mRNA_P-littoralis_Contig8.160.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig8.160.1
Unique NamemRNA_P-littoralis_Contig8.160.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig8.160.1 vs. uniprot
Match: D8LBH5_ECTSI (Methyltransferase n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LBH5_ECTSI)

HSP 1 Score: 689 bits (1779), Expect = 2.100e-243
Identity = 342/417 (82.01%), Postives = 365/417 (87.53%), Query Frame = 3 
Query:  111 MAAVLAVWLASCASLYAQLKGEKTLEAVLSKVDEFADQPPSFQINFLVLAVASFVLLLK--AFFRLVYATDPLEVTWTFVAGFFGQ-KERGIKVDSWITEYNRLHNDKESSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWCGETFQQSIKRHEYYLGGRLGVNPGAKVLDCGCGIGGPYRNIAKFTGANVTGITINEYQVKRGNAVNQQMGVDHQCRSIQGDFMNLPFEDNSFDGVYAIEATCHAPQREGVYGEIYRVLKPGAVFACYEWCLTDKYDASNEKHRLIKKQIEEGDGLPDMVTPAGVDSALKTSGFEILETRDAALDPNPGGIPWYQPLTPSWNVFTQRFQFTWLGMRLTKAALYIMEMCHLAPAGTTKVQAMLQEGGMGCAQGGITGVFTPMYLAVCRKP 1352
            MA  LA+ + S A LYAQLK +K L++VL       DQPP    N  +    S +++LK   F RLVYATDPLEVTWTF+ GFFGQ K RGIKVDSWITEYNRLH+D ESSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRW  E+FQ SIKRHEYYLGGRLGV+ GAKVLDCGCGIGGPYRNIA+FTGA++TGITINEYQVKRGN VN+ MGVD QCRSIQGDFM LPFEDNSFDGVYAIEATCHAPQREGVY EIYRVLKPG VFACYEWCLTDK+DASN+KHRLIKKQIEEGDGLPDM+TP  VDSALK SGFEILETRDAALDPNPGGIPWYQPLTPSWNVFTQRFQF WLGMRLTKAALY+MEM +LAPAGT KVQAMLQ GGMGCAQGG+TG FTPMYLAVCRKP
Sbjct:    1 MATTLALCVVSSAVLYAQLK-DKPLDSVLESP---LDQPPLVLANAALTLACSTLVVLKHEVFCRLVYATDPLEVTWTFIRGFFGQEKGRGIKVDSWITEYNRLHDDNESSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWRNESFQDSIKRHEYYLGGRLGVSRGAKVLDCGCGIGGPYRNIAQFTGADITGITINEYQVKRGNEVNKNMGVDQQCRSIQGDFMKLPFEDNSFDGVYAIEATCHAPQREGVYSEIYRVLKPGCVFACYEWCLTDKFDASNDKHRLIKKQIEEGDGLPDMITPPEVDSALKASGFEILETRDAALDPNPGGIPWYQPLTPSWNVFTQRFQFNWLGMRLTKAALYVMEMFYLAPAGTNKVQAMLQAGGMGCAQGGLTGTFTPMYLAVCRKP 413
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BLAST of mRNA_P-littoralis_Contig8.160.1 vs. uniprot
Match: A0A836CHN0_9STRA (Methyltransferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CHN0_9STRA)

HSP 1 Score: 536 bits (1382), Expect = 3.980e-183
Identity = 272/416 (65.38%), Postives = 315/416 (75.72%), Query Frame = 3 
Query:  114 AAVLAVWLASCASLYAQLK-GEKTLEAVLSKVDEFADQPPSFQINFLVLA-VASFVLLLKAFFRLVYATDPLEVTWTFVAGFFGQKE-RGIKVDSWITEYNRLHNDKESSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWCGETFQQSIKRHEYYLGGRLGVNPGAKVLDCGCGIGGPYRNIAKFTGANVTGITINEYQVKRGNAVNQQMGVDHQCRSIQGDFMNLPFEDNSFDGVYAIEATCHAPQREGVYGEIYRVLKPGAVFACYEWCLTDKYDASNEKHRLIKKQIEEGDGLPDMVTPAGVDSALKTSGFEILETRDAALDPNPGGIPWYQPLTPSWNVFTQRFQFTWLGMRLTKAALYIMEMCHLAPAGTTKVQAMLQEGGMGCAQGGITGVFTPMYLAVCRKP 1352
            A V AVWLASCA L +++  G   +   L K    A Q P+     LV+A   S  + +K    LVY TDPL  TW F   FFGQ+  R IKVD+WI +YN LH+D +++V ERE SY  +VNAYYELAT+FYEWGWG+SFHFA R   E+F +SI+RHEYYL G+LG+  G KVLD GCGIGGPYRNIA+FTGA++TGITINEYQV RGN +N+Q G+  Q RS+QGDFM+LPF+DNSFDGVYAIEATCHAP REGVY EI+RVLKPG  FACYEWCLTD+YD S+ +HR IKKQIEEGD LPDMV P  V  ALK  GFE+LETRD ALD N GGI WY PLTPS+N+FTQRFQFT +G  LT  AL ++E   LAPAGT KVQ MLQ+GGMGCA GGITG FTPMYLAV RKP
Sbjct:    6 APVAAVWLASCAYLASEISAGNLDVAGGLLKTLMSAQQQPTAHAIALVMASTLSVYMAIKIIGGLVYETDPLARTWDFFMSFFGQEATRDIKVDAWIDDYNVLHDDSKTNVTERESSYKTMVNAYYELATMFYEWGWGASFHFAYRRPYESFGESIRRHEYYLAGKLGLKTGEKVLDVGCGIGGPYRNIAQFTGADITGITINEYQVYRGNELNRQAGLSQQVRSVQGDFMHLPFDDNSFDGVYAIEATCHAPNREGVYSEIFRVLKPGRAFACYEWCLTDRYDPSSAEHRKIKKQIEEGDALPDMVQPEVVVEALKAVGFEVLETRDVALDANRGGISWYTPLTPSYNIFTQRFQFTPIGHALTVFALRVLEFMRLAPAGTNKVQGMLQQGGMGCANGGITGTFTPMYLAVVRKP 421
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BLAST of mRNA_P-littoralis_Contig8.160.1 vs. uniprot
Match: A0A8J6CDS5_DIALT (Methyltransferase n=1 Tax=Diacronema lutheri TaxID=2081491 RepID=A0A8J6CDS5_DIALT)

HSP 1 Score: 481 bits (1238), Expect = 3.130e-161
Identity = 232/345 (67.25%), Postives = 268/345 (77.68%), Query Frame = 3 
Query:  342 VAGFFGQK-ERGIKVDSWITEYNRLHN------DKESSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWCGETFQQSIKRHEYYLGGRLGVNPGAKVLDCGCGIGGPYRNIAKFTGANVTGITINEYQVKRGNAVNQQMGVDHQCRSIQGDFMNL-PFEDNSFDGVYAIEATCHAPQREGVYGEIYRVLKPGAVFACYEWCLTDKYDASNEKHRLIKKQIEEGDGLPDMVTPAGVDSALKTSGFEILETRDAALDPNPGGIPWYQPLTPSWNVFTQRFQFTWLGMRLTKAALYIMEMCHLAPAGTTKVQAMLQEGGMGCAQGGITGVFTPMYLAVCRKP 1352
            +  F GQ+ +RGIKV+ WI +YN LH+      D ++ VEER   YAK+VNAYYELATLFYEWGWG SFHFA +   ETF +SI+RHEYYL   L V PG KVLD GCGIGGPYRNIA+FT  ++TGIT+NEYQVKR N +NQ +G+  Q RS+Q DFM + PF+D SFD VYAIEATCHAP R+GVYGEI RVLKPGAVFACYEWCLTDKYDA N +HR IKK IEEGDGLPDM  P  V +ALK  GFE+L TRD ALDPNP G  WY PL PSW ++TQRFQFT +GM LTK  L++ME   LAP GT KVQ MLQ+GG+GC+QGG+TG FTPM+L VCRKP
Sbjct:   86 IRSFLGQESKRGIKVNDWIGDYNALHHNGTYDKDDKAGVEERNSMYAKMVNAYYELATLFYEWGWGQSFHFAQKKFNETFAESIRRHEYYLASHLEVKPGMKVLDVGCGIGGPYRNIARFTSCDITGITLNEYQVKRANELNQAVGLGSQVRSVQCDFMKMAPFKDGSFDAVYAIEATCHAPVRQGVYGEIMRVLKPGAVFACYEWCLTDKYDAHNAEHRKIKKAIEEGDGLPDMARPQEVVAALKDVGFEVLHTRDMALDPNPNGEAWYLPLMPSWKIWTQRFQFTGVGMALTKNMLWVMEGLWLAPKGTYKVQQMLQQGGIGCSQGGVTGTFTPMFLCVCRKP 430
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BLAST of mRNA_P-littoralis_Contig8.160.1 vs. uniprot
Match: A0A7S3H6D9_9STRA (Methyltransferase (Fragment) n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3H6D9_9STRA)

HSP 1 Score: 458 bits (1179), Expect = 1.330e-152
Identity = 222/351 (63.25%), Postives = 265/351 (75.50%), Query Frame = 3 
Query:  303 VYATDPLEVTWTFVAGFFGQ-KERGIKVDSWITEYNRLHNDKESSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWCGETFQQSIKRHEYYLGGRLGVNPGAKVLDCGCGIGGPYRNIAKFTGANVTGITINEYQVKRGNAVNQQMGVDHQCRSIQGDFMNLP-FEDNSFDGVYAIEATCHAPQREGVYGEIYRVLKPGAVFACYEWCLTDKYDASNEKHRLIKKQIEEGDGLPDMVTPAGVDSALKTSGFEILETRDAALDPNPGGIPWYQPLTPSWNVFTQRFQFTWLGMRLTKAALYIMEMCHLAPAGTTKVQAMLQEGGMGCAQGGITGVFTPMYLAVCRK 1349
            +Y T+PL  TW  +  F  Q K+R I+V+ WI +YN LH+D++ S++ R  SY  LVNAYYELATLFYEWGWG  FHFA +  GETF+Q+I RHEYY+ GRLGV+ G KVLDCGCGIGGP RNIAKFT A +TG+T+N+YQV+RGN +N   G+  + RS+Q DFM L  FEDNSFDGVYAIEATCHAPQREGVY +I+RVLKPG +FACYEWCLT KYD +NE HR IKK+IEEGDGLPDM T     +AL + GFE++E RD ALD   G  PW+ PL PS N FT RFQ + LGM  T+A L+ ME+    P+GT KVQ MLQ+GG GCAQGG TG FTPM+L V RK
Sbjct:   67 LYGTNPLGRTWEIMTTFSSQEKKRNIQVNDWIDKYNDLHDDEKVSLDNRNESYTTLVNAYYELATLFYEWGWGQCFHFAYQLPGETFKQAIARHEYYVAGRLGVSSGDKVLDCGCGIGGPMRNIAKFTNAQITGVTLNDYQVQRGNELNAAAGLAGRARSVQSDFMKLAAFEDNSFDGVYAIEATCHAPQREGVYSQIFRVLKPGRIFACYEWCLTPKYDKNNELHRTIKKKIEEGDGLPDMATQQECVNALTSVGFELIEARDMALDNTYGADPWWLPLYPSNNPFTFRFQLSPLGMATTRAILWFMELIRAVPSGTYKVQVMLQQGGWGCAQGGYTGTFTPMWLMVARK 417
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BLAST of mRNA_P-littoralis_Contig8.160.1 vs. uniprot
Match: A0A7S1JGY0_9EUGL (Methyltransferase n=1 Tax=Eutreptiella gymnastica TaxID=73025 RepID=A0A7S1JGY0_9EUGL)

HSP 1 Score: 455 bits (1170), Expect = 3.830e-151
Identity = 225/376 (59.84%), Postives = 271/376 (72.07%), Query Frame = 3 
Query:  255 LAVASFVLLLKAFFRLVYATDPLEVTWTFVAGFFGQKE-RGIKVDSWITEYNRLHNDKESS---------VEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWCGETFQQSIKRHEYYLGGRLGVNPGAKVLDCGCGIGGPYRNIAKFTGANVTGITINEYQVKRGNAVNQQMGVDHQCRSIQGDFMNLPFEDNSFDGVYAIEATCHAPQREGVYGEIYRVLKPGAVFACYEWCLTDKYDASNEKHRLIKKQIEEGDGLPDMVTPAGVDSALKTSGFEILETRDAALDPNPGGIPWYQPLTPSWNVFTQRFQFTWLGMRLTKAALYIMEMCHLAPAGTTKVQAMLQEGGMGCAQGGITGVFTPMYLAVCRKP 1352
            + VA FV+LL      +   DPL    TF+     Q++ RGI+VD WI  YN +HN++ES          V+ER   YAKLVNAYYELATLFYEWGWG  FHFA+    E+F +SI+RHEYYL  +LGV    KVLDCGCG+GGP RNIA+FTGA+VTGIT+NEYQV+RGN + ++ G+DH  RS+QGDFM LPFED  FDGV+AIEATCHAP R GVY EI RVLKPGA+FA YEWCLTD Y+  NE+HR IKK+IEEGDGLPD+ T   VD ALK +GFE++ET D       G IPWY P+TPSW  +TQRFQFT +G+ +T   L ++E+  LAPAGT KVQ MLQ+  +G A+GG  G FTPMYL V RKP
Sbjct:   47 IGVAIFVVLLAYNIVSLLFGDPLATHKTFLKTLGTQEQKRGIEVDQWIEGYNEMHNNEESDYMKKGDKAGVQERNSGYAKLVNAYYELATLFYEWGWGQCFHFATLKPTESFIESIRRHEYYLASKLGVKRDQKVLDCGCGVGGPGRNIARFTGADVTGITLNEYQVQRGNTLAKEQGIDHLYRSVQGDFMKLPFEDRHFDGVFAIEATCHAPDRVGVYSEILRVLKPGAIFASYEWCLTDLYEPENEEHRFIKKKIEEGDGLPDIATTREVDDALKAAGFELIETEDVVHYLQKGDIPWYIPMTPSWKFWTQRFQFTPIGLAVTPVMLRVLELLRLAPAGTCKVQKMLQQAAIGLAKGGENGTFTPMYLVVARKP 422
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BLAST of mRNA_P-littoralis_Contig8.160.1 vs. uniprot
Match: A0A4D9D2K7_9STRA (Methyltransferase n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9D2K7_9STRA)

HSP 1 Score: 436 bits (1120), Expect = 1.020e-143
Identity = 214/365 (58.63%), Postives = 266/365 (72.88%), Query Frame = 3 
Query:  279 LLKAFFRLVYATDPLEVTWTFVAGFFGQK-ERGIKVDSWITEYNRLHNDKESSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWCGETFQQSIKRHEYYLGGRL-GVNPGAKVLDCGCGIGGPYRNIAKFTGANVTGITINEYQVKRGNAVNQQMGVDHQCRSIQGDFMNLPFEDNSFDGVYAIEATCHAPQREGVYGEIYRVLKPGAVFACYEWCLTDKYDASNEKHRLIKKQIEEGDGLPDMVTPAGVDSALKTSGFEILETRDAALDPNP-----GGIPWYQPLTPSWNVFTQRFQFTWLGMRLTKAALYIMEMCHLAPAGTTKVQAMLQEGGMGCAQGGITGVFTPMYLAVCRKP 1352
            +L     +   +DPL  T   +A F  Q+ ++GIKVDS I  YN+L +D  ++  +R  +Y+ LVNAYY+LATLFYEWGWG SFHFA+++  E F+QSI+RHEYYL  RL  +  GA++LDCGCG+GGP RNIA+FTG  VTG+TIN+YQV RGN +N Q G++  CRS+QGDFM LPF D SFDGVYAIEATCHAP R  V+ EI+RVLKPG  FACYEWCLTDK+D  +  HRLIKKQIEEGDGLPD      +D+AL+  GF+++ETRD AL+        GG  WY PLTPS+NV +QRFQFT +GM LT   L  +E   LAP GT+KVQ MLQ+G +G A+GG  G+FTPMYL V +KP
Sbjct:   52 ILSLLLNMTCESDPLSETQKLMAKFTCQETKQGIKVDSVIDGYNKLQDDAHTTQTDRNSNYSALVNAYYDLATLFYEWGWGQSFHFANQFRDENFRQSIRRHEYYLASRLDNLRTGARLLDCGCGVGGPMRNIARFTGLPVTGVTINKYQVGRGNELNAQAGLETLCRSVQGDFMQLPFPDASFDGVYAIEATCHAPDRTKVFAEIFRVLKPGQTFACYEWCLTDKFDKEDPAHRLIKKQIEEGDGLPDTAYTHEMDAALEAVGFDLIETRDMALEMTAEELRAGGRTWYHPLTPSYNVLSQRFQFTPVGMPLTTTLLKCLEFMRLAPTGTSKVQTMLQQGAIGLARGGEQGIFTPMYLCVAKKP 416
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BLAST of mRNA_P-littoralis_Contig8.160.1 vs. uniprot
Match: A0A6U4HVH6_9STRA (Methyltransferase n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A6U4HVH6_9STRA)

HSP 1 Score: 429 bits (1103), Expect = 3.420e-141
Identity = 210/371 (56.60%), Postives = 264/371 (71.16%), Query Frame = 3 
Query:  252 VLAVASFVLLLKAFFRLVYATDPLEVTWTFVAGFFGQKERGIK---VDSWITEYNRLHNDKESSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWCGETFQQSIKRHEYYLGGRLGVNPGAKVLDCGCGIGGPYRNIAKFTGANVTGITINEYQVKRGNAVNQQMGVDHQCRSIQGDFMNLPFEDNSFDGVYAIEATCHAPQREGVYGEIYRVLKPGAVFACYEWCLTDKYDASNEKHRLIKKQIEEGDGLPDMVTPAGVDSALKTSGFEILETRDAALDP-NPGGIPWYQPLTPSWNVFTQRFQFTWLGMRLTKAALYIMEMCHLAPAGTTKVQAMLQEGGMGCAQGGITGVFTPMYLAVCRKP 1352
            V+ VA  VL  +  F+  +  DPL     F+  F GQ+ +      VDS I  YN+LH  +++  + R  +Y  LVNAYY+LATLFYEWGWG SFHFA R+ GE+F++SI+RHEYYLGGRLGV+ G+K++D GCG+GGP RNIA+FT ANVTGIT+N+YQV RGN +N++ G+  QC+S+QGDFM +PF D ++DG YAIEATCHAP R  +Y E+ RVLKPGAVFACYEWC+TD YD +NE H+  KKQIEEGDGLPD+ +      A+K +GFEILE RD A D    GG PW +PL PSWN  +QRFQFT +G  + K  L ++E C+LAP GT KV+ ML +   G    G T VFTPMYL V RKP
Sbjct:   46 VVVVAGGVLATQVLFKTFFDVDPLSKWALFLRQFRGQEAKLTSSGAVDSSIDTYNKLHEAEDA--DSRNTAYKTLVNAYYDLATLFYEWGWGQSFHFAYRFKGESFKESIRRHEYYLGGRLGVSSGSKIVDVGCGVGGPMRNIARFTKANVTGITLNQYQVDRGNEINREQGLAGQCKSVQGDFMEMPFADETYDGAYAIEATCHAPDRVKIYSEVKRVLKPGAVFACYEWCMTDNYDPTNEDHKRWKKQIEEGDGLPDICSTRDCLEAMKAAGFEILEERDLAEDDFGAGGRPWMEPLLPSWNPLSQRFQFTAVGASILKVVLKLLEFCYLAPKGTVKVETMLLQAAFGLGGSGETHVFTPMYLMVGRKP 414
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BLAST of mRNA_P-littoralis_Contig8.160.1 vs. uniprot
Match: A0A7S4GGV3_9EUGL (Methyltransferase n=1 Tax=Eutreptiella gymnastica TaxID=73025 RepID=A0A7S4GGV3_9EUGL)

HSP 1 Score: 429 bits (1102), Expect = 3.680e-141
Identity = 220/379 (58.05%), Postives = 262/379 (69.13%), Query Frame = 3 
Query:  240 INFLVLAVASFVLLLKAFFRLVYATDPLEVTWTFVAGFFGQ-KERGIKVDSWITEYNRLHNDKE-------SSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWCGETFQQSIKRHEYYLGGRLGVNPGAKVLDCGCGIGGPYRNIAKFTGANVTGITINEYQVKRGNAVNQQMGVDHQCRSIQGDFMNLPFEDNSFDGVYAIEATCHAPQREGVYGEIYRVLKPGAVFACYEWCLTDKYDASNEKHRLIKKQIEEGDGLPDMVTPAGVDSALKTSGFEILETRDAALDPNPGGIPWYQPLTPSWNVFTQRFQFTWLGMRLTKAALYIMEMCHLAPAGTTKVQAMLQEGGMGCAQGGITGVFTPMYLAVCRKP 1352
            + F+VLAV   V       RLV+  DPL     F+     Q K+R I V+ WI  YN LH++ +       + VEERE  Y  LVNAYYELATLFYEWGWG  FHFA+    E F +SI+RHEYYL G+LGV  G KVLDCGCGIGGP RNIA +TGA VTGIT+NEYQV+RGN + +  G+    RS+QGDFM LPFED SFDGV+AIEATCHAP R   Y EI+RVLKPG+VFACYEWCLTDKYD +  +HR  KK+IEEGDGLPD+   + +D ALK SGFE++ET D       G +PWY PLTPSWN FTQRFQFT +G+ +    L ++E    AP GT KVQ+MLQ+  +G A+ G  G FTPMYL V RKP
Sbjct:   36 VTFIVLAVYEVV-------RLVFG-DPLTKQRAFLKTLGSQEKKRQINVNEWIDGYNALHHNSDYVKEGDKAGVEERETKYQTLVNAYYELATLFYEWGWGQCFHFATLGSRERFIESIRRHEYYLAGKLGVTRGQKVLDCGCGIGGPGRNIAAYTGAQVTGITLNEYQVQRGNELAKAQGLSALYRSVQGDFMKLPFEDASFDGVFAIEATCHAPDRVKCYSEIFRVLKPGSVFACYEWCLTDKYDKNKPEHRDWKKKIEEGDGLPDIAHTSEIDQALKDSGFELVETEDVVDYTLQGDLPWYHPLTPSWNPFTQRFQFTPIGLAIMPQLLKVLEYIGAAPKGTCKVQSMLQQAAIGLAKSGEVGAFTPMYLCVARKP 406
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BLAST of mRNA_P-littoralis_Contig8.160.1 vs. uniprot
Match: L1K2B7_GUITC (Methyltransferase n=1 Tax=Guillardia theta (strain CCMP2712) TaxID=905079 RepID=L1K2B7_GUITC)

HSP 1 Score: 416 bits (1069), Expect = 2.400e-137
Identity = 199/327 (60.86%), Postives = 244/327 (74.62%), Query Frame = 3 
Query:  375 IKVDSWITEYNRLHNDKESSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWCGETFQQSIKRHEYYLGGRLG-VNPGAKVLDCGCGIGGPYRNIAKFTGANVTGITINEYQVKRGNAVNQQMGVDHQCRSIQGDFMNLPFEDNSFDGVYAIEATCHAPQREGVYGEIYRVLKPGAVFACYEWCLTDKYDASNEKHRLIKKQIEEGDGLPDMVTPAGVDSALKTSGFEILETRDAALDPNPGGIPWYQPLTPSWNVFTQRFQFTWLGMRLTKAALYIMEMCHLAPAGTTKVQAMLQEGGMGCAQGGITGVFTPMYLAVCRKP 1352
            I V+ WI EYN LH  +E     R  +YAKLVNAYYEL+TLFYE GWG+SFHF+ R  GE+F + ++RHEYYL   LG + PG+KVLD GCGIGGP R+I +FTG ++TGITINEYQV R N +  + G+  QCR+I GDF+ +P  +NSFDGVYAIEATCHAP R  VY E++RVLKPG  FACYEWCLT+KYD +N+ HR IKK+IEEGD LPDM     +D A+++SGF+IL TRD +LDPN    PWY PL PSWN F QRFQF  +G+ LT   L ++E   LAP GT+K+Q MLQ+GG+GC +GG   +FTPMYL VCRKP
Sbjct:    8 IVVNKWIDEYNDLHKGEEPDA--RNVAYAKLVNAYYELSTLFYEVGWGTSFHFSYRMAGESFSEGMRRHEYYLTSFLGGLKPGSKVLDVGCGIGGPLRSITRFTGWDITGITINEYQVNRCNQLAARQGLSGQCRAILGDFLAIPAANNSFDGVYAIEATCHAPDRRKVYSEVFRVLKPGGYFACYEWCLTNKYDKNNQYHRWIKKKIEEGDALPDMAYTHEIDDAMRSSGFDILHTRDMSLDPNQK-FPWYHPLLPSWNPFVQRFQFNPVGLFLTTWGLRLLEFLWLAPKGTSKIQTMLQQGGIGCVKGGQNEIFTPMYLVVCRKP 331
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BLAST of mRNA_P-littoralis_Contig8.160.1 vs. uniprot
Match: A0A7S0Y0H6_HEMAN (Methyltransferase n=2 Tax=Hemiselmis andersenii TaxID=464988 RepID=A0A7S0Y0H6_HEMAN)

HSP 1 Score: 415 bits (1066), Expect = 1.660e-135
Identity = 212/357 (59.38%), Postives = 254/357 (71.15%), Query Frame = 3 
Query:  300 LVYATD---PLEVTWTFVAGFFGQKERG-IKVDSWITEYNRLHNDKESSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWCGETFQQSIKRHEYYLGGRLGVNPGAKVLDCGCGIGGPYRNIAKFTGANVTGITINEYQVKRGNAVNQQMGVDHQCRSIQGDFMNLP--FEDNSFDGVYAIEATCHAPQREGVYGEIYRVLKPGAVFACYEWCLTDKYDASNEKHRLIKKQIEEGDGLPDMVTPAGVDSALKTSGFEILETRDAALDPNPGGIPWYQPLTPSWNVFTQRFQFTWLGMRLTKAALYIMEMCHLAPAGTTKVQAMLQEGGMGCAQGGITGVFTPMYLAVCRKP 1352
            LVY  +   P+     F+    GQ+ R  I V+ WI EYNRLH  +++S  ER   YA LVN YYELATLFYE GW  SFHFA R  GE+F +SI+RHEYYL G LG+ PG+KVLD GCGIGGPYRNIA+FT  ++TG+TINEYQV R N + +Q G+D  CRS+QGDFM L   F   SFDGVYAIEATCHAP+R GVYGEI++V+KPGA+FACYEWCLTDKYD S   H+  KKQIEEGDGLPD+   + V +ALK  GFE+L TRD A D N    PWY  +T  +N  +QRFQF   GM +T   L ++E   L P+GT+KVQ MLQ+  +G A GG+TG FTPMYL VCRKP
Sbjct:   69 LVYGPNGSGPISRVVDFIHTALGQENRRKIVVNDWIEEYNRLHKAEDAS--ERNSMYASLVNHYYELATLFYEVGWCPSFHFAYRMLGESFSESIRRHEYYLAGFLGLAPGSKVLDVGCGIGGPYRNIARFTKWDITGVTINEYQVNRANTLCKQQGLDKVCRSVQGDFMKLSTMFPKESFDGVYAIEATCHAPERRGVYGEIFKVMKPGAIFACYEWCLTDKYDGS-ALHKKYKKQIEEGDGLPDLCHTSEVSAALKDCGFEVLHTRDMASDANQD-TPWYITMTAGYNPLSQRFQFNPFGMFITVWGLRLLEFLFLVPSGTSKVQIMLQQAALGLAGGGVTGCFTPMYLTVCRKP 421
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig8.160.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LBH5_ECTSI2.100e-24382.01Methyltransferase n=2 Tax=Ectocarpus TaxID=2879 Re... [more]
A0A836CHN0_9STRA3.980e-18365.38Methyltransferase n=1 Tax=Tribonema minus TaxID=30... [more]
A0A8J6CDS5_DIALT3.130e-16167.25Methyltransferase n=1 Tax=Diacronema lutheri TaxID... [more]
A0A7S3H6D9_9STRA1.330e-15263.25Methyltransferase (Fragment) n=1 Tax=Spumella elon... [more]
A0A7S1JGY0_9EUGL3.830e-15159.84Methyltransferase n=1 Tax=Eutreptiella gymnastica ... [more]
A0A4D9D2K7_9STRA1.020e-14358.63Methyltransferase n=1 Tax=Nannochloropsis salina C... [more]
A0A6U4HVH6_9STRA3.420e-14156.60Methyltransferase n=1 Tax=Phaeomonas parva TaxID=1... [more]
A0A7S4GGV3_9EUGL3.680e-14158.05Methyltransferase n=1 Tax=Eutreptiella gymnastica ... [more]
L1K2B7_GUITC2.400e-13760.86Methyltransferase n=1 Tax=Guillardia theta (strain... [more]
A0A7S0Y0H6_HEMAN1.660e-13559.38Methyltransferase n=2 Tax=Hemiselmis andersenii Ta... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig8contigP-littoralis_Contig8:682271..701239 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D8LBH5
Preferred nameSMT1
PFAMsMethyltransf_11,Sterol_MT_C
Model size2162
Max annot lvl2759|Eukaryota
KEGG rclassRC00003,RC01154,RC01470
KEGG koko:K00559,ko:K08242
KEGG ReactionR04427,R05776,R07481
KEGG Pathwayko00100,ko01100,ko01110,ko01130,map00100,map01100,map01110,map01130
KEGG ModuleM00102
Hectar predicted targeting categorysignal peptide
GOsGO:0003002,GO:0003674,GO:0003824,GO:0003838,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005783,GO:0005794,GO:0006275,GO:0006629,GO:0006694,GO:0007275,GO:0007389,GO:0008150,GO:0008152,GO:0008156,GO:0008168,GO:0008169,GO:0008202,GO:0008610,GO:0008757,GO:0009058,GO:0009825,GO:0009889,GO:0009890,GO:0009892,GO:0009987,GO:0010051,GO:0010556,GO:0010558,GO:0010564,GO:0010605,GO:0010948,GO:0012505,GO:0016049,GO:0016125,GO:0016126,GO:0016740,GO:0016741,GO:0019219,GO:0019222,GO:0031323,GO:0031324,GO:0031326,GO:0031327,GO:0032259,GO:0032501,GO:0032502,GO:0032875,GO:0032876,GO:0040007,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043412,GO:0043414,GO:0044237,GO:0044238,GO:0044260,GO:0044424,GO:0044444,GO:0044464,GO:0045786,GO:0045934,GO:0048519,GO:0048523,GO:0048580,GO:0048856,GO:0050789,GO:0050793,GO:0050794,GO:0051052,GO:0051053,GO:0051171,GO:0051172,GO:0051239,GO:0051726,GO:0060255,GO:0061062,GO:0061065,GO:0065007,GO:0071704,GO:0080090,GO:0090329,GO:1901360,GO:1901362,GO:1901576,GO:1901615,GO:1901617,GO:2000026,GO:2000104,GO:2000112,GO:2000113
Exons9
Evalue3.79e-249
EggNOG OGsCOG0500@1|root,KOG1269@2759|Eukaryota
Ec32 ortholog descriptionSterol methyltransferase
Ec32 orthologEc-27_003950.1
EC2.1.1.143,2.1.1.41
Descriptionsterol 24-C-methyltransferase activity
Cds size1248
COG categoryQ
BRITEko00000,ko00001,ko00002,ko01000
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig8.160.1prot_P-littoralis_Contig8.160.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig8 683075..701129 -


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

Feature NameUnique NameSpeciesTypePosition
1680791639.3338428-UTR-P-littoralis_Contig8:682270..6830741680791639.3338428-UTR-P-littoralis_Contig8:682270..683074Pylaiella littoralis U1_48UTRP-littoralis_Contig8 682271..683074 -
1680791639.4608092-UTR-P-littoralis_Contig8:701129..7012391680791639.4608092-UTR-P-littoralis_Contig8:701129..701239Pylaiella littoralis U1_48UTRP-littoralis_Contig8 701130..701239 -


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

Feature NameUnique NameSpeciesTypePosition
1680791639.352588-CDS-P-littoralis_Contig8:683074..6832061680791639.352588-CDS-P-littoralis_Contig8:683074..683206Pylaiella littoralis U1_48CDSP-littoralis_Contig8 683075..683206 -
1680791639.3624787-CDS-P-littoralis_Contig8:683464..6836921680791639.3624787-CDS-P-littoralis_Contig8:683464..683692Pylaiella littoralis U1_48CDSP-littoralis_Contig8 683465..683692 -
1680791639.3767993-CDS-P-littoralis_Contig8:684545..6846751680791639.3767993-CDS-P-littoralis_Contig8:684545..684675Pylaiella littoralis U1_48CDSP-littoralis_Contig8 684546..684675 -
1680791639.3880394-CDS-P-littoralis_Contig8:685071..6851541680791639.3880394-CDS-P-littoralis_Contig8:685071..685154Pylaiella littoralis U1_48CDSP-littoralis_Contig8 685072..685154 -
1680791639.4016745-CDS-P-littoralis_Contig8:685480..6855431680791639.4016745-CDS-P-littoralis_Contig8:685480..685543Pylaiella littoralis U1_48CDSP-littoralis_Contig8 685481..685543 -
1680791639.4124238-CDS-P-littoralis_Contig8:685850..6859971680791639.4124238-CDS-P-littoralis_Contig8:685850..685997Pylaiella littoralis U1_48CDSP-littoralis_Contig8 685851..685997 -
1680791639.4256911-CDS-P-littoralis_Contig8:686629..6867711680791639.4256911-CDS-P-littoralis_Contig8:686629..686771Pylaiella littoralis U1_48CDSP-littoralis_Contig8 686630..686771 -
1680791639.4372742-CDS-P-littoralis_Contig8:687287..6874331680791639.4372742-CDS-P-littoralis_Contig8:687287..687433Pylaiella littoralis U1_48CDSP-littoralis_Contig8 687288..687433 -
1680791639.446879-CDS-P-littoralis_Contig8:700952..7011291680791639.446879-CDS-P-littoralis_Contig8:700952..701129Pylaiella littoralis U1_48CDSP-littoralis_Contig8 700953..701129 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig8.160.1

>prot_P-littoralis_Contig8.160.1 ID=prot_P-littoralis_Contig8.160.1|Name=mRNA_P-littoralis_Contig8.160.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=416bp
MAAVLAVWLASCASLYAQLKGEKTLEAVLSKVDEFADQPPSFQINFLVLA
VASFVLLLKAFFRLVYATDPLEVTWTFVAGFFGQKERGIKVDSWITEYNR
LHNDKESSVEEREGSYAKLVNAYYELATLFYEWGWGSSFHFASRWCGETF
QQSIKRHEYYLGGRLGVNPGAKVLDCGCGIGGPYRNIAKFTGANVTGITI
NEYQVKRGNAVNQQMGVDHQCRSIQGDFMNLPFEDNSFDGVYAIEATCHA
PQREGVYGEIYRVLKPGAVFACYEWCLTDKYDASNEKHRLIKKQIEEGDG
LPDMVTPAGVDSALKTSGFEILETRDAALDPNPGGIPWYQPLTPSWNVFT
QRFQFTWLGMRLTKAALYIMEMCHLAPAGTTKVQAMLQEGGMGCAQGGIT
GVFTPMYLAVCRKPF*
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mRNA from alignment at P-littoralis_Contig8:682271..701239-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig8.160.1 ID=mRNA_P-littoralis_Contig8.160.1|Name=mRNA_P-littoralis_Contig8.160.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=18969bp|location=Sequence derived from alignment at P-littoralis_Contig8:682271..701239- (Pylaiella littoralis U1_48)
ATCGCACTGCAACGCACCGGCTTCGGCAACAAAGCTGCGTGCTGCTTGGC
ACTGCGGCTGGTACAGAACGTCCCAACTCGATTCTGTGTGTGTGGTCCTC
TGCTGTGACCATGGCCGCTGTTCTTGCTGTCTGGTTGGCCAGCTGTGCCT
CGTTGTACGCTCAGCTGAAGGGTGAGAAAACCCTGGAGGCCGTCCTTTCA
AAAGTCGATGAGTTTGCGGATCAACCACCGTCATTCCAAATCAACTTCTT
GGTGCTGGCTGTTGCATCCTTCGTCCTTCTCCTGAAGGTAAGACGATCCA
GGAAGAGAGGGGACCATGCAGCTTTCGTGGCATGCGGCAGGCATTGTGGA
TATATTGGCATTCTAGAGTGGGCTCTGTATCTACGGCTACTACTGCTGTC
CTAAATCCCCTGCTTTCGTCGGAAGCATTTTGTTCTGTCGGACATTATTT
GACGAAGTCTGGAAACGAGATGCTCTATATATGTACGGTCCGGTCCGTGC
ACGACAATTTGTCCAAACACGTTTTGTGCGATAACTTTTTTTTTTTTAAA
TAATTGGAACGTGAAACAACGACAGTCGTGACCGCCTCGTCGAGATACGT
CGATAGCTGCAGAGTTTTTTTTTATTTTGGCGATGAGCGACATTTTTGAC
CAAAGTCATCCACGATGCCCCCCAAATATCACATACCTCCCATTCTCATC
CACGGAGACCCCTTGTCTACACCACCGACCCCCCCCCGCCCTCCGTGCAA
TATCTATTCTATGCGCCACGGGCACCACGTGCTTCCATTCGTACAGATAC
CACGAAGAACGCTTGATCGACACACCCTCCTGTAAGCATAAATTTATAGG
CCAGTGTGTTGTCATCCCATATTCTCTGGCACACTAGTCTGCACCCTGCG
GTTCAAACTACAGGCTAGGCCCATCGACGGGGTCACACAGGAGGAAGGTC
AACACAGGAGGAGTTACCCCCACCTTCCTTCTGCGGTACATGCGTGAGAT
TTTTTCTCGCGAGCAGGGATCCGCAGTCCCTACCCTCGTCGGCGAAGCCG
AATCTGCTTATACTAACAGTGGCCGCTTTCAAAGCAGCAAAGGAACACAT
TCACCGGGAATCGAACCCCCGTTCCTCTGCATCTAGTGGTTAACGAGGGG
ACTACTAGTCCACCGGGGCGACCAGTACACCTGACTCACTACATCAACGA
ATCTCTTTACACAAAAATATATGCAAAAAACTTGGGGATAATCAAACCTA
AGGGAGTGCTGAAAAAATAAATATATACAAGATCCCCTTTCAATGAATTA
GGGTATAAAGAGTCCGATAGGGGGTGATTCAAGACTAACTAACTAAGCCG
AAGACACATTTATTTTGCGGAAGCGCCTGCTGTGGTGTGTTGGAGAGACA
AATAAAAAACGGGAGACTACTTACTGCCTGTAACGGTTCACGGTTGAACC
CCCCCCACCTCGTTAAAAGCTGGGTTTTTTTACACCCGCCCCCCACCCCT
CCAGGACCTAGAAAATCCACACCACCGACGACCCCCAATTTTATTTCAAT
TTTTGACCCAGCTTTGCAGCACAACATCAACCCCAACGATAGGGATAACT
CCGCGCGGAGGGAAGTGGTGCCTTTCAAAATTACGCTCGTGATCGACAGT
GGCATGTACATCAGGGGATGCCTCCTGCAGAGAAGTGGTAATGTCTGTGT
AGTATAGCGGAGCGCGGAGAGCCGGATCGATTATGGGATACACACGCTCG
TCTCGCCGCAAAACACACGAATTTTTCATTTCTCCAGGGCACCGCTTTCA
GAGCCGGGATGAACGGAAGGCCAAAAAAAACGAAATAGCGAAAACAAAAA
CGAAATTGGGCTCTGATTGGTCGGGAAAAAAAAACGTAAGAGGCGTGTTT
TCGTTTCAACGTCCTCCGGGGCGGCGTTCCTTCGTTTTCGATTTCGCAAA
AATAAAGTATTTCGGACCTTTTTTTTTGCAAAAACGAGAACGAAATGCAT
GGAGTTTGGTAACAACCTGGGAGGCTTGCCCATGAGCCTCCAAGGCAGCG
AACTCCTTCACAGAGACTGCGACTGCGGTACACGGCGGTGCAATAGGCAC
CAAGCCGAACAGAGCGAGGCTCAATCCACACACTACAGCAGCGCAGCAGA
CAGCGCCAAGCCGTCATACCCGCCAGTCAGTGCAACAGACAGCACACGGC
CGTCTACGATACCCACACACTGACAAGATGCATTCCACCGCGTTATTTGA
AATTGGGCCCCGCGCGCTCTGGATTTAAATCATTTTTGGCGTTATCTCCT
CTATTCCGCTGCTCCAGCTCCTCGCAGCAGAAACGCGATACCGAAATGGA
GTTTTTTTTTTTTTTTCCTGAAGAACGAAGTTATTTCGTTTTTGTTTCCG
CTATTTCGTTTTTTTTTGCCTTCCGTTAATCCCCGCTCAAAAAAACGAAA
TAGCGGAAACAAAAACGAAATAAGTTCGTTCTTCTGCGAAAAAAAATAAA
AAACTCCATTTCGTTATTAACTCGTTTCTGCTGCGAGGAGCTGGAGCAGC
GGAATAGAGGAGATAACGCCAAAAATGATGTAAACCCAGAACGCGCGGGG
CCCAATTTCAAATAACGCGGTGGAATGCATCGTGTCAGCGTGTGGGTATC
GTAGACGGCCGTGGTGTGCTGTCTGTTGCACTGACTGACGGGTTTGAAGG
CTCGGCGCTGTCTGCTACGCTGCTGTAGTGTGTGGATTGGGCCTCGCTCT
GTTCGGGTTGGTGCCTGTTGCACCGCCGTGTACCGCAGTCGCAGTCTGTG
TGAAGGAGTTCGCTGCCTGGGAGGCTCATGGGCAAGTCTCCGAGGTAACC
AAACACCATGCATTTCGTTTTCGTTTTCGCAAAAAAAAAGGTCCGAAACA
CCTTATTTTTGCGAAATCGAAAACGAAGGAACGCCTCCCCGGAGGACGTT
GAAACGAAAACACGCCTCCTTCGTTTTTTTTCCCGACCAATCAGAGCTCA
ATTTCATTTTCGTTTTCGCTATTTCGTTTTTTCGGCCTTCCGTTAATACG
GGCTCTTTGGCCTTCCGTTAACCCTTTGAACCCCCCAATCCCAATTGGAG
ACAATTTGGGGACACCTTTTTTTTTTTTACTTGGGTTTTGAAGGCGCCTA
TCTACAGGTATTTTGGGTGTGGTTCCATGAGCTCGATGGAATGTGTGTGG
ATGAACCAATAGTTGGCTGCCTCCGTGCCACATTTGTTTTTTATTATTAC
TATGGGAGACCAAGAGCGCCCGGCTGGTAGGTTTGTTGTGTGTTATTCTC
TTCCCTCGACAGCATGGTAGACACAACGGCGATCGTCTTGTTGTATCACA
CTTCATGCCGGCAACCCTCCCTGCATTGCACACAACATGCACACATACAT
AAGACATGTAGACTATATGTTAGATCACCGCTCATATCATATGAAACGCT
GATGTTGACGTACTGCTGCACTCACATACATACCCTTATTTCTGGAACTA
TTGTTGTACTGCTGCTGCTGCTGCTGTGCATGCTGCAGCAAGCAGCTAGC
TGATGATGTGTCGTGCGATGGGTTGGTGAGACACACTACGCACACGGGGG
CCGACACTACAAATATATAGACACATCACGACACGCACGTTTGTAAGCTC
ACAAACATACCCGGCGATCTCGGACGAGTATCATCACATGGATGGGTACC
ATTACATGCCGACACCCTTGCCTTGATCACATACATGCAACATACAGATG
ATATGTTTGACTTCAGTAGTAGGCTAGTAGTGCAGCTGCTGCTTGCTGCT
GCTGATGAGATGCTATAGACCCTGATTTGAGTGTCGTGCGCGGGTACAAC
CTTGCGGAGTGGAACCCTACTGCTGTGTGGTTGTCGAGCGGGGTACCCTG
ATCTGCCATGCTAAGTGGCGGTGTTGCTGCGTGCTACCTTGCATACAGCA
GTATCCCTTTGAAGTAAACATTCTGCAAAACTAAACAAACAACTTTTGTG
AAGTTGACCCCGCCAAAAAAGTTTGTGTAGCTTTAGACTGAAATCTGTCC
CCATTTTTTTCAGGGCAAATTGGGGACAGATTTCTGTGTATAACCAAGCC
ACATCCTTTTTTCACCGGACAGAGCCAGCGAGACGTCAGTGCCTTTTTTT
TTTTTGAGACTGCCCACCATTCGCCAATCATCGGCGCACCGGAATTAGGT
TAATTTTTGGCTCCATGATTATTTTTTTCAGACCCCTGGGGGGTCAAAGG
GTTTAATCCCCGCTCTCATGCCACGAGCTCACAACCGCAAGCCTCAACCA
GCCAATCCGACACTCTCAGACATGTGCAGATAGATATGGAGCTCCGGCGC
GGAAGCACTGAAAGCAGCATTTGTCTATCTATCTGGTTGTTGTCTCACTA
TTACTATCGCAAAGTAAAAACAGGTCTCACACAGCAGTCACCCGTCCGTA
TGTAGCGCGTTTGACTTTTCTTTTTCGCTCTGACTGGTTGTCACAGCAGT
GTAGCATCAGGTACGCGATGCTGGACATCGAGCGCGGCAAAAGTGAGATG
CGAGGCGATCTGGGCTTGCTTCCTATGTACACGTGTGCATGACTATACTA
CTGCTGTGCTTTATGTACACGTACGTTGCGTGCGTCCATATACTTCTATG
TAGGCTAGCCGCCTGTTTGTGGGGCCAATCAGGCGCATGTAAAACATTCA
TCAGCTGGCGTGCTGACGTTTTTTGTGGGGCCAATCACCAGCTGGTGCTG
CTGACGTCGGTCTGTTCACCCGTCAACACCTGTTGCTTTGTTACTGTTCA
CCAAACAGCTGTTGGACCTGACGTGTTTTTTGGGCCGTTCGCTGAACCGC
TCACATAAAAACAATCAGCTGTCATCTCCGGCCGTTTTCGACCCAAGGAA
TTGAGAGAATTTTCCGAAGAAGAAAACACAAAAGCTTATACCTGGTACTT
CGTATGTATTTATATATATATATACATATGCACCGCTTTGGGGTCTTCGA
TACCGCCCGACCACCCGCTCCACGATTGATCTTCTTCTTCCTGGGCCGTC
CCATGGTGCTTGCGTGCTTGTTGCGTGTTGTTTGGGCTGCCGCGTGTGCG
AGTTGTTGTGTGTGCGTGTTGCCACACACAAACACAAATCCCCCATGGTG
CGGCACAACAAAATGTGGGATATCTCGAGAACCAGAGTTTTCCCAGCAAA
AACAAAAGATAACCACCTGGGGATTGATGAGAGGAAGCGTTTGCCGCACT
CTATTTTGAAATCGTTCGGTTAGTTATCGCGCTGTAAACGAAGCAAGTTT
TGACCCTCTAGATCCAGTTTTTCCCCGATATTCTTGATCAGTTTCGAGAA
TTGAAAAAAAAAAAATACACACCTCCAGAATTCCGACATCTGTCCAAATC
CGTTGAGTTTTTTGGCATCGGCAAAAACTCCACCCGCTGTAAACGAAACA
AGTTTTTCCGATTTTTCGGGGATAAAATGTCAAGGGAAAAAAAAAAAACC
TCTCCGTCACTCGATGCGCCCCTGGAAACAGGGCGTTTGCCGGTACTTTC
AGATTTTCGAACAACCACCTGTAAATTTACACGGAGAAAAGTGTACCTGG
GTGCTGGGGGAAACTTGGACAAATTGCTGTGCACGGACTATATGTGGTGC
TGCTACTGCTGTGGACGAATGACTGCTGTAACTTTGGATTGCATATCACA
ACTACAAAATGATACGTGACCGATATATACGTACCTACAATGTACGGAGT
ATCAAACAGCGGTGTTTGTGTGTGTCATCGCATTTATTCTGGGCACCGCA
GAATACCCCGGTCGCCCCGATGGTTCAGTTGGTTATCCACGCAACCTTCT
GACATTCATGCGTGAGTTCGAATCCCAGTGCAGTAACACGATCTGGGGCT
TTTTCTCACATTACGCATGAAAGTGGAAAGCGATCAATTCGTGAGTAAAC
ACAATTCAATCGTACCATCGACGAGGGAAAGGGATTGCTGTCCCCTTTCT
CGCGATAAAAGCTCAACCAAAAAGGCAAGCACCGCAGAGGGAAGTGGAGT
AATAAAAAAACCTCCTGTGTTGACTTCCCCCTGTGTGACCCCGGTTGGAG
CGTCTACCTACGCGAAAGGTGTAGAGCAGCGTCCAATTAAAGGGATGACA
ACACACAACACACACACACCGCAGAGGGAAGTGGAGAAAAAAAAAATCCT
GAGTTGACTTCCCCCTGTGTGACCCCAGTTGGAGCGTCGACCTACCCGAA
AGGTGCAGAGTGGCGTCCAATTAAAGGGATAACAACAAACAAACAACACA
CACACACACACACACACACACAACGTTAACCACTAGATGCAGAGGAACGG
GGGTTCGATTCGCAGTGAATGTGTTCCTTTGCTACTTTGAAAGCGGCTAT
GCTGTTAGTATAAGCAGATTCGGCTTCGCCGACGAGGGTAGGGACCGCGG
ATCCCTGCTCGCGAGAAAAAATCTCACGCATGTACCGCAGAAGGAAGGTG
GGGGTAACTCCTCCTGTGTTGACCTTCCTCCTGTGTGACCCCGTCGATGG
GCCTAGCCTGTAGTTTGAACCGCAAGGTGCAGACTAGTGTGCCAGAGAAT
ATGGGATGACAACACACACACACACCAGTCTACACCTGTCGGTATTAAGT
GGGTGCACCAGCCGGGGGTCAAACAGAAGGAAGGTCACACACAAGCTTTT
TTTGTTTAATTGTCCACACCTTCCTCCTACGTAGCCTGCGGTACGTACGT
TTGGTTTTGAAGGCTCCGCTGGGTTCAGTACAAAAATAATGGGGAAGACG
CCGTCCCGGTATCCCGGGGTTCCGTTGTCGCATTTTTGCTCCAACGGTAT
CATTTTTTCGGGAAGGAGCCGGTATATGAACTTTAGAAACGAAACCCACC
CTGGGGCAGGAGCTCGTGGAAAACCCAAAAAAACGAACCCCGCCGGATGA
GGGAACCCACTCATGTACCGAATAACGCCTACAGAACCTCACAGCACGAA
GCACGGAGACAACAAGAAAACACGAAAACACAGAACACGAAACAAAAATT
ACGCAACACACAACAGAGAGAGCGAAAGTGTTGCCCGCTCCGCCGCTATA
CTACTGCTGTACACACGGCAGATCCACAACATACACACACCAGACACGCA
CAAACACGCACATGCGCGCGCATAGATAGCAACAGCCATACATGAATATC
ACAGCAGTGGCAGCAGTACAGCAGTACCCCCCACACCCCCCTCACATACG
AAGTACCAGTACTTTTTTTCTCCTGGCAAGTTGTCTTCTGAAACTGAATA
CTGCTGCCACCACCTTCTGTGAGCTTTTTTTTTTATGTGTGTGAATCAGT
TTTTTATTGACTTGTCTGAATCAGCAACAGAGCAGCAGCAGCAGAGCAGC
ACGGCGCACATACGTGCAATCACACAACGCAATACACCAGCGCGTGCCAC
GCGCATCCATCCATGCTCTCTCTCTCTCTGCTCAAGACAAATTGGGAGGA
CGAAAAAGCATGATGTGTGTGGGAGGTACAGGTACTGCTGCCATTGCTAT
GCTATGTATGTACGGCTATTGCTACCTGTGCGCGCGTGCGCGTGTATGTG
CGTGTCTGGTGTGTGTTGTGGACTGCCATGTGTACAGCAGTAGTAGCGGC
GGAGCGGACAACACGTTCGCTCTCTCTTGTGTGTGTTTAAGGTTTTGTTT
TGTGTGTATGATGGTGTGTTTTCGTGTTTTCTTGTCGTCTTCGTTCTTCG
TGCTGTGAGGTCCTGTAGGCGTTATTCCGTATATGTGTGGGTTTCCTCAT
CCGCTCATCCGGCGGGGTTCTTTTTTTTTCACGAGCCTCAGGGTGGGGTT
CGTTTTCCCGCGGGGTCCGTATACCGGCCCCCCATTTTTTCTCTCAACCT
CTAGATAAAAAATTCTTTGGCGTGCCCCCCCTGACTGCTGAATACTCCAC
ATCCCATCCCCTCCCTTGTTTGTGTTACGAGACAAACACCTCCCGATGTT
TTTGCAGGAAGCACCTTGGCTTGTCATCCTGAGTGGATCAAAATTGTGCG
CTATGCCAGTTTAGGCCTTGTAGCGCGAGATCGAGACGATCGAAATTAAC
GGTTGGGCACCATCTCCCCTAGTAGAAATTGGTGAAAAATCCCGGAAAAC
TGTGCTTCAGTTCACTACAGCGCAACCTTATTACAAGCAACCACACTGCT
CGAAAGTGCCACAGCCCACAAATGTGGTGGACGAGAGGAGTCCCGTGCCT
TCATAGCAGCAACAGGCAGCCAGAAACGATTGTAGAGGTTTCTTCGGAGC
TCGTGATTTTGTATCTAGATGCATGCAGCGGCCCGCAATGGCACCGCACT
GGGAGATCTGCTGGGTGCGATGATGCGAAACTGCTGTTCTCCGCGTGTGC
ATCCCCGATTAACAGGCGGATTCGACGCGAATGTAGCTGGCTTACCGAGC
TAGCACAAGCAATAAAATCATCCGGAAGTTTTTGAAAGTGCGGAGATTAA
AACTTCGATCTACCGCGCAGAATGCTCCTAAAAATGGTTTTTTCCTGCTG
ATTGTTTTGTCCCCTGGAAAGAAAGCTGCATTTATGCAAATCCCCTAGTC
TATGTTCCAGTAACAGTTTTTTTAGCTTAATGCCGTTCGTTTCCAAACCC
TTCTTTCTTCCCCTTTCTCATCCTTTCTTTTTTGTACTGAACCTAGCGTG
GCCTTCATGCGAGTCAGGTACAGCAAACCTTTCCCTCCGTTTACTCACGA
ATAATTCGCTTTCCACTGTTAAGGTCGAAAGAAAAGCTCAGACCATTTCT
TACGGCTATGTCATTTGGTCTTGTATTTTTCTCCTGGGGTACCCCCCCCC
CCCCCCAAATAACGGAGAGCCCAACCGGTTGAAAAAATTACTTCTTGAGC
ACAGCAGGAGACAGCACCAAGCAGAACTCGACCCCTGGGACACCAATCGA
GACTCAAACTGTTGGAGTGTACGCTCCAATGTTCTCAGGTTGGCCACAGG
AAATTTGGTGGGTGTGGGCTTTGGCTTTGGCGAGGTTTCGGCGGCGGAGT
GGGTTGGGGTAGCAATCCGGTGGGAAAAAAACGCTGTCCGAGCCTGCTTT
TTGGCCGGAAAAACAGGAGCAAAATGTGTTATTCCAGCGAAGCGATACTT
CTATTCTTGCCTGAAGTCTCGCCGCAAATATAGGGGCTGATGCAGAAAAA
AAAGTTTGTGTGCGTGTGTTCGCTTAAACTAGGTTTTAGAGCACAACCCT
ACATGACTTGGTATTAAAGGGGGGTACACGTCTGACGACAGTTACGTCTA
TCAGCTGTCGCTCGTTTTAGCGACAGCTACTATATCTTTTCGTTTCATAT
GTTTCTCCAACTCAAACACACACCGCCGCCACAATCACGCCACAGCCCGA
ATCCACTGCCACCAAACTTCCTGTGGCCAACTTGAGAACATGTAGCACAC
GCTCCATCAGCTTTGATCGGCATCTGTGTCCCAGGGGTCGAGTTCTGGTT
GGTGCTGTCGCATGATGTGTGAAACAGGGCTGTTTGCGGGTGGGGGGGGT
TCTCTTGTTGGATTCTTGTAGGGGGGTCAAAACGCCAGGCCAAAATAACA
TCGACCGTAAGAAACAGCCTCGGAGAGAAACGAACCTACGACCTTACAAC
TGGAGGTTAGAGGGGGAACCACTAGACCACCGGGCGACCGAAAGAGCAGC
ACTTCGTACAATATCACGGATGGAATCTCGACCTTGTGACAAACATGGAG
GAACCCCCTCTGGAATAATTTTGAAGGCATGAATACTCAAGCAAGACAGG
GTAGTGCCGCTAACGGTGGCACTAGAAATATCTCGTCGTCGTGAACTCTT
GCAAAACGTATGGTATCGGCATTGGATTCGTGCTGGAGTAGTCTGTAGCA
ACTGGTCAAGGAGGTGTGGTATGTGGTATATTTTGGGGGAAACGAGACAA
CAGGGTGCACCCTGGTAATTTTGCGACACAGCAGGATGCAGGCTTTTTTA
CAGCGTGAAACGACCTGAGCTGATTGGTCAACGCTCGTTTTCACCCTGCT
GAGTCGGAAAATAGGCTGGGTGCACCCCGCGGGGGCTCCAAGTACCTTTC
TGCAGAAGTGCACCCTTATTTTCTGATTTTTTTGGGCGTGCATGATAGAC
CAGGTGCCCTGTTTTGTGGGAAAATGAGACCCTTCCACCGGCCATTCATC
TCGCGGACGGAAACCACTTTCCGCTTTCACCAAAGGCATCCAAAATGCAG
ATCTTCCTTCGCGAATACACAACGTTCACACACCGGCAAGGCGGACCTAA
CTCCAACCTGCCACATCGACTCTTCACGCTCGGAACAACACATTGTTGTT
GGTACTGCTGCTTTAGATACTATTGCTGCTATTGAGCACAACAACACCAC
CAGACAGATAAAAAAAGAGAACCCGACCCGTAGAGCATCGATACACGGAA
CCGATAGACGTTGGCAAGCAGAGATCGAAACGATGTTAGAGAAGAGACAC
ACACGAAAGAGACATTAAAGGCGCGGCCACAGAGTGATCTCAGTCTCTGC
CGCACTTGTCGCAGCCTGTCGCGACTGGCGAACAGTCGACCTTTGTCGAC
AGGCCCAGCAGCAGGAATGGGCAAGCCTGCCGCTGCAGCTCTCACTTCGC
TCGCTGCCCCTTCCTGCTCTTCTTTGTTCGGTGTTTGGTCCTCGTGTTTT
CAATGACATCGGTCCCTTTAAAACAGTTACAATGTGGAAGGGTTGGAGGC
AGGTCCGTCCGATCCTGTCTTTCCCCAATGCTCTGCATGTTTCGCGCAGG
GAATGGCCGGTGGACGTCTCATTTTCCGACAAGACGGCAGGGTGCATGCC
CAAAATCAGGGTGCGGTTCTGCAGAGAAGTATTCCCCACGGGGTGCACCC
AGCCCATTTTCCGGCTCAGCAGGGTGAACAAGCGTCGACCATTCAGCTCA
GCTCGTTTTGCGCTGGAGAAAAGTGTGCACCCTGCTGTGTCGCAACACGA
TCAGGGCGAACCCTGTTGTCTCGTTTCCCCAACAATATCTACCTCGAAGC
ATATCCCTTGTTGACCTTCCTCTTGTGTTACCCCGACCGACTGATGCGCC
CAGCTTTTACCGAAAGGTAATTACTGGCGTCCAGAATACATTAGATAACA
ACACACACCGTTGAGAGGCTTCATGTCATTGAGCGGTGGTGCCCTTGTAT
GATTCGGTGTCGTATTCTCCCCGCACCATGCGAGTGCCCGTGGAGATCCG
GGTGAGATACACTACCCACGTGCACTACTGCTGTACCTGGTAGCATATTG
TGGTGCTGTTTTTGTCCGGTGTTGCGGCAGCATACCATTAGTGCCGAGGT
CATCAGCCGTGTAGCGAACCTGTGGTGCCGTGCGATTTATCTCTTCCCAC
GCAAGAGTTTCGTTTGTTTCCAACCTCGGCAGTTTTCATCTTACGCCAAT
TCGAATTGTTCACGGCCGCGACAACAACTGCAATGCCTCTTTTTCGATCT
ACGCGCGAGTGTTTTACGCAGCAATGCTGACTCTACTGGAATAGAAGATA
TGCCCAGTGAGTACAGCAAGACACATAACTCCCGAAGAAAATCACATTCC
CATTTCTGTCTATGAGCTCTCGTTTCGTGCGTGTTGGATAGATCGTTTTT
GGCATGCGTGCAAAGGCATCTAATCTAGTCTTAGCATCTCTCTTTGTCAC
GTGGCGCCGCCCCCCCCCGATATGTATACAAGTACAGGATTCGTATTATG
TCTGATACGAGTATAGGGAGTTGCAGCATTGGTTAGAGCCCGAATCCACG
GTAAAGTAAACAAACGAAGTTCTGTAGCGAAAGCGAAACCAAAATTGGGC
TCTGAGTGGCGGGAGCAAAAATGAAAGAGGCATTTATCGTTCAAAGGAGG
CGCGTTTGCCTCTGTGCAACCTCTGAGGAGGCGTGTTTTCATTTTCGTTT
GTGCAAGAAAAAAAAATGAGGTGTTTTGGACCATTTTTCTTGCAAACTCG
AAAACGACTTTGACATGGAAGGCTTGTTAGCGGGGACGCTTCAGCTCTGC
AAGGCATCTCCGGAGACTTTTGCACTGCAGACAAGTTCATATGTTGACTG
ATAACTCGCCACACAAGGGACGACACTCCCTGCTATTTGCATATCTAGGT
GGGCTTAGCGTGAACTGGGAACACCCAAGTTTTAGGGCAGTGGGGTGCAA
GCTCGACGCGAAAAACGTGTTCAACTCGTACACGACCCGATCGTGCTTTG
AGCCACTTTTTTTCTTTTTTCGGGTGAGTTCGCAAGCAGCCATGTTATCG
TTTTGACTGATTTCTCGCCGGAAAACGAACGGAATTCCCTACCAACTGCG
TGCCTAGAGAGATTGGTCTGCTGTCCATCGGGAACGCCCAAAATTTGGGG
CTGGTGGGTGTCGAGCGTGACGGGAAACAAGTGATCAGCCATAAAAAAGT
GTCTGACGATGAGCAGTCGAGTTTGCTTCTTTCGCGTGGTAGAAATTTGG
TTCAATTTTTTTTTCCCGTCGCGTTTGACGCAGTTCTGCTCCGAACCTCG
ACCTGTCCCGACAGAGGGTAGACATACCGCTATGTCGGTGCAGTCGGTAG
GGAGTCTTGTCAAGTTTTGTGCGAGACATCAATGAAAACGTAATCTTTGA
TCCTGCTAAAAGTGAACGCAATTGGTGATCCTTCTCGTGAGTGCCCTCTT
CTTCTCCACCCTCTGGTACAAGGTCCGATGCAACAGCGAAATAAAAAAGG
TATTCTCGTTCGGTTTTATACAACATGGCGTGCTCCTAGTTTTTTTGGTT
GTCGATGTCGCAATCGTTGAGGTGACCTCCCTAAAAAAAAGGGCAACCTT
TTGTCAAGGGTAGGTATCTGTCAACGTCTGTCGAGGACGATTCCCTCTTT
TCACACTGGCGTCAACGATGGTCAAAACCATCAAACCATCGTTAACAACA
ATGACGATTCCTTGTTTTCACATCGGCGTCAACGATGGTTGAAAGGACAG
ACGCTGGCAGATGCCCATCCTTTATAAAGGTTGCCCACTTCTTTTTGGGA
GGTCAACTCGATAAATGCGACAACTACAACGGAAACGAGTAGAAAAACGC
CTTGACGTGTACAACCGAAAAAGCATATACTGGTACGTTGTTTTTTCGTT
CTCGTTTTTATTGAGAGGCAGTCCACGAGCGCAGCAAAGTGTTACTTCTT
GTCGAACTGCTTCGAATTCTACCGACCTCGTCGCGATGTGCGAGTGTATG
TACGAATACTAAAAAGTATATATCACACAGGGTGCCTTACTTCATTTCAG
TAGTTTATGGTGTCTTGTGTGTCTGCGCGTGTGTCCGAGATGTCGTAGTG
GCCACATCTTGCAACACTATGGTACCAGTTCAGCACAGATCGTTACGACC
AAGGGCTTGAACTGATGAGGTAAATATCCATCTACCCATTGCTGCTGGGT
TCACCGCAGCCTGTGTCCTGTGCGCACAGCCATGTTGTCTGAGCGCGTAA
TTACCGGTGTTTTTTTCGTGAAAAATGATACGAGGCGTTTTGTGTTCGTT
GTGCTAGCGGAACACCAGCTGTTCTGCTCCTCACACCCTAGGTTACTCTT
CCCATCAGCTCTTCGTATATAGTTCGCATTCAACAGCAACGCACACTGCT
TCTCAATTCCTGTAACATTTCTAGTGCCGTTAACTCGAGCTCTTGTTGCT
GTTGCTCAAGGCGATTCCACCACCCGTCCATGTAAATCTGGTAAAACTAT
TTCCTCTCCTCGCGCCATATCCCCCCACCCCCGGGATGTTTGGCAACGAT
TTACAGGCATTCTTCCGGCTGGTGTATGCGACGGACCCGTTGGAGGTCAC
TTGGACCTTTGTTGCCGGGTTTTTCGGGCAGAAGGAGCGCGGCATAAAGG
TGGATAGCTGGATCACCGAGTACAACCGCCTTCACAACGACAAAGAATCG
AGGTAAAATAGCACTGACAATCCCAACCGCGGCTGTCGTAGTATTTTACA
CAATGAGTGTATGCAGGTCACATGTCACATGCTTAAGGGTGGGTATTCTC
ACCAGCGTACGGGTGCAAGCAGTTGTAAACGCGACAGAAAGAAGTGCCCG
TGCGGGCCCTGTGCTGTCTGTTCATTTATGCATGCAACGCAAGATTCTGG
CATGACGAATCGAGAGTGCTTGTTTTTGTCTGAAGTGTTCACTTGAGACT
GCGAGAAACACAGTTGGAACTGCTTGTCGTGTTTGCGTCGTAGGTGAAGG
TGCGGTGAAGGTACGAGCAAACAAGCGGTTCGAGACCACAACCGGGAAGG
ACCACACGATCAACTACGTAGCACCTAAATTCAATTGAAAACTATCAAGA
CTGCCGAGCACGTCACGTGATGCACTCTCCTGCTGTTGGTTGAGTCACCT
TTACGATATATCGATACAGTTTGGTTTAACGCCTTCCCCCCCTCGGTACA
AACCAATGCAATGTGTAGCGTGGAGGAGCGAGAAGGCAGTTACGCGAAGC
TGGTGAACGCGTACTATGAGCTTGCGACTCTATTTTACGAGTGGGGCTGG
GGCTCTTCCTTTCACTTCGCCAGCAGGTGGTGCGGCGAGACCTTCCAGCA
GTCAATCAAGGTGAGGGGTGAACACGAGGGCGGAACGGAAGACGAAGACT
GCGGTTGCGGGTCATTTGACGCGAAGTCGTCTTTTCGAACGCTGTAAAAT
GAGACCCCGCAGAGGCGGCAGCAGCGGCAAGTGCACTCGCCAACGTATAT
GACAATGTCGTTGAGGATTTTTTGATTCTCGACGTGGCCTCCAAATCCCT
TTGAAATGGTTGCCGCATCACAGTCTTGGTGAATGAGTAAGGGCACCCAG
GGCCCACCCTCAAGGCCAAGTTTTTTATGGTACTCTCGCAACCTCTCAAT
CACTTTCCGGTGTGGTTCTCACACAAGAAAGCGCTCGAAGATGTATCTAG
CCTGAGATCTCGGAAGCTTGTTGTGCTCAGCCTTAGCCTATCGAGTGCTG
CTGTGTTGGAAATTCTTTTTCAACTTTGCTCAACCTTCGCATAACGACAA
AAGGTTATCAGTGGAATATCAGCCAGAGGTTTTGAGTGCTTGTCAGGGGA
AGCCGGCAATAAGTGTGTGGTCTACTTCACACCGTCTGTTGTTGTTTGAA
CGCCATGATTCACCCACACAAGCACGATGCGCGTACGCTCATATTTTTCT
CTTTTCTGAAAATGGTGTGTTTGATTGACGGAAACGACCCAGCGGCACGA
GTACTACTTGGGTGGTCGGCTGGGCGTAAATCCTGGCGCGAAGGTGCTAG
ACTGCGGCTGCGGCATCGGCGGGCCGTACCGCAACATCGCCAAGTTCACC
GGCGCGAATGTGACTGGGATAACTATCAACGAGTACCAGGTGCCGGGGTA
ATATGATCGGGTTTTTACCGTGGTTTTTATAGCCTACGTTTGAGTCGAGG
CAAATGCAGCCAGCAACGTGTCTGGTACGCCGTAGTGTTTAGTGACACAT
GACATGGCATGGATGCAGTGCCTTGAGCACCGATTAAGCAAGGATCCATC
GCGCCGCATTTAGCACCTGCTCTCGAAATATCATGCGTATGCCATGTTCA
CGCTTGCGTGTGCGTGCAGCACAGCGGTGTTGTGCGAGCATGAAGAAAGC
AAGCCCCATGTGCGTCTTCTGCCTGTTTTCTCACTGGGGGGCACAGGTGA
AGAGGGGCAACGCAGTCAATCAACAGATGGGTGTCGACCATCAGTGTCGA
TCTATTCAGGTGATGCTGAATTTTTGTTGTTTTCTTCCCAACCTTAGAGG
GATGACCTGATTCGTTTTTACATTTTGCAAAAAGCTTCGAGTTCCTGACA
GGACTTCTACGGCCGTCAGGTCGATCCATGTTGCGGTAGGGATGTTATTT
GGAAGCGCGAACGGTGTCGTGTGGAACATTTCTAGGCAGGTATTCCTCAC
GGTATGCGCTACGCAAAGACTAACAGTGTATCTGCTCGTTCTTGTCGAAT
ATTTGAAGCGTGTTCTGATACCCGCTACCCACCCACCCCCGTCCCCTTCC
CTTTCCTTACCGTCACATCTCGGCTGACTTCACAGGGCGACTTTATGAAC
CTGCCTTTTGAGGACAACTCGTTCGATGGAGTTTACGCTATCGAGGCCAC
GTGCCATGCGCCGCAGAGGTGAGTAGGAAGATGACCCCGTTTCTGCGTAC
ACGGGAGAGAGTATTTGACTTGTGCTCGAGGTTTTTCATCAATGGCGGCG
GCACTGCTGTATCGTTGTGATTTTCTTGACGGTATCGTTTTTCCGCGCGG
TGGAGCGGGTCAACATTATTGAAGCACGGTAGATGCTGATGACGAACTGA
TCTACGCACGGCGAAGAAAACGAGAAGCCGGCAAAATATTTGACACCTAC
GTGATGGCAATATATAGCTGAAGGGTGACCTGACCTGTCAGCTCTGGAAG
CCGCGCGGGCAGAATACTTGTGAATCTTCAGACGACTGAAGGCACGGCCC
CTCACCACCGGTCACCTTTCTTGCAAATCACGTCTGGTACATCGTGCCTT
TCTCATTTGTCCAGGGAGGGCGTATACGGCGAAATCTACCGCGTTCTCAA
GCCCGGTGCGGTGTTCGCGTGTTACGAGTGGTGCCTCACAGACAAGTACG
ACGCCAGCAACGAGAAACACCGCTTGATCAAGAAGCAGATCGAGGTGAGT
GAGAAACAGTACCCGACATTAAGTCCAAAGTGAATTTCCGAGCTATTCGT
AACCCGACACAGACCTGCGGAACTAACGTGGAGCGGGGTCGCTTTCATTG
CATTTCGGGCGGAGGGTCAATTGGGAAATGGTGAAAATGGGGTACACCCT
CGCTCTTTTTTGACGGGAGCTCAGGATACCGAAACACAGACATGGGGGTG
TGCCCGTGCGTCGCTTGAACCGTTCGACGAAAATTATAACGCGTCGGTGG
CAAGCCCGCATACTCGGCAGCACGGATACACGATCATTGGCGTTTTCGGG
ACACTCAGGCAAACAGCGCCGCGGCGTCGCATGTCCCAACACTATCCTCG
TTGTGAAGGAAGGGCGTACATATTTTCCCTTTCTTCTGCGGAAGTAGTGC
TAGCACTATTTTTTCGACCAGACTCCCTCCTGTGTGTCCACTTTCACAAG
CCCCGGCGCTGTTGGCCCCCAAAAGGTGTCTGAACAACCCCAAACTAGCT
GTGTCTGTGCTGTCGATGGCGTGCGGGCGTGTCTCTAACGCTCTAGGTTG
TGCCATGAGCGTTTGAGCCTCACACGGGTATGTGATTGTCGCTCGCTCGT
GTTCAGAGGTTGGGGTCGCCCATCTCTGACCGTTCGCATTTGTTCACGGA
GAAGTGTTGGTTTACTTCCGCATGCAGAAAGAGAAGGCACGGCCTTCTCT
TTCTCTCTCTTTTCGCTTTTGTGTGCCCCCCTATTTCCTCGAAATATGTC
TTTGCCCCGCAATATTGGCACGACTGAATCACCCCCGGAAACAAACCTGG
TTGATTCAATACTTTGATGTTGCTTTCTGTGCTATGCCGGGGAACAGGAG
GGCGACGGTCTCCCTGACATGGTCACTCCGGCGGGGGTTGACTCGGCCCT
CAAAACGTCAGGCTTCGAGATCTTGGAGACAAGGGATGCGGCCCTCGACC
CCAACCCGGGTGGAATTCCCTGGTACCAGCCCCTAACGCCCAGTTGGAAT
GTCTTCACGCAGAGGTTTCAGTTTACCTGGCTGGGGATGCGGCTCACGAA
GGCCGCCCTCTACATCATGGAGATGGTGAGGGGGGCGTTTCGTTTTGGTG
CTGTATTTTCCAGCTGGTATTTTCAATTTTCGTCCTTTCGAATTAATTTT
GTCTGTGGAGGCGTATCGATGTTTCGTTTTTCATGCATTTTCCCCTTTTG
AGTGAAATTGCGGGCGTATAGTCAGTCTCCCTCTGTGGTCGGATAGCGTT
GCAGCATTTTGGAACAAGTTCCGGCATGAGTTGTTGAATCCGTCCCCCCG
TGTCCCTCTCCACGTCCGCTGCCTCTTTTTCAGTGCCATCTTGCCCCCGC
GGGAACAACCAAGGTTCAGGCCATGCTTCAGGAGGGAGGCATGGGCTGCG
CACAGGGTGGCATCACCGGAGTTTTCACGCCCATGTACCTCGCGGTTTGC
CGCAAGCCTTTCTAGACTGCGCGTTGATCTGGTTTTTAGTAGCGGACAAC
GCGGAGGTTGGCTTCTTGTTTTAGGCAGAAGGAGAAATATGTGAATTTTT
GGCGGGGCGGTGTGTGCTTCAATGCGTTGTAAAAAGAGCGGTTTTAAATG
ACCATAGAGCGAGAAAAACGAAACAGCTCGCACGCCGGGTACGTCGACTA
CGCCAAATGTGCTCTCTCTTGGGACGGATATCCCTTGTTGCGGGCCACTT
CAGCGTGGAGTTTACTCATGTGTCGTGAGGGTGGCACTGCGGCGGACACA
TGTGGCACTAGCAAACAGCGAAATACGACGAACGTGTTACCCGACGGTCA
CGCCTTCCTTATGCACACATGTTTTTTCATACCTCACAAAAAGCCCGTCG
CCTCGCCTGATATTCCGTCAGCCGACGTCGAGACCACATCACAAAAGAGG
GATAAAAGGTCAAAACTTGTTGAAGGACCAAAACAAGCCGGACAATACCA
TCTCTATCCATTTTTCGGGTTGAAAGACCAACACAGCAACGAAAATTGGC
ACCGGCATCAAACAATCGTGCTGAATCACCCCACTTTTTTTTCATTCCAA
CAACAGAAACACATTGCAGGGAAACATACTCAACCAAGACGAGATCAAAA
ATAACAATAACCCAACTTCATCCCCGTTCAATTTGAGATGTTTGAATTTT
TCTATAACATGGCACCGCCCTGGATGTCGTCATCGGTCTACCAGGGGATT
TCAGCCAGTCAGGGATTTCCTTTGAAACAAAATTGACCTATCAGAAAACT
GTGGGCACCTCGGTACGTG
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Coding sequence (CDS) from alignment at P-littoralis_Contig8:682271..701239-

>mRNA_P-littoralis_Contig8.160.1 ID=mRNA_P-littoralis_Contig8.160.1|Name=mRNA_P-littoralis_Contig8.160.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1248bp|location=Sequence derived from alignment at P-littoralis_Contig8:682271..701239- (Pylaiella littoralis U1_48)
ATGGCCGCTGTTCTTGCTGTCTGGTTGGCCAGCTGTGCCTCGTTGTACGC
TCAGCTGAAGGGTGAGAAAACCCTGGAGGCCGTCCTTTCAAAAGTCGATG
AGTTTGCGGATCAACCACCGTCATTCCAAATCAACTTCTTGGTGCTGGCT
GTTGCATCCTTCGTCCTTCTCCTGAAGGCATTCTTCCGGCTGGTGTATGC
GACGGACCCGTTGGAGGTCACTTGGACCTTTGTTGCCGGGTTTTTCGGGC
AGAAGGAGCGCGGCATAAAGGTGGATAGCTGGATCACCGAGTACAACCGC
CTTCACAACGACAAAGAATCGAGCGTGGAGGAGCGAGAAGGCAGTTACGC
GAAGCTGGTGAACGCGTACTATGAGCTTGCGACTCTATTTTACGAGTGGG
GCTGGGGCTCTTCCTTTCACTTCGCCAGCAGGTGGTGCGGCGAGACCTTC
CAGCAGTCAATCAAGCGGCACGAGTACTACTTGGGTGGTCGGCTGGGCGT
AAATCCTGGCGCGAAGGTGCTAGACTGCGGCTGCGGCATCGGCGGGCCGT
ACCGCAACATCGCCAAGTTCACCGGCGCGAATGTGACTGGGATAACTATC
AACGAGTACCAGGTGAAGAGGGGCAACGCAGTCAATCAACAGATGGGTGT
CGACCATCAGTGTCGATCTATTCAGGGCGACTTTATGAACCTGCCTTTTG
AGGACAACTCGTTCGATGGAGTTTACGCTATCGAGGCCACGTGCCATGCG
CCGCAGAGGGAGGGCGTATACGGCGAAATCTACCGCGTTCTCAAGCCCGG
TGCGGTGTTCGCGTGTTACGAGTGGTGCCTCACAGACAAGTACGACGCCA
GCAACGAGAAACACCGCTTGATCAAGAAGCAGATCGAGGAGGGCGACGGT
CTCCCTGACATGGTCACTCCGGCGGGGGTTGACTCGGCCCTCAAAACGTC
AGGCTTCGAGATCTTGGAGACAAGGGATGCGGCCCTCGACCCCAACCCGG
GTGGAATTCCCTGGTACCAGCCCCTAACGCCCAGTTGGAATGTCTTCACG
CAGAGGTTTCAGTTTACCTGGCTGGGGATGCGGCTCACGAAGGCCGCCCT
CTACATCATGGAGATGTGCCATCTTGCCCCCGCGGGAACAACCAAGGTTC
AGGCCATGCTTCAGGAGGGAGGCATGGGCTGCGCACAGGGTGGCATCACC
GGAGTTTTCACGCCCATGTACCTCGCGGTTTGCCGCAAGCCTTTCTAG
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