mRNA_P-littoralis_Contig618.30.9 (mRNA) Pylaiella littoralis U1_48

You are viewing an mRNA, more information available on the corresponding polypeptide page

Overview


Name	mRNA_P-littoralis_Contig618.30.9
Unique Name	mRNA_P-littoralis_Contig618.30.9
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot
Match: D7FJJ1_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FJJ1_ECTSI)

HSP 1 Score: 861 bits (2225), Expect = 2.900e-312
Identity = 423/466 (90.77%), Postives = 446/466 (95.71%), Query Frame = 3

Query:   15 MENASYAKVRLESAPYSTKFGIGMLSAAYVVGLLACLILGTSQGPNVFERSPPAAVETESLNVTWYGKIDGMERWHQVLYLHMRLNKPDMITGAVSYEQRYSVSSWASEEPVDAIACPDGCTSECDVGEECVELAQHIVTDRVIKCPSNEQWCGWTTLLTEEFVEFGTYYMQVDMTEPQLFSAEPRFTLDFEIVYITAEFTKYQMTWHYAWILITLVFMFVPKIGFFYEMTQLHQNFWSRQQARVGVLLLALLFFNNVFFGLQIFSPFPRFFFSLYVVFVATFLALMMFFWLELFGDLAAGNMQGTDTALEWERNRKKTIMEYLPKLVLVGLIWIVTVLVYIYVRVQQTGDPSYSTFDDLSTYTSVKVIGLLLATVYFLWLGTLIVRSFTHIEAMNTEYIFIMVITLVTIVGAMSAVYTGALAPDQHGSKVFAYFYGMFNIYVLLLAFCYTPAGSIYGDINTNDNV 1412
            MENASYAKVRLESAPYST+FGIG+LSA YV+GLLACLI+GT +GPNVFE+SPPAAVET SLNVTWYGKIDGMERWHQVLYLHMRLNKPDMI+GAVSYEQRYSVSSWASEEPVD IACPDGCTSEC+VG +CVELAQ IVTDRVI+CPSNEQWCGWTTLLTEEFVEFGTYYMQVDM EPQLFS  P FTLDFEIVYIT EFT YQM WHY WI+ITLVFMFVPKIGFFYEM QLHQNFWSRQQARVGVLLL+LLFFNNVFFG QIFSPFPRFFFSLY+VFVATFLALM+FFWLELFGDLAAGNMQGTDTALEWERNRKKT++EYLPKLVLVGLIWIVTVL YIYVRVQQTGDPSYSTFDDLSTYT VKV+GLLLAT+YFLWLG+L+ RSFTHIE+MN+EYIFIMVITLVTIVG MSAVYTGALAPDQHGSKVFAYFYGMFNIYVLLLAFCYTPAGSIYGDINTNDN+
Sbjct:    1 MENASYAKVRLESAPYSTRFGIGILSAVYVIGLLACLIVGTIKGPNVFEKSPPAAVETNSLNVTWYGKIDGMERWHQVLYLHMRLNKPDMISGAVSYEQRYSVSSWASEEPVDDIACPDGCTSECNVGGQCVELAQGIVTDRVIQCPSNEQWCGWTTLLTEEFVEFGTYYMQVDMQEPQLFSNAPEFTLDFEIVYITKEFTTYQMYWHYGWIVITLVFMFVPKIGFFYEMMQLHQNFWSRQQARVGVLLLSLLFFNNVFFGFQIFSPFPRFFFSLYIVFVATFLALMLFFWLELFGDLAAGNMQGTDTALEWERNRKKTVLEYLPKLVLVGLIWIVTVLTYIYVRVQQTGDPSYSTFDDLSTYTGVKVVGLLLATLYFLWLGSLVFRSFTHIESMNSEYIFIMVITLVTIVGTMSAVYTGALAPDQHGSKVFAYFYGMFNIYVLLLAFCYTPAGSIYGDINTNDNL 466

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BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot
Match: A0A7S2XXX3_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2XXX3_9STRA)

HSP 1 Score: 141 bits (355), Expect = 9.680e-33
Identity = 116/475 (24.42%), Postives = 223/475 (46.95%), Query Frame = 3

Query:   15 MENASYAKVRLESAPYSTKFGIGMLSAAYVVGLLACLILGTSQGPNVFERSPPAAVETESLNVT----------WYGKIDGMERWHQVLYLHMRLNKPDMITG-----AVSYEQRYSVSSWASEEPVDAIACPDGCTSECDVGEECVELAQHIVTDRVIKCPSNEQWCGWTTLLTEEFVEFGTYYMQVDMTEPQLFS--AEPRFTLDFEIVYITAEFTKYQMTWHYAWILITLVFMFVPKIGFFYEMTQLHQNFWSRQQARVGVLLLALLFFNNVFFGLQIFSPFPRFFFSLYVVFVATFLALMMFFWLELFGDLAAGNMQGT--DTALEWERNRKKTIMEYLPKLVLVGLIWIVTVLVYIYVRVQQTGDPSYS----TFDDLSTYTSVKVIGLLLATVYFLWLGTLIVRSFTHIEAMNTEYIFIMVITLVTIVGAMSAVYTGALAPDQHGSKVFAYFYGMFNIYVLLLAFCYTP 1370
            MEN ++  VR+E      K  I ++  A+ VGL+ C+I+G + GP+VF         T ++  +          W G + GM++ H+++++    ++PD +        ++++Q+  ++              +G   E    +E   LA  +  DR + CP+++  C    +  + ++ F  Y ++V    P   +    P      +  +I  ++T++++ W Y ++ +T +   V  +   Y +    +  W+ QQ  + +LL  L FFN+ FF  Q+          L + F+ATF+A+++ +WL L   +   +   +     + W R         + K +L  +IW++ +  +I +   QT DP++     + D+  +        L +A +Y +W+  LIV +F HI+ M   Y F+  +TL+ I+  + AV+  +L P Q     F   YGM+N+Y+ +LAF YTP
Sbjct:    1 MENETHFPVRVEHHTKG-KMHIIVMGCAFFVGLILCIIVGAA-GPDVFSEHADPDGSTVTIRPSEEGEGVSQGIWMGLLTGMKKKHRIMWVTGSFDRPDFLNNDRPEIELTFDQKMFITI-------------EGLHGE----DERHILADRVERDRKVVCPAHQDRCSDFLIFFQTYIRFPQYRVEVQFIHPGEIADGVNPELKCFMKFFFINEDYTQFELGWGYLFMALTTIVCVVFFLQLVYRLGWWKE--WNTQQRWLVILLPFLWFFNDPFFAGQVVEAPAHGLPELNIFFIATFVAVLLLYWLCLMDQIRTDHHATSVGSRKIAWPR-------WVIWKSILCFVIWLIIMSTFIELYTTQTKDPTFDGITESTDERKSMAFTAATSLFMA-IYIIWMIYLIVSAFHHIKEMLPCYHFLFGVTLLVIIITVVAVFLASLFPVQSTPVQFLGLYGMYNMYIWMLAFAYTP 446

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BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot
Match: A0A6H5L106_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5L106_9PHAE)

HSP 1 Score: 120 bits (300), Expect = 2.930e-29
Identity = 57/68 (83.82%), Postives = 59/68 (86.76%), Query Frame = 3

Query:  537 MTEPQLFSAEPRFTLDFEIVYITAEFTKYQMTWHYAWILITLVFMFVPKIGFFYEMTQLHQNFWSRQQ 740
            M EPQ+FS  P FTL FEIVYIT EFT YQM WHYAWI+ITLVFMFVPKIGFFYEM QLHQNFWSRQQ
Sbjct:    1 MQEPQIFSNAPEFTLAFEIVYITKEFTTYQMYWHYAWIVITLVFMFVPKIGFFYEMMQLHQNFWSRQQ 68

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BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot
Match: A0A0L0D4N3_THETB (Transmembrane protein 181 n=1 Tax=Thecamonas trahens ATCC 50062 TaxID=461836 RepID=A0A0L0D4N3_THETB)

HSP 1 Score: 100 bits (249), Expect = 1.150e-18
Identity = 80/321 (24.92%), Postives = 148/321 (46.11%), Query Frame = 3

Query:  429 VTDRVIKCPSNEQWCGWTTLLTEEFVEFGTYYMQVDMTEPQLFSAEPRFTLDFEIVY--ITAEFTKYQMTWHYAWILITLVFMFVPKIGFFYEMTQLHQNFWSRQQARVGVLLLALLFFNNVFFGLQIFSP--FPRFFFSLYVVFVATFLALMMFFWLELFGDLAAGNMQGTDTALEWERNRKKTIMEYLPKLVLVGLIWIVTVLVYIYVRVQQTGDPSYSTFDDLSTYTSVKVIGLLLATVYFLWL---GTLIVRSFTHIEAMNTEYIFIMVITLVTIVGAMSAVYTGALAPDQHGSKVFAYFYGMFNIYVLLLAFCYTP 1370
            +  R IKC      C    LL E FV +  Y + V     +    E  +  D   ++      FT +++ + + ++++T    FV  + F + +     + WS +Q  +  LL +LL +NN  F L I +   FP F   L V F  TF+AL++ FWL +   +                  +  I  YLPK+ LVG +W+++V+V+ +  + +  +P+YST +D+  +   +V+ +LL   Y  WL     L V+       ++    ++ ++T+  +   ++ +  G +    + +  F  F+ +FN+Y+  LA  Y P
Sbjct:  122 IESRKIKCSQGNIHCDEVALLHEPFVHYPIYRVDVRFLNAE----EEDWIQDAVFIWRVFNHSFTLFELWFRFTFLVLT----FVMLVWFSHRLRAYKSSEWSIEQKWMTALLFSLLAYNNPLFPLTILADSWFPEF---LDVCFFVTFIALLLLFWLCILDSIRK------------PATARTYIGFYLPKVALVGTLWLISVVVFTWQELHELDNPTYSTANDIPGFIFFRVVQILLLIGYTFWLIFVAILGVKDRRAFPRLSVRIKYLGILTIFVLAITITGIVLGVVGTIHNNAAQFLSFFSLFNLYIFFLAIVYAP 419

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BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot
Match: UPI0015D0C931 (transmembrane protein 181 isoform X1 n=2 Tax=Electrophorus electricus TaxID=8005 RepID=UPI0015D0C931)

HSP 1 Score: 99.8 bits (247), Expect = 1.840e-18
Identity = 87/341 (25.51%), Postives = 160/341 (46.92%), Query Frame = 3

Query:  438 RVIKCPSNEQWCGWTTLLTEEFVEFGTYYMQVDMTEPQLFSAEPRFTLDFEIVYITAEFTKYQMTWHYAWILITLVFMFVPKIGFFYEMTQLHQNFWSRQQARVGVLLLALLFFNNVFFGLQIF--SPFPRFFFSLYVVFVATFLALMMFFWLELFGDLAAGNMQGTDTALEWERNRKKTIMEYLPKLVLVGLIWIVTVLVYIYVRVQQTGDPSYSTFDDLSTYTSVKVIGLLLATVYFLWLGTLIVRSFTHIEAM---NTEYIFIMVITLVTIVGAMSAVY------------TGALAPDQHGSKVFAYFYGMFNIYVLLLAFCYTPAGSIYGDINTNDN 1409
            RV+ C + ++ C    ++   ++ +  Y + V + + +  S   +  + F +      F++ ++ + + +++IT    F     F + + +     W  +Q  + +LL  LL +N+ FF L     S FP     L  +F A FL  ++ FWL ++       +QG           +K +  YLPKLVLVGL+W   V++ I+  V +  DP+Y    D+  +  +KV  LLL  +Y L+LG L++R+++ ++ M   +    F+  +T + ++ +M  +Y               L+     S  F  FYG+ N Y+  LAF Y+P+ +   D    DN
Sbjct:  167 RVLHCATPQELCDEIIIVHLGYLNYTQYKINVTLKDLEGISQNIQ-NVTFVVKTYNPTFSQVEIWFRFVFVVIT----FTVTCMFAHSLRKFPMRDWGIEQKWMSILLPLLLLYNDPFFPLSFLTNSWFPG---MLDAIFQALFLCALLLFWLCVYHGF---RVQG----------ERKCLTFYLPKLVLVGLLWFSAVILGIWQLVNELQDPTYQYDIDIKHFQGMKVFFLLLVAMYVLYLGFLLLRAWSELKNMPYSDLRLKFLTALTFLVLIISMIILYLRFGSKALQDNFVAELSIHYQNSAEFVSFYGLLNFYLYTLAFIYSPSKNTLYDSQLKDN 486

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BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot
Match: A0A3B3QNW8_9TELE (Transmembrane protein 181 n=2 Tax=Paramormyrops kingsleyae TaxID=1676925 RepID=A0A3B3QNW8_9TELE)

HSP 1 Score: 97.8 bits (242), Expect = 7.680e-18
Identity = 80/283 (28.27%), Postives = 141/283 (49.82%), Query Frame = 3

Query:  612 FTKYQMTWHYAWILITLVFMFVPKIGFFYEMTQLHQNFWSRQQARVGVLLLALLFFNNVFFGLQIF--SPFPRFFFSLYVVFVATFLALMMFFWLELFGDLAAGNMQGTDTALEWERNRKKTIMEYLPKLVLVGLIWIVTVLVYIYVRVQQTGDPSYSTFDDLSTYTSVKVIGLLLATVYFLWLGTLIVRSFTHIEAM---NTEYIFIMVITLVTIVGAMSAVY------------TGALAPDQHGSKVFAYFYGMFNIYVLLLAFCYTPAGSIYGDINTNDN 1409
            F++ ++ + + ++++T    FV    F + + +     W  +Q  + +LL  LL +N+ FF L     S FP    +L  +F A FL  ++ FWL ++  +    +QG           +K +  YLPKLV+VGLIW+ ++ + I+  V +  DP+Y    D+  +  +K+I L++ +VY L+L  LIVR+ + ++ M   +    F+  +T + ++ +M  +Y              AL+     S  F  FYG+ N Y+  LAF Y+P+ S   D    DN
Sbjct:  223 FSQVEIWFRFVFVVLT----FVVTCMFAHSLRKFSMRDWGIEQKWMSILLPLLLLYNDPFFPLSFLVNSWFPG---TLDALFQAVFLCALLLFWLCVYHGI---RVQG----------ERKCMTFYLPKLVIVGLIWLSSITLGIWQTVNELHDPTYQYKVDIGNFQGMKIIFLVVVSVYILYLIFLIVRACSELKNMPYTDLRLKFLTALTFIVLIISMVILYLRFGAKVLQDNFVAALSTHYKNSAEFLSFYGLLNFYLYTLAFVYSPSKSALYDSQLKDN 485

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BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot
Match: A0A6B2L3Y4_9EUKA (Uncharacterized protein n=1 Tax=Arcella intermedia TaxID=1963864 RepID=A0A6B2L3Y4_9EUKA)

HSP 1 Score: 96.3 bits (238), Expect = 1.600e-17
Identity = 104/446 (23.32%), Postives = 191/446 (42.83%), Query Frame = 3

Query:   84 MLSAAYVVGLLA-CLILGTSQGPNVFERSPPAAVETESLNVTWYGKIDGMERWHQVLYLHMRLNKPDMITGAVSYEQRYSVSSWASEEPVDAIACPDGCTSECDVGEECVELAQHIVTDRVIKCPSNEQWCGWTTLLTEEFVEFGTYYMQVDMTE---PQLFSAEPRFTLDFEIVYITAEFTKYQMTWHYAWILITLVFMFVPKIGFFYEMTQLHQNFWSRQQARVGVLLLALLFFNNVFFGLQIFSP--FPRFFFSLYVVFVATFLALMMFFWLELFGDLAAGNMQGTDTALEWERNRKKTIMEYLPKLVLVGLIWIVTVLVYIYVRVQQTGDPSYSTFDDLSTYTSVKVIGLLLATV-YFLWLGTLIVRSFTHIEAM---NTEYIFIMVITLVTIVGAMSAVYTGALAPDQHGSKVFAYFYGMFNIYVLLLAFCYTPAGSIYGD 1391
            +L+ A  +GL    +++G   GP V   +     +T +L + W G I  +   HQ L L M ++K ++    +  +++ ++S              DG       G   + L   +V  + I+C + ++ C    +  E  +++G+Y  +VD+     P  F +   F+      Y+   FT +++   + ++  +    F+  + F +++   +   WS +Q    VLL     FN+ F GL I     FP     L V+   +FL L++FFWL +F       M+  DT       +   +  YLPK +++GLIW+  V+      +++  DP+     ++  Y       + L  + Y  WL  L+ R+   I  M   N    F  + TL   +   + +  G  +P    +  F  F  + N YV  L+F Y P+G +  +
Sbjct:   12 LLTFALFLGLFCGSIVVGFFFGPPVIITTS----QTANLALNWTGAITDLSPLHQQLILTMYIHK-EVFQYNIDVKEKLTLS-----------ISVDGSQD----GHSWIPLESQLVHSKDIQCDAGKEICDGVIIAYEPHIKWGSYRYKVDVVSFEGPVAFVSNTTFSFS----YVNDSFTLFELWCRFGYLFCS----FLVLVNFIFKLRNYNWRDWSVEQKWTCVLLFGTFAFNDPFCGLSILISGWFPV---LLDVILFGSFLVLLLFFWLVMFDG-----MRQEDT-------KHSFVRFYLPKFLIIGLIWVSLVVGSTLFALKELDDPA--AIIEVQGYIIFFQSAMFLLLIGYSFWLVYLVFRACGMINTMPFLNVRLKFFGLFTLFVFMVTTTGILFGIFSPLPVNAAQFVAFLSLLNFYVYTLSFVYLPSGGLLNE 412

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BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot
Match: A0A3Q3X3U5_MOLML (Transmembrane protein 181 n=1 Tax=Mola mola TaxID=94237 RepID=A0A3Q3X3U5_MOLML)

HSP 1 Score: 96.3 bits (238), Expect = 1.910e-17
Identity = 93/335 (27.76%), Postives = 157/335 (46.87%), Query Frame = 3

Query:  444 IKCPSNEQWCGWTTL-LTEEFVEFGTYYMQVDMTEPQL-FSAEPRFTLDFEI-VYITAEFTKYQMTWHYAWILITLVFM---FVPKIGFFYEMTQLHQNFWSRQQARVGVLLLALLFFNNVFFGLQIF--SPFPRFFFSLYVVFVATFLALMMFFWLELFGDLAAGNMQGTDTALEWERNRKKTIMEYLPKLVLVGLIWIVTVLVYIYVRVQQTGDPSYSTFDDLSTYTSVKVIGLLLATVYFLWLGTLIVRSFTHIEAM---NTEYIFIMVITLVTIVGAMSAVYT--GALAPDQHGSKVFAYFYGMFNIYVLLLAFCYTPAGSIYGDINTNDN 1409
            + C  N Q   + +L + +E + F   Y+     + Q+ F      T +  + +++   +  Y  T+    I    VF+   F+    F + M +     W  +Q  + +LL  LL +N+ FF L     S FP    +L   F A FL  ++ FWL ++  +    +QG           +K +  YLPKL++VGL+W+  V + I+  V +  DP+Y    D+  +  VKV  L +  +Y L+L  L+VR+ + ++ M   +    F+  +T V +V +M  +Y   GA A   +    F  FYG+ N Y+  LAF Y+P+ +   DI   DN
Sbjct:  121 LTCLLNVQSIPYESLQICDEIIVFHLGYLNYTQYQVQVSFKGLENITYEINVNLFLMYYWKSYNPTFSQVEIWFRFVFVVLTFMVTCMFAHSMRKFSMRDWGIEQKWMSILLPLLLLYNDPFFPLSFLVNSWFPG---TLDAFFQALFLCALLLFWLCVYHGI---RVQG----------ERKCLTFYLPKLIIVGLLWLSAVTLGIWQTVNELQDPTYLYKVDIVNFQGVKVFFLTVVALYILYLIFLVVRACSELKNMPYSDLRLRFLTALTFVVLVISMVILYLRFGAKALQDNVPAEFLSFYGLLNFYLYTLAFVYSPSKNALYDIQLKDN 439

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BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot
Match: A0A672NP05_SINGR (Transmembrane protein 181-like n=23 Tax=Cyprinidae TaxID=7953 RepID=A0A672NP05_SINGR)

HSP 1 Score: 95.5 bits (236), Expect = 4.150e-17
Identity = 89/344 (25.87%), Postives = 159/344 (46.22%), Query Frame = 3

Query:  435 DRVIKCPSNEQWCGWTTLLTEEFVEFGTYYMQVDMTEPQLFSAEPRFTLDFEIVYITAEFTKYQMTWHYAWILITLVFMFVPKIGFFYEMTQLHQNFWSRQQARVGVLLLALLFFNNVFFGLQIF--SPFPRFFFSLYVVFVATFLALMMFFWLELFGDLAAGNMQGTDTALEWERNRKKTIMEYLPKLVLVGLIWIVTVLVYIYVRVQQTGDPSYSTFDDLSTYTSVKVIGLLLATVYFLWLGTLIVRSFTHIEAMNTEYI-----FIMVITLVTIVGAMSAVY------------TGALAPDQHGSKVFAYFYGMFNIYVLLLAFCYTPAGSIYGDINTNDN 1409
            +R ++C +++Q C    +L   ++ +  Y + V     Q    +    + F     +A F++ ++ + + ++++T    F+    F + + +     W  +Q  + VLL  LL +N+ FF L     S FP    +L   F A FL  ++ FWL ++  +    +QG    L +          YLPKL++VGL+W+  V + I+  V +  DP+Y    D+  +  +KV  LLL  VY L+L  L++ + + ++  N  Y      F+  +TL+ +V ++  +Y               L+     S  F  FYG+ N Y+  LAF Y+P+ S   D    DN
Sbjct:  157 NRSLRCAAHQQACDEIIVLHLGYLNYTQYKINVSFRNLQDGLKDKIKNVTFVFKMYSATFSQVEIWFRFVFVVMT----FIVTCVFAHSLRKFSMRDWGIEQKWMSVLLPLLLLYNDPFFPLSFLVNSWFPG---TLDAFFQALFLCALLLFWLCVYHGI---RVQGDRRFLSF----------YLPKLLIVGLLWLSAVTLGIWQTVNELQDPTYQYNVDIQNFQGMKVFFLLLVAVYVLYLVFLVLCACSELK--NAPYTDLRLKFLTALTLLVLVISVVILYLRFGSKALQDNFVSELSTHYQNSAEFLSFYGLLNFYLYTLAFVYSPSTSALYDSQLKDN 478

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BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot
Match: A0A6P6NR95_CARAU (transmembrane protein 181-like isoform X3 n=2 Tax=Carassius auratus TaxID=7957 RepID=A0A6P6NR95_CARAU)

HSP 1 Score: 95.5 bits (236), Expect = 4.150e-17
Identity = 89/344 (25.87%), Postives = 160/344 (46.51%), Query Frame = 3

Query:  435 DRVIKCPSNEQWCGWTTLLTEEFVEFGTYYMQVDMTEPQLFSAEPRFTLDFEIVYITAEFTKYQMTWHYAWILITLVFMFVPKIGFFYEMTQLHQNFWSRQQARVGVLLLALLFFNNVFFGLQIF--SPFPRFFFSLYVVFVATFLALMMFFWLELFGDLAAGNMQGTDTALEWERNRKKTIMEYLPKLVLVGLIWIVTVLVYIYVRVQQTGDPSYSTFDDLSTYTSVKVIGLLLATVYFLWLGTLIVRSFTHIEAMNTEYI-----FIMVITLVTIVGAMSAVY------------TGALAPDQHGSKVFAYFYGMFNIYVLLLAFCYTPAGSIYGDINTNDN 1409
            +R + C + +Q C    +L   ++ +  Y + V   + Q    +    + F      A F++ ++ + + ++++T    F+    F + + +     WS +Q  + VLL  LL +N+ FF L     S FP    +L   F A FL  ++ FWL ++  +    +QG          +++ +  YLPKL++VGL+W+  V + I+  V +  DP+Y    D+  +  +KV  LLL  VY L+L  L++ + + ++  N  Y      F+  +TL+ +V ++  +Y               L+     S  F  FYG+ N Y+  LAF Y+P+ S   D    DN
Sbjct:  157 NRSLHCAAQKQACEEIIVLHLGYLNYTQYKISVSFRKLQDDLKDRIKNVTFAFKMYNATFSQVEIWFRFVFVVMT----FIVTCVFAHSLRKFSMRDWSIEQKWMSVLLPLLLLYNDPFFPLSFLVNSWFPG---ALDAFFQALFLCALLLFWLCVYHSI---RVQG----------QRRLLTFYLPKLLVVGLLWLSAVTLGIWQTVNELQDPTYQYKVDIQNFQGMKVFFLLLVAVYVLYLLFLVLCACSELK--NAPYTDLRLKFLTALTLLVLVISVVILYLRFGSKALQDNFVSELSTHYQNSAEFLSFYGLLNFYLYTLAFVYSPSRSALYDSQLKDN 478

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot

BLAST of mRNA_P-littoralis_Contig618.30.9 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FJJ1_ECTSI	2.900e-312	90.77	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]
A0A7S2XXX3_9STRA	9.680e-33	24.42	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
A0A6H5L106_9PHAE	2.930e-29	83.82	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
A0A0L0D4N3_THETB	1.150e-18	24.92	Transmembrane protein 181 n=1 Tax=Thecamonas trahe...	[more]
UPI0015D0C931	1.840e-18	25.51	transmembrane protein 181 isoform X1 n=2 Tax=Elect...	[more]
A0A3B3QNW8_9TELE	7.680e-18	28.27	Transmembrane protein 181 n=2 Tax=Paramormyrops ki...	[more]
A0A6B2L3Y4_9EUKA	1.600e-17	23.32	Uncharacterized protein n=1 Tax=Arcella intermedia...	[more]
A0A3Q3X3U5_MOLML	1.910e-17	27.76	Transmembrane protein 181 n=1 Tax=Mola mola TaxID=...	[more]
A0A672NP05_SINGR	4.150e-17	25.87	Transmembrane protein 181-like n=23 Tax=Cyprinidae...	[more]
A0A6P6NR95_CARAU	4.150e-17	25.87	transmembrane protein 181-like isoform X3 n=2 Tax=...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig618	contig	P-littoralis_Contig618:109046..128327 -

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Pylaiella littoralis U1_48 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	529818.AMSG_02717T0
Preferred name	TMEM181
PFAMs	MIG-14_Wnt-bd
Model size	1722
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	signal anchor
GOs	GO:0003674,GO:0005488,GO:0008150,GO:0009405,GO:0015643,GO:0044419,GO:0051704
Exons	11
Evalue	1.24e-19
EggNOG OGs	28HK3@1\|root,2QPXU@2759\|Eukaryota
Ec32 ortholog description	conserved unknown protein
Ec32 ortholog	Ec-04_006310.1
Description	toxic substance binding
Cds size	1521
COG category	S

Relationships

The following polypeptide feature(s) derives from this mRNA:


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig618.30.9	prot_P-littoralis_Contig618.30.9	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig618 109233..128313 -

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


Feature Name	Unique Name	Species	Type	Position
1680791286.5338266-UTR-P-littoralis_Contig618:109045..109232	1680791286.5338266-UTR-P-littoralis_Contig618:109045..109232	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig618 109046..109232 -
1680791286.6864827-UTR-P-littoralis_Contig618:128313..128327	1680791286.6864827-UTR-P-littoralis_Contig618:128313..128327	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig618 128314..128327 -

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


Feature Name	Unique Name	Species	Type	Position
1680791286.5484624-CDS-P-littoralis_Contig618:109232..109475	1680791286.5484624-CDS-P-littoralis_Contig618:109232..109475	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig618 109233..109475 -
1680791286.5589035-CDS-P-littoralis_Contig618:109799..109976	1680791286.5589035-CDS-P-littoralis_Contig618:109799..109976	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig618 109800..109976 -
1680791286.5696094-CDS-P-littoralis_Contig618:111934..112010	1680791286.5696094-CDS-P-littoralis_Contig618:111934..112010	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig618 111935..112010 -
1680791286.5818653-CDS-P-littoralis_Contig618:112198..112311	1680791286.5818653-CDS-P-littoralis_Contig618:112198..112311	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig618 112199..112311 -
1680791286.597863-CDS-P-littoralis_Contig618:112677..112768	1680791286.597863-CDS-P-littoralis_Contig618:112677..112768	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig618 112678..112768 -
1680791286.6075966-CDS-P-littoralis_Contig618:112927..113022	1680791286.6075966-CDS-P-littoralis_Contig618:112927..113022	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig618 112928..113022 -
1680791286.6234813-CDS-P-littoralis_Contig618:114142..114352	1680791286.6234813-CDS-P-littoralis_Contig618:114142..114352	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig618 114143..114352 -
1680791286.6376483-CDS-P-littoralis_Contig618:114760..114824	1680791286.6376483-CDS-P-littoralis_Contig618:114760..114824	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig618 114761..114824 -
1680791286.6493568-CDS-P-littoralis_Contig618:115245..115466	1680791286.6493568-CDS-P-littoralis_Contig618:115245..115466	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig618 115246..115466 -
1680791286.6603103-CDS-P-littoralis_Contig618:127676..127840	1680791286.6603103-CDS-P-littoralis_Contig618:127676..127840	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig618 127677..127840 -
1680791286.6716352-CDS-P-littoralis_Contig618:128246..128313	1680791286.6716352-CDS-P-littoralis_Contig618:128246..128313	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig618 128247..128313 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig618:109046..128327-
coding sequence from alignment at P-littoralis_Contig618:109046..128327-

protein sequence of mRNA_P-littoralis_Contig618.30.9

>prot_P-littoralis_Contig618.30.9 ID=prot_P-littoralis_Contig618.30.9|Name=mRNA_P-littoralis_Contig618.30.9|organism=Pylaiella littoralis U1_48|type=polypeptide|length=507bp
MENASYAKVRLESAPYSTKFGIGMLSAAYVVGLLACLILGTSQGPNVFER
SPPAAVETESLNVTWYGKIDGMERWHQVLYLHMRLNKPDMITGAVSYEQR
YSVSSWASEEPVDAIACPDGCTSECDVGEECVELAQHIVTDRVIKCPSNE
QWCGWTTLLTEEFVEFGTYYMQVDMTEPQLFSAEPRFTLDFEIVYITAEF
TKYQMTWHYAWILITLVFMFVPKIGFFYEMTQLHQNFWSRQQARVGVLLL
ALLFFNNVFFGLQIFSPFPRFFFSLYVVFVATFLALMMFFWLELFGDLAA
GNMQGTDTALEWERNRKKTIMEYLPKLVLVGLIWIVTVLVYIYVRVQQTG
DPSYSTFDDLSTYTSVKVIGLLLATVYFLWLGTLIVRSFTHIEAMNTEYI
FIMVITLVTIVGAMSAVYTGALAPDQHGSKVFAYFYGMFNIYVLLLAFCY
TPAGSIYGDINTNDNVRTCFSSARVQYQLESCAPRSHFTQSLCLQGLLLR
SSPLVT*

mRNA from alignment at P-littoralis_Contig618:109046..128327-

Legend: UTRpolypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>mRNA_P-littoralis_Contig618.30.9 ID=mRNA_P-littoralis_Contig618.30.9|Name=mRNA_P-littoralis_Contig618.30.9|organism=Pylaiella littoralis U1_48|type=mRNA|length=19282bp|location=Sequence derived from alignment at P-littoralis_Contig618:109046..128327- (Pylaiella littoralis U1_48)
AGTGTGGTTCCAAAATGGAGAACGCCAGCTATGCCAAGGTCAGGCTGGAG
TCAGCTCCGTACAGCACCAAGTTCGGCATTGGTGAGTGGTTGCTTTACGC
AACCTTGACATTATTTTCATCCATCTCGTAAACCCCTCTCAAGTTGCAAA
CTCAAACTTGTCTCCCCGATACATATGATATATAATGGTATCTTTCATCT
CTGCGGATATATACCCCCCATAGTCCATAAATTAGGTTGTATCATGCTGT
AGAGCCCTGTTCGAATCGTGTCTCGTGACACACATCCCCCCTTGCTAGTC
TAAAGTTATAGCCAACACCAGCGCCCTGTACAAATCGTGTCTTATGGAAC
ACACATATCCCGCCCAGCGCGGATCTGAGGCACAATGTGCACGTGTATGG
ATGCAAACAGGGTGATTTACGCGAGAACGTGATCCTGTCTTGCGCGTGTG
GAATGCCCAACTTGTCCTCGTCTTTTCGGCTATCCAGGGATGTTGAGCGC
CGCGTACGTTGTAGGCTTGTTGGCTTGCCTCATCCTGGGCACTAGCCAAG
GCCCAAATGTGTTTGAAAGATCACCCCCTGCTGCGGTCGAGACTGAATCT
CTCAATGTGACATGGTACGGAAAGATTGACGGGATGGAGCGATGGCATCA
GGTGAGAGCAAAGCACGCGTCACCACAAGGAGGAGGTTTGCATTGTAAGG
TTCACCCCACAGAGTTACCTTCTCAGTGAACCGCACACCATATACAATAG
AAAGGGCGAGCTGTTGTGGTTGGGCATTACAGCAGAAACTGGCATCCTGA
AGGCTTGCCTCTCATCTCGTACTTCACGCAATTGGTAACATTTACGACTC
TGTTGACGTGTCCATCACGTTGTGATCGAATCTACATTCATATAGTCCGA
CCAGACCGGTTGCCCCGGTGGTCTGTGGTTCCCTTGTTAACCTACTAGCT
GTAAGGTCGTATGATATCATGTCATAGGTTCGATTCTCCCTGAGACTTGT
TCTTGCGCCTTTACAGCAGTGGAAATGCGAAATACTCGTGAGCAGTGATC
GCCATTACCGCCAATTTACCTTTTACCGACCGGTAATTACCGCAAATCAG
CTTTTCCAGGTGCCGACCGGTAATTACCGCAAAAGTAACGGGTCATTATC
CATAGCTGTGGCCGGCCCTCCTCGGGTTCCGTACTAATTGGGCACCCAAA
GCCCCCCAATCGGAGGATCCCGCACCACGCATGGTCCGCAATCGACTCGT
TGTGTGGCTATGGTAGATAACTACAGGAGCCGGAGGCTTGGAAGGCGACT
CTAGTTACACCGCACAACAAGGGTGTTGCCGGGTTTCAAAGTACGGAAGG
GTTAGGTACGAGTGAGGGGACGCTTGTTTCGGTCCCTTCTTCGCGCTGCT
GACAAGCACACACGACAGAAGACAACACCGACAGCTGGACTTGAACTGAC
GTGCAATATTCTTGCATAGCCTCACACCATCCCTAGCAAGGAAGGAGTCG
AAGAAGGAAGGGGGATCTGGGGACTTTGAGTCAAAATCGCGCCATGCTGT
CATCAGTTGCAACCCGGGGCTGCTTCGTCAAAATTCCGTTTGCCCACCAC
GCCAACAGCGCCTGCTCCTCACACAGCGTGCACAGCTGTGGGTGCACCCA
CAGCAGCAGCTACTGTGTACATCTGACTATCCCAAGCAACAACCCCCATC
CAATTACACGACCTGTACGCTGAGCATGACAAAATATTCGGACTCGGAAA
ATGTCCCGACGCGCGGTCGTATCGAGTGATCCAGGTTGTGAGTTGCGCTG
TCTTGGAATCCTGGCTGTATATATTTTTTTTTCAAAACGTTTTTTTTTTG
TGCAGCAGAACAGCAGCAGCAGTGTCTTTCCTGCTTCATTCCCACGATGC
TGCAGGTGACCGCGGGTCGGGACATTTTCCGAGTCCGGATATTTTGTCAT
GCTCAGCGTACGGGTCATGTAATTGGATGGGGATTGTTGCTTGGGATAGC
CAGATGTACACAGTAGCTGCTACTGTGGGTGCATCCACAGCTGTGCACGC
TGTGTGAGGAGCAGGCGCTGTTGGCGTGGAGGGCAAACGGAATTTTGACG
AAGCAGCCCCGGGTTGCAACTGATGACAGCATGACGCGATTTTGACTCAA
AAGTCCCCAGATTCCCCTTCCTTCTTCGACTCTTTCCTTGCTAGGGATGG
TGTGAGGCTATGCAAAAGATTGCACGTCAGTTCAAGTCCAGCTGTCGGTG
TTGATTCTGTCGTGTGTGCTTGTCAGCAGCGCGAAGGAGGGGCGGCTTTC
AACGTCCCCGTACCCACACGAAGACCTCCCATCTTTTGAAACCCGGCAAC
ACCCCAGCGCGGGAGGCTACCTCCAAGAATCATTGAACATGTGTACATAG
AAAAAACAATGATTTAGAGTTGCCTTCCAAGCCTCCGGCTTTATAGTCAT
CTACCATAGTTGTGTGCTGTGTGTGCTCTTGTGGCGGTGAGTGGGGGTCT
GCTGCGGTGTCGGTGAGGTTCGTGTGAGGAAGGGGTCCCGCAGATGCCAA
CCCCCCCAAGGGCCCCAAGCCCCCTCCCCCAGATCTACCGACCGCTCAAA
AAAGGTACAGCTTATTACCGGTGTTACGGTAATGGCGATCCTTGCTCATG
CGTAAACAGAAGGAAGGGATTGCTCTACCCCGACTCGCATTAAAAACCAA
AGGCACGTACTTCAGGAGGAAGGTTTGGGCAATAAAACAAAATAAAAAGT
GATGGAGCTCGTGTGTGACCTTCCTTCTATGTGACCCCGGCTGATGCACC
CACCTCATACCGAAAGGTGTAGACTGGTGCCCAGAATAAATGGGATGACA
ACACACAATACACACACACCCCGATCGCCCCAGTGGTTCAGTTGATCATC
CCCGATACCCTCTGAGACCGTTTCTTACGACTGTTATTTGGTCCTGTGTT
TTTTCTCCTGAGGTACCCCCCCCCCAATAACAGAGAGCCCAAACGGTTGT
AAAATCTACTTTTTGAGCACAACAGGAGAAGACAGCACCATACAGAACTC
GACCCCTGGAACACCAATCGAGACTAAAACTGTTGCACGGTACGCTCTAG
TGTTCTCAGGTTGGCCACAGGAAATTTGGTGGGTGTAGGCTTTAGCTGTG
GCGAGGTTTCGGCGGCGGAGTGGTCTGAGGTAGGGAAATCCGGTGGAAAA
AAAAACATGGCGAATTGCTGAATCACTGTTCTTGGTTGGAGTTGTGTCAC
AGTAGTGGATGTATGTCCCGAAAGGTACTTAACGGGGGTTCGACCGAGGA
GGATTGCTGTGTCAGTGTGTGGGTCCCGAAAGGTACTTTACGGGAATTCG
ACCGAGGAGGAAAGCTGTAGGGTTAGAGTGCGTGTGTCCCGAATCGTACT
TTACGGGAATTCGACCTAGGAGGTACTTCAAGTAGTAAATTTCGGCACGC
TGGCCCCTCTGCGTGGAGGGTGAACGAGCACGTGTTTGTGTCCTTTGGGA
CCGCCTTGGACATTTTAGAAAAGTTGGTCGTCGAGGAACACTCGAAAGGA
TACCTCAGTTGTACAGATGAGAGCTCGGAGCAGGAATCATGTGATGATGT
AGAAGCAGCAGCACCGACAGCAGGAAGAGCATCCAGAAGTAGTAGCTGGA
GCAGTACGAAGGGCTATGCGTGCACTGCCTCAGGAGTCCCTGTGTGTGCT
GGTTTTGCTGTTGACACTAGCTACGAATTTGAGACTGTTGTACGCTGCTG
CTGCTGCTGCTGCTGCTGTTAGTAGCACGAGCACCCAGCACACCAGGCCA
GAGCAGGCCCGAGACACATCCGAATATCAGAGGGATTTCCACACGGGCGC
CTACATGACACCGGTATTCTCGTTTTTTCGCTGTTCGTACCCCCGTCGAC
ATTTTTGATGTCACGCGCTAGTGGAGATATGTCCCTGACATGGGCGAGAC
CCTCCCCCTATCTCTAAAGTAGATATCTGGGAATCGACGATAACCGACAT
TCACTGAACCCCCCTTTTTTCGGGAAAAGCAGAGAGAGTGTTGCTTGCTG
CAGAAAGCACGCCCAAAAGCACGCACCGACCCATCCTCGCACTACCCCTC
GAACCCAACCCATCCATTCATTGTCACTCCCGCCCAGCGAACGCTCACAA
CCCAGCTGTGTGCTGTAGTCTGATGTCAGCAGCTGTAAGTGCCAGTATTA
GTTCCAGGAAGAGGACAGGAGAGGGCTGTGGGTTCTCTGCATATCGTTAG
GGGCTCAATGCTGGTTGTTGTTACTGCATACAGCAGTAGTACAGCAGTGT
AGTTTGAAGTACGATTAGTACTGCTGACTCCACGAGGAGGTGACCACACA
CAGCAGTACCAGGAGGAGAAGGACACCACACACAGCAAATTGACCCTTGA
GACTTACAGAGAAAGAGAGATGGATAGGTTTTCGAACGATATCCCGACGT
AACCCAAACGCCAACCCAACGAAACCACCCCAACCCAAGCCACCCTTACA
ATACCCCCCTAACTCAACCCAACCGATCCAATTCAACCGAACCCGACCCT
ACCCAACACAACCCAACACAACCATACGGTACACCCCCCCGGCGCAACCC
TACACAACCCAACACAACCCTACGGTACCCCTCAACCCTCCCCCAGGGCG
CAATCCTAAACAACCCAACCCAACCCTGCCCAACCATACGGTACCCCCCC
CAACCCCCACCACAGGGGGGGGCGCAACCCTACCCAACCCAACCAACCCA
ACCCAACCCAACCCAACCATGCGGTACCCCCCCCAACCCCCCCCCAGAGG
AGGGGGCGCAACCCTAGGCAACCCAACCCAACCCAACCATACGGTACCCC
CCCCAACCCCCCTCAGAGGGGGGGGGCGCAACCCTACCCAACCCAACCCA
ACTCAACCCAACATAACCCAACACCCGCAGAGGCCCCGTGGTTGAAAGTT
TTATCACAACTAGATTTATACTTGAAAGTATTTTTAATAAATGCTGTCCA
AGCCTGTTTTTTGGCCGGAAAAACACGAGCGAAGTCTATTATTTCGTTTC
GTCTGTTTTCCCATCTCGAACTAACACCGCCGCCAAACTTTCGCCACAGC
CCGAACCCACTGCCACCAAACTTCCGGTGGCCAACTTGAGTAAATAGGAG
CACACGCTCCATCAGGTTTGATCGGCATCTTCTGTGTCCTAGGGGTCGAG
TTCTGGTTGGTGCTATCGCATGATGTGTGCAACAGGGCTGTTTGCGGGTG
GGGGGGGGGGTAGGGGGGTTCTCTAGTTGGATTCTTGTAGCGTCTAAACG
CCAGGCCAAAATATCGTTGACCGCAAGGAACAGCCTGACACTCACACTTG
AGTTCGAATCACAGTGCAGCAACACGATCCGGATTTTTTTCTCACATCAT
GCGTGAGGGTGGAAAGCGATTAATTCGTATGTAAAACAAAAATTCGATTG
AATAATCGAGGAGGGAAATTGACGGCTCTACCCTTTCTCGCGATATAAAA
ATAAGGCAATCACCGCAGTGGGAAGTATAGAGAAAAAAAAACTCCTGTGT
TGACTTCCTACGGTGTGATCCCGGTCGGAGGTCTACCTACCCGAAAGCAG
TAGAGTGACGTCCAATCAGAGGGATGACAAAACACACGGACACACCCCAC
GGGTTCAAGGTACGTACCGTATCATACCTTCGGACTGTGGGTGATCATAA
TCCATTTATTTTATTTTTATTTTTTTCCACCTAACACGATATGTGCCTGG
TTTGTGACCACGGGCTAGACTGCGGCGGTAGTGAGCTAATGTGATAATCA
ACAACAAAGTACTTCAGTTATTGTTTACACTCAAAAAGGCTTTTTCGAAG
GCCCACTCTCATGGTAGACGGATAATTTTAATTGCTTGAGTTGGAAACGC
ATTTCCCGAGCCTGTTCTTCCAAACTGGAAAATCAGCGTGGGGTCAACTC
ATGGGAAAATCGGAAAAGTCTGATTTTTTTTGGAAATCTGGACAGCGATT
GGAAATCAGATGGGGTTGTGGGATGGACGGCAAGCTGTTTGGTTTTTTTA
GAAACTGCTGCTGATGGCCCATAGCGGAAAGCGTGATTGTCAGCACAGCC
AGGATCGCACGTAGCTTGGGTACCTGCAACCGGCTCGTGTGTTTATTATT
TTGGCTTGGTTTGGGCTGTGAACCACTGCGGCGTAACCTCGTGGCCGCGC
GCGACGTGCGAGTCGAGTGGAATCCGGAGAATTGGATAATATTTTCCGAT
TCCGACCGAATACAACCCCCGTAAGTGTGGTTAATTTTCCATTCCTGGAA
TTTTGATTCCTCATGTGAAACCGTCGGATTCCAATTATAGGCTACCATGA
GACTGGGCCTCACGATCCACGTTATTTTGGTCTGGCGTTTTGACCCCCCC
ACTCAAATCGAATCTGAGGTTCCCCGCCCCCCCCCCGCAAACAGCCCTGT
CGGACACATCATGTGACAGCACCAACCAAACTCGACCTCTGGGACACAGA
TGCCGATCGAACCTGATGGAGCACTTGCCTGTATGTTCTCAAGTTGGCCA
CAGGAAGTGTGGTGGCAGTGGGTCTAGGCTGGGGCGAGATTTTGGCGGCG
GTGTGTGTGTGTGTGTGTGTGTGCGTTGTCATCCCATCTACTCTGGGCAC
CGGTCTACACCTTTCGGTATAAAGTGAATGCACCAGCCGGGGCCACACAG
AAGGAAGGTCACACACGAGCTTTTTATTTGTATTGTGTTTTTTTGCCCAC
ATCTTTCCTTCTGCGGTACTTGACTTTGGTTATTAAAGCGAGTCGGGTTT
AGCAATCCCTCCCCTCGGTTTACTCACGCGTTAATCGCTTTTCACTGAAG
TCTCGTAATAACGCTCAAAATAATCTGCAACCTCACTATCAGGAGGTTAA
CGAGGGAACCACTAGACCACCGGGGCGACAGCAGTGTTGAAACTGAAAGA
ATACACTCCGAGTACGAAACAAAACAAAAGCCTTTGCTCCTGTTTTCGGC
CAAATTACGGGCTTGGACAGCGTACTTTTTCTTTTTTCACGGGATTTTCC
CACCTTGACCCACACCGCCGCCGAAGCCTCGCTGTAGCCACAACCCACAC
CCACCGACTTATGAAAGTGAGGAGGGCTGTTCGGCGAATGGTCTGCGGAA
TATCACGCCAGAAAGCGGTGTGGGTTACTCCAAAAAGCGGTGAAGGCCGA
CCTGAGAAGCCCAAAAGTGATATACCGCCGGTTGCTTTTGCCAGATAGCG
ATACGAGGCTTAGTTGGCCAATCAACGACGCGAACGGGGCTCAAATGCCA
TGGTGTAATTTGGTGTACAGCTTCGTGGCGCGGAACCATGGCGGTATACC
GCTTTTTGGAGTTTGCCCTTCTGAAAACGTCAAGCCTTTTTTTTTCAACA
CTTCGAGAATTAGGTGTTTGTGCGCACGGCTCATAGCAACTGCGACAGTA
GACAGGCCGTTCATCATCCTGAAAATGCCACGGCGTTTTTTTGTTTTAGT
ACGAGTATTAGGAGACATTGAGCTGTTCACTACTGTTCACAGTTATAGTT
GACATAACAACAGCAGCAGCAGTGGGCGTTGAAGAAGCAAACACTGACTG
GTGTATCATTGCACACAGATGCAACACCAAATGCAGATATGAGCTTGCTG
CTGCAGGCAGTAAGCATGCTGTCGGCGCTCGAAGCAGGGGAGGGATGTAT
GGTATACTGTGCTGCATCACAGAGATTAACACGCTGAAACAGGCGAATGG
TGCACGGTACTGCTGCTGCTGTACCACAGACAGGGTACACATACAGAGTT
TCATAGTGTGTGTCCATGACATCGTACAGCATGCTGCAGATTGTTGTATT
GTTATATTTTTAATAGTGCAAGAACGAAGTAACAACATACAGGGGCAGAC
CGGCGGCTTGCGGCGTCCCACACTTTTTCAACAGTATACAGGGTGCTTAG
TAAAGCACCTGTATTCGTGTATCATATGAAAAGTAGTACTTTTAATAGTG
CAAGCACGAAGTACAAGATACAGGAGCAAACCGGCGGCTTGCGGCGTCCC
ACACTTTATTAGCAGTACAGAGTGCTTAGTGAGGCACGTGTATCATCAGT
ATATTATGCCATACTTCGTGTGTGCAAGGAAGAAAAAGGCAGTCCGCGGC
TGTGGCGGTTTCCAATGATCTGTCTGCAGTACAATCCCACAACCATCTTA
TTTTTTACGAATCGAAACAGATAGAATGTATTATTACCAGTATACTCCGT
TTTATCAGCGCAAGGTTAACGAACTATATCAGCTTGATTATTACGGTACA
TTATTACTGAACGAGGACAAACAAACAGAGTTTGTACAAAGTGAAACCAT
AATATGACTTGTTATAGAGATAATTACGAAGTACGATACCATTTTTAATG
TACGCAAATAAGGTACGTCATTCAGCGGCCCCTCCCTGCTCACACCTATA
CAAGTACTCACATATTTATTACGGAGTATACGACAGTACAGCAATTATCA
TTGATGGTAGTTTTTTTTAATTTTTCTACAAACACATCAATGTGTTCGCC
TCTCTAGACGACGATCTACAGTAGATTGGCAACAAACGCAAATAATTATA
CATCTGCCAGTTGTGTCGTAGTTTTTATATTTTTTTGTTGTAGACAGCAT
CACAAGAAGTTTAACACGAGACAGATCATATGTGTTTGTATTATGCGACA
TGCACAGGGTACCTAACCACTTTTGTTTGTATCATAGGTAAAATCAGTGG
TGGTGTGGTGCATGTTCTGGACGCAGATTTACCCCACCTTTCGGTTTAAA
ACCGAGAAGTCGGGCGCACTACAAGTATTAGAAAAAAAATACGGAGAGGG
GAGAGGTCAGTCAACACAGTTTTTTTTGACAGCCTCTACACCTTTTTTAC
CTCCCTCTCCCCAACCAACCCGATCAAAGAACAACATAATAATACCACAC
ACGCTACGCTGTATGTCTCATAGTAGTGCATGTTTTGTCTTCTTCCAGCC
TGGTTCTTAGCACTATTCCACACTAGTCGGTGGGGGGGGTCGATATAGTG
CCGGTACGTGTCCAGAACTCCAAGACAGCAGTGAACGGAATAAGACGCTC
ACGCATCCCATGCACCTTTGGGGGGTAAAACGTGCTTCGTGGAGCACCGC
ACGTAAACCACTCAATACATGTCCCCTCATGTTCGCCTGGCGTGTTCGCT
TAGCGACATGCACCTCTTCTACGTAAAGGTGGAAGGGTCGGGAGCAGCAC
GTGCATGCATGCCTGCTGGTGCTTTGCTGTGTGCCCTCTGTGTGTGTGTG
GCCTAAACCGACACTACCGAGTGGTATGGGAGTGCCCGAACTGGCACTAT
TGATGGCATCTTTCAGTAGTGCCGCTCCGGCACTACTGATGGCTCTGGCT
GTGTCCATGCATTTTGTTGGCACTATACCGGGCGACGGCACTATTCAAGC
GGCACTTTATAGCCCCCCCACTGTACTAAAATATATTGTTGCGAACAGAT
GTTGGGGACGACAGCTGATTCACGTCGTTTCGTGTGTTATTTGTAAAAAA
AAGAAAACAGGTTTGTTTCAGCATACAGCAGCAGCATGAAGCATATGACG
AAGTATTTTCTTTCGTGTAAAATCACTCCGTTGCTCTGCACATTACCCAC
TCCGGAGGAATCTCGTACCTAGTAAGTGCTAAGTAAAGCGTGACACACAA
TAGCCTTGGAGGTATTCTTGTGCAAGTGTGCACAGCCGTGCGACCTTGTG
GTCATTTTTTTATCTGGTTGGACTTTGCACACCATGTAAAAAACAGCGCG
GCCGCAGAATCGTGCGTCCACCCACGTTGCTTGATGCTGTGATATTTCAA
TAGTCCCTCCGCCAAGTGGAACGCACAGTACAGAAAACGAAAGAACTGAG
ATAATAAGACAAGTATAATCATCAAAGTAAACGAGGCTCTCCGGATTCCT
CCCTCCCTCCCTCCCTAACCTCGAACAGCGCTTCAGATAGCTGTTACTCT
TTTATGGCCCCGTAAGGTGTTGATAAAGATCTAGGAAAAGCGCAACAAAA
TCAGTTAATGTGTTTTGCCGCAACGAAAAGCTTTTGGGCGCAGTTGTGGG
CTCGTCTCGAAGGGCTTACAGATCAGGCTTCCGTTCTTGGTGCGGTTTTC
GTCAGTCCATAGGCGCAAGTCCTTTTGATCAAGTATTGGCGCTCGTCGGG
TTCGCGGCGTGGTGTTGTGCTTCCGAAAACAACCAACCTGGCACGGTGTC
AGGCAAGCTTGCGGCTGTAAAGTATTTTCATTTCGTAGAGGCTGGTGTGA
ATCTGCCCACTGATTCCCCGCTCATCAAGCGTTTGCTGCAGGGCATGAAG
CGTGCGTTTTTACATGGCGGTGCACCGAAACGATTGCGCTTTCCAGTTGC
TCTTGACGTCCTTTTCTCCCATGGTAGTACCGCGGCCCGACAGTGGGGCC
CCGGAGGTCGCGTCGTGTATTTCTGTCTGCTGTTGACATATTTTGTGGGG
GCACGTGCTCACGAATTGTGTCTGAACGATGCCGGCGAAGTGCATCTGGT
GCATTGCTTGACTGGGGGGGACGTTGCCTTTTTCGAAGGACCTGGACAGC
TGGGTCGGTTTGAACGGCACTTGGCCACACGTGTGAAATTTCTGTTTCGG
GGCCACAAGGGTGACCAATCGCAAGCTGGTACCGTGCTTATTCGGACGCG
CGACGCGGCCACCGGCCCGTGTTCTCGGCTGGAGGCGAACAGCGGTGCCG
TTGCGCCCATGGTGGAACTTTTGTGACCACTTCTCGGCCGGAACACATGC
CGCTGTCCGCCTTTAGTGATAGAAGGATGGTGAAGATTTGGTGCTACAGG
CAAGCCACCAAGGCCGTACGTGAGGTAGCGGGTCTAGCGGGTATAGACCC
AAAGAGTCTTGTTTCATTCTCTGAGAATAAGGACAGCAACGGTGCTGGCA
GCTAGCAGGTGGAGACATATCAGAGAGAGTAATCCAGAGAGAAGGAGATG
GAAGTCGGGTGCGGATATGTGTATTTTGTCATCCCATCTATTCTGGGCAC
CAGTCTACACCTTCCGGCATGAAGTTGGTGCATCAGCCGGGGTCCCACAG
AAGTGAGGTCGCACACGATTTTTTTTGGTTTTTTATTTTGTTTTATTGCC
CATACCTTCCTCCTGCGGTACGTGCCTTTGATTTTTAATCTGAGTCTGGT
ACAGCAATCCCTTCCCTCTGTTCACTACGAGTAATTCGCTTTCCACTGTA
AAGTCGCAAGAAACGTTCTCAGAGAGAATTGAACCTCTTACACGTACGTA
AAGTATTGAACACGAAAATAGTCGTATAGGGAACACCTGCGATTGAGTGA
AGTTTGTGTAAAATATAACTGCGTCCTTGAGACCCTTTCATCCTCATCAA
AGCGGTATTTATGCTGCTACTGATCCCTCTATTGAAAAGTGGCACTACGC
TGAACAGCGGCATAAGTTGATATTTTCACCTTGTGCATTGTGACTACAGA
AAACCACCGACTGTAACCGGTTTGCTTATTTGTTCATCCGGACAGAATGG
ATCCACATACCTGCTGGGGCTGTATCAGTCTTTTCTTCTCCTTGTCACAA
CTCATTGATGCCTGAAAACCATTTTCGGAAGCATGTCGATGTCTCCCGGC
CCCACGCGATCACTGCAGGAGAAGGAAAATACATACATCTACAGGGTATG
CCTTTCCATCGCTCTTGTCCGAATGAAGCCACAGCAACACCAAAGTCATA
GCCCGTGAGCTATTTGTGTCGTCTCTTTGGTGTGGTGACACTGTATTATC
AGGCCGCGAAGCGTAGATAGGGTCTCAAAACGTTTGTGAAGTCACCTCTC
ATTGTGGCGGGCGTCACGTACGTTCAAACTTTCTCTAAAAATATTGGTTT
TGATCGGTCGGGGCGATCAGAAAATTTGACCAGATAGTCTCGGAGTCGAA
AAGGCGTGTTTCTGAATTGTGCGATGGCGTGAGCCTCACCTTTTTGCGCA
GAGAAGTTCTGCGGGGATTTAGCGTGCCTATTTCAAAAACCGCGCAGTTC
TCAATCTACGCACGCTTGACGACTGGTACATCTATCGTCTGTCGCGAGGT
GTAGCGGTGCCTTCACTACGAAATCGTGCGAGACTCACATCCAAACGGCT
GGGGCCACATTCACCCCCGTCTTTTTATGCCAGGGAGACGAAAAGCGGGC
TCAGATTAATCTCGAAACATATTCAAACACCATGATATATGCTTGCCATC
TCTTGAAGACCGTGCATGCAGTATGAATCAAGTCGAAGGCAGTTTACCTC
CTGCGTTCGAACCACGTGTTCCATCAAAGTGCATGGACCACAACGCGGCG
ATCAAAGGAATGCTGAAGATAATATGTCTCTGTGCTCTTTCCCTCCTGCG
ATGGTACTTGTGTGTGTCCGTCTGTCTCCGTTGGCTAAGAACGAGGGTAG
ATAAATGTGGTGCCTGCCCCCGAAACGACTTCTCATTCTTATCAAGTAAC
AGCACACACGCTCGAAGCGCCATCTCACCCTCAATAGCATTTTTTTCATA
TCTGTGTTTTTTTTTTAAGCAACGAATAGGGTCACGTCTCGCATAATTGT
GAGTATTTTAGATACGGGCGGAACTTTTTGGAGCTTCGCACAAAAGCAAT
AAGTTGGAACCGCTACAACCGCTATATTTGAACAGGAACGTCTCAACGGG
