTTCCGGTCCCTGTTTTTTTAATTGTTCCTGTGGATCACTCACTCG CTCCTTTATACATTATCATTCGATATCCATGTATTGGGTTTGACTACGTA ACTGCAACGAATGTCAAGGCATCGGGTACGCCATCAACTATTCAAGCAAG AGTTACAAAACCCGCTTATCCATAATTAATAGGAGCCTCCTCCATAATAA ATGAATCAATCGTACTCAAATCCCTCGCTCCTGCGTTTCAAATGTGGAAA AGAAGAATTGCTGATGAGACATTCTGTTTGATGTGCTACTACTCCACTTC ACCCGATAGCTCACATTCCAGCCTACCCAGTTCAGCTAACACACATTTTG CCTAAAACGAGAGTCTCGTCGAGTTCAACATTCACTGCATCATTCAGAAA CAGATCCTCGAATTGTTTTCCGGTGCTTCTATTATTTTTCGCCTATGTCG TGATGCGTAGTTCCTTTCGTTTCATGGTCAAATAACCCAGATCGAAGAAT ACGAAGGCTTGACTTTGAGCCTTTCAATCACGCTTGGAACTGGCCCTCGT AATTGATGATTGGTCGTATTTCTTCACAAAAATGGTCATTTATACAAGCT GGCACCTTGTAGTACATCATCGACGTCGCTCGAAGAAGAAATCAAAAGCT ATTGTGAAATGGGACACCGTAGTAGACCATTTTGTACACATTGAGTGAAG ATAGAAGACCCCCTCTGTTTTGCTTGCGTGTACTCCATAAGAATAGTCAA CAATCCGGACTAAAGAGCAAATTTCCGTGCAAACTCTTGGGTCGAGAAGT CTCAAACCAACATACAGGACACCTCTTATGGGATTCATATTGGCTCAGTG TTTAGTTCATGGTTTTCACCACATACACACTTGCTGTTGCAGCTTTCTCA AGCACCTTCTGTATCCCTTTCATGCCTGTGAAGATAATTGGCGTTTTACG GGTATTAATTGACTTGCAATATTAGTGGTTAATGCTTTTGTATGCCGATA CTCGCCTTCTAACCAATCCCAAGCAATGAGTCAAAAGCTGATCGAATAGC GGAAAGAAGGGCTTGGCAGGTGGGTATCCCTATTATTACTGATGCCATTC TGGGTACTAATCCTGTTACCAGAATGTAACTTAAACATTAGGGTTGATTG TGAAGAGAATGAATTGCAGCGCAGAATATTCCTATGGCACCCTGCTATTG AATTCTGAACCTTCTAGTATTGACCAGTGACACGATAAGTACGAATTCTG GAACAATTGTGTTTTGCTTGTTTACGAGATAATGATGTGATACAGTGGCA GTAAAAAAAAAAGATATATTAGCATTCAAATCCATGAGTATTGAGGTCCA AACACACTAACTTTCGTGAGGCATGAATCTGCCTAGCCCCACTCTGTTCC AGCCGCGGAAATGAATTATTTAAGCCCTGAAAGTTGCCCAATAACGAAAC TTTGGCCGGGCTTTATATGTACAAATTCGGCAGTATTTGTGGTCAATCCA CATCAATTATTTAAGCCAATATCTGGTTAAAAAGAAATATCGGATTCATG GCACATGTAAACTCAATGTGTGTGAGTGCACCTGCGTGGAACCACATACA TGGCTACTGAATTATGGATGGCCCCAGAGAACAAATGAACCTTGTTGTGT CGAATTTGTCAGCTGGGCTATAAATGATGACCTCATTTTCACATTTGAAC CACTACCTAGATAGAGTGCTGGATGTATTAGAACTACTACTATAGTGTCA GACAATGTAGGAAAAGCTATTACTCCAGGCCCTGTTCACTTATAGATTGC ATCATCTGGGCCGTTATGTGAGTAGCTTTTTTACGTAATAATAAGCTGGT GCGACTCAAATCCCCATTGAACGAGGACCAAGGCGGACTGGGCAGAGCGA GGTGCTCCCAATTGAAAGCACCTCCTGGGGCATTTCTAATAGGGAAATTG GACACTGAGGATAACTTTAAAGCAACGTTTAGCGCCCTACGACGAGTTAG AGTCTCCATGAGACTCTCGCCCAATTTATCCGATTATGAACAATGAGAGA AGAGTTACTATATTGGGTCGACAAAAGGGAAGTAGCGCTCTCAAACGTAC CGAAAGCCCAGGGTTGGAACAAGGCAGAGTGGGCTCTTGAACTCGTGTGG AACACCGTGGGTGCGGAAGAAGGCGAGAACATCGCGATGAGGACAGATCG CGTTCGTTTTGGGTGCTCGAACACTCGCTCTCCCTCCTCACTCTTCCCCT CCTCCTCTGGGTGGATCCGCGTCGTCTTCCTTGTTCAACACCCTCCAATG TGGAGGCAGAAGCATGCAGGCTGGCCTCTGTGTGCCCCTCTAGGTGCACT CCTATCATGTCGACCTACCTTGCTTCCTGCCTTAGTCCTCGTCAACCGAG GCACGAAGTGTGTAGTAGTAGCATATACGTAGTAGTCCCTCGTCACCCTC ATTCCAGTTCGGAAGCTTGACGCAAACGCCGCGTCCAAAGAGTTCCTTCT CTCCGCGAACACACTCGTGTCTGGGTGGTGGCCGCAATGCCCTTTGCGAC GTTCGAACTTCCGTAGGTGCGAGCTGAGGACTTGCTCCAGCGTCCACTCA CCACGAACATCACCACCCCATTCGGTTTCTCCGCCAGTCAAGTCAGTCTT GGAGTTATTGCTGTTGTTGAAACAGCAGCATTGGAATCATAAACAAAGTG GCCAAGCCCATAGACGAAGCCCGATTCGAGTGTCCATTGTTATCTTGCAC ACACTCCATCGAGGTTCCACCTGTGTCGATCCGTGGATCGAGACCAGGAT ATCCCAGCCAGACAATGGGCACAATTGAACACAAACAATCAAGTTAGAGT GAACAGTCGCAACGTAGTTTGTTGTTCCATCAACTGGGAGAACCGCACAG TAAGTTGTTCACATCCATAGTAGAACTCTTTGACTCGGGTTGACCAATGG GAAGATCGAAGCCGGCTTTCAGACCCTGGCTGGCCATTGATAATCAGTGT GTGTGTGTGTGTAATCGTTTATTTCCTGCTTAATAAAATTTGATATATGC CCGGGAGTCAACACTTAGCAAACGAATGCTAGTCAATAGTGTTAGGGCCA TTTATAACTATATACACATGTTAGAAGTAACGAAAAACAACGTTATAAGA ACCTACTACCGGTATACTGTAAACTGTAAAAAACAAAAGAACAGAATAAT GGAGAAATATTATAATAAATGTTAACAAGGCTATACAAAAGTTTCCTCGC GCTTATTAAGAATACAATGAGCATCACCGTCACGATTTCCTGTGGGACAA TGCCCTTGCCAATGTGGGCTAGTTTGAACCTTCTGAACGATACCTCAACG ACGTACTGCATACTTCGCCTCTCATTCCCAGTTTGATTTGGTTATCAATC ATCGAGGAAATTAATACCCCCTGTACCCAGTGAGCTTGAGCCAAGAAGGT CCACACGAACTTCTCTTGTTTGTTTGCTGACTGAGATATTACTGGTTCCG TCGGGGGCTTATCTCCTACCGGTGACAATTAGTAATAATATGTACATGTG GAGAGTGAGGTTACAATTCGACCAGAGATATCAGCCTGTCGCCCTCCAAT CGCCACGTGGCCAAAAGCCAGCCAAAATTCGGAGCAGGAACTCTTGTAGC CCAATATACGGCCTTAAGTTGTTGACGACAATAATGAATCGGTCATAGTT TATTCATTATGCTCCATGCTAATAGAAAAGGAGCGGGGAAAGCTACCTCA GCTCTGAACAACAAGCCATTTACAAATTGAACCTTGTCAATCTGCACTTC TTACTCCGTAATTTATAGGATAGGATCGACTGAACCTCGTGACGCCAGCA TTGATTGAATTTGCAAAAACTGTTGTTAACTTGTGACGATCCGTTTCCAA ACAGATTTGCTTATGAGCCAAAGAAATAAAACGTATACCCTGGTTCTTTA GCACCTTAGAGATCGAATGAGTGAGGAAATTTAGTCCCCATGTTACCGTA GTCCACTGTCGTACTCTGATGGTTTACAGAAACCCCATAAATTGATAGTT GGATCAAAAACTCGATTTCGGGAGGGAAATGTCAATGGAAAGATACCGGT TCATTGAATTTCTTGCAGCCAGAGGGTGTCGTTGGATTCCCGGATTGAAG CTTTCATGAGGACCTTCATGATTTATTTAGTGTCGATCATGGCCAATATT GGCACAAGGAGTTCGATCTTGTTTATTTCGCCGATTTTTTTCAATATTGA ACCTCTTCAAATTGGCTTCGTATTTTGAGTCGCATGTTTTTTCTAGGAAC TATTTTCTCGTAATCAATTCTCGCCCTCTCTTTCTCCTCGCATTTGAGTC TGAACTTGTACTTTCTCGAGATCTTTGTTGAAGATGAAGCGTGCTTTCAA ATTCCGCCCAAAGGCCGTACAATCTCCACCACAATTTTAAGCACAAAACC CAATAAGAGCTCAGGGTAGAATGGGCTGGGAAACCTCAAATGATGCCACG AGCCAGCTGGTCAGAATCAGCAGATTTATATTAAAAAAAGGATCGTCCAA TGCGTCAGGAGCCAAGGCAGAAATGTGAAATGTGACAGGTTGCAAATGGG TGATCGTGACTGAGTTGGAGCCAAGGTTGATTTTAAAGGCTGGAGGGATC AGACCCAAAAGAGCTCCGATCCTTCCTTAACCTCCGGTAGATGAACTGCC CTGCACATTGCATTAGATCTAATCGGCAAATAAATTTGCCTCCATGATTA ACTGGGAAGTGGGGATGAGCTCGTGCAATAATGGATATTTTGATGGTTTG CAAACGTGGTCATATTTAAAGAACTGCACCACTGTTGACTAAGATGTCAT GTTTTTTGCACATTGTCAAGTGGCATTGGTTGTTAGTATTGGCCTGCTTA AGTTCGTGGGATTCGCCCGAGACCCTTTCTAGCCATGCATCCGTCAGATA ATCATCAGTAATTCAGGTCTGCTTGGTTCTTGTTCTTTTTGAACAAACCC CGCCAGGATTAGGTTGCCCTGGTTTTATAACATTAGACAGGTTGCCATCA AGGCTTAGAATCGGGCGATTGCGCCCTTTAATTAACGATTGATGGTGTAA GAGACCGAAGGTCCCAGGGCCTCATAGTTCAGGACTTACAAGTTTGGGAA CCCAGACCAGGGTTTTGTGCACAATGTCGTCGGTGTCGTCCACTTTTTTT