Homology
BLAST of mRNA_A-nodosum_M_contig102.94.1 vs. uniprot
Match:
D7FJ05_ECTSI (Tyrosine-protein phosphatase domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FJ05_ECTSI)
HSP 1 Score: 298 bits (762), Expect = 1.280e-97
Identity = 141/165 (85.45%), Postives = 153/165 (92.73%), Query Frame = 1
Query: 1 MFFPPVSFGLVEEGLYRSALPTDINFPFLERLGLKTIIYLYPDKEIDPQLLSFLEDQDIVLIPLGEHDDKRNKSWAPVGEETVLATLEHMVDSSFYPVLIICSTGKHKTGTVVACLRKLQRWNLTSIFEEYRRFTKQKVRVQNEQFIELFDTDLVHLPPDAPRYL 495
MFFPPVSFGLVEEGLYRSALP +IN+PFLERLGLKTIIYLYPD +ID QL+SFLEDQD+ L+ LGEHDDKRNKSWAPVGEE VLA LE +VDS YPVLI C+TGKH+TGTVVACLRKLQRWNLTSIFEEYRRFTK KVRVQNEQFIELFDTDLVHLPP+APR++
Sbjct: 1 MFFPPVSFGLVEEGLYRