mRNA_P-littoralis_Contig663.36.1 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig663.36.1
Unique NamemRNA_P-littoralis_Contig663.36.1
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig663.36.1 vs. uniprot
Match: A0A6H5K0G0_9PHAE (Nucleotid_trans domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K0G0_9PHAE)

HSP 1 Score: 382 bits (982), Expect = 1.810e-119
Identity = 180/261 (68.97%), Postives = 214/261 (81.99%), Query Frame = 3 
Query:   24 KGYVIVTNVNCGYVDMAVNFLLWARRAARDVKVLVVAMDEVSFDFLDALTPGSIAMYPQKS-SERQHAVKAGQWGDDIFKHEALVRPDILLSILRQGYKLLWTDVDMVWLRNPLPLLPDTRANAIAA---EVMVQQDGKAKNKCTCFMFLDCTPLAINLIDLWKREIVETKVAQNQVAFSKPLVQMVDAGLRMEILPDEVMPPGSNIFDDGFMKANYDRYHNKLRVVHNNWIIGHDAKRDRFRQADLWRVDDWDLPTCERR 794
            +G V+VT+VNCGY+DMAVNFLL  RRA  DVKVL VAMDE SFDFLD L+PG + ++PQ+  SER  AVKAGQWGD+IFKHE +VRPDILLSI+ QGYK+LWTDVD+VWL NPLPLLPDT+ N+ AA   EVM+Q DGK  NKCTCFM+LDCTP A  L++LWKREIVET+V+QNQ+AF  PL QM  AGL +EILPDEVMPPG   FDD F++ NYDRY + L +VHNNWIIGHD KRDRFR++ LW V+ W+ P+C+RR
Sbjct: 1216 QGMVVVTSVNCGYLDMAVNFLLSVRRAGGDVKVLFVAMDEASFDFLDDLSPGCVVLFPQEDGSERHRAVKAGQWGDEIFKHETVVRPDILLSIMAQGYKVLWTDVDIVWLGNPLPLLPDTQKNSTAAKCAEVMLQIDGKPINKCTCFMYLDCTPNAATLLELWKREIVETEVSQNQMAFRAPLAQMEQAGLNLEILPDEVMPPGFKAFDDAFLEENYDRYRDNLLMVHNNWIIGHDPKRDRFRKSGLWDVEGWEFPSCQRR 1476
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BLAST of mRNA_P-littoralis_Contig663.36.1 vs. uniprot
Match: D8LU02_ECTSI (Xylosyltransferase, family GT77 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LU02_ECTSI)

HSP 1 Score: 320 bits (819), Expect = 3.650e-103
Identity = 154/261 (59.00%), Postives = 193/261 (73.95%), Query Frame = 3 
Query:   15 RKDKGYVIVTNVNCGYVDMAVNFLLWARRAARDVKVLVVAMDEVSFDFLDALTPGSIAMYPQKSSERQHAVKAGQWGDDIFKHEALVRPDILLSILRQGYKLLWTDVDMVWLRNPLPLLPDTRANAIA-AEVMVQQDGKAKNKCTCFMFLDCTPLAINLIDLWKREIVETKVAQNQVAFSKPLVQMVDAGLRMEILPDEVMPPGSNIFDDGFMKANYDRYHNKLRVVHNNWIIGHDAKRDRFRQADLWRVDDWDLPTCERR 794
            RK +G VIV++VNCGY+DMA NFL    +AA DVKVL VA DEV+FDFLDAL+PG    +P+  SER HA++AGQWGD+IFK + + RPDILL ILRQGYK L+TDVD+ WL N L LLP++R       EV++Q D  AK KCTCFM+LD TP AI L++LWK+EI E    Q+Q AF  PL QM +AGL +++LP E M PG+  FD+ ++K NY    +KL +VHNNWI+GHD KR+RFR A LW VDDW+ PTC+RR
Sbjct:  274 RKQQGVVIVSSVNCGYLDMASNFLQSVGQAAGDVKVLFVARDEVAFDFLDALSPGCTVFFPEVGSERAHAIQAGQWGDNIFKQQTVARPDILLPILRQGYKALYTDVDIFWLGNVLSLLPNSRVTQTPPVEVILQAD--AKQKCTCFMYLDSTPNAIRLLELWKQEIAEKSSFQDQRAFQSPLAQMQEAGLALQLLPKEAMLPGNRGFDETYVKNNYALLQDKLLIVHNNWIVGHDPKRERFRMAGLWEVDDWEFPTCQRR 532
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BLAST of mRNA_P-littoralis_Contig663.36.1 vs. uniprot
Match: A0A1Y1HWG2_KLENI (Nucleotid_trans domain-containing protein n=1 Tax=Klebsormidium nitens TaxID=105231 RepID=A0A1Y1HWG2_KLENI)

HSP 1 Score: 126 bits (316), Expect = 4.410e-31
Identity = 85/261 (32.57%), Postives = 130/261 (49.81%), Query Frame = 3 
Query:   33 VIVTNVNCGYVDMAVNFLLWARRAARDVKVLVVAMDEVSFDFLDALTPGSIAMYPQKSSERQHAVKAGQWGDDIFKHEALVRPDILLSILRQGYKLLWTDVDMVWLRNPLPLLPD----------TRANAIAAEVMVQQDGKAK-----NKCTCFMFLDCTPLAINLIDLWK--REIVETKVA-QNQVAFSKPLVQMVDAGLRMEILPDEVMPPGSNIFDDGFMKANYDRYHNKLRVVHNNWIIGHDAKRDRFRQADLWRV 761
            +IV+ VN GY+D A N+++   R     +VL+ A D+ +FD +DA  PG + MY   S  R     A  +G   F      RPD L ++LR G  +L+ D+DMVWL+NP                T    + A   +Q+D +       N C+C +++  T  +  L+D W     + + K   Q+Q  F+K L  + D  L++ ILP    P G   F D + +   D + ++  +VHNNWI+GHD KR RF+   +W V
Sbjct:   28 IIVSLVNSGYLDFAENWMISISRQGFGDRVLLFAEDQEAFDHIDARWPGHVIMYNYSSIPRA-GESAHDFGSLGFFLMTERRPDYLRAVLRLGVNVLYNDLDMVWLKNPFTAFTGDFDVWVNDDWTDDTGLEAVHPLQKDRRFPSHYHPNICSCLLYMRPTAQSYQLLDTWAGLMSLKDWKPPIQDQPFFNKALNMLKD--LKVGILPQRQFPAGCLYFADDYWR---DAFGDEAALVHNNWIVGHDVKRQRFQNLGIWFV 282
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BLAST of mRNA_P-littoralis_Contig663.36.1 vs. uniprot
Match: A0A1Y1HY29_KLENI (Nucleotid_trans domain-containing protein n=1 Tax=Klebsormidium nitens TaxID=105231 RepID=A0A1Y1HY29_KLENI)

HSP 1 Score: 116 bits (290), Expect = 2.250e-26
Identity = 83/270 (30.74%), Postives = 131/270 (48.52%), Query Frame = 3 
Query:   33 VIVTNVNCGYVDMAVNFLLWARRAARDVKVLVVAMDEVSFDFLDALTPGSIAMYPQKSSERQHAVKAGQWGDDIFKHEALVRPDILLSILRQGYKLLWTDVDMVWLRNPLPLLPDTRA----------NAIAAEVMVQQDGKA-------KNKCTCFMFLDCTPLAINLIDLWKREIVETK----VAQNQVAFSKPLVQMVDAGLRMEILPDEVMPPGSNIF-DDGFMKANYDRYHNKL-RVVHNNWIIGHDAKRDRFRQADLWRVDDWD 773
            VIV+ VN GY+D   N++    +     ++L+ A D+ +++ L++  PG +  Y      + +   A  +G   F      RPD L +IL+ G  + + D+DMVWL +P P +               N I   V  Q            +N C+C ++L  T  +INL+  W  +I+  K      Q+Q  F+K L  + D   R+ IL  E  PPG   F +D + +A     H +L ++VHNNW+IGHD K+ RF + +LW   D+D
Sbjct:  116 VIVSIVNSGYLDFCENWIRSIEKVGFADRILLFAEDDEAYNALNSKWPGHVVKYHSSYIPKANG-SAHDFGSLGFFLMTERRPDYLRAILQLGVNVFYNDLDMVWLADPFPSMSGDYDVWVQDDWEDWNGITGGVTTQMKRDTVFPSRYWRNICSCLIYLRATKASINLMQFWA-DIMSLKDWKPPIQDQPFFNKALNNLTDT--RVGILSQEEFPPGPLFFKNDTWREA-----HGQLSKLVHNNWVIGHDVKKQRFLERNLWFATDFD 376
[Close]
BLAST of mRNA_P-littoralis_Contig663.36.1 vs. uniprot
Match: UPI0014557604 (UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransferase 1-like n=1 Tax=Asterias rubens TaxID=7604 RepID=UPI0014557604)

HSP 1 Score: 108 bits (270), Expect = 2.250e-24
Identity = 69/251 (27.49%), Postives = 116/251 (46.22%), Query Frame = 3 
Query:   15 RKDKGYVIVTNVNCGYVDMAVNFLLWARRAARDVKVLVVAMDEVSFDFLDALTPGSIAMYPQKSSERQHAVKAGQWGDDIFKHEALVRPDILLSILRQGYKLLWTDVDMVWLRNPLPLLPDTRANAIAAEVMVQQDGKAKNKCTCFMFLDCTPLAINLIDLWKREIVETKVAQ-NQVAFSKPLVQMVDAGLRMEILPDEVMPPGSNIFDDGFMKANYDRYHNKLRVVHNNWIIGHDAKRDRFRQADLWRVD 764
            ++  G +++T  N  Y+D   N+L   RR      + VV  D+ +F++L   T   + +   K+   +       +    +K     R   +L +L QG+++L++DVD  WLR+P          A+      + + K  + C  F++   T   +  +  W R +   K  + +QV  +  + + V AGL++ +L     P G   FDD + K   D       VVHNNWI+GHD K +RFR   +W VD
Sbjct:   41 QRRSGTILLTTTNSAYLDFTENWLESIRRTRACPNISVVTEDDQAFNYLSNKTMAGLNVL--KTQTAKSTTGKLVFNTKEYKKFVNKRQGYILDLLEQGWEVLFSDVDTFWLRDPFLFFQGNFDMALE-----EDNHKPASYCAGFVYFRPTERTMQFVKEWIRFMANDKTMKPDQVVMNIMIRRKVIAGLKLRVLDSNKFPNGKLFFDDEWRKDKKD-----FVVVHNNWIVGHDPKVERFRNCSMWLVD 279
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BLAST of mRNA_P-littoralis_Contig663.36.1 vs. uniprot
Match: UPI00145504A4 (UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransferase 1-like n=1 Tax=Asterias rubens TaxID=7604 RepID=UPI00145504A4)