CCCGAGACGCGGTTTAAATGTGTGGGTCCATTTCTGCGTGGACTTCCTCA GTTAGATAAGCAGTCGAAATTCGTCCATTTCTACTCCAAGTACCCACTTA ATGGAGGCTGGGCCTTCCCAGACTGTACTGCTGGACTGGAGTAGCTCATT TTCAAGATATTGGATTTGTTTCTCCCACGAACCCTTCTTGCTCTGGTGAC TGCCCAAACTGGAGGAGATTCAAGGAAAATCGCCCAACTTTCAGCTCGGT TCTTCGGTAATCAAGAGAGATTTATTATTATGTGCGTGTGTGTCCCAGAC TTGGCTGGAGAAATTTATTGATCGCTCATGAAAATTGGGTGTAGGAGGAG CATCAATACTGACCAGGTGTGACAGTATACTGGCGACTGAGCCCCCGCGA GCGATGCATCTCCCTCCATCGGTACAAGGTGACACGTAGATTTTCGGACG CACTTTGAACAATTCGCCTATTGCTCGAATCAGCCTTTCCATTCGGCAGA ACAAAGGCCAGTTTGGCGCAACTATAATCTGCATCAACAAAAGGCCATCC TCCGTTTCAACGCTGAGCTCAAATATCGATACCACTTAAGACTCAGGCAC ATAATTGTATCGAGTTTAGCAAACCCAGGATATTTATTGACGCTGTTCAA CGAGTGTGTATTGACTCTAATTTTCGAAGATTGATAAGGAAAACGAACAA TCTTGAGATACAATATTGGGATCACGTTGTGTTGCCACAGGCTACCGTGG CAGGTGGAGCATTATCATTAGAGGGCATTTTGAAACATATTTTCGAACAT GATATTGGATCGATTTGCTCAATAAGTTAATCCAAATCTTGGATGGCATT CATTTTTCTGCTGTTTGTGTAGCATTCAAGTCGACCACTTATGTTCATGC AATTGTGTATGCTCTACCTTTTATAACGGCTCCCTCAGCATTGTATGTTC AAGTATATGTACCAACTACTGATCCATCTACTTTGACACGGTTTTGAAAA ACCGAGTACCCTTAAAGTGTACAGAGAGAAAACTGCGCGCATTATTTTAA CCAAAGGTTAGAAAAGTTGTATAGCATGCTAGTAAAAGATGACAATGTTC AACTGGATCTCCTGTTGGCTGGCAATTGGAAGGCTTCTTGTGAACTCAGC CATAATGATGCAACGTCGAGCTGAATGTCGCTGGATGTGTGGCCAACAGC TTGGATCGTTGAAAAAATAGCGATGAATAATTTATCCACGCTTCATTCAG TAATTAAACATGCAACGTGAGTTTGCAAATAAAGGCATTTTTCGTGTCTT GCATTGTTACAGAACTCGAGGTAAATATTAGTGGCCACACGGAGCCGAAT TGGAACCATCCGCTTTCGAAAATCCTGAGAGCACTTGCGGTGGACTGAAA TTAATCAGAGCTATGTTGCCTAAACTAACTAGTTTACTACTAATTGCATG AACTGCAAAATGCCTTTGAAAAGTTCTTTGCAAGTTTTAATGAACCCCAT CAATTTGATAGACTGTCTCTGCCAGCCACACCAGACCTTACATCAGGGAA ACAAAATGCGGATGGATGCGCTTAATTAAATCCCCGAAACAGATGAGCTG AATAATGCCACCCAATTGTCTGGCACAACCTGACACAATTTCATCTTTAG GCCCGCCATAACTCCCGTCGCCAATTGCTTTACAATCCAAGTACTCGTAG GCCTTTAACATGTCTACAAGCTCTTGCGACAGTTACATCCCGCCACAAAT GAGCTCCTCAACACTTGCCTCCCAAAAGGAAACAGCAAACTAAAACGCAC AACAGAGAAAAAAAATATACACGGAGCTCTCGTCGTTGGCTCTCTCGTCA AATCGAACTTCTCTGCCAACGTTTTGAGCTCTCCTACACATTCATTGGCC ATGGGGTTCAATTCTGCACAACCCAAATTCGATTGGGGATGCCAATGTAC GAGGGCGGAAGTGCCTCAGTAATTAGGCACTTAGTCGAATGAACTCGACT ACTTTCCCGCCCGACGTTTCATGCTCCAAGGTGGCCAACGAGTCCGACTT GGGCATGGTAAGAACTAGTGGGTCCAAGTTCACGACCTGCAATGGATTGA AAGAGCACATTGGCTGTTTGTGGGATTGCCAAGCGTTCCAAGACAAGTTG GTCGTCACTAGGATTGAGTAAAATGTGATTGCTGGATGAGCGATGATGTC TCAGGAATTCCAGGGTCTTGGTTATAGAACATGAGTGAGATGCAACGACT GTATTGATCTGTGGAAATTTAGATTTGAAACTGGAGAAACGTCCGTAGTT ATTATATTCGTGTTCGACCTTCATTGTGATGAGTGATGAATTTCAATTGT ACTCTGGTGAGTTCCTTAGAAACAGCTAGTGCGCCTAGCTTGAAGCAGCT CGAGTGCTGTTCAATATAAATTGGCTGGGTAATGCTGAGAAAAGTTGGCA TTTGTTTTGCTTTCATGTTGAAAACGCCACTCCAATTCTGAATTTAGCTC ATCTTTGTTTCATAATTGGAAGAAGGAGAGCCACTACTAAACTATACGTA GAGCGCGTACGTAGAGTGGCTCGTCTCCCCTCTTTCTCCCTTCTCTCTCG AACACACTCGCTTTATTTTGACTAACTAAACAAAACTGGAGGCAAATTCA ATTTAATATGGAGATGAAACTAAAGCGACGCGACCGACATATCTGATCTT GGGTCGGAGGATTAGCCAACCCATGAGAGAGTGCAATGAGTTGGACGATT CTGTCCATTGCATGCAGCAGGCACATTGACAGCCCCCGCTAACATACTTG TTTGCATTTCGTTCCCCCTTTTACTTCGGCCTGGGTTTGAAACTCGATAT TTTATATTGCTTTCCAAACACAGTTCTCGGTGGTCCTCGAGACAAGGCGT CACGCAGACGTGGTGGTACAATGTATTAGTACTATTACAACCGTTAATAA GCATAAAATTAATTTGAGTTCCATGTGGATCATTATGAAACCGGTAGTTG AGAGAATGTATACAACGGACCTGGCGCTGCCCTGGGTCATATAACTAAGT CCCCTTCAATATTAATGCATTCGGGCCAGCAGCAGCAGCACCCTCGAAGG CACGAGTATTGATGAATTCACGCAAAAGTATGCAACAACCACCACATGGG CACAGGAAGACTGTTGGATTTCAGTCAATTTTCGTTTTATATTCTAATGA AGATTTCATTATTCGTTGGAATGCATTAAAGGCGACGGAGCTGAGAGTTA GGCCTGCTAAAAATGAGCCTGACCCACGTCTAACACCTTGGGCCCAGGAT CCAATTCAGATCAGGCTGTCGACACTGGCTGCTCGATCCTATTGGGGTTC AAAGGCTCCTTGTTCGAAACACTTCTTCCTCGTCCGTCGGTCCCAAATCG TCGAGAGTGTAAGCCTCAACTCAGTCCTCAGCATCTCCCCGGCCGATAGG CAGCGAAATGCGGCAGCTGGGCACTGGGGCACGCTGGGGTGCCAACACGC CTTCGATGGAGAGGCGATGTTTAATTATGCAAAAGGGGAATAAGATGGAG AGGAGGCTACGAAATATATTATTCCGAATAGAGGGGGGAACTTTGATGCA TAAGTTATTGGCTCCATGTGCTTTGAAACACGAAGAGTAAACATTTTCCA ACATCTGGCGCATCTTTGACCTAAGATCCAAATATTTTCTTTTTGAACTC GGACAAGAAGTGATGAACATTTCTTGTCTCGGCTTTCGACCACAAGCCTT TGAGTTGAATCAGACCTTTCGGAACACCATCAAGCCACCATATATTCGAG CTGTGCCTACATCGTAGTTGGGAGCTCGATGACAATTGCAAAATGTGTAC ACGAACATGCTTTCCGTGTCGATTTTTAGACACTTCGAAGCTGGATCCTA CCGAGTATAAAATTATACACAGCCACGTTCTCGCGTCGATTTCCATCCAA AGCCAAGTTGGCGATAGATGATGCACCCTCGCCTTATCCAGACTACAACG CTCTTTGTCGCTTATTTAAAACGGAGCCAAATATGAGGAGCATCCCTATC GGATACTGCATTTACCAGCGAGGCACACGTGCACGAAAACTTGTTTGCCA TTCCGAATAGATATCTAATTAATACTTAATTACCACTAACAGGTACGTCC CGTGCCCTAGACAGCAATTAGATGCAAAAAGTCAGAAATATGGATTTCGT CAATTCCGTTTTAATTGGGAGGGCTCTTGGATGGATATTTGTCATAAATT GCCAACGCCAATCATTAGTTTCCACATTTAACGAGTATGCAGAGTTAGAC CTAGGCTGCTCTTCGTGCGAGTACACGGGTTGGAGGAAATCAGATACTTT TCGAATAAATTCCGGACATTTCCTTCTGTTAGAGGAAATGTACGAGTAAT TTATGGCTCTGCTATCAGCTTGGCCATCTTTTAACTCTCCCGCTATTCAC TAAGTTCCTCAGGACAAGGTTCAATCGCTCAGGTGCTGTTGTGTGTGGTT TCGATCACTTCAAATCTTGTACTGCTTCCATTTTAGAGCCCAGCCATGTC GACAAGCAGTCCCCATGCCAGTCGACCGCAAAGCTCGTCTCCACCCTCGT CACTGAAGATCACTGAAGATAATCCGCCAGAAGACTTGTCCCCACCGGAG AGTTCCAAGGAATCCCCCGAGTCTCAGCACTACTGCCTCAAATGGAACAA CTACCAGACCAACTTGACCTCGGTCTTCGATCAGTTGCTGCAGACCGAGG CCTTCGTGGATGTGACCCTGACCTCCGAAGGTCAGGTGATCAAATGCCAC AAAGTGGTCCTCTCAGCTTGTAGCCCCTACTTTCAATCCCTTCTGGCCGA CAACCCTTCTCAGCACCCTATCGTGATCCTCAGGGACATCACATGGAACG ATCTCAAATACATCGTCGAGTACATGTACAAGGGAGAAATCAACGTCAGC TACGACGAGCTCCCATCTGTCTTGAAATCGGCCGAGGCCCTCAACATCCG GGGGTTGGTGGAGTTTGGTGCCAAGGGACAGGGCGATCTGCTAAACCTCA GCCAAGATATGGTTCTCCGGCCGACAAACACCAAGTTTCCCCCTCCTCTA GTCGACTATCGGCCTCACAAAAGGAAACGCACGGACTCGCTCTCTTGCGA TGGCCCGCCCCATCCTGGCCCGGCTCAGCAGGCCCCGGGATCCATGCCCT ACCCCACGAATTCTCGAGAGAAGAGCCGCTCCCCGCCGGCCTACCCTGCC CACGTGGGGGGACCAGCGTCACCGTTTCACGCGAGAGGCAGCCATGCCTC CCACTCGCCCCCATCGTCCCGTGGCACGCCCCAGACTGGAGCCCACCCAC CCTCCCTCCTGTCACTGAGCAACAACAAGAGCATGATGATGGACGATCTG TCGGACGTTAAACCCGGCATCATGGAGCTCATTCAAGAAGAACGCAGGGT AAGTTGGGATCGAGACACTTGTTCCCTGGGCATTGGATGGGGTTTGGACG CCATCAAAGGTTGCAACATGCGATTGGACGCCAACCGAATTTCCCTGTTG ACACGGAGCTCTTGAACTCGCTTTCCTTTTGAAAAAGAAGGGATTTAGTT GGTTAGAAATATAAACATACGGGGGTGAATCAGAATAAGTACGTGGTGCA CACATAACCTCATGCGTTGTGCCAGAGGCGGGCAGTGCGCCTCTGAAGTG AAATTAGAGTGAGCAAAATAAACATGGATCGGCTCGATCTGTGCTCCACA TTCACAACGCACGTTTCCTCAGCGCCGTCCTCGCCAAATCATCCGCTCCC TTCGTCAATTTCTAATGCGTAGACCCTTATTTTTGTACTATTTCTCTATC TTATTTTTCTGCCCTAGATTTTCCCTTCCTCATCGCCTTGTTCCTCTTTC CTTCTCTCCCTCATCAACAGCCCAACGACGATCGTGCTGATCGTGGTGCT CGCTGAGCACAGAATCGGGTACATTCAGCCTTCATCCTGGCCTACCCATT TTGCAGTCCACTAGATTGCTACCTCTTACCTCGCACGGGAACAACAACGG CAAACTCCTCCTAATTTCTCTACCCCCTTGAAAGCGTGAAGCCCCCACCA AGTCCACGAGTTTGCTTAGTTTAAGACGGGCCATCCATTTTTGTTTACTC TAACGGCCTTAATTTGGTTAAAAACGCTGAGAGGCTCAAAGTACGTGACG TGGCCGCAGCTTTTGAGCTGTCATGGTCTCTATGATGCTGTATTTGCTCA CCATTTTTGATACAACGGCATTTCGTTTTGAGAGGTTAGTTTAGAGCCAC ATTTCACGGCTCTGCGGTTGGAACACTATGAGCTTTCTGTCCCTAGTAGT ATGCAGCATGTGCTACTATACAGGGTTGTTAGGTAGCAACAATTCGTGAA GGCCAGAACAAAGGCCATGTGTGTGGATGTTGGGGCCTTGCATTCTACGA GTACGAGGACTATTCATAAACACGCTCAAGCCCACTGTAGTACGTCACGT ACAACGTACAGTGTCCGCTTTGGCAGTTGAGCAGTGTCGGGAATGGAGTC GCTATCTCTATTTTGACATGGAATGGGGGAAAATATTTTGTTTCCATATA TTTCTTGTTTTTCTATTCGCTCAACGCCTGGAAAAACTAACTCTGTGCTC TGGTCTGCCTGCTCCAGCTCGAATGGGCACTGAGGGGTTCCATTTGTTTG TTACTCGATCTCTTCTCAGGTTGGCCTGGAAGAAGCGTATATTCCATTTT GGGATTTAAAAGCATTCGCTGCGCGTGAATGACATTCTTCGGTTAAACAG TCTCATTGACTATTGACTTGTGAGTGTTCTCGGAAATGCGATGCGTGGAT TGGCCATGGGTGGATTAGAATTAGCGCCAATTTGAAGTGTTCCCATTATT TAGGTTTATGGCTCCAGTGACCTGGGTGGTTCCAATTCATTCCAATGCTC TGCGAGAAAATATTGCAAAACTAAAGTCGTTAAAACTTAAATGGCAGCAG TTTGAAAATACCAAATATGTTTTATTGGCAGAGCAACGCTGGGGGAAAAG GACTGAGTCATGGATAGGGGCCAATAGAACTCAGTTGTCGGAGGAACTCG CAAGCAAGATATGAAGGCCATCCTCCCTATTTATATTTGGGGAATAAAAC TACTCAACGTTAGCAAAAAGTTGAGAGTAAACTTTGAATCAAAAACGTCA AAAATGATGTGCTCTCCTTGCTCACGGCGGGCAAACAAGCCCAAGTTCGA TCTACTGTCTGTCCTATGTACATGTTGGGATATTTTCAAAACTTTCCTCT CAACATTTGGGGGTCTTTCTTTGTGTCTTTTCGCGGCGATCACCACGAAA GAGCCTGGAGTGATAAAACTTTTATAATTTGCTATTATTGCCGGCAATAA ATTTCTAGCATGTTATTTTCGTTTTAATACTTTTCCCCTTCTCACTCCGC TGGCTCTTCCCATCTTGCTTTCTCATTTTTCGTTGTCATACATGGTCGCA CACAGGGTTGTCGTTGAAACCAAATTAGCTTGCACCTGGTTGTGGCTGAA CAAAGCTTTGGGTATGCTTTCTAGAGTGGCATAAAAGTTAATCTGAAAAC CCAAGTGATCAAAAGAGTACAGTTCCAGGTAGGGATTAGGTGCACAGGCT CCCAATCGCCTGCATTGAGGTCCCTCGAGCAGGATCAGAGACGCGTCCCA AGACCGAAGTAATTTCGACTTACTAGAAACCGGGCGATTGAAAATGATGG CCATTATAATTAGAATTAATCCAGTAATGTGTGTGTGTGGGAATGGAATT GACAGGCCAGACGGCTGTTTTAAGTAACGTTTTACGATAATGATGTCGCC CCCACCATGAAATCCACGCAACTACGTACGTATGTTCCAAGCTCTCATGT GCTTGACAAAATCCTGTTTGCAGGCCAAGCTACTGGAGGCCTCCCAAATC ACTCAATCCTGGATGAACCAACAACCAAAGGCCAATGCTCCGTCATCCTC GTCTACTGGCATCAGCGCATCTGGACGTGGCAATGGAGCGAATTCATCAA CATCCCCAGTTCCAGGTAAGTCAGTGACACAAGCATTAACCAGGGGGTCC GGATCCTGGGGATCTTGGGCGCATGGTTTCTAGTCAACCCGGTGTCAAGT AACGTTACTAACTAGCAGCTCGCTGCTCACTTTTCGTAGCTAACTAATGG GGTTTAGATAGCATGAAATTATTATGATTATTTAATCTCAGAATGATTAA TCACTCGGCTTGGGTGTGGGACCACAAAAAAACCACATCGAGAATGCTTT GACGGACCTCCAGGGCTTCATGACTCCCTCGCTGAAGCGCCGTCGGATTA AGCCTTTTCGTGGGTGAATAATAGGTCATACGACTTCTGTAACTTTTCTC GAATTCTCAGGGCAACTCGTGGCCCCTTCTGAGTTGGCAATCGTTACAAT AATCGCTGATGGATACTTTCCCTGGCTTGCGGGTCTAATATAAGTAAGTA TCGAGTGCATCGAGTCTAGGTAGAAGAACGAACAACACTAGGGCGAAAAG GAACATTAATGGCCCGTTGATCAAGGGAAAACTTATTTGATACAAAATGC ACACTTTATCTCTAGATTGGGCCGTCACGAGCGTCCAATGAACCAGGTTT AGACCCAAGTGGAACAACCAATCGCCTTGGAGGGAGCTCATAGCTTTCGA TGTTACTAATCGTTTCCACGATTTCTTTTTTATCTACACTGTACAGCTAG CCTAAAATAATCGATTGAGGTAGGGTGAAGTAATCTTTGACGTCGAGAAC GGGTGTTCCTATGCATACGAGTAAGAGTAGTACAGTTTGTTAAATCTACC TATCGAATTTTGTTTCTCACAACTTGAACCGATAATGGTCTGGAATGGTT CCAATGAACATAGGCTGTTCTCATTTTTGATTTGGTCTCTCCCCACTAAA TGATTGCGAACCAAAATTGCATTCACTAGGAATTAAAGAAAATCAAGCTG TGATGAATACAATCAAACCCTGGAGTCGTCATTTTATTGCAATATGAGTT ACTTCACAAGCTCCATCGGCAGAGCAGCGTGCACTCAGCATCTGCGCGCG CAATTGAATTTGCGCGAATCCTCTCTTGGTGTCCTTTTGCCAATTCCGCC CAAGCAGCAGAAGTTTGCACTCTCTCCCTGACGCAGCCCTACTGTACACA ATTGCCCACTCACTCCATCCTGGCTGATCCAATTGGTTGTGCTCCAAGAA GTTAGACAGAAGAGAGGCTGGGTTCCATGCTGAGGGAGTTTAGCCGTTGT TTGGCTGTTCCCGGGGGTTCTCTGGTGTTCTCGGGTGGGCTTGGTTGTCT GTTGTTCCCTCTAGGTTTGGAACTCTACATGGCTCTGTGGTATGCTAGGA GCACGCGTGGCTTTAATTAATTAAAATTAATGAAGGCATCGGCTATGAGA TGGTAATAAATTTAATATGAGCACTGGCGCACAATGTGGCCCACCGGCAT GCTCTAACACACACAATCTTGGAGATCTGGCGAGGAGCTCACTTGGAAAG CATACGCGATAGTTGGGCATGACGAGTAGGAAACGTTCAAGAGGGATAAT AAGCATTTCATAATGTCCCTCGATGTTCCAACCTGTCACACAATAGTTGC GCTCCTGACGTTGACCCCAAATGAACTGTTCTCGTCATTCAATCAGTCCA ATGCAATATGGAGTAAACGACCATTTGTATGTTCGCTTTGCTCTCCAAAA GGATGTATGCAGTCCAGGGAAGTTCAGCTGAGGCCATTTTACGGCTTACA GCGTTCGAAGCGTGCATATTTTTTTGTTGGGGTCGTAAAAGTGGACTATG TTTGTTACCACCGACATTCTACACCTTGAATGTAATTTTAAATTTGGGTA ATGTAACATGAGAGGGAAGCTGGCAATACGAGCTAGTTGCTCGACGGCTT CACCCCTCGCAACCCACATTCGTATGATATTGCCGATTCCTGGACTAGTT TAAATTTGGCTAATCCAAATATCGGCCAAGTTGCAAAAGGGGCGAGAACA CCCATATCACGAGAATCAACCAACAATATCATCGGTGACTGATGGAAACC TCTATTAATGGAATGCTTGTTGGGTGGGTCTTGTCTTATCGATATTCGCC ATTTTCACCCCCGTTGCATGCCCTTTTTTCCATTTCCCTAACCCAAGGGC TTACGATCTATGTATTTCACTTCCATATACTCAACAGCATCATGGGCATT GGATCTGCTCCACTAAAGAGCATGGAGACAAGCCTTGCTCCTTGGCCGAC AGGGTGGTGGGTGGGTGAGAGCATTGGGGGAGGCTTCAATTAACTTTTAC ATACTGCGGAGCGAAGCACAGTTCACATTGGCGAGGAGTTGACCTTTGTG GATTGCCAATAAAAAGAAATTTTTGCTGCCCTTGTTGCACGGCTAGAAAG ATCCATCCTGTGTTGTTTGGATACATTTCCAGGCGCAACTTTTAAGCCTC GTAAGCTCCCTTACAGTCGGGACTAGATGTTTTGAACTGGGACTTGACAG TCGGCGGCGTAAAGCCTTATTTGCAAGTGTCATTGGCAGTAGGCTGTGAA TTATCGCGAATGCGAATACTCTTGTCGGGAAAAAAGAGTTGTAGTTTCAT TTGTTGTGTATTTCAACGCAGCCGCTTTGCGCATTATCCCAGGGAGTCGG GTCCTAATGAAAAAGAAACTTAATTAAGTGTTTTCCATTAAGTTTTTGGC TCAAGTTGCTCCCTCTAGATTTACAGCCTCTCTCCTCCCTCATTTTGATA GGCAAGATGGTGCTGCATTTTGTGATTCGACTACATTTTGCAACACGGCA CGAGCAAAAATGTGTTCACATGTTTTGGAAGATTGTAGTATATTGCCGTG CCTTGGCAAAGTGCCTCAATACGCCCAGAGTCTCATTCTTTACACACTAA CACATTCATGGATAATAAAACAAAAGGTGGTGAAGGTGCTTGACAAATCT ACAAAGGAGACATACCCAGCTGTTTGCATGACGGCCAATGACCCAATCGA CTCTCTGGACAAGTCTCTCTGATCCGTGGAACGCGGTCTTTTTCATCTCT CACCTTCGGAATTGGATACGCTTTGGGTGATGCAGCTCTAGGCGAGCAAG TTTACCGCTGTCATCCATTGTATGTACGGCGGATCTTTGAACCCTTTTCC AGATCAGCATGATTTGTTCGACGGTTTGGCACCCCAAATCCAGAGGTCCT CGCCCAAAAACAGCTGTTCCTGGGCTCACAACAATAATAACAACCACAGC AAGCTCCTCCATCATGACAGCGACAACTTCAACGGGAATGAGGCCTATTT GGGCCGGGCCTCGGGCCCTGCCGGCATTACGTCCCCCACTGGTGGCAAAG TAGCAGCCGGTTCCATTGATCCCAATCACCCGAGTAGTAATAGCAGTAGC AGCCAGCAGAAGCCCAGTGGATCGGGCTCCTCCACGAAGCAACCTTCTTG GAGCCAGGAGCAATTGCAAGAAGCCATCTATTCCGTGATTACCCAAAAAA TGCGATTCACCCAAGCCTCCTCCAGATATGGAATTCCCAAAGGAACTCTC TACGACAACATCTTAGGGAAATCCAACCGAATGAAGGCATTGGAAGAGAT CGCCTTGGGCCACGAACAAGAGATTGGCATCTTGGAATTCTGCTGCGAGA TCAGTATGATGCCCTACAATCGTCGAACCAGTCGGAGTCTGCCCGCGGTT ATCGCCTTCGTGGAGAACTTGATCAACCGGACCAAGAGCAGGAAATTGGG CGGGGAATTCAAATTTAATCTGCGCAAGGGATTTCGGTGGTGGTGGGCAT TCTGCAAGAAGTATTCGATCATCTCGCTCTACTTCGACAACTCCCAGCCT CTCGTTGATGTGAGCAAGGTGGACTTGGATAGCGACACCTTTGACACGGT CCAGTGCAATGACGTGGTTCTGCCTCTCCCGCCGCCACCCCCGGCCCACT CCCAGCCCGTAATGCGGGCTCCACACCCACTCATGTCCAGCTACTACCAC GAGGTGGCCCATATCTACTCTCAGTATCTTGCCCCTCACCACCCGGTCGC CGTGGCTCATCAGACTCACGGAGCAGCCTCGCCTCAATCCCCATTTCATC CTCAGAATTTGAGTCTACCGCACGGCAGAAAAGTCGGCAGGGAAGATCAG TCCTTAGATTGAGCCAAACTGAAATTCCAATAACGCAGAGCATATACTAG AACATGTACGTAGTACAATCAAGTCACTTGAAACCCCCGAGGCCATGCCC AGAGGGTTGGCCCACAATAGGGGATTTTTATATCGCCAAATCCAGAAAAC CCCTTTCTGATGAGCCGAAACTAACTTCTTGTGAAATTCGATCGAAATTG AACACCTTGTTGGACATTTCGGCTTGGAAATGTCTTTTGGAACGGGTCCA TGGCTGCGGTATTACTGCTCCAATCTCATTGCTCCGCTTACTCATCTCAA AATTATAGACTGGTGTTTTTGGCAATGCATGGCAATACCAAATAGAGGCC TAACAATGCAACCAGAGGAAAAAGATCATCGAACACAAATTCTAGTCTCA ACTACTAAAAGTCTAGTCTCAAGAAACCACTTTCTTCTCCTTCGTGATAC ACATATTTATTTGGTCTTGCTCCATTAAAGACCAACACCGATTTCATCCA CCTGCGGATACCTCTTTTCCTACTATTTTGTTAATTTTCGTTGTTGCCGA GTATTGTTATTATCCTTTGTTAAATGTGTTCACCCATGAATCGAAAACGT TCCACGAGTATAGCCTCTCAGTGAGGGAATGAACATATTTTCAAATTCCA GCCATTCCTTTCCGCTCTCAAATTTAATTATAATCCAAACTGGAACATTT TTTCCTGCTCCTCATTTCTCTGATGAATAATTTTTCTCCAGCCAACGTAT TAAGTTGATGAATAAATTAAACTTTTCAACCCTGAGTACAACTTGCTGCC TTAGCTGGCCAAACCGCTGGAACATTATTTCTGGAACACGGGCAATTTGG GCGCCTACCCACTCATTTTTTTTCACCCAAGCACTCGATCCCCGTACACA GTTTACAGCTTCCGACTCGATTATAATGATTCCAAGAAGTTGGAAGCTCA ACCCGAGGGGACTAGTTTCTCACAGTCTCGATAGGTCAAGATTTGGAACA TCTCGATATTTAAAAAGCTAACTGACTCCGCAATGAAGTATGCGTTGGTG TACCTCTGAACTAAAAATGGCAGGTCAATATATGTGTTTCTGATCTAGAT CTACAGTAGCTAAGACATGTACGAACTGTTTGTCAAAACGCCCGGCAAAT ATGCCTTACTGTGTATAATGAAAATGAGTGCACACACTGTGTCTAATGCT CTATAGTATTTCGATTGGATAAAAAAACTCACTTCAATACAACTTAGTAG TAGGACTAGTAGTTCGACGGTAGTTTTTTGTTCATTTTTGTCTGATGCTT TTTTATTCGCCAAAGTGGTGAAAAATGAAGCAGAGATTGGTGAACGGAAA GTCCAAGATGAATACTTAAGATCCCTAGTTGTATCATTTCCCTCTGGAAC ATTTCATTATGTACGACGTCATACACCTGGTTCGAAGTCAAGTTCGTCAG CTAAATACCTATAAGAAAAATAGAGATTATTTATATTTAGAAAGAGAGGG TAGTCTAGGAAATAAAATTTGCTCCAAATTTGTTCAACCCAATTGCCGTG GTTTGAAGCCATGTTTAAACAAGGAGCTCTACATAAGAACTAGATGGAGT GGAAGCTTCAAGAATATGCGTTCTAAGCCAGAGATGCTGGGCCAATTCTG CCTGCCTTGATCAGCTCAGTCAGCCGAAGGAGGTGTAGCCACTAATGGGT TCCAAGGGATCTCAAAGTTTGATCGAGCCAGGCCGAATTGGCCACGCGTG TCTCTCTGCCTCAGAACGCATATTCTTGAAGTCACGTGACCATTTTTGGA AGCTTCCGCTCCATCTAGTTTGTATTTAGTGCTCCTTGGTTGATAGAGTA AATCAATGACTAGATACTCGATATACAATTCCTGGCTCTAGTTTGAAGCC AACGTTTTTCCGAATATTGAAATTCTTGGTTATATGTATTAGCAATTCCG CTTCACGAAGATTCGGGCTAATTTCGAATGAATGCAAGCATAAGAGTGTA ATTAAGACATTCTGAATCAACTTTGGTCCTTCAACCATTTTTGGGCTCAA AATCCTTTTTGCCCTTTTGTTCACATCGATCACGCTAAATATCAAATCCC CGTATGTATATCAGGGATTTGTGTGTGTAATAGTTTATTTCCTGCAATAT AAAATTTGGTATTTGCCCGGGAGTCAACACTTAGCAAACGAATGCTAGTC AATAGTGTTAGGGCCGTTTATAAGTATATGTATCATCCGCTCGTCGTAAA ATTAGTTCCATGGTTATACAATTTGATGACAAGTATTGTCACTAATGAAT TTGGCTAATGACAAACCTACTGTAGGCGTGCATTTGCTAAACCCGGGGAC CTACCTACAAGAGTGCGTTTGGCCAGTAGTTCAGTTCTAATCGTCTTCAT TACGCATGAAATATAGCTACAATCGAATTTATCCAAGCATAAATACAAAA TCAACCGGCTTTTATGGTCCGGAAAAATAGTCGATCTGAAGACGGAATGT CGAAATTGGAGATGCCAGCCCAGAGCTGGAATATTTGATCGTTAATTTAA CAATAATATTCATGGGGATTCATTACTCCTCCGGTGGAGCCATCATCCTC TTGGGATTGAAATTAAAATCAAGTTACATTCCCCCTCACTCACACACGCA TGTACCTGCGTACAGTATGTGTATGCACCTGTCTCTGCATTGGGGAGGCT CATACGGACTGCTTGGAGAATGTACGAAGAGTGTCATGACCAATAAATTT TCATGGACTCGCTCTGAAATTCGATATTTTCTAAATTCAATTGGCCCTTC ACCAACGATGACTCTGACTATCCATCGAGGTGAGCTTTCAATCCGGTGGT GTTGAGACTTCTAGCTTTTGCCCGACATTCGGGACCGGGCTCCAAAGCTG TGCCCATGTATGCGTTTCGGATTCAATCCCAGGCACACATTGGCTCGCTG GCCTGATGTCTGTGGCACCACTGCCCTTCGAAGCAATGCAAATATTAACT TTTCAGATCGAGAGTACAGTGGCACTTCTCAGAAGTTCGAGGCAGTCGTG AATTATTTAATATTCTATCAAATTTAACTCCAATCGAAGTGAATTTGAGA TTAAATGCGCCCCCCTCGAAAAGTCGTGCACACACATGTTCGCCTCTTTT CTTTGCAGGTTTGA
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Synonyms
The feature 'hypothetical protein YQE_10194 partial' has the following synonyms
Synonym
Tk02442
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