CCGAAACACCAACACCGATTTCGTTAACTCTACCCCCCCCCCCCCCACCG
CCGAGTCTTACGTGTTTGTACACCTGAACCGTTTACGCGCATCATATTCA
ACAGACCATCTTGAAGCTCATGCAATAAGTTGATGTGCCAACGCGACCGA
AACCGCGGCAGGTGCTTTATTTGCATATGCGTCTGAACAAGCCAGACATG
ATCACCGGAGCGGTGTCCTACGAGCAGCGGTACTCGGTGTCGTCGTGGGC
GTCAGAGGAACCGGTCGATGCCATTGCGTGCCCGGACGGATGCACATCGG
AGTGTGACGTCGGTGAAGAGTGTGTGGAGCTAGCTCAACACATTGTCACA
GACCGCGTGATCAAATGCCCCTCCAACGAGCAGTGAGTAGCCGATGGTTG
AATGTTGCTTGCAGCGACTCTTCTTCGGCCAAGTACACAAGTAGGTGTTG
GAGAAATTGAGGTCCGTCCCCAAAGTTAACACAAGCTCGCAACACTGAAT
CGAATGTGCTGCCGGTGATGCCGTATTGCTTCGCTGATAGCTTGGGATCT
CGAAATACACAGCTAAATACACACAGTAGGGGCAAGAGAGGTGGTTGATG
CATACTGTTTTATTTTTTCTACCCCGAACGTCCTCGAGACACTCTCACCT
TCGGCGGGAATCAGTTGAAGGAAGGTCGGGATGACGTGGATGATCTGGAA
CGCGAAATTGCATATTTTGCGGTGGGATTTAATTTTGAATTCAGCTCAAA
CGTCGCATGTGAACACCCTTATGCCCGCTGGTACAACCACGTGACGTTTC
CAGGTGGTGCGGGTGGACCACCCTCCTCACGGAAGAATTCGTCGAGTTTG
GGACCTACTACATGCAGGTCTGTTAATGAACCGGCATCTCCATGCTGTCG
ATACTCTCGAGGACAGGATGAAAACGTTGCCTACGGTTGGGATGCTTACG
CTTGAAAGCATTGAAAGCATGGGTTGTTCACTAGACGCGCAGCGGATAAG
TGCCCAACTCTGCCCGACGTGTCTTGGAACTTGGATTCCCACTAACTCGA
GTATAATATGTCAGCAGGTCTAGGTGTGTGTACCGAGACTGTAGACATTT
GGGCACTGTTGTCAGTTGAGCATTTGCATGAGAAAGCCTGTCCGTCGAAT
GTCAAGTAGGGTCGCATTGCGCAAGCCAGCTTCGAAACACTCTTTATTTT
ATTGAGGCTGCTCGAACGTTTGTCCGTAGCAGAATCGTGCATAAGTTGAC
CTCATATTCCGCGTGCTGATTGCAGGTGGATATGACGGAGCCTCAACTTT
TTTCGGCCGAGCCGCGGTTCACGCTGGACTTTGAGATCGTGTACATTACA
GCGGAATTTACAAAATATCAAATGACCTGGCACTATGCTTGGATTCTGAT
CACGTTGGTGTTCATGTTTGTGCCCAAGATTGGCTTCTTTTACGAGATGA
CGCAGCTGCACCAAAACTTCTGGTCCAGACAACAGGTGAAGCCTATCCTC
TTGCAAAATCAAAAACCACACGTGTTGGTCCCTGTACAGAAAAACATTTC
TTTTTATGCATTCAAAAAGTAATAATGGAATCATAACAGACGTTTCTCCG
CTTCGTGTTTCGGGTAATTGTTGAATATCTCGCTCCACAGCTCCTATCCG
AAAGTCGCCAACCCTGCAATAGGACTTGTCATCTATTTCCCACAGCATAG
CAAAGTAAGAGAAGAATCGGTTGCTTCTGGCAACCCCGCGGAGGCGGCAA
AGGTCGTGAGGATGTGGGTAGATTTGATCCGCCCGCAAGTATGTAATACA
GAGTTCGACTCTGGAATACAGCAGCAACAGTCAGTGTTTCCTGACGTCAC
GTGGTATCAAACTTCATAACACCATAACCGTCGTAGTACAGCAGCACATC
AGCGTGTTCCTACAGCAGTGCTACTGCTGTAGCAGGGAGGTATGATACAG
CAGTACTGCTGTAGACAGAGGTATGGCATCTATACAGGCATGCCGGTCAC
ACACGTCGTGAGATTTTTAAATACAGGCTCATAATCATTCTGATTTATTA
AAGGGATTGCGATTTTGACCATTTTTCACGGAGCTTCAATCTTTATTTTC
TACTGCTGCAGTGGTGATCCAAAAATTACCACACCTGCAATCGATTCTGC
CTTTGTAACAGCCTGTGCTCTCGGATTGTGGCAATGTTTGGTGCAGTATT
GCGACCCGGCGGATCGCACAAAGACACCCCTAGACTGTCAAGCCCTGCGG
CTGGACTATCTCTCTTTCTCAAGGCGGTATATTTGGGGGAGGGGCTGACA
AATTCTATCTTCCCGTGAGACAAGCACGCCTCTGATTTTGACCACATTTT
TTCTTCATTTCCTTTGGGGACCAACACGTGTGATACTCTGTTAAAGAGTA
CAGTTGCGCCAGTCGCCAGCAGGAATATTTTGTTGTTGCCGGCCAGCTTG
ATGAGTCCGACGCTGCCTTGTAAAACAATGGCCGAAGGCTCCTTTGTCCT
TGCTACGAACTTGGGCGATGTGGCATGCTGCATTTATTGTTCCTTGAAAT
CGCTCCTCTGACGCAATACAGCCGACCCTCTTCTTTTGCGCATTCTTTGG
TGCAGGCACGCGTGGGGGTGCTGCTGCTGGCGCTTCTATTTTTCAACAAC
GTCTTCTTTGGATTGCAGATATTTTCTCCGTTCCCTCGCTTCTTTTTCAG
GTAACACTGTACCTGGTACTTTTTATGAGCTACGCACTCGCGTTCATGAC
GCTCGACCTATCGGGTGATGGCCGTAGGACTCCCGTATATCTCAGCGCAC
AAGGTCGAGACTTGAGATTCTCTCGCATACCGTTTCTCGTTGTCGTCGCT
GCTGTACAGTCTGTACGTCGTATTCGTGGCGACATTCCTGGCTCTTATGA
TGTTCTTCTGGCTCGAGTTATTCGGAGACCTTGCTGCAGGGAATATGCAG
GTGGGCTTTGGCAAAGGTGTTCAGATTTTACACGACAGTTGGCAAATTCG
GAGTTCTCGTCATGGCGTTTTGTAGGTGCTGGCTGGCAGCTGTTGGAATT
GGTTTAGTTCTATTTTCTTAGGACTCGTATTTAACAAAAGGTCCACCGGA
GAAATTCCACGTTAATGACAACACCGCCAAAAGTGAAATTGTCTTCTGGA
ACTGTGTAAATGTTGACGGGAAACAAACTGGTGGAGGCTCGTCTCAGATG
GGTGTTCTCTCTTTGATGTTTTTATTTTTATTTTTTTAAAACTGCGGTTG
TGCTCCCCTCCCCCCATCGAACTCTCCCCGACGCCATGCACACGGCTACC
GCGCCCTTTTTTCTAGGGAACTGACACCGCTCTAGAGTGGGAGCGCAACC
GCAAAAAAACTATCATGGAATATCTGCCGAAACTGGTTCTCGTGGGGCTC
ATCTGGATCGTCACCGTCCTCGTGTACATGTGAGCCCCCTGATTGGGTCT
TGCCGCGTGACTGCTTTATCCCGGAGGACATCAAGACTTCCTTCGTTATT
GCCCACGGTGAAGGTGTCAAGTGTCGGCTCCTTGTCGCATCTTTTTGGGT
CACCAACACGGTACCGATTCCTTCACGCTTTGAACCCGTGTGCCCGTTTT
GTGCCTCTCTTCGCCAGCTACGTGCGGGTGCAGCAAACTGGGGACCCGTC
CTATAGCACGTTCGACGACCTGTCGACGTACACGAGTGTCAAGGTGGGCA
ACCACTGCACTGACTAAACGGTCCTACTTGTTCGGTCGTGGGAAATCTGA
CGTGACTTGTGCATCATGCATACCTTGTGGCTGCGGAGTCTAACTTTGGT
AACATTTGTCGTTGCAGTCGTTTTCGTAGGAGTATCAAGCGGTCTTCTTT
CAGGCATGCGATAGAACTTGGAAGTGCTTGTAGGTGGAGTGCCTGTTTCG
TCATTATATTTTCTGGCTCGAATTCCGAATGTTTTTACGTGCGAATCTCA
TACCCCTTCAAAAAATCGAGATCGACTGAGGAACGTATGTGGAAGCGCCT
GACATTTGGCTTAGGTACATCATTCAAAACACCGGGCACGCCGTTCTCTG
ACATTGGGCCACCCCCCAAGGTTCTCGTTTTTATATATTTTTTGGTATTT
ACGAAGCAGTTCGTGCTGCTTCACGAAGCTTTCAACTCACATGAACACCT
CCAGAGAGTGACATCTGGTTTGCATCGACTGCGGATTTCGATTTACGTCA
CTTGCTGGATCGCGTGGCCCTTTGTTGGCGGAGGGTCCGGCCAGACGTGC
TCGCTGGTCATTTCGAACAGGAACGGGTCGGAAACCTGAAAAAACAGAGT
GCAGTCTGATGCTGGTTGTTGATTTGCTCTCCCTAACTTAACGAACGACC
ATTACTTTGACGCGTCCTCGAACGATATCATCCTATCATAGATATGGTCT
TTGACATATGGGGCCACGGATTGTGCCGAGAAAGTTTACAGTTCAGGCTG
TAGACAAGGAAGTTCTGCTTTCCGGGATTCCTGACATTCGGCTTCAGATG
AATCTACAGTTGTGATAGAGCTGTTTTGCCCCAGCCAAAAGCCTTGTCTG
GGTGTGGTCCAGTTGTCGACCCTGCGTAGCTGATCAACGTCAAATATAAG
CATGAAGTCACGTTTGCATGGATAAATTCGCCGATGTGGAGTACTCTTGA
GGATGCCGCCCCCCCCTCCCAACTGGTCTAAAGTAAAATGAAACCATTGT
CTTGTAGTCGTCTGCGGGTTACCTTTTTCGTTCCAAAAACATTCTCCGAT
AACCTGCATCCGTGTGTGACGTTTTTTTTTGTTCATACACGGCACTGCCG
GGGCAAATGCGTAATTGTTTATTGCATTCCGGCACGTACAACTAATATGT
TTTCAACGTACTGAAAACATGGTACTTTGTGTAGTCTTTGTGCTGGCTAA
GCCCGATGCGTCACGTTCGAGCTACTGTTCGCCATCAAGGCATTTGGCAT
AGAATATTTCGCAGCCTGAGTTATAATACAGTAGTGCCCATTTTTGGTGA
CTTGTCAGCAGCACTGGATTGTCTCGTCTATAGTTCTATGTTGGCGACAA
TCGTGCTACAAGAGCGGTAGCTCGTATGATACTCCGTACTTCGTATATAT
TTTTCTCGATATCAAAACCAGCGTGTTGCAATAACGGAAACCGAGGGTCC
TCTTTCTCCGATGATTGGCGAAGGGAAGGAACGGTCAATTGAGAGCTGTG
TCTGGTGCTGCCGACAAGGATAACACACAGGAACTGCGCTCGTTGAGTGA
TTGAGTGGTGTGAAAGGTTGGCAGCTAGTGTATGTGGATGAGGCATTATA
CAAAGTGACCGTTACAGTAACGCGGCGCAAGAGGCCGTGCGCGAATGTTT
TGTAGCTGCAGCGACGGACACAGGACACGCCAAACACATCCATGTGTCGT
TTCGTTGTACTTCGTATGTGTTGCAGACGCCGAAGGGGGTACCGCATTTG
TCTATGCTGCGTGTATGTGACGGACTTACGCCGCGAACAAGCAGGGAGTG
CGTCACCCGTCTAGAACATGCTTTGATGTCATTTCTCTTGGTTCAGTGGT
TGCATATTCCAAAATACTTCTTTTGGGATGCCCACCTCGGCAAATTTTGG
AGCAATGCGACTAATCTCCGAGACCCCCGTCTGCGGACTTGAAAAATTCA
GGTGATTGGGCTTCTCCTTGCCACAGTTTACTTCCTGTGGTTGGGGACGC
TGATTGTCAGGAGCTTTACCCACATCGAGGCGATGAACACAGAATACATC
TTCATTATGGTGATCACCCTGGTTACCATCGTCGGCGCGATGTCGGCCGT
TTACACGGGAGCTCTGGCACCCGACCAGGTGGGCGTGCACTCCTTGCATT
TTTATCAAAGATTATAAGCCATACGAATTGAAAGGAAGTAGTCGTTCAAG
CAGGGAGATAAATAGTCAGGCGCTCCTCAGATTTTGCGAAACGGGGAAAC
TGGCTCTTGCTCTGCCGAGCAGTCTGTAGGTCCTACAAAAATGTCGCGCA
TTTATGGAAAGAAATGTCTCAGATGAAACCTACCCATAGCCTGTGGAAGC
TGTTGAAGGCTTGACGCTGTTTTCAGTGACCCGCGTCTTCAGGTTGTCAC
GTACTGGGTTATGAAAATATTTCCACCATCCCTCGGTTTGTCGTCTCTGC
AGCATGGGTCTAAGGTCTTCGCCTACTTCTATGGGATGTTCAACATCTAC
GTTCTACTTCTGGCGTTTTGCTACACTCCAGCGGGCTCAATCTATGGGGA
TATCAACACCAACGACAACGTAAGGACCTGCTTTTCTTCTGCGCGTGTGC
AATATCAGCTTGAAAGTTGTGCACCTCGTTCACATTTCACCCAATCACTC
TGTTTGCAAGGTCTATTGCTGCGTTCGTCCCCATTGGTTACATGAAAAAG
CTTGAAATGGTGTGCAACATAGGCTTGAAAGTTGTGCATCTCGTCCACAT
TTCACCCAAACGTCTGTTGCTGCGTTCGTCCCCATTGACATGAAAAAGCT
GGAAATGGTGGCCGAAGATCAGCAAGGCGTCCCTTCCTACAAAGATGACA
CAGCTTTCACTATCGTCGAAAGCAGTAACCAG