HSP 1 Score: 108 bits (271), Expect = 4.810e-24
Identity = 69/250 (27.60%), Postives = 122/250 (48.80%), Query Frame = 3 
Query:   15 RKDKGYVIVTNVNCGYVDMAVNFLLWARRAARDVKVLVVAMDEVSFDFLDALTPGSIAMYPQKSSERQHAVKAGQWGDDIFKHEALVRPDILLSILRQGYKLLWTDVDMVWLRNPLPLLPDTRANAIAAEVMVQQDGKAKNKCTCFMFLDCTPLAINLIDLWKREIV-ETKVAQNQVAFSKPLVQMVDAGLRMEILPDEVMPPGSNIFDDGFMKANYDRYHNKLRVVHNNWIIGHDAKRDRFRQADLWRV 761
            +K K  V++T  N  ++D A NFL   R       + ++A D+ +    +  T     +Y  K++  + +    Q+  + ++     RP  +LS L +GY +L+TDVDM WL++P P        A+A +        A+  C  F++   T   I  + +W   +  + K+  +Q   S+ L +    GL+++IL  +  P G+  FDD   +      +  + VVHNN+I GHD K +RF++ ++W V
Sbjct:  113 QKRKNTVVLTTTNAAFIDFADNFLESVRLTKTCPNITIIAEDDFTSQHYEKRT--GAGLYILKTNSGKTSSGRLQFDSEDYRKFVNKRPSYILSFLEKGYNVLFTDVDMFWLKDPFPFFDGDFDMALARD-------SARFFCAGFVYYKSTKTTIKFLKVWIDFMKSDPKLTPDQEVMSEFLTKKKVPGLKLKILSSDNFPNGALFFDDKKQQTK----NKDVVVVHNNFIKGHDVKIERFKRVNMWLV 349
[Close]
BLAST of mRNA_P-littoralis_Contig663.36.1 vs. uniprot
Match: A0A8B7XWT3_ACAPL (UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransferase 1-like n=1 Tax=Acanthaster planci TaxID=133434 RepID=A0A8B7XWT3_ACAPL)

HSP 1 Score: 108 bits (269), Expect = 1.180e-23
Identity = 68/245 (27.76%), Postives = 116/245 (47.35%), Query Frame = 3 
Query:   33 VIVTNVNCGYVDMAVNFLLWARRAARDVKVLVVAMDEVSFDFLDALTPGSIAMYPQKSSERQHAVKAGQWGDDIFKHEALVRPDILLSILRQGYKLLWTDVDMVWLRNPLPLLPDTRANAIAAEVMVQQDGKAKNKCTCFMFLDCTPLAINLIDLWKREI-VETKVAQNQVAFSKPLVQMVDAGLRMEILPDEVMPPGSNIFDDGFMKANYDRYHNKLRVVHNNWIIGHDAKRDRFRQADLWRVD 764
            V++T  N  ++DM  N+L   RR      + VVA D+ ++ FL       + ++ Q++       K   +    +K     R   +L  L QG+++L++DVD  WLR+P P L      A+  +   Q+  K    C  F++   T   +  +  W R +  + K+  +QV  +  + +     L++++L  +  P G   F++      + R    + VVHNNWIIGHD K +RFR   +W VD
Sbjct:  121 VVLTTTNNAFLDMTENWLASIRRTRACPNITVVAEDQQAYRFLSR--KAVVGLHIQQTGSGLSTAKKLVFNTKEYKKFVNKRQRYILRFLEQGWEVLFSDVDTFWLRDPFPFLQGNFDMALEVDEYRQKGKKGSFYCAGFVYFRPTERTLRFVREWIRFMEADEKLRPDQVVMNLLIAEKKVPRLKLQVLNSDRFPNGKLFFNE-----TWRRDKRGIVVVHNNWIIGHDPKVERFRNNSMWLVD 358
[Close]
BLAST of mRNA_P-littoralis_Contig663.36.1 vs. uniprot
Match: UPI001454F6E2 (UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransferase 1-like isoform X1 n=2 Tax=Asterias rubens TaxID=7604 RepID=UPI001454F6E2)

HSP 1 Score: 106 bits (264), Expect = 1.040e-22
Identity = 67/251 (26.69%), Postives = 117/251 (46.61%), Query Frame = 3 
Query:   15 RKDKGYVIVTNVNCGYVDMAVNFLLWARRAARDVKVLVVAMDEVSFDFLDALTPGSIAMYPQKSSERQHAVKAGQWGDDIFKHEALVRPDILLSILRQGYKLLWTDVDMVWLRNPLPLLPDTRANAIAAEVMVQQDGKAKNKCTCFMFLDCTPLAINLIDLWKREIVETKVAQ-NQVAFSKPLVQMVDAGLRMEILPDEVMPPGSNIFDDGFMKANYDRYHNKLRVVHNNWIIGHDAKRDRFRQADLWRVD 764
            ++  G +++T  N  Y+D   N+L   RR      + VV  D+ +F++L   T   + +   ++++         +    +K     R   +L +L QG+++L++DVD  WLR+P          A+      + + +  + C  F++   T   +  +  W R +   K  + +QV  +  + + V AGL++ +L     P G   FDD + K   D       VVHNNWI+GHD K +RFR   +W VD
Sbjct:  167 QRRSGTILLTTTNSAYLDFTENWLESIRRTRACPNISVVTEDDQAFNYLSNKTMAGLNVLMTQTAKSTTGKLV--FNTKEYKKFVNKRQGYILDLLEQGWEVLFSDVDTFWLRDPFLFFQGNFDMALE-----EDNHEPASYCAGFVYFRPTERTMQFVKEWIRFMANDKTMKPDQVVMNIMIRRKVIAGLKLRVLDSNKFPNGKLFFDDEWRKDKKD-----FVVVHNNWIVGHDPKVERFRNCSMWLVD 405
[Close]
BLAST of mRNA_P-littoralis_Contig663.36.1 vs. uniprot
Match: A0A0G4GFG5_VITBC (Nucleotid_trans domain-containing protein n=2 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A0G4GFG5_VITBC)

HSP 1 Score: 102 bits (253), Expect = 1.260e-21
Identity = 71/255 (27.84%), Postives = 119/255 (46.67%), Query Frame = 3 
Query:   24 KGYVIVTNVNCGYVDMAVNFLLWARRAARD--VKVLVVAMDEVSFDFLDALTPGSIAMYPQKSSERQHAVKAGQWGDDIFKHEALVRPDILLSILRQGYKLLWTDVDMVWLRNPLPLLPDTRANAIAAEVMVQQDGK-AKNKCTCFMFLDCTPLAINLIDLWKREIVETKVAQNQVAFSKPL---VQMVDAGLRMEILPDEVMPPGSNIFDDGFMKANYDRY-----HNKLRVVHNNWIIGHDAKRDRFRQADLW 755
            +G +I+T VNCG VD AVN   WAR   R      L++  D+   + L  + P ++A  P    E+Q +  A +W D  F      RP     IL +G+ +L+ DVDMVW +N +  L + +       +++Q D   A + C CF +    P +  LI  W+R++   ++ +      + L   V+ +     + +LP ++ P G   F  G  + +           ++  VH NWIIG + K+ +  +  LW
Sbjct:   72 RGLIILTTVNCGMVDFAVN---WARSIQRQGIKSFLIICYDDKCMEILTQVFPHNVARAPP---EKQISSAATKWLDKNFISLCKERPYFFREILLRGFSVLFNDVDMVWRKNVVNHLGNGK------RIVLQLDNPHAHHFCGCFQYFPVAPESFMLIQEWERQMQREEMQRKDYGDQEGLNRAVKEMQRNFTVHVLPQKLFPSGRGFF--GVARPHPSERLTPEERQQVVAVHANWIIGRERKKAQLEKYGLW 312
[Close]
BLAST of mRNA_P-littoralis_Contig663.36.1 vs. uniprot
Match: UPI0018D5CC83 (UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransferase 1-like n=1 Tax=Patiria miniata TaxID=46514 RepID=UPI0018D5CC83)

HSP 1 Score: 100 bits (250), Expect = 5.880e-21
Identity = 66/247 (26.72%), Postives = 114/247 (46.15%), Query Frame = 3 
Query:   27 GYVIVTNVNCGYVDMAVNFLLWARRAARDVKVLVVAMDEVSFDFLDALTPGSIAMYPQKSSERQHAVKAGQWGDDIFKHEALVRPDILLSILRQGYKLLWTDVDMVWLRNPLPLLPDTRANAIAAEVMVQQDGKAKNKCTCFMFLDCTPLAINLIDLWKREIVETK-VAQNQVAFSKPLVQMVDAGLRMEILPDEVMPPGSNIFDDGFMKANYDRYHNKLRVVHNNWIIGHDAKRDRFRQADLWRVD 764
            G V++T  N  ++DM  N+L   RR      + VVA D+ ++ +L       + +   +S     +     +  + +K     R   +L  L  G+++L+TDVD  WLR+P P L      A+  +   +     +N C  F++   T   +  +  W R + E K +  +QV  +  +       L++ +L  +  P G   F++ + +   D       VVHNNWI+GHD K +RFR  ++W VD
Sbjct:  123 GTVVLTTTNTAFLDMTENWLASIRRTKTCPNITVVAEDQKAYQYLSNRKLAGVHVLQTQSGLA--STNKLVFNTNEYKKFVNKRQRYILKFLEGGWEVLFTDVDTFWLRDPFPFLRGNFDLAMEQDNYRKVKPNDRNYCAGFVYFRPTERTLKFVREWIRYMAEDKKLKPDQVVMNHLIRTKKVPRLQVRVLNWDRFPNGKLFFNETWRRERSD-----FVVVHNNWIVGHDTKVERFRNLNMWLVD 362
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig663.36.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5K0G0_9PHAE1.810e-11968.97Nucleotid_trans domain-containing protein n=1 Tax=... [more]
D8LU02_ECTSI3.650e-10359.00Xylosyltransferase, family GT77 n=1 Tax=Ectocarpus... [more]
A0A1Y1HWG2_KLENI4.410e-3132.57Nucleotid_trans domain-containing protein n=1 Tax=... [more]
A0A1Y1HY29_KLENI2.250e-2630.74Nucleotid_trans domain-containing protein n=1 Tax=... [more]
UPI00145576042.250e-2427.49UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransfera... [more]
UPI00145504A44.810e-2427.60UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransfera... [more]
A0A8B7XWT3_ACAPL1.180e-2327.76UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransfera... [more]
UPI001454F6E21.040e-2226.69UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransfera... [more]
A0A0G4GFG5_VITBC1.260e-2127.84Nucleotid_trans domain-containing protein n=2 Tax=... [more]
UPI0018D5CC835.880e-2126.72UDP-D-xylose:L-fucose alpha-1,3-D-xylosyltransfera... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig663contigP-littoralis_Contig663:92352..120843 +
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.D8LU02
PFAMsNucleotid_trans
Model size826
Max annot lvl2759|Eukaryota
KEGG koko:K11714,ko:K20784
KEGG Pathwayko00514,map00514
Hectar predicted targeting categoryother localisation
GOsGO:0000003,GO:0000271,GO:0003006,GO:0003674,GO:0003824,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005794,GO:0005975,GO:0005976,GO:0006464,GO:0006486,GO:0006807,GO:0008150,GO:0008152,GO:0008194,GO:0008378,GO:0009058,GO:0009059,GO:0009100,GO:0009101,GO:0009664,GO:0009832,GO:0009856,GO:0009987,GO:0010306,GO:0010383,GO:0010393,GO:0010396,GO:0012505,GO:0016043,GO:0016051,GO:0016740,GO:0016757,GO:0016758,GO:0016763,GO:0017144,GO:0019538,GO:0022414,GO:0032501,GO:0032502,GO:0033692,GO:0034637,GO:0034645,GO:0035250,GO:0035252,GO:0036211,GO:0042285,GO:0042546,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043412,GO:0043413,GO:0044036,GO:0044038,GO:0044085,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044262,GO:0044264,GO:0044267,GO:0044424,GO:0044444,GO:0044464,GO:0044706,GO:0045229,GO:0045488,GO:0045489,GO:0048856,GO:0048868,GO:0051704,GO:0052325,GO:0052546,GO:0070085,GO:0070589,GO:0070592,GO:0071554,GO:0071555,GO:0071669,GO:0071704,GO:0071840,GO:1901135,GO:1901137,GO:1901564,GO:1901566,GO:1901576
Exons5
Evalue4.57e-94
EggNOG OGs28KPY@1|root,2QT5X@2759|Eukaryota
Descriptionrhamnogalacturonan II biosynthetic process
Cds size735
COG categoryM
CAZyGT77
BRITEko00000,ko00001,ko01000,ko01003
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig663.36.1prot_P-littoralis_Contig663.36.1Pylaiella littoralis U1_48polypeptideP-littoralis_Contig663 92420..120820 +


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

Feature NameUnique NameSpeciesTypePosition
1680791384.2419662-UTR-P-littoralis_Contig663:92351..924191680791384.2419662-UTR-P-littoralis_Contig663:92351..92419Pylaiella littoralis U1_48UTRP-littoralis_Contig663 92352..92419 +
1680791384.312026-UTR-P-littoralis_Contig663:120820..1208431680791384.312026-UTR-P-littoralis_Contig663:120820..120843Pylaiella littoralis U1_48UTRP-littoralis_Contig663 120821..120843 +


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

Feature NameUnique NameSpeciesTypePosition
1680791384.25747-CDS-P-littoralis_Contig663:92419..924701680791384.25747-CDS-P-littoralis_Contig663:92419..92470Pylaiella littoralis U1_48CDSP-littoralis_Contig663 92420..92470 +
1680791384.270327-CDS-P-littoralis_Contig663:93287..933771680791384.270327-CDS-P-littoralis_Contig663:93287..93377Pylaiella littoralis U1_48CDSP-littoralis_Contig663 93288..93377 +
1680791384.2804756-CDS-P-littoralis_Contig663:112476..1126651680791384.2804756-CDS-P-littoralis_Contig663:112476..112665Pylaiella littoralis U1_48CDSP-littoralis_Contig663 112477..112665 +
1680791384.289363-CDS-P-littoralis_Contig663:119776..1199861680791384.289363-CDS-P-littoralis_Contig663:119776..119986Pylaiella littoralis U1_48CDSP-littoralis_Contig663 119777..119986 +
1680791384.3027735-CDS-P-littoralis_Contig663:120625..1208201680791384.3027735-CDS-P-littoralis_Contig663:120625..120820Pylaiella littoralis U1_48CDSP-littoralis_Contig663 120626..120820 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig663.36.1

>prot_P-littoralis_Contig663.36.1 ID=prot_P-littoralis_Contig663.36.1|Name=mRNA_P-littoralis_Contig663.36.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=245bp
MAVNFLLWARRAARDVKVLVVAMDEVSFDFLDALTPGSIAMYPQKSSERQ
HAVKAGQWGDDIFKHEALVRPDILLSILRQGYKLLWTDVDMVWLRNPLPL
LPDTRANAIAAEVMVQQDGKAKNKCTCFMFLDCTPLAINLIDLWKREIVE
TKVAQNQVAFSKPLVQMVDAGLRMEILPDEVMPPGSNIFDDGFMKANYDR
YHNKLRVVHNNWIIGHDAKRDRFRQADLWRVDDWDLPTCERRTS*
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mRNA from alignment at P-littoralis_Contig663:92352..120843+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig663.36.1 ID=mRNA_P-littoralis_Contig663.36.1|Name=mRNA_P-littoralis_Contig663.36.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=28492bp|location=Sequence derived from alignment at P-littoralis_Contig663:92352..120843+ (Pylaiella littoralis U1_48)
GTGGAAGCAACAACCGGAAGGATAAGGGGTACGTCATCGTGACGAACGTA
AACTGCGGGTATGTGGACATGGCCGTAAACTTCCTGCTCTGGGCGAGGCG
GGCCGCGAGGGACGTGAAGGTGCGAGAAAAAATGGATCCCCACCCCACAT
CCATTTTGACAATGTGGAAACCCCAACAACAATGTTTAGTAGAGTTATTG
AGTGCGTCGGTGGGGCGGGCAGGAGGAAAGTTGTGAATGTAAACTTCGTG
ACGTACGGAAAATCTACGTTGTAAATGTATTCCTCATATCTGGTATTGTA
CCCCTGTGTTGTGAGCGCTACTTTTCGTCGCTCAGACCAAAAGATTGTTA
TTTCATACGAAGTACTAGTTATAAAGCTGATAACAAACCATACCCAAATA
ATCCCCCATCATCTAAACAATCTCGCACTATATTCCATCATTATACATGT
TGGGGCACATTGTAATTCATTTGTACCAGGTTCTGTATCACAATTTGAAT
CAATCATTGCTGTTTCAACTCATATCACGTACTTCGAAGAACAAGTTTTT
CTCATGTTTTGTTGTGTCGTTTTACATATGGAAATACACTTAAAAAATGA
TTATACAAAAAAAGTCTTTCTACGATAGCCCGGCGATATTCTTGAACGAA
CTTCTCATGGCTTTTTTTAGGTACGAGCAATTGGGCTATGAAAAACAAAA
AAACATCAAATACTTGTATGCCGAGGGCTATCAAAAAATGAAGTCGCCAT
CGTAAGCGACGCTGTACTTCAGGTTGTAGGGCCAGGAGCTGGTCTCAAAA
CCGGCGATTTTTGTCAAAGAAATTGTGGGGGGGCTGTCATCGTAGAAATA
CGATCCATAGTGATGACGATGCTGCTGCTGATAATTACGATGATAACGAT
GAGGTGATCACTCCATTTCACGACCGAAACGAATAGGTGCTGGTCGTCGC
AATGGACGAGGTGTCTTTTGACTTCCTAGACGCCTTGACTCCCGGATCCA
TCGCTATGTATCCTCAGAAATCCTCGGTGAGATTGAGCGCATAATACGTA
GTACGTGGTACGTATGATACGTGTACCTCTGTGTCTTGCGCCGTTGTTCC
ATTTTTGCTCAATGAAGCGATTGTCCGTGAGCGGCATATGATATGCAACA
CGCATGTTGTGGTGTTATTTACGTCGTGCGTGAATGTGTGAGGGTGTATA
TATTTATATTTGTGCACGCGACGTACATGTTCTCGTGTGCGTAGTGTGTG
TAAATATCTGCGTTTCTCTGCGTGTGTTTGACCCGTCCCACGATAGATAG
GGGGTCACGTTTCGGACCCTGGAATACATACAACCTGTTCGGCCGAGCGG
CTACCCAAACATTTTCATATAACTCTTTCGTTTTTCGGTCCACTCAACCT
TTGTTTTACACTACCAGACACACGTGCAGCCTATCGTAGACACGATCGTG
TTTAATTGTGGAGTCTCCATCTCCTCCATGGAGACTCCACGCACTACGTA
GTATCCATGGAGACTCCGCGGAGACTCCATGGAAACTCCACGGGGGCTCC
GAGGAATCTTCATGGAGTCCTTGGAGTCTCCATGGAGACTCCATGTTACC
TCCATAGATTTATATAGTACTCCGTACTTCGAGAATGTCTTCACTGCTGT
TGGTAGCTTCCTTGTAGCCTCGGTGCGGCCCCCACGGAGCCTTTGTGTAG
TGTTAGCGAAGCCCAGACCAAAACGAACTCCCATGGAGTTGCGGAGGATA
CTCTCCATCTATCATACGTGGTCGATCCTCCATCTATCTTCATATGGTCT
CACTGCTGTGGATGGAGTCAGTGCTGGAGGCCGGAGCTGGTTTGGAGGCT
CCACATGTAGCTGGGCATCGTGTTTGTGATTCTAAAGCGGTGTATGAAGG
TTCGTCGTTAACCTACACACCGTGATGTCCACCGAACCCCACACGTGAAG
AACCACTTAACCAGGCATAGAACCCCCGAGAGGCAAGAGGAACACTCGTA
CAGTGAGGAGGAAGATATCGGGACCAGATCACACGAACGAACTTGGTCCC
CTCCCCCCATCGTATACTATGAAACCACATTCCCCGTGAATCATTGTATA
CCGCCTAGTAGTGTGTAAACGAACCCCATGGGGTTCGTCAAAAATCGAAC
CTCACCCTGGGGCTATGAGTTTGTTGTTTTTCATGACGTGCACTCATGAC
TCATGACTTGCTCACAGAGTTCTCAGAGAGGGGTATGGTAGATGAAACAC
ACACACCCACACCTTTTGCTCTAACCCAAACCCTAACCCTAGCCCTAACC
CCAAAGCCCGTAGCTAGGATGCTGTACCGTTGGGGTGGATTGGCTAGGAT
GCTGTACCGAGGCGGATTGGCTAGGATGCTGTACCGTGGTGGTTTGGCTA
GGATGCTGTACCGTGGCGGATTTAGCTATGCTAGTCTATACCGTGGCGGA
CTGCTGCTTCGCTACCCATGACAACCATGGTAGAAGCTGTTATTCTTGCT
GCTTTTGAATAACGTTCGCACTTCATTAAAGTATACTGTCAACTTTCGAA
AACCTACTGCTTTCGTCTGCGCCAAATGAACAAAACTGGAACAAACTTCG
CACTCTGTGTCATTTATATATATTTCGAGAAGTATACTTCGAAGTATACG
ACTTCGTTTTCTAGACAAACCCCAGGGTGGGGTACGTTTTTTGACGAACC
CCATAGGGTTCGTTTACCGTCTCCCGCCACAAACAGCGCCCCTACGGTGC
TGCTGTATACAAATGATCACGGGCACTTGCCAGGAAAAACGGCAATAATT
GATACGTTAACCATCGCACACATTCTCACTCCTCCGAAACACCTCAAAAC
CCATCTGAAAATTGACCAAAAAAACACAAACAATAAGGCTCCAGTAGGCG
GGCTGAGACGTGTGTGTGTATTGAGCAGGAACATTTTTTAAGGCACCCTA
CTCGTATTCACCCGTTCATTTAACAGCATGAACGAACCGCAGCATTTTCA
ACCATTTTCTGACATTTTTTTCAATGGAACCGTCAAACCTCTGCGTTGTT
GAGGAGGGGATGGTAAGGGAGTAAATGTAGCACAGCAGAACACTGCGGTG
AAACAGCGCAACACCGCCCTTCGACCAGAGCACAGAGCACATGCTGCTGC
ACGAGCGCAGTGTAGGCGAACAAGACGTGAATCAAGGGGCGTGTTGCAGA
TGGATAGTACTACACTGCTGTCCCCAGCGAGCAGCCTGCCCGGAAGTCGT
CGATGGGCACGAAGAGGGGAAGACGGCTGAAGAGGGGGGCGGGGCAAGGG
TTGACCAGCACGAGCAGCACAGCAGCTGCAGCAGCAGCAGCAGCAGGAGA
AGCAGGAATGAGAGAGTATCATACATGTGTTTGAGTCCCGAAACCCGCTC
CAAAGTGAAGGATCTGATTGCGGAGTTAGCCGCGGCAGCAGGCTGCTCTC
ATGCGACGAACCTACAGCAGCAGTGCCTGCGGAAAACATTAGAGCGGCGC
GGACCTACGGGCAGCACCAAGCTCACGTGTGTTGGCAGCACTGAGCATGC
AGGCAAGTTTGTGATTCGTGTCGGCAGAACCACGCAGAGTAGGAGGCCCG
TACAGCAGCGTTGTCTCAGCTCAGTACTTCATTGTTGCCGACAAGCGGGC
AGAGCAACAAAAGTTTTGTAGTTGAACTCACTTACCGTATTCTACACAAG
ATACCACACCCCGTGTTAAGCTTTTTGCATTCCGTATAGCTCCACAACCA
GGAGGGTGCCACTGCCGAAAAGGGTGGTTTTGGAAAGATCTCGTCGAGAG
CTTTCGTATGACGGGCTGTTTGGTGTTCGCACCCTCCTGGTTGTGGAGCA
ATACGGAATGCAAAAAACCTAACACGGGGTGTGGTATCTTGTGTAGAATA
CGGTAGTACGAACAGACGTCCATTTCCACCAATTTCCACATGTATGTTTG
TCCCGCAAAACTCATTTGTGTGTGTCCCATCTTTCTTTTTGTTCAGTCAG
TAACTCAGTTTTCATGATCTGACGTACACGCCTGTGAAACAATCTTCGCG
GTATACTACTGTATTGAAGTATGGCGAAAAATTGCTGCCGTGTAAATAAA
GCAACAGCAGTCAGTAATAACTCAGTTTTCTTCATGTTCCACTGCACACG
CCTGTGAAACAACCCTCGCGGTATACTGCTGTATGAAGCCTGTATGAAGT
ACGGCGAAATATTGCTGCTGTGTGAATGTAATCGATAATGGGGCTAAGCT
CTAGCTTGGGGTTGTGTGGAGATGTGGGCATCTCGGCCACACGGACCGAG
GTAGGAAACATTCGTTGTATTACTGACCTCGAAGGAAACAAACACCAGAG
AAGGTGAAGAGTATCAAAGTAGAGACCAAAAGCAGAGTGACGTGGATGCG
GCACATCCATCACGGAATCACTCCGTCACCAAATCCAATGAACCGAATCT
CCTATCATGCCAAGATTCTCCGGGGAAAATGCCCAGAAACTTCCCCGAAT
GTCGCAAACTACCGACTGCAATCTACGTAGATAGATATCCAGTATCCATT
CATCATACTATGCTACGAGGACACTTAATCAATACCAGGTATAGCTTTCA
GAATGAAGCAACCTTAATTTTTGTCACATGAATACCTGTCAGATCGCTAC
CCTCGCGGTATGACATTCTGCTGTTTATTGGATACAAAGCAAAATTCATA
CTCGGAGTATATGTGATAACGATTCATGTATGTAACCATATGTACGAAGT
ACACACGAAAAACACGGCCCTCCGGCATAGATGCGGCCCTGCACAGCAGC
TTTACCCTCTCCACTCCCTACCGTCTCTCTTGCGTTTCCTGCCGGAGTTG
ATCGCTGCCTACCTACCTGATGTACAGGACTATGAAGCTTCTTTCACCAA
GAAACCGGTCCGCGCAGAGAGAACTGTACAACAGTCGAGAGGGTAATATC
TTTTTTGTACTTGAAGTCTATGAACAGGGAACGTCGCTGTGTCACGTCGA
TGGCATGACACTTCCGTAGCACGGTAGCAAAATGTACGAGATGCCACCCC
CCCCTCTGGACCGGTTTTCAATGCTTTGGCATCTCACTACTGTGTGAGTA
CGAGGCACCAGCATCAAAGGGTGTGTTTGATGAACACACCTAGTGACGCG
CCCTACCCACCGCTATTTCCGGTACCGAAAACTCTGCTGCTGTGGGTTCA
TCGACCTTTTATGTAGCACCATGTGAAATGGGTGTGGTATCTCATGCAAG
GTCTGCCGTGGAGAAACCTTCACGAAAAAAATAAGGTTTCCGCTTAGCAA
TGCTCTTCAAGTTACAATACATAGGCCATCAAGTATACATATAGATTACG
GAGTTTTCATGTGCCGTGAAGTAGCACAGTGTAGTAGCATCGTCACAACT
CGCAAATAAAAGTGCCGAAGAGTCCTCTTTTCTTTCGCAGGTTGCATCTG
ACGTGTTCAAAATCAACCTTTTGGGCATTTGTCCAAGATCGCGCACCTCT
TGTAACCACAAACAGTTTTTTTCTACGTGAGCTTTTTCGTTCACTTACAT
CGTTAGCCCCAAACGATCACAGGAACCCTTTTTTCGGATGGCCTGCCACT
AGTTTCTTCTCATTTATTTATTTTTACGACAGCAGTTTGGACCCCTCGAA
GCAGCCAGTCGGCCGTTCACGATGAGATGACCTGCAGTTCTTTCGTATCC
ACGCCAGTTCAATATTTTGTACGTCGCTCTCGAACAAAAACAGCCACAGA
GCTATGCCTTCGAACGTTTTTTGCTAGCCTTTCGATGCCTCGCGGCTACA
GATGATCTCGCGGGAGAAGGACCACATACACGGCTCGCGAGGCATGGCTT
TCGGCTTTGCTGTGGTCATGGCTTCAGCATTGGTGTGGCGTTTCGTTCGA
GAGTGATAAAAGAATAATGAGCAAACCAGTTACAGGGTAACATGAATGGC
AACCGAAACCGCCCCAGAACAGAAGAGATTTGTTCCGGAAGCTTTTTCTA
CCCGTCTGCTGTTCGGTTTGGTCATACATACATATGTACGATCGTGTTCG
AAGAACCCTGTGGAAAGTTGTCATCCGTCATCCTTGATTTTATATTTATG
TATGAATCCAACAAAACTTCAGTAGCCTCGTATTCTTCATGTGAAGACAG
CACGCACAGTTTTCCAAATTTTATTTACCCGCAGCCATGAATAGTAAAAT
AACGGCCATCGAACTGTTTGTTTTGAACCCGCAGGAATTTCTGGCCAGAC
AGAGCAAGGTTGACGGAAACATCGGGCATTGCAAGGCGAAGAGGGTTCCC
AAATCAGCTCTATGACGAGAGGCGAAATACCTCGGAGCGTGTGGGGCCGG
CCAGCGATGCCCCTTACATGACTGCATGCGGCTTTGAAGATGTTCACAGG
GGATGATGAGGGTGACACCCAGCCCGAAATCGTGCGAACTCTTTGCAAGT
TTTCATAGATGGGTGCGCTCGTTCGTGTTGTGTTGGCTTATATGATACGA
AGTATGTGTGCATGAACAATCTCCTTCTCTTGTTGTATTATTTTTTTGTC
TAGTTTCGTGGGGGGGGATGGGGGTAGACAGTGGTAGGAGAGAGCACAGG
TAGCTCGATACTGCAACATGTATGTATGTTTTCTTCAGCTATACAACACC
GCAGAAGACAATTGACCTGGTCGTTTTAGGGTTGTTGATACTTTCATGGC
GAAATGAGAAGTAATACGACGAATGCAAGTAGGCTCGGGCTCTTCGGCTT
GGATGGGAGGCGGGGTGCGTGTGTGCTGGGATTTGGGAGTGCCTGTGATG
GAGGAGGGACTTTGATATCGAAGAAAATATGGGTTCGGTGTGGTAGACAA
ATATGAAGGAGTGCACAATGCGTGCTGGCCTTGTGCATCATGTCGGTTGC
TTGAACTCCGTTGGTATGAGTGAGTTATCGGGCATCACGTTCAAGGCAAT
CTGCTTAAGCAGGTGCTCACTCGAGGGAAGCGTTGGTGTACTTGCGGGAA
GCATGTATTTTACGTACGTGCGACTCGAGTGTGCCTGTCGTGAAGACGCC
TATGCCTAGTTACCATTGTGCAGAAGAAACGCGGTAAATTTCGGTCGCTG
ATTTTTTTTTCAATGACGTCGTGGATGCCGTTGGCATGTTTGTTTTAGAG
TTAGTTTGTTTTAGGTAAGACAGCTCTTGGTTACATCCGGATTTCGGTGT
GACTGGTTCGGTGTGACTGGTCAACGCAGGCTTTCTTACTTGTAGCTGGC
GACACATCTCAGGGGTGTGGTTGCGGCTATCAACAATGAACTAAATGATT
GGCTTCGGCTGACTTATGAAGGAGGCACTTGAACAAAGTCGCAGAGTGGC
ACACCAACTCCCCCGGTCTGGCGTGAACTATGCGTCGCGCATAAAGTATA
ACGACCGGTTTAATATTTTATTTTTAAGTATATGTTACTTGTTCCGTCCC
CCCCTTGGTTCGAACTCCCTTCGTGAAGACGCCGGGGAACAGCTTCGACT
GATGACTACTGCTGTAGTGCAACTAAACAATGAGCGAAAACCATACAAAA
AAGCGTCGAGACAGCAGGGAGGGGTGTGGGTCGCTCAGACTTTATGCACC
AAGCGCATACGCATGGTTTTGGACTGTCGTTTTGTGGCACATGAACGAGG
TGATGAGTCCTTGTCCACGCTGTGTACTACAAAACGCAGAATGCGAACGA
GACGCTACATGACGCGAACGTAACCGGTACAGGGGTGGGTGCCTTCCTAC
CGCAGAAGAGCAATACAAAGGAGTCTTTCCGAAGCACCCAACGGGGAGAA
TTTCTGCTGTTGTACATCAGTGTTCACTACAGCAATACTTCAAAGCACGC
AATATACTATTAACACAACAGCAGCTTCGATGCGTAAGCCGATTTTCGCA
CTCTCAGGAAAGCTTCAGGCCAACACCCTATGATAAGTGACAAAAAACGT
AAAAAAAGACAAGCGTGATGTCGGCACACGCATGTAGATGGGGCGGAGGC
ACCCTTTCTCATGGTGGTGTTCCCCCAAAAAAATCCTATTCTAAACCCCC
ATTAATAAGGATTTTTTTGCTGTACGATAGCCTCCGCGGGACAAGCTCAA
ATAACGTGGGTTTTGCGAAACAAGCCGATGTTTCTATATCTGTGGAAAGC
TAGGACTCACGAGCATCTTTCTAGAAAAAAATAGAAGAAACATTTATAAC
GTATTCTTTCCAAAAACGCCTCCACATGCGTCCAAACCCGGGAGGCCGTC
AGCTTTTTGGGAACATTTCGGACACGGCTGAGAAATTCCTCGTTTCGTGT
TTTTTCTTCTCCAAACTTGGCAGGCGTAAAGACCAGAAGTAGTACTCTCA
TATGCCACTGCTTTACGCAAGTTGCCTGCAGTACTTCGTGTCCCCTACCT
GCTTTCGTCCTCCCACAGTCTTATTTTTGCGGCGGAAATAGCAGAATTAC
ATGCCTTTTTTCAGGCGCGACGAAAGCACTTTTGCGCCTGCGGAATAACC
TTTCTGCACGGGCAGCACTCACAAGGAGAAACATCAGCAGATTCTACATA
CACACTTTTCGCGGACCTGAAGAACGCTACTGCGCACTCAGTCATGGAAA
TCTGAGGCCTCAGCACCCTTCTAGGACACACACAGAGCTTAGTTGCACCC
TGAAACGTTGCAAGCAAATGCACAATTTCTTATTCCAAGCTGATGCCCTG
TCCTGGTAGGTGACTGCTGTCCTGCTGATAGCTGCAGTTGGACCGCTTTC
GGTGACACCACCATCAATAACTTTTGTTGTGAACCAAGCGGGGTGACGCG
CGCTCGTGGCACTGCCCTGAGCCTGTACAGCTACCACCGTGATTCACCTG
CTGTATCCTCAGCCACGGCTCCGTTGTCTCGAGGTGCTGCTGTAGGTGTG
TCGCGTTGGATGCCGACGTTTGGTTCAGAACCAAATTTGGAGGGTTTCCA
GTGCATAATAATCCCGATGCATTTCAGGTTCCGCCGCGTGTTCCGAACCG
ACACACGGTTCTGGCAAACCCTTAATCAGAGGACACCTGGTTTCAGGTAG
TAAGACCACTTATTATAGCTGCAAAAACCCTCCTTAGAAAAGGCCTTTTT
TGATCTTGGGCGGTTTGACCACTTGTTATAGATGGAAAAACCCCCTTTTT
TGATCTCAACTTTTCTAATAACTTTTTCCGATCGACCCAATCGCTCAGAA
AAATCACTTTTTCTAAGCGATTCGATCGATCAGAAAACGCTTATTGAAAA
AGTTTGGGCCCTCCTCACACAGCCTCTCTCTAACGGTGGGTCGGGTGACT
TGAACAACTACATACAGCGGTATTATTTTTGCAAGCCTATCGATACCTCG
CGGCCCCAGATGACCTACAGAGGAGAGGGACCAGACACACAACTCAAGGG
CGATTGCTTTGTTGTTGCCGTGGGTTCAATCGTCCGAGAGCAATGGACGG
AACTCAAAAGTAGTGTGGGGTGAGGGAGTAGGGCGGGCAGGAGGAGGGAG
CCGCAGCAAGCAGCAGCAGAAGGTATTTTGTATTTTGGGCCGCTACATGA
GTTTGGTTTTTCATCCATCACTCTCGAACCAATTGAGCCACAGTAATGCC
AAAGCCATCGCCCGTGAGCTATGCCTCTGGTCCTTGTCCTCCGGTTGTCA
TCTAAGGCCGCAAGGTATAAACTGGCTAGCAATAGAAGCGTTGCAGAAAC
CGACGAGTTGTGAAAAAATTGAGAAGAAGGGCTGTTGAAAGAAGTCCAGC
AAGTACATACTGCTGTATGTATACTTTCTGTACAGCAGTACAGACAGACA
GACGGCGGAGATTTCTTTTCTTTTTTCACGAGTGATCGGTTTCTGCAAGA
GCTAGATTGCTAGCCTGTTGATGCTTTGCGGCCCAAGATTACCTATTGAG
GAGAGGGACAAGACACACAGCTCACGGTCGATGGCTTCGGTATTGCTTTG
GCTCAATTGGTTCGATAGTTCTGGAAGAGAAACCAAACTGGTGTACCTGC
GCCAAATATCTTGCTGCCCTGCTCCTGCTGCGGACTTCCTTCTCTTTTCC
TAtTTTTTTTCACACGTCATCGACGCCTGCACTCTTTTTTGTGAGCCTGT
TGATGCCTCGCGGCCTCAAAGGACAATCAGAGATGCACGACCATACACAC
AGCCTACGAGGCATGGCTTTGATGTTGCTGTGGCTTCATTCATTCGAAAG
TAATCAACAAATACGCTACAGCAGCAGCAGCAGCAGCAGCAGCAGCCTGT
TGAAACGATGTCAACACCGTCTGTCTGTAAAAAAAAATGAATCCCCCACG
GAAAAAATAAAATCAATCGCTGTTATAAGAAGTGGTGCTTTTCGAAGATC
CTGTTGGAATTCTTCTTATTGAAAAAGGCGGATTCTAAGGAGATTTTTTT
CAGCTACAATAAGTGGTCTAAACGTTTCTTTTTCAGGGAACACGAATAAC
CTTGAAAATACCTCCAATCTAATCGAACAGGTCATCATGGTGCTTTTCTG
CTGTAGTAATTGTTTTCACCAACCTCTCACCACGCCTGCCGGAATGTGCA
CATTAGAAGTGGGTCTGCTCGCCAGAGTGATTAACTCGGGTACCATGCTC
TCTCTTTCGCTATCCGCACTGCTGTTGCTGTTGTAGGGCGGGTGTGGCGT
GTGTTGGCTACGTTTGTTTCTGGAAATGGCTGGAAAAAAACCGGTTTCCC
TGAAATCGAATATACATATACTTCGTATTAACTTTTTTTTTGCCGTCGCT
CATTTTCCTGTTTCGGGGGAAGAAAGCCTACGTTTACTGTTGTTGTTTTG
TCGGCCATTTCACGTTTCCCTAAAAAAAAGTCGTTTTTTCCTGAAATCAG
GCGGCCTGATTAAAAAGAGCCTATGCTGGGGAAGTAAAAATACTAGGGCA
CAGTACCGGCCCGCTCAAAACACCTTTACTTTATAAGAAAGCGAGGCGGG
AATTTTTCAAAAATTAAGAAATTTGGCGTAAGAAAATAGGCTCGGCAGCC
GGCGCCACACTAAATCCTTAACGATGGTTAAGAAATAGCCATGCTTAATG
CTAGTGACACAACAAGAAGCCAAGGGTGAGGCTGATTTCCAGTTTCTGAT
AAGCGGGCCGGTACTGTATTAGAAACGCCAGAGGAAATCTTTGCCGTTAT
TTTTCCGTCAATAAAAAGGGAATCATCAAACCAAAAAGCTCTTCCCTGCT
GTAAACATCGTTCACAACACAAAGAAAACATTTCAGGTCACTGCAACATC
AAAAACCGCTCCAAACTGGAACAGATAAATGCAATGATCCAAATCTCCAC
ATGAAAGCAGGGATAAATCCAGATTAGGAATGAGGCGTGTCGTTCCAAGC
GGTATCTTTCATCGCCCAACTCCAATCAAAAGAAGCCGAACGTAGATACC
ACATATCATGGCACAATATCAGATATACCTCCCCCCCCCCATGATGCTCG
ATAGCAGGGGAAAAATAGATACGGCGACATGATGCGCCGCACACAAGAAA
ACTTCAAACCAAGAAAACGGCGACCGACCTCGTTGCGCCGGAAATCGAAA
AAATATATATTAAACGAATAACAACACGAAAACTTCGTTGCGCCGTTTCA
TCAACACGGAAAACATCAAACCATGAAACCGGCTACTTCGCTTTGCCGAA
TCCAAGAAAAAAAATATCAAACCATGAAACCGGCTACTTCGCTTTGGCGA
ACACAAGAAGAAAAAGACATAAAAAAAACATGAAATCGGCTACCACCTTG
CTTTGCCGAACACAAGAAGAAGAAAAATAAATAAATCAACGAATATTCAT
AGCAAAGTTGCACTGGAAAATCACCTCCTTAAATCCCTCCGCCAGCGCGA
CATACTCTGCTTCAGTCGAGGACAACGTCACACACTCCTCTTCGCGAAAA
AATCGACACGCAAACACCAGCACACATTACAACGCCGCCAACGACAGACC
GCCAGTCGATAGCCCTGCTCTCGCGCAATCAGAGTCCTCGAAAACCTCGA
AGCCAACACCGCCCGTGGTACCCCTCTGAAAGATACCAGTAATGCCGAAG
CTAATCGTGAACCGAATGTACATCAGAACATGCAGCGCAGCGTTCCAGTG
GACTAATTTCGGAGCGTGAGTGTACCTCGCTACGGCCCACACCGCGTTAA
GGATATCAGGACGAGTCTGGTTCGCAAGCCACATCAAATTTCCAACTAGT
GATCGGGATGGCTCGGTAACGTCAGGTTCGGCTGGGTCGAATTCGTCAAG
CTGCAAGCCAACAACCATGGGAGTCTCTTTGTTGCGGGTGAGACACCAAA
CTTGGCCACGATGTGTTCGGCGACGGTCTCCTGGGAAAATGTGATCGTGC
TCTCAGAAAAATCACGAGAAAAACGGCAACCGGCATACAGACGGAGTTCC
CAAGGTTTGAAATAGGGACGTACTCGTTGAGATCTCGGCCAAATTGGTCA
CACCTTGTCTTACGGCCGATAGAAAAAATGTCGTCCACATGCACCACGAC
TACCATGGAGACCGCACCACGTTCCACTAGACGCATGACACACGCATCAG
CTGCACACTGTTCGAAACCAAGGGATCGCATTCCCCGCAGCAAGTGGTGG
TGCCATGTACGGGATGCCTGCTTCAAACCGTATAGACTTCGGCCTAGTTT
GACGACCTTATCAGACAGAATGCCGCATCCTTGTGGTAGGCAAACATACA
CCACCTCATCCAACATTGATTGAACGAACGCTTGCTCCGCGTCAAAATGG
CACAAATTCAAACCCAACTCGCAAGCAACAGCGGTCAGCAAACGAATGCT
CGGCACACACGGACACGGGGAGAAAGTTTTCATGTAGTCAACTCCTTCAC
GTTGAGAAAAGTCTCTAGCTACCAACCTCGTTTTCACACGCTCAACACGA
CCAAGCTCATTAGGCTTCCACGTTTAGACCCACTTTGCCGAGATGATGTT
CGTTTTTCCACGCTGCTACGTCACGTTCCCGCCGTCTCGAATATCCGTGC
CCTTATCAGGCCAGCGAACCTCTTGTGCTGTGCTCCCGCCCATATGCGAC
TGTACGGGCCAGCGTGGGCTTGAGCGTACGTTTCTGACGTCGCCAGGGAT
CGTCCCGTCGGGAGTTCCACCACGTCAGAGAGGGCTGCATCCGAGTGGGC
GATGCGAGCATGCGCGAGATCCTCTTCCGCTGTGAAAAGCGCAAACGTCC
CCGGTACCTCCCCTCGCTGCACGCCTGATGGAGTGACCGCCGGTGTTGCT
CGAAAGGTCTCCTGGTGTTGCACTGGCTCTCGTTGCGGGATCTCGCGGGG
CTCAGGGGGCTGATCATGAGGCCTTATGGTCCAATTCGAGAGGTCGCTGG
CGTGGCCATAGATGCCGTCGGAACCATCATCGGCGCCATCGCGGCTATCC
GCCGTCGCCACCGCGGCCACTGGCGCCATCGCGGCTGCTGGCGTGTCCAC
CGTTGCCCCCGCTGCCACCGGCGCCATCGCGGCTGCCGGTGTGCCCGCCG
TTGTCGCCGCTGCCACCGGCGCCATCGCGGCTACTGGCGTGTCCACCGTT
GCCCCCGCTGCCGGTGTGTCCGCCGTCGCCATCACGGCGACCGGCGTGCC
CGCCGTTTATCTCCGCTGCTGATACCACTGCCAAAGTGGTGACCGTAACC
GCCGCCACCGCAATCGTCGCCACCGCCAGCACCATGACCACCGCCGCCGC
CAGTACCGCCACCGCCAACGCTCTCGTTGGGGAGACCACCGCGGCCCCCG
CCACCGCCGCTGTCGCTGGTGCCACCGCGGTGACCGTAACCGCCGCTACC
GCTACCGCTATCAACGCCGTCGATGCGGAGAGCATCGCGACCCCCGCCAC
CGCCGCCGCTACCGCTACCGTTGCCTGTACTGCCACTTCAAACGCCGTCG
GTGCGGAGGCCATCGGGGTCCCCGCCACCGCCGCCGGTGACACCGCGGCG
ACCGTTACCGCCGCTACCGCTACCGCCGATGCCGCCGGTGCCGCCGCGAG
CTTCCTCTGTGGCGGGAGCGGCCGGCGGCGACGAAGTGACGATGGCTCCG
CTACCGAACGTCGGCACCTGCCCCACAAGGGGACGACGGCGGTAGCCAAA
AGTGGCATCAGCCGTGTATCCAGCTCCGCCGGAGGGATACATGACCTTGT
AGCAGTCAGCCGCGTGCCCAGTACCAGAGTTCAGGTAGAAACACCGTGTT
CCCTTCGGCTGTGCCTTGGATGTCCGGTCGACGTGGTGGAAATTCGGCAT
CATGAATGGCAGCAGCTGGTGACGCGGGCGCTTCCCGTGGAGCATCTCGT
ACGGGCACAGCATTCCCGGCTGGTCCGAACGCGCAAACAAATTGATCGCT
TCAGACATCCACGTCCACGCCTCCGGCCGGATAGCCCAGGTTTGCGCATT
GGCATGGAACAGCAAGTCCGGGAAGTGCACAGGAAATTCCAGAAAGGCCG
CCATGCCACCCTCGCGGATCAATGCAATCCGCCGCTCCACCTTCCCGTTG
CGCTTCGCCCCGTCCCTTGGAGTTCGTTCACGGGCAACACCACGCTCCAA
AAGCAAAGTGTTGAACTCCACGCTAACAAACTCGGTTTCGTTGTCCGTTC
GAGAGGCCTCCAAATTGCCATGTACAGCAATGAGAGGCTGGATGGAGACC
AGTAAGCTCCGGAAAGCGTAGGCGACGGTAGCCGCCGACTAGTCCGGCAG
AAAAACGGTCCAACCCACGTTGGCGAAGTCGCGCACGAGCGCCAAGCATT
TGATTGAGCGGCAGGCAGAAGGCGGCATTGGCCCCGTGAGGTCACCGAAA
ATTGGTTGAACGGGCCGACTCGCACGGGAGGAAGTGGTCTTGGCGACGGC
CCGGCGAATGCCCTTGCCAGCCACGCACCCGTCGCAGAACGCGGATTGGC
CCGTAAGGCGAATGCCCAGCTGCTTCGCCGTCTCGCGGACAACGGCGTCG
TACGCATGAGCCAGCGATTAGTGAGCGTCGTTGATATCCATCGATACCTG
CTTCCCAGGCCGCATCATCGGCGCTACCATAGCCGGAGGACCACCGGCAG
GACCCCTTGCGACCCGGGATGCCAGACAGTAGTTGCCGTTTTGTCCTTAG
TGAAACGCACTCGGTCGTCCATGAAGCGCACCTCCGTAGCGGTCAACAAA
ACGGGGTACTTCTCCTGGACGATGTTGAAGGACAGCAGGTTGTACTCCAA
CTGAGGAAACACCGCCACGTTCTGAAGGGTGACCAGTACGTCAGGATTCC
AGTGCAGCAGCAAATCGAGCGATCCAATGCACTTCACCTGCAGGGCTTAC
CGTCTCCTTCAGTCAATTCCCTGTCGTCGGCGTTGGGAAGTCTCTTGCTG
TACACGTGTTCCGAGCTGCACGTGCTATGGATTGAAGCGCCAGAGTCCCC
GACCCATGCGGCGGAACCAGGGTAACGCTCCTTGGACAGGGCTAGTAAAG
CTGCGGGGAGGCGCAGGAGAGAAGGACGAGTTTGGGTGAGGAGGCCAGCT
GGCACAAAAAAATCGGAGGACGTGCCGAAGGCACAATGTCGGGCCTCCAC
CTCGCTCCTTCCGTTGTCTCCAAGTGTTTCGACAACGGCAGCGCGACCGC
CGCCGCCGCCGACTCCGCCACTCAAGAGACTCTGTTGCTGCTGCTGCTGC
ACGAAGTGCTTCGATTGATGATATCCGCTGCCACCCCCCCGCCGTCGGCG
CCCATAAACGTGATGCCCGGCTGTCGCTGTTGCTGCTGCTATTGTTGCTG
CTGGAACTGCTGAAACGGCTGCGGCTGGTGGTGATAAAATCCGCCACTAC
CACCACCACCATAGCCGCCCCTGCCGCTGCCGAACACCTCGCCCGGCTGG
GGTAGTGGGGGCTGCTGCTGTAGCTGCTGTTAATGGTACCCGCCACCACC
ACTACCGCCGCCGCCACCGAACACCTGCTGCTGCTGCGGTAGATGGTAGC
CATCTCCACCACCACCGCTGCCGCCATCGAACACTTGCTGCTGCTGTGGT
AGACGGTAGCCACCTCCACCACCGGCGCCTCCGCCAACCACCTCGCCGGG
CTGCTGCTGGGAAAACTAGAAATTGCCATCTTCGCCATTGTCGTTCCCGT
ACCCTTGGACAGTTGAGATACCGTTGATGTGCGGGCGGGGTTGGGAGGGA
CGTTGGGAATAGAAGCGGCAGCTACGACCTATGTGTCCGTACTCCTTGCA
GACGGAACGCCTCCCGTCGAACCGGAGAGGTGCCCGGCAGATGATGAGCT
GGTGGCCGGGACAGTTGCAGCGGCCGCACCGGGGTACCTCCCCCATCCGG
ACCTCTGGTTCAGGCGGGGAGTCGGGTTGTTCCCAAACTGCATTCTCCCC
GGCGTCGGTCATACCCCCTGGTACAAACGCAAGTGGGTCTCCTGCGGGAT
TTGGCGGCGAGGGCCGATTCTGCTGCTGTTGCTGCTGCTGCCGCCGCTGC
TGTTGGCCACGCCGATTCTGCTGCTTTGCTGCTGCTGCTGTTGGCCACGC
CCCCCATCATCGTACCCGCCTCCGCTGCGATGACCGCCATCCCCCCCCAC
CGTTGTTGGCGAGGAAACCACCGCCGACGCAAAGTGCATGCGGATCAACG
ACAGGTGCTGCAGGTATGGTAGTTGGAGGCGGTGCCGTTCTCCCACTCAG
CCGGCGATCAACGTGAGCCGAACATACTAGGTTCTCCAACTGTGAGCGGA
TCATCCCGGGTTGGGTGAGTCTACCACGCTTTTCGATTTCGAACTCGGAG
TAAAGGTTGCGGCGCAGTATTTCGAGAATTTTATCATCGCGCTTGGTAAC
GCCCACTGCCTGTAGTCGGCTCAGGATCTCATCTACCTTGAGGAAGTACA
GCTTGGGTCCTCACCATCCTCGTGTGTCAGGTTTTCCAGCGCTGCTTGAC
CAAATCGTCCTGCTCGGCCTTACTCACGGGAAGATTGAAGTTTAGGGCTT
CTGCCCACGCCTCCTCTACCGGCCCTGCTGGCAGAATCCTTGCTAGGAAA
TTTGCGCCAGCGGTTGCTTCCATAAGGTAATCAAGCACCCGCTCGTTTGC
TGCTGCTGCTGCTTCCCCGTAATCGTCTACGAGGACATGGCGAGGTGGAC
CTTGTATGATGCGGAGAGGGTAGTCGGTTCTCTCCAAGGTTTGGGCCAGA
CCTACGCTAGCCATGAAAGCCTTGAATATCGTCTTGAAAAAGACGAAGTC
AACCGTGAATTTGGGGGGCCTTTCTCGCGCTTCCCCGACTACCGGTACTG
CTGTTGTCACCACTCACATACACATGCCCTTGACGCTGTTGCAGCGGCGC
TTGTTGTCGCTGCCCATGGAGAGGCTGCTGCATGATCCCACCTGGCTGCT
GCCCAGGCCCAGTTCCTCCACCGACGGGCTGCCACGCCCAACAACGCTGT
GTCGTCCCTCCGCGTTCCGTCCTCCCCCCTGTCCACCCATATAAACCTCT
GTCCCTGCTGCTGCTGCTGCTGCTGCTGAGCTTCTCCTGAAAGCTTCTGC
CTCCGGTAAAGCAAAGGGATGGCGGTTGGTCTGCTACTGTAAAACAGTTG
GTACTTACATCTTCATCTCTCTACCAACACCACTCTCTTCGGGCCCTCTC
GCCCTTTCACTCTCACTCTCTGCCAACCCCCTGGCATTTTCAAACCCACC
ACCAGCACGCTCGGCAATTTCCGCCCGTGCATCCTTTAGCCCAATCCTCG
CGACCTCCAATTCCAGCCTCAAACCCTTTTCAGCGTCCGTTGGTTCCGAC
ATCACAGCGTGACCGCAGGGCTGTTGCTTTGTTACGTGGTTTTATGGAGC
CGCAATGTAAGGCCCCGGGCTAGCCCCGGGTATCAAATTAACCCCCGCAG
GGAGACCCAAGATGGCTCCCGTATCAAAGTTTTATTTTACCGAGGATACG
TCAATGATCCGTGGATAATCAATGGAGTATCCATGGAGCTCCAGTACCGT
TCAGTCTCATGGCAAGATGCACTAAGACTATCGGTCTCGACGTGGAGAAA
CTGGAGCTCCATGGATGGTCCACACAGTCTCCATGGAGAACCCATGGAGA
ATCCAGGGAGAACCCATGGAGACTCCGTAGCCTGCATTGATAAATTCAAT
CGTGTGCAGCCCCCTGTGCAGCGCGCTGCTTGTCAGGAACCACGTTCTTT
TAATACTAGAGGAATGTTCGAAATATTATAATCATGATGCAATTATATGT
AGCCGCTCGTCCGAGCAGGTTGGAATCGGGGGTACCTGTCCCCTATCGCG
GGATAGGTGGCTTCCGGGTGCTGTGTGTCTGGTTTCAATTCTCCTGGCGT
GTGGTTTCGTCGTACTGTTTACAAGACGTCTTTGGCCTTGTTTCCTCACA
AGATTCTTCCAGCACTTTTGGAACGGTAAAACGACAGCCAAAATAAACAC
CAAAGACAACAACCAAGAAACCCTGTGATATAGCCCTAACTTTGACCCCT
TGAACTAATTAGTCGCGTAGTGAGGATGACTTCTTTATGATTTGGAAGCA
GGGCTCGCACCCGACTTGCTCCTTACCCGGGTACCCGACCTCGGGTACCC
GGAACCGAGTAGCCCCACCGGGTACCCGGTTTCAATGTTTCAAGTCGGGT
GCGAGCCCTATTTTTAAGCAATCCGACCCAGGCCAACTTTTTAAATAGGA
AACGGCAGGGAGGTATCATCGAGCATGCTATAAAAGTCTTCAAATTGAAC
AAATGTTATTGTACCGCGTTTAGTACGCCATGAACAGCTCTCAATATATC
CACAGCTACCGTGGATTCAAAACTGGTATTTTACCGAGCAACGGTGCCGT
TGCGGTACAGAAGAACAGACCCGATTTGCTTGTCATGGAAATTAACTTAG
GGGGAGGAATGTCAAACAAACTCGCGCGTTCATATGATCACAGAAAACAA
GCTTCCGAATGGTTGGTGTTGGCGTTATTTCGGATACTCTTCGGGGGTAG
GTTGTGATGAGGAACTGTTCGTCTAGAAATTAGTCCTCCATGCATGGTGT
CGTCTAACAGTAGTAAAAAGACCTGCACTGTGCTGTACATAGCTGCACTG
CTGTACGGCACGGTAATGAAAAAAGTTTTCATCCCACAAACCTTTTACCC
TCACGTGATAACTGTAAGAGGCGAAGATGAGAGACGCCCCCGTCCCCCCC
CGCCCGCCCCTCAAATAGTAATGCCTCCAGCGCCGTATATCACAAAAAAC
TCCTTGTACATTTTGATTGAAGTAAAACTTTGGTCAAATCATGTCCATAC
TGCTGTACCTCACTCGGTCCAAGAATAACGCGTCTTTAAGGGAGGGCATA
TGGTGCTACTATTATTGTTTATCGTCTAGTTCGTATTGCTACTGTACTGG
AATTGAGGTTCGACCGAGAAGTGTGGGGACGTTTTTGCTTGCGCTTATCT
CCGTCAATATGACCTTCCATCATCTCAACTGATGGTGCGCCCCATGCAAC
GCTACTGCCCTACTCTGCTCTGCCCTGCTCTGCCCTGCAGCGTAAGCGCC
ACACTTTTTAGCGGGCGGGGTCTCGTTCGTTAACGGAATATCAACCAGAC
AAATCACTCCACCAACTGAAAACGGCCATGCACCACCATCCATAGAATCA
AGGACGAGCTCTCAATTTGTATATCCTGCTCTGCCCTGCCCTGCCTTGCC
TGTGCTCTGCCCTACCCTGCTCTGTGTTACTCCACTTTGCGTTACGCTGC
TTTATGTTACGCTCTGTGTTACTGCTCTGTGTCACTGACTGCTCTAAGGG
GCGGGTACTAGATGAATACAAGCGCCTGGAACGTGGAACGAGGAACTTCA
AATTCCTCTCTCACATTGGCCAACAACAAAAACAAACTTTCCTGGAAAGT
GCTGCCGCCGGAGTTCTTCTTGTCGTTCCTTCCGCTCAAATCTAACTTAA
ATCACATCTCGTTCCTTGAAACTGCCCAAACAAAGTCCACCACACTCATG
GAACGGGCTGCTGGGGAGAAATAAGTAGCTTATGATACCAGAAAGCGCTT
TCTTTCTCTCTGTGACAACAACCAACCCTAGAACGCACCTCAAAGAAAGA
TGGGCAGAGGAGACAGAGACACACACATACATGCACTGCCTGCCCTTCTT
GTGTGTTACTGGTCTTCGTCCGCAGGAGAGGCAGCATGCGGTCAAAGCCG
GCCAGTGGGGCGACGACATCTTCAAGCACGAGGCCTTGGTGCGCCCGGAC
ATCCTGCTCTCGATCCTGAGACAGGGGTACAAGCTGCTCTGGACGGACGT
GGACATGGTCTGGCTAAGAAACCCGCTGCCGCTCTTGCCCGACACTCGCG
CGAACGCCATCGCGGTGAGAACTGAACTGCCGACGACAACTGACTCTCGT
TTCGGGAAAAAGTTATTGGCCTTTTTTTTGCTCGGTGTTGGCTTTTTTTG
TCGCCATCATCTAGATACACCTCATTTTTGTTGCCTCTAAACCCAGTATA
ATAACGATTTTTATTCCTCCGCGATTTCACACAAAGCCTACCGAGCGAAA
AGGCCTCTAGAAATATTACGCTTTAAACGTTTTCTTACGGTTGGTGCCAG
TTAACCAAGCAAACCGCGGGTGAAGATTTTTATATACTGCTGCTCGTAAA
TCTTTGTAGATAATGCGAGATCGCCACCGCGCGGTACAATGAGTTGAAAT
TCTTTCGTCATATTCATATACTGCTGGTTGTAGGAGATATAATACGAGAT
CGCTACCGCGCGGTGTAAGTTGAAACTCTTTCGTTATTCTTATGTACACC
ACGATGCTGTAGTCAAATGAACGACGCTGGAAGTACGTTGTTTGATGTTG
GTACTGCTGTGACTGCTGTAGTTCAGTGATGAACACGGCGTAGGAAGGTG
TATCTTCTTCGGTCCTTCTTGGCTATTCCCTTGTAGTTTTTTTCTGTTTT
TTTATCTTCCTAGGGCTCAACACTTTTTGTGACCACGGACTCGATTTATT
TTGGCTATGAGCTCATGTGAGAATCAACAAACAACAACACCATGAGACCC
CTTGAGACTCTTAGAATGACCAAAATAGCGCATGAGACCCCATAAGACTC
TAATACGGAGTAATTACCAAAATCATCATTTACAAACAACTCATGAGACA
CCATGAGACCCCGTGAGAGCCCATCATACCTCATGAGTCCCAATGAGAAC
CCATGATAAATCTCACCATGACCACCCCTTATTTCGTGCCCATGAGACCC
CATGCGACCCCATGAGAACCCATGAGAACCCATGAGAACCCATGAGACAA
TTTGTTATCGCGATAACCAAAGTGCCTTGAGCTAATTTTTTTGCGTTCAA
ATGTATATAATTCGTTTTGTTTAGAATGATTCTCATGGTGGGGTCTCATG
GGGGCCCATGGGGTCTCATGAGGTCTCGTGAGTATATTCCACATTCTCAT
CGTGAGCAGTCTCACGGTGTACGTACTTCTTTTTAAGAAAAGTGTCTCAT
GGGGCCTCAAAGGACCTCATGGGGTCTCATGAGCGCTCATGAGGGATTAT
CTTAATAGCCCATAAGACCCCATGAGACCTTACCATAATAAGACCCCATG
AGGTCCCATGAGACCCCATGTTGTTGTTGTTGTTGTTGATTCTCACATTA
GCTCACTACCGCCGCAGTCTAGCCCGTGGTCACATACCAGCACATATCAT
GCTAGGAGGAAAATAAATACATAAAATATATGGACTATGATCACCCACAG
TCAAATCAGATATGGCACCGTTGGGGTACCATCTGTGGTGGTCAGAGTAC
CAAACAAAATACAGAAAACAGATAACAGGTTCGAAAGAAAAAACAAAAAT
TGGAAACAGTCCGACAAACAAAAAAATAACCAAGACAAACCTCAACCATA
ACCATATACTTCGAAGTACTTCGTACATCGAACCAGGGCCCAGGGCCATG
ACAGACCAAGGCAAACGCAAACCAGGGCGATGGTCCAGTAACTACATGAT
CAACAGACGGAAGACAAAAAATAAAATAGAAAGACAAAGTGTTCACCACT
TAAGTGGAAGATACAGGGAGGGCACAAAGACTGAGGGAGTGCACTCGTGC
ACAAACACAACAAACAGGCCGCCAAACAGAGAGGAAGCAGGGGAACGAAA
AGGGAAAAGAAAAAAAGAGACAAAGAGGAACAAAGTACATGCATGGAGAG
TGCAGAGAGAGGGAAGACTGGAAGTCAGTACCGGAAGTCGGGGAGGGGGA
GGGGGAGGCGATAAAAATAAAATAAAAGGCATGCAATCAACCGCAAACAT
GTCTTGCCACGAGGTCTGCCTGTTCACGCTTGCTCTCCTCAGTCGCACTC
ATGCCTCCTGCTACTGGCACCACCGTACCCAGTTGTTTCTGCCCCACATC
TTTGGCAGCAGCTACACCACCATTCCGCCCTACAGGTTTTCCACTCCGGC
CACCCCGTAGCTTGGCATTGGACTGCTTCTTCTCGTGCTGTGCAACTCCA
ACCCCACTACCCCGCTGCCCTTGTGCCCCCCCGTACTACTCCTCTCGTTT
ATCCCCGCCATCCGTTCTCCCTTTTTTGGCCAAGGCCTACCCCTCAGCCG
CGTCCCTCTCCCTTTTCCGTCGACGTGTCTCTGATAAGTCTCCCTCTTTC
TTGAGCCACTCGTCCGTGAACCGCTGCGCACCCTCGTCGATCCTGTCGTA
CCACTCGTCAGCTCTCTTGGCACTTGCCTCCCACCCCTCTTTTTTGTCGA
CCATGATGTCGAACGCTTCGAGGTCCTCCTGCATTCGCCTCAGCCAGTCA
AACTCTTGCCCGCCCAGATACCTCGCTCCCCCCTGCAACTCTCCCAAAAG
AGCAATTTTCGGGAGTCTCTCGTCTCTCATGCGCGCAACGAATCCTGCAA
AGCACAGCCGCCGCTTGCGCACGGTGGCCTCAACGCTCTCGTCGTAACCC
GCGGTGATCAGGGCTTTGGCGTAGGAGAGGGGTCGGTCTGTTCTCCCCCT
CTTTTTCCATCCGATGCAGCGAAGAAGGAAGAAGTGGTGGGCTGATCGAA
GCTTGCGGTACTCCGCTGGCTTCAGATTCCATGTGACACCCGTAGAGTAG
GGTCTCCACGACTTCATGAGACCCCATGATACCCCACCATGAGCACACAC
AATAATAATGTCACAGAATTCTTTCGGACTGGGAAAAAAATCCAAAATTT
AGCTTAAAGATTCAGAAACAAGGACCGTACCCAACGGGGCTGACAGTTCC
ATTTAATTTCCGGGAACTCGCATTTGACCCCCCAGGGGTCTGAAAAAATA
ATCATGGAGCCAAAAATTAACTGATTTCGGTGCGCCGATGATTGGCGAAT
GGTGGACGGTCTCAAAAAAAAAAGAAATAACTGACGTCTCGCCGGCTCTG
TCCGGTGAGAAAAGGGCGTGACTTGTTTGCACACAGAAATCTGTCGCCAA
TTTGCCCTGAAAAAAATGTGGACAGATTCCAGTCTAAAGCTACACCAAAC
TCTTTTGGGGGGGTCACCTACACAAAAGTTGTTTGTTTAGTTTTACAGGA
TGTTGTTGTTGTTGTTGATTCTCACATTAGCTCACTACCGCCGCAGTCTA
GCCCGTGGTCACAAACGAGGCACATATCGTGCTAGGAGGAAAAAAATACT
AGTCTTGGGTGGTACGAAGGAGCCCCCCCCGGGATCGCGATTAAGGGGGC
TCCTTCCTAACTGCATTAAGCAAGCTGCGCTGCTGCCGAAAGCCTGCTTT
CGATTTTGTTTCCTCTGCTTTCCAACCCCCCCCTCAGACAACATCAGTCA
TCAAAAACAACATGGTGTGGGCCCCTGTTTTTTTTTTTTTTTTTTTTTTT
TGGGCGAGACATGTCGTTTGCAGCAACCGTACAGCAGCGATTTCTCGGCG
TAGACGACAGCCGTGCCTCTACCAAGCTGGTCCGACACGGACAGTGCCAT
GTAGATGTGGAAAAGTCTGCTGTATCGTGCTGCTGATGGCCGTGGGTGTG
CGTTCCGCTGGGTGCGTGCTACTGCTGAGGGCGTGTTATCCAACGTCTCG
TAGAAACTAGATTTACAGCAGTAGCGACAAACATCGTAGAGCAGCGATTT
CTCGGCGTAGACGACAGCTGTGCCTCTACCGAGCTGGTCCGACTCGGACA
GTGCCACGTAGAGGTGGATAAGTCTGCTGTATGGTGCTGCTGATGGCCGT
GGGTGTGTGTGCGTTCTGGTTGTGGAATGGCACTGCTGGGGAGGTGGTAT
CTGGCGTACGCACAGCAGAAAATAGCACGGTTGTGGGCAGCTCGGCGGCC
ACCGCGGTCGATTTGCGCAAGGACGCAGGCACCAGTGAGGAATTACTATT
TTTCTCGTGCGTTCAAGCCCGGGGTCGCTCCGATCCGTGAAGAATTGGCC
GCGTAAGCAACGAAAAAGTGGCCTATTTAGGGCACAGACAGACAAACAGA
CAAACAGACAGACACCAAAAACATCGATTTGGTAAATTTGGGTCGCTAGG
CATGTTTTTTTCCCAATCTTTCCCACCGTCTCCCTCGCACACACACACAC
ACACACACACACACACACACATCACGACCCACTATATTTAGGAGCCTTTG
GCCCCGACTTTCTTACAGAAAGCACGGTGCCCGGCGACTTCGTCGCCGGT
GGGCTCCTTCCTAAAAATAAAATTTATGGACTATGATCACCCACAGTCAA
ATCAGATATTGTACCGTTGGGGTACCATCTGTGGTGGCCAGAATACCAAA
CAAATTCAGAAAAAATAACAGGCTCAAAAGACAATACAAAAATTGGAAAC
AGTCCGACAAACAAAAAATAACCAAGACAAACCTCAACCATAACCATATA
CTTCGAAGTACTTCGTACATCGAACCAGGGCCCAGGGCCATGACAGACCA
AGGCAAACGCAAACCAGGGCGATGGTCCAGTAACTACATGATCAACAGAC
GGAAGACAAAAAATAAAAAAGGAGAAGATACAGGGAGGGCACAGAGTATG
TTGCTTCAAACAAAGGGATACTGCTGTATGCAAGTAGCACGCAATCAGCA
ACACCGCCACTTAGCATGGCAGATCAGGGTACCCCGCTCGACAACCACAC
AGCAGAAGGGTTCCACTCCGCAAGGTTATACCCGCGCACGACAGTCGTTC
ATTCACTCAGGGTCTATTTTTATCATCATCATCATCGACAGCAGCAGCTT
CACTACGATACAGCAGTCCCATGACAAACAAACATATACTTGGAGTATAT
GTTGCATAATCAACGCAAGGGTGTCGGCATGTGATGGTACCCATGTACCC
AGGTATGTAGTATGTGATGATACTCGTACGAGATCGTCGGGTATGTCTGT
GAGCTTTCAAACGTGCGTGGAACAATATGTCTACAGTGTCGGCCCGCGTG
CGCGTGGTGTGCGTCTCACCAACCAATCGCATGACACATCAATCAGCTGC
TGCAGCATGCACAGCAGCAGTCAGTCCCAGAAATCAGGGTGTATGTGTTT
TAAGTGCAGCAGCAGAACGTCATCGTCAGTCAGCGGTTCATCGCAGCGGT
TATAGTCTAATATGTGTATCATGTACTTCGAATACAACGTTTCATCGAGC
GCACGGAACCATACCCAAATAACCTGTAGATAGGCTTCTTCAAAACCCAA
GTCACAAAAAAAGAAACAGGTGTCCCCAAATTGTCCCCAATCGGGGTTGG
GGGGTTCAAAGGGTTAATCTGAAAAATCAGAGCTCGAGTCGGAAACTGTG
TATTGTTGCGTTTTGTTTTGTTTTTTTTGCGCCTTCTTGCTCGGAAACTG
CGTATTGTTTTGTTTTGTATGTACCAGGTATGTATGTGTTTGTTGTCATC
CCTTTAATTGGACGCCACTCTGCACCTTTCGGGTAGGTCGGCGCTCCAAC
TGGGGTGACACAACAGGGGGAAGTCAACACAGGATTTTTTTTTCTCCACT
TCCCTCTGCGGTGTTTGCTTTGTTTTTGGTTGAGCTTTTATCGCGAGAAA
GGAGGCAGCAATTCCTTTCCCTCGTCGATGGTACGATCGAATTTTGTTTA
CTCACGATGTACTTTATGTATGTCATGTGTATTGTTTGTACTTATTTTCG
CTATCTGAGTTTATTGTCATTATTTACGCCCGACTCACAAAGAAGGAGTG
AGACCCCGGGGCACGGAGTTTGGAACGGTATTGAATGCGAATACAGCCTC
GACACACACGCGCGCACGTATCTACAACCAACCGTTGCTGATGAGGCTGC
TGAGGCTGCTTCTAATGAGGCTGCTGAGGCTGCCGTTGTTGTCGTTCCGA
CTTTATTCACAGACAGACAGTCACGTGTTGGATTGAAAGTACAAAAAAGG
TGTGTTCATTCTACCTTCTTCAAAAAACAAATTGTGTTCATTGCTACTCT
GCACCACAGGTATAGTCTACTCCAGATCCTCGTCTTCTGCTAGAGAGAGA
GGCGTTCATGTGTGGTATGGCTGATGTAGTTGCTGCTTTTGTCTCTCCCT
TTGCTGCTGCTGCTGCTGCTACTGCTTTTTTCTATCTTCCTTGTATTTTT
CGATGAACACTGTGAAGTGTGTCCCACGTCTGTCACGCATGATCAGGGGG
GCGGAACATTTAATGCATGCCGAGTATTTTGTTGTGTGTTGTGTGTGTTG
TCATCCCTTGAATTGGACGCCACTCTACACCTTTCGGGTAGGTAGACGCT
CCAACCGGGGTCACACAGGGTGAGGTCAACACAGGAGTTTTTTTTTTTTT
TCTCCACTTCCCTCTGCGGTGCTTGCCTTTTTGGTTGAGCTTTTATCGCG
AGAAAGGGGACAGCAATCCCTCTCCCTCGTCGATGGTACGATCGAATTTT
GTTTACTCACGAAGTGATCGCTTTCCACTTTCACGCGCAATGTGAGAAAA
AGTCCCAGATCGTGTTACTGCACTGGGATTCGAACATACGCGTGAATGCC
AGAAGGCTGCGTGGATTACCAACTGAACCACCGGGGCGACCGGTATTCAC
GAGGTAGAAATGACAGGTGTGATCGCGAGGCTTTCAAAGGGTTACTACAG
CAGCAGGTTGGGTGGCTGGCATCTTGTGAATGCGCGCAAAAGGCACATGC
AGCGGCTGGTAAATCCAAAGCGCACCACCTAGTCTGTCTCCGTCCAACGA
GAAGAAGCATACAACACCGAGATTCACGCACACGCGAACCAACGAAATGA
GCAAAACTTGTAGTTTCTCTTTCTCTAGAGATCTATTTCTTCTCTTTCTC
TATCCTCTTTCCTTCATATTTTGCTGTACATATCGTACACGTCCCATTTG
TGTTGTGTGGAGGAAGGCAGAGGAGGTGATCGTCCAACGAATTGAGCAAG
ACTTGCTTGTAGCCTCGCCCCCCCCCCTCTCTCTCTCGTATTCTCTCTCT
ATCTTTTGGCTCTTTCGCTCGCTCACTTTATTTTTGAACATGCCTGTTGG
ATCCATTTGTGTTGTGCTGAGGCAGGCGGAGGTGATGGTCCAGCAAGACG
GGAAGGCGAAGAACAAGTGCACCTGCTTCATGTTCCTCGACTGCACACCG
TTGGCGATCAACCTCATCGACTTGTGGAAGCGAGAGATCGTGGAGACCAA
AGTCGCTCAGAATCAAGTAGCCTTCAGCAAGCCGCTGGTGCAGATGGTAG
ACGCTGGCCTTCGCATGGAGATACTTCCCGATGAGGTGTGTGCGAAAAAG
ATCAACATTTTTACAGCACCAAAGCAAGAGATCGTGCGTTCACTGGAAAT
CAGAATCGCCTTCAAAGTCACCCTCTTCAATGATGAAAGAAATTGCCGAA
GGAACCAGAAAGGAAGCACTACTTCTACTTTTGTAGTATTTTTCTGGCCC
CTGAATAATATTTATGTGTGCAATTCCAACTATGTTCCATGCTGGGTGTT
AATAATCAGCGCACATCCTTCGAAGTAACTTGTATTTTTGCTGCGATATT
TGTTCGCACTTTTTTCTGGAGGGCCGAGTTGTTATTCGTCAACATTTTCT
CCCACACAGCGCACCAACTACGATCACCGCCATATACAGCATTGCCCCGT
CTTTTTTTTTGGGAATCGGGCACCCGCAGAGTTGTGAAATACGTTGCCGC
AAAAAAGTAAAAGGGCGCCGCGTATGGTGTTTATGGGGTTACCTTATTCC
CAAAGTTGCACTGTATTGCGATTTTAAGTACCCGGGTAATAAAGCTTCTA
CCCGAAATCGTCCGGGTAACTCATTATATCCGAGTAAATTTTAGACGGGG
CAATGCTCTACACCACCACCACCCTCTGCACGTGCGCGCGCACCTCTACT
TGCTTGTCCCCTGTACGTACGCAGGTGATGCCCCCAGGTTCGAACATCTT
TGACGACGGTTTCATGAAGGCGAATTACGACCGTTACCACAATAAGCTCC
GGGTGGTGCACAATAACTGGATCATTGGCCACGACGCAAAGCGGGACCGT
TTCCGCCAGGCCGATCTGTGGAGGGTAGACGACTGGGATCTGCCAACCTG
CGAGCGGCGTACTTCGTAGAGATATCCATCTGGAAAGCGGGG
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Coding sequence (CDS) from alignment at P-littoralis_Contig663:92352..120843+

>mRNA_P-littoralis_Contig663.36.1 ID=mRNA_P-littoralis_Contig663.36.1|Name=mRNA_P-littoralis_Contig663.36.1|organism=Pylaiella littoralis U1_48|type=CDS|length=735bp|location=Sequence derived from alignment at P-littoralis_Contig663:92352..120843+ (Pylaiella littoralis U1_48)
ATGGCCGTAAACTTCCTGCTCTGGGCGAGGCGGGCCGCGAGGGACGTGAA
GGTGCTGGTCGTCGCAATGGACGAGGTGTCTTTTGACTTCCTAGACGCCT
TGACTCCCGGATCCATCGCTATGTATCCTCAGAAATCCTCGGAGAGGCAG
CATGCGGTCAAAGCCGGCCAGTGGGGCGACGACATCTTCAAGCACGAGGC
CTTGGTGCGCCCGGACATCCTGCTCTCGATCCTGAGACAGGGGTACAAGC
TGCTCTGGACGGACGTGGACATGGTCTGGCTAAGAAACCCGCTGCCGCTC
TTGCCCGACACTCGCGCGAACGCCATCGCGGCGGAGGTGATGGTCCAGCA
AGACGGGAAGGCGAAGAACAAGTGCACCTGCTTCATGTTCCTCGACTGCA
CACCGTTGGCGATCAACCTCATCGACTTGTGGAAGCGAGAGATCGTGGAG
ACCAAAGTCGCTCAGAATCAAGTAGCCTTCAGCAAGCCGCTGGTGCAGAT
GGTAGACGCTGGCCTTCGCATGGAGATACTTCCCGATGAGGTGATGCCCC
CAGGTTCGAACATCTTTGACGACGGTTTCATGAAGGCGAATTACGACCGT
TACCACAATAAGCTCCGGGTGGTGCACAATAACTGGATCATTGGCCACGA
CGCAAAGCGGGACCGTTTCCGCCAGGCCGATCTGTGGAGGGTAGACGACT
GGGATCTGCCAACCTGCGAGCGGCGTACTTCGTAG
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