mRNA_A-nodosum_M_contig88.63.1 (mRNA) Ascophyllum nodosum dioecious

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

Overview
NamemRNA_A-nodosum_M_contig88.63.1
Unique NamemRNA_A-nodosum_M_contig88.63.1
TypemRNA
OrganismAscophyllum nodosum dioecious (Ascophyllum nodosum dioecious (Feamainn bhuX, rockweed, Norwegian kelp, knotted kelp, knotted wrack or egg wrack))
Homology
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BLAST of mRNA_A-nodosum_M_contig88.63.1 vs. uniprot
Match: D7FY79_ECTSI (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FY79_ECTSI)

HSP 1 Score: 372 bits (955), Expect = 2.510e-116
Identity = 227/459 (49.46%), Postives = 287/459 (62.53%), Query Frame = 2 
Query:  158 HNGKGFLKDLILRRDPTVMEVFAGFGSNPDFLEQAHDLIDRESRRLFEELFADCSLSKGKNLSKAERKRRGLLGDKGLTYGEVDFSSFAAVLREVAVLMDSDPGEIFYDLGSGTGKAVYVARVTQDFAHCVGIELLEPLHSAAQRVTHLYNSTFRRRLDSTRPQNAAVYPGSFLDYDWSDGDVVFANSTCFPDQLMKRLANQAQELRPGAVVVTFTKGLESCCFDVLERRRFDMSWGPATVFIHRRRPRENKIPPPRWCG---------------------------NTLRVQESV---RGLSAGDNFVAGKSGGGGGCSQELTRRDDKEQQERAQGQGQDQGQVGKGSTRRAGRRAGVALLPRDGVGSERIEEG--DEXXXXXXXXXLYNKEGXXXXXXNDEDQQPVGGLASGAQRLQLQIQSGRGGEDANAAP--LHKSFKGFGDLLNQAEQAQVEV 1432
            ++GKGFLKDLILRRD  +++ FAGFGSNP+FLE  H LID ES+RL+E LF   SL++GK+LSKAER+R+GL+ D+ L YGEVDF+SFA +LRE+  L +S  GEIFYDLGSGTGKA+YVAR+TQDF HCVGIE+L+PLH+AAQ VT+ +N+  +R LD   PQNA+V+ GSFL+YDWSDGD VFANSTCFP+ LM  LA QA+EL+PG++VVTFTKGL+S  F+VL +RRF+MSWGPATVFIHRRR      P     G                           + L+   S    RG S GD   A  S      +       D+ + E  +  G  +G   +G T   GRR  +A       G E ++ G  D+ XXXXXXXX      XX    + ED     GL    +    Q+Q  +GGED   AP  + +   GFG+LL QAE AQ +V
Sbjct:    8 YSGKGFLKDLILRRDEGLLKTFAGFGSNPNFLEDLHGLIDHESKRLYESLFVGLSLAEGKSLSKAERRRKGLMDDRALIYGEVDFASFATILREIGALTESKTGEIFYDLGSGTGKALYVARLTQDFTHCVGIEILQPLHTAAQLVTNRFNAHVKRLLDRRCPQNASVFAGSFLEYDWSDGDCVFANSTCFPEDLMDALARQAEELKPGSIVVTFTKGLDSTAFEVLSKRRFEMSWGPATVFIHRRRLDGEPAPGSNRDGRNHLHRLIAAGEADTISTTSGSNGSNTSVLKSNNSGKFRRGTSIGDTMPASGSADRAESTLPAASGRDRYENEAVRSAGGTRGAAAEGHTE--GRRGTLA------EGLEEVDGGEDDDVXXXXXXXXXXXXXXXXGQRGDSEDSSEETGLLFDTE----QLQGSKGGEDGGVAPPPVPERLVGFGELLRQAEHAQAQV 454
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BLAST of mRNA_A-nodosum_M_contig88.63.1 vs. uniprot
Match: A0A6H5K9P8_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K9P8_9PHAE)

HSP 1 Score: 339 bits (869), Expect = 3.750e-99
Identity = 222/489 (45.40%), Postives = 278/489 (56.85%), Query Frame = 2 
Query:   92 DLSQPAKLLLLVSLLAKDRLISHNGKGFLKDLILRRDPTVMEVFAGFGSNPDFLEQAHDLIDRESRRLFEELFADCSLSKGKNLSKAERKRRGLLGDKGLTYGEVDFSSFAAVLREVAVLMDSDPGEIFYDLGSGTGKAVYVARVTQDFAHCVGIELLEPLHSAAQRVTHLYNSTFRRRLDSTRPQNAAVYPGSFLDYDWSDGDVVFANSTCFPDQLMKRLANQAQELRPGAVVVTFTKGLESCCFDVLERRRFDMSWGPATVFIHRRRPRENKIPPPRWCGN-------TLRVQESVRGLSA--GDNFVAGKSGGGG--------GCSQELTRRDDKEQQERAQGQGQDQGQVGKGSTRRAGRRAGVALLPRDGVGSERIEEGDEXXXXXXXXXLYNKEGXXXXXXNDEDQQPVGGLASGAQRLQL-----QIQSGRGGEDANAAP--LHKSFKGFGDLLNQAEQAQVEVLGQLEISREELMAMPDEL 1486
            +LS+PA+LLLL SLLAKD LISHNGKGFLKDLILRRD  ++  FAGFGSNP+FLE  H LIDRES+RL+E LF   SL++GK+LSKAER+R+GL+ ++ L YGEVDF+SFA +LRE+  L ++  GEIFYDLGSGTGKA+YV                                           QNA+V+ GSFL+YDWSDGD VFANSTCFP+ LM  LA QA+EL+PG++VVTFTKGL+S  F+VL +RRF+MSWGPATVFIHRRR      P     G        T    +++   S   G N    KS   G        G +   + R D+ +       G+D+ +    ++R AG   G A           + EG E        X      XXXXXX        G     +Q   L     Q+Q  +GGED   AP  + +   GFG+LL QAE AQ + L QL  SR+EL+ MPD L
Sbjct:    2 ELSEPARLLLLASLLAKDGLISHNGKGFLKDLILRRDEDLITTFAGFGSNPNFLEDLHSLIDRESKRLYESLFVGLSLAEGKSLSKAERRRKGLMDNRALIYGEVDFASFATILREIGALTETKIGEIFYDLGSGTGKALYVV------------------------------------------QNASVFAGSFLEYDWSDGDCVFANSTCFPEDLMDALARQAEELKPGSIVVTFTKGLDSTAFEVLSKRRFEMSWGPATVFIHRRRLDGEPAPGSSRDGRNHLHRLITAGEADTISTTSGPNGSNTSVLKSNNSGKFRRGTSIGDTILASGRADRAESTLPAASGRDRYE--NAASRSAGGTRGAAAEXXXXXXXXTLAEGLEEVDDGEEDXXXXXXXXXXXXXXXXXXXXXGDSKDSSQETGLLFDTEQLQGSKGGEDGGVAPPPVPERLVGFGELLRQAEHAQAQALEQLSFSRQELLMMPDGL 446
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BLAST of mRNA_A-nodosum_M_contig88.63.1 vs. uniprot
Match: A0A835Z0J1_9STRA (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z0J1_9STRA)

HSP 1 Score: 315 bits (806), Expect = 3.180e-97
Identity = 157/264 (59.47%), Postives = 195/264 (73.86%), Query Frame = 2 
Query:  110 KLLLLVSLLAKDRLISHNGKGFLKDLILRRDPTVMEVFAGF--GSNPDFLEQAHDLIDRESRRLFEELFADCSLSKGKNLSKAERKRRGLLGDKGLTYGEVDFSSFAAVLREVAVLMDSDPGEIFYDLGSGTGKAVYVARVTQDFAHCVGIELLEPLHSAAQRVTHLYNSTFRRRLDSTRPQNAAVYPGSFLDYDWSDGDVVFANSTCFPDQLMKRLANQAQELRPGAVVVTFTKGLESCCFDVLERRRFDMSWGPATVFIHRR 895
            KLLLL SLLA+DR+IS+NGK  LKDL LRRDP V+ +   F  G + DF+ Q H L+DRES R+F+ELF +C L +GK+LSK ERK  GL  DK   YGEVDF++FA VLR + +      G +FYDLGSGTGKAV VAR+TQDF  C G+E+LE LH AA  V   + +  RR L S++ Q   ++ GS +D+DWSDGDVVFANSTCF D LM  +A  AQ LRPGA+++TFTKGLES  F+VL+R+RF+MSWGPATVF+HRR
Sbjct:    6 KLLLLASLLARDRVISNNGKALLKDLTLRRDPRVLRLLNAFEEGGDQDFVRQVHKLLDRESHRVFKELFKECPLERGKDLSKEERKALGLADDKSYIYGEVDFTNFAKVLRRLQL----PAGGVFYDLGSGTGKAVMVARLTQDFERCEGVEILEGLHRAATEVAEAFEACVRRSLCSSQAQGLTMHLGSLIDFDWSDGDVVFANSTCFDDALMASIAAAAQRLRPGALLITFTKGLESAAFEVLDRKRFEMSWGPATVFVHRR 265
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BLAST of mRNA_A-nodosum_M_contig88.63.1 vs. uniprot
Match: A0A7S2XW22_9STRA (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2XW22_9STRA)

HSP 1 Score: 316 bits (809), Expect = 2.120e-95
Identity = 160/274 (58.39%), Postives = 206/274 (75.18%), Query Frame = 2 
Query:   89 DDLSQPAKLLLLVSLLAKDRLISHNGKGFLKDLILRRDPTVMEVFAGFGS----NPDFLEQAHDLIDRESRRLFEELFADCSLSKGKNLSKAERKRRGLLGDKGLTYGEVDFSSFAAVLREVAVLMDSDPGEIFYDLGSGTGKAVYVARVTQDFAHCVGIELLEPLHSAAQRVTHLYNSTFRRRLDSTRPQNAAVYPGSFL-DYDWSDGDVVFANSTCFPDQLMKRLANQAQELRPGAVVVTFTKGLESCCFDVLERRRFDMSWGPATVFIHRR 895
            D L++PAKLLLL SLLAKDR++S+NGK FLK+LILR+D  ++ +   F S    + +FLE  H LID ES +L+  LF DCSL  GK LSK+ER++R L   K L YGEVDF SFA +LR +    +  PG  FYDLGSGTGKAV+VAR+TQDF+ CVGIE+LE LH AA+ V   YN   R  L+ST+PQ+A V+ GSF+ D+DWSDGD+VFANSTC+ D LM+ L++ A+ LRPG+ +++FTKGL S  F+VL+++R+ MSWGPATVFIHRR
Sbjct:    7 DSLTEPAKLLLLASLLAKDRIVSNNGKAFLKELILRKDSRLVNLLENFESKESGDAEFLEGIHQLIDEESLKLYSHLFEDCSLEVGKTLSKSEREQRSLNDVKSLIYGEVDFHSFARILRRI----NPAPGTKFYDLGSGTGKAVFVARLTQDFSTCVGIEILEGLHKAAESVVERYNREIRHYLNSTKPQDAEVHHGSFIGDHDWSDGDIVFANSTCYDDDLMQSLSDAAEALRPGSFLISFTKGLSSPKFEVLDKKRYRMSWGPATVFIHRR 276
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BLAST of mRNA_A-nodosum_M_contig88.63.1 vs. uniprot
Match: A0A7S4DAD9_HETAK (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=2 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S4DAD9_HETAK)

HSP 1 Score: 309 bits (791), Expect = 9.430e-93
Identity = 159/273 (58.24%), Postives = 199/273 (72.89%), Query Frame = 2 
Query:   89 DDLSQPAKLLLLVSLLAKDRLISHNGKGFLKDLILRRDPTVMEVFAGFGS----NPDFLEQAHDLIDRESRRLFEELFADCSLSKGKNLSKAERKRRGLLGDKGLTYGEVDFSSFAAVLREVAVLMDSDPGEIFYDLGSGTGKAVYVARVTQDFAHCVGIELLEPLHSAAQRVTHLYNSTFRRRLDSTRPQNAAVYPGSFLDYDWSDGDVVFANSTCFPDQLMKRLANQAQELRPGAVVVTFTKGLESCCFDVLERRRFDMSWGPATVFIHRR 895
            + L++PAKLLLL SLLAKDR+IS+NGK FLK+L+LRRDP ++++   F S    + +FL+  H LID ES  L+  LF DCSL  GK LSK+ER+++ L  +K L YGEVDF SFA +LR+V        G  FYDLGSGT KAV+VAR TQDF  C GIE+L  LH AA+ V   YN+ FR  L+ST  Q AAV  GSFLDYDWSDGD+VFANSTCF D LM  ++  A+ ++PGAV ++FTKGL S  F+VL+++R+ MSWGPATVFIHRR
Sbjct:   18 ETLTEPAKLLLLASLLAKDRIISNNGKAFLKELVLRRDPRLVQLLRTFESKETGDAEFLDGIHQLIDEESYELYSRLFDDCSLEVGKTLSKSEREQKKLSDEKSLIYGEVDFHSFARILRKVGPFT----GGTFYDLGSGTSKAVFVARFTQDFDTCKGIEILSGLHKAAEGVVDKYNAGFRELLNSTASQEAAVQRGSFLDYDWSDGDLVFANSTCFDDDLMNAMSKAAEAMQPGAVFISFTKGLCSPKFEVLDKKRYKMSWGPATVFIHRR 286
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BLAST of mRNA_A-nodosum_M_contig88.63.1 vs. uniprot
Match: A0A7S1TW39_9STRA (Histone-lysine N-methyltransferase, H3 lysine-79 specific (Fragment) n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1TW39_9STRA)