Coding sequence (CDS) from alignment at P-littoralis_Contig618:109046..128327-

>mRNA_P-littoralis_Contig618.30.9 ID=mRNA_P-littoralis_Contig618.30.9|Name=mRNA_P-littoralis_Contig618.30.9|organism=Pylaiella littoralis U1_48|type=CDS|length=1521bp|location=Sequence derived from alignment at P-littoralis_Contig618:109046..128327- (Pylaiella littoralis U1_48)
ATGGAGAACGCCAGCTATGCCAAGGTCAGGCTGGAGTCAGCTCCGTACAG
CACCAAGTTCGGCATTGGGATGTTGAGCGCCGCGTACGTTGTAGGCTTGT
TGGCTTGCCTCATCCTGGGCACTAGCCAAGGCCCAAATGTGTTTGAAAGA
TCACCCCCTGCTGCGGTCGAGACTGAATCTCTCAATGTGACATGGTACGG
AAAGATTGACGGGATGGAGCGATGGCATCAGGTGCTTTATTTGCATATGC
GTCTGAACAAGCCAGACATGATCACCGGAGCGGTGTCCTACGAGCAGCGG
TACTCGGTGTCGTCGTGGGCGTCAGAGGAACCGGTCGATGCCATTGCGTG
CCCGGACGGATGCACATCGGAGTGTGACGTCGGTGAAGAGTGTGTGGAGC
TAGCTCAACACATTGTCACAGACCGCGTGATCAAATGCCCCTCCAACGAG
CAGTGGTGCGGGTGGACCACCCTCCTCACGGAAGAATTCGTCGAGTTTGG
GACCTACTACATGCAGGTGGATATGACGGAGCCTCAACTTTTTTCGGCCG
AGCCGCGGTTCACGCTGGACTTTGAGATCGTGTACATTACAGCGGAATTT
ACAAAATATCAAATGACCTGGCACTATGCTTGGATTCTGATCACGTTGGT
GTTCATGTTTGTGCCCAAGATTGGCTTCTTTTACGAGATGACGCAGCTGC
ACCAAAACTTCTGGTCCAGACAACAGGCACGCGTGGGGGTGCTGCTGCTG
GCGCTTCTATTTTTCAACAACGTCTTCTTTGGATTGCAGATATTTTCTCC
GTTCCCTCGCTTCTTTTTCAGTCTGTACGTCGTATTCGTGGCGACATTCC
TGGCTCTTATGATGTTCTTCTGGCTCGAGTTATTCGGAGACCTTGCTGCA
GGGAATATGCAGGGAACTGACACCGCTCTAGAGTGGGAGCGCAACCGCAA
AAAAACTATCATGGAATATCTGCCGAAACTGGTTCTCGTGGGGCTCATCT
GGATCGTCACCGTCCTCGTGTACATCTACGTGCGGGTGCAGCAAACTGGG
GACCCGTCCTATAGCACGTTCGACGACCTGTCGACGTACACGAGTGTCAA
GGTGATTGGGCTTCTCCTTGCCACAGTTTACTTCCTGTGGTTGGGGACGC
TGATTGTCAGGAGCTTTACCCACATCGAGGCGATGAACACAGAATACATC
TTCATTATGGTGATCACCCTGGTTACCATCGTCGGCGCGATGTCGGCCGT
TTACACGGGAGCTCTGGCACCCGACCAGCATGGGTCTAAGGTCTTCGCCT
ACTTCTATGGGATGTTCAACATCTACGTTCTACTTCTGGCGTTTTGCTAC
ACTCCAGCGGGCTCAATCTATGGGGATATCAACACCAACGACAACGTAAG
GACCTGCTTTTCTTCTGCGCGTGTGCAATATCAGCTTGAAAGTTGTGCAC
CTCGTTCACATTTCACCCAATCACTCTGTTTGCAAGGTCTATTGCTGCGT
TCGTCCCCATTGGTTACATGA