mRNA_D-dichotoma_M_contig1004.133.1 (mRNA) Dictyota dichotoma ODC1387m male

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

Overview
NamemRNA_D-dichotoma_M_contig1004.133.1
Unique NamemRNA_D-dichotoma_M_contig1004.133.1
TypemRNA
OrganismDictyota dichotoma ODC1387m male (Dictyota dichotoma ODC1387m male)
Homology
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BLAST of mRNA_D-dichotoma_M_contig1004.133.1 vs. uniprot
Match: A0A6H5KGL7_9PHAE (SGL domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KGL7_9PHAE)

HSP 1 Score: 129 bits (324), Expect = 1.240e-30
Identity = 61/107 (57.01%), Postives = 77/107 (71.96%), Query Frame = 3 
Query:  339 NLGQRPEVENSWIERL-DARLDDIMPVGAKVELVAEGFGFTEGVQWVHGNEEGTGHLIFSDVINNKIWKWEEADGLHSQETSVFLESSGCQGELCSSLRFPGSNGLL 656
            +L Q PEV  S I+RL   +LDDI+P GA VE+VA+GFGFTEG QWVH  E    +L+FSD+ NN+IWKWEE  GL +   S+FL+ SGC+G  CSS+   GSNGL+
Sbjct:   33 HLNQYPEVAGSSIKRLVPEQLDDIIPRGATVEVVADGFGFTEGTQWVHDTEADRQYLLFSDIANNRIWKWEEGGGLFTLGKSLFLDRSGCRGAHCSSMEMSGSNGLM 139
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BLAST of mRNA_D-dichotoma_M_contig1004.133.1 vs. uniprot
Match: A0A835YH00_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YH00_9STRA)

HSP 1 Score: 107 bits (267), Expect = 2.900e-22
Identity = 47/95 (49.47%), Postives = 67/95 (70.53%), Query Frame = 3 
Query:  375 IERLDARLDDIMPVGAKVELVAEGFGFTEGVQWVHGNEEGTGHLIFSDVINNKIWKWEEADGLHSQETSVFLESSGCQ--GELCSSLRFPGSNGL 653
            +ERL   LD+++    ++E+VAEGFG+ EG  WV   E+G  +L+FSDV+NN++WKWEE  GL +   +VFLE SGC+   E C+ L+ PG+NGL
Sbjct:   68 VERLSPLLDELIDPATRIEVVAEGFGWAEGPVWVSDKEQGREYLLFSDVVNNRVWKWEEGGGLFTLGKTVFLERSGCRTDAERCAQLKEPGANGL 162
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BLAST of mRNA_D-dichotoma_M_contig1004.133.1 vs. uniprot
Match: A0A317HD35_9BACT (Gluconolactonase (Fragment) n=1 Tax=Bacteroidetes bacterium TaxID=1898104 RepID=A0A317HD35_9BACT)

HSP 1 Score: 79.3 bits (194), Expect = 3.350e-14
Identity = 50/133 (37.59%), Postives = 76/133 (57.14%), Query Frame = 3 
Query:  375 IERLDARLDDIMPVGAKVELVAEGFGFTEGVQWVHGNEEGTGHLIFSDVINNKIWKWEEADGLHSQETSVFLESSGCQGELCSSLRFPGSNGLLWCYSINGQIRRYNC*YRKNAVCTWHCRPVSMPFQRTTRD 773
            I R+D  LD ++   A +E++A+GFG++EG  WV    + +  ++FSD+ NN I+KW+E +GL     SVFL+ SG  G L  S   PGSNGL+    IN Q +   C +    + +    P+S+  +RT  D
Sbjct:   33 IVRIDPALDKLISKEAVIEIIADGFGWSEGPVWV----KDSNFVLFSDIPNNTIFKWKEGEGL-----SVFLKPSGYTGRLPYSWG-PGSNGLI----INKQGQLVACEHGDRRISSM---PLSLGGKRTLAD 148
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BLAST of mRNA_D-dichotoma_M_contig1004.133.1 vs. uniprot
Match: A0A7V5PZE3_9PLAN (SMP-30/gluconolactonase/LRE family protein (Fragment) n=1 Tax=Planctomycetaceae bacterium TaxID=2026779 RepID=A0A7V5PZE3_9PLAN)

HSP 1 Score: 77.8 bits (190), Expect = 1.630e-13
Identity = 41/94 (43.62%), Postives = 58/94 (61.70%), Query Frame = 3 
Query:  372 WIERLDARLDDIMPVGAKVELVAEGFGFTEGVQWVHGNEEGTGHLIFSDVINNKIWKWEEADGLHSQETSVFLESSGCQGELCSSLRFPGSNGL 653
            +IERLD   D ++P GAK+E++A GF ++EG  WV         L+FSD+  N+I KW+E +G+     SVF+E SG  G+   S   PG+NGL
Sbjct:   29 FIERLDPAFDSLVPAGAKIEVLASGFEWSEGPVWVPRGS----FLLFSDIPRNRIVKWKEGEGI-----SVFMEPSGYTGKPRFSGSEPGTNGL 113
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BLAST of mRNA_D-dichotoma_M_contig1004.133.1 vs. uniprot
Match: A0A317H6J1_9BACT (Gluconolactonase n=1 Tax=Bacteroidetes bacterium TaxID=1898104 RepID=A0A317H6J1_9BACT)

HSP 1 Score: 80.9 bits (198), Expect = 1.750e-13
Identity = 58/167 (34.73%), Postives = 89/167 (53.29%), Query Frame = 3 
Query:  273 ILLLLSLSFSLNYMMRCSSLSLNLGQRPEVENSWIERLDARLDDIMPVGAKVELVAEGFGFTEGVQWVHGNEEGTGHLIFSDVINNKIWKWEEADGLHSQETSVFLESSGCQGELCSSLRFPGSNGLLWCYSINGQIRRYNC*YRKNAVCTWHCRPVSMPFQRTTRD 773
            ++LLLS+S  +N+          +GQ        I RLD  LD ++     +E++A+GF ++EG  WV    + + +++FSD+ NN I+KW+E +GL     SVFL+ SG  G L  S   PGSNGL+    IN Q +   C +    + +    P+SM  +RT  D
Sbjct:    7 LMLLLSVSLLINFNQTGFCQVRTIGQ--------IVRLDPALDKLIGKETVIEIIADGFAWSEGPVWV----KDSSYVLFSDIPNNTIYKWKEGEGL-----SVFLKPSGYTGRLPYSHE-PGSNGLI----INKQGQLVACEHGDRRISSM---PLSMGGKRTLTD 148
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BLAST of mRNA_D-dichotoma_M_contig1004.133.1 vs. uniprot
Match: A0A327WU70_9BACT (Gluconolactonase n=1 Tax=Larkinella arboricola TaxID=643671 RepID=A0A327WU70_9BACT)

HSP 1 Score: 80.5 bits (197), Expect = 2.530e-13
Identity = 50/132 (37.88%), Postives = 71/132 (53.79%), Query Frame = 3 
Query:  258 KKATPILLLLSLSFSLNYMMRCSSLSLNLGQRPEVENSWIERLDARLDDIMPVGAKVELVAEGFGFTEGVQWVHGNEEGTGHLIFSDVINNKIWKWEEADGLHSQETSVFLESSGCQGELCSSLRFPGSNGL 653
            KK+  +LLL S+S+              L Q P      IERLD +LD ++P  AK+E++A GF ++EG  W+ G+    G+L+FSDV  N ++KW E +G        F++ SG  G    S   PGSNGL
Sbjct:    2 KKSALLLLLTSISYGA------------LAQTPYPTIGSIERLDPKLDALLPKDAKLEVLASGFDWSEGPVWIKGSGNTDGYLLFSDVPQNTVYKWSEKEGC-----KPFMKPSGYTGVAPYSGE-PGSNGL 115
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BLAST of mRNA_D-dichotoma_M_contig1004.133.1 vs. uniprot
Match: UPI0019137905 (SMP-30/gluconolactonase/LRE family protein n=1 Tax=Brevundimonas vitisensis TaxID=2800818 RepID=UPI0019137905)

HSP 1 Score: 80.1 bits (196), Expect = 3.370e-13
Identity = 43/94 (45.74%), Postives = 60/94 (63.83%), Query Frame = 3 
Query:  375 IERLDARLDDIMPVGAKVELVAEGFGFTEGVQWVHGNEEGTGHLIFSDVINNKIWKWEEADGLHSQETSVFLESSGCQGELCSSLRFPGSNGLL 656
            +ERL   +D I+   A ++++AEGF ++EG  W+    EG G+L+FSDV NN+I +W EADGL     SVF+E SG  G    + R  GSNGL+
Sbjct:   39 VERLSPAMDGIVAPDAVIQVLAEGFTWSEGPVWI---AEG-GYLLFSDVPNNRIHRWSEADGL-----SVFMEPSGYDGPATDAFREAGSNGLI 123
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BLAST of mRNA_D-dichotoma_M_contig1004.133.1 vs. uniprot
Match: A0A1H5ZL53_9BACT (Gluconolactonase n=1 Tax=Algoriphagus boritolerans DSM 17298 = JCM 18970 TaxID=1120964 RepID=A0A1H5ZL53_9BACT)

HSP 1 Score: 79.3 bits (194), Expect = 5.780e-13
Identity = 42/93 (45.16%), Postives = 58/93 (62.37%), Query Frame = 3 
Query:  375 IERLDARLDDIMPVGAKVELVAEGFGFTEGVQWVHGNEEGTGHLIFSDVINNKIWKWEEADGLHSQETSVFLESSGCQGELCSSLRFPGSNGL 653
            +ERLD+ L+ ++PVGAK+E++A GF + EG  W+   +     LIF+DV  NKIWKW E D L     S++L  SG  G+     R PG+NGL
Sbjct:   34 VERLDSALNALIPVGAKIEVLASGFEWAEGPLWLEEQQA----LIFTDVPTNKIWKWTEKDSL-----SLYLSPSGYLGDRTDK-REPGANGL 116
[Close]
BLAST of mRNA_D-dichotoma_M_contig1004.133.1 vs. uniprot
Match: A0A3N4VEX9_9GAMM (Gluconolactonase n=1 Tax=Vulcaniibacterium tengchongense TaxID=1273429 RepID=A0A3N4VEX9_9GAMM)

HSP 1 Score: 79.3 bits (194), Expect = 8.610e-13
Identity = 41/90 (45.56%), Postives = 57/90 (63.33%), Query Frame = 3 
Query:  384 LDARLDDIMPVGAKVELVAEGFGFTEGVQWVHGNEEGTGHLIFSDVINNKIWKWEEADGLHSQETSVFLESSGCQGELCSSLRFPGSNGL 653
            L+A    I+P  A+VE VAEGF + EG  W+ G++ G  HL+F+DV  N++++W   +GL     SVFLE SG  G    +LR PG+NGL
Sbjct:   80 LEAAFRRIVPADARVEPVAEGFTWAEGPAWIAGSDGG--HLLFTDVPENRLYRWSPREGL-----SVFLEPSGYAGPPLDALREPGANGL 162
[Close]
BLAST of mRNA_D-dichotoma_M_contig1004.133.1 vs. uniprot
Match: UPI0019D3FA87 (SMP-30/gluconolactonase/LRE family protein n=1 Tax=Algoriphagus pacificus TaxID=2811234 RepID=UPI0019D3FA87)

HSP 1 Score: 78.2 bits (191), Expect = 1.600e-12
Identity = 45/103 (43.69%), Postives = 61/103 (59.22%), Query Frame = 3 
Query:  375 IERLDARLDDIMPVGAKVELVAEGFGFTEGVQWVHGNEEGTGHLIFSDVINNKIWKWEEADGLHSQETSVFLESSGCQGELCSSLRFPGSNGLLWCYSINGQI 683
            I+RL   LD ++P  AK+E+VA GF ++EG  W+    E    LIF+DV  NKIWKW E D L      V+LE SG  G+   + R PG+NGL+   +  GQ+
Sbjct:   47 IQRLQPELDQLIPEEAKIEIVASGFDWSEGPLWL----ESMDALIFTDVPQNKIWKWSEKDSLE-----VYLEPSGYFGDE-KNKREPGANGLV--LNAEGQL 137
The following BLAST results are available for this feature:
BLAST of mRNA_D-dichotoma_M_contig1004.133.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5KGL7_9PHAE1.240e-3057.01SGL domain-containing protein n=2 Tax=Ectocarpus T... [more]
A0A835YH00_9STRA2.900e-2249.47Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
A0A317HD35_9BACT3.350e-1437.59Gluconolactonase (Fragment) n=1 Tax=Bacteroidetes ... [more]
A0A7V5PZE3_9PLAN1.630e-1343.62SMP-30/gluconolactonase/LRE family protein (Fragme... [more]
A0A317H6J1_9BACT1.750e-1334.73Gluconolactonase n=1 Tax=Bacteroidetes bacterium T... [more]
A0A327WU70_9BACT2.530e-1337.88Gluconolactonase n=1 Tax=Larkinella arboricola Tax... [more]
UPI00191379053.370e-1345.74SMP-30/gluconolactonase/LRE family protein n=1 Tax... [more]
A0A1H5ZL53_9BACT5.780e-1345.16Gluconolactonase n=1 Tax=Algoriphagus boritolerans... [more]
A0A3N4VEX9_9GAMM8.610e-1345.56Gluconolactonase n=1 Tax=Vulcaniibacterium tengcho... [more]
UPI0019D3FA871.600e-1243.69SMP-30/gluconolactonase/LRE family protein n=1 Tax... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
D-dichotoma_M_contig1004contigD-dichotoma_M_contig1004:236289..250456 +
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
OGS1.0 of Dictyota dichotoma ODC1387m male2021-02-24
Properties
Property NameValue
Taxonomic scopeEukaryota
Seed ortholog score129.8
Seed ortholog evalue1.1e-27
Seed eggNOG ortholog2880.D8LLF0
KEGG rclassRC00537,RC00983
KEGG koko:K01053
KEGG ReactionR01519,R02933,R03751
KEGG Pathwayko00030,ko00053,ko00930,ko01100,ko01110,ko01120,ko01130,ko01200,ko01220,map00030,map00053,map00930,map01100,map01110,map01120,map01130,map01200,map01220
KEGG ModuleM00129
EggNOG free text desc.SMP-30/Gluconolaconase/LRE-like region
EggNOG OGs2S8F6@2759,COG3386@1
EC3.1.1.17
COG Functional cat.G
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
BRITEko00000,ko00001,ko00002,ko01000,ko04147
Hectar predicted targeting categorysignal peptide
Exons5
Model size1035
Cds size483
Stop1
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1622927483.137885-UTR-D-dichotoma_M_contig1004:236288..2365061622927483.137885-UTR-D-dichotoma_M_contig1004:236288..236506Dictyota dichotoma ODC1387m maleUTRD-dichotoma_M_contig1004 236289..236506 +
1690797993.9446354-UTR-D-dichotoma_M_contig1004:236288..2365061690797993.9446354-UTR-D-dichotoma_M_contig1004:236288..236506Dictyota dichotoma ODC1387m maleUTRD-dichotoma_M_contig1004 236289..236506 +
1622927483.2109892-UTR-D-dichotoma_M_contig1004:250122..2504561622927483.2109892-UTR-D-dichotoma_M_contig1004:250122..250456Dictyota dichotoma ODC1387m maleUTRD-dichotoma_M_contig1004 250123..250456 +
1690797994.0183132-UTR-D-dichotoma_M_contig1004:250122..2504561690797994.0183132-UTR-D-dichotoma_M_contig1004:250122..250456Dictyota dichotoma ODC1387m maleUTRD-dichotoma_M_contig1004 250123..250456 +


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

Feature NameUnique NameSpeciesTypePosition
1622927483.1498785-CDS-D-dichotoma_M_contig1004:236506..2367131622927483.1498785-CDS-D-dichotoma_M_contig1004:236506..236713Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1004 236507..236713 +
1690797993.9614627-CDS-D-dichotoma_M_contig1004:236506..2367131690797993.9614627-CDS-D-dichotoma_M_contig1004:236506..236713Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1004 236507..236713 +
1622927483.15952-CDS-D-dichotoma_M_contig1004:240022..2400851622927483.15952-CDS-D-dichotoma_M_contig1004:240022..240085Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1004 240023..240085 +
1690797993.9770024-CDS-D-dichotoma_M_contig1004:240022..2400851690797993.9770024-CDS-D-dichotoma_M_contig1004:240022..240085Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1004 240023..240085 +
1622927483.1727304-CDS-D-dichotoma_M_contig1004:245705..2457651622927483.1727304-CDS-D-dichotoma_M_contig1004:245705..245765Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1004 245706..245765 +
1690797993.9861767-CDS-D-dichotoma_M_contig1004:245705..2457651690797993.9861767-CDS-D-dichotoma_M_contig1004:245705..245765Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1004 245706..245765 +
1622927483.1880684-CDS-D-dichotoma_M_contig1004:246262..2463731622927483.1880684-CDS-D-dichotoma_M_contig1004:246262..246373Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1004 246263..246373 +
1690797993.9970427-CDS-D-dichotoma_M_contig1004:246262..2463731690797993.9970427-CDS-D-dichotoma_M_contig1004:246262..246373Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1004 246263..246373 +
1622927483.1986887-CDS-D-dichotoma_M_contig1004:250080..2501221622927483.1986887-CDS-D-dichotoma_M_contig1004:250080..250122Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1004 250081..250122 +
1690797994.0080047-CDS-D-dichotoma_M_contig1004:250080..2501221690797994.0080047-CDS-D-dichotoma_M_contig1004:250080..250122Dictyota dichotoma ODC1387m maleCDSD-dichotoma_M_contig1004 250081..250122 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_D-dichotoma_M_contig1004.133.1prot_D-dichotoma_M_contig1004.133.1Dictyota dichotoma ODC1387m malepolypeptideD-dichotoma_M_contig1004 236507..250122 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_D-dichotoma_M_contig1004.133.1

>prot_D-dichotoma_M_contig1004.133.1 ID=prot_D-dichotoma_M_contig1004.133.1|Name=mRNA_D-dichotoma_M_contig1004.133.1|organism=Dictyota dichotoma ODC1387m male|type=polypeptide|length=161bp
MKRPQRAFRWIVPKKATPILLLLSLSFSLNYMMRCSSLSLNLGQRPEVEN
SWIERLDARLDDIMPVGAKVELVAEGFGFTEGVQWVHGNEEGTGHLIFSD
VINNKIWKWEEADGLHSQETSVFLESSGCQGELCSSLRFPGSNGLLWCYS
INGQIRRYNC*
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mRNA from alignment at D-dichotoma_M_contig1004:236289..250456+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_D-dichotoma_M_contig1004.133.1 ID=mRNA_D-dichotoma_M_contig1004.133.1|Name=mRNA_D-dichotoma_M_contig1004.133.1|organism=Dictyota dichotoma ODC1387m male|type=mRNA|length=14168bp|location=Sequence derived from alignment at D-dichotoma_M_contig1004:236289..250456+ (Dictyota dichotoma ODC1387m male)
GTCTACAGTACTCGGTTCGGAATTGTGCCGAGCCACAAAACTGAAAACAC
CGAGCGTAGGATACTGGAGATCCAGAGCATTCCAAAAGCGAGGTCGAAGC
AAGTGCCTTCCTTGCACGAACCTTATTGCTCAGTGCACGGAATTTGATCC
CGCCGAGAAAGGGCGACTGTGTAGTCTTGAAGGACTTGAAGAACTTGAGG
TCATCATCCTTCTCGATTATGAAACGACCACAAAGAGCGTTCAGGTGGAT
AGTGCCAAAGAAGGCAACACCAATCCTACTGCTGCTGTCACTTTCGTTTT
CCCTCAACTACATGATGCGGTGCTCATCTCTATCGCTGAATCTCGGCCAA
CGCCCGGAGGTGGAGAATTCGTGGATCGAACGACTTGACGCAAGACTGGA
TGACATCATGCCGGTTGGAGCAAAGGTTTGTTCCAATCGCTATCCTGGTA
TTTCGGATAGTAGCTGTACAAAAGATCGAGAATGAATCCTTGTACTGTTC
TTTAGGTAGCCACAGTGTGCTTGATTTGGATAGAGGACGTCGAGTCCAAA
CAGACAGTAAATAATTGCAGTCTAGAAACTTGTCAAGCGTTCGTAAGGGT
GGCAGGAACACGCGTCGCCGCACGGGTCAAGAACAACAAATATACAGGCA
CTGAGAGACCTACCAACGAAGCGATCAACTGGCTCACCTCCCCATCCAAC
ACGCTACAACCGACGTTGGTGCTCGAGAATTGATCACAGCACTGTACCGG
AATAAAACCGTGACAAAATGAATCTTTAACTGTTTCGATACTAAATCTAA
GTAAAATATTTGGACATCCATTTCGATATGATTTTGACTACTGCAGTATG
CAGTATTGTTCTGTTCTGTTCAGTAATGTCCATACGCAGGTCATTCTCGT
GGCAGTCGAATGTCCAGGAGGATGCTGCATTGTACAGGAATTGAATACTT
TACACGTGAAGTATACAACGAGAATTTTATGACATGAAACGAGTGACACG
TGGTCTACGGGGAAACCCTCGATTTTCTACATCGGCCCTGCACACCGTAC
CGGGTTCGTCTTAACAACGAAAATCAGGGAGGATGCCACGATAACCAGCC
GCTCTGTATAATCCTTACACGTGGTCGACTTCACATCCTGTGCGTAATTC
AGTTGTACCCAAGTGTTTCATTTGTAAATTGAACGACTATTATAGCATTA
TCCTCTCGGCTTGGTTTATTCACTAGACCACAATGTTTCCTTGATGCTTC
CAACTTGGACACGGAACGACGCCTCAATTAACGTTCCGTCATGCATCTTG
TTAAGGGGGTGTAGTTGAGTGGGCCCAGGACGACGGTCGATGAGGAAGAA
GGTTGATGGGGTGCACCTTACATCGGAGTCTTACAGCTTTTAAGTTTATC
TGTTTCCCGATGTACACGCTCTTATGCGCCGGGGTTAGTGCCAGATTCCT
CGTTACCAATGAAGGCGATCGTAGTGTTCATCCCAATCCTGCTCCATTTG
TACTTTGAGGAGGCTACAAAGTATCTTTCATCTCCTACGCAAGGCGTCAT
AATGGCTCCTCGTGGCGACCCGACCTTTAGTTTTCCCCAAATGTCAAACG
ACGGTTTGGACACAGTCTACCGAAAAAGTACGAGGCACCCACTCTACGTA
TCAAAATCAAACGCAATCCCGCTTTGAGTCTGGACGTACGTTAGCGTAGC
ATCTCGGACGCAGAAACCCAGAGGATGTGCATGGTTTTCGTATTATCAGA
ATAGTACAGGTTCGGAGATGTCCCTCCGGCGCATTGCCCACTCTCAGTTG
GGGCCAAGTAGCAGCACGACTGACAGTATAGTACTCCCATACTCTACCTC
CTTCCTGCAAGAAAGAACTTTGGGCATCATTTGCTATCGAAATGGGTGTG
TAACTGTCACTGAACTACCGTGTACAGTACCTGCGAAGCACATCTCAAGA
GCAGGGAACTAGAACGAGCTAAAGGCATCTTTGTGATCACCCCATTCTCT
TCTCCGCCTTTACCCTCATGATATTCCACTTGAATACGGCGTACCTTCAC
AGGGTGATGTCAGAAAGGTGACCTTGGTTTGCGAAAGTACTGGGCGAACA
TGAAGTTGAGCCGCCCTTGGAACCAAAATATCACCATGTTTTCTGGCGGT
AAGAACGAAATATATTGCCATTCTCCATGGACGTGAGATGAGTGGAATCC
GATTGTCTGTTAAACTCGATTTGAATGTACTTAGCTTGAGAGTTTATCAT
GCCATGACTGACCCAGTCGTTCGAGTTTGTCCTGATGCGTTCGGGATACC
ATTGGCACTGAACCCAAGAGATGATCGATAGTCGGTTCAGTGCGTGATTC
GCCGCCTTTCAAAAACATATTTTTTAATATTATTATTTACTGTAGATTTA
GTGTAGTTCCGGATCTGGGAGGAATTCATGCCATGCAGCGCCCAAATCGC
TTATGTTTGAGGTGCGATTTTGCATACACAACATACTCTTCGAAAGAAAT
TGCAAGAAGCTCGGTCTAGATATTTTCCGTTTTTTGCCCAACATTGGCCA
ATATTGGCCTATTTATGTATCACGTGCGCATTTAAACCGTCTTAAGTCAC
GCAAAATCACCAACATCCCGCCCAGGTCGCTTCGGATATGTTGATCTAGG
TATAAGGAACATTGTGTCATTTTTTCATGGCATACCTCGAATTATTGAGG
CTGCACCAAAGTACGGTAGTCCATGCAACAGGGCTACAGTATACCCCAAT
GATGATGCAGTACAGTCACGTGTTTCACGCGTGGACAATGCATCATTTAT
TTACACGCAAGATGTCAGGCGGCGGCTATAGCTGACGATGCTCAAAGGAA
CCGAAAAGGGTGCTACTGTGGTACTGTGGTACTGTGGTACTGTATTTCTT
GCCACAGGCTGTCAGCTGTCACCGAAGCGGAAATAGAGAGAGAGATGACC
TGTAGGCAACGCCTTTCTCTGCTGCGGTAGACGGGTGGAATCCGAAAAGG
AGGCCTTGGTCTACATGAGGGTTGTGGCGATGATGTAGAGCACTCGCGTC
ATTTCCGAGCTAGTAGAGGGTACACGCTTTGAAGCAGCAGCAACCAATCC
ACCGAAGAAAATAGCTACTGCCTCCTGTAATCCAGCTGCTTTGGTTGAAT
GTCACACGTTATATTATAAAGGGGAGCAGCAGAATGGTATCCATGGGTAA
TAGTAGGGACGTGGTTCAAAGATTCAGGAATGTAGTATATGTTGTTAGAC
ATGGGGAGTCATTATCCCAGCGTTGTGGTTCACGCCCTGAGGGCCTCTTG
TTCGATCAGTCTTTCTGTGTATTCGAGCTGAAGGCTAATGCATACTATTA
AGTGGACTCTGGGCAGTGGTAGGAAAGATCCCCAGGGAATAGTGCACTAA
AATACACCAGGTGTTACTATACTCCATTGGTAACTCGACCACGGCAGACA
GAGGCTTATGAGTCGTGAGAATCAACACTAGGTAGCACAAGTGAACCCGT
GTCATGTAAGAAGCATCTGCGCTGAATATCGCATATTTTGAGGCATGCCT
CCGTCCGCCTGTATTTGACTATCGCCAAGGCTTAAAATGAACGCCCCCGT
GTGAAAGTGCGAGCTTCGGAAGCTGTCAGAACGTACTGGAGGTTTTGGGG
CACGTTTTGAACCGATGCCCATCATTTGTGCGTCTTTTCGAGACAAAAAC
AAGCGGCAACACTTGACGGTACCCGTCCTTTCAGGTTGAACTTGTCGCGG
AGGGCTTTGGCTTCACCGAAGGGGTACAATGGGTGCATGGAAATGAGGTG
AGTCATAATATTTGCTCCCTACTATGGAAACTAGTAGGAGGTGAGTGTCC
AACGGAGGCTTGTGGTACATCATGTTACCAAGGGAAACCGTCGTTAGTTG
TGCCTCTTCCGTGTACCGCCATTGCGCGCATACAGTACACTAGAGTACGG
TGTGTGGGAGGAAACCATAGCTCCGTATCGTGATGACAGTTTCAAATCCA
TCCAAGCACGTATGGCCAAGATAAGTACCAGGTACCTTTCATTGCCATGC
TATCTCTACCGCTAGGGTATGCCAGAGACTACAGAACAGTACCTTGAAGG
CGATGTTAATGATCAGCTATGATTTTTTTCCCGTCGTGTACCCAGTACGC
AGTACACATCATATACATCATATATACGTCGGCAAATATAGGAGGTGCTT
CCAGGTAGACGGGATTACCGTAAGATGAGTCTAGGATAGCTGTCCTATGC
CGCCCGAAGCAAACGGGCATGTTCGTTGAATAGAACCGTTATTGGCACTG
GTGTCGTCCAGCTCTCCGCTACAGCACAGGGCTTCGGCCTCACTTCCCGT
GCAAGAGTCGAATCGCGACAGCTGTCCTCTAGACAGCGTGTTTTCTTGAC
AGTAGCTTTGTTGGAATAAGCGAATAATCTACTGAGCAACTTATCCAGGG
CTGACTCAGTAGCTCAGTGGATTGTTCGGTTATTCCAACCAGCTATTCTC
TTGGGACTGCATTTCACAATAACTCCTGTACAGCCGAGGACCTGTGAATA
AGTTAACAACGTTTTTGGATTATAGGGTGATCCACACCATCAAATGTTCA
TCCCGCGCCGTTGAGCAAGCGATTTCATGAGCAAGTGCAGGTAAAACTAC
TGGACTGGACTACTTTGCTGGCCTACTGGAGTGTGCTGTGCTACTAGAGT
GTTTGCGCAATTTTTAACTATAGTTTCATTTACCGTTAACATAAGCCGAC
GATAACGGACGCTAGATTCGGCGATGTCCGAGTTAAGCTTTAGAACAGCC
AACTAGAGTCTCTTTCCGGGCATTCGTGATGATCACCGGCACAACCAGTC
CAACACCCAACGACATAATCCCGCCGCACTCTTTACCGAGAGGGTTCCAT
GAACATGCAGAGTTTTAGGGTTAACGTCGAGGATCTTCATGGAAATCCTC
TAAAATTCTTATAAATTTTCGTGGTGCCGTTCGTAAAGGGGCAGCTCAGG
TGAAGTTAGCGATAAAGTAAACTCGTTTGCAAAAACCTTTACAACTCTAA
ATCTCGTCAGATCAGATTTCGCCGATTCTAGTTTCCGTTGTCGTCGGTTT
CTGGTGACAATAAATTAAACTATATTAATAATTTTTGCAAACACCCTACT
GTACTGTACTACTGTACTGTACTGTACTGTACTGTACTACCTGACAGATT
TGAGTCGTGGTCATTTGCCGCGTTTGCACAATTTCCAAGGTAAGATCAGC
ACATGGCGATGGCGATGGTATCTTAGGTCCTCGCGTGTAGTTTGTTCTAC
GAGAAATCCATGTCGCCCTCCACGTAACCCTATTGTGTTGCCTGAAGCCT
CCACCGGTACCTTGCTGCTACGCGTGAGGACCTAGTTCGCCATGGAACAC
GTACAATGGGCAGCGCATGCGAAGCGTTGCAAGTATGCCAGGAAACGGAG
CGAATGCCTTCCAAGATACGTAGGCGAGTTCCGTATACTGCAACGAAAAC
CCTCAACTGGACGTGGGGGGCGTGAACATTCGTCGACGACTTTTGCTCTA
TAGCTGTGCCACTGCGTTTCACGAAATTCTTCGACGTGGGTGTGCCCCGA
TGGACGAGACGATCGTTTCCACTAGTGCGCTTTTCAGCGCGGAAAGCATA
ATCTTTCCGTGTGGTTCGTCTTTCCAGCGCTGTGAATATTCCCAGTCAAG
TCGATCACCCAGTGGTTGTCTTCAATCGCCTTCAATGAGGGTACAATGCT
GCACCACGCGGTCTCGGGAAGCCAGCACCCCTCGCAGAGATTTGATGCAA
CTCGAGCGCACAAGAAGCGCGGTTTATTCGACCTTTGCCGAGGATGATCA
GATACGACGCTGGGTTCGCAAGCCGCTCCTCGAGATACGATTTCCCCACA
TGAAACATGCTCCCGAGGGCCTTTGTCCGTCGCGTATTAGAAATCAGCAT
TCGATATTGACTCCCCTTCCCTGCCCTTCCCCATTCGAATGTCAGACCGA
ACATCGAACATCATCTTTTCTTGCTGAGTGCGCCGGTATTTCAGCCACGA
CGCTCCAGTGCCTCTGTGTTGCACTGTGCAGATGTCCAGGTGTGCTCCCT
ATGCGCTGGGAGCAGTAAGGACGTCTTATCCCGGAAACCCATCAAAGCTC
GCCGACTGCGCCGCGTTACGCCTCCATCGTCCGCCTGTCTTTCTCCATGC
GCACATCTAACTCGAGAGGGACACGCGGGGACTAGGCTAGACTTCGTGAC
TTGAAAGCGCTCAACCGATTTGTCGATATTTGTCTCCCGAAGGGTGAGCA
TAAGTCCCCCGCTATTCCTCTGGCACGAATGAGTAACCCATGCAGTCTCG
AGACTCTTCAAGAGTTGTTCACTGGGGAAGGTCAGGCGACGGATTCAGTC
ATGTTCTTGAAGTGAACGGCCAACATGGCGGTGAGCGTTATTCCTCCCCT
AAAGGTAGTGTGGGAAAGAGTCTGCTTGCCTAGGCTACTTACTCAATGGC
ATACTGTTTTCATCAACTTACAGGCATTCCCGGCATCGTCCCGCTCGGTT
TAAGCCGAAGAGCGACTTATGGAGTTTGCTGTCTGTCCGGATACCTTTCC
ACGGCCCGGAGGCATTCTTGGGCAAATACCTTTTCCCTAACTTTGACCGG
ATAGACGCCTGTTTCAGAAAACAATTAGGAATTGCGAGATCTTGTCAGAC
CGCAGTGGTGATACCAACTCATATCAAGGGGCTTTCAGAGTGGGGGCAAA
GGTTTCGTTTTAATCTTTGCTACAAGCCAGGGCTTGGGTTTCCCATTTTT
CCCAGAGACGACGCTCTTCCACTCGATGATGCACGTTGATGCAAAAGACT
CCCCTCTTTTGCTTGTAGTTAACTCTCCAAAGGTCCCACCGCCTGGGAAT
CCTGTGCATTATGCTTCGATCGTCCGCTGCAATATATCCCAGTGGATTCA
TCGCCGTGCTTCCTCGTACATTCAAAGACTGACGTCGAAGTTCTCGAGAA
ATTGCCGGAGACTTGCGATCCAACTCATGTACAACGGGGGGAGCGATTAA
AAAATGGCTCAATGCTTGGTCACACTAAATCCAAGTAGAAAGGGCGTAGA
GCCATTTTTTATTGCTCCCCCCACTGTAGTATTACTCAGCGGTTCTGCTA
GCCCGATCATTCTCTCTCGTTTCGGGTCGTGTGCTTTTGATTTGTGTTCA
TATTCCAGGCGAAATAACCGGCATACATGACGAAAGGGATGGACTATATT
TTAGAAGCTCGTCTGGAAACACACCTTGTGGTACAGTACAGTGCTATCAA
TCGTTACAGTATTACTCTTTCATATATTTGCTTGGATTAATATGAAGCTG
TTCAAAGATCCAATTAGTTACGATTACAAGTACTGTAGAGGGAAGTTCGG
TTAGCACTTATAAAGCGGGCGTGAGATTCATGCCTTCCGCAGAGTAGGTG
GAGTATGAGGCCAAATGGAAATGGGTTCGAAGCTATGATAAGGTAGCACA
CATATATACATAAAATGTATTATCGTTCTGGAAAAGCTCTTATGCTTGGT
ATCTCTCATAATGTTGCGTGGCATTTATAAATATACATGCACATAGTGTT
GCGAGGGCTCTCTACGCTACCATGTTCTGATGTGGAGTACCGGCAGCGCA
ATTTTATTTTCGTTTTATCGCGGCAAAGTTCTCAACATTTTCCCTTGGAG
TTCTCTGTCACTAGCGGGAGAGCGAATTTCACCTTGCCATCCAATGCTGT
GTTTGTAAGGAACAACTGGTTGAAGACATTTTGGGTTCAATAACATCTGT
GTGAAGACAGCGGAGAACATCTTCTTCAATAGAAGATCGTCCCGGATGAT
CATGTTGTATGAGTCGATCCTCCTGCAGTAGCGCATCTGGGTTCGCTTAG
GTCTACAACTACGCATGCGTCAGTGTTTCTACAATAGTGCTCCATTTTTG
TTCCCTTAAGATGTTCATGTTCCTGAAACCAGTTGGTTGACTACACCCGG
TGCAAGGTAGAAGGATTGATGCCATTCTCTTTCTCAAGTCTCGATCCTGA
AGCTCCATACCTCAGGTATTTCGCCTCTCTATATATATGCGTGTGTATTC
ACAGTTTAGCAGGCCCAGAAAGAGGGGACTCGGAATATAGAATACAGCGT
TGAGCCGTGCAAGCGCGCGAAGCCTCGGGCACATGGTGCACGAAGAGAAA
CCCTTGGATGATTTTGTGAGGGTGCCTTCACCGTGAGCGGATTTATCTCT
TCCCAATGAGTGTTTCACGCTTACGCCGTGTGCCCCCGTAATCATGTGTG
AAACTCGTTTACCGGTCTGGGACACACGGGGCTATGTACAGATCCTGATT
GAGTCACGGGCTCTCCACATCAACCGCAAATGCGATGCAACCGCAAATGC
ACAAAATTGGCCAGGTTTTTACAGCCGACCTACCCGGGAGGCCTTGTAGA
ATACAGCGGCCCAAAGGAGCTGCCTGATTCTCAGGCCGACCTTGCTCACG
CCAGTGTAGTTCTTGGACCCACCAGCCCCTCAAATGTGCACCCGAAGGAT
CGCACCCGGCAGCCTATTACACGCCGCTCAACGTGACGAGAGTCAGCTTT
GTCTTTGACCTCCGTGTTCCCATTGTATATTCAAGGCGAGCTGGGATTGG
CACCCTTTCTCCTCCGGAAGGTTTACGAAATATCCTCGCAGTGGTGCTTC
ATGAAATCACCACTTTCTGATGATCTTGAAAATCGGGAACCACCCGTCAG
CGGGTCCGTACGTGCTTTCCACTTTCGAGGACATCACGGAGAGTCGCAAA
TTGGATCGGCGCAGAGACGATGTCAGTGTCCGTGCGGTAACCAATAGCAA
TTTTCGATTTCGCGTCGTTGTTGCTCTTTTGATCATGAGCTTGGCCTTGA
AGTGACTCATGACAGTAGAGAGGGAAGGTAACAAGTCTCAGATGTCCTGT
TTTTCTTGTACCACATGACGGTCACACGACCGAACGACCACACGACGACC
ACACGATGGCATTAGACGTTTGTCACCATCGCCATTTGGAGTAAGCTAGA
CTGCCTTATACCGCAAGTTGGTGGTTATGAGCAGGGTCCCGACCGAGCAT
GTTTGCCGTGACTCACGGCAACGTGAGTGCGTGCCCTTTGAGGTGTTGCC
TCGTCTATCGTAGCGCGCGTTCAGCTTTGAACGCCCCACCACATCCATTG
TACGTCGTATTCATCTCTCGATCCCTGTCGTGGTTTGCTGGTACTGTATT
GTTGGCCAAAGGAGTTCTCTTACGCTCGCCTACCGTTGTTTGTACCTGTT
GTGAAAGCACGCAATCCTTGCGTAGAAGTCAGCTCATTTCAGTGTACAGG
TACCATGTCCTCCCATTGGTTTCTCCTTACGCTTGCTCCCGTGTTTGAAC
AATACATGCTTTGCTAGGAAGGGACGGGTCACCTGATCTTCTCCGATGTC
ATCAACAACAAGATTTGGAAGTGGGAGGTGAGCGGGGGCGCTAGCAGGCC
GGCAGGCCATGTTATTTCAAACCGCTGCGGAGCACGACTCTATTACAGCA
TTGTGGATGCAACTGTGATCGAGAAGTTCTGAGTTTTTCTTAGCTCTTCG
TGAAAATGATAGGGACCATCCAGCATTCCAGGAAGAAGGGATACCAAAAC
ACGGTGACCCCGTCCTGCTTACCATCCATCCATCATCTGTTGCCCCTGGC
GGGCATTGGTATCGAGTCCCGTCGCTTCACGCCAAGAGCGTGCAGGGAGT
CCAAGGGGCGTATGAGCCACACCACGCACGTCTAATACGGGTTTTGATCT
AGAAGGGCTATGCGATGGAAAGCGATCAGCCTGCGTTTTGGTCTTGAAAC
GGTGGATGCCATCCTGATTGAGATCGTGACACTGTTGTTTCTGCTAGCTT
GGAAACTAGTATCGCGAGAAGATGCAAGTCCGTTTACATCTTCCCCAAAC
AACGGGCGTCGAACCGAACCCCAGGAGGCAGACGGCCTACATTCTCAGGA
GACATCTGTTTTCCTGGAGTCCAGTGGGTGCCAGGGTGAACTGTGCTCGA
GCTTGCGCTTCCCGGGCTCCAATGGTCTTCTATGGGTGAGAGATTGACCA
GTTCTGGTCCCATGATTTTTCTTACGAAATCTCAGCGTAGGGTGGTTCCC
CTTAGGCTAGATTTGATGGGGCATCGGAAGTAATGGATATCCGAGGGCAA
CACGGGTAACGGCATCCCGCGCTCCATTCCTTGGTGAATTCAGGTTGGCT
CATCCCGCTTGGCAATTTGGCACTAATGAGGCGGTTAGAATTACCAACAG
TGCGCCAACATGTACCGCGGGCGAGTCGATCAGTGTGCTACAAGTAAGGC
CAGATTGAGCGCATTGTCGTCGGGAGAAAGGCAGGGATTGTGTTCATCGA
TGTCTAGTCTTAACCTAATAGAGCTCTTCGATGGGTCCTTGGTCACCTAA
ATGGCACTTGTACAGTACTCTGAATCACAAGGAAGAGCGTATCGGTTTTG
AGCACCCACGGTTGACAAATTGCTGAACGGTGGAAATCAGCCTATGGCGG
TGGAACCTACAGTGATTGTCGTTCAATTCCCGTGTAGGGTGCATTCTCCC
GGTATGGGAAATGGCCGATAGGGAGCAAACTCCGGAAGACAAGAAAAATC
AAGGTCATTCGCCCGCGATCTTCTCATCCGTGCGGTCAATCCGAGCTGCC
GCTGGTCACGTGAACCAATATATTTATGGAGATGAAATAGGCTCAAATTT
GGCGAAAGGGTCAAAGTGAGCAAACCGTGGCTCAGAATCGAAATTTCACC
GGAATACCAGCTGGGCTGACCTGATGATGAACAAAATACCGCTCAAGCAC
GCCTCAACAACAACAACGAACGAGGACGAGGTAAAGGCATCTCTGTAATC
ACCTCATACTCTTCTCTGCCTCTACCTTCGTGAGATTCCAATTGAAGGGC
TTGACTACTTGACATCACCGTATCCTCTCTTGTTGGCAAAGTGCTCGGTG
AACATCGAGTGAAACCGCCCTTGAGCCAAATTTCAACATATTTTTTGGCT
GTGAAAACGAAGTATATTGCCACTCTCCATGAACGTTCTCTGCACACTAT
GACCAATTGAGACGCGTGTTGCCCGATCGTTGAATATATTTTGATTTAAT
TTGCTTTCCAGCTTGAGCGGTAATCACGCTACACTTGACCCAGTCGTTTG
TGTTTTATCCTGAGCGTTTAGCTTATCATTCCCATTGTAACCAGGCGATG
ATCGATAGTCGGTTCAGAGCGTGACTCGCCGTCGTTCGAAAGTTACACGA
TGTTTTTATTATACTTGAATTCAGTATAGTTCCGGATCTGGGAGGTAATC
ACGCTATGCAGCGCCCAAATCTTCGATGTTTGTGCTGAAATTTTGCATAG
AGAACAGAACTGAACATGAAAACAAACTCCAGACGTGGCCTTTTTGATAA
TTTCCGTTTTTCTGAACTTACTGACCCATTTACACGACACGTTGCTTTTG
AATTGACTGGAAGTCTCTTAAACCCACAAGAAATCCAAAGGGCACCTCTT
GAGTGTGCTCGCCTTGGTCTAAGAAACATCGTGTGTATTTTTCATAGCAT
AACTGGAAGTCTACTCGAAGCATTGAATGGCGCATGGGCGAAATACTAAA
GTATTTCTTGCTTGGCTGGCCCATCTGGTAGAAAGGAGTTTAAAAGACAG
TCTGGTCTCGACCCTCTTCCGGTGTTTCTTTTTGCAGGCGTTGTTGGCCG
TCTTGCTCACCTCACCTCAATCCCCCTCATCTCACACGAGCACCTAAAGC
AGCCAAGCACCTCAAGGTATCACTGATTTTGAAACTCCACAAAATTTGGG
AGATTACTACATTTGACGATTATTGGGTTCCGCCGTGGTAGCGTACTGAG
TAGCTTGTTAACAACATTCAAACGCTAGCGCAAGTTCTACCCATAGATTC
CAGCGCTCTATGAGTTTGGGGGTCATAGTCTTACTCCTCTCCCTGCTTTC
ACCAAGATGATCCTCGGTGCCAAGGCGACATGAACGCGTACGGCTTAAAC
CGGTGATTTCTCGACGGAAGGCCCGCGTGAGGTAAGCATCTTCACTTCCT
CCGTTCATTGGCCTCGGCGAGTGGACCCAAGGCGTCGTAATGGAAAGATC
ACGACCACGTCGCACCAACCGAGTCAACTTCGAAAACCCAGTTTCCTCGA
TTCTTGGGGATGGAATGCTTCCCAGGAGGTGGAAGGGGGATGGTTGGGTT
GCACGGGTTTCCACGCAAGACTCTCTGCGAGGAAAAGAATTGAATTTCTT
TTGTGGATGGGTTGACAGGCCAATCCTTCATGTGATGAGTGCACTAAGCT
CAAGACAGCTACGGGAAGGGGCCCAGGTGTTTGTCCAGGAAAGTTTGCCA
TGACTAGCGATAGAGATGAGTAGGATGCCGATGAAGCTGGCCACTTCGTA
ACAGGGAAAAAGACAAACATGGTTATTTTTTTCTGATTTTTGGGACAAAA
TCGGTTAGTGTCGTCAGTTCTGCGCGCAATGAGCCAATCAGAACCTGCAC
TCCGATTGGTGAAAAAAGACACTCCCTCCCCCTCAGCGTGTCTGCCTTCC
TCTTTTCGCTTTCATACGCCTCGTCGCCGCCGCTACAACGTATATATAAT
ATTGTTGCAGCTGATGAGGGGGACACGAGAACTCAGCATCCTGTGAACAT
AAGGGTAAGAGCCGGAATCTACCTGTCGACTGGATTGGGAATGCTCTAAA
AGTATGTCATCCCTCTCTTCCTTTCGTGGTGCACCGCAGTAATTGAACAT
GATTGCAGTGCGTTTCTCGTCGATAGGGCAGCAGGCGGCAGGGTTTGGCT
CATTGTGTACAGAACTCATGGTACTAACCGATTTTGACCCAAATGCCATC
AGTTATAACCTTTTTTGTCTCCTCTTTTTCATAGTTGGGTGTCTCATAAC
CGCCAGGACTGAGTCGACTCAAGTTGAACAGTAAGGGACCAGGCCCGTGC
CGTATTCAGTACAGTAGAGGGAAGCAGAGAACAGGGAGGAACACCCTCTG
ATGAATACGAAGGTTTGAGGGGGGCAGTCCTCGGTGCCCAGGAAGTCTCA
GAAGAAGCGAGTACGATCCATGCGCCATGGTCTCGATCTATGGATATTTT
CTGAGAAGCGTAGGCGATACAACTGATATCTCGTGTTGTCCATAAAAGCA
TCCATAGATTTGTCGCGTGAACTTCGCTAAAGCTCCCAAATCAGGTGAGC
CTACAACGGCAGTTGGAGGATCGAGATAGGCGATGTCAACACCCTGGGAG
GGGAGGGTAGACGGGACAGAGCGGGCCCTGGACATAGGAGGGTACGGCGA
TTGAGTATGTGTCTGGACGAGGAGCGCAGAGGGGATACGGGCTGGGAGGG
GACGGGCGTGGCGAGCATAGGAGACGGGGCGTGAGGGAAGTTGGCTAGGG
TAGAAAGGGAGGGGATATAGGGAGGGAAGACGAGAAAGGGAACTGGGGAG
AGAGAGCAGAGTAGGGGGCGAGCGAGGTCCGGGTGGAGTAGAGTGGGGCG
GCATCGAGGGGAGCATTAGCGGAAGGAAAGGAAGCTTCAAGAATGGGAGC
CCTCGACGCCGAGCAAAGTCAGCAATAGCCAAGGTTGGGCTATACACGTT
CTGATGTTGACCTCTGGCCATTGCTTAGGCGGCAAAACTAAAGGAGACAA
TGGACCTCATTGTGTCCTCCTGCACTGCTCACTTCTTGCCCCATTGATGG
TCGCCTTGCCTTGCCTTGCCTTGCCTTGCCTTACTATCTTAGTGCTACAG
TATCAACGGACAGATTCGAAGGTACAACTGCTGATATCGGAAGAATGCTG
TGTGCACGTGGCACTGTCGACCTGTGAGCATGCCCTTCCAGAGGACTACG
CGGGATGCGGGTTGTACCATAGGGTGCCCATAAAGCCGAGTCATAGCATG
ACATAAGGTGACCTCGAGTAAAATGACACAGCATGGGTGATACCGACGGA
TCGCGAGCGCGAGGAGAACACCGCGAGCGTTAGGGTCGGGCAGACGGTAG
ATACTCAGATATGACACGCAGAGGACGCGGGGATCTCTGAAGGGTAAGGC
GTGGTGAGCCTCGGGGGTGAAGTAGGGGAGTGTTGGCCAGCATGCCGAAG
GCGTGGGTACAGAGAGGG
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Coding sequence (CDS) from alignment at D-dichotoma_M_contig1004:236289..250456+

>mRNA_D-dichotoma_M_contig1004.133.1 ID=mRNA_D-dichotoma_M_contig1004.133.1|Name=mRNA_D-dichotoma_M_contig1004.133.1|organism=Dictyota dichotoma ODC1387m male|type=CDS|length=966bp|location=Sequence derived from alignment at D-dichotoma_M_contig1004:236289..250456+ (Dictyota dichotoma ODC1387m male)
ATGAAACGACCACAAAGAGCGTTCAGGTGGATAGTGCCAAAGAAGGCAAC
ACCAATCCTACTGCTGCTGTCACTTTCGTTTTCCCTCAACTACATGATGC
GGTGCTCATCTCTATCGCTGAATCTCGGCCAACGCCCGGAGGTGGAGAAT
TCGTGGATCGAACGACTTGACGCAAGACTGGATGACATCATGCCGGTTGG
AGCAAAGATGAAACGACCACAAAGAGCGTTCAGGTGGATAGTGCCAAAGA
AGGCAACACCAATCCTACTGCTGCTGTCACTTTCGTTTTCCCTCAACTAC
ATGATGCGGTGCTCATCTCTATCGCTGAATCTCGGCCAACGCCCGGAGGT
GGAGAATTCGTGGATCGAACGACTTGACGCAAGACTGGATGACATCATGC
CGGTTGGAGCAAAGGTTGAACTTGTCGCGGAGGGCTTTGGCTTCACCGAA
GGGGTACAATGGGTGCATGGAAATGAGGTTGAACTTGTCGCGGAGGGCTT
TGGCTTCACCGAAGGGGTACAATGGGTGCATGGAAATGAGGAAGGGACGG
GTCACCTGATCTTCTCCGATGTCATCAACAACAAGATTTGGAAGTGGGAG
GAAGGGACGGGTCACCTGATCTTCTCCGATGTCATCAACAACAAGATTTG
GAAGTGGGAGGAGGCAGACGGCCTACATTCTCAGGAGACATCTGTTTTCC
TGGAGTCCAGTGGGTGCCAGGGTGAACTGTGCTCGAGCTTGCGCTTCCCG
GGCTCCAATGGTCTTCTATGGGAGGCAGACGGCCTACATTCTCAGGAGAC
ATCTGTTTTCCTGGAGTCCAGTGGGTGCCAGGGTGAACTGTGCTCGAGCT
TGCGCTTCCCGGGCTCCAATGGTCTTCTATGGTGCTACAGTATCAACGGA
CAGATTCGAAGGTACAACTGCTGATGCTACAGTATCAACGGACAGATTCG
AAGGTACAACTGCTGA
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