mRNA_P-littoralis_Contig783.12.2 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig783.12.2
Unique NamemRNA_P-littoralis_Contig783.12.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig783.12.2 vs. uniprot
Match: A0A6H5JPU5_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JPU5_9PHAE)

HSP 1 Score: 265 bits (677), Expect = 2.860e-80
Identity = 138/179 (77.09%), Postives = 145/179 (81.01%), Query Frame = 1 
Query:  388 VRSSRLEFFGSVAAGLGATTRAAAAAQGAVTTASFDGATRSVEEVKKAIEADFLSRQYYVTGDLTPSLYRPDCFFTDPTTRVASVDRYVAAVKLLFDPDNAQVDLLSLKVKDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSEGFITSHQETWSITALDAARATITPTAGPQAA 924
            V SSR  F   VA     TT AA       T  SF    R VEEVKK IEADFLSR+YYVTGDLTPSLYRPDC FTDPTTRV SV+RY AAVKLLFDPDNAQVDLLSL +KDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDS G I+ H+ETWSI+AL+AARATITPTAGPQAA
Sbjct:   89 VTSSRRAFLNHVAGAAAVTTAAAGG-----TLPSFGATARGVEEVKKGIEADFLSRRYYVTGDLTPSLYRPDCLFTDPTTRVESVERYTAAVKLLFDPDNAQVDLLSLVIKDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSNGLISLHEETWSISALEAARATITPTAGPQAA 262
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BLAST of mRNA_P-littoralis_Contig783.12.2 vs. uniprot
Match: D7G4G9_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G4G9_ECTSI)

HSP 1 Score: 225 bits (573), Expect = 4.660e-66
Identity = 106/121 (87.60%), Postives = 114/121 (94.21%), Query Frame = 1 
Query:  556 QYYVTGDLTPSLYRPDCFFTDPTTRVASVDRYVAAVKLLFDPDNAQVDLLSLKVKDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSEGFITSHQETWSITALDAARATITPTAGPQ 918
            +YYVTGDLTPSLYRPDC FTDPTTRV SV+RY AAVKLLFDPDNAQVDLLSL VKDD HIFAEW+LQGYLKFPWHPYVKPYTGTTLYTLDS+G I+ H+ETWSI+AL+AARATITPTAGPQ
Sbjct:   66 RYYVTGDLTPSLYRPDCLFTDPTTRVESVERYTAAVKLLFDPDNAQVDLLSLAVKDDNHIFAEWQLQGYLKFPWHPYVKPYTGTTLYTLDSDGLISRHEETWSISALEAARATITPTAGPQ 186
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BLAST of mRNA_P-littoralis_Contig783.12.2 vs. uniprot
Match: A0A0G4EPM9_VITBC (Uncharacterized protein n=2 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A0G4EPM9_VITBC)

HSP 1 Score: 153 bits (387), Expect = 3.760e-39
Identity = 75/131 (57.25%), Postives = 86/131 (65.65%), Query Frame = 1 
Query:  511 VEEVKKAIEADFLSRQYYVTGDLTPSLYRPDCFFTDPTTRVASVDRYVAAVKLLFDPDNAQVDLLSLKVKDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSEGFITSHQETWSITALDAARATITP 903
            V  V + +  DFL  QYYVTGDLTPS+Y  DC F DPT  V  VD YV AV+ LFDP  +Q DLL L+V DD+HI  EWRL G LK PW P VKPYTG TLYTL+  G I  H+E W I+A  A  +T  P
Sbjct:   82 VRTVAETVRRDFLQGQYYVTGDLTPSIYAKDCIFIDPTVTVQGVDTYVRAVRNLFDPATSQADLLGLEVLDDSHIRVEWRLGGSLKLPWKPVVKPYTGRTLYTLNDRGLIVRHEEEWDISAAQAFLSTFIP 212
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BLAST of mRNA_P-littoralis_Contig783.12.2 vs. uniprot
Match: A0A2K1L393_PHYPA (Uncharacterized protein n=1 Tax=Physcomitrium patens TaxID=3218 RepID=A0A2K1L393_PHYPA)

HSP 1 Score: 153 bits (386), Expect = 1.220e-38
Identity = 77/136 (56.62%), Postives = 94/136 (69.12%), Query Frame = 1 
Query:  508 SVEEVKKAIEADFLSRQYYVTGDLTPSLYRPDCFFTDPTTRVASVDRYVAAVKLLFDPDNAQVDLLSLKVKDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSEGFITSHQETWSITALDAARATITPTAGP 915
            SVE+VK+ IE D    QYYVTG+LTPS+YR +C FTDPTT V  V++YVAAV+LLFDPD +Q +LLS+ V     I   WRL GYLK PW P++ PY G+T YTL  +G I SH ETW+I+ L A     T T GP
Sbjct:  108 SVEQVKEIIENDIRKGQYYVTGNLTPSIYRDNCKFTDPTTVVTGVNKYVAAVRLLFDPDLSQQELLSIDVTGPRTIEVNWRLGGYLKLPWKPHITPYEGSTRYTLGDDGLIESHDETWNISLLTALLELFTSTWGP 243
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BLAST of mRNA_P-littoralis_Contig783.12.2 vs. uniprot
Match: A9RQK3_PHYPA (Predicted protein n=1 Tax=Physcomitrium patens TaxID=3218 RepID=A9RQK3_PHYPA)

HSP 1 Score: 153 bits (386), Expect = 9.780e-38
Identity = 77/136 (56.62%), Postives = 94/136 (69.12%), Query Frame = 1 
Query:  508 SVEEVKKAIEADFLSRQYYVTGDLTPSLYRPDCFFTDPTTRVASVDRYVAAVKLLFDPDNAQVDLLSLKVKDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSEGFITSHQETWSITALDAARATITPTAGP 915
            SVE+VK+ IE D    QYYVTG+LTPS+YR +C FTDPTT V  V++YVAAV+LLFDPD +Q +LLS+ V     I   WRL GYLK PW P++ PY G+T YTL  +G I SH ETW+I+ L A     T T GP
Sbjct:  188 SVEQVKEIIENDIRKGQYYVTGNLTPSIYRDNCKFTDPTTVVTGVNKYVAAVRLLFDPDLSQQELLSIDVTGPRTIEVNWRLGGYLKLPWKPHITPYEGSTRYTLGDDGLIESHDETWNISLLTALLELFTSTWGP 323
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BLAST of mRNA_P-littoralis_Contig783.12.2 vs. uniprot
Match: D8RZI8_SELML (Uncharacterized protein n=4 Tax=Selaginella moellendorffii TaxID=88036 RepID=D8RZI8_SELML)

HSP 1 Score: 147 bits (371), Expect = 1.710e-37
Identity = 71/132 (53.79%), Postives = 92/132 (69.70%), Query Frame = 1 
Query:  508 SVEEVKKAIEADFLSRQYYVTGDLTPSLYRPDCFFTDPTTRVASVDRYVAAVKLLFDPDNAQVDLLSLKVKDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSEGFITSHQETWSITALDAARATITP 903
            +V+E+++ I  D   RQYYVTGDLT S+Y  DC F DPTT V  VD YVAAVK LFDP +++ +LL ++V   T I A+WRLQG LK PW P++  Y GTT YTL+ +GF+ SH+ETW I+ L A    +TP
Sbjct:   36 AVDEIEQIIRQDIEDRQYYVTGDLTRSIYSDDCRFIDPTTNVQGVDSYVAAVKSLFDPSDSKHELLEIRVTSPTTIEAKWRLQGSLKLPWKPHIAAYEGTTTYTLNDDGFVASHKETWDISLLTAFIEFLTP 167
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BLAST of mRNA_P-littoralis_Contig783.12.2 vs. uniprot
Match: A9P064_PICSI (Uncharacterized protein n=1 Tax=Picea sitchensis TaxID=3332 RepID=A9P064_PICSI)

HSP 1 Score: 141 bits (355), Expect = 1.260e-34
Identity = 62/120 (51.67%), Postives = 86/120 (71.67%), Query Frame = 1 
Query:  508 SVEEVKKAIEADFLSRQYYVTGDLTPSLYRPDCFFTDPTTRVASVDRYVAAVKLLFDPDNAQVDLLSLKVKDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSEGFITSHQETWSI 867
            S+EE+K  IE D    QYYVTGD+T  +Y  +C F DPTT +  +++Y++AVK LF+P+ ++ +LLS+ V D   I A+WRL+GYLKFPW+P++ PY G+T Y LD  G I SH+ETW I
Sbjct:   86 SIEEIKSIIENDISKGQYYVTGDMTKEIYENNCRFRDPTTDLTGLEKYISAVKFLFNPNTSKQELLSIAVVDPHTIEAKWRLEGYLKFPWNPHILPYEGSTRYVLDDRGLIMSHEETWDI 205
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BLAST of mRNA_P-littoralis_Contig783.12.2 vs. uniprot
Match: A0A176WGH4_MARPO (Uncharacterized protein n=2 Tax=Marchantia polymorpha TaxID=3197 RepID=A0A176WGH4_MARPO)

HSP 1 Score: 139 bits (350), Expect = 1.240e-33
Identity = 63/131 (48.09%), Postives = 93/131 (70.99%), Query Frame = 1 
Query:  511 VEEVKKAIEADFLSRQYYVTGDLTPSLYRPDCFFTDPTTRVASVDRYVAAVKLLFDPDNAQVDLLSLKVKDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSEGFITSHQETWSITALDAARATITP 903
            +EE+KK IE D++SR Y VTG++T S+Y+ DC F DPTT V  + +Y  A+K+LFDP +++ +LL ++V     +  +WRL G+L FPWHPY+KPYTG++ YT+D +G I S+ E W I+ L+A    +TP
Sbjct:  110 IEEIKKVIEDDYVSRNYLVTGNMTKSVYKDDCRFHDPTTDVTGLQKYSDALKVLFDP-SSKSELLRIEVSGPRTVDVKWRLSGFLNFPWHPYIKPYTGSSRYTVDEDGLIESYSEEWDISVLEAFAQFLTP 239
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BLAST of mRNA_P-littoralis_Contig783.12.2 vs. uniprot
Match: A0A7S0HE91_9CRYP (Hypothetical protein n=1 Tax=Hanusia phi TaxID=3032 RepID=A0A7S0HE91_9CRYP)

HSP 1 Score: 135 bits (340), Expect = 5.030e-32
Identity = 66/125 (52.80%), Postives = 84/125 (67.20%), Query Frame = 1 
Query:  508 SVEEVKKAIEADFLSRQYYVTGDLTPSLYRPDCFFTDPTTRVASVDRYVAAVKLLFDPDNAQVDLLSLKVKDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSEGFITSHQETWSITALDA 882
            S E + + IE D    QY+VTG+LT S+YR DC F DPTT V  + RY+ AV+ LFDP +++V L S+   +D  I A+W LQG LK PW PY++PY GTT Y +D EG I  H ETWSITA +A
Sbjct:  134 SKEALVRIIERDLSMSQYFVTGNLTRSIYRDDCRFKDPTTDVRGLKRYILAVQNLFDPKDSKVILRSISSIEDNKILAKWSLQGSLKLPWKPYIQPYEGTTTYWIDPEGLIEFHDETWSITATEA 258
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BLAST of mRNA_P-littoralis_Contig783.12.2 vs. uniprot
Match: A0A8J4BNC2_9CHLO (Uncharacterized protein n=1 Tax=Volvox africanus TaxID=51714 RepID=A0A8J4BNC2_9CHLO)

HSP 1 Score: 135 bits (340), Expect = 7.620e-32
Identity = 62/137 (45.26%), Postives = 93/137 (67.88%), Query Frame = 1 
Query:  508 SVEEVKKAIEADFLSRQYYVTGDLTPSLYRPDCFFTDPTTRVASVDRYVAAVKLLFDPDNAQVDLLSLKVKDDTHIFAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSEGFITSHQETWSITALDAARATITPTAGPQ 918
            S EEV + +  D  + QY+VTGDLT  ++  DC F DPT  V  + +Y+ A+K+LFDP  ++V+LL ++V     + A+WRL GYL FPW+P V+P+TG T+YTL+ +G ++  ++TWSI+A  A   + TPT GP+
Sbjct:  147 SAEEVAEVLRRDLATGQYFVTGDLTREVFADDCRFIDPTNDVTGLSKYLTALKVLFDPQYSKVELLDIRVAGPRTVEADWRLGGYLVFPWNPRVEPFTGHTVYTLNDDGLVSEQRQTWSISAATALIESFTPTFGPR 283
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig783.12.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5JPU5_9PHAE2.860e-8077.09Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
D7G4G9_ECTSI4.660e-6687.60Uncharacterized protein n=1 Tax=Ectocarpus silicul... [more]
A0A0G4EPM9_VITBC3.760e-3957.25Uncharacterized protein n=2 Tax=Vitrella brassicaf... [more]
A0A2K1L393_PHYPA1.220e-3856.62Uncharacterized protein n=1 Tax=Physcomitrium pate... [more]
A9RQK3_PHYPA9.780e-3856.62Predicted protein n=1 Tax=Physcomitrium patens Tax... [more]
D8RZI8_SELML1.710e-3753.79Uncharacterized protein n=4 Tax=Selaginella moelle... [more]
A9P064_PICSI1.260e-3451.67Uncharacterized protein n=1 Tax=Picea sitchensis T... [more]
A0A176WGH4_MARPO1.240e-3348.09Uncharacterized protein n=2 Tax=Marchantia polymor... [more]
A0A7S0HE91_9CRYP5.030e-3252.80Hypothetical protein n=1 Tax=Hanusia phi TaxID=303... [more]
A0A8J4BNC2_9CHLO7.620e-3245.26Uncharacterized protein n=1 Tax=Volvox africanus T... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig783contigP-littoralis_Contig783:56592..71243 -
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.D7G4G9
PFAMsDUF2358
Model size2050
Max annot lvl2759|Eukaryota
Hectar predicted targeting categorysignal peptide
Exons4
Evalue1.43e-71
EggNOG OGs2D8NW@1|root,2S5BV@2759|Eukaryota
Ec32 ortholog descriptionProtein of unknown function DUF2358
Ec32 orthologEc-07_000690.1
DescriptionUncharacterized conserved protein (DUF2358)
Cds size816
COG categoryS
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig783.12.2prot_P-littoralis_Contig783.12.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig783 57691..71108 -


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

Feature NameUnique NameSpeciesTypePosition
1680791610.1125956-UTR-P-littoralis_Contig783:56591..576901680791610.1125956-UTR-P-littoralis_Contig783:56591..57690Pylaiella littoralis U1_48UTRP-littoralis_Contig783 56592..57690 -
1680791610.1778834-UTR-P-littoralis_Contig783:71108..712431680791610.1778834-UTR-P-littoralis_Contig783:71108..71243Pylaiella littoralis U1_48UTRP-littoralis_Contig783 71109..71243 -


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

Feature NameUnique NameSpeciesTypePosition
1680791610.131744-CDS-P-littoralis_Contig783:57690..579211680791610.131744-CDS-P-littoralis_Contig783:57690..57921Pylaiella littoralis U1_48CDSP-littoralis_Contig783 57691..57921 -
1680791610.1420424-CDS-P-littoralis_Contig783:58558..586491680791610.1420424-CDS-P-littoralis_Contig783:58558..58649Pylaiella littoralis U1_48CDSP-littoralis_Contig783 58559..58649 -
1680791610.1527095-CDS-P-littoralis_Contig783:59075..591501680791610.1527095-CDS-P-littoralis_Contig783:59075..59150Pylaiella littoralis U1_48CDSP-littoralis_Contig783 59076..59150 -
1680791610.1648035-CDS-P-littoralis_Contig783:70689..711081680791610.1648035-CDS-P-littoralis_Contig783:70689..71108Pylaiella littoralis U1_48CDSP-littoralis_Contig783 70690..71108 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig783.12.2

>prot_P-littoralis_Contig783.12.2 ID=prot_P-littoralis_Contig783.12.2|Name=mRNA_P-littoralis_Contig783.12.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=272bp
MLTSGLLALLLGSSAIRRTLAGAAFQTHHTFLRSSNAVVRRTAPQARCSS
APRKALRCNIKKGEDASLGRLEVSDRENLVCNVDVRSSRLEFFGSVAAGL
GATTRAAAAAQGAVTTASFDGATRSVEEVKKAIEADFLSRQYYVTGDLTP
SLYRPDCFFTDPTTRVASVDRYVAAVKLLFDPDNAQVDLLSLKVKDDTHI
FAEWRLQGYLKFPWHPYVKPYTGTTLYTLDSEGFITSHQETWSITALDAA
RATITPTAGPQAARSTEKASL*
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mRNA from alignment at P-littoralis_Contig783:56592..71243-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig783.12.2 ID=mRNA_P-littoralis_Contig783.12.2|Name=mRNA_P-littoralis_Contig783.12.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=14652bp|location=Sequence derived from alignment at P-littoralis_Contig783:56592..71243- (Pylaiella littoralis U1_48)
CACATACCGTATGATATTATACGATACTTCGTATGTATAATACAGAGCAT
GTAGGTTCACCCACCACACAGAGCACGGCAGACACGAGAATCTTCGCGCG
ATTAACTTACGTGATAGTGTTACGAGTACAGTAGGATGTTGACGTCAGGC
CTCCTCGCCTTACTATTGGGGTCCAGTGCCATCCGTAGGACACTAGCGGG
AGCTGCTTTCCAGACTCACCATACTTTCCTCAGAAGTTCAAACGCTGTTG
TCCGGCGTACCGCACCACAAGCTCGATGCTCATCTGCGCCTCGAAAAGCA
TTGCGTTGCAACATAAAAAAGGGGGAGGATGCCTCGCTTGGCCGCCTTGA
AGTTTCTGACCGTGAAAACCTGGTGTGCAACGTGGATGTCAGATCATCAC
GACTAGAGTTTTTTGGAAGCGTTGCGGCGGGATTAGGCGCAACGACAAGA
GCAGCCGCAGCAGCGCAAGGAGCAGTGACGACAGCAAGCTTTGATGGGGC
TACAAGGAGCGTGGAGGAAGTGAAGAAAGCGATAGAGGCAGACTTCCTCT
CAAGGTGCGGGGTAGCAAGGACTTATCGTTGGTGATGCAGTCTCCCACAT
GTCCACATTGGCCCTTCCGTAGCGGCTACCGTAAGTAGGAAAAAAAAAAC
TTCCGTAATATAAGCCGTTGGATTTTGTTTTTTAGCCCGGCCGATGAGGG
TGGGTCTTGTCAAATTTTTGATCGTGTTCAAAATCAAAAAAACAAAATTG
GATTTTGATTTTGATTCCGTGTTGGGTCCGATCTGCTGCAGCTTGCGTTC
GTCCAAAATCAAAAGCGGATAAAAAAAAAACAGGGGTCGCAGACAGGTGG
TGTGTGATATGAGCATGCCATGTCTCGATTCCAAGACAAGGTGCGGGAGC
TGTCGTGCCTCAAACGAAGAGCACGATTGTGCCCCACGTCGCCCTGACTC
AGGCGCGTTGGTAGTTCTTTGTTTGGGATCGATAACCGAAAAACTCGGCA
AGAGATGAGTAAGTACGTGTTGCACATCTGCCCTTTTTTTGGAGATGGCG
GCTGTGTCAGCTACGCAAAACAGCAGTTGAGCAACAAACTTCCTGCACAC
TTCTACACACTTGAGTGCTGCTCTCCGGATTCTGGCCGGAATTCGCTCAA
ACAAAGTGATCTGTATTCTGCGTTATACCAGCTTTCTCCGGAGCTAGCAC
ATATGTACAGCCGGGGTCTACACGTTGTGCTGTGGTCAGCTAAGCAAACA
TATGAAGTGTGCACCATGTGCTCCCGGAATGCACAGCAAACACCTCTCTG
TCTCGTATTCTAGGTCTATTCGTTTTTGAGCCGCGTTTTTGATCTATTGG
AGGGAAGGAAAGTGTTTTTTACTTTCCTTCCCGTTTCGGAAGAATAAAAC
TGAAATCCAAAACGTGATGCGGGCGGATGAATTGTTGACCTATCAGTGAC
ATATTCCGAGTTTGATTTTGATTTTTGATTTTTGATTTTTGAATGGGCCC
AAAACGTTTTGACAAGAGCCACCCTGAGGCCCTGTGTTAACGAAAGTTGG
CTGGAATAAATCATTATCATAGAAGGTCTCTGATATTGGCCAAGCTTTTA
TTACCTTCCGACGACGCCAATGATTTTCCCAAAAAGCCTTGAGACCAAAG
AAGTCCAAAAATACTTAATTGGAAGAAAATAATTAATCATTATTGGGGGT
CTTAACCCGATCGAAGGCTTTTTCTGAACGATGTGCCTCGCGCACGAAGC
TGGCCAGACCAAATACGAGGCAACCACCAGCAGTGCCACAGAACATAGCA
TAGGGGTTTGCCGCTGCACCAGGCAAGCCAACGTTAGCACCACACATGAC
AGCGCAACAAACAAACACACCAGTTTGCATGATTGATGATGACGACCCAC
ATTATTTCATTTTGCACAACACACCATCAGCACACACGACGCAGACAGGC
AGTTCACAGGTCACGAGCACGAAGCCGTCTCTCACAGCCCATGGCAGACA
GACACATGACACAGCAGCAGTCTTGAGTGCATGAGCCAACACACATACAC
AACACCGCAGACGTCTACAAACGTGGTGTCTGTCAGCATCATGGCTTGGT
GCACAGAGCCCACGACCTTGCCTTGCATGCGAGAGGACGCACATGATGCG
TCCACGTACTGCTGTACTGCTGTACGGAGCACTTTGTACAGCAGAATATT
TTATTGTTCTGTTTTACCCGTCGTGTCATCATCAGAGGTTTGCATTCTGC
TGACGTTTACAGGCCTTCAAAGAGCCTTTTCAGCTCTTTCGTTAATATGG
CTCGAAAGGTTTTTCGGAAAATCATACTATGACAATGATTTCAATAATGA
TTTTCCGACTTTCGTTAACACAGGGCCTGAGGGCAGGAGACGCAGACTCG
TCTACAAGGCTGTTTCTTTCGGTCAACGTTCTTCGGGCTGGCGTTTTGAC
CTCCTACTCAAATCCAACCAGAGAACCCCCCTACCCCCCCTACCCGTGAG
AGCGTGGATTAACGGTAGACCGAAAAAAACGAAATTAGGACTGCAGAACG
AAATTAAGGAAAACGAACTGTTGGGTATTAACCCTTTGAACCCTCCAATC
CCAATTGGGGACAGTTTGGGGACACCTTTTTTTTTTTGCTTGGGTTTTGA
AGGCGCCTATCTACAGGTATTTTGGGTGTGGTTCCGTGAGCTCGACCAAG
TGTGTGTGGATAGACCAATAGTTGGCTGCCTCCGTGCCACAATTGTTTTT
TTTTTATTATTATTGGAGACCAAGAGCGCCCGGCCGTTAGGTTTGTTGTG
TGTTGTTCTCTTCCCTCGACAGCATCGAGACACAACGGCGATCGTCTTGT
CGTATCACACTTCATGCCGGCAACCCTCCCTGCATTGCACACAACATGCA
CACATATACTGTATAAGACATGATACATAAACTGTGTTAGACTACCGCTC
ATATGAAACGCTGATGCTGACGTACTGCTGCACTCACATACCCTGATTTC
TGCAACTATTATTGTACTGCTGCTGCTGCTGTGCATGCTGCAGCAAGCAG
CTAGCTGATGATGTGTCTTGCGATGGGTTGGTGAGACACGCACTACGCAC
ACGGGGGCCGACACTACAGACACATCGCGCCACGCACGTTTGAAAGCTCA
TAAACATACCCGGCGATCTCGTACGAGTATCATCACATGGGTACCATTAT
ATGTGCCGACACCCTGCGTTGATCACATGCAACATGATGATATGTTTGAC
TTCGGTAGTAGGCTAGTAGTGCAGCTGCTGCTTGCTGCTGCTGATAAGAT
GCTGTAGACCCTGAATGAGTGTCGTGCGCGGGTACAACCTTGCGGAGTAG
AACCCTACTGCTGTGTGGTTGTCGAGCGGGGTACCCTGATCTGCCATGCT
GAGTGGCGGTGTTGCTGCGTGCTAGTTTACCTTGCATACAGCAGTATCCC
TTTGAAGCAGCATCCTGTAAAACTAAGCAAACAACCCCTGTGTAGTTGAC
CCCCCCGAAAAAATTTGGTGTAGCTTTAGACTGAAATCTGTACCCATTTT
TTCAGGGCAAATTGGGGACAGATTTCTGTGTATAATCAAGTCACACCCCT
TTTTTCACCCGGAGAGAGCAGGAAATCAACGAGACATCAGTACTTTTTTT
TTTTAAACTGTTGACCATTCGCTAATGATCGGCGCACTGGAATCAAATAT
TTTTTGGCTCCATGATTATTTTTTTCAGACCCCTGGGGGGTCAAAGGGTT
AAGGATTGCGGGACAAGGGCGGTAAAAAACAGCCTCTGAACCGTAACATT
TTTGTGCGGGACAAGTGAAAAAAAAAGCGTTATTGTACGGGAGACGAATA
AGGGGGTTCTGTAAGCATATAAAAATGGACCCCCCACTCATGCACATGTG
GTTCAATACCACCACACGACGCTGCTGGGACTGCAGCCAGGGCTGTGATA
GTGCCACGCAACAAGCGCGGATGGTGAAACAAATAAATGGAATCTAGCAC
TAGGTTAGATGCGAAGCGGGCGCGCAAGTTCACACACGTACACCAAAGCT
TCTCCCACGAAAGAGAGGTAGACGCAACGAAACAGCAGAAAGAGGAGCAG
CAGCAGCAGCAGCAGCAGCAGCAGGAACACAGCAGCAGCAGCCCGCGGGA
GAGCGCCATTGCGGACCAACGACTCAGCCGTGGTGGCTGAGCGGCGCTCC
ATGACCGCACGCCCCGATGGTGCTGCAGTAGAGGGCGAGGAGGATGCCAT
CTTTGACGAGCACATGGCGGGGGAGGAGCTAGATGGTTTGATGGGAGAGC
CGCCGAGTGTCAGCAATGAATCCGCACTGGCTCTCATCAGCAAGAAGCAT
ACCACGACCCACCCCGAGACCATCCGCGACTTCATCGCGGATACAGCTGC
TCGGCTTGCTATCGAATCGGGTTGTGTAGACGAGGCGCCGCTCGTTCTAC
GTGGAAGGATAACTCGGCGCAGAAACTTGCGGCCAACACCAGTCTCGTCT
CCTCGGAAGGTTGACCTCCAGGTGATTCACCACAGCAAAAAAATCGCATG
TTGTGCAGCCTACTGCTGTATGGTACGTGTGTGCAAGAAAGAAAGTCGCA
CTCTATATTCGATACTGCTGTGGTCCCCTCTTCCTTTCTTCATTGCCTGG
TATGTTTCTGCTTGCCCTGTTCACACGACCGCTGTACTAAACGTATCCTA
TGATACTTACCCGTGATTTGTACAAGTGAATCATGTTCATAATAGTTACC
CGTAGTTTATATTTGTTTGGTATCATCCGGGTTGTCGTGTAACACAGCAC
ACCAGCAGCTGGAACCCACCGGCTAGCCCTACTACGTGCTTGCCTCAAAA
CCAACCCATAGCTTCACTACAGCATACCTGTACGACATCCAAGGTCGGAT
GGTCCTGTTGTTTGGCGTTCGTGTTCGTACTATTTGCTGTGATATTAGTG
CGTATACAGACCATCATAGCAGCAACTACACCGCCATGTCAGAAGAGTGA
TATTTCTGCTGCTGTTGTTGCTTTAGCTTTGGTTATCTACGCCAACACCA
CCACAGCAGCAGCAGTAGGAGCACCTCGATGAAAAGTGCTGCTACTGCTG
CTGCTGTTCTTGTTGTCATTTCTTTCGTACGGCAACAAAAATCGTCATAA
GCCAGTCAGCACTCTGGACAGCAGTAGCAGCAGTACTTGTAGCAAGGTAA
GATTGAGACGTCGCTGGATATACACAGCCGGATATGTACAGCTGGGACTG
TCTTCGGGCCGAAACGATAGGGTGGAGGGTAATGCGGGCAAATACCAACC
GACCCGCTGCGGCTTTCTTTTTTGCTGAAAAGTTAGCAGTAATTTTTCCT
CGTCCGTTCTTTCTTGTGACATGGTCAAACGAAAGTTGTATACTGCGGGA
AACCCATGACCACGGGCAAAGTATTTCAGCATGCTCTCACCTGCCCCCCC
CCTCCCTCTCAATCAACCCGCCGACTTCCCTCCCCTGTTCTTGATTGACT
TTGAACTATTTAGCGTGTGCTCGACAGGCAAACCAAACACGACGGCGCCC
CTGGTCACCTCCTTGCGAAAGGGTGAGGAACCAAAGCTACTACGACACTT
CTACAGACTTGCTCTGCGTCGGGCAGGGGAACCAATGTCCGGCGGGGGCT
TCCATGATCGCCGCTCTGAAGGTATTCGCGGGGCAGGGGGAGGATGGTAT
CCCCCGCGAGATTGTCCCCGCCATGTGCAAGTACTAAAAACGGGCAGATG
GTCTATGGTATTCCTGCAGGCTTAGGTCTCATGTCGGGGTGTGCGAGGGG
GTTGAAACTTCCGTTTGATAGGCGGGGCGCGAAAGGGGGGGGGGCAAGGG
GGCTGTACGGCAGCGGTGGCCGACCTGAGTGAGGCGAGAGATGTCCCTGC
AGTCAAAACAGAACCAACATTTCGTCTGTTTTTTTGTCGTCTTTCACGTC
CTCTCGTCATAAAATTCTATGTGGTGGGCTGATGTAAAGCAATGCTGTAC
AAATCCGCGTACCTTTCGAATGCATATTATTTGCACACAACAGTCTGCTG
CGGTACGGTTTGTTGTCGATCAGTGCGCACGCCTCCTTGTACTTTTCTTC
CGTCTTCATGCGAAGTAAGTCCTTTTTTCCCCTCTTCGTTCGAAATAATT
TAATTATTTTTAGCAACCCTTACCCATTAAATCGGAGCCGCTCGGACAGC
GTTTTGTTTTTCACCGGACTTTCCTACCTCAACCCACCCCGCCGCCGAAA
CCTCGCCACAGCCAAAGCCCACGCCCACCAAATTTCCTGTGGCCGACATG
AGAACACTGGAGCGTACCCTCCGACAATTTTAGTCTCGATTGGTGTCCCA
GGGGTCGAGTTCTACTTGGTGCTGTCTCCTGTTGTGCTCAAGAAGTAGCT
TTACAAACCGTTTGGGCTCTCTGTTATTAGGAGGGAGGGGGTACCTCAGG
AGAAAAACACAGGACCAAATAACAGCCGTAAGAAACGGTCTAAAAACCAA
TTGATAAAAAACATCAGCGTTCTCCTCGCTAAAATAAAATGCTGAAGTAT
ACTTTAACAAAACCAGTTGGCCTGTTCATTCAGCTACTACGATGAGTTCC
TGAATGACGATGGACGTCGTATCATATTGGTACCACAGCATATCATCAGA
TGATTTCTCTTCGATAAGGTTTGTGCTGTTTGACCTGGCAAAGCTTTGCA
GCGGAGTTACATATGTCTTTACTGTAGGTGTTTTTATTGCCGGCGGGCAT
ATGAAACCCTCTCGGATCTTTAAACAAATGGGGGCAACATCCGTGGGCCG
AAAAAACATACAGCCCATCTTGTGGAAACCACGGCTCAATGTGGGCACGG
ATTTTTGCCAGGCCTGGTTTTGTTTTGTTTCGAGAAGCGTGTTGCATTAG
GGACACGGGCTTTACGTATACAGCGGAGGAGGAGGGCCGCCCATAGCAGC
ACAAGACACACTCGCTCACGGCAAGCACCGTAGCACGGAACGCCACTCAC
ACACTGGTGCTTCCACGCACAACAAAAGCACAGCAGTAGCAGGCCTCCAT
GCTGGAATTGTTGAACCTAGAGGTCACCACGGCCGCGGAATGGGTACTAA
ACAGGATGAAAAATAGCTACAGCAAGAGCGACGAGCTCCCAATGTCGCCC
CCTGTCTCCTACGCTTGAAGCAGGCTCCATCGTGCGGCGGGTGTGGGATT
GTGGTGTGGTAGGTGCTCTTGTTGGTGTGCGAGCTTGTGTGCGCTCACAA
TAGAACAGCTCGGGGATGCGGCACGACCCCACTTTGTGGGTTTACACAGA
CATAACTCAACGTTCGTGAGCCAAAATTCGGGGATGCCGAGCCACGGATA
TTGGGTCAAACATCCGTGAAAAATTGGAGTCGTTCCGCGATAGCACCCCC
GAAAACAGCGATGTTCTTTAACGAACGTTTCATGGCTTTGAGAGACTAGT
GGAAAAAAGAAAAGTAAATCTGAAATGTGTACACCAAGGGCTATCAAAAA
ATGAAGTCGCTATCGTCAGAGGCGTCAGACTTCCGATTGTCGGGCCAGGC
CAGGAACTGGTTTCAAAACCACCTATTTTCGTTAAAGAAATCGAGGGGGG
GCTATCGCGGAACGACTCATTGTTCACGATGTTGGTCCAAGGATTTTAAA
GATTCTAAATCGCCAACATCCGTGCCTATAAGATGGGTTTTCCACTATGT
TTAAAAATCCATGGACCAACATCGTGGACTATAAGACCCCGCCTAAAGTA
CTCAAAACATCCCGTGGAATCCCGTTTTGGGTGGGTGTTCTTTCTTTGAT
GTTATTTTATTCTTCTCGAAAACACCATGAGACCCCACAGAGAGGACTTG
TGTAACGAGGAACACTTGTTGACCACCTACATTACAACTGTCTTATGAAG
CACGCACAGCAGTAAACAAATTACATGCGCCTGTCCACTGGCTTGCACAG
CAGGAGTAGCAACAGAATTCCACTCGTTCGTTCGATATGCTGTTGTGTGT
TGTGCTTCAGAGGTTGTGACACGCAAAACATATCTTATCCTTTCGCCTCT
CACACACAACTCACGCACAACTACTCGTAGCACGCGCACATCAGTCCATC
TACACATACCATCTACCATGACCAGATGACATGCCAACAACCATGAACAG
ATGCACAGCAGTCGTAATTTTTGGCACACAGCAGCGGCAGCCGGCGATCA
TTTTTGCTGCTCAGGCAATACAGCCGTATGTCCCATCTTATGAGGAGTAA
AGAGGTAGAAATGGGTATTTTGCAAGCCCGCAGGGCTGGCCACTGGGCCC
CAGGAAATAAAATATATACGAAGTATGAATTAGCTATGATATGGCTACAT
TTTCGTCATTTTCGTCATTATTGTCGAAGGCGTGCGGGTCGTGCCGCGTG
CTTTTCCCTCAGCGTTTTTTCTTAGTTTTTAGGGTAACGCGACGTCTGTG
TGACGCAGTTTGTCTTTGAACGCACAAAGACGGGCTGGACATGACGCCAA
TGTGATATGATGATGTACATTGATGTGCGAAGGCGTGAAGCATAACGAAG
TGTGGTCTGATGCCATCGCACACAGAGCAACTCAAATAAACAGAACAACA
GAGAGCGGTGGGCGTAACGCAAATGTCATGCCCAAGCAATCATCGCCGGC
GGCGGCGGATGGATGTGTTGCAGGCACTGTTCCGCGAGCGAACATGTAGA
TATCCTGCGGCAGATAATTCAGACAGAAAGACAGACGCTGTTCTGCAAGA
TCGCACCCACCCGCGGAGCGTTCTGGGTATGTCGACTAGAGTTAGTCGTG
AATCAACTTGAAAAGTGCTGATTATTTGATATCATGATTGATTTGATAAG
ACTACATACAGTTGACACAACGATCATATCTCAACACCTCAAAATTTTCA
ATGATTTTTCAAGTATTTTTGTCACTCTGTGACTCTTGTTGATTTTGATT
TTCTTTTTGTGATCTGGCTCTGAACCTGGCTCCCCTTTCTTGTTGTATTT
TTGTACAGCGTTGTGTGATTCCTCGGGGTCCGTTTTAGTTTTTCCGGAGT
CTTCTTGTCGTGCCTTTGTTTGGTGGACTGAGGGGATCTCCTCCGCGTAC
TATATACAAGTACCTCTCTTTTGGGGGCAAGCAGCCTGTGACCACGAAAA
TCGTCCCTGATCGGTGGAGTACGGAGACATTAGAGGGTACTGAGGAGAGA
TCGGAGTGGTTTTTAATGTGAAGAGACAACAGCAACAACAACAAGAACAA
CAACAACAACAACAACAACAACAACAACAACAACAACAACAACTATCATG
ATTATTTGATTAATCAACTACTGTATTATTTGATCATTAGTCTATTGTTG
ATTCATTTAGGAGCAAAAAAGTAGAGGCGTTTGCAGTGTGGAACGGCTTA
TTTGCCTGCGGCGCGGCGCAATCACACGCGAAACGACTGACGATGCGTCA
CGCGGCGCACTCACACGCGCGCGATAATGCTACAGTTCAGCGTTATTTAT
ACTTCGAAGTGATCAGCTCTATACCAAATCCAATGTGTTGTTACATCAGA
TCTGTTTTACTTCTTGTAAAACCTTGTTCATAACTTTTTCCCTGAAGATG
CTACTACTCCTTTATACATGTTTGTTGTGTTTGTCTACGAATGCCCTCCC
TCAGTCTTTGTGCCCTCCCTGTATCTTCTTCTTTTTTATTTATTTTTTTC
CTTTCGTCTGTTGATCATGTAGTTACTGGACCATCGCCCTGGTTTGCGTT
TGCCTTGGTCTGTCATGGCCCTGGGCCCTGGTTCGATGTACGAAGTCCTT
CGAAGTATATGGTTATGGTTGAGGTTTGTCTTGGTTATTTTTTGCTTGTC
GGACTGTTTCCAATTTTTGTTTTTCTTTCGAGCCTGTTATTTTTTTCTGT
ATTTGTTTGGTATTCTGGCCACCACAGATGGTACCCCAACGGTACCATAT
CTGATTTGACTGTGGGTGATCATAGTCCATATATTTTATTTTTTTATTTT
TTCTCCTAGCACGATATGTGCCTGGTTTGTGACCACGGGCTAGACTGCGG
CGGTAGTGAGCTAATGTGAGAATCAACAACAACAACAACAACAACAACAA
CAACAACAACAACAACAACAACAACATACATAATATACTGCTGTAGGGTT
AGGTCGGTGTAGGCTATAATTTATTGTTGTACACTATAAGATAGAACTAC
GGTACAGCAGCAAGCAGTATAGACTGGCGGCGTGCTGTGCGTACTTCGTC
CCATCATACCGTGTGTACGAAGTAGTAAAGTCTACATTCCCTACATTATG
TATTATTGCAGACCATTTATTATCCTGTATTCTGTCGCGGCGGCTCTTAC
TGCTTTATTATGTGACGTGGTATCGCAACTTACTCTCGATCTACACTATA
CTACTTCTATCTATCCCACCTGCTCTGTAGACCACATACAACACCCGGAG
ATGCATGCATGCGAAAGAATGCACTTTAGGCTATTTCCTTTATTTATTTT
TGCTCGAACTCACGCAGTCTTTTCTCTCTCGTTCTCTCTCTGTTGTCGAA
ACGTAAGAAAGCGTTGTTTGGCGACGAACGACTAGCATCTGCAAATTCGG
CGCAGTCTTTTTTCTCGCTCTCTCTCTGTTGTCGAAACGTAAGGGCGCAT
TTGGCTAACGGCAAGCGTCTGCATGCAGACCCACGAACACACATCAAATA
CCCCCTGCAGCACTGACTTGAGTATACCAATGCATCGCGTCCAGACTGTC
ACGGGTCTTTGAGCCCAAAATCATAATCATATCGCTTCATTATCATATCG
CTTCATTTTATCCCGCTTCCGCGTCCCGTGCTTCGATGCTGGCTCAGAGT
AAAGTAAGGCCAAAATGCTATACGGAGTACATGCAGCGCAATTACATCTA
TCTGTGTAAGTCAATATTTCTCTCGTTCTCTCTCTGTTGTCGAAGCGAAA
GAAAGCCTTTGGCGAACAACCAGCGTCTGCAAACTCGGCCAAGGAAGCAC
CCAACTGAGCTAAAACTTTCTGGAGGCCTCTGAGATCGTCTTAGACGTGC
AATGAGCTCGCCGGTTGTGTCGCACTCGATCGGCTCTAATTTTTCCAATT
TTTCCGTGGTTTGGAGCTTCCGTCTGAGACCGATGTACATACATACATAC
ATACATACATACATACATACATAAAAATGTTTTACCGTTCCGTAAGTACC
CCTCAGTTAACACTGAGGGAATTCTGGATTCAGAGGGGTGTGGATTAGAA
AAGGCTATTGTCAAGAGCGACCATTCCGCAGTACAAGAGGGCAGGAGGCG
GCACCTCGATTACTGGGTAATCCTTCTACCTTTCCGGTGACCTGTTGTGA
GCCCTTGCTATGGACCCTGACTGTATATATGTCAGGTGCTCAGGTGTAGA
GTTTCCTCCCGGGTTGGTCACATTACACATTTATTTGGCTGATTCTCGGG
AAAATATCAGCTGGTTCTGACTTTGAAGCCGCGCCAATCAGGCAGCCCAG
CCAGATTCGCCCGGACCTATGCATATGTTAAGTGTTGTCATTCTGTCTCT
TCTACGTATACACGTTTGCAGCAGTTTTACAGGCGGGTGTTTATCGACAG
ATGGGCTAAGAATGACTGGGGGGTGAAAGTTGGGTTACTCGCGGGTGGGG
CGGTGTTTGAGTGCATCGCTGCAGATATGAGAGTCCGTCGGTTCAGCACG
ATTTTTTTATTTGTGGGGTTGCATCAATGATGTGAATGGGTGCGTTTGGT
GACACTGTAGTGTAAAACATGGCGACAAGGTTTGGTTATCTCCCTGTCCT
CCTCTTCTTGGCCCAGGTTTCCAATTTCACGGGTCGATTGAACACCAAGC
CTTCGGAAAATTCCAAGACTCCTCGATGCGAGGCTTCCAAAACACATCGC
TGATTTACACATTGCGACGTACCGAGTACAACTCCCCCCCCATCCCTTGT
TGTGGGAAAATCATTCCCCCGTTTTGGTGTAGAAATGGGTCAATGTTGGC
GCCTTCCGTTTCTGATTAGTTCAGGGTAAACGAATGAGGACGTGGATTCA
TCTTCTCTCATCGATAAACTTTCGTTGGGGTTTTCTTGTCCAGGCAATAC
TACGTGACTGGCGATTTGACGCCTTCGCTCTACCGGCCCGACTGTTTCTT
CACAGATCCCACTACCAGGTGAACTTTGCGATAGATACGTTTTGCGTGGA
GAAGGGTTGGATTCCCGGGCGTTCTATGTTGTGGGAAAATATGCTGATTG
TGCCAGATGCATATCAAATCCTAGTCATCTCGCCACTCAGATCATGCCAA
AATACCTTCGAGTGATTTCATACGGGGGGCGTGAGCTGTACGTACGAGCC
TCTGCCTCGAAAAACGTCAAGTGTAAGGACCCGCCAGAGACTATCGTGTT
CCCTTTGGCTCTGCTTTGTTCATTGTGTGACTTTGATGTGCACTGTTATC
ACAAGCAAATGAGTAAAATCTCTCCTGAGCGAGTATATTCCACCTGCGAG
ACCATATGTGGCCTGCCCACTTGTTCCTTCAGTTGTAGGACTGACCCATT
GCGTACACTTAACAAGCATCAATGTGTCGGTCTACGGTTGGCAGAGTTGC
TAGCGTGGATAGGTACGTGGCGGCGGTCAAGCTTCTGTTCGACCCTGACA
ATGCCCAGGTCGACCTTCTCTCCTTGAAAGTGAAGGTAAGCCGAGTGCCG
ACGGATGCATGACTGGATGCGACTTGACTTTTGATGACGCATCCGGTACA
AGCATATCTTGATCGGCCACTCGCCATAGCTTCTATCCCCTATTCCGCTA
TTTTAACTTTAAGTGGAATGCTCAGAAACCTTGAGCCACCACAACAGCCA
CAAAAATGATGTCCAGGTTCAGAGCCTCCTTTTTCGTCCGTCCGTCCGTC
CGTCCGCCCGTCCGTCCGTCCGTCCGTCCTCCTGTTGAAGTCACGGAAAG
TCACGGAACTTAGTTTGTTAGCGCCGTCTTTGCAGCTCTATCCCCGCGCT
CTGTAGAGATCCCTGCTGTTCCTCTAGCGTGTTGGCTCAGCCTCTCAACT
TGAAGTGTCCGCATTTCCTGCGCATAGCAGCTTTGTGCGATCAATCGATG
AGAGTCATACCTGTTACCCTGTGGCCCAACCCGTGCAAGGGTTTCCCCTC
AGAATGTGCCCCACTGCTACCTTCTGCACAATCGAATCACTGTGGACTCC
GTGCCGATATTTCACAACTTTCAAGCACATAAAACACGACGACAATCTTG
CGAAACCAACCAGCAACTGGTGAGTAGCTTTCCTTCTCCCTTACACAAAT
TCCTTCATTTTTCCTTGTTCAGGACGACACTCACATTTTCGCGGAGTGGC
GGCTCCAGGGCTACCTCAAGTTCCCTTGGCACCCTTACGTCAAGCCTTAC
ACGGGCACTACTCTGTACACGCTCGACTCTGAAGGTTTCATTACAAGCCA
CCAAGAGACGTGGTCTATCACCGCGCTGGATGCGGCTCGGGCCACGATAA
CCCCGACCGCGGGGCCACAGGCAGCGAGGTCCACAGAGAAGGCATCTTTG
TAGGGGTTTCCGCAAAGCTGGGATATATGTTTTTTTTTGTGATGCTCGGA
TATTCACGTAGTGTCCGCGATGCTGGGGTATTTCCGTAGATCTCACGACA
AGTTTACGACCGCCCGGGAGCCCCTCTTCGACTAAAAGTAGGTTGCCCCG
GACATCTCAAATGCCAAGCGTGATAGTTAGCTAAGTTCGTACTACGGAGT
ACTGCAGATGTGGCATCTTAATTGCACAGAGTCGCGGAATTACCGGCCAG
CCGAGGTACTTGGGCAGGGGGGTACCGGTACGTTTTTATGTCGCCATGCA
TTTTTAACGTTTCTGACTCTCGGCTTTTTTCACCTCTAGGCAACAAAAGA
TTGTTCGTTCCACGAAGTTGGGACAAGTATTCGGGGAAACAAATGGTGCG
CAGCCAAGTGCTGGTTCGGAGAGTTTAAGCGTCACGCTGTCATGGTATTC
TAGAGGGAAACGGGAAGGGCATCGGGTGTAAATAGTGTATCCTGTACTTT
CCTAGCATGTTACAGCATCTAGACAATCCCCGTAGAATTTCGTGCAACGA
GTAAGGTACCCGACGCATCTCCGCAGTATTGCGTGCATTTCGAACCGTAT
CCAATTGGCCAGTGGGGATACTTTTCGTATCTGTGCAACGATTAATTAGA
TTCGTCGAAGCGGACGAAACTCTTTTGGATCGCGGCGGTGTACGAGTACA
GAGTGGAATGTTTCGTAGTTGGCAGTGCAGGTACGGAACCTTTTGAGAGC
TGCCCTCATAGAACATATTTAGTGCAGCCAGAAAGGAACAAAATACAAGT
ACAATAAGGATGCATGAGGTACCCTCGGAAACTTCTCGCCAGCCTACTAG
AGGACGAGCAGGCTAGAAGGTAAAGGATGAACGAGAGAGAAAGCAACAGC
AGCATATCAGCCCAGCTTGCTCACACATAGTCGGACTCGCTACACACTGT
ATAATCCCGTTGCGCCGGCGTCGATGGCAAAAAATAAGAGGGATCAATTT
GCCACCACGGTTTTACAAAATCACAAGAACCACGCCCTTGTCTTTGCCAG
CCTTATACAAGCAAAGTTTGTGAAATGGGGGTCATTTTGTCATCATCACG
TG
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Coding sequence (CDS) from alignment at P-littoralis_Contig783:56592..71243-

>mRNA_P-littoralis_Contig783.12.2 ID=mRNA_P-littoralis_Contig783.12.2|Name=mRNA_P-littoralis_Contig783.12.2|organism=Pylaiella littoralis U1_48|type=CDS|length=816bp|location=Sequence derived from alignment at P-littoralis_Contig783:56592..71243- (Pylaiella littoralis U1_48)
ATGTTGACGTCAGGCCTCCTCGCCTTACTATTGGGGTCCAGTGCCATCCG
TAGGACACTAGCGGGAGCTGCTTTCCAGACTCACCATACTTTCCTCAGAA
GTTCAAACGCTGTTGTCCGGCGTACCGCACCACAAGCTCGATGCTCATCT
GCGCCTCGAAAAGCATTGCGTTGCAACATAAAAAAGGGGGAGGATGCCTC
GCTTGGCCGCCTTGAAGTTTCTGACCGTGAAAACCTGGTGTGCAACGTGG
ATGTCAGATCATCACGACTAGAGTTTTTTGGAAGCGTTGCGGCGGGATTA
GGCGCAACGACAAGAGCAGCCGCAGCAGCGCAAGGAGCAGTGACGACAGC
AAGCTTTGATGGGGCTACAAGGAGCGTGGAGGAAGTGAAGAAAGCGATAG
AGGCAGACTTCCTCTCAAGGCAATACTACGTGACTGGCGATTTGACGCCT
TCGCTCTACCGGCCCGACTGTTTCTTCACAGATCCCACTACCAGAGTTGC
TAGCGTGGATAGGTACGTGGCGGCGGTCAAGCTTCTGTTCGACCCTGACA
ATGCCCAGGTCGACCTTCTCTCCTTGAAAGTGAAGGACGACACTCACATT
TTCGCGGAGTGGCGGCTCCAGGGCTACCTCAAGTTCCCTTGGCACCCTTA
CGTCAAGCCTTACACGGGCACTACTCTGTACACGCTCGACTCTGAAGGTT
TCATTACAAGCCACCAAGAGACGTGGTCTATCACCGCGCTGGATGCGGCT
CGGGCCACGATAACCCCGACCGCGGGGCCACAGGCAGCGAGGTCCACAGA
GAAGGCATCTTTGTAG
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