hypothetical protein YQE_12379 partial, maker-scaffold916_size81488-snap-gene-0.9 (gene) Tigriopus kingsejongensis

Overview
Namehypothetical protein YQE_12379 partial
Unique Namemaker-scaffold916_size81488-snap-gene-0.9
Typegene
OrganismTigriopus kingsejongensis (Tigriopus kingsejongensis)
Associated RNAi Experiments

Nothing found

Homology
BLAST of hypothetical protein YQE_12379 partial vs. L. salmonis genes
Match: EMLSAG00000001498 (supercontig:LSalAtl2s:LSalAtl2s1258:22450:26240:1 gene:EMLSAG00000001498 transcript:EMLSAT00000001498 description:"maker-LSalAtl2s1258-augustus-gene-0.18")

HSP 1 Score: 185.652 bits (470), Expect = 2.444e-54
Identity = 101/268 (37.69%), Postives = 147/268 (54.85%), Query Frame = 0
Query:  225 MKTLLCFFLVAAIAQSYAEDD--SHREQRYFSLFNVVKFKNDGCLGTNGEV-----GTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGS--CSHTFDRICDDLCQIRLDFQSVQMAIEPTGECI-DTLVVTSPTQKNPPVVCGRLDGQHMYLDT---SNTGNGGSIAFTYATGESMRYKIKVTFYECTNLAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNMDVSV 479
            M+ LL    +       + D   S ++Q+YFSL N+V+F N  C   +        GTC  + +C+++GG + GNCASGFGVCC  T+ SCG T+ +NCT +QNP +PS  T  G+  CS+T  R  D +C IRLDF++  +     G C+ +  + TSPT    PV+CG L G HMY+ +   S T     I F  A+     + IKVT   C ++   P+GC+QY+TG     +N+  N   ++    Y  C+RQE G+C +  SV
Sbjct:    1 MRYLLYILFIYVFIDQISVDGAPSKKKQKYFSLLNIVRFANQKCTTQSSTPLASRHGTCFTRDECNNNGGLIDGNCASGFGVCCVLTLKSCGGTITQNCTYVQNPEFPSGFTLGGNTMCSYTVPRNMDGICSIRLDFETFSIRQPVQGNCLNENFMATSPTGLVLPVLCGTLTGSHMYISSGTVSQTAASFKINFDPASNAVRSWDIKVTMIPCNSMTLPPDGCLQYYTGTTAKIQNF--NFGALLQSQAYNICLRQEAGFCTVSYSV 266          
BLAST of hypothetical protein YQE_12379 partial vs. L. salmonis genes
Match: EMLSAG00000000067 (supercontig:LSalAtl2s:LSalAtl2s100:474667:476504:1 gene:EMLSAG00000000067 transcript:EMLSAT00000000067 description:"maker-LSalAtl2s100-augustus-gene-4.19")

HSP 1 Score: 174.866 bits (442), Expect = 2.683e-50
Identity = 104/266 (39.10%), Postives = 143/266 (53.76%), Query Frame = 0
Query:  225 MKTLLCFFLVAAIAQSYAEDDSHREQRYFSLFNVVKFKNDGCLGTNGEV-GTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIEPTGEC----IDTLVVTSPTQKNPP---VVCG-RLDGQHMYLDTSNTGN-GGSIAFTYATGESMRYKIKVTFYECTNLAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNMDVSVV 480
            MK  L    +    ++    +  ++ R  SLF+VV F N  C G+  +  G C    +C+ +GG   GNCASGFGVCC FTVS+CGTTV +N T + NP    +  +        + +  ++CQIRLDF ++ +    TGEC     D L  TSP+   PP    +CG  L G HMY++T  TG+ G S A   ATG S  +KIKVT  EC    KAPE C QYFTG+   F++Y    +  +    Y+ C+RQE G C +  + V
Sbjct:    1 MKIYLLLLWIFIGTRTSMGKELRQDGRSLSLFSVVTFDNVECTGSASKKHGICFTSDECTENGGSADGNCASGFGVCCTFTVSTCGTTVSRNLTYVTNPXXXXIRLQEPVHLQLIESMTVNICQIRLDFDTLVLTEPATGECSSTNTDKLTFTSPSGFVPPGTGGLCGDSLSGDHMYIETGLTGSVGMSFAIGSATG-SRTWKIKVTQIECGTSWKAPEDCAQYFTGISGEFQSYNNVGDQTLQSQNYKYCIRQEAGMCGIQYTSV 265          
BLAST of hypothetical protein YQE_12379 partial vs. L. salmonis genes
Match: EMLSAG00000005167 (supercontig:LSalAtl2s:LSalAtl2s272:99930:102894:1 gene:EMLSAG00000005167 transcript:EMLSAT00000005167 description:"maker-LSalAtl2s272-augustus-gene-1.13")

HSP 1 Score: 143.28 bits (360), Expect = 4.809e-39
Identity = 83/223 (37.22%), Postives = 125/223 (56.05%), Query Frame = 0
Query:  274 GTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYP--SLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIEPTGEC----IDTLVVTSPTQKNPP---VVCGR-LDGQHMYLDTSNTGNGGSIAFTYATGESM----RYKIKVTFYECTNLAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNMDVSVVGN 482
            GTC   S+C+  GG   GNCA+GFGVCC F V +CG+T+ +N +  ++P +P     T A +C+ T  R   ++C IRLDF+++  +    G C     D + +TSP+  +PP    +CG  L GQHMY+DT+     G++ F    G +      + IKVT   C ++ + P+GC QYFTG   + K+Y  +   +     Y  C+RQE G+C +D S VG+
Sbjct:    3 GTCYSSSECAEKGGRAAGNCAAGFGVCCLFIVDTCGSTISRNNSYFRSPGFPTAFTVTAATACAFTIQRCQSNICSIRLDFENLIXSEPADGACGANNFDKITITSPSGFSPPGPGGLCGDGLSGQHMYVDTTLA---GAVTFNVDAGTAAIANRAWNIKVTQIACDDMNRPPQGCTQYFTGPSGSIKSYNFDGGQINDGHLYSNCIRQEEGFCGIDYSAVGD 222          
BLAST of hypothetical protein YQE_12379 partial vs. L. salmonis genes
Match: EMLSAG00000012915 (supercontig:LSalAtl2s:LSalAtl2s981:97777:103010:-1 gene:EMLSAG00000012915 transcript:EMLSAT00000012915 description:"maker-LSalAtl2s981-augustus-gene-1.57")

HSP 1 Score: 145.976 bits (367), Expect = 7.174e-38
Identity = 78/226 (34.51%), Postives = 131/226 (57.96%), Query Frame = 0
Query:  237 IAQSYAEDDSHREQRYFSLFNVVKFKNDGC----------LGTNGEVGTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIEPT------GECIDTLVVTSPT--QKNPPVVCGRLDGQHMYLDTSN-TGNGGSIAFTYATGESMR-YKIKVTFYECTNLAKAPEGCVQYFTGL 442
             ++S +++D  R+ ++ SLF++V+FKN+ C           G+    GTC    +C++ GG   G CA+GFGVCC F VSS G+T+++NCT   NP +P+  T + + S+T ++   D+C++RLDF+S       +      G+C+DT ++T+ T   ++ P +CG+  GQH+Y+D  N   +   + F +     +R ++IKV+  +C     AP GC+QY  GL
Sbjct:  290 FSKSTSKND--RDGKFLSLFSIVQFKNEACRSTSTISNGGSGSTSRNGTCYTDVECTNKGGLAAGQCAAGFGVCCVFLVSSSGSTIRENCTYXTNPGFPNAYTGSTAVSYTINKAHIDICKLRLDFESFTTNGPSSSEEVDGGKCVDTFMITTSTLVDQSVPTICGQNTGQHVYIDIGNGESDTAQMRFNFMGDSGVRMWEIKVSQLKCDAPFSAPPGCLQYHEGL 513          
BLAST of hypothetical protein YQE_12379 partial vs. L. salmonis genes
Match: EMLSAG00000005166 (supercontig:LSalAtl2s:LSalAtl2s272:98980:103362:-1 gene:EMLSAG00000005166 transcript:EMLSAT00000005166 description:"maker-LSalAtl2s272-augustus-gene-1.14")

HSP 1 Score: 145.206 bits (365), Expect = 1.557e-37
Identity = 100/338 (29.59%), Postives = 156/338 (46.15%), Query Frame = 0
Query:  169 VSRESMRRIVRKDLKIYPYKIQKQQLLSAKTMEKRLERAKNLKAFFKSRTPPSIVTMKTLLCFF-LVAAIAQSYAEDDSHREQRYFSLFNVVKFKNDGCLGTNGEVGTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLET-KAGSCSHTFDRICDDLCQIRLDFQSVQMA------------------IEPTGECI-DTLVVTSPTQKNPPVVCGRLDGQHMYLDTSNTGNGGSIAFTYATGESMRYKIKVTFYECTNLAK--APEGCVQYFTGLGNTFKNYG--------KNDEVMIHEMQYRTCMRQELGYCNM 475
            ++++S+   V +   +         +LS +T  KR       K + +  +P S +++  LLC    + A A    ED   ++++  S+FNVV F N  C G+  + GTC    +C + GG   G+CASG+GVCC  T+ SCG T   NCT I+  S+ S  +  +  C++T  +  + +C+IRLDF +  +A                     TG+C+ D+   TSP  +  PV+CG   GQHM LD S+  N  +     +   S  + IK T Y C +      P GC+QYFTG      ++               +    Y  C RQE   C++
Sbjct:  267 LNKKSLYYYVTQXTHLAEVSDDVHSVLSKETTLKRD------KPWDQKNSPCSFISLLILLCTINELDATANDVVED--KKDEKLLSIFNVVTFPNTFCTGSASKNGTCYTADECETRGGTASGSCASGYGVCCXITL-SCGGTSSDNCTYIEQSSFTSTSSLNSNPCTYTICKNSNMICRIRLDFTTFTIANPFTTPVGADAAGTTITNAGATGDCVTDSFSFTSPGSRGSPVICGANSGQHMILDASDECNVLNFNIGSSAATSRSWIIKATQYTCGDYDSLGGPPGCLQYFTGTTGKISSFNYPTSETTTTTSSSHLSNQCYSICFRQEATKCSI 595          
BLAST of hypothetical protein YQE_12379 partial vs. L. salmonis genes
Match: EMLSAG00000004324 (supercontig:LSalAtl2s:LSalAtl2s227:172946:176787:1 gene:EMLSAG00000004324 transcript:EMLSAT00000004324 description:"maker-LSalAtl2s227-augustus-gene-1.18")

HSP 1 Score: 137.117 bits (344), Expect = 9.966e-37
Identity = 85/244 (34.84%), Postives = 120/244 (49.18%), Query Frame = 0
Query:  248 REQRYFSLFNVVKFKNDGCLGTNGEVGTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIEPT-GECI----------DTLVVTSPTQKNPPVV---CGR-LDGQHMYLDTSNTGNGGSIAFTYATGESMRYKIKVTFYECTNLAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNMD 476
            RE + F LFN+VKF N  C   +  +G C    +C +  G + G+CASGFGVCC F+V+ CG+TV +N T I+NP +PS      +CS+T ++    +CQ+RLDF+ +  A EPT G C           D + VTSPT  NPP +   CG  L+GQH                                      +KAP GC QYFT       +Y +  E M     Y+ C+R+  G+C+++
Sbjct:   26 RESKQFGLFNIVKFDNVEC---SERMGVCFTTGECENRNGKINGHCASGFGVCCVFSVTDCGSTVSQNVTYIRNPGFPSALRSTQTCSYTINKASPKICQLRLDFERLATA-EPTDGVCGKSGAGAAGTGDKVTVTSPTGFNPPGIGGLCGENLNGQH--------------------------------------SKAPTGCTQYFTEKSGVISSYNRAGERMPAGSSYQNCVRRANGFCSIE 227          
BLAST of hypothetical protein YQE_12379 partial vs. L. salmonis genes
Match: EMLSAG00000009716 (supercontig:LSalAtl2s:LSalAtl2s627:172122:174346:-1 gene:EMLSAG00000009716 transcript:EMLSAT00000009716 description:"maker-LSalAtl2s627-augustus-gene-1.20")

HSP 1 Score: 133.65 bits (335), Expect = 1.134e-35
Identity = 86/256 (33.59%), Postives = 125/256 (48.83%), Query Frame = 0
Query:  246 SHREQRYFSLFNVVKFKNDGCLGTNGEV-----GTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIE-PTGEC-IDTLVVTSPTQKNPPVVCGRLDGQHMYLDT-SNTGNGGSIAFTYAT---GESMRYKIKVTFYECTN-LAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNMDVSVVGNAPTTNPS 489
            + ++ R  SL NVV F+N  C   +  V     GTC    +C + GG V G CASGFG CC FT+++C  ++  NCT I NP  P                   +C+IRLDFQ+  +    P G C ++   VTS ++ N P  CG L  QHMY+ T +  G+ G++   + T     + R+ IKVT   C++ L+  P+GC+QYFTG      N    D   I       C+  +L   N D +++      NP+
Sbjct:   30 APKDARLISLLNVVTFQNSACAAASSTVSNPIQGTCFSAGECGAMGGRVDGTCASGFGACCVFTLTACTGSIANNCTYIMNPGSPG------------------ICRIRLDFQNFVINTPMPDGTCPVEKFTVTSTSRNNIPNFCGTLTNQHMYITTPTGPGDLGTLTINFDTTLMNANRRWNIKVTRIHCSDTLSLPPDGCLQYFTG------NSAIPDPFEISGGGPNVCLDAKLLISNGDPNIICGQKFLNPT 261          
BLAST of hypothetical protein YQE_12379 partial vs. L. salmonis genes
Match: EMLSAG00000009824 (supercontig:LSalAtl2s:LSalAtl2s639:583718:585337:-1 gene:EMLSAG00000009824 transcript:EMLSAT00000009824 description:"maker-LSalAtl2s639-snap-gene-5.20")

HSP 1 Score: 134.42 bits (337), Expect = 4.128e-35
Identity = 101/320 (31.56%), Postives = 151/320 (47.19%), Query Frame = 0
Query:  204 LERAKNLKAFFKSRTPPSIVTMKTLLCFFLVAAIAQSYAEDDSHREQRYF--SLFNVVKFKNDGCLGTNGEV-----GTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPS------YP-------SLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIEPTGECI---DTLVVTSPTQKNPPVVCGRLDGQHMYLDTSNTGNGGSIAFTYATGE---SMRYKIKVTFYECTN-LAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNMDVSVVGNAPTTNPSFMLGGAA 496
            L+  K+     K R P +I T   L    ++       +   +H    YF  +L NVV F+N  C   +        GTC    +CS  GG + G CASGFGVCC F +      ++        P       +P       S E K  +C      I  D+C+IRLDF+++Q+   PT   +   + + VTS ++ N P  CG L  QHMY+ T+ TG+ G+ A  + T +   +  + IKVT   C + L+  P+GC+QYFTGL    K+Y  N  V++    Y +C+R E G+C+  V    +A      F++G  A
Sbjct:   13 LQSTKSFVYTLKPRDPITIQTTPILRWRHVLRCAFHFLSVLYNHCFNSYFKSNLLNVVTFRNSPCTAVSSTASSSRQGTCFSSEECSQKGGQIDGTCASGFGVCCIFKIVRIFKILEPPVVSPLVPPQVVATHFPEQIWVKYSNELKQSNCQP----ISIDICRIRLDFKTLQLRQAPTATGVCGNENIAVTSTSRNNIPSFCGILTNQHMYITTAETGDLGAFALNFDTADVTTTRSWDIKVTQVACDDTLSLPPDGCLQYFTGLSGNVKSY--NFGVLLASTAYDSCIRNERGFCS--VRYTESATAVPDPFIIGADA 324          
BLAST of hypothetical protein YQE_12379 partial vs. L. salmonis genes
Match: EMLSAG00000001870 (supercontig:LSalAtl2s:LSalAtl2s1321:64989:68237:-1 gene:EMLSAG00000001870 transcript:EMLSAT00000001870 description:"maker-LSalAtl2s1321-augustus-gene-0.18")

HSP 1 Score: 131.339 bits (329), Expect = 1.405e-34
Identity = 79/210 (37.62%), Postives = 113/210 (53.81%), Query Frame = 0
Query:  253 FSLFNVVKFKNDGCLGTNGEV----GTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIEPTGEC-----------IDTLVVTSPTQKNP-----PVVCGRLDGQHMYLDTSN-TGNGGSIAFTYATGESMR-YKIKVTFYECTNLAKAPEG--CVQY 438
            FSLF+VV+F+N  C   +G      GTC+K+S+C+  GG    NCASGFGVCC F + +CG+  ++NCT IQNP +P+       CS+T  R  +++C++RLDF+ +    EP G              D   V +    NP     PV+CG   GQH+Y+D  N  G+  S+ F +   +  R + IKVT   C  +   P G  C+QY
Sbjct:    1 FSLFSVVQFRNTVCAIGSGASRIRNGTCLKQSECADRGGSGRANCASGFGVCCFFAIQTCGSVARENCTYIQNPGFPTPYRVLTPCSYTIQRCSNNVCRLRLDFE-MFTTFEPAGTIETDDGGVCNPRWDQFSVQNLNTGNPMNSIIPVICGENTGQHIYIDIGNQDGDSASLNFAFRQEQRDRVWDIKVTQIPCNTIDDPPAGHCCIQY 209          
BLAST of hypothetical protein YQE_12379 partial vs. L. salmonis genes
Match: EMLSAG00000000642 (supercontig:LSalAtl2s:LSalAtl2s10:144553:177864:1 gene:EMLSAG00000000642 transcript:EMLSAT00000000642 description:"augustus_masked-LSalAtl2s10-processed-gene-1.2")

HSP 1 Score: 124.79 bits (312), Expect = 2.879e-32
Identity = 81/268 (30.22%), Postives = 133/268 (49.63%), Query Frame = 0
Query:  226 KTLLCFFLVAAIAQSYAEDDSHREQRYFSLFNVVKFKNDGC-LGTNGEVGTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSL-ETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIEP------TGEC-IDTLVVTSPTQKNPPVVCGRLDGQHMYLDTSNTG--NGGSIAFTYATGESMRYKIKVTFYECTNLAKAPEGCVQYF---TGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNMDVSV 479
            K +L   L    A  ++  +  ++ ++ SLF++V F++  C    +   GTC+    C+++ G   G CASGFG CC F   +CG+ V +N T I +P YPS+ ++    C +       ++C +RLDF   ++   P       G C +DT V+   T  + PV+CG   G H+YLD ++    +G  + F +      R++I  +  EC N  +A  GC+QY+   TG  NTF N+       +   +Y  C R+ L  C ++  V
Sbjct:    2 KVVLILILCPIFA--FSSKNLPKKDKFLSLFHIVTFQDFICPSALDSRNGTCLSAQKCTTNSGIPSGKCASGFGTCCVFETQTCGSKVLRNMTYITSPDYPSMIKSSLTQCDYRIQAEMKNICSLRLDFDRFEVRGPPGRNELNGGACSLDTFVIQG-TLGSVPVICGLNTGAHIYLDVNDNALKSGIELKFQFKGXGQRRWRILSSEIECNNPGRARPGCLQYYFESTGRINTF-NFNAMGSSHLASQKYAICFRRNLNTCCIEYRV 265          
BLAST of hypothetical protein YQE_12379 partial vs. nr
Match: gi|1325273897|ref|XP_023321599.1| (uncharacterized protein LOC111696274 [Eurytemora affinis])

HSP 1 Score: 189.889 bits (481), Expect = 1.238e-51
Identity = 98/257 (38.13%), Postives = 147/257 (57.20%), Query Frame = 0
Query:  233 LVAAIAQSYAEDDSHREQRYFSLFNVVKFKNDGC--LGTNGEVGTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIE--PTGEC---------IDTLVVTSPTQKNPPVVCGRLDGQHMYLDTSNT-GNGGSIAFTYATGESMRYKIKVTFYECTNLAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNM 475
            + A + ++      +R ++  SLF+VV F N  C  L ++   GTC+  S+C S GG   G CA+GFGVCC FT S+C +TV  N + I NP +PS    AG+C++T ++I  D+CQ+RLDF ++  ++   P G C          D+L V   T KNPPV+CG   G+HMY++T  T G+  S+AF      + ++ +KV+   C+   +AP  CV+YFTG   T  +YG   +  +    Y +C+RQE GYC +
Sbjct:   25 ITAGVIETSNNTTENRNEKVLSLFSVVNFPNLECNSLSSSFARGTCLASSECQSKGGTTSGTCAAGFGVCCLFTTSACSSTVSNNVSYITNPGFPSTYNTAGTCTYTVNKISSDICQLRLDFITLVQSVSTNPQGCCGAAPTCTIASDSLTVLGKTGKNPPVICGTNTGEHMYVETGATDGDTVSLAFLVTGTSNDQWNVKVSQIPCSASYRAPSNCVKYFTGSSGTVTSYGFPGDTQLTSQNYESCIRQEKGYCGI 281          
BLAST of hypothetical protein YQE_12379 partial vs. nr
Match: gi|1325295830|ref|XP_023330808.1| (uncharacterized protein LOC111703166 [Eurytemora affinis])

HSP 1 Score: 189.119 bits (479), Expect = 2.258e-51
Identity = 96/249 (38.55%), Postives = 145/249 (58.23%), Query Frame = 0
Query:  243 EDDSHREQRYFSLFNVVKFKNDGC--LGTNGEVGTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIE--PTGEC----------IDTLVVTSPTQKNPPVVCGRLDGQHMYLDTSNT-GNGGSIAFTYATGESMRYKIKVTFYECTNLAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNMD 476
            E ++ R ++  SLF++V F N  C  L  +  +GTC   S+C S GG   G+CA+GFGVCC F+ S+C +TV  N + I NP +PS    AG+C++T +++  D+CQ+RLDF ++  A+   P G C           D+L V   T KNPPV+CG   GQHMY++T  T G+  S+AF+     + ++ ++V+   C+   +AP  CV+YFTG   T  +YG      +    Y +C+RQE GYC ++
Sbjct:   31 EPETKRNEKILSLFSIVNFPNLECNSLSASFAIGTCYATSECESKGGTTSGSCAAGFGVCCLFSKSACSSTVTNNVSYITNPGFPSTYNTAGTCTYTINKVSSDICQLRLDFITLVQAVSTMPQGCCGSTLCTAGFLADSLTVLGKTGKNPPVICGTNTGQHMYVETGATDGDTVSLAFSVIGTTNNQWNVRVSQIPCSASYRAPSQCVKYFTGTKGTVTSYGFAGNTQLTSQNYESCVRQEKGYCGIE 279          
BLAST of hypothetical protein YQE_12379 partial vs. nr
Match: gi|1325303738|ref|XP_023333450.1| (uncharacterized protein LOC111705205 [Eurytemora affinis])

HSP 1 Score: 186.808 bits (473), Expect = 8.148e-50
Identity = 110/270 (40.74%), Postives = 155/270 (57.41%), Query Frame = 0
Query:  247 HREQRYFSLFNVVKFKNDGC--LGTNGEVGTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDF-QSVQMAIEPTGEC--------IDTLVVTSPTQKNPPVVCGRLDGQHMYLDTSN-TGNGGSIAFTYATGESMRYKIKVTFYECTNLAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNM--DVSVVGNAPTTNPSFMLGGAAPVGTAQ 502
            +R++R FSLFN+V+F N  C  L T   VGTC   S+C+S GG   G+CA+GFGVCC F  S+CG T   N T I NP +P+    AG+C+ T ++   D+CQ+RLDF  SVQ     T  C         D+L VT  T  NPPV+CG   G+HMY++  +   +  S+AF+ A   + ++ I+V+   C+   +AP  CV+YFTG   T  +YG     ++    Y +C+RQE G+C++  D S V  AP  +P F L GA   G A+
Sbjct:   85 NRKERIFSLFNIVQFPNLACNSLDTVFPVGTCFTTSECTSKGGTTSGSCAAGFGVCCLFKSSTCGGTFSNNMTYITNPGFPATFNTAGTCTFTVNKCQADICQLRLDFLTSVQGVSANTQGCCGAGCTTAADSLTVTGQTGVNPPVICGTNTGEHMYVEVGSLAADSVSLAFSVAGTTNDQWNIRVSQIPCSANYRAPTNCVKYFTGSSGTVTSYGFTGNTLLQSQNYDSCIRQEAGFCSIQWDESTV-TAP-ADP-FDLTGAQAAGAAE 351          
BLAST of hypothetical protein YQE_12379 partial vs. nr
Match: gi|1325334262|ref|XP_023348958.1| (uncharacterized protein LOC111717712 [Eurytemora affinis])

HSP 1 Score: 182.57 bits (462), Expect = 8.646e-49
Identity = 93/237 (39.24%), Postives = 141/237 (59.49%), Query Frame = 0
Query:  248 REQRYFSLFNVVKFKNDGCLGTNGE---VGTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPS--LETKAGSCSHTFDRICDDLCQIRLDFQSVQ-MAIEPTGECIDTLVVTSPTQKNPPVVCGRLDGQHMYLDT-SNTGNGGSIAFTYATGESMR-YKIKVTFYECTNLAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNMD 476
            R+++  SLF +V F N  C+ +N      GTC+  S+C+S  G   G CA+GFGVCC   VS+CG+TV  N T IQNP YPS    T  G+C +T ++   D+CQ+RLDFQ+    ++   G   D++ +T  T +NPP + G   G HMY++  ++TG+  ++  T+ +  S + Y I V   EC++  +AP+ CVQYFTG   T ++YG     ++  M Y+ C+R E GYC ++
Sbjct:   38 RDKKTLSLFAIVNFPNLRCVTSNSGSTLYGTCISTSECTSRSGSAAGTCAAGFGVCCYLAVSTCGSTVNYNNTYIQNPGYPSTYTPTATGTCLYTINKASTDVCQLRLDFQTFSGFSVTTAGVKTDSMAITGQTGRNPPSISGTNTGYHMYVNLGADTGDTATVTMTWGSIASAKQYNIFVQQIECSSPQRAPQDCVQYFTGTQGTVQSYGWAGAQLLAGMDYQNCIRTEAGYCGIE 274          
BLAST of hypothetical protein YQE_12379 partial vs. nr
Match: gi|1325334812|ref|XP_023349222.1| (uncharacterized protein LOC111717988 isoform X1 [Eurytemora affinis])

HSP 1 Score: 167.933 bits (424), Expect = 2.850e-43
Identity = 91/235 (38.72%), Postives = 131/235 (55.74%), Query Frame = 0
Query:  248 REQRYFSLFNVVKFKNDGCLGTNGEV--GTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPS--YPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQ-MAIEPTGECIDTLVVTSPTQKNPPVVCGRLDGQHMYLDT-SNTGNGGSIAFTYA-TGESMRYKIKVTFYECTNLAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNM 475
            R+QR  SLF VV F N  C    G    GTC+  S+C+S  G   G CA+GFGVCC   VS+CG+++  N T IQNP        T  G+C +T ++   D+CQ+RLDFQ+    A+   G   D++     T KNPP + G   G HMY++  +++ +  ++  T+     + +Y I V   EC++  KAP+ CVQYFTG   T ++YG     ++  M Y  C+R ELGYC +
Sbjct:   48 RDQRQLSLFAVVNFPNLKCTTKTGSTTYGTCISTSECTSRSGSASGTCAAGFGVCCYMAVSTCGSSLSYNNTYIQNPGYPSTYTPTTTGTCVYTVNKASSDVCQLRLDFQTFSGFAVTSVGAKTDSMAAAGQTGKNPPTISGTNTGYHMYVNVGADSTDTATLTMTWGDIATAKQYNIFVQQIECSSAYKAPQDCVQYFTGTTGTIQSYGWAGSQLLAGMDYNNCVRTELGYCGI 282          
BLAST of hypothetical protein YQE_12379 partial vs. nr
Match: gi|1325334814|ref|XP_023349224.1| (uncharacterized protein LOC111717988 isoform X2 [Eurytemora affinis])

HSP 1 Score: 167.162 bits (422), Expect = 3.667e-43
Identity = 91/235 (38.72%), Postives = 131/235 (55.74%), Query Frame = 0
Query:  248 REQRYFSLFNVVKFKNDGCLGTNGEV--GTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNP--SYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQ-MAIEPTGECIDTLVVTSPTQKNPPVVCGRLDGQHMYLDT-SNTGNGGSIAFTYA-TGESMRYKIKVTFYECTNLAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNM 475
            R+QR  SLF VV F N  C    G    GTC+  S+C+S  G   G CA+GFGVCC   VS+CG+++  N T IQNP        T  G+C +T ++   D+CQ+RLDFQ+    A+   G   D++     T KNPP + G   G HMY++  +++ +  ++  T+     + +Y I V   EC++  KAP+ CVQYFTG   T ++YG     ++  M Y  C+R ELGYC +
Sbjct:   30 RDQRQLSLFAVVNFPNLKCTTKTGSTTYGTCISTSECTSRSGSASGTCAAGFGVCCYMAVSTCGSSLSYNNTYIQNPGYPSTYTPTTTGTCVYTVNKASSDVCQLRLDFQTFSGFAVTSVGAKTDSMAAAGQTGKNPPTISGTNTGYHMYVNVGADSTDTATLTMTWGDIATAKQYNIFVQQIECSSAYKAPQDCVQYFTGTTGTIQSYGWAGSQLLAGMDYNNCVRTELGYCGI 264          
BLAST of hypothetical protein YQE_12379 partial vs. nr
Match: gi|1325319228|ref|XP_023341394.1| (uncharacterized protein LOC111711301 [Eurytemora affinis])

HSP 1 Score: 169.088 bits (427), Expect = 6.329e-43
Identity = 93/238 (39.08%), Postives = 132/238 (55.46%), Query Frame = 0
Query:  250 QRYFSLFNVVKFKNDGCLGTNGEVGTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIEPT--GECI-DTLVVT--SPTQKNPPVVCGRLDGQHMYLDTSNTGNGGSIAFTYATGESMR--YKIKVTFYECTNLAKAPEGCVQYFTGLGNTFK--NYGKNDEVMIHEMQYRTCMRQELGYCNMDVS 478
            +R+ SLF +V FKND C+ T G  GTC   ++C+S GG   G CASGFGVCC FT ++CG +   N T  QN  YPS     GSC  T ++   D+CQ+RLD  S+ ++   T   +C  D  +V+  SP     P +CG   GQHMY+D   + N   +     +G S +  + +KVT  EC++L+KA +GCVQYFTG+   F   N+     + +    Y  C+R E  +C +  S
Sbjct:  133 KRFLSLFTIVSFKNDACVSTGGTNGTCYSSNECTSKGGASAGTCASGFGVCCLFT-ATCGGSTNVNGTYFQNSGYPSTFNSVGSCQLTINKCASDVCQLRLDILSMTLSGPETTDNQCQGDQFIVSGGSPL----PAICGVNTGQHMYVDMGLSSNSPIVLTVVTSGASFQRSFSVKVTQIECSSLSKASDGCVQYFTGVNGQFSSFNFNAGSGLQLSNTDYTVCIRMERNFCGIQYS 365          
BLAST of hypothetical protein YQE_12379 partial vs. nr
Match: gi|1130265099|ref|XP_019770910.1| (PREDICTED: uncharacterized protein LOC109544925 [Dendroctonus ponderosae] >gi|478250484|gb|ENN70979.1| hypothetical protein YQE_12379, partial [Dendroctonus ponderosae])

HSP 1 Score: 164.851 bits (416), Expect = 3.509e-42
Identity = 97/261 (37.16%), Postives = 134/261 (51.34%), Query Frame = 0
Query:  242 AEDDSHREQRYFSLFNVVKFKNDGCLGTNGEVGTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIEPTGE--CIDTLVVTSPTQKNPPVVCGRLDGQHMYLDTSNTGNGGSIAFTYA-TGESMR--YKIKVTFYECTNLAKAPEGCVQYFTGLGNTFK--NYGKNDEVMIHEMQYRTCMRQELGYCNMDVS-VVGNAPTTNPSFMLGG 494
             E+   R  R+ SLF  V+F N  C G+NGE GTC+ ++DC   GG  IGNCASG+GVCC  TV  CG  V++N T   N  YP L    GSC  T  +I   +CQ RLDF  + +    T    CI+   + S    + P +CGR DG H+Y+      +   ++     TG+S +  +KI++T   C++  KA  GC+QYFTG+    K  NY       +    Y  C+R E  +C +  +  V N  T   SF L G
Sbjct:   41 VENSFSRMGRFLSLFTFVQFDNQACTGSNGENGTCVSQTDCQRKGGTSIGNCASGYGVCCSMTV-KCGGIVRENGTFFVNEGYPDLYNGVGSCQVTLMKINPVVCQFRLDFDVMNIMGPETINHICINDQFIVSGGNPSAPAICGRNDGNHLYIAVEKGPSASPVSLNVVTTGDSFQRSWKIRITQIPCSSEVKAENGCLQYFTGVSGQIKSFNYDLTTGRQLSNQDYTICVRAERNFCGIQYTQCVDNVNTRYQSFTLSG 300          
BLAST of hypothetical protein YQE_12379 partial vs. nr
Match: gi|1325327373|ref|XP_023345542.1| (uncharacterized protein LOC111714628 [Eurytemora affinis])

HSP 1 Score: 160.999 bits (406), Expect = 1.363e-41
Identity = 95/240 (39.58%), Postives = 136/240 (56.67%), Query Frame = 0
Query:  276 CMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIE--PTGEC-------IDTLVVTSPTQKNPPVVCGRLDGQHMYLDTSNTGNGG-SIAFTYATGESMRYKIKVTFYECTNLAKAPEGCVQYFTGLGNTFKNYGKNDEVMIHEMQYRTCMRQELGYCNMDVSVVGNAPTTNP---SFMLGGAAPVGTAQ 502
            C    +C S GG   GNCA+GFGVCC FT+SSCG++   N T I NP +PS  T AG+C++T ++  +D+CQ+RLDF ++   +   P G C        D+L V   T  NPP++CG   G+HMY++T N G    S+A   +   S ++ I+V+   CT   +AP  CV+YFTG   T  +YG     ++    Y++C+RQE GYC    S+V +  T N    +F L  A   GTA+
Sbjct:    2 CFATDECRSKGGTSSGNCAAGFGVCCIFTISSCGSSSSNNITYITNPGFPSTYTTAGTCTYTINKCQNDICQLRLDFVTLVQGVSTNPQGCCGSSCTTVSDSLTVRGETGVNPPLICGTNTGEHMYIETGNLGTDSVSLALFVSGTSSNQWNIRVSQIPCTATYRAPNHCVKYFTGTTGTVTSYGFAGSTLLGSQNYKSCIRQETGYC----SIVWDQTTLNSPADAFDLTNAPAAGTAE 237          
BLAST of hypothetical protein YQE_12379 partial vs. nr
Match: gi|546675597|gb|ERL86760.1| (hypothetical protein D910_04166 [Dendroctonus ponderosae])

HSP 1 Score: 162.155 bits (409), Expect = 3.860e-41
Identity = 96/261 (36.78%), Postives = 133/261 (50.96%), Query Frame = 0
Query:  242 AEDDSHREQRYFSLFNVVKFKNDGCLGTNGEVGTCMKKSDCSSHGGDVIGNCASGFGVCCQFTVSSCGTTVKKNCTVIQNPSYPSLETKAGSCSHTFDRICDDLCQIRLDFQSVQMAIEPTGE--CIDTLVVTSPTQKNPPVVCGRLDGQHMYLDTSNTGNGGSIAFTYA-TGESMR--YKIKVTFYECTNLAKAPEGCVQYFTGLGNTFK--NYGKNDEVMIHEMQYRTCMRQELGYCNMDVS-VVGNAPTTNPSFMLGG 494
             E+   R  R+ SLF  V+F N  C G+NGE GTC+ ++DC   GG  IGNCASG+GVCC  TV  CG  V++N T   N  YP      GSC  T  +I   +CQ RLDF  + +    T    CI+   + S    + P +CGR DG H+Y+      +   ++     TG+S +  +KI++T   C++  KA  GC+QYFTG+    K  NY       +    Y  C+R E  +C +  +  V N  T   SF L G
Sbjct:   41 VENSFSRMGRFLSLFTFVQFDNQACTGSNGENGTCVSQTDCQRKGGTSIGNCASGYGVCCSMTV-KCGGIVRENGTFFVNEGYPDSYNGVGSCQVTLMKINPIVCQFRLDFDVMNIMGPETINHICINDQFIVSGGNPSAPAICGRNDGNHLYIAVEKGPSASPVSLNVVTTGDSFQRSWKIRITQIPCSSEVKAENGCLQYFTGVSGQIKSFNYDLTTGRQLSNQDYTICVRAERNFCGIQYTQCVDNVNTRYQSFTLSG 300          
The following BLAST results are available for this feature:
BLAST of hypothetical protein YQE_12379 partial vs. L. salmonis genes
Analysis Date: 2018-04-19 (T. kinsejongensis vs L. Salmonis peptides)
Total hits: 25
Match NameE-valueIdentityDescription
EMLSAG000000014982.444e-5437.69supercontig:LSalAtl2s:LSalAtl2s1258:22450:26240:1 ... [more]
EMLSAG000000000672.683e-5039.10supercontig:LSalAtl2s:LSalAtl2s100:474667:476504:1... [more]
EMLSAG000000051674.809e-3937.22supercontig:LSalAtl2s:LSalAtl2s272:99930:102894:1 ... [more]
EMLSAG000000129157.174e-3834.51supercontig:LSalAtl2s:LSalAtl2s981:97777:103010:-1... [more]
EMLSAG000000051661.557e-3729.59supercontig:LSalAtl2s:LSalAtl2s272:98980:103362:-1... [more]
EMLSAG000000043249.966e-3734.84supercontig:LSalAtl2s:LSalAtl2s227:172946:176787:1... [more]
EMLSAG000000097161.134e-3533.59supercontig:LSalAtl2s:LSalAtl2s627:172122:174346:-... [more]
EMLSAG000000098244.128e-3531.56supercontig:LSalAtl2s:LSalAtl2s639:583718:585337:-... [more]
EMLSAG000000018701.405e-3437.62supercontig:LSalAtl2s:LSalAtl2s1321:64989:68237:-1... [more]
EMLSAG000000006422.879e-3230.22supercontig:LSalAtl2s:LSalAtl2s10:144553:177864:1 ... [more]

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BLAST of hypothetical protein YQE_12379 partial vs. SwissProt
Analysis Date: 2018-04-19 (T. kingejongensis peptided Blastp vs. SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of hypothetical protein YQE_12379 partial vs. nr
Analysis Date: 2018-05-15 (T. kingsejongensis proteins Blastp vs. NR)
Total hits: 25
Match NameE-valueIdentityDescription
gi|1325273897|ref|XP_023321599.1|1.238e-5138.13uncharacterized protein LOC111696274 [Eurytemora a... [more]
gi|1325295830|ref|XP_023330808.1|2.258e-5138.55uncharacterized protein LOC111703166 [Eurytemora a... [more]
gi|1325303738|ref|XP_023333450.1|8.148e-5040.74uncharacterized protein LOC111705205 [Eurytemora a... [more]
gi|1325334262|ref|XP_023348958.1|8.646e-4939.24uncharacterized protein LOC111717712 [Eurytemora a... [more]
gi|1325334812|ref|XP_023349222.1|2.850e-4338.72uncharacterized protein LOC111717988 isoform X1 [E... [more]
gi|1325334814|ref|XP_023349224.1|3.667e-4338.72uncharacterized protein LOC111717988 isoform X2 [E... [more]
gi|1325319228|ref|XP_023341394.1|6.329e-4339.08uncharacterized protein LOC111711301 [Eurytemora a... [more]
gi|1130265099|ref|XP_019770910.1|3.509e-4237.16PREDICTED: uncharacterized protein LOC109544925 [D... [more]
gi|1325327373|ref|XP_023345542.1|1.363e-4139.58uncharacterized protein LOC111714628 [Eurytemora a... [more]
gi|546675597|gb|ERL86760.1|3.860e-4136.78hypothetical protein D910_04166 [Dendroctonus pond... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold916_size81488supercontigscaffold916_size81488:24998..69118 -
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
maker-scaffold916_size81488-snap-gene-0.9-mRNA-1maker-scaffold916_size81488-snap-gene-0.9-mRNA-1Tigriopus kingsejongensismRNA


Sequences
The following sequences are available for this feature:

gene from alignment at scaffold916_size81488:24998..69118-

Legend: mRNA
Hold the cursor over a type above to highlight its positions in the sequence below.
>maker-scaffold916_size81488-snap-gene-0.9 ID=maker-scaffold916_size81488-snap-gene-0.9|Name=hypothetical protein YQE_12379 partial|organism=Tigriopus kingsejongensis|type=gene|length=44121bp|location=Sequence derived from alignment at scaffold916_size81488:24998..69118- (Tigriopus kingsejongensis)
GGGAGACTAGCCGTCCGCATTCATTTTGCGAGTCGTCGCACCGGCGAGTC GTCGCACCGGCGAGTCGTCGCACCGGCGAGTCGTCGCACCGGCGAGTCGT CGCACCGGCGGGTGGCCGTACCGCGAATCGTCGCACCGTTTCGAAAAAAA ACGAACGGCTACGGCCTTCCGTCAAAAAAAACTGCCCGGCACGGGCCGCC CTTCGCATCGGCGACCGACCTGTAAACTCACACACTCAAAATCTTTAATA CTAGGTGATTATGAATTAGTACTTCTGGTTTAGGATTTCGACCGTGTTCA AGCAGTACAGGGTGATGTAAGGAATTCATTTTGTTTATTCTTTTTCTCGG ATGCCAGTATATAATTATTAGAGGCATTTTGAAATTTATTTTTATTACTC AAATGAACCCCATACACTTTACGGTCTTTTCAGGCTTTAAAGAAGAAAAA TAATGGGCTTTTACATGGGGGATACTTATTTTTTGGCTAGAGGCTCTTTT CTGTACTTAACTCAACCTCTTATAAACCTCAATACAAGCCCGTACATTGT GATAGGGTGCTTTCCATGGGTTGGCTTTAGTAGTTGTATTGAGTATTAGG TTTTTGTCTACTCCACTGAACCATTCCCCGTTTTCATGATCAATTAGGTG ATTTTTTGCAAATTCCCATGCTCGCTGAGACTTATCAAGGTAGTGTACTT TGCCTGAGAGCTGATAGGCATTGAGATAACCTACCATAGATTCTGCAATT ACCCACCAAGAGTAATTTTCAATGAGATGGCCAGTGTTTGGGTCTTTTTC ATAAATCATTCCGCCATGATCTCGTAAGCCTTCTAGTGTATCGGCAGCCA TTTTAGTTGCAAGGGCTTTACAGCGTGTGATGAGTTGCTCGTCTCCAAGT ATTTCAGCACTCTCCAATAATAGCCAACTTGCTTCTATGTCATGTCCGTA TGAAATTACGTTGGTGGTAGGTTTCCAGTCTTCAGTGAAGAAAAGTGTCA TTCTTGTATTCCCTTTTCCAATGATTTTATCAAGCATGATTTCTAAACAG TGTTTGAGATGAAATCGAACATCGTCAGACTTGCTAACCGTATACAAATT GGCAAAGCACTCCAATAAATGCAGGTGGGTGTTCATCGATTTACGATCTT GTCCCTTACTTAAAATGTAATTGTCAGTTTCACTCCAATCTTCATTAAAC CCTTCAATATAACCTCCATTGACGGTGTCATAAGCTTTTTCAATAATGGT TTTAAAGCACTCTTTAGCATAAGTAATGGAGTCTAGGTTATTTGGTACGA CCTTGGAGGCTTCGCACATACCGTAAATAAAAAAGCTATGTGCGTAGAGC TGTTTTTTTCTTTCGAGTGGCTTTCCATTACTCCCAATATCCCAAAATAC GCCGTTCTTTTCTTGATCCCAGTGTTGTGTTGATAAATGAAAAGATGCCC TCGCAGCAAGTTCTTTCCATTTGGGGGTTAAGTGGAGATATGGAGCAAGT TCAGGTCTTGACTTTACGAAATGAACGGCTTGGCTAAATCCCCAAGCTAT TCGGCCCATGGCAACGGTAGATCGAGGGCCTTCCAGTACCTGGTTGTCAT TGGTAATACTAGCGTAAAAACCAGTAGTAAGTCCTGGCGGTACTGCATTC TCTGTCCAGAAAGCCATTATGTCAAAAAACTCTGAAAGTACTTGGGTTTT ATAGTTTTGTATTGTCATTTTTTTTTGTCTTACTCGAAGAAAGGGACATC CTTTGCGGCATATTTACGCATACCTTCAATATTTATTTCAACACCTATAC CAGGTTTCTCACTTAGGGTGATGTGTCCATCTTGGGTCATTTCACCTTCA AAGTTTACTATTTCTTTAAATTTGGGGTCTTTGTGAAAGTATATTTGCCA CTCAAGTATCATAAAATTGGGTACGGAGGCACATACATGACATGAGGCCA TAGCACCTAAATAAGAAGCAACCATGTGTGGAGAAAAAGGGACATAATAC AGGTTGGCAAGGTTTGCGATGCGTTGAGCTTCTCCGAGTCCACCTGCTTT TTGAAGATCTGGCATAATAATATCTACAGCTCCAGCTTCTAATAAAGGAC GGAAACCATGGGCTAGATAATGGTTTTCTCCAGCACAAATAGGTGTGGAA GTAGAATCTGTTATTTTTTTATATGCCTCTGCATTTTCTGCAGGAATGGG CTCTTCAAGCCACATCATATTTAATGGTTCCAGCATCTTTGCTACTCGCT CACCAGTAGTGGTATCATACTTACCGTGCATATCTGCACAAATGTCAATA TTGGGGCCTACTTCTTGTCTTGCAGCAGCCATTTGATCATACATTCTTTG TAGTTCTCCGGGGCTTGCCGTCCAGTTATATTTATCGTATTTATTTGGGT CTTTTGATTGGTCTAAGTCAAACTTTACAGCAGTGAAACCCATATCTACC GCCTCACGTGCCGATTCGGCAAATTTTTCAGGGGCGGGTAAGCTTCCCTG ATATAGGGCTGTATCCATGTAAACCCTTATTTTATCTCTAAATTTNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATAGTTGGTAAAC GGGTAAGTTAAGTGCTTTTCCTGCAAGATCCCAAAGGGCTGACTCTACTG CCGTGAGAACGGCTATGAACATTCCTGATTGTGCACCTTCAAAAAAACCA GACCGACGAATATCCTCGTGTAGCCTATGAACATTCAAAGGATTTTTGCC TTTTATGCGTTCTCCAAACATCTTTACCAAGTGATATGTGCCCGGAGTTG CGTCTACACCTTCTCCATGACCTTCTATGCCTTGGTTGGTATAGATGATT ACAAACAAACTATGCCCATTGCGTATATAACCACACTTAATATCCGTGAT TTGGAGGTCACTAGGTGAAGAGTTCGTATTTATTCTTGCTTTTGCTTTCT CATCATGGGTACTATGTGCATTGGCAAAATTCGCCAATGGCGATAATGCA AGTGTGGTGCCAGCAGCTGCTTTGGCCAGAAAACTACGTCTTGAGTTTTT CATTTTTGTGTTTTTAATCAGGAACGATTTTAATACTTTGAATTCTAATC AGAGAACTACCAAGTCCGAGTCTTTAACAATTCTTGTATCTCACTTTTGG GTACTGGTAGTTCATCAATATGTTCATTGAGCCATTGTGAGAAATCCTTT TCTATATCTGGCGACCATTTAGAGTCTATTTGACCTGGAGTGTACCTTTC TTGTCTTAACCTTTCATGACCAAACATATCCCTTAGGCGTACAATTTCAG AGGTTTTAACCACTTTGTCGGCAAGGTGAGGAGGTATAAATATGACACCA CCGTCTCTGCCAAGTACTACATCTCCAGGTAGTACGGTCGCTTTGCCTAT CCTTGTTGGCCTATTAATGGCCACGAGCGTTGTATTAAGTTCGCCGTCAG CGTTATTTAGGTGGTGTGAAGGATGATAGGATCTAAAAAACGAAGTAAAT CCGCCTATACTTTTAAGGCCGTCAATGTCTCTTATTGCTCCATCATAAAC GATTCCATTGCCCGACTTTGTGTAAATAGAGTTGCCAAGGTTGTCACCTA CGGTGGGGCCATTTTCATGAGCTGCAAACTGGTTGGCTACATATACATCT CCTTTGACGAGGAGGTCAATAGGCCAGGAGTTTTGAGATTTTACGCGACC ATCCTGTTCATGCCCTTTTTTGTCAATGACTCTTTGAATATCGGGCCTGC CGGGCATAAAAGTGGCTGTGAGAGCTCTTCCAACAAGTACGGAGTCCGGG TTGATTGTTTGCCAATTGTCATCATACTGGTACTTGAAGTTGGCTCCTTT ACATACAGCCCATGCTTCTTCTAGCGTAACGAGTTTCATACGTTTTAGAA TTGCGTCTGAAACTTTTGGCCTGCCATCCTTAAACCTCTCGCCAGTCCAC TCCGGTGTTAAAAAGAGAAGCTCTTCTTTGGATATTTGCTGTGCATACAG TGTATGAACACAGAGACTCAGTAATACAATGATGGCGTATGCTTTTTTCA TTTCAGGTGTGATTATTAACCTAAAATAAGACTAATCAGCGAATTACGAT TACAAATGTTTCTAGAAAATACACGCTGGGTTCAAAAAGTATTGTTTTTA GTCAAATATTGAATTATTAAAGAATAATCTGGATATTTTTATTTTTCACT CTGTAGCCAACACTTTTTGAATCCAACTTGCCTGAGATGCCGTTCGGATA AAAATACTTATGTCTCCATAGCTGGAGTCTTTGTGATTGGCAATGGGTTC ATCAGCTCCACCCGAAAGTACACCGGCTACTTTCCAAGTCCCATCAATAT TTATAAAAAGCGGCCCTCCACTGTCGCCTTCTATCGTTGTGCCTTCTAAT TCTTTTGCTCCAGCTTCACTCGTACCACTACCAAGTATATCCTCATCTCT ATTGGAAACACCATCTCCCAGAGAATTTATTTTGCCATCAGGGTCATCAA AATCAAATGCTAAAAGTCCACCAGTGTAAGAACCACCTCCCGAGCTCAAG TCGTTGGAACTCCTATCCAAGATATTTTGAATCGCATGGCGACGTGAATA CTCATCGGTATTATTTACAGTTTGTGTGTAATCGCCATAACCTGCAAACC ATACTTCCGAGCCTACTATCTCAGCATCAATTGTGAAGTTAACTTCTACA GGATTAATAGAAGTGATAGGTCTTTTGAGTTTTATGAGACACATATCATT CCCCTTATCAAAGAGCTCATTTTCATTGACCCATGTCGGGTGAAAAATGA CTTTTTCTACTTCTAGTATTTCTTTGGGCTTATTGGGGTCTGCCCCAGTC CATACTTGGATTGATTGCGGTGGTGCGGGATTACGTTGTTCATCTGCCAC AAAAAAGTTATGCCCTGCAGTGAGAATCCATTCGTCATCGATTAGTACTC CTGACCCTACGAAGTTGGGTGAATAGGTAGCGTCTGTACTGTAAGAAAAC ATGACAACGGCTTCAAAATTGGGGAATTCACTACCGCTTTGAATGGCTGC ATTTTCATAATCAATCAATTGCTTGTCATGCCTTATTCCAAAGGTCTCAG TAGCTGAAGGATTAATAGGTTCAAAATCGTCCTCATCTTCATAAGGTGTA CACGAAACTATAAAAAGAGAGAGTATGGATAAATAGAATAGATTCTTTAG CATTTATAATTGACGCGTAAGTGGTTTAGGCAATGTTAAGAGTCTGTTCT TTTATTTTCTCTAGCTCATCTTTCATCTGTACGACTGTTCTTTGGATGAT AGCGTCATTTGCTTTAGAGCCAATTGTGTTTATTTCGCGGCCAAGCTCCT GTGTGATGAAATTTAATTTTTTCCCAGTAACGTTGTTATCGAGCTCTTTA CGTATATAATCTAAGTGGTTTTTTAGTCGGACTTTTTCTTCTGAGATATC ATACTTTTCTACATAATAAATCAGCTCTTGTTCAAATCTATTCTGGTCAA AATTCTCACTTTCGATAAAGTCTTCTACAGCCTTGGTAAGCCTTTCTCTT ATAGCAGGAATTCTATTGGGGTCTTGAACGATTACTTCATCTAGGCCTTT TTCAATATTATGGATATATTCATAAAGTTTCACTTTGGTGGCTTCTCCTT CTTGCTCTCTAAATTCAATACAACTAGCAATGNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN TACAACTAGCAATGGCCTCCTCTACCGCCGACATGATAAGTGTCCACTCT TCTTCAGCGTCTTCTTCGTTGGTGGTACTGGTATGAAACGCATTGGGCAT CATGCTTGCGATACGGAGTAGCTCTGATGGATCCGGGTCAAAGTCAAGCT CTTGTGCAGTGGTTTTTAAGTCTTTAAAATAAGCTTTAACCACGGGCTTA TTTACGATACTGCCTGCAGCGGATTCGTCTTTAACGGTTACATTAAGGGT GAACTCTATCTTTCCTCTTTTAAGGTGTTTTGAGAGGTGGTTTCTAAGCT CAACTTCTTTGTTAGAAAAGTTTTTTGGAATTCGACAATACGTATCTGTA AACTTAGAATTGAGGGTTTTAACCTCTACTGTTACAGCAATACTTTTATT TTCAACTGAAGCAGAGCCGAAGCCCGTCATGGATTGTAGCATATAGCGGA GTGGTGAGATTCTTTTTTCAAAGGTAGGTATTCTGTGCTAAAAGTGTTGC ATAAGAGACCTTTGGTTACTCAAGGTATTTTTGATCATAATATTTTAACT TTTTGTGACTAGCTACTTAGGACTTTGCCTTTATTCAAAATCTGAGTAGA GATGACCAATATTTGTTTTTTTAACAAAGAGCACCTGTAGAATGAATAGT TGCCAATACTACTAAAAAGATACGAGTCGTTGGTGCTACTTTTTTTTTCA ATACTAAAAAGTCAATAATATGCTGTGCTTTCCATCTGCTTGGATATGAT TTGAAGCTACTGTATAAAAAAAACAGGAAGTGTATGAGAATAAAGATATA GCTTATCATAGACTAAGGTAGGTGTTCTTCTTTTTTACAAAAAAACAGAT TGAGCATTTGTACAAGAAGTTTTCTTTAATTTTGACCTTCATTTTTGAAA TTATATATGAATCTAGAGCAGCTAATACAGCAAGAGTTACAAAAAGTACT TGAGTCAAAATTTAACTTAACAGATGTGGTATCCTTGCAACCTACCCGTA AAGAGTTTGAAGGTACTTATACACTTGTTGTATTTCCTTTTGTGAAAAAA CTTCGCAAAAAACCTCAGGACATTGCCAATGAGATAGGTGAGGCTTTGTT GGTTGTGAGCGAATATGTAGTTTCATTTAACGTGGTTCAAGGGTTTCTAA ACTTGAGCTTGAATCCTGCAGTGTGGGTATCTGTATTTAAGGGTCTTGAC TTTAATCAAAAGTTACAATCGGGTAATGTGATGGTGGAGTTCTCTTCTCC TAACACCAATAAACCGCTACATCTGGGTCATTTGAGAAATAATTTTTTAG GAGATTCGGTTTCTAGAATACTCAAAGCCGCCGGTAATAAAATCACCAAG TCATCTCTCGTGAATGACCGTGGGGTTCATATCTGTAAGTCAATGCTTGC TTACCAAAAGCTAGGGAATGGAGAAACCCCGGAGTCTGCTGGAATGAAAG GGGATCACCTGGCAGGCAAGTATTATGTGCTTTTTGATCAGTTATATAAA AAGGAAATTGGAGGGCTTATTTCTGGAGGAATGCCCGAGGGCGAAGCCAA AAAGAAAGCACCTTCGCTCATTGCGGCTCAAGATATGTTGGTCGCTTGGG AGCGTGGTGACGAGGAAGTAGTGGCACTTTGGAACAAAATGAACCAATGG GTTTTTGCCGGTTTTAACACTACCTACAATAATATAGGAGTGAGCTTTGA TAAGATCTACCGAGAGTCAGAAACCTATTTACTGGGTAAGGATATTGTAG ATGATGGCTTGTCTCAGGGTGTTTTTTTTAAAAAGGAAGACGGGAGTGTA TGGATAAACTTAGAAGAAGAAGGCTTGGACGAAAAGCTAGTGTTGAGAGG TGATGGGACCTCGGTTTATATTACACAAGACTTAGGCACTACGGATCTTA AGTTTAAAGACTATGGCAATGACAGGTCTATATGGGTTGTGGGTAATGAG CAGGATTATCATTTTAAAGTGCTTTTTGCGATTATGAAAAAACTTGGTAG GGCCTATGCTGATGGTTGCTATCACTTGTCTTACGGAATGGTAGATTTAC CCTCAGGAAAAATGAAATCTAGAGAGGGGACTGTAGTAGATGCAGACGAC CTTATAGACGAAATGGTAGCTACTGCAAAAGCCTCTACTGAGGAAAGAGG TAAGATGGGAGACTTTACCGAAGAAGAAGCCAGTGCACTACACCAAACCT TAGCTATGGGTGCCTTAAAGTATTTTTTACTAAAAGTGGAGCCTAAGAAA AGAATGCTTTTTAATCCCAAAGAATCTATCGACTTTCAAGGTAATACCGG GCCTTTTATTCAGTACACACATGCGAGAATTAAGTCAATATTAAGAAAAG CGGCATCTTTGAACGTAGAAGTTCCTAGCATTATTCCAAATGTGGAGCTT ACACAATCAGAAACGGAACTTATCTTTTTGATGAGTCAATACAATACTAA CTTGCTAAAGGCTGCCGAGGAGTATGCTCCTTCAATAATGGCTAATTACT GCTATGATCTTGCGAAGACGTTTAACTCTTTTTATGCCGAGGTGAGTGTG ATGAATGAGGAAGACGATAAGAAACGTGCAGCGAGATTATTGTTAGTATC AAAAGTAGCCGAAACCTTAAAAATAGGTATGGCTCTGCTAGGTGTGGAGG TTCCTGAGAGGATGTAGTTTTTCAGCTGTTGGCCGTTGGCCTCTTTTATA AATTCATTTCGCCGAGTAGTAGTTGGTATTTGTTAGGAAATGAGGTTTTG CTTAGCGTCTCAAACGGATGCTTTTCTAATAGCGAGAATTTATCACTATA AAATAAGCTAGCATAAAGCCTTAGATTATCAAGTTTGATAGTGCATGGCT AAGGTTTGATACGCGTGGAGGTTTTGGATAGTTCTTAAGTTGCCACTTTT CTAATAGAATGACAAAAGAGAGAGACTGTAAAATGAGGTTTTACACTGCT GGAGCTCTTTTATAATATTCAAACCATACTTTTCCACACGTCATTGTAAA GAACTTTTCAGTTCAATAAGCTAGTTGTCAGTAATTAGAGACTAAACCAA CTGTAAAACTTAATATCGTACTTGGAATAAGTTAAGCTATCCCAATATCT GACAATCAAAGGCAGCCATAAGATCATTTAGTAGTGGGTTTTTGGTAGTC ATATTATGTAAAGTTTTTTGGTTTTCTTGTTGACTACTTGCTTTACTATT TAAGGGTATAATAGGGATAAATACTCTCTTAGTTTTAGCTGGATTGGTTT GTGTAAGCGTCATCATAATCTTTCGTGTTTTATTGAGATGTTAATTTTAA TAGTACAGGAGTTATATTTACTTAACAATTCAAAGATGCGGTAAATATTA GCATAGTCTTGCTGATAATTTTAGCATTGTGTTTTTTGATACATTTAAAA GTCTAGTAATGAGATTGCTGATTTTTTTGGCAAAATGAATTTCTTCTTTG AGGATGCGTATATATTTAGCATTTTTGTGTCAAATATTTTAGCAATGAGA AAAATCTGTAAAAACATCGCCCATTTGCGTCACCTTAAAGGTGTCTCACA AGAGTTTATGGCTGAAGAGCTAGGCATTACGCGTTCAAGGCTGAGTTCAT GGGAAGAGCATAGAGCTGCTCCGCCTATAGAGATGCTAATTAATCTATCC GATTATTTCACGATTTCAGTAGATTCATTGGTGAAAATTGACCTCACTAA AGTGCAAGACTTACGTGACTTACTAAAGATAGGTGGGAACCGAATACTGT TTCCTGTGATGGTAGATCAAGATAGTAATGACCTTGTAGAACTCGTACCA CTGAAGGCGTCCGCTGGTTACCTGCAAGGTTATAGTGATGCAACTTTTAT AGAAGAGTTACCCCGGATTTCACTACCGTATGCCGTGCATGGGAAGTACA GAGGTTTTCCTATTGAAGGAGACTCTATGCCGCCACTTACAACAGGAGCT TATGTAATAGGTAAATATGTGGAGTCTTTAACAGATATAAAGGACGGCGA TACTTATATCGTACTCACTAAAAATGATGGGCTGGTATATAAGCGATTAT ACAATACGCTAGAGAGTGATGGCATGATACAGTTTCACTCAGATAATAAA GCATATTTACCCTACCAGATTCGTGCAGAGGAGATTTTTGAGGTATGGCA CTTTGTGTGTAGTATTAATCCATCTGATAGAGAAATGTCGGATTTAATTT ATAATGCGATTCAGGATATACAAAGTAATATCGCCGGCTTGCAAATGGCC AGAAAGTAGGGTTTATCTAGCTTGGTTTTATTTCGGAAACCTTTATTAAA TTGTAACTGTCTAAAGAGTAGGGAGCATTATAAATAGGTCATGAATGGAT GCATTGCATAATTTAAAATTTGGGAATTCGTCAAATTCAAACTATCCTGA GGCAAGTGCAAATCAATGGAGTTCTCGTATACTCTCTAATTTTAAACCTA CTGGCTTAAAATCTAGTGGTGTTGTTTCTTAATTTTCAAATATTTCTCAA TCTTACGGAGCTTTCCCCAAGTCATATCATTGGCAATCTGTTCCTTCTTT AATGAAGCCTTATTAATTATGAAGGAGGATTCAAGTAGTAAATGCAACAC TTACTGAATTGTTAAGTTTTTCGGCGAACAATTCATTTGGTGTTTTGAAC CCATAGCTGGATTCAAGTAGTAAATGTAACTTTTACTCTATTTACTTACT GTGCGATAACTTTAACAGTGCATTTCTTGCCGTTTTTATCTAAAATTTGA ATAAGATTCTGACCTGTCAGCTTATCCAAAAGAATAATTCTGTATTGGTT ATCATTAATTTTTATGTGTTTTTGCAGCATCTGTGTGCCTTGTATATTAT AGATTTTGATAGATTCTAAATCAAGGTTTTGAAGTTGCAAGTTGATATTG TCAATGTTCACAATTGGGTTTGGATAAACCGTGCAAGTCGTTGGCAATTC TAGATGCACCACTTTGGCAGGCGTAATTGCATTTATGCCTTCGCTGTTCA GATACCTAACCTTGTATGTGTTTTTGCCAATACTTGGTTCATTGTCATCA AAACGGTACTTGCTGGCAAAACCATTGGCAGTGACCTTGGCGATGGTCTT AAAGTTTTGGCCATCGGTGCTTTTTAGTACTTCAAAATAACTTGATTTTC CTTCTAGGTTCGTTTCCCAGTTTAGGTTTACTTTAGATTTGTCCATACTT ATTTCAGCGTCAAAGTGTATTGCAGTGAGTCCTAATGAGCTGGTAGCACC TATTTCGCCAAACTTGTTTGTCTGAAATTCTAAGTAAAACGATTGGGCAT CAAAAGCTTTGACCAATATGTTTTTGTACATTTTGTCGGTTTGACTGGTA TTGGTAGTATCGTTGTCTGTTAAACTACAATTTCTATTTTCACCTACATA CTGCACGATGTTCAGGTCGTTGATGCTTATTTTGTCTAGTTTGGTTGCCG TTTTATAATCTTCAAACTCTGAGTTTAGGTAATAAACACGGATTCCCATC TTTGCCGATAAGCTGTCATTGCTTGCACTTTTTATTGCTAAATATCTACT CATTAGATTGATACTATTCAGCGACTTAGGTACATTATTTGCTCCTTTGC CAAAGTGTTTGACCTCTAGGCTTAGCTCGTCAATATCCTGCCCATTGGCA TTTATTGAAGCAAACAAACGGCCATATTCATCATAAATAGGATGCCACTT ATCGCCAGAAACATTATCGCTGTTTAAGGTCACGCAGTCAATATTTCCTA AACGTATATAGGCTGGGTCAGCATCGTCTTCGTCATGTTTTTTGCTATTG CCATCAGAGCTATTTTTATTACCATCGCCACATATTTCATTGTCGGTGTC TGTTAGCACTTCGCCGCCCATGTCATTATTTGAGTCTTTATCAAAAGCTC CATCTTTATCATAGGCTTGCACCCATAGGTTAGCCGAGTCTTTAGACGCT GCAAATATCTCTGCTTTGTTTACAAAGTAGTTAGACTTGCTGCTGCTGTC TATTTTTAGGTAAATAGAGATTTTAACGTTGCTATTAGCCGCTACTTTCT GAATATTAGCCACTGCATTGGTATCTATGCTACTTATCGTTCCGCTGCTT GTCCAAGTGGTATCTATGCTAGTTTTCCAGTTTTTGTTTAGTAGTTCCGA AACAATTAGCTTCATTCCTTCAGGAATATAGTTTACCACATTGACATTGT AAGCATCTTGAAGCCTACATTGGTTTAATATGGTGATTTCGAACTGTACC GTATCTCCTGGCATATAAATATTCGTAACCGGACCTGAAGCAAGGGTATT TCTTAACGCTAGGTCAAAGCAATTGTCAAACTTACAGGCCATTTTTACTA GCGTGATATCCGAATTATCTTCATCGTTCATGCTAAACATACTAGCTATT TGATCTTTGTTGCCAGTACCAAATATTGCATCGTCTGATCCAGACTCCTG TACTCCTCCAGAATTGTTGTTTGGATTTTTGTCAAACTTACTGTCTATAT CACGATCCACCTTTTGAAGGCCTTCTTTGTCTAAACTTGCTCCAAATATT TCGGTTTGGGTTAAAAAACTACTCGAACTTGAGAGCGAATCGATTTTCAA ATAAATTAACACTTTTGTGCTGTCTTCTGCATTTAAACTATCTATGAGAT ATACCGCATTGGTATCTATGCTGATGATTGGCTTCGATCCGTTTTGGTCT ACTTCTGACCAAAGTGGTAGGTTATGTGGGGGATGTTGTCACAAATGGAA GAACGGTGGCAGCCATTGTCATCTCCAACAGCCACAATTCTTTCCAAGAC GAAACTGCTTTCTTAGGGCAGTTCACCACTCCGGGCCAAGCGGACCTTAG TCTCGGGATTGGGGTGAATCTTGTTTGTTCGAAAACTCGAGTCTCCCCTA AGAAGCCAATGACCATTCCGAGGTTAGAGCTTCAAGCTGCTCTTCTGGGA GCGAGGCTTCACCAACATGTCATCGAACACCTCCGGATCAAAGTTGATCG AAGCGTATTCTGGACTGATAGTATGAGCCGATTGGCACGGCTTTGGAGGC CCTCAATAGAAGGAAATGATTTGGTGTCAGGACTTGGGAGTCCTCCGGAT CTGAACCGACGTAACTCAACGGTCGAGAGTTCAAAAGTCCCATCACTTCA CAAAAAACTGTCCGTAATTCGGCATCTCTGAGATGGCGTTGTCGTAGTTG TTCTTGATCGAGTACATTAACAAGTGCTCTCTTGGCCGATCTAACTAACG ACTCATGGACACCTCCCCAATGAGGTGCACCAGGAACCTGGAACTTCCAC TCGATCGACTCCAGAGTAGGCATCTTGTTTTCAAGTTCGTTCAACAAATT CTTTGCGCCCACGAAATTTGTGCCATTATCGGAATAAATACTGAAAGGTT GACCACGCGTGTTGATAAAGTTCCGAAGCACATTGAGAAAATCTTGTGTC GAAAGAGTGGGTGACAATTCGAGGTGAACTGCCCTTGTAGTCATGCAAGT GAAGATCGCTCCCCAACGCTTCTCGATCTTGTTCCTCGAAACCAATGCCG AGAGAGGTCCAAAGAAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNAGACTGAGACATCACGATCAGAGAACTC AGAGCGCTTCGGGACGAAACGTTGTTCTTAATCATTACTGATTCCACTGC GAGTTGGAGATTTGGATATTCAACTTCGACATCGGTTTGGTGTACTTGAG CTCCATCAACCTTTGACTTTAACTCAAGTTCAGGTGTGTCGATGTTTGAT AGATGCTCCTTCTTTGGCCATTTTTCCTCCGACTGAAGTAGGAAATCAGG TCCATGAAACCACAAACTTGTAAGCTCCGTAGCCGACATCAACCCCCGAG AAGCTATATCTGCTGGGTTGAGCTTTCCTGGGACGTGCCACCAATCTTGA ACATCAGTGATGGTTTGAATCTCTCCAACCCGATGAGCGACGAAAGTCTT AAACTTGTGGGCTGGATTGGTGATCCATGCTCGTACAATATAGCTATTGG CAAAATCGCCGAAAGTTTATTGTCCAATTGTGCCGGGAATGTTGATATTA TTGTGAGCAGGAAAACGGCACTCTTAGCTTTACTGCAAAAGATGACATCG TCTTCGATCACATTGAATTGTTACAGGAAACTAAATCTTTTAGCAGAGAC ATCTTCACGGGTTAGGGTGATTCTTGGGTCCTCTCGCATACACCCCAACC TCGCCCAAGCATCATCTTTGGCCTGTAGTAGTAAGCTGGTGCGAACTCAA GGCCCCGAGCCATTTGTTCCCGCACCGTTTAGCTTTACCAAATCAGCCAT TAAGGATTTTACTCGCCACAAATGGGGCGTTCAATGGAAGAATAGTGTCG GATACGGCCAGACTAAGTACTGGATCCGCAACCCAGATCAATATTTATAT TTTTCCAAGCATATTCTGGACCTAAGTAGGAAGGGTCTGGGCCAGCTGAT CCCCTGGATCACTGGTCATTGTGACCTGAACTACTTTAACGCAGTCAAAT CAGGGCAAGTGGCTGGCTAAAGTTGTCGCTTATGCGGAATGACGGAGGAA TCGCCCTGTCATCTAGCGACAGTTTGCCCTGCAACCTGCCGTCTGTGGGC TAGTATTCACGATGGCACCAATATATCGCTGGACTGGAATCCTCAGGTAG TCCTGTCCCTTCTTGGTCAAACCATGACTATCTTGAACTCGGTCCAAGGA TTAGAATAATTTTTTCAGAAAGTCCTAAGGTCGAATATGTCTCTTCGGAG ATTTCTAACTGGGAAGTGATTGTACTGTACTGATCATTCCTAGGGCCTTC CAAACAAACAAACAAACTGTCAATATTTCTACACAACTGCTGGATAATTG GCGGGCTCAAATACTTCTTGAATATAAAACATCACTATCTTTTTCATAGA CTTCTTAGCCATATCTTTTAGGGTCAGCTTTTTTCAAGTACCAGTACATC AACCCAAGTGGATCGACAAAAATTCCTGCCTTCACGATGTCCCTGGTTAC AAATGTGGACTTGCGGCCGAAATCTAGCAAGGCTCTCCAGAGAGCAATGT ATATGGTCACTTTGATCGTGATTTGATCTTGATCGTATAACGGGGAAAAG TGGGCAAAACGGAACAATCCCCGCCAACGTCGCTACGAGGTCGACCAGCT AGTCGGAGGCAGCTGGAGTTGTCTCACCGCATCTTCCCTACGCAGCCAAC ACCCTGGTGGACAACGGAATCGCCATGTGGAACAAGTTCCCAGCCCTGCG AGAAGCCAGTACCAAGCGGATGGCTTCGAACGTGGCCAAATCAATATCAA GATCGGCCCCTATTTGATCGATGTCATTCAGTTCTGTTTTGGGCTGATGT TGGTACCTCCATTTGTACGATTTTTACGATGATACGTCTGATTTACTTTT TTATTACTTAGAGCCTTTTGTTATTTCATATTGTTAAATGAACATTTGCT GTGTTTTGTTTTGTTTACAACATTTGTGTTTGGTAAAAAAAATTAACATT TCTTGTGCGTTACTTTTGTAAAGATTTATTGATTGTTTAGGCTTTTAAAC ATTTATTGTGTTTCCATTATTGAGTTGTTCTGTTTTGTACAGTTTGCTGC AATGTTGTCTACAGTATCTTTGTTTTTATTAATGTGCATATTTTATTTAT AAATGGCGCTAATATTATTGATTAGTATTCGTATGCTAAGTGTTGACTCT GGGGCAAATAAACCTATTTTTTTTAGTATGTAGGAATACACGATTACACA CGGTCTTTGAGTTAGAAGAACTGGGGAGTTGGGTTTGGATTGGACAATGA GGAAAGTACAATGCGAATCGGAGGATATCGAAAATTTCCTGTCGAACAAC ATCTTAATATGCACAGTCACCTAACGGCAAAGAGAAATCCTCCAACCAGT CCGTATATTAACATTTTCTGAAAGTCCATTTAAAAAAAAGACTGGTGTTC CCTCTTTTCTCGAGGCATTAGTTATTTTTTGAGCATCAAAGTCCCTAGTT TAGTCGGAGTTCCTCAGCTGAGCAGCAAGCCTGTGATTATTTTTACCCGT TTGTAGTTGTGAAAGGGTCATATCAAATAAGCGTGTTTTGTCCTGATCTG AATTCGTTTTTACTTTTAAGTGTCCCGAAGATTCTCGCTCATTATTCTTG TCCATGAATCAAATCTAAGTAAGTTTTGAGGGACAATACGTCCCACTTTG TGTCTCCATAAGACCTACAATGTTTGTCATTTGGTACTGCTTCTGTCCGA AATTGAAAAAAACAAAAAAATTAAATTTTGGAAATTTACTAATGATAAAA AAAACTGAAAACCTACCTTATTGCTCCTGTTGAAGCCAATAGCAAAAGGA TCGTCAAACTGGAACGATCAATCATCCTTTGAGTTACTTGTAAGAAGACC TGGAACACAGTTTTGGCTTTCCCTCAAAGTCCCCTGAATATTTATAGATA GTTTGTATGAGTGCAGGTGTCTTTTATTTTTAGGGATAGGAACATTTCCG CAACTGATTCATATTCATCCATTCGTGTGGAAGGCTGTTTTCATACGTAG TTGGTAATAACAAAAAAAAGTTTTGAGTCTTCAAAAAATGAGTGCCCTTT GAGTTGATGAGAAAAAGTTATATCATTTAATAAAATAACGGTTTATTCCT ATGCATGTTTGGCACATAAAAAAATATTTTGGATGAAAATACAAGTGAAT AATTGCTTAACTGAGATGGATGAGTGGAACGGTCTAGAAATAAACCTGGT TATTCCTATTCCCCTTTAAAAAATATACAATTAGCGTCCTACGTACGGTA CGTACATGAATAAAAAATTAAAACCCTACATGAAACGGAAGCGGAAAACT ACACGTTAACACTTAATAAATTGTATGTATCTCCTAAACGGTACGTAACA AGATCTTAGAACGACTTTAATGTTAATAAAAGTGTGGTTTCAAGATTGGA CCTTTCACCGTCTCACTTTTCTTGTCTTATTGTAGCATACTTTCATTGGC AACATGCTAAGCGTCTCCGGGGTTTTGAAAGGGTTGAGGGTTGACACCAA CATTAACAGCCAACATGGTTGACTAAATCTCAATAGAGGTGTCTCGGCCA GTCAGAAATGATCGGGAGCCATCCCGAAACAAATCAAATAAAGAGACAAC ACACTTGTTCCCGGATTCATTCAATTAATTGAGGCGAATAGTCGGAGCAT AATGATGTGGTCTGAGCTGGTAACGACTAACTTGTTAATTCAGGGGATAC ACGAGGTATGTGATATACCTAAATAAGCATAATGGATAAGGATAGGATAA ACGGTAACTAGAGGGGAGCAAGAGCACGAGTGACTAGAGAGGAGCACATC ATACATCACATACGGTAATAGATCTCCTCAACACGGGCATCAAACTCCAA GACATTGGGACCCCAAAGAAGAGGCTCTAGCGACTGTGGACCACGTGAAT ACATACATGGACTCTCCGTCATGGGCGGGGCCATTGAGGTCTGGAAGGCC TCTCATAGCTCGCAGGGGAATGGGGGCAAAAGAAACCCAATCGGGAAGAT TGTGTTTTCTTCTCAACCCAACCTAGGCAAATCCTGGCCGGCCATGACCA GATCGAAAGCCTCTAGTATCATATTGACCCCCCTACGCCAGACCACTGAC AGGTTTGCCGTCCACGCAGCTAAGATGTGGAACAAATTTCCAACGTTGCG GGCTGCAACAACCATGGAGGCTGCATTGGTAGTGGCCTAGTCGAAAGGCC AAGCCGCATCAATCTTGTCAAAAAAGTCATATTTTCTATCCAAGTTACAC GCCACATTAGTACAATGTACTAAGTGTTCAACTATTCCGGTTTTTGTTTT TGTACAAATCTTGCACAATACATTCCGATTTCACACACACATGTTGGGGT CAACCGGGAGTGTCACTTGATGGACCCCCGTTCAGTCGGTGTGGACTTCT TTGATGATAAGTTTTTGAACACTTATTATTTTAGTTTCTCTCACAAGATG GAGGAGGTGCACACCGGTCAGCTCGAAGCAATTGACAACGTGAGGTCAGT CATGGATGACTATAGTACTTGTTCATGGCTCAGTCATAGGAGGTCCTTGA GCTTGGTGCCCGCGTGGAGGAGACTGGAGGCTCTGGCTATTTGGCTCAAT CATTTCAACGAAGTCGGGAAAAGGTGTGTTGGCTGGCACCACCAAGAGGA TCTCCGATAGGGTCTCATGGGTCAGCCTGTCTGATATTACTGGGATACCT TCGTTGAACCGAATTTGCACATCCTCCATTCTGAAGGAGTTGAAAAGGGC GTCCGATCATAGCTGGCCAGTATCCTAAATTCTGGATCGTTCAAGTTCCG AACATTCAATTAATGGATATTCAATGGTGTCAGCGATAGGGTCAATGGCC AGCGATAGGGTCTGCGGTTTTGAAGGACCACAGATCGATTCCCAGGCAGG CGGATAAAGAATTTTTCGCCGCTCCAGACTTTCTTCTACTACGGGGAGCT GACGTCTCCCTGTAACCCTAGTTCCTTGGGGGTAAGGAACACAAGTGCGG CCACGTCTTGATGAAGGGTCCCTTCTGGTTCCCCACAAATTAAAATAGTT TCTGGAACAGGATTGTACGGGGCTGCACAACGACTAGCTTAAATTAGCTA ATAACATCAGTGGGCCCTGTGTTCCCATGGTGATAACACGAAACCACAGG TGGGTGCGATCACACACACGCCATGAGTCTTCGCCCCCAAGCATCCGAAA AAAACTTGCCTCTCCCAGCAACAACGGCCTAAACCTCAGGACTATGGTGG CATTGTAGAACCAGGCTCTCCTCCACGGAACCTTCGACAACCCAAGCATC GCTAAAACTGTAGCCAATCTGCCTTTTTATTTGTTGCAACCCAACCCAAG AAACGTTCCCATGACACCAACACTCAAATCCTGGTCAAAATAGCCGCTTC ATTTTACGAAGACCCCGTTCAGTCAGTGTGTACTTCTGATAAGATAAGTA GGTATTTGCACACTTTTATTTTACTTTCTGTACTTGCACCTGTTTTTTTG GTCTTGGTAGACATTATTGGTGTTAAGGTTTCATTCAGTCTATCAAAGTT ATGTGTCAAAATATGTATATACATCAATAACCCTATATATAACCCTCAAA AAGTGAACCATCGGTCTCAACAAATTACATACTTTGGTGTCAACATACAC TAAACGCCTTTGAAAAAGCCAAAATCTCATGGAGATTGAATGGTGAAGTG GTCAGCGAAGAAGTCTGCCGTGTTGAAAGACCGCAGATCGAATCCCGGGC CCGGCGGAAAAAGAAATATTCGCCACTCCAGACTTTCTTCGACTGAGGGG AGTGAACGACGACTCCCTGTAACCTTTGTCGTTGAAGGTCAGGAAAAACA GGTGCAGCCACATCTTGAGGAAAGGTCCCTTCTGGTTCCCCACAAAATAA AGTAGTGGTTGGAGCTGGATTGTATGGGGCTACACGGCGACTAGCTAAAA TTAGCTAATAACATCAGTGGGCCCTGTGTTCACCATGGGGGTTTCATGGT GTAGAACACGAAACCTCCGGAAGGTGCGATTACACACACACACTCAAGTT AGGGATCCATCTGCGAGAGTGCACTTATAACGACATTATAATTGTTCGAA GTTCATTCTACGCACCCCGCAGCGACAAAGTGAGCAGGCATGAACACTTG ACTCTCACATGTATTAACATCGCTTTTGGGCCCCTTTAGTCTTACCAAGC AAGTTCAAAAGTAAGGTTTAATTCCACATATTGCATTGATTTGCCAACGC CGGGACACGAGCCAATGACCTCCGACAATAAAAATGGGATATCTATCCGC GCCTCTCTACCGATGTGCTCTTCGTTGCCATTGATTGGATGCAAATTTAT TGGACCAACCTAATTAAAGCGATATTATTATGATCCAATGACTGCAAATC CTTGACCGAAATTTGGGAATATGGGTAAGCCCAAAAAAGATTAAATGAAT ATTAATTAAAAATATTCGCAGTTTAGTCTGAACTACTTCCTGTAAGTTTC CGAGAAAAGAGAAGCTCTAGATTGCTCCTTACACGGCCAAGCCGTGTACG TGTACGTGGCCTTACACGGCCAAGCCTTTGAAGATTCAGTGCCCCAAGAT TGGTTATCAAATTATAGGTTGTAGCGGTTTTTTTTCGATCCCTGTTGAAC TTTGACTTGGTTTCCCAGAATATGGATTCAGCGTGAGCGGTGTGCAATAT CGTTCCATCACTCTAGGTGATTAAGGTACTTGGCTTCCAAATATTGCTAC TTGATCTCTCCAACAAAAAGTACTCATCTGGGACCTAACATTCAGTCTAT AGTGCCCCTTCCATGTCACACCTGTTGTCGAGAATAGGAAACAAAGAAGG TCTTTATTATTCAATAGATGACATCCAGGATCGTAACCGGGCGTAGTTCC TTTACTCGGCACCTGTATTATAGATCACACATTGCCTGCGATATAATGTA TTTTGCAAATCCGAATAAGCGTCTAACGAACACATTGTCGGTTGTGTGAT TCCTTTGACGTATTGTCAGTTCAATTCAATCACATATCTAGACAGATGGG TCGGCCCAATCGGTGCTTATACATTAATACGGTATAAGTGTTGTCTTTTT TGTATTGATGGATCTTTTCGTCCGCTTGAAAGCTCTTGAATGATCTAAGC AACACTGAATACGTAGCACGAGTAAGACACAATTACCAGAAGTAAACTGT GACGAAAGATCCATTTGGAGCTATCCTTTTCATCACTTATATTGTACACT ATTTGTATGGTCGGGAGTACTCATTTCAGAACCCCAATATTTGCGGAGGC TACTTTGGAGTTTTTGGAGATGCTCTTTTCATGCTCACAAGTGATGTTTG GTTTGGTTGTGAAATGCTCCAGATCATTCTGTCTGATATCAACGCCACTC TGAAGATTAAGTCAAACATGGTTTTCCGTTACAAATGTAGCATCATGCAG TGTTACCTTACCCTCGAGTTATGGCGAAAGGTTCACTCCTACCGTACATG CTATATTATGGGTTATACTGCTATGAAACTAAGATCTTCTAGTAGCTCTT AAGCCATATTCGAGCAAATACTGTGGCCCCAGATCGATTCCCGGGCCTGA CAGATTAAAAAGATTTGGCCACACCAGAGACTTCATTCTACTGAGGGGAG CTGACGGCTCTCTGTAACCCAAGTCATGGAGTACTAAAATCACCTGGAGG TCGCACAGAACGAAAAATGTGTCCAAAGACGGCATGGTTCAGCGGCTCGA AAGCTGTTAACGCCATCAATTGACGGGCGGGATTTACGGGGACANNNNTA CTGAAAATCGACCTAAGTCTGGACGTCCCAGGTCCGTCCGCATCAAGAAC CTTGTGGAGTCCACCAGACCCAAAATTCATCGAAACAAGAGGAGGTCCAT CAGGAATATGGCCATTGAAGCCGGTGTGAGCAGGGAAAGCATGAGGAGGA TTGTCAGAAAGGATCTCAAAATATATCCCTACAAAATCCAGAAGCAACAA TTGCTTAGTGCCAAAACCATGGAGAAGAGGCTGGAGAGAGCCAAGAACCT CAAAGCCTTCTTCAAATCTCGTACGCCCCCAAGTGTGATCTGGACTGATG AGAAATTGTTAACGGTTCAAGCCATCCACAACACCAAAATGATCGAGTTC TTTCACGAGACCTTGCCAGCATCCCAATCCATGAAAGAACGGCCTTCAGG AGGCAGAAGCCCACCAGCGTCATGGTCTGGGACCTGCGGACTCTGCGGAC GACCTGCGGACTCAAAACTCCCTTGGTGTTCATCCCAGAGGGCGTCAAGG CGAACCAGAACGTCTATCTGAACATGTTAAAGAAGGAAGTGCTGCCTTGG ATCAACTCCTGCCACTGGCCGACCTCGTATGTGTTCATGCAAGATGGTCC ACCCAGCCATGCAGCAAACCGGGTGCAAAACTGGTGCAAGAGCCATTTGG AAGGATTTTGGGACAAAATGATGTGGCCCCCTTCCTCCCCAGATTTGAAT GTAATGGACTATGCAATCTAGTCCATTCTGGAGAGCAAGGTTGGGGTAAA GTCGTATGCCAATTTGAGCGACCTCAAGAAGGCCCTCGTGGAACAATGGG ACAAGCTCGACCCGTATACCATCCTGCCAGGCCGTGGGGAAGAGGTTAGC AGGCGTGGTCAAGACCAAAGGGGGATACTGCGAATAAAATTGCTCCCAGC CCATGCATTTGATGTCGCTGCAAGTTTTTTGGCTTAATATTTTTTTTGTC TTGGGACCTTGTTCCGAGAAAATGACCATTTTCACTGTCCTAATTCATAT GTGTCACCCTGTATATAACACATGTATATTTTGACCAAGTCACTTTGTCC ATGCTAATCACAATTATATATTTGAGGCAGACTTTGATTGGTCTCTCTAA AGGTCATCAGTGCACCACGTTAACACTGTTTTTGGGCAAGATCCAAACTG AAGCTCACAATCCCGCCGGGGAACAGAAGTGAATCGATCCCATTTGCTCC AGTACTCAATCTATTGGCATCAGCTTGGAACCTACATTGGAAGGGGGAGT AAGCGAAGAAATAAAAACCCTTCAGAGTAAAGCTGCGCCATCTCCTTGGT AATCCTAACGTGCCGCAAACAGAGGCATACTTAATGTCACCAGATGATTG ATTGACAGATGATTCGTAGTATAAGAACTATATTTTGAATGGGTCCAATA TATGCAGATGGGAACCAAGGCAAATATTTGTTTATGGTAAACTTCATGGG ATGTCATAGACAACGAGATTTTTCTGGATACATTTTCTCAGCCTGTCAGC TGATTTTTCAAGCGGTAGTTGGGCTATTTTCGGCGTCTGTGTGTGTGTGT GTGTTATCGCACCTTCCGGTGGTTTCGTGTTCGCACCATGGAGCAACCAA GGTGTACACAGGGCCCACTGATGTTATTAGCTAATTAAGCTAGTGGCCGT GCAGCCCCGTACAATCCAGTTCCAACCACTACTTTAATTGGTGGGAAAAC AGAAGGGACCCTGCCACATGATGTGGCCGCACCTGTTTTCCTGACCCCCA AGGAACTAGGGTTACAGGGAGACGTCAATTCCCCTCAGTAGAAGGAAGTC TGGAGTGGCGAAATTTCTTTTTCCGCCGGGCCCGGGAATCGATCTGCGGT CCTGTACAATCGCAGACCTCATCGCTTACCACTTCACTATTCAAACTTAT TTACTAGGCACACAGCAATCAAAACCCAGAAAGAACTGCCTCCATCAGTT AGTCCTCGGATAAATAAAGGGGAATCGAAATTACTCTAATTGAAAGAAAT CATGGGAGTACGCGGAGTCAACCACTGACGTGGTTTCTATCTAGTAGTAG TAAAAGCACCTAGTTTAACCAGGTGCCGAACAAAACGTATGTTTTCCTCG TACACTCTTCCATTTTCTTTCTAAAATCATCTGTCTCAAATGCATTAAAA AGTAATTCTAGAGCATTGTTAAACAAAAGGTAAATCACTTTAATGTGTGA CTGAACGAAAAGTTGCAGCGAAATGCATGGATCCGTCTTCCCGCTTATTC CGTATCATTATTTCCTCTGGTTGTCTTTTAATGAAAAATAAAAAGTTATC TTCCCTACAGATAAATATAGGGTTCTTGACTGAATGTGCATCCAATACAT ATAACATAGTCGGCAAGACATATGGCAATTTTTCAGCCTTGTTGGTGTCT GAAAAAAATGAAAAATACCCTCTTTTCAAGCCCCTCCTCGAGTTTTACCA ATGCCCCAAAAGAAGTCAAGCCCTAGACAAGGACAGAAATTCAACTCAGA AGGACATGAAAATCCAAGTTCACCAGGCAGACTAACAATCATTGGGTGAG GAGAATAGTCAACAACCCATAAACATGAAATTACGGATCCAGGCATACTG TCCGTCGATCGCTATGTTGACCACTTTTGTATAGTAGGTACAAGAGATCG AAGGAGGTGTTTCGACGAGATTGCCAGCTCTAAGTGGACTGACGTGACAT TTACCAATGGCATCCATCACCAGAGGAAAATTCATACCTAACATCAGATA CCATATGGTCCCTGCTATACAAGGGAAGCATATCTCCAGGGTCTCGCTCG TGGGCTAGCTCAAGGGAAACTTGGATACGCCCTGGCAGCCGTCACCACGC ACCCCTCCCAGGTGATATCTTGGCTCCGTGATCCCAAAAGTCGCCATCAA TGACTGTGCCAGGGCAATCACCGGCCAGACAGCCGAGGAAAGACCACGTC AAGATCCAAACCCTGCTACAAGGCCATCAACTCCATGGCAATGAAGACCT GGGCTAGTTTCCACGGCAGTATTGAACCCAACAAGTCCAGAAACGCTCTC GGGGCGTTCATGTTCCAAGAGACTTCCTCTACAAGGACTAGGTCGGCCTA GAGAGACTAACAGAGAGGCGACAGCACTCAGTTAACAAGGATTTCAAAAT TAGAGCGGAGCTATTTCCCCCCCAAAACCTAACCTCGCTGAAGCTAGAAA GGAAATCAACTTGGAAACATTCATTGCTACACCGCTAGATGGGTCTGTAA GGATCTACGTACACCGAGGTTAGGGTTTTGTGGGGATAAAATTGCTCTAA TTTTGAAATCCTTGCCAATTGAGTGGTAACTAAGGAATGTCTCCTCTCTG TTAGTCTCTCTAGGTCGGCCATCTGGGGCGTCATCCCCTACCCTATCGGG TTCCCCACGGATTCCCTCGTCCGCCATGGTATCAATCTGAGGAAACATTC CCAGAACTGAGGGAAGCAAAAACTCGTGGTGCTGTGAAAGCAATTGCAAT AAAAGAATTTAAGAAATGCTTTAATCTAGGGTCAAATCCAAGCTGTGATT GCCTAGATCTCGCCTTGTTTGTTTCCTTGTTTCTTTTTCTTTTATTCTTT ATCTATTTTATTCAAAGCTCCTTATTCCCATTATTTTTCTCACATATTTA TGAAACTCCGTTTAGCTAGTATCCCTTATACTAAGGAGTTCCCTTATTGT TGAATATTGCTGATATAAATAAACAATTAAATACACATTGTCGTTCACAA ACCCACACCATTCGTTTTACCTTTCAAATAAAACTTCTTTAGCTACTTAT GAAACAGCTTCTCCGGGATGGGTCGAGATCCTATTTTTGTTAACTATGTT GTATATATTTGAGAAGATTGTAAAAACGGAGATAAGATGTACGATAATCC TCAATTGGACCAAAGAGCTCATATTTTAAAGAAAGTTTCTGAAAAGCTAA TTTGAAACTTTGGAATTCTGAAATTGGCTCAAGTACATAATTATGCTGCC AGTAATTAGAGGCCATTCAATGACTGCAATGGGGCAAATTTAATCTCCGG GAATTCCTGTGATTTCCCGATAATTGCAATAACGTGTTTTTCTTAATTAA AGGGTGTGTGGTTAGAGGTTCCAAAATCATCGCTAATTTAAATTAGTGAC TGTCGGTTATCCTATGACAAATTGACAATAATTTGTCGACTATCGAAGAT TTTGTGAAAAATAGGCAAGTGTTATAATGTACATAAATTCACATTGAAAA GTGGTGTGTAAATGGTTGGAACCTAAAAAGCTATGGAAAAATGCCAAGAA ATAAAAAAATTTTGCAGTCACGAACAAAATTGACGAATATGACGTATTTT TATCTGGTATTTTCTACGTAATGAGCAAATCTTGCGAAAAAGGTAAAATT CCTGAAATTAAAATGGTTTTTTTGCCAAAAATCACAATGGAAGTGAAATT TTGGGCGGAAACAGCCTTGCAAAAAAACCAACCATTTTATATAGACGTAA AATGAGACATATCGAAAAGTACAAAACATGGTCAATCTGAAAGAGAATGA AAGTTTAGAAGGAAAGAACTCGAGAAATATTTCAGACTACAGTATTGGTG CAATGATTTCTCCTTGGAGTGGACTGTACATATTGGGTTGGGTCAAGAAT CCGTCAGAAAGGGTCACTAGGCCCTGTATACTACATATACAGGGCCTAAG GGTTACAAAAAACACGTCCGGTTATCATTCGTCTATTTAGTCTCTGTTCA ATCACCACCAAACCGGTCAATTTGGGCAATACATCAAAACTATGTATTAT AGCGAATCGGGATAGAGTTCTTTAATCCCATCAGTTGACCCTAGTTCGTC CGTCCAAGTATGGAAAAACTTGAAAAATATCAAAAGGAAACTGAAAAATC GTCAAAAAGTTGAATTTCTATGCCAATCAAGCAATTTCGAAATTATCGAC AGTTGCATCAAATTACAGATTATCGATAAATTACTAAACCTTAATCAATT AGCAAATACCGGTTAGCGATCATGGAAGCACTAGGTGTGTTACTCGTTTG TTCTCGAATGACTATTTGTGCGATGCCAAAAACGTAAGTATGGATATCAA AGGCATATTTTCGTCACGCAGAGGGTTGGGAAAAGTTGGAAAAAACTTAG AACTAACATTTTTCCAGCACTTCTTTTTTTATAACTTTCCACAATTTTTC TTCCTCCTCTGACTTTTCGGATAGTTTTTAGGTACCCTTTTTATTTATTT TTTTGCTTTTAAAAAAATAGTACACAGCTGCCAGCGAATGTTAACTCTGA AATTCTGAATACCCAGCGGGTACCAGCTTCTTCATCTCTGTTTCCATTCA CCAAAACCACGCTTGTTGTTCAGTTTATGTACAGGCTTGATTTACATCCG GGTCTTAATTCCCGACTGGGTCAACCCGTCAGGGTTGCTTTATTAAGGCC CTCCAAAGGTTGACGAAAATCATTCATAATACAGAATGCTCTCAAGATGT CGATTTTTAATCACCTTTTTCACCTCTGTATCGCCTATTTTTACTTTCTC ATCACCACTTTTCACCTAAACATGACATACTGTACTTGATCATAAAAACA CCTTTTTGACGGCAATGAATTATAGCCATTGACCAACAACAGCTTCGCAA AATGATCGTAATGTAACGCCACTCAAACCATGTACAAGAACTACAGACAA AATGTGCATTTAAATCGTCATTTACAAGCATCGGCTTCCTGCACATTTCA ACATGGAGTCTTGAATTGAGCTATCATTATTTCGACACAGATATGCCGAC TATGTTTCTTGGCCGACGAGCTGGTTGAACTGTTTTATTTAAGGTATTAG TGTATTTCATCGAGTCAACAATAACACAACACATTATTCTGAGGGCATCT CAATATGAGGAACATGGGACTGAACAAGCCGTTGTCAGCTCAGCCATAAA CTCCTTGTGGTTACACAATTAGCACGGAACCTGCTTGTAATCTAAGCTGA AACCAACGATTCCACCGGGAGGATCAATTAATTCGTTCCTTGTTGCCTCT GTAGCAATGTTAAGTTCATTGCCGTTGGCTTGGAAGATTAATTGGAACGG ATTCGTGCTCGCTGCAAGGACACAAAATGTTGATTTCAAGTGGACTTTCC ATTTATGTTGATTTGATGTGATTAGTCGACATCTATGAAATACATGGGAC CAATTTTGACAGATATCTTTATGGCGTTGTTGGCAGATTTTTTCCCAACC AAACCTTTGGTTGCCCGTTTTCCCGCAATACCAATCCCATCAATTTGGGC GAGACAAACGATGATCCGATTTGCAATAGTTCTGGCCCCTCTTTAGACTA TGTAGGATATAAAACAAAACCTCCCAGGAGTTTTTGCTAGATTTCGTGCT AAAATGTTTTGCTTTCCGTCCCCAAAACATAAATAAATATCCACTCAAAT ATTTTTGCGTGAAAGAAAATGGCAGAGGTATATGTACAATCAAAGTGGAC AATCGATAATCTCTTTATTTTTCAAAAATCTTTTTCTAAAATCATGGCTC CAAGAGAATTTTGGTTGTTTGTATTTCTCACTTTTGTGGCATAAACATTT GGAATTTTCTAATTTTTTTTATTGCTACCAGGAATGGGTCAATATATTTT ACTATGATTAATCAGTCCCAAATGTGTTGTTGCTTTACGATGAACTTAGA GTACTTGTCAGAAAGTTTCCGTTATTGAATTTGTCATTGCCAATTTTACG TAAAACTTGCCTAAACCTATAGCACCCAATCTGATTTTACAATAACGCAC GGTTTTTTTGCTTTACCACCCATTGGCTTATGATTATCATCAGCATGGTC AGAGACAGACAGAACGAGCAAACAATCTGAACAAAATTGAATCTTTAAAG TAACTACATAAATACGGAAAATGAACTGAAAAGTGCAAAAAATGACCAAA ACAATTCACAAAAATGGCAAAATCAACCTCAAAAACTACGCTGGAAGGGA CATGCATCAGAAGGAATCAACTTCAGTCCAATCAAACAACTTCCCTTAAC CATTCTATTCTAGGTACTTCTACCCTAAAATCCAAGCTTGCGAACATTAG CAGCCAAAAATCTTCTTGGAAATGCACTGACCAATTTAATCGGAACATAA CAAAACCTTAAAGAAAGAAGCCAAACTCTGTCGAGAGCAAATCGGAAATT GGGATCCAACAGGCAGTCGCAGAGGACACGTTGGCCAGGAATTGGAGGAT GGTTACGGACTTAGAGATATTGTGGCTATCGCTATTTCATGTTGGCAGCT AGTTATTTCGTGCAGATAATGGTGCCCATGGATTTTTTTGCTCATTAGAG TACTTACAACACACGGAAACGTGGGTCTTTCCTCCCGATTTGGCATTGAA GAACCTTCCACAAAGACGCTGAACTCCAACGGGCATTAGATCCTCGAGTG GCATCATCAGATCCTCGAAATTAACTCCATATCCAATCTGTTAAAGAAAG TCAATCATCAAGCCGATCCCGACTCATGTGCGTTTTCCCTGGTTAATCTT ACTTGAATGAAATCTTGGAAGCAATCCGAGTCAGTTTGGGCCCCATCAGA CTTGCTGAAATTAGAAAAATCCAATTGAACAACTAAACAACCGAGGCTTC AAAATATAGGATGGCGTCCATTGCATCAGTATTATTTTCATATCCCATTG AGGACATGGTCCAAAATCAGATCTTCAATTATACCAAATAACAACAGTTT CAAAAAATGCACAATGATCTAGTATTGACAATGATTAAGTAAGACCCAAT AAGAGTTAAAAAATCTGAAAAATTCCAACCGAAAATCATCATGATTGTTG TAGGTCTTCAGTAAGTTTTTAATCATTGCCTTTCAAAATTGTCCAATATA CCCAATTATACCAAAATCAGGTGTCATAAGCAGTATTCAGTTGTCCCATG CTACTATTTTCTTATGTTTCTGAACGTATTTGTTTGATCGCTCATTGTTA GCGTTTCTGTTGAATTTGGCTCTTGTATTATTTTTGACACACACACTGCA TAGTTATGTTTCTATTTTATTGTGTTATGCTTTTCTTTCCTTGTGCTTTT TAAGTTTTGTTGACTATTTTTACACAATGCCCGAGCACAATTGACAACCC TCTTGCCCTCTTGTTTACCAATTGCATGGCATCAGGGCATTATTTACGTA CATCTTGAATTATAGCTAAATACATACAAACAGTTGAACATACTAACCTG ACACCAAACGATGACTGGAAAGGGAGAAATAATGCGTTAGTTGCCAAACC TAGGTATGCACCATATGCACATTATACTCTGATTACCTGGGTTTCCGCTG CATCAGTGACGGCCACTACCGATGGAACATAGCAAATGGCACAGAATCCT TGCTCCCTCCTCAAGCAAATGGTATATTGTTGGCGATTGAGATGAGTGGC TGAAAACGAAAGAGAAGCTGTCAAGTGGGGCAACGCTTACATTTTCGGAA ATATTACTCACTGGTCGCTCCAATGGTATCGCTATTGGTTGGGAAGTTGT AACTACAAAGGAATCAAATGTTTACGTGTAGTGGTTCTTAAATCATCTCT AATTTAAATTAGTGATTGTCGATGATTCTTGGAAAAGTTAGCGATATTTT GTCGATTATCGAAAACTGAAAAATGGGCAAGTGCTCATAAATAAAAAAAG TACGTAAGAAGTTCACATCGAAAAAAGGATTGTGTAATTGGAGGGTCTGG AAAAAACTGATGAAAAATGCTAAAAAAATAATGTTGATGAATATTTGAAA ATGTATAAATTTTGTTTTGCTATCATGAAAATTGAATGTGAACTTTTCTT TCGGCAAAAATCGCTATAGTGGCAATGGCCATACAAAAAAGACCATGTAA ATGTGACGTAAAATGAGAAATATCCACAAGAACAACTATGAATTGGGCAA TCTGAAAAGGAATGCAAGTTTAGAACTCGAAAACACATGAAGCATGTGGA AAACACATTGGAGTGCCAGCTAACAATTTCGAATGCCATTTCAAAACTCT TATGTGCTAAAAATTTCTGACACAATCGTGTTTATCCAAAACGGTCATGA CTGAAGAGCGGACCTAGGGTAATACAAATGGGACAAGGATATTGGCACTG CCCTAGCCAGATGTGATTGACCTCAAGCACAATTCAAATACGCAATAACG TCAGGCCCCTTCTACAGTTTTTCACCGCTTACCTAGCGAAACTTCCAGAA GTTCCAGTGAAGTACTGTTGACAGCCATTGGGACCTAAAAGAAGACGACA CAGCTTAGATTTTGGTCGGAAGACAGCATATATCATTCCCATCCAACCGT GAAACCAGTAACCAGTGTTGCCAGGTGGTTTGGGCGATTTTTTCCCAGAA AAAAGGCAAAATATCCAAGTTTTTTCCCTGACATTCGTTTGACATTGGCC TTCGGACAAGTATCCTTAAAATTGAGGCAAACATCCCAAGAACCTTTCAA AAGAGGTTTCTGTCCCATAAATCGTGTTTCAACGCTAAATAAATTTTTCT AACATTGGAACAAGATTGATTTACTTCGAGCCCACCTCGTATGGGGTTGG TCAAAAATGAGCATTTTTTGTCGGGTTTTGCTCATTTCTTTTCTCGTGGG TGTGTTACTTCTACTTCTTGCCAGCAAAGGCAAACCTCGCCCGGTTCACT TTGTAGCCTTTTGCCGGAAACACTCTTTGGACAGAGGAAAGTGCACTAAA GTCAAAGATTGAACTCCAGGGCAGCGGTTACATTTTGAACTTAAAGATTA GGCTTACCAGCAATATCATCGTGGCCACACTTGTATTGGGTAACTAAAAT GATACAAGAAAAAAAACACATTGAACCGACTTGGTCGAGCCAGATCCTCG GGATTCGCTCTCACTCTTGATCTCCCACTCTCGAGTAACAGATCCGCTGC CCAAAACGAAGGCCATCTCAGCACAGTCATCTTGTCCCACATCGTAGATC ACTAAAGAAATGAACCAGTCAGTGTTGCCATACTATTAGGCTCTATTTGA CCCAATATACTATGTTGTCCAGTGTTGTAGCCGCAAATGAGGGGCGGGGG ACTGTTAGCGCCAACAAGTGTGAACTGATCCGTGATACAAGCTCCGATGG CATCACCTACGAAGGAAGTAAATTGAAGTATCCCCAATCAGTACTGCCCA ACACCAATTGGGGCTGGCAAAATGGAGGTCAATGGGATTTGATCCAACAT CCATGCTTTCGTGGACGGTCTTACCAATGGCGGTGGAAGCGGAGTCTGTC GTTCCCACTTGGGGACCAGCAATGGCAAATTTCTTTAAAAAAACATCCCA TGAGTACGACACGGGTTTGGAACCAGATGTTAAAAGTCACTCACGATGAA GTCCAGACGAATGCGGCAAATATCATTGGAACACTTGCAGATCTCATACC GACAGCTGGACTGGCTATTGGCATTGCTAGTGGCAGATGCAGCATAGGTG CAGTTGTCAGAGGTAGAGCCTCCACAGCCAATGCTGACTACAAAGACAAG TTTCTCATTATTGAGTACTTAAATATGAACACTATGTATTCACTCGTACT CATGCAACACACGCCATATCCGGAGGCGCAACTTCCTGAGGCAATTCCAC CTAAAATGAGCACAAAGAAAGCTTGAAATGGTTCCAAAGAGAGGAGATTC TAACCTCCTCGAGTACGTTACCTCGGGATCGGCACTCTTCGTTGGTGTAG CAGGTCCCATTTTTGTTGGAACTAGCAGCACAACCTTCATTCTGGATGGA AAATAATTGGTGTGACTTGAGTTTGATCGCTTTTCAGGATAAACTTACCT TAAATTTGACTAATTGAAAGAGGGAAAACACTGAAAGAGAAAACAGAAGC ATGCAGTTTTAACTCGCGTTCAACCTGTTTGGGGTGAACCTAGGCAAGAC AATACTTTTTTCCCTGGAACAAAAAGTGTCACCTTTGGGGGAAATAGTTT TCTGGTACTAAAAATGAGTGTAATTTGAACCAGAATCCGAACTTTTCAGT TATCTGTTGAACATAAAGTAAAATGGGTAGCAAAGGTGTTTTCTTGTGTC TTCAAAACTGTTTCACCTTATTCGGTCATGATCAAATTCGATTTGCAATT TTTTTTTGTGCTTTTGGGCAGTTTTCAAACCCATACACTATGATTACGTC AGTTGTGTGTCATACACCCGACATTTTTAGCTCTTAGAGACCACATTATT ACAACATTGCGTCATGACCTTACTGGTTCATTTCGAAAAGGCACTACGAG AGACATGTATGTAATGGTTTACAAAATTTAGGAACTTCAGCCCTGCTTTT CATCTCCTTTGAGTAGTAGGTGGTTCAAAAAACATCTAATTCGATCATAC AAATAGGAATTGTTTTTGTATCGTCGAATTTCAAAAGGTCTTTGATTGCT TCCTTATGCTATGTGTATAGACCAAATAGTAGAAAATGTGAATAGATCGG GCTTTGCCCATAAAATATGAATATCTGTACCAAAGGAGATTGGGGCTCAT CTATCAACCAAAAATGCAAGAATCAAATACGAATTGAGAAAATATGGATA TTTCTGCACCAAAATATTTCCCCCATAACACAAAAATTATCGCGCCTAAC AATGTGGCTGAGCTACAGATTTGGATGAAAATGGGATGAGCACCCAATAT TTCTATGTGTAAACTGATTTTTTACTAGATTAAGCAAAATGAGTTCCACC CTTTTTTCAAAGGTTTGGCTGAAGCATCGTATTGAGGATATAGCCGACAC CTTCAGTTTTATTAAGAACTGCACGAGTTTTTCAATTAAGAGTTCCTCGT TTAACAATATGGCGAAGTGGTTCACCCAAACTTTATTTATGATTTAGCGC GAAAATCAGTTCGGAAAAAATGACAGACCCTAGAAGAAAAATGAGGGGAA ATTTTTTTCCGAAACGTTTTCCAAGTTATATTGGCCCGAAATTGTATTTT TGGCAGTTCGTTAGGTCGCAAATTTATTATCACTTGTGTGAAATGGCCGA AATATGAAGCTCTTCAAAAGCCAAGCGAGAGTTCTTTTTCATTTCAGAGA TCAGCCAAAACCATGTTTTGGCTGAAAGGGATCACCTTAAGTTAATTAAA TAAGTGTCAAATTTAACGTCACTACTAAAGTTTTGTCAATTCACAACTTA CACTGCTGTACTGTTCGTGCAGTAAATGGTGAAACCTTTGTTTATCATCT TTTAAGATATTTCTCGCCCAGGAAATCCTGTCGAGCTGCTTGAGTCATTC AAGAATCAAATACTAGGGCCAATAAAAATCGTTCCAATCTCTGTCTACAA TGCCCTTCAGTGGCCTGAAGAGCATTCTGAGGTCCGCGACCAGCTTTTCA GTGGTGAGCGACAATGACCTTTCTCTGTGTTGCTCTGAAGCTTGGATTGG GTGGCAGACTCACTTGAATTAGTTGACAGACTCATTCCATTCACTAAAAA ACAAAGTTACAGCTCCAATCCTCACCTTTGCCAGTCCTGGGATCAACCTC TTCTAGACCCGTAGAACCGGGCAGAATGGTTGCTAGCACCAGAGGGAAAA CTAAAAGAGAAGCTCCAAAGCTGAGCATTATGCCTGAAATTACAAGAGAT TATTGACAATGAGTTGAAAATGAGCTCTGTTTGTTTGATCCAACCTCCTC AGATGCTAAAATCTTCTGAGACGTTCAACGCCAACGATGTCTTTGAGGAT AGCTTGAGGGGGAAAACCGGCTCAACCACCCTCTTTACATGCCTCGAATT TCACCTGAGCGGGGGTGCGATAAGGGCCAAAGATGCAGGTAAACACAAAA TGACTCTAGACCTTGAGATACCACTCGAGAGTTCGTGTGGCTGCATTTCG TTTAGAGTATCAGACGTTCGAGTTCAACAAGGGAAATGTAGTATTTGTTT GCTTGGATGGCTCCGAGGATTTCTGCCCAACTAGAGAAATCTCCGAGGAG ATGTAGTCAGCCTGGTGGACAAATGTATTCTGACTTATTACTAAATCTAA ATCTTTAATCCTCCTAGGGAAGCCAACAATAGCTGTAAGGTATCACTACT GGTTGCCGGAACTCAGCAAGTCTAGGGATCGAACCAACGATCTTCGGATG ACGCATGATAGATGACAATCGGTGAGATGGGAAATAAAATGTGTGTGATC GTGTTTATTCTCTCAACATCTAAGGTTGCCACTTTTGTTTTTACAACTAG TATTTGCAGCAATTTTTGAGAAATAAATGAATAAAAACAGAACAAAAGAC AGAAGAAACAGATGTTCGTTCTCACATGTGTCAGGAAAAGAACAAAATTC GAACTGATTGTTGGATTTGGTAACAAAAGATGTCCCTCTTTTTCAAAAGT GAGAACAAAGTTATTGTGATGAAATGATGTTTATATACTATTTGTAACTA AGGCCCATATTTGAAGGCGATACAAGAAGTGGAAAGAGGTTTTTTTTAGG TGAGGAAAGAGGGCGAATAACGTGAAAACTCCTAGAGAATATGATACAAA ATGTGATTTTTGTTGCTTGCACTTAGCTCAATACGTCATTTTCAAGGTTG TATATTCACTTCAATAATAAGAAGGAATCACTTCAAGAATAAGAAGGAAA AACTAAGTCTTTTTTTTTAGAATTTACCAAAAACTCTTTTTTTGTTTGAT TTTATGATCAAGCGGTTTTACCAAAAGAAACAAGTCTACCCTAAACCCAG ATAAAGCTATACCATATTAAAAATGAACCGTGTCTGACTGAGGAGGCTTG ACCAAGATGTCATTCCCGGCAGGATGTTGATTTTTGTTTCTACGTAGATA AAAATGTCGGTCATGACTGTGACCGCCCAGTGTCATCCCCAAGGATGGAT ATTGGGGTTTTTAATTAAACAATTGTGACATTTACCAGTTTTCAAAAATA CATGGAAAAAAAACTGAGCCGGTGGTGAAAACGGCGAAATTTGAAAAACA CAATTCACGCTCAAATCGTTGTTTTGTATAAAATAAACTACTAGGATGTA TGAAGCCTGGTCACTTGTGAAGGCTCTTTTATATCCTAAAACATGTCTGT AAGACATGGAAAATATGTTTTACGAGTTAGGAATGACAAATTTTGATTTT CCTAGTAATTGTATTAATGAAAGTTTTTCCGACTAATGAGGTGTGATCCT CCTTGTGAAAATGTCTCCTTGCTTTCAAATTTCTGTGGGCCTGATTATGT TAAGAACCTGTAGGGCACACCAGACTTTCTTCCACTGAGGGGAGCTGATG ACTCCCTGTAACCCTACTAGTCCTTGGGGGTCAGGAACACAGGTGCGGCC ACATCTTGAGGAAGGGTCCCTTCTGGTTTCCCACAAATTAAAGTAGTGGT TGGGACTGGATTGTACGGGGCTGCACGGCGACTAGCTAAATTAGCCGTTA ACATCAGTTAAAACATTAAAATAATAACATCTGTGGTACATGCTGCGAAC ACGAAATCACCAGAAGGTGCGATAACACACACACACCTGTTCTGTGAAGA AATACAATATCAGTCTATCCAGATGATTTAGTCAAAATTCACCACCCAAA TCCCGAAAATCAGCTGTATTTTTCAATATTTTGCTTGTAATACAAAAGGT TGAAAATGTTGATGTTTTTAAAATCTATACTATAATGAGACTTATTCTGT TTGTATGTTTGTCTGCTGCGCGTTTTTTTCTCACGATCGGCGGAATAGAG TGAGTCGATATTTTCAGGTAACCTCGAGACCACTTTACACCCCTAACCAC CTAAAAGTGTGTCTTAAAAAAAATTCGCTTCCGTTTGGCCGGCGGGGCAA GTTTCGCTCGGCCAAGGCGGGCGCTTGATCCTTGATTAGTGTGTGCGAGG AGCGAAACTCGACCGAAGGCCAGGGATGGGCCCAAGGCCCAACAAGTGTG TGTGAGAAGTGAAACTCGCCCGAAGGCTGGGCGTGGGCCAGAGTCTTGCG ATGGGTCGAAGGCCCAACCTAGCCTTCCGCGGGAACTAGGAAAAAGACGG CTGTAGGGCGTCCTTTTTGCTAGTCAACTCAATAAGGCTGGAGTGAGGAT TTCTCCTCGGTCTGGACTGGACTGAATACTAGGTTGGGTCTAGAATCAGT CGGGAAGGGGCACAAAGTACGCCTGGCTATCAATCATCTATTTAGTCTCT CTTCGGTGGCAAGCAAATCAGTCAGTTTGGGCAATATATCTAAACAACTG TACAGAATGGGATTGGGGTTCTGTGATTAAAGCACAGGGACAAGTTTCGC CCCTCCAAGCAAGGACCATTACCGAACATTTCTGTTGCACACTTTTTTCT TCTAATCACATTTTTTTTTTACTTTTTTTTTGTTTGACATTAAGAGCTTG ATCACCAAGCGGGCCAAAAAGTGGTTATTTTTGCCAAATAAGAAAAAACT ATGAATTATTTGAGCAAGTGTTGAATTGCAAGGAAGAAGTGAGCAGTCTT TTCTAGGTAGAACTCTGAACTAACCAAATTTAGTGTCCTTGTAAATTTCA CAGGTGCCTTATTTGTGTCACAATCCTTAGATCATCCTTCCCGTTATGAT GACAATAATGAGGGTCCGAATTTGAAGGTGAACCACAAGGAAGACTTTTG TTTTCTGGATTGTACAGTATTCTTTGGTAAAAAATCACCTACAATTTAAT ATTCAGCAAAGGTTTTGCTAAATGAACGTTTTTGGCAAGAAAAATAAAAA AAACTGACGCTTTTGACCCCTTTTGGGCGCAAGATTTTCAAGGAAAATTA TGTCGCCACAAAGGTACATCAAAAGGGTGGAATGGGAAATACTATGCATT CATCAACGCAGGAATGCTGTCAAGGCGAAGAAACGGATCTTTTATTTTTC CCGGAATCACAATAACAGGCTATGATAAAAGTTATGCATTGACAGCTACT ACTTCTCAAGATGGCTGAGAACAGCTCATTCATTTTCACCAATAGTCATT TGTCTAAAATGCTTGTTGATAACTACTTCTACAAGCATTTTTGTGTTTTT TTCTAGTGAAATTGTTAGTCCACCATCTGACAAAAATAATTGGCACAGCC TGTGCCGTTAGTGTTTTTGATTTGTGAGATGATCAAGCTTTTGCTCTTGC ACAATCTTATTTGTAGGTACAAATGAATTCGGGGTTTAAAAAAGAGTTGT CACACAGAAAATATACTCCATTTGGGTTCATTTTAAGCATTTGGGAAATA TGTAATCCCAGAGAAATATACCGTTGTGAAAATTCTAGCGAATTTCGAGA CTTTCCTAGTAAGATTTTGACTCCAACATCTATTAACTCTCTACTGTATA CGAAAGGAGGGAAAAAATAATATCACGGTCGCTTTTTTCTAGGATTTCAG AACTTGCATTCCACGACTGGTTCGTGTTTTCCAATCTGCAGTTTAAGTGG GGAACCGAAGAAAATGCTATCGCTAAGTCCGATCAATTCTCACCGAGGCG AACGGGTTCAATCGAATGCCAGGGAGATCTGTGTACGTACAAGGCAGTAT GTAGTACTGGACTTGGTTGGCATCTCCCAAACCCGTGAGTGATGGCTTTG GCCACGCTTGCTGATGGTTTGCCAATAGGATTAGGGGCTCATAGTTGTTT ACCTATACTCCTGATGGCTCACCCTTGCTCACCCTAGTGCAGGCTGGTCT TCTCAGGCGATACTACGCAAAGCCCTTCGACGGTCAAACGAGGTCAATGT TCCCCTCAACCGCGATGAGTCTGTCGAGTTCGAAGTTTGTTTGCGAGTCT TGGGCATATTGGAAAGTCTCAGCCATGTAGATCAAGCGGCCTAAATCGAA ACTATCATGTATGGCTCCAGTAACAAAATGTGAGACAAATACACATATTG GCGGACAACTTTAATTTATGAAGTCTGGTCACACCAACAAGGTTGTTCGA TCCAATCCCACGTTTGTCAATAGTGGTAAAGGGGTAATTAAAATGGCACA ACAAAATCAGACTTTGTAAGTGGCTAGATTGGACCCGATCTTACAGATTG TCCTCTCCAAAGGCTGAGCTATCGCGATTTCATCGCTTCAAAGCAATGTA GTGCTGTCTTCTCCAATATAGGATGAGTCAATGTATTATTCAAAACTCTG CACATACAGCTCTAGTGGCTGCTTTAAAATGTCGGAAATGCTGATAGCCA ACCTAAGCCTACTTAAATATTAGGCGCCATCAAGATGAGATTAATCTGAA AACGAGAAATTTTGTGAGTACTCGGGTTGAGGGGTGATACAATCAGTGGA AGCACTCGCTGATTTCAAACGACATGACAACCCTCCCCATATGACCTGAA AAGGAGTGGTTGACATATCAAGTTCGAGTTGCATGTGCCCTAGGTCTCCA TCGCGATAACCATGCACCTGGACCCAATGCTTTACAAAAACGCTACTCTG TGCTCAACATTTGAGTCGTTGAACAAATTTGGTCACCCTGGACAAACCAG TTAGTACGTTCCTGCCCGGTCTTTTTGAACCACACATAGTTCCATCTGGC TCCTTTCTTAAAATCTTCGTACGATCAGTTTTCAAATTGATCCATCAGAA CATATGAAGCAGCCGCAATGAAACAGAAATAAATATAACAATAACCAGCC ATTGGAGTGCTTGGCAGAATGTACGAAAATATGGCGTTTTAGTGCCACCC TCGAACCCACATGACTTCGCCTACAAGATAATTTTGTATTTTAGTATCAA ATAATTGTGCATCCAATTGTCCCCTCTGACTACACATTGTGCATCTAAAA CTCATGAGTAGGCCTCAAAATGTCATTTTTATGTATTTTTGCATATTTTG GTCAACTGTTAGATTTTTCATAAAATCGACCCAAATTCAGCCCGAATCAG ATTACGATCTCCCTGGTTGGCATGTCGGTAAATGGGAAGTAACATGGTAG TTCCTAAAAAATATTTGTAAGGAGCCTGGAAAGGTGAATCTGGATGTCAA TGGAGTAACCTGAAAAATGTGAAAGCCCACATTGTCATTTGTCAACCACT TTTTCTAAAGCACTAGTTCCAACGAAAAAACAATAAAGTCTTGGAAAAAA TGAAAAAATCTTACCATTTTGGCTTCATATTATGTGCATTTTGTGCCCAT TTAAATGCATGCAAATTAGAGCTCTCCTTATGAGGGCTTCCATAACCACC ACATAAATTAAAGAGTTCACTTTTTCACCAACTTCGCAGTACGAAAAAAG TTTTAGTCCGAATTTCCTCAAGAAATGCATGTAAAATGATACAGGTCTTG TTTTGGGGTAGGAACAGGTTATGGATTGGTGGGTGATTAAGATTCCCTGT GTCGAGCGTTGAGGGATGGGCAAAACCGTAGCTAAAGCCAAGCGTTTTTT CTGCCCAGTTTCGTCAGTTTTCGCTTGGATCTCGTCAGGGAAAGGTAGTC TTGTGCCAAGATTCAAAGGATTGATTTTTTACCTAAGTTTCTTTTTGCTT GTAGATCGTCACCATGAAGACTCTGTTATGCTTTTTCTTAGTTGCTGCTA TTGCTCAAAGTTATGCCGAAGATGATAGCCATCGGGAACAACGTGAGATT ATTTCCACTCCAATGGTGCATGAGAGCATACTCACACAACATTTTAAAAT AATGATTCTGCTTTTATTTTAGGATACTTCAGCTTGTTCAATGTTGTGAA GTTCAAGGTAATTACTGCACCTTTCATTCAATACTTGCCCCCGTTACATG CAAAAGCAAGAACACACACGAGAAACAATAAGTGATCGGTGATCTTATGA GAGACCCACCATAAACAACCTGATCCAAAGCATAAGAATTAAACACAATC AAGGTGTTGATTAAAAAAAAGGAGCATTAGTTTCATATTTTTTTCAGCCC GGAACGAACAACCCACCAACTGTTTTTCCCTAATTTGCCATAATGTGGTG AGGGAATTGCAGGATTTTTAATCGATTTTATGAACTCGGGTCCAAAATTT CTTAGTCACACGAAGAAGGGAAATTACTGGCAGGCCTCTTTAGAGAAGAC AACTTAAAGTGGATGGTCTCAAACTCTGACCCTCAAAGCTATTGCTCGAT GAATTGGTTATAGATAATTGCCTTCGGCTATTGACAAAGAAAAATACCAA GTGGTGAAGGCTAGGCATTTCCACTTTTAGAAAAGGGTAATCTCCAGGCA AGCACATACTTGTTTATTATTTGGAAGGTTATCAGTATGCTTAAATAAAT CAACGTGCTTCCAGAAAATAGAGTCTGAAATGTTACTCTATTTTTTGTTG CACCCAAAGATGCATCGAACAGACTCAACGTGAAATGGCGTAAAAGTTTT TTGAAGAGACAAAAAGTGTGCGTAAAATGTGAAAGTGACAGGATGAAACT ATTGTGTATGGCTACAGTAACAAAATGTGAGACAAATACGCATATTGGTA GACAACTTCAATTTATGAAGTCTGGTCACACCAACAAGGTTTTTCGATCC AATCCCACCAGGGATGTAACCCATATTTACACCGTTATTATATTATACAG TATTTTATAAATATTGACACCAGAATTTATCAACACATAGTTCAATTGCA CTAACAGACTTTCTAATGTGTTGAACGCAAATAAACTTCGATTGCACACA CCTTGCATTCAATTGAGGAGAATGCAATTATACTTTTCTCCCGTAATCAG ATATTTCAGTAGTCTTTTAGTCTTAGTCAATAGTAGTATTTCAAATAAGT TCAGTAAATCAAGGAATTTGAACGTTTTTAAGAAACACACCGAAACGTCG CTAAGTGATATTTAACGTTTTAGGCGAAAAAAATCACATTTTTCTACCAT ATCTTGTGTCCTATGGAAAGTTGTGGGTGATAATTGACTGCCAACGTGTA CAGAATATGCCGTTTTATATGAGAGTTTCGAAGGAGATAAAATGACAGAG CATGTGTCCTCCTTTAGAATTTTGTAACACTATTTTACAAGTTTTAATTT GATCAGAATCTCCCCAGTCTAGATGGACCAATCGCTCGGCAGGAAATAAT AGAAAAGTCACCCAAATAGCCCATAGATTATAAAATTGAGATTAACTTAA AAAACAAAACCCACCTGAACCCGTTTTCCATGAATGGAATAAAAACACAT TCGGGAGGGTTTCTCCAAGCTACGGTGAGCATCAACAATCCTTGAGCATG AATTATACCTGTCTTTCGTCAAAATGTTAAAGTCTTAAAATTATCAGTCG TAAATGGAGACTGAACGATCACACTGAGTTGGGCAATGTGTTTACTTTTA GAACGATGGCTGTCTGGGAACTAACGGCGAGGTCGGAACTTGCATGAAGA AAAGTGACTGCAGTTCACATGGAGGCGATGTGATTGGGAACTGTGCTTCA GGTAAGCCATTTTTGGACTAACTTGTGGAACCGGATGAAATCCTACGAAA TCCAGCGCATATCTTTCTTTCACATAAAGTTGCTGGCTGTTGATCGTTGT TTCTGTTTTACAACAAAATACCCAAACAGTGGCAGAGACTAACAATTTCT TCCGAGCTGCAATCAATATACGTGTGTTCTGCCTCTGATTTACAGGATTT GGAGTATGCTGTCAATTCACAGTCAGCTCATGTGGAACCACCGTTAAAAA AGTGAGTTTGTGGTCACTTTAAACCCAATCCGAATGCTACTGCTGCAATT TTACACTATTTTCACTCCATTATTTCAGAACTGTACCGTCATCCAGGTAA GCACGTAATGCTAATTAGAAGGTCTGAGTATCACTAAATGAAATTGTCCT ATCTGCCCGCTAGAATCCCAGTTATCCCAGTTTAGAGACCAAAGCCGGAA GCTGCAGTCATACCTTTGACCGGATCTGTGATGGTAAAAGAATCAACCAG CTCACGCGCTCGAGCAGCAGCTGACCTTTCAGTGTTCTCCACTCTTTTAG ATTTGTGCCAAATTCGTTTGGACTTTCAATCGGTTCAAATGGCGATTGAG CCCACTGGAGAGTGTATTGATACCCTCGTTGTCACGAGTCCAACGCAGAA AAATCCTCCCGTGGTTTGCGGCAGATTGGATGGACAACATAGTGAGTGAA CGCCCAAATAGTTAGATTTATTTTTCTCAATTCCATCTTGATTTTCAGTG TACCTTGACACGAGCAACACTGGAAATGGTGGCTCAATTGCCTTTACCTA TGCGACTGGCGAATCTATGCGTTATAAGATCAAAGTGACCTTTTATGAGT GCACTAACTTGGCCAAGTAAGTGACCAAGAATCATACTTTAACTCAGCGT GCTGGAAAAGTTGCGTTACCTAACCAATAGACATATGAGGTGAACTTCAT TAGATCTCTTTGCAATCACCCTTAGGAGGTTTTCCAACAGGCTAGCCGAT TCAAGAGCAGAAATGAGGGTTGCCAGGACTTTAAGTAAAGAAATTCTCAG ACCAAGTCTTTAGTTTGTACCCAACTTCGTCCTGAGAAGATCATTGAATT TACCGCTTCGGCAAACTTAGAACTAACAACACCCCATCTACCGGTAGATT TGCCGAAGCTTTTCGACAAGCTACACACCCATTGCTTCACCAAAGCTGAA AGCAGTTACTTCATCCAGAATATTAGAACTTTGTTTTACAGATGACTTAC ATGATTCCCAGATATGTCTTAAGATTTGGACCTGTTTTCAGCTTATTTCA TGTCAAGTAAGAACCGACATTTTATTTTTAGGGCCCCCGAGGGATGTGTT CAATACTTCACCGGACTTGGCAACACTTTCAAGAACTACGGCAAGAATGA CGAGGTCATGATCCACGAAATGCAATATCGCACTTGCATGCGACAGGAAT TGGGTAAGCTCAGGCTCAAACCTATTGACAGTGCATGTTCGGACCGATAG CAACTTTTTTTTTTAATTTTTTTCAGGATATTGTAATATGGATGTGTCCG TTGTTGGCAATGCCCCAACCACTAACCCCTCATTCATGCTGGGTGGGGCA GCTCCAGTAGGAACTGCCCAG
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Synonyms
The feature 'hypothetical protein YQE_12379 partial' has the following synonyms
Synonym
Tk11721
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