HSP 1 Score: 302 bits (773), Expect = 1.020e-91
Identity = 155/274 (56.57%), Postives = 199/274 (72.63%), Query Frame = 2 
Query:   89 DDLSQPAKLLLLVSLLAKDRLISHNGKGFLKDLILRRDPTV---MEVFAGFGSNPD--FLEQAHDLIDRESRRLFEELFADCSLSKGKNLSKAERKRRGLLGDKGLTYGEVDFSSFAAVLREVAVLMDSDPGEIFYDLGSGTGKAVYVARVTQDFAHCVGIELLEPLHSAAQRVTHLYNSTFRRRLDSTRPQNAAVYPGSFLDYDWSDGDVVFANSTCFPDQLMKRLANQAQELRPGAVVVTFTKGLESCCFDVLERRRFDMSWGPATVFIHRR 895
            + L+  AK LL+ S+LAKDRLIS+NGKGFLK+LILRRD  +   ME+F    ++ +   +++   LID E+  L+ ELF DC+L  GK LSK ER+   L G K L YGEVDF SFA +LR++    + +PG +FYDLGSGTGKAV+VAR   DF  C G+E+LE L  AA  +T  YNST+R  L + +PQ   V+ GSFLDYDWSDGDV+FANSTCF D LM+++A +A  L+PGA V+TFTKGLES  F+VL ++R+DMSWGPATV+IHRR
Sbjct:    3 ESLTTSAKALLVASMLAKDRLISNNGKGFLKELILRRDARIDRAMEMFESSSNSEEGSVIDELTKLIDTEAHALYTELFQDCTLEDGKTLSKKEREVGELTG-KSLIYGEVDFFSFATILRKI----NPEPGTVFYDLGSGTGKAVFVARFACDFGRCTGVEILEGLSDAAHAITRKYNSTYREYLSAAQPQEVTVHQGSFLDYDWSDGDVIFANSTCFDDDLMRKIAVRAAALQPGAYVITFTKGLESEDFEVLFKKRYDMSWGPATVYIHRR 271
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BLAST of mRNA_A-nodosum_M_contig88.63.1 vs. uniprot
Match: A0A7S2HTB0_9STRA (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2HTB0_9STRA)

HSP 1 Score: 300 bits (769), Expect = 1.430e-90
Identity = 149/271 (54.98%), Postives = 200/271 (73.80%), Query Frame = 2 
Query:   95 LSQPAKLLLLVSLLAKDRLISHNGKGFLKDLILRRDPTVMEVFAGF----GSNPDFLEQAHDLIDRESRRLFEELFADCSLSKGKNLSKAERKRRGLLGDKGLTYGEVDFSSFAAVLREVAVLMDSDPGEIFYDLGSGTGKAVYVARVTQDFAHCVGIELLEPLHSAAQRVTHLYNSTFRRRLDSTRPQNAAVYPGSFLDYDWSDGDVVFANSTCFPDQLMKRLANQAQELRPGAVVVTFTKGLESCCFDVLERRRFDMSWGPATVFIHRR 895
            L++PAKLLLL +LLAKDR+I+HNGK F+K+LILRRDP +++V   F    G +  FL+  + +I+ ES++ F+ L+A+C+L +GK+LSK+ER+ + L   K L YGEV+F+SFA VLR+V    +  PG  FYDLGSGTG+AV+ AR+  DF  C+GIE+L  LH AA +V   YN  +R+ L + R Q+  VY GS L +DW+DGDVVFANSTCF D LM  L+ +A+ L+PGA V+TFTKGL S  F+ +ER+R+ MSWGPATVFIHRR
Sbjct:   30 LTEPAKLLLLATLLAKDRIITHNGKAFMKELILRRDPRLIDVLRDFDAQEGKDSTFLDSINSMIEEESKKYFDGLYAECTLERGKSLSKSEREAKNLNDQKSLIYGEVEFTSFARVLRKV----NPPPGTKFYDLGSGTGRAVFAARMLCDFDRCMGIEILSNLHDAAIKVVDRYNQYYRQYLSTKRSQHVTVYQGSVLTFDWADGDVVFANSTCFDDNLMDGLSAKAELLKPGAFVITFTKGLTSDKFETMERKRYKMSWGPATVFIHRR 296
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BLAST of mRNA_A-nodosum_M_contig88.63.1 vs. uniprot
Match: A0A7R9U3G4_9STRA (Histone-lysine N-methyltransferase, H3 lysine-79 specific (Fragment) n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A7R9U3G4_9STRA)

HSP 1 Score: 290 bits (741), Expect = 2.860e-81
Identity = 149/274 (54.38%), Postives = 197/274 (71.90%), Query Frame = 2 
Query:   89 DDLSQPAKLLLLVSLLAKDRLISHNGKGFLKDLILRRDPTVMEVFAGFGSNPD-----FLEQAHDLIDRESRRLFEELFADCSLSKGKNLSKAERKRRGLLGDKGLTYGEVDFSSFAAVLREVAVLMDSDPGEIFYDLGSGTGKAVYVARVTQDFAHCVGIELLEPLHSAAQRVTHLYNSTFRRRLDSTRPQNAAVYPGSFLDYDWSDGDVVFANSTCFPDQLMKRLANQAQELRPGAVVVTFTKGLESCCFDVLERRRFDMSWGPATVFIHRR 895
            + L+  AK LL+ S+LA DRLIS+NGKGFLK+LILRRD  +  V A F           +++   LID E+  L+ ELF +C+L  GK+LSK ER+   L  +K L YGEVDF SFAA+LR++    + +PG +FYDLGSGTGKA++VAR+T DF  C GIE+LE L +AA  +T  ++S++R  L +++PQ  AV+  SFLD+DWSDGDVVFANSTC+ + LM +L  QA  L+PGA V+TFTKGLES  F+VL ++R+DMSWG ATV+IHRR
Sbjct:   27 EQLTTSAKALLMASMLANDRLISNNGKGFLKELILRRDERIDAVMALFDQQSSEGEGSVIDELTKLIDTEAHVLYTELFKNCTLEDGKSLSKREREEGDLKEEKSLIYGEVDFFSFAAILRKI----NPEPGTVFYDLGSGTGKALFVARLTCDFGQCTGIEILEGLSNAAAEITKQFSSSYREYLCASQPQEVAVHQCSFLDFDWSDGDVVFANSTCYDEDLMLKLTAQASALKPGAYVITFTKGLESPDFEVLFKKRYDMSWGLATVYIHRR 296
[Close]
BLAST of mRNA_A-nodosum_M_contig88.63.1 vs. uniprot
Match: A0A7S4ED92_9STRA (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S4ED92_9STRA)

HSP 1 Score: 241 bits (615), Expect = 1.660e-68
Identity = 130/268 (48.51%), Postives = 173/268 (64.55%), Query Frame = 2 
Query:  104 PAKLLLLVSLLAKDRLISHNGKGFLKDLILRRDPTVMEVFAGF-GSNPD--FLEQAHDLIDRESRRLFEELFADCSLSKGKNLSKAERKRRGLLGDKGLTYGEVDFSSFAAVLREVAVLMDSDPGEIFYDLGSGTGKAVYVARVTQDFAHCVGIELLEPLHSAAQRVTHLYNSTFRRRLDSTRPQNAAVYPGSFLDYDWSDGDVVFANSTCFPDQLMKRLANQAQELRPGAVVVTFTKGLESCCFDVLERRRFDMSWGPATVFIHRRR 898
            PA+L LL +LL +D  I+ +G+  LK+ ILRRDP +  +  GF  S  D  F+E+ + L++ E+  L  ++F +C L   K LSK ER  + L G+K L YGEV+F  FA VLR++A       G +FYDLGSG+G+A+ +AR+  DF  C GIE+LE L+ AAQ +   +       LD+   +   V   S LD DWSDGDVVFANSTCF D LM  +A QA+ L+PG   +TFTKGL S  FDV+ER+R+ MSWGPATVFIH R+
Sbjct:   14 PAQLYLLAALLTRDGAITRHGRALLKECILRRDPRLTAIMKGFHDSEADEAFVERVNALVESEALALHADVFDECPLEVAKALSKRERSAKQLDGEKSLIYGEVEFGYFARVLRKIA----PRNGGVFYDLGSGSGRALVIARLLHDFDVCKGIEVLENLNGAAQIICKRFEVLASDVLDARTSKKIEVQCNSMLDVDWSDGDVVFANSTCFEDDLMGSMARQAERLKPGTYFITFTKGLGSDAFDVIERKRYKMSWGPATVFIHVRK 277
[Close]
BLAST of mRNA_A-nodosum_M_contig88.63.1 vs. uniprot
Match: A0A067BMX3_SAPPC (Histone-lysine N-methyltransferase, H3 lysine-79 specific n=2 Tax=Saprolegnia TaxID=4769 RepID=A0A067BMX3_SAPPC)

HSP 1 Score: 233 bits (595), Expect = 2.330e-66
Identity = 123/271 (45.39%), Postives = 175/271 (64.58%), Query Frame = 2 
Query:  107 AKLLLLVSLLAKDRLISHNGKGFLKDLILRRD-------PTVMEVFAGFGSNPDFLEQAHDLIDRESRRLFEELFADCSLSKGKNLSKAERKRRGLLGDKGLTYGEVDFSSFAAVLREVAVLMDSDPGEIFYDLGSGTGKAVYVARVTQDFAHCVGIELLEPLHSAAQRVTHLYNSTFRRRLDSTRPQNA-AVYPGSFLDYDWSDGDVVFANSTCFPDQLMKRLANQAQELRPGAVVVTFTKGLESCCFDVLERRRFDMSWGPATVFIHRR 895
            AKLLLL SLL +  L S  GK  LK+L+ ++D         ++   A   + P +  +   LID E+ +LF+ L+ DC L KGK++S+ +R+ + LL +K L YGEVD+ +F  +L  V     + PG+ FYDLGSGTG+AV++AR+  DFA CVGIELL+ LH AA  +   Y    +  + +T P+ A A +  SFLD DWS  DV FANSTCF   L+ +++ QA+ LRPGA  +TFTK L+S  FD++ ++R+ MSWGPATV++H+R
Sbjct:   29 AKLLLLASLLHRHGLTSSIGKSLLKELLFQQDVRGRQLIDAILAEEASDTAVPAWRTRTRKLIDIETFKLFDSLYLDCPLEKGKDISRKDREEQELLHEKSLVYGEVDYHAFLDILSRVP----TRPGDTFYDLGSGTGRAVFLARLNFDFAKCVGIELLQGLHEAAAEICRNYTEFVQPTISTTSPELAVAFFHSSFLDLDWSHADVCFANSTCFDASLLYKMSVQAERLRPGAYFITFTKPLDSTAFDIIFKQRYSMSWGPATVYLHQR 295
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig88.63.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FY79_ECTSI2.510e-11649.46Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A6H5K9P8_9PHAE3.750e-9945.40Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
A0A835Z0J1_9STRA3.180e-9759.47Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A7S2XW22_9STRA2.120e-9558.39Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A7S4DAD9_HETAK9.430e-9358.24Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A7S1TW39_9STRA1.020e-9156.57Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A7S2HTB0_9STRA1.430e-9054.98Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A7R9U3G4_9STRA2.860e-8154.38Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A7S4ED92_9STRA1.660e-6848.51Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]
A0A067BMX3_SAPPC2.330e-6645.39Histone-lysine N-methyltransferase, H3 lysine-79 s... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
A-nodosum_M_contig88contigA-nodosum_M_contig88:627008..658226 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Ascophyllum nodosum dioecious OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog2880.D7FY79
PFAMsDOT1
Model size2714
Max annot lvl2759|Eukaryota
Hectar predicted targeting categoryother localisation
Exons12
Evalue1.28e-117
EggNOG OGs2BR00@1|root,2S1KF@2759|Eukaryota
DescriptionHistone methylation protein DOT1
Cds size2565
COG categoryS
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1680870285.917449-UTR-A-nodosum_M_contig88:627007..6270831680870285.917449-UTR-A-nodosum_M_contig88:627007..627083Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig88 627008..627083 +
1680870286.0598216-UTR-A-nodosum_M_contig88:658153..6582261680870286.0598216-UTR-A-nodosum_M_contig88:658153..658226Ascophyllum nodosum dioeciousUTRA-nodosum_M_contig88 658154..658226 +


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

Feature NameUnique NameSpeciesTypePosition
1680870285.9338567-CDS-A-nodosum_M_contig88:627083..6271711680870285.9338567-CDS-A-nodosum_M_contig88:627083..627171Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 627084..627171 +
1680870285.9438086-CDS-A-nodosum_M_contig88:632529..6326401680870285.9438086-CDS-A-nodosum_M_contig88:632529..632640Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 632530..632640 +
1680870285.9571826-CDS-A-nodosum_M_contig88:633977..6341051680870285.9571826-CDS-A-nodosum_M_contig88:633977..634105Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 633978..634105 +
1680870285.968432-CDS-A-nodosum_M_contig88:634734..6348481680870285.968432-CDS-A-nodosum_M_contig88:634734..634848Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 634735..634848 +
1680870285.9775646-CDS-A-nodosum_M_contig88:635728..6358601680870285.9775646-CDS-A-nodosum_M_contig88:635728..635860Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 635729..635860 +
1680870285.9897587-CDS-A-nodosum_M_contig88:636459..6365731680870285.9897587-CDS-A-nodosum_M_contig88:636459..636573Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 636460..636573 +
1680870285.998847-CDS-A-nodosum_M_contig88:636734..6368371680870285.998847-CDS-A-nodosum_M_contig88:636734..636837Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 636735..636837 +
1680870286.0081017-CDS-A-nodosum_M_contig88:640567..6406821680870286.0081017-CDS-A-nodosum_M_contig88:640567..640682Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 640568..640682 +
1680870286.0189078-CDS-A-nodosum_M_contig88:641814..6421571680870286.0189078-CDS-A-nodosum_M_contig88:641814..642157Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 641815..642157 +
1680870286.0287838-CDS-A-nodosum_M_contig88:655505..6556101680870286.0287838-CDS-A-nodosum_M_contig88:655505..655610Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 655506..655610 +
1680870286.0386894-CDS-A-nodosum_M_contig88:656188..6562511680870286.0386894-CDS-A-nodosum_M_contig88:656188..656251Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 656189..656251 +
1680870286.049101-CDS-A-nodosum_M_contig88:657004..6581531680870286.049101-CDS-A-nodosum_M_contig88:657004..658153Ascophyllum nodosum dioeciousCDSA-nodosum_M_contig88 657005..658153 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_A-nodosum_M_contig88.63.1prot_A-nodosum_M_contig88.63.1Ascophyllum nodosum dioeciouspolypeptideA-nodosum_M_contig88 627084..658153 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_A-nodosum_M_contig88.63.1

>prot_A-nodosum_M_contig88.63.1 ID=prot_A-nodosum_M_contig88.63.1|Name=mRNA_A-nodosum_M_contig88.63.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=855bp
MVPGDDLSQPAKLLLLVSLLAKDRLISHNGKGFLKDLILRRDPTVMEVFA
GFGSNPDFLEQAHDLIDRESRRLFEELFADCSLSKGKNLSKAERKRRGLL
GDKGLTYGEVDFSSFAAVLREVAVLMDSDPGEIFYDLGSGTGKAVYVARV
TQDFAHCVGIELLEPLHSAAQRVTHLYNSTFRRRLDSTRPQNAAVYPGSF
LDYDWSDGDVVFANSTCFPDQLMKRLANQAQELRPGAVVVTFTKGLESCC
FDVLERRRFDMSWGPATVFIHRRRPRENKIPPPRWCGNTLRVQESVRGLS
AGDNFVAGKSGGGGGCSQELTRRDDKEQQERAQGQGQDQGQVGKGSTRRA
GRRAGVALLPRDGVGSERIEEGDEEEEEGEDEELYNKEGEGGGGENDEDQ
QPVGGLASGAQRLQLQIQSGRGGEDANAAPLHKSFKGFGDLLNQAEQAQV
EVLGQLEISREELMAMPDELVTRAPESERGIPRDRLGEEGDLVTTYGGGK
IGVGGTGGEEVLQDSDRAPTPAPGPPVEDVTLATVTVETAAMPAATAGAN
LADCSSSSIWIEETRGMLSAGGGDYDDVSGAEPDVTAAEEREAEKYRGRG
DDAAETTPEGRVSRPEGADLDAGTTVVLDTTATTTPTVRNDEEGALSGGR
DEGPSSAPPDDETKRLAEALATLLAGNGRNIFRIDTAVVPSGGRLDQPPP
PPPPQPPQLLQPSFPPLLGGASASPSPSLDEGYHHPPAPPLNEADSFLLH
VDCGLPGAAIAVNDDASGDVPSGAAAAAASPRPRLPSSLSSSPKSRNDGD
GAGLRAHAHAHGPLQLVPASGEGGAPEGGQVGTGRSLSPEGVEHLEPRDA
PALS*
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mRNA from alignment at A-nodosum_M_contig88:627008..658226+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig88.63.1 ID=mRNA_A-nodosum_M_contig88.63.1|Name=mRNA_A-nodosum_M_contig88.63.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=31219bp|location=Sequence derived from alignment at A-nodosum_M_contig88:627008..658226+ (Ascophyllum nodosum dioecious)
AGAGCAATCACCGTACGCCCGATGCGGTTAACGGGTATACCGGCCAGATC
AGTTCGACTCACCTTGGATCGGAGCGATGGTACCCGGCGATGATCTATCG
CAGCCAGCAAAGCTGCTTCTCCTCGTATCTCTTCTTGCCAAAGATCGTCT
AATATCGCACAATGGTGAGGGGATGTTGGCCAGCGGATCTGTTGTCGGAG
ACACACGAGCCTGATTTCACTCTCTATCCGAGATATTTGTTTAATGAAAG
CCACCTCTTGGTAAGACGGCACTTCAGACTGCGCCACAGCAGCAGAGCTA
GACGGGGAACCTGCAGAAGTCAAAACACTTTGGTGTCGTAGACTGTGCCA
ATGGCGTGTTTGCCGCACATCGCGCGAGAGGTGGACTTCCCGTGTGGCAT
CACCCCTAGCTCAGATACACTTCCGCTCTCGGTTATACAGACAGTTCATG
GGAAAGTTTGAGCGCATCCAAACCGTCCTAGCATCCTTCCGATGGAATTG
AATCGAAACGTTTGCGCGGGAACGTTGACTGTTAGGGCAAAATCTCACCA
TGGGATTCGACCGGGTTCCGCAATGGAATAGTGGCACAGGGGTAATGTCG
GGGATGGACCCACCGGTATAGAGCCTACGAAATACTACGAGCCTCCGACA
CAGTCTGTATCAAGTACCGTAGTGGATGTGGGAAAAGAGAGACGCACAGA
AATTGGCCCATGTTGATACCTAAAAAGTCAGAACCAGTTACTGGAACCAC
GATGAGAACTTCTGGCCCTGTGCCGGCAGACTCTCGGCAGTGAACGACAT
CAGTACGCAACTGCGTGACCTGAAAAATTCGGGCCTGACCCGATGGCGAT
TGATGGTATAAATAAATAGAAGCCGCCTCGAAAAGCGGGAGGAAACCCGT
GATTTAGCCTCCTGAGCGTGGGGAATGAGCAGGCTGACGCGGGACGGGAC
GGCCAAACCTATCTCGCGAGACCACATTCTCAGGCGCGAACGTGGACAGG
GAAAAAACATTTTCTCTGTTCAGCTGACCACGAGCAGGATTAGGAACCTT
ACCCGGTTGATCCATACCCTGCTACAAGTGATGACCATACATATATACGT
AGATCTTCACATACTGTGCACCAACATCACGCCTTCGATACTTTCAACAT
GCCCACTTCAAACCATAGTGGGAGTGGGCGTGGAAAAAGAGAGGCGCACA
TGAATTGACCCATGGTGATGGCTGAAAAGGCAGCAGCACCCGTTACTGGA
ACTACCTTGAGGACTACTTGCCCTGTGCCGGCGGACTCTCGGTAGTGAAC
GCCATCGGTACGCAATTGCGTGACCCGATAAGCTCGGGAATGACCCGATG
GCGTATGGCGGTTTTAATAAATAAATGAACGCCGCCGCGGAAATCGGGAG
TATTCCCGTGAGTAAGCACCATATTCAGCCTGAATATGGAGAATGAACAG
GCTGACGCGGGACGGGACGGCCGAACCCGTCTCGCGAGACCAAATTTTCA
GGCGCGAACGGGGACAGGGAAATATTAATTTTCCCTCTTCAGCTGACCAC
GAGCAGGATTGGCAACCTTACCCGGTTGATTCATACTCTGCTATATGTGA
TGACCATACATACATACATACATAGTCGCAACGTATAAATACGAACATGA
AAACGCAAAACACTCGGGACCCACCCTGATTGAAGGCGTTTACATCGAGA
CGTGTCCTCTTAATAGTATACATGCATGCATGTATGTATGTATGTATGTA
TGTATGTATGTATGTATGTATGGTCGTCACATATAGCAAAGTACTGGTAT
GGATCAACCGGGTAAGGTTACCAATCCTGCCCGTGGTCAGCTAAACAGGG
AGAATAAATATTCCCCTGTCCCCGTACGTGCCTGAGAGTTTGGTCTCGCG
AGACGGGTTCAGCCGTCCCGTCCCGCGTCAGCCTGCCCATCTCCATACTC
AGGCTGGATCTGGTGCTTACTCACGGGATTCATCCCGAGTTCCGCGGCGG
CGTCCATTTATGAAACCGCGATACGCCATCGGGTCAGTCCCGAGTTTATC
GGGTCACGCAATTGCGTACCGATGGCGTTCACTGCCGAGAGTCCGCCGGC
ACAGGGCCATTAAGCCTCAAAGTAGTTCCGAACGAGTGCTGCCTCGGCAG
GTCACCATGGACCAGTTAATATGCGCCCCTCTTTCCCACACCTGTAGATA
CATGGGCGACCCAGCATCCGAAGAAATGATGAACGATGGAGGAGGACTGT
AAAATTCTATTCTGACAGCAGTTTACCACATTTGAGAAATATCTTGAGAT
AAGAGTAAAGAAATTGTATGGCATCTTGATTTATGCCTTTCGTAGATTGC
TGAAACTTGTACCGCAAGAGATATATGTCAAAAGGTGCTTGCTCTATCAG
CACGGGACAAAGCCCACCAGGAAGAAAGAGAACTCTCCTCTCGCCTAGAG
CACGGCAGCTAGGAGTCGGCCGCATCATGGGGAGGCACATCTTCAGCGAG
ATTCATGCATTGCCTCTGAGCTACTCGGACACGCGCGTCCCCATCTGTGA
AATTTATTCGTGATCCATCGTTTTCTCATTCACGACTTTCATCTATGATT
ACTCCCGCAACACCCCACCGAAGACGGGATGATACGGAAGCGTCCCCGAA
ACGATTTGGCTTCTCTTGAGGGGGAGTCGTCGAGCTCCTCGGGGATCCTT
CAGGGGCACACTTTCTCAAGCTGACTAAAGAAAGGATTTCATGCGTGACG
ACTACACGCGCCGGACTGCTGCTATAATGCTACTGCTTTGCATACCTGAT
CTCGCATCGTCCTCCAGGGGTAAGAGGGAGGCCCACTCCGCTAGGGACTC
GGCGCGACGTCTTTTCCCTAAGCACTATACACTCGGGTCGACAGAAAATA
ATTAACCAGCGCACGCCCACTTTCGGCGCTATCGTCGTCTTATGCCTTTG
CTTGTGCTTTTCGCAGGTTCCCGCCAAAATACTCGTTGCCCTTAAAGTTA
CAAAAAAAAGCCTTCCTGCTTGAAATAACTCCAATTTCCTGTGGCCACGA
TCGGCCTGGAAATCGAGCCTCCATTTTCCCAAACTCCGCCCCTCTCGCCA
AAAATTGGAAAGTGAGCTGGTATCGGCCAATTTCCAGTCCCATAAAATGG
GTCCCCTGTCAGAAGTTGGAAATGAGCCCATTTCCGATTTCCCAAATCAG
CTATTTCCCGCTCCATAGAACATGGTCTAAGGGATCAAAATCGGCCCGAT
TTCAGGAATCGGGCGAGGGTGGTCTGGTTCCGGAAAATGGGCGCCCACTT
TCCAGAGAAATCAAGCTCTCTCGAAACTGGTTTTAGTGCGTTATGGTCTG
TCTTTTAGCCTTGGATCTGCAGAATGGGCACCCCAATTTCCTGAGAAGTC
AAACTCTCTCGCAATTGTTCTTTGTTTGACGTGGTCAGGCTTTTACCTAT
ACCTATTTTTTTTTGTGCTTACTTGTTGTGGTAATACTGCACGCTTTGTA
TAACTAGTGAAGCAAAACTCTGATCAGACCGCGCGCCGGCTCGTAGCACA
GCGTAGTGCTTGCAGGGCGAGGGAGTCTGAGAAATCAAGCTCAAGCTGTC
GGTGATGTACGGTGATGGAAAACGATGGTGCGCTGCTCACAGCCAGCGGT
CGTTGTCGCTGATGTCACGATGCTGGAAGAAAGATCGCGTCACGCCTTGG
TGCCCGTAGTATTATAGCATGCTCTCCTTGATAAGATACACACCTTAGGA
TATAACAAGGCGTGCCGGACAGGGGGAGGGAAGAGATTCAACCCCTGTAG
TGGTCGGCTTGACGTCTGGCCGCCCATAATAATTGCTGCTGCGATTCACG
GAGCAGCTAGCTGCTCGTACAGCAGATCGTTCCCGACCGTCGAGGCCACC
TTTTCACTGTAGTAATAGTTGTACAATACTAGTATATAGTGTATAGTTGA
AGAGCAGCCTATCATTTTTATCATTTTTTTTCCTGTGCTGCACGGAAGAC
AGCAGCGAGAGAAAGAGCAGCGCCAACCCGTCGCTGCCCCTGCCGAAAGC
GTGTTAGAGGCGCCACAGATCCGCCGTCGGTGGTGTGCGTGTGGATTCAA
ACATGTCTGAAGCACACGCCCCAGCATGCTGCACCTAAGTCGTGTCGCCC
TCCTCTCCCATTTCTTACAACCAATCATCGTGTCGAGTGCGCGGCGTCAC
CTGCCTCCGCAACTCTTGCGCACACCAATATCCCAATTTACAGACTCCCA
TGCAAGATACTGGTCAATAATATAGTATTTTGCTATTAATAAGAATGTCG
ACGCTCAGCCAAAATCTGAAAAACGACCCATTTTTCACAAATAATCGTGG
ATTTCGATTTTTTCCAGCCCCATAAGAGTTCGTCTATTATAAGTCGACTT
TGCTGAGAATCGAGGCGTCAAGTGTACTGTAGTCATCCATTTGAACCGTT
ACTTCAGTGTACTCGGCGGTCCGATTCGCCATACCGTGGTGTACCGTGGT
ATACCGTAGTAATCCAGATGCCGACGAAAGTAGCTGACACGGTATGTACT
TTGTACGGGACGGCAGCTTACGAGAACCACTATCAAATAGAACCATTTCT
TGTCTACTCTCAAGTTGCCTGGAGACTTTTTTTTTTATTCCTTCGGCCTC
GAGGGCGAAATCTTTCCAACATTTCTGTGTTTCATGTAAACCAATGGGAG
TACATTTCCCATCTCCATTTGCCTAGGAACGTTTTTTTTCTTTTTCTTCC
GACCTCGAGGGCGAAATATTTCCAAAATTTCTATGTTTCGTGTAAACTGT
ACCGTATAGTATACAAGCCAGCCTTAATACTATTGTAGGTATAACATAAC
GTAACGACCTATGATACGTGCACTGAGCATATTATCCATTACACAAAGCT
GTACGTACCGCAGTATGTATATATAGGTCTATACATACATGTAGTGTATT
GTAATTAGAGTTGTAGACAAGGCAGGTGACGGTGTTGGAGGTTTTCGTTC
CTTGGAAGGTGTCAATAATATACATTACACCAATACTCGTTTACTTCTAC
TGTACCTATAGGTCGAGGTACTTAGGATAAATGGATACCCCAGGCACTGC
AGCAGCTCTATTTTGTTTCTTATTTACTTTCCAAGCATCATATTCATGGT
CTATCAATAGGTCGCCGACCTACGTATACGCGAAAGCAGCCTGAAAAACA
GTAGACCTCGACTCTTTTGTTATGGCCATCTTTCATTTATTGAGAATCTG
TATGCGGTGTTGAAGCCGAAAATATATTCGAGCCTTCCAATAACGCCTCA
TTTTAAAGTGGACCCCCCCCCCCCCCACGCTTGCGTGTTTTAAAGTTAAT
TTTAGTGTAGGGGAGAAACCCCCAGATACGCGAAAACATGTGCTTTCGTA
TCGAGTCGCCATGGTAATTAGTCGTTGTATTATGTAAATAATGCAAATCG
TTTCTCTTGGATCTGCTTTTGTTATGTTACCGCATGTATTACTCACTATA
CTGTACGCCATATGTTTATCAGGCAAGGGTTTCCTGAAAGATCTGATCCT
GAGGCGGGACCCTACCGTGATGGAGGTGTTCGCCGGGTTCGGATCTAACC
CTGACTTCCTGGAGCAAGCACACGATCTTATCGGTGAGGAGGCGTGTTTT
GTCGGGAGAGCCTGAGGCGTAGTGTGATCGAAACCGGCGGGCAAGAGGTG
GAACTAGCTGTACGATGGATTCTCGCGTTCGCCATCGCTCGAAAAAGGCA
TGTTGTAGTTGCTCGGATATCAACATCAAGAAAAAGTATTATTTAATATC
AAAACCCAAGGTTTCCTCTCGACAAACAGCAAAACATTATCACCTTCTCA
TTTCCTTTCGCGATGAATGGCGCAATCAATTCCAAATCTCGGCGGAATCA
AATAAAAAGACTCAACTATTATTCGATACGTTTTTACGGGGTCCTTGGGG
AAAAAAAAAAAACTACCCTCCTTTTTCTGCAAAGCCCGCGCTCTCCTCCG
TTTTTTTTTTTTTCACCACCACGCACGAAAAGTAAATGAAAAATGTGATT
TCTCATACCCGAACTATTTATTAGCAGTCCTGTACAAGGCTTCAAGATTT
TGCTGGTTCTTACCACGAGCACAACAGTGGAAGGTGACGTGCATTTTTTA
CCCCTGGTCTTCTGGGGATAAAAACAAAAACAAAAACAAAAAAACAGTTA
CAATATCAGTAAGCAACATATGTGAAATGTGCTATTAGTACATACGACTA
GCTGAATGTAGTACGTGGTACAGAAAAGGGGATTTTTTTTGGTCCGTGCC
TTGACTCGACCGTTGGTTATTTTCAAGTTACCATTCAAGCAGGACAGGAT
CTCGGCGTGAAAACGGTCGGTACGCCACCACTATTGATAGGCCTAGAAGT
TACCCCTGCACAGGACGCCGCCCACAAGAAACGCTTTCGTCTTTTGTCGT
TATGTGTCGTGTCTTGGCTCTATATGTGGCCATAATGTCCCCCCACCCAT
CTATCTCATAGCTTTATGCGTTGGTCGCGCCTCGTTTATGACTTGAGTAG
GCATTTACCAACGACTGCTCGACGATGGACAGGACAATGCTAACGCTCTT
CGCGATGAGAGATCAGACAAACGAGCGAACAACCCGTGACCGAAACTTTT
ACGCCCACTATATATATAGCACGTAGTTACTCAGCCTTAGCCGACAAAGT
TTGGCAAGTCACGCCTCTGTGTTATGATGAACTCCGAACGGCATGCACCT
GCCCTGTAGATCAAACCTCTTCCGCACGTGCTGTTTTCTACACAGGGTGG
CGTTATGATGGCTACAAAATGTAACCGAATGCGGCCTTTTCTCATCATCA
TATCTATACACAAACGCACACACACACATATATATGTACAGTATATTTTG
ATGCATTGAAGTCTACGGTTGTCTACTTGTGCGATTGCTGCTGGTTGTTT
CCGCGGGCCGTTCGCGACAGACCGAGAAAGTCGCAGGCTGTTCGAAGAGC
TGTTCGCCGACTGTTCCCTGTCGAAGGGCAAGAACCTCTCCAAGGCCGAG
CGGAAGCGGAGAGGTCTGCTGGGTGACAAGGGGCTAACCTATGGAGAGGT
GGGGACGGGGAGGGGCGAACGCAAGCACCCCCGCCATCATGTACCATAGA
GCATTTGCATTGATCCAGTCCAATCACATCTCAGAGATAAAAGATTGAAA
CGCCCTTCACCATTTTGTCATGAGGACATACCGTCGCACCGGGCGACGCC
TTCTCGCCGAGTTTCTCATGATTCCAGTAGCATTTTATTGTTTAAGGAGT
CGCCGGAAGTTTTTTTGGGCGGGGACAACTATCACGCATCCCCGAGGGGG
AGGGAGAAGGGGGTGGTTTGTGCGAAAGGCGTCTTCCGGCGAAAAAGGAA
GAGAGACAAAAGGGGTTGTGCTCTGCGATCCCGGACAAACCTCGCGAGGC
TTACCAATGTACTTGCTATATATAGCCCGGTCGACTACAAGCGGCGACTC
CCACCCCTCCCACACTATATTCACGTTGAAAAAGCTGCACCCGTTATTGA
AATTGCTTCACAAGGAAAGAGCGCAACTCGGGCTACGCCCAGCAAACCAC
CCCAATAGTCTACTCCTTTATCGTTTTTTTTGGCGTGTTTCCCTCTGCTA
ACTATACAGAGCTATGTGCGTTTTGTGTTTCTCTACGACTCACCCTGTAT
CTTGACATCCAACCCGCCGCGCTATAGGTGGATTTTTCAAGCTTTGCCGC
CGTCCTGAGGGAGGTGGCCGTGCTGATGGACTCCGACCCCGGAGAAATTT
TCTACGACTTGGGTAGCGGCACGGGGAAGGCGGTCTACGTGGTGAGCATG
TTCACGATCCACTACGGTCGCAATCATCGTGTTCGTAGATCATACCACCT
GAGAGTTTTTGTTTGTTTGTAGTTTTTCACAGAGGGGAGATATGTGCTTT
TTATATACCAGGTACTGTGTTGGCACCGGGTGTTGTAATGTAATTTCCCG
TACAAAACCGACACAAAACTTGGACCTGAGTACGTGACTGGAAAGCGTCA
AAGCTCGCTCGCGCTCTTGGGGAGTTCCGGAGGTTTCGATGGTTTTTTTT
TGCGCATGTACGTGACCCGTCAGGCAGTATGAGGGGTAACCTGTACTGTC
TTGGCATATAGCTTTCGGTTGGGCCGCCAAACGAGAGAGGGGAGAGCGTG
TCCATATAGACTATACCAGTAATTAGTTGCTTTGCGCTACCCTGAAATCA
AGTGTTTTTGTGATGAAGGAGATGACATGCCCCCCCCCCCGACTCTGCGG
TTGTCAGCCTTTGGAATAAATTATGAATAGAGCTGTTGTCTGCACCCCAA
ACGCCGATCGCTTGAGGATATAACCCTCAGAGGATATAAccctcCCCCCC
CCTAAATTGTTGAGTTATTTTAGTCTTGCTTGCGCGCGCATTGCTTTGCG
TTGCTGTGTTGTATTCCACCATTCGGTTTGTATTCCACCATTCGGAATTC
GAAGATTAGTTCCGACACATCCGCAGCTGCCTACAAAGAGTACTCTGGTA
TTTGAGGATGAAACAGGAGGGATGGTTTGTGTATTATATACGGGTAATAA
AAGAATGCCTACCGCTACCCCCCCTCCCCCCCCCTCCCCCCCCCAAGAAA
AAATAAATTATACTTATATATATATATATACATACATAAATACTTCGTAT
ATGCAAACAAAAAAAATGCAGGCTCGCGTCACCCAGGACTTCGCTCATTG
CGTTGGCATCGAGCTGTTGGAACCGCTGCACTCTGCGGCGCAGCGCGTGA
CGCATCTTTACAACTCCACGTTCCGGCGGCGACTGGACAGTACGCGCCCC
CAAGTAAACTATATAAGTACCGTTTATATCGTATCGTAATGTACTTCTAT
GTTATATGCTAATACTGTTTTTTGGGGGTTTGGGCTGGTAGATCGCCCCA
ACAATAAAAATATCGTAGGGGTACAGGGCACGCAGGTGTGTTGAGTTTCA
AGCGGTCGGCGCTTTTTTGTTATTGTTTGTCGTTGGCGTTGGTGGATTGA
ATGTCCGCGGCTGATGATATAAATCTCAAGCCGAGCCCCTCTTGCTGATT
GATGCTGGTATTCATGTATTATTTTGTCTCAGTGCGACTCCTTCTGTTGC
CTTGCGTGCCGCATCTTTCCACCCCCTTTTCGAAGTACCTCTTGTTTTAA
AACCCTCTGTACCTTTCTCGTGTGAAGTGTACCTTTTTTTTGCTAAAAGC
ATTTTATCTCGGTTTTCCTCCTCCATTTTTCCCGACCCGCTTTTTTATAT
GTCTTACCTTTCGTATCCTTTTCATTTCCTCTTCCTACTTCATTCCCTCT
GTAAAGCTTTCACCCTTACTAAAAACAACTGTGCTGTACCTTTTTGGTGT
TTTGTACCTTATCGCGCATCTCATTTTGTACCTATTTTCCTCGGCGCGCA
AGAACGCCGCGGTGTATCCCGGTTCCTTCCTGGATTACGACTGGTCCGAC
GGAGATGTCGTATTCGCCAACAGCACGTGCTTCCCCGACCAGCTCATGAA
AAGATTGGCCAATCAGGTCAGAAATCACCTGCCCCTGGACGGGATGTTAC
CCCCTCACAGAGAGAGACTGGCCAATCGGATGTGAGTGACTCAATGCGGA
CCTAGCTTTTTGTTGTTGTGTGTTTTGCTTCAACTAAAGGCTTTCCTTTA
TTAAAAGCGTAAAAAATAATGAACCAGGCCCAAGAGCTCAGGCCCGGCGC
TGTGGTGGTAACCTTCACCAAGGGGCTAGAATCTTGCTGTTTCGATGTTC
TGGAGAGGAGGCGTTTCGACATGAGCTGGGGTGAGGAACGCATCCCCCCC
GTGATGTATATGTGTGTGTGCTATTAATGGCAGAAATGTGCAAGTAGAGA
AGGAGCCTACCATTTTTTATTTTTTATTTTTCTTCATTTTGTATCATAGC
TGCTGGTAGTTTTTCTAGTGCAGTACTCGCCCCGCGACTCGCGATCGATC
GATACGCTGATGTATGTTTTTGTCTCCATTGTCTTTGTAGCCTTTTTGGA
TGGAGTACTGGGGGGGGAGGGGGGGGGAGGAGGGGGGAATTCCCTCATTA
AGCAATACGTATTTCATTACAACTGTGCGTGGAGTAACCTGATGTGTTGA
AATAACGCAGAGTAGCTGTGGTTGATGTTTAAAGAAAAATCTGAAAATAA
TTCTTCTGAGCATCCCCACACACAGGGGAAGAATTGTCAAAACGTTTAGG
TGGGAACACACTGCCGGTACTTTCAACATGCCCACTTCATACCATTCGTG
GGTGTGGGAAAGAGAGGCGCACGTTAATTGGTCCATGATGACCTGCCAAG
GCAGCACCCGTTTGGAACTACCTTGAGGTTTACTGGCCCTGCGCCGGCGG
ACTCTCGGCAGTGAACGCCATCGGTACGCAATTGCGTGACCCGATGGAAC
TGACCCGATGGCGTATGGCGGTTTTAATAAATAAATGGACGCCGCCGTGG
AACTCGGAGGAATCCCGTAAGTAAGCACCAGATTCAGCATGTGTATGGAG
ATGGACAGGTTGACGCGGGAGGGGACGGCCGAATCCGTCTCGCGAGACCA
AACTCTCAGGCGCGAACGGGGACAGGGAAATATTCATTTTCCCTGTTCAG
CTGACCTCGAGCAGGATTGGCAACCTTACCCGGGTTGATCCATACTCTGC
TATATGTGATGACCATACATAGACTGCAAAAAACAAAACCTCTTCATGAC
ATTTAATAGGGTTCCTCGATGGTAGTAGCATAGGGTCAACAGTATAATGT
CGGGGACAAACCCACCGTTATACTGTACACTTACATTAATCGCCATGCCA
GGACACCAAGCAAAACAAAGACAAAGAATACGATGAACCTGGATATAGCT
AAATTTTGTTACGTTGGGTCTGGGATCGGATAGATGTCGACACTATTATA
TTACCATATTATTAGCCATCAAACAAATTACTATTAGATTGACAAGGCGG
AAGAAAAGGTTTTGCTTTCTGATAACTATCAGGTGTATCTAACTGTTAGA
GGCTAAAGAAGAGATGAAATATTATCTATGTACCCTCGTCGCCCGAGTGG
TCTAGTAGGTAACCTGCACACCTGCTATAGCGCGGAAGTCGCGAGTTCGA
TTCTTGTCCCCAGAGTTTGTGTTTTTCCTTTCGTAAGCGGACGTAAGTAA
AATTCAACCATTGGTTGACGAATTGTAAGAGTGCTGAACTTGCATCGCGA
CAAAAATTCGTAAGGCGTGGATCGGGGAGAGATGGCAAGATCCTTTGTGA
TAGTGATTGTGATAGTGATGGTGACCACAGGCAGGATGGAATGAGGCCCA
TCGGCTATACTATAAGTGAGATGAAAAAAAAAAAAAAAAAGTGCAATTTG
ATTTTGGTTCAAATAGTTGTTAAATAGTAATGTAATTCAGGTACAAATAC
ACGTCCACCACAAAACTCTCTCTTTGAAAGCGAAAAGAAGAAGGTACATG
ATGATGGGAGTAGCTAACTGTCAGTTGGAGGGGGGAAAATGAGTCTACAA
TGATGTTCATGGTATTTCCTTCACCAACTTCTGCGCTTCGTTTCATGAAT
GAAGCTTCACGCCGCATCCGTAACTCCGAAAAAGGATACAAAGGGAAAGC
AAAAAAGGGTACACAGAGCAAACACATGGAATATTCCTTCCAGACGCAAA
AACCCTCAGGATAGTCTGCTTCGTACGGAGATCCTCGTAGACTCGCCCCA
CCGATAGCGCTTCGAAACTGCAAACTTTGAAAACCTGGAAGAAGAAAAAA
CAAGAAGAAAAAAAATGCAAAATATTTTAGTTGGGGAATGCTTTGTTAAA
AAAAAAAGAGTCACTTTTCGACAAAGCATGAAGTAAAAGCTGCTCTAGTC
GGGTAGATATTCCTCCCGATAGACATGCGCGATATAAATATTTCGTGTTG
CCCTTCTCCCCCCTCATCTTCCTCTCCTCCAAACCGGTCTAGGAGTTACG
TTACTAAAAAAGCCTTTTTTCGTGTTGCAACTCCCTTAGATGGAGAGTTA
TAAGGGGGAGGGGGGTTCTCGCGTTTGTTTGTCGGTCTACTAGTCTGCCA
TAAATAATAACACCTCATCTAGTCTGCCATAAATAGAAAGACCTCTTCGA
GTCCATCGTACCGTATAGGTAAGCGGGCAGATACAGTTAGTGTGTTGACG
TATGTTATTATTATCATTATTATTATTATTATTGTATTATTATTATTATT
ATTATTATTATTATTATTATTATTATTATTGTTATTATTATTTTTTTTGT
TATTATTATTTTTATTATTATTATTATTATTATCATCATTATTATCATTA
TTATTATCATTATTATTATTATTGTTATTATTATTATTATTATTATTATT
ATTATTATCATTATCATTATTATTATTATTATTATTATTATTATTATTAT
TATTATTATTATCATTATTATTATTGTTATTATTGTTCTTATTGTTATTA
TTATTATTGCTATTATTATTGCTATTATTATTATTATCATTATTATTATC
ATTATTATTATTATTATTATTATTATTATTATCATTAATATTATTGTTCT
TATTGTTCTTATTGTTATTATTATTATTATTATTAATATTATTATTATTA
TCATTATTATTATTATTATTATTATTATTATTATTATTATTATCATTATT
ATTATTGTTATTATTATTATTATTATCATTATTATTATTATTATTATTAT
TATTATTTATTATTATTATTATTGTTATTAATTATCATAATTATTATTAT
TATTATTGTTTTAATAATAATAATTATTATTATTATTATTGTTATTATTA
TTATTATTATTATTATTATTGTTATTAATTATCATCATTATCATTATTAT
TATTATTATTATTATTATTATTATTATTATTGTTGTTATTATTATTATTA
TTATTATTATTATTATCATTATTATTATTATTATTATTATTATTATTGTT
ATTATTATTATTATTGTTATTATTGTTCTTATTGTTATTATTATTATTGC
TATTATTATTATTATTATTATTGGTTATTATTATTATTATTGTTATTAAT
TATCATTATTATTATTATTATTATTATTATTATTATTAGTATTGTTATTA
CTATTAGTATTATTATTATTATCATTATTATTATTGTTATTATTATTATT
ATTATTATTATTATTATTATTATTATTATTATAATTTATGATATTAATAT
TATTATTTTACCCGATAGGCAGGCACCAATGATCGTTTTGATGCAATGCT
GTTATTAGAAGAGGTGTGCACACGAGTGCCGTAGCCGGTTCATCTAAACA
TTTACGCACCCAAACCCAGCACATGGCGTGTGTCATTAAGTCTCTGTCGA
CGTTGCAGTCTATAGTCTTACTACACTCTGTATTAATAGTAGCAACGTTT
TAGTTGTGCGCCATTGGATCGTGGACGGCCGGGTTACGTCTCTGAAAAGG
CGACATCATGCACCGACAAACAATGGCGTGCGTCCGTCCGTCGTCCGTCG
ACGTTTGTAGGTCCTGCTACCGTCTTCATCCATCGGCGCCGCCCGCGTGA
GAATAAGATACCGCCTCCGAGATGGTGCGGGAACACCCTCCGCGTTCAAG
AGAGCGTGCGGGGGCTCTCCGCGGGGTGCGTATTTTGAGAAGTGCTGTAG
ACGGGGACGGTATTCAAACCTCCCCCCCCCCCTCCTTCTCCCGGCAGAGG
ATTGCCTCCCTTCGAGGGCAAAACGCTCCAGATTTCGATGAAAGGTTTTG
AAATTTCTTTGAGAAAACATTTTCAAGTACAAACATATATCAGCGGGTAC
GAATCCTGTCCCTCGAGACTTGGGTGTGTATTTTCCCGCTGGAATGTTGG
GGAAAAAAAAAATGCTGCGAAGGGGTTTCCAGGTATTAACACCACCATCG
TGTTACATCCACCACCGAAGATTTGGTACTATTATATAGTATATGTACGT
ATATCCAAACGTTTCCAACACCTTGTTTGTGTTATATCCACCACCGGGTT
ATCTTCCCCCTTACGGGTGCTTGTTTACCTGGGTACAGGTGTCCTCCACT
CGTAGCAATGATGAACCGATTTATTTCCCCTCTTTCGTGGTTTTCCTAAA
ACGTGAGCATTTTTGTATTTCTTCGTGGTCTAAGGGGAGAGAAGGGAACC
TCCCCCCCCCCCCAAACAATGTTATTTTGCTTCCATTTTTGATCTGCATC
GATCAATTGGGTCATGTCATTGTGTGTGTGTGTGAGAGAGAGTGTGTTAT
TTGTAAAATTGTACAAAACCGCGCAATCCGACCTTGTTTTGCTAATTAAT
CAGCCTACGAAGCAACACGTACTCGTGTTTTTGTGTGCGTGCCCAAAATG
TCTTGGTTTCTATATCGAAAAGAGCGCTTCACTTGATGTCCACAAATACA
ATAGAGCCAGCCTTACGCTTCCGAGAGAAGCATCCCTACCAACACAGAAA
CCCATCCGATACAGTACTTGGCACTCTATAGGTTCGAACCATGGTGATTA
TGTAGAGGTCGCGCAAAAATCTGGGTCAGGTTCATGATGGCCCACATGAG
ACTCTGCACGTGGTCTTAGATATGAAGTATTTGTCAAGCGAGCTCTCGCA
CGGGTCTTTGTTCTCGCTTTTCGTTTTTCTATTTTTGTTTTTTTAACAAA
TATTCCCCCTCTCCCGCCCCCTTCTCTCCTTGTCTTGTTTTCCATTTTTT
GTATTTCCATTATTCACTCTTGTTTTCATTATTTTCTTTTGTTTTCTTTT
GTTTTAGCGACAATTTTGTGGCAGGGAAAAGCGGCGGCGGCGGCGGCTGC
AGCCAAGAATTGACGAGACGTGATGACAAGGAACAGCAGGAACGAGCTCA
GGGTCAGGGTCAGGATCAGGGTCAGGTTGGGAAGGGTTCGACCAGAAGGG
CAGGAAGAAGGGCAGGGGTGGCATTGCTTCCGAGGGACGGAGTCGGGAGC
GAAAGAATTGAGGAGGGCGACGAGGAGGAAGAGGAGGGAGAAGATGAGGA
GTTGTATAACAAGGAGGGGGAAGGAGGCGGGGGCGAGAATGATGAAGACC
AGCAGCCGGTTGGCGGGTTGGCTTCTGGCGCTCAGCGGCTGCAGTTACAG
GTACAGGTTCGTGAATGTAGAGACGGGGTTCATGCCGCTCTTTTTTTGTT
CATTTTTTTTTCTCGCACTGTTTTGTAACAATATACTACCGATAAGGGGT
ACAGGAGGTTATAGGTTGTATTGGTGTACATGCTACCCAAATGTTTTTTT
TGTTTTTTTTGTTTTGTCTCTGACTTATGGTCGATAGGCCTCAACGCGCT
AGGTTACCAATCCCACCTATTGAATACTACAACGTTCCCATCCTGCCTGT
GGACACGAAGGTTCCCGTCTCTCCCCGGTCCTCGCCTTACGTATTTTTTT
TTCGCGGTGCATGTTCAGCACTCTTACAACTTGTCAACCAATGGTTGAAT
TTTCACTTACTCACATTCTCGCGCTTCCCGCTACGAAAAAAAAATACAAA
TTCTGGTTTCAACAAAAATCGAACTCACGACTTCCGCACTTTAAAATAGT
AAGTCTACGTGGTTGCCTACTAGACCACTCGGGCGACGATGTGTGTGTGT
GTATATGCCTATCTAATAAACGCATACTCGTATAACCGTGCAATCCGGCC
CTGCCATCCTATTAATAGTCATTCTATGCCGCTCGCATTGATCCTCCCGA
TGGGGGATCAATGATACTTATTACGAAAACCTCTGATAAGGCGCGACAGA
GGGAAGGAACACTCTCTCTCTTTATTAATAGTTGTTATCTAAGCCCTGAG
CGCTCGGCTTCCTTTCAAATACTATTCTCTAGATATCCTCGGTCGACAGC
TATTAATATTAATACATTAATACTGAACCAACACTTTCTTGTCTACGTTT
TTTTCTCCTCCCACCCAAGTCTCCCTCGTCTTCCGCATCGTGTCTATAAC
TCTTCTGCGGTGTCTTGCGCTTCTTCGCCTCTCCTCCGCCCTCCCCGGTC
CTGTCCCTCGCTTCCCGTCCCCGGGCTCTGATCCTCGGCATGATGCGACG
GTCTCGCTGGGGCGTCGGGTCTTGCGGCTGTGGTTACTCGTTGACGTCGG
CCCCCCCCCCTCGCGTCTTCCGACCCACCTCTATTACCACCTCGTAGGTC
CCCAGGCTCTTTATCCCCTCCATCCTCATATTTACTCTCGTCCCCGTTCC
TGCTCCTGTTCTCGCCCCCATCTCTCCGTCGTGCTATCTATCTATTCCCG
TACTCGTTGTCGTTCCCGTCCGTGGTGCCCTGTTCTCCCCTCGGTACTTC
ATCGTCGGGTACGCGCCGGATCTCGCGCCCGAAGCTGCTGGCTACCTGCA
GACGCTACCTCTTAGTCTACAGTGTATATAGTATATAGTATAGAGTATAT
AGTGTATAGTATAGAGTATAGATGATACTACCGCGTGCGGAATGGCAGTG
CCTGGTCTTGTACTCTACTTGTTTCCTGATGTGGCGGATACCAGAGATAT
AGATATGGATAGCTCTCCTCCTACCCCCTTCCCTCTCCATTCTCGTTCCC
TTTCCCGTCCCCGTTCCCGTCTCCGCTACTGTGCTCATTCACGTCCCCGT
TCCCGTCTTGCGTTCGTCCTCTCGTCTCCGCCTGTGTGTATTTTGTGTGC
GCGTGTGTGTGTGTATTTATGAAATTGCACATAACCGCGCAATCCGGCCC
TGTCACCCTTGTCATTATATATGCCACTCGCGTTGATCCTCCCAAGGGGG
GATCAATGAtgTGTGTGTGTGTGTGTGTGCGTGTGCGTGTGCTGTTTTTC
CTTTCCTTCTTTTTTGTTGCTTGATGATTTTCTTTCTCTTGACGCATGAT
TCAGCAGGCATTCTTTCAATCTCATGACGTTTGTTTGATTGATTGATTTG
AGTGAAAGCTCACACATTCAGCGTATGCATATTGTCCTTGCCACTGAAGA
AACTACGGTGACACAACGAGTCAGCCATAGACCTATCAAATGCCAATCTC
GCTTGTGGTCACGAAGAGATACCAAGGTCAACGGGTCCAATATTGAGATC
AACCTCGATCGACTCGGATTGTCGTCGGCCCACCCACGGCCAGCGTTCTC
AGCAACAAAGCGGACAAATTACGCTCCTATCAGTTTTGACCAACAAGCCC
AAGTTTCTCAAGGCCACAATCACGTCATGCAGAAATAAGGAAAATTGAAA
TACCGAGGTCCATGGTGGTGGAGGCCTTGGGCTTGTGTAGCCGGCGCGCG
AGCCAGTATCCAGCCGTCCAAAGCCCTGTGCATCCTTGAAAAACGCCTCA
CGAATATTACCCGTTCGCCGCTCCTTGTTGGCCCTCGTAGGAAGAAAACA
GACCGTGGTCAGAGATCAGCTTTTCCCTCAGAAACCTCCCGGTTCGCGCC
TTCAGTTCTCGCGCACAGGGGTTCAGCACTCCCCTGGCTCGTCGACGATC
GAGCTGCCCTTCGCCCTCGCCGAATCTGGTACGTACCCACCCGATAGAGC
GCTACCAGGCTCTCCGCGACAGTACTCCCTGCCTCTCGCGTGCCACCACC
TCCCGAAGGGCACTAAATTGGAGCTCGGAAGAGGCGCGCACCTAGGGAAT
ACCATCCTCAACCAACCATAACACCGCCGCCGCGTCCCAACCGACGGGCT
GAATCGCGAAGACAGCCAGTTGGCTGCATCTCTCGAGGGTGAGCCCGGCC
CTACACCCGCCGGAAGGACCCCCCCCACTCATACCCCAAAACAGGTTTCG
GAGGGAGAGGGCACGAGACGAAACAAAAATATGCATTACCGTGGAATATG
ACGCTGATGCAAAGATAATTACCGGGCAATTGTACTGGACAAAAGTAACG
TACAGTATCCGGTGCTTCTGTAGACTACTAAATTAATAGCTCTTTTTATC
ACACAATTTTCATATCATTTTGATGCCGGTTAGAGTTTGTCCCAGGGGCA
TCAAGCAATACTTGATTGTGTACGAAAAAACGCCCACCTTCAAAGGCGAT
ATATTAAAAATAACACGAAGTTGTGATGTATTAAAAATAATGCGAAGTTG
CGATATATTAAAAATAATGCGAAGTTGTGATATATTAAAAATAATGCGAA
GTTGTGACGTATTAAAAATTATATGAAGTTGTGATGTATTGAAAATTATA
CGAAGTTGTGATGTACTAAGAATAATGCGAAGATGTGATATATTAAAAAT
AATACGAAGTTGTGATGTACTAAAAATAATACGAAGTTGTGATGTACTAA
AAATAATGGGAAGTTGTGATATATTAAAAATAATACGACGTTATGATATA
TTAAAAATTATACGAAGTTGTGATGTTCTAAAAATAACACTAAGTCGTGA
TGTACTAAAAATAATGTGAAGGTGTGATGTACTAAAAATAATGGGAAGTT
GTGCTATATTAAGAATAATACGAAGTTGTGGTATATTGAAAATTATACCA
AGTTCTGAGGCCGACTCTTATGCATACGAAAAACTTATACGAAAATGGAC
CAAATCCGTTTTTTTCGGGTTTTTTCAATCTTATGGGTACGAGAATGGTC
CAGATTCGTATGGCCAAATCCGTTTGAGCTTTTCGTAACAGGACTACAAA
CGGATTTGGTGCCCAAATCCGTTTGCTCCAGTGATACGAATCTGCAAACG
GATTTCGCACGCGGTGCAACTATTACTACATTTGGCCAATGAAGCTGCTA
GAACTCAAATACATAATGACCTCTGCCAGGAATGTGGCGGCTATCGCCAA
GGGTATGGTCGAATTGAAGTCCGTAGTTATTTACTCAAGAGAAGAGAGAG
GACGCTGGCGGCAAGGTCCGCGGTGCTTGAGATGCTCGAAGTTAAGGAGG
ATAGGCGGTTTGGGAGGCTTGATGATGACTCCGCAAAGGTCAAGTCAAGT
GGATGGGGCGCGTGTATCCCCGAGTTGACTACACGTAGGCCCCGTGGGCG
GTCGCAGGCACCGTGGACGATTGTTATGCTTGTTAGGAAGCCGAGCCAAA
GCACCCACACTTCGAgGGAGACATATACGCTTCGCCGGCGGTCCCGCATG
CCGTGTGTCTTTTCGTGGCCTCCTCTCCTTGTTGGCAACACAGTAGAAGT
GGTATCATCATCTGCAACAAGTACCACAGAGTTTGCTTCGACATCACTGT
ACAACATATACGCTCGTTTCCCCAGCAAACTGTATGTAGCACACAAACAT
ACACCAGTACCAAACTGAACTGTTTACAGTACTCCTAGTTGTACAGCGGT
CTGTACTTGTTTGAATATGTTGTTCTTATCTAAATTCTGGGACAGTACAT
CACGCACCTTAACCCGAGCCTGCCCGTGGGTCGTGGGGCACAGGAGGTTT
TTGGAGGGTTATGACCGTGCGTCCAACCGGATGGTCTGTACAAGTATCTT
ATGTAGCCGCCTTCTGTCTTCGGATGATACTTACCGGAAGCAGATTTCCC
CTCATATGTGGCGCATAACGACGCGACCAGCTGTTCCAGACTACAAAAGC
TCTCACAGTTGCCGTTGAACTCCGCAAAGCGCTTGGTACAACATGACCCC
CGTGTAACGATACGACATGCTGCGTGCATTCGTTGTGGTGAAATTCTGTT
TCGATGCATCCGTTCGCCCGAGTTTGATAGAATTATCGCCAGGGCAACGT
ACTGTATCCGAGTACAGCAGTACATAAGTATGGGTACATAGACTGAATCG
AAGACGTTTTAGTGGAAACCGTACCAGCAGACGAACCTGCTGCAATTCCG
GGGAGCCCCGCCCGACGAGTATCGTAACATCACACATGAACAAAATTTAC
CTCGACCTTGATCTAATGGAATAGTGGAGCGAGTTTAGAGCCGTGGAATT
TTGGCAGCCAGCAAACAACAGCATCGGTGCGATATCTGTCTGTAGTTCTG
GACGTAGTGTACAAACTTAGTGTAGCGCATTCTTGCCGGGCTGTGCTCGT
GTTCATCCACCGCCAATGCGCTTTACTGGTAAATACAGTAGTACTACTAC
TGTAGAGGTCCAGCTCGTCTGCTCTTTCTAGCATATCTCACCCTCTTGTT
TTGAAAAATTGGTAGCCATTTCCATTCGGCAATTTCATTCGAAAACATAG
CAAACCAAAACCGTATGCATAAGATGGCCTTCGCTCATGTTTTTGGTCCC
GAAAAAAAAAAACGGATTTGGTCCATTTTCGTATAAGTTTTTCGTATGCA
TAAGAGTCGGCCTGAGGTACTAAAAATAACACAAGTCGTGATGTACTAAA
AATAATGCGAAGTTGTGATATATTAAATAATACGAAGTTGTGATATGTTA
AAAAATAATGCGAAGTTGTGATAGAATAAAAATAATGCGAAGTTGTGATA
TATTAAAAATAATGCGAAGTCGTGATGTATTAAAAATTATACGAAGTTGT
CATGTATTGAAAATTAAACGAAGTTATGATGTAGCGAAGATGTGATATAT
TAAAAACAAAACGAAGTTGTGATGTGCTAAAAATAATACGAAGTTGTGAT
GTACTACAAATAACTAGAAATTGTGACATATTAAAAATAGTACGAAGTTG
TGATATTCTAAAAATTATACGAAGTTGTTGTGTACTAAAAGTAACACGAA
GTCGTGGTATACTAAAAATAATGCGAAGTTGTGATATGTACTATTAATAA
AATAATGGGAAGTTGCGATATATTAAAAATAATACGAAGTTGTGATTATT
AAAAATTATACGAAATAGTGATGTACTAAAAATAACACGAAGTCGTGATG
TACTGAAAATAATACGAAGTTGTGATATACTCCGAATGTTAAATAATACG
AAATTGTGATATATTAAAAATAATACGAAGTTGTGATGTATCAAAAATAT
ACGAAGTTGTGATGTACTAAAAATAATGCGAAGTTGTGATATTCTAAAAA
TTATACGAAGTATGCGAAGTTGTGATATCTTAAAAATAATGCGAAGTTGT
AATGTATCACAATTATACGAAGTTATGATGTACTAAAAATAATGCGAAGT
TGTGATATTCTAAAAATTATACGAATTTGTGATATATTAAAAATAATACG
AAGTTGTGATATATTAAAAATAATACGCAGTTGTGGTATATTAAAAATAA
TGCGAAGTTGTGATGCATTAAAATTAGACGAAGTTGTGATGTTCTAAAAA
TAATGCGAGGTTGTGATGTATTAAAATCATACAAAGTTGTGATGCGCTAA
AAATAATACGAAGTTGTAATATATAAAAAATAATACAAAATTGTGGTATA
TTAAAAATAATGCGAACTTGTAATGTATTAAAATTATCACGAAGTTGTGA
TGTTTTAAAAATAATACGAAGTTGTGATATATTAAAAATTATACGAAGTT
GTGATATATTCAAAATTATACGAAGTTGTCATGTACTAAAAATAATGCGA
AGTTGTCATATACTAAAAATAATACGAAGTTGTCATGTACTAAAAATAAC
GGGAAGTTGTGATATATTAAAAATAATGCTAAGTTGTGATATACTAAAAT
AATACGAAGTTGTGATGTACTAAAAATAATGCGAAGTTGTGATCTACTAA
AAATAATGTGAAGTTGTGATATATTAAAAATAATGCCAAGTTGTGATACA
GTAAAAATTATACGAAGTAGTGATATATTGAAAATAATGCGAAATTGTCA
TGTATTGAAAATAATACGCAGTTGTGATGTACTAAAAATAATGTGAAGTT
GTGATATATCAAAAGTATAGTACGAAGTTGTGATATATTAAAAATAATAC
AAAGTTGTGATATATTAAAAATAATACGAAGTTGTGATATATTACAAATA
ATACGAAGTTGTGATATATTAAAAATAATGCGAAGTTTTGATGTATTAAA
AATTATACGAAGTTGTGATGCACTAAAAATAATACGAGGTTGTGAAATAT
TAAAAATCATACGAAGTTGTGATGTACTAAAAATAATACGAAGTTGTGAT
ATATTACAAATAATACGAAGTTGTGATATAGTAAAAATAGTACGAAGTTG
CGATATATTAAAAATAATGCGAAGTTGTGATGTTTTAAAAATAATGCGAA
GTTGTGATGTATAAAAAATAATACGAAGTTGTGATGTACTAAAAATAATG
CGTTGTGATATATTAAAAAATAATACGAAGTTGTGATTATATTAAAAATA
ATACAAAGTTGTGATATATTAAAAATAATACGAGGTTGTGATATATTTTA
AATAATACGAAATTGTTATATATTGAAAATAATACGAAGTTGTGAGCTAT
TAAAAATAATACGAAGTTGTGGTGTACTAAAAATAATGCAAAGTTGTGAT
ATACTAAAAATAATACGAAGTTGTGATTATATTAAAAATAATGCGAAGTT
GTGATATATTAAAAATAATGCGAAGTTGTGACACAATAAAAACTATACGA
AGTTGTGTTATATTAAAAAAATGCGAAAAGTTGTGATCTATTAAAAATAA
TACGAAGTTGTGATGAACTAAAACTTATACGAAGTTGTGATGTACTAAAA
ATAATGCGAAGTTGTGATGTACTAAAAATATTGCGAAGTTGTGATGTATT
AAAAATAATATAAAGTTGTGATGTATTAAAAATAAGATAAAGTTGTGATG
TATTAAAAATAATACGAAGTTGTGATATATTAAAAATAATACAAAGTTGT
GATACATTAAAAATAATATGTAGCTGTGATATGTTAAAAATAATGCGAAG
TTGTGATATATTAAAAATAATGCGAAGTTACTGTTGATACACCCTCGCCA
GAGGGAAGATCAAGAGTCTTGGAAAAATATGATGTATAGAGCGTTTTGTA
TTAACAGCGGAACATTGAAGGGGAAACACAGCGGACATCCATAGACGACC
AGATTGGACCTGAAAAGATCATAGAAGACTGACTACAGGAGGGTTCTACC
ACACGTGATGATATGACCCTACAGAACTGTATAAGCGGGGTAGCAAGCCT
CATCGAGAATCATAGTCCATGATTCTCCCTCTGCTCATCAGTGTGAGCTA
TATATCTTAATACCCTCCCATCGCTTTGACGCGGCAGTAAAAGAACTATC
ATGATCTGAACCAGAGAAAAGAAGGCAGTCAGGTTGCAGTCTAACTGTGC
CTACAAGATGGCGATAAACTTTCTTATGCTACCTACTTGGAATACCTTAT
AGATTAGGCTATTTCAAACACATCACAAGTGGTGCGTACCAGCAGTGCAT
GCTTAAATTTTAAAACTCATGGGACCCTGAATGCGTTTCAAAAGCGAAAT
TTCTAATTTCAAACTACGGGTGACCCTAGCGAATAATACGGAAGTGGGCA
AACGAGTCAGTGCTGCTGATCCATCCCATCTAATACGACCGGAGCGGACA
GAATACGTCGATGCGCGACGAAGAGCTTATTTCTAGAAAAGCGGAACACC
TCTCAACCACAAACGATGTCACGGTGCATTTTGGTCATTCAACCAAGAAT
GACTTCTTCGTTCGGAATACTCCACAAATGTGTGTTGGCAAGCAGCATAC
GTATATTCTGGGAGCATACGTTACGCGATCGATTAGCAGCGGTCGGAGAA
AGGGCCTCGCAAGCTCCTATCGAGCTACTCAAATTTTTCAAGCACAGGCC
ACCTACGGCTGCCTGCTTGATCGAGCGGGCTGCAGACAATCTTACCAATT
TTCAAACAGTTGTCAAGAAAAGGCTTGGTAAGTTCGAGCTACTCAAGTGC
TGTAGAATTTTTTAACAGCGATCACAGACAGACTTCGTAAGCAATCAGAG
AGCTCAAGTGCTGCAGTGAATTTACTTTTCAGTACAAAACGAACTACTGT
GCTCTAGAGCGTTGCCTTACAGTACTCTGTCTCGAGAAAAAGAATGTCAA
TTTTTCGTACGACACGTTTCAGACTTTGAGATATTCAAGCGAACGAGCGA
TCAGACACTCGCCGCGAACGGAGACCCTCCCCGAACAAATCTGCCACGAA
TGCACAAGTTCTCGGAAACAGCCCTCCCTGAGCAAACAACACCTGCTTCG
AGAGTAGGGAAGACTACGTGTGGGTTCCCAAATGGTTACAGGGTCATACG
AGGTACTACTGTAGTTACAGCAGTACAAGGGTACACTTGAAATCAGCATA
CCATATTCTAGTCGGTGAAGGGTAATTGGTAGACCATGTCCCGAAAACGG
GGATCCTCTCGGTTCCTCGCGCTCCCAAGCGCTCCGCGGAGTTCCTTGCC
GTCAGGCTACTTGCTCCATGACGCTCCCCGACAAGCGATCGCCCCTAACT
TCCGATCACCTCGAGCCGCCATCGACGGCATGACCTCCGTCCGTCCCTTC
AGCTCTTGTAGCCTCGAGCCGCTCTCGACGACAAGACTTTTTTTTTTAAA
CGAGCCGTACCAGAGAAAAACTACTGACCGCAATACGTATGGCGTAAACG
GTTCGTCTCCTTCTCCTGCAAGTTTTTGAACCTTGAGTCATCAATCCTCC
AAAAATGCTGCAGCCTTATCCAGCCCTAACATGAACCTCTACACAAAGCA
ACGCGCGCCACGATCCCAAAAACGGGCAGGCGCGGAGACGACCTTGAAAA
CCGCCTGGATCGAACGTCTTATTTTCTCCTGATTTTGTCTCGATGACCCT
CCGGCAGGAGGAGGCAGCAGGCAGGTTATTCTTTTGGAAGAAATTGTTGT
CGTACGAGACGTATGGAGTCGAAGTCTTGTTACAATTCGTCTCCTCGACC
GAGAGCCGAAGAGGTGACTGGTTAAAGGTGATCTTTGTTGCTGTAAAGAT
TTCGCCGGTGGGAAGTAAAGCCACCGGCGCCTGATGGTGAGCGCATATCC
AAGGATGGGAGACACGATTTGGGCGACGCATCGCCGTTCTCGACCAGAAC
GTCATCCCTACAAGGGAGAGCGGGAGGTTCGGCCTTCATGCCGAAAATGG
TCGAGGTGGTCTTCGTGCCGGGATCAACCCGGGTTACAGAGCAGCTATCC
CCATGCATCGCTTGAACGGTAGTAGCGGCGCCCTCCGTGCGCTCGTGAGT
CTTCGTGTTTGCGTGCGCGTCTGCCTCAAGGGCAACGTGGCTGCCGAGCG
TCATGCTCCAGGCGTGTTAAACGCTGATCCATACTTTTCCAATCTTCCAC
ATATTCTTGCATCTTATTAAATCTCCTGTTACAGACTTCGAGGGCTTCTT
GAATTATCCGACATACTTTCAGCGTGGGTTGGTCAGACCCGAATTCTTCT
TGCTGGGGGACGGAGCCATGAGCCTCGGGGACAGCCTCGCTCTCCTTCCG
TAGCGTGTTGGGGAAACCTCAGTACTAAGGACACTAGTGTGTTGATACAC
CCTCGCCAGAGGGAAGGTCAAGAGTCTTGGGAAAATATGATGTATAGAGC
GTATTGTATAAACAGCGTAACATTGAAGGGGAGACACAGCGGACGTGCAT
AGACGACCAGATTAGACCTGAAAAGATCATAGAAGACTGAGTACAGGAGG
GCTCTACCACACGTAATGATATGACCTTACAGAACTGTATAAGCGGAGTA
ACAAGCCCCATCGAGGATCATAGTTCCATGATTCTCCCTCTGCTCAGTGT
AAGCTATATATCTTGATAATTACGGGGTACAGCAATGGAATAATTCTGCA
GGCCCCTGTTTTATTTGTCAAACCGCAAGCAAATCAAAACACGGTTGGTT
CTCAAGGGTTCAAGGAGGCTCTCCACTAGTACAGACAGTTAGAAACATAG
TACTGTATAGTACAATTTCTGCTTGCGTGCGACGCCAGATTCGCCCGACA
CAGTGAAAATATGGTATATGATGCCAAAGGGTGTAACCGTTGGCAATCAT
TTGTCAAAATACTTTATTTTAACTACAGAAGGTCTGATTTGGGATGTATA
CAGTATTGGCCCAGCAGGTCAAAAATATTTCCCATTTATTTTTACGATCG
TGCAGTTTTATTTTGATTTCTAATGTTTCAGGTCTCGTAGTACCTTATTC
GTTTACTTTTTTAGGAACTTAAAAGTGCTTGCTTCTTCTATTATAAATAT
AACTTCAACGGGTTTACATTTAGAAGAATTCAATAAAGCTAAAACTATTG
CAAATAGTTCAGAATCAGAGTATATAGCTTTTGATCGTAACCGTGGCGTG
GGATGTTGGGGACTCAACCGCCCGAATCTTGATACTTCTTTTCTTTTTTG
GAGTCAAGAACAAGAGAAAACCAAGCACAGCTATTAATAGCTCCCGTGTT
TCTCCTTATCGACGTCACCAATAATATTAAAAGTAGAATTGTCTAGAGCC
TTGGCTATCTTATACTGGTACGCACATTTCAACTCCGGGCGTATCTTCCA
AGAAACCTCTTCGCGACTACATACGGGAACTCAAGTGGTTTGGCTGTGGT
TTGGATGTGGTTTCTACATTTTCACGGAAATTTACGGTGTGAGTACTTCC
TTAATATATACTTCGTATATATATATATATATTGATGATCGTATTTTCCA
ATAGCGCTATGGGTTCACACACAATTATTCAGTGTATATTCGGTAATTGA
ATGTTAGAGTAGAGCAAAGATGTCCGGGCGTGTCTCTCTGTCTGCGGCGA
AACGAGATGGCGCCTTTTTTTGAGAGGTGACTGTATATAAATAAATGGAC
GCGGCCGCGGGAATCGGGAGGAATCCCGTAACTAAGCACCAGATTCAGCC
TGAGTGTGGAGAATGAGAAGGCTGACACAAGACGGGACTGCCGAACCCGT
CTCGCGAGACCAAATTCTCAGGCGCGAACGGGGACAGGGAAATATTTATT
TTCCCTGTTCAGCTGACCACGAGCAGGATTGGCAACCTTACCCGGTTGAT
CCATACTCTTGCTGTATGTGATGACCATACATACATACATATATATATAC
AATAATACAGTATAAATTTTGCTCTTCGTACCCGGGGTTTTTAAGTCATC
TAGTTTGTTTTATATGAAAACCAGACCATAGACTGCTGTACAGTACTGTA
TAGTGTAAGAGGGTTATAACTCAACCGCGGCTGTGACTCAATGTCGAAGC
TGTGGTGTATGCTAGAGTTATGTATGCATGTATGTGTGTGTATGTAAGTA
TATACCTGGTATGTATTTATTGAATGGCACATAACCGCGCAATCCGGCCC
TGTCATCCTATTTAGTCATTCTATGCCACTCGCATTGGGAGGGTCAATGA
TACTACGGAAACCTCTGATCAGACGCGACAAAGGGGACACACTCTCTCTA
CTTTTACAGTTCTTACTTAGCCGGTCGCCCCGGTAGCTCAGAGGTACCTC
GTAACCCTCTGACACGTTGGGACGTGAGTTCGATCCCGGCAAGCGGGATT
TTTCTCACTAAGAACTAAAAAACAAAATAAAAATCCCCAACGGGTGGAGA
ACGATTAAATCGTTAGTACGCAAAATTCGACTTCACGGTCGACGAGGGAA
AGGAATGGCTGAATCCTTCTCGCGAGAAAAATTAAGGCACGCACCGCAGA
AAGAAGGTGGATGGGAAATCCTGTGTAACCTTCCTCCTGTGTGACCCCGG
CTGGTACGTCCAACGAACTTGATGTCCGGAATGAATGGGAAGAAAACACA
CTTAAGCCCTGAGTACCTTGAGCTTCCCCTCCTGCTCCCTTTCGGTTCTT
AGATTTTCTGGGTTGGCAGCTACCGAACCAACCCTTTCTTGTCTACGTTT
TTTTCCTCTTTCCACCCAAGTCTTCCCCGTTTTCCACATGGCATCTACAA
CTCCTGTGCGGTTTCTTGCGCTTCTTCGCCTCTCTTCCGCCCTCCCCGAT
CCCGTCCTCGTTTCCGTCCCCGTTCCCATCCTCGTCCCCGTTGCCATCTC
CACTACTGCTCTCGTTTCCGTCCCCGCTCCCGTCCCGGTTCTCACCCCGT
CCCCGCTCCCGTCCTCGTTCCCATCTCGCGCTCCTTCGTTCGCCTCCACC
CCCGTTCCCGTTCCCGCTCCGTCCCCGTCCCTGTACGTATGTGTATACTG
TCAGCACTTTTAGCAGAGTATGGATTAACCGGGTATATTTGCCCATCATG
CTCGTAGTCAGCTGAACAGGGAAAATGCCCTGTCCTCGTTCGCGCCTGAG
AATTTGGTCTCGCGAGACGGGTTCAGCCGTCCCGTCTAGTGTCAGCCTTC
TCATTCTCCACACTCAGGATGAATTTGGTGCCGACTCACGGGATTCCTCC
CGCTCTCTGCGACGGCGTCCACATATACCGTCAACCGCCATCGGATCGGT
CCCGAGTTTATCGGGTCACGCAATTGCGTAACCGATGGCGTCCATTGCCG
AAACTCTGCTGGCTCAGGGCCAGTAGTCAAGGTAGTTCCAGGAACAGGTG
CTGCCTTTTCAGGTATTGCCATGGACCAATTTTTGTGCGCCTGTCTTTTT
CTCACACCCACCATTAATAGTGGTACAGTATGTATGCATATTGAAGACTT
GGGGTTTACACGTTCGCTGGCTGGCTTTTTGCCCCCAAATCGATCCAGAT
TCAAAGTGGACGGGGAGGGGAAGATGCCAATGCAGCCCCGCTCCACAAAA
GCTTCAAGGGGTTCGGCGACCTCCTGAACCAAGCCGAGCAAGCCCAAGTA
GAGGTGAATGACGATGCGATCTTCCCCATATACTTTCTAAGTCTGTTACG
TTTGCTTTTGGGGGGGGGGAGGGTGGGGGGTAGGGCATTTTTTTTTTGAG
AATCATATATAAAACTTCCTGGAGCTATCTACTTTAACCACGTCCTTCGT
GCGTAGACATTAACCTATATTATTGAAGAGTTGGTAAATGTACCAATTAA
GGTACGGTTAAGGGTTCGCTATATGTATATATGATCTAACGTACACAGGC
CCGCACGCGACATTTTTCATACGCTATTTATAGTTTCGACCTTTAACCTG
GGAGTCTTATCGCCATAGCCCGTGTTTTGGGAAAGAAGGCACACGTGACC
GATTTGCAACGGAATGCATGTATCGCCGCCTGTTTAGTTCATGAAGCATT
TCAAGAGGCCGTGTCGCTCTTGCCATATTTTTAGTAGAAAAAAACAAACA
AACCACGTACGCACGGTACTCTACGTACGTAACGTACAGCCAGAACTAAA
TACGTGGGTCTAGATGCATTCGTATTTTTCTTTTAAACTAAATGTGTGCC
GTTGGTTCTTGTGGGTCTGTGCCCTACAAAGGTCCTCGGGCAATTGGAGA
TCTCTCGCGAGGAGTTGATGGCTATGCCGGACGAGCTCGTGACGGTAAGG
AAAAGCGCACTGGGAAAAAACCCCCAAGAAAAAACGGTGTTTTTTTGTTT
TGTTTTTCCCCAGCGCGGTCACGAGCTCGTCTGGCATAGCCATCAACTCT
TCGCGAGAGATCTCGAACAGCCCGAGAACCTTTGTAGGGCACAGACCCAT
AAGAACCAGCGGCACGCATTTTGTTTAAAATAAAAATATGAACGCATCTA
GACCTACGCATTTGGTTCTGGCTGAAAACTTTTTTTTTTCTTTTTTTTTT
CCTATTACTTTTAAACTCTTAACTCATTTTATTTTTATTTTATTTTTAAT
AAATAACATTTACGTAGAAAAATCTTTGTACTGAATGTATTTTGTAGATA
TATTTATATGCCTATTTAAAATGTACTTATATGCACTTATGGGGGTGGGG
AGGAAAGAAAAGAGGGACGGGAGGGTGATAATTTTATTTTGAGACAGGAG
GATGAGTTTTCTCCTGTTTTTTTTTTATTTTTATTTTTGGAGTGGGGAGG
GAGGCAGGGGAGACGCGGGGACCAGAAAAAAAATTGTACTAGTTTTATTC
CCATGATATATATTTTAGGATAAAAAAAAAACGCGTGTTCCCCTGACATT
TCATGGCGTACTCCGTATATACATTACTCTAGTATTTTTTATTTTTTTTG
GAGACAGGGAGCAAAACAAAATTATTTGTCGCTCTTTCTCCCTCCCTCTC
CCCCACTTTCTGCCGTCTGGCGTGCCGCGTTTCGCCATCTATCGCAGCGG
GCGCCCGAGAGCGAGCGGGGTATCCCGCGCGATCGTCTCGGCGAGGAGGG
CGACTTGGTGACAACCTATGGTGGCGGTAAGATCGGGGTCGGTGGCACAG
GCGGCGAAGAGGTTCTCCAAGACAGTGATCGCGCGCCCACGCCCGCCCCC
GGCCCCCCTGTGGAAGATGTAACCTTGGCGACGGTGACGGTCGAAACAGC
AGCAATGCCAGCAGCAACCGCTGGAGCAAACTTGGCCGACTGCAGCAGTA
GCAGCATCTGGATAGAGGAAACCAGGGGCATGCTTTCAGCTGGAGGCGGC
GACTATGACGACGTGTCGGGGGCTGAGCCTGATGTCACAGCTGCCGAGGA
GAGGGAAGCGGAAAAATATCGTGGACGGGGCGATGATGCTGCGGAAACGA
CACCCGAGGGACGGGTATCAAGGCCGGAGGGGGCGGATCTAGACGCCGGC
ACCACGGTCGTGCTGGACACGACGGCGACGACTACCCCCACTGTGAGGAA
TGACGAGGAGGGGGCGTTATCGGGAGGAAGGGACGAGGGACCCTCATCGG
CGCCGCCGGACGACGAGACCAAACGTCTCGCCGAGGCGCTGGCGACGCTG
CTGGCCGGCAACGGCAGGAATATATTCCGAATCGATACCGCGGTCGTACC
CTCGGGAGGCAGGCTCGACCAGCCGCCGCCGCCACCTCCGCCGCAGCCTC
CGCAGCTTCTGCAGCCATCCTTTCCGCCTTTACTCGGCGGCGCCTCCGCG
AGCCCGTCCCCTTCTTTAGACGAGGGCTATCACCATCCGCCCGCGCCCCC
CCTAAACGAAGCAGATTCGTTCCTTCTCCACGTCGACTGCGGCCTTCCTG
GCGCCGCCATCGCCGTGAACGATGATGCGTCGGGGGATGTTCCTTCTGGT
GCAGCAGCAGCAGCAGCATCTCCCCGGCCTCGGTTGCCGTCCAGCCTCTC
GAGCTCCCCGAAGAGCCGCAATGACGGAGACGGCGCCGGCCTGCGCGCGC
ACGCGCATGCCCACGGGCCGCTCCAGCTCGTCCCTGCCTCAGGCGAGGGA
GGCGCACCTGAGGGGGGGCAGGTGGGGACGGGAAGATCGCTGTCCCCGGA
AGGTGTAGAGCATCTAGAGCCTCGCGATGCTCCAGCGCTTTCCTAGAGCC
GGAAGCTTTGAGATCCGATTTTTCTGCGAAGCACGCTGGGCGGAGGATAA
TGTTTTCGGGGGAGGGAGG
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Coding sequence (CDS) from alignment at A-nodosum_M_contig88:627008..658226+

>mRNA_A-nodosum_M_contig88.63.1 ID=mRNA_A-nodosum_M_contig88.63.1|Name=mRNA_A-nodosum_M_contig88.63.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=2565bp|location=Sequence derived from alignment at A-nodosum_M_contig88:627008..658226+ (Ascophyllum nodosum dioecious)
ATGGTACCCGGCGATGATCTATCGCAGCCAGCAAAGCTGCTTCTCCTCGT
ATCTCTTCTTGCCAAAGATCGTCTAATATCGCACAATGGCAAGGGTTTCC
TGAAAGATCTGATCCTGAGGCGGGACCCTACCGTGATGGAGGTGTTCGCC
GGGTTCGGATCTAACCCTGACTTCCTGGAGCAAGCACACGATCTTATCGA
CCGAGAAAGTCGCAGGCTGTTCGAAGAGCTGTTCGCCGACTGTTCCCTGT
CGAAGGGCAAGAACCTCTCCAAGGCCGAGCGGAAGCGGAGAGGTCTGCTG
GGTGACAAGGGGCTAACCTATGGAGAGGTGGATTTTTCAAGCTTTGCCGC
CGTCCTGAGGGAGGTGGCCGTGCTGATGGACTCCGACCCCGGAGAAATTT
TCTACGACTTGGGTAGCGGCACGGGGAAGGCGGTCTACGTGGCTCGCGTC
ACCCAGGACTTCGCTCATTGCGTTGGCATCGAGCTGTTGGAACCGCTGCA
CTCTGCGGCGCAGCGCGTGACGCATCTTTACAACTCCACGTTCCGGCGGC
GACTGGACAGTACGCGCCCCCAAAACGCCGCGGTGTATCCCGGTTCCTTC
CTGGATTACGACTGGTCCGACGGAGATGTCGTATTCGCCAACAGCACGTG
CTTCCCCGACCAGCTCATGAAAAGATTGGCCAATCAGGCCCAAGAGCTCA
GGCCCGGCGCTGTGGTGGTAACCTTCACCAAGGGGCTAGAATCTTGCTGT
TTCGATGTTCTGGAGAGGAGGCGTTTCGACATGAGCTGGGGTCCTGCTAC
CGTCTTCATCCATCGGCGCCGCCCGCGTGAGAATAAGATACCGCCTCCGA
GATGGTGCGGGAACACCCTCCGCGTTCAAGAGAGCGTGCGGGGGCTCTCC
GCGGGCGACAATTTTGTGGCAGGGAAAAGCGGCGGCGGCGGCGGCTGCAG
CCAAGAATTGACGAGACGTGATGACAAGGAACAGCAGGAACGAGCTCAGG
GTCAGGGTCAGGATCAGGGTCAGGTTGGGAAGGGTTCGACCAGAAGGGCA
GGAAGAAGGGCAGGGGTGGCATTGCTTCCGAGGGACGGAGTCGGGAGCGA
AAGAATTGAGGAGGGCGACGAGGAGGAAGAGGAGGGAGAAGATGAGGAGT
TGTATAACAAGGAGGGGGAAGGAGGCGGGGGCGAGAATGATGAAGACCAG
CAGCCGGTTGGCGGGTTGGCTTCTGGCGCTCAGCGGCTGCAGTTACAGAT
TCAAAGTGGACGGGGAGGGGAAGATGCCAATGCAGCCCCGCTCCACAAAA
GCTTCAAGGGGTTCGGCGACCTCCTGAACCAAGCCGAGCAAGCCCAAGTA
GAGGTCCTCGGGCAATTGGAGATCTCTCGCGAGGAGTTGATGGCTATGCC
GGACGAGCTCGTGACGCGGGCGCCCGAGAGCGAGCGGGGTATCCCGCGCG
ATCGTCTCGGCGAGGAGGGCGACTTGGTGACAACCTATGGTGGCGGTAAG
ATCGGGGTCGGTGGCACAGGCGGCGAAGAGGTTCTCCAAGACAGTGATCG
CGCGCCCACGCCCGCCCCCGGCCCCCCTGTGGAAGATGTAACCTTGGCGA
CGGTGACGGTCGAAACAGCAGCAATGCCAGCAGCAACCGCTGGAGCAAAC
TTGGCCGACTGCAGCAGTAGCAGCATCTGGATAGAGGAAACCAGGGGCAT
GCTTTCAGCTGGAGGCGGCGACTATGACGACGTGTCGGGGGCTGAGCCTG
ATGTCACAGCTGCCGAGGAGAGGGAAGCGGAAAAATATCGTGGACGGGGC
GATGATGCTGCGGAAACGACACCCGAGGGACGGGTATCAAGGCCGGAGGG
GGCGGATCTAGACGCCGGCACCACGGTCGTGCTGGACACGACGGCGACGA
CTACCCCCACTGTGAGGAATGACGAGGAGGGGGCGTTATCGGGAGGAAGG
GACGAGGGACCCTCATCGGCGCCGCCGGACGACGAGACCAAACGTCTCGC
CGAGGCGCTGGCGACGCTGCTGGCCGGCAACGGCAGGAATATATTCCGAA
TCGATACCGCGGTCGTACCCTCGGGAGGCAGGCTCGACCAGCCGCCGCCG
CCACCTCCGCCGCAGCCTCCGCAGCTTCTGCAGCCATCCTTTCCGCCTTT
ACTCGGCGGCGCCTCCGCGAGCCCGTCCCCTTCTTTAGACGAGGGCTATC
ACCATCCGCCCGCGCCCCCCCTAAACGAAGCAGATTCGTTCCTTCTCCAC
GTCGACTGCGGCCTTCCTGGCGCCGCCATCGCCGTGAACGATGATGCGTC
GGGGGATGTTCCTTCTGGTGCAGCAGCAGCAGCAGCATCTCCCCGGCCTC
GGTTGCCGTCCAGCCTCTCGAGCTCCCCGAAGAGCCGCAATGACGGAGAC
GGCGCCGGCCTGCGCGCGCACGCGCATGCCCACGGGCCGCTCCAGCTCGT
CCCTGCCTCAGGCGAGGGAGGCGCACCTGAGGGGGGGCAGGTGGGGACGG
GAAGATCGCTGTCCCCGGAAGGTGTAGAGCATCTAGAGCCTCGCGATGCT
CCAGCGCTTTCCTAG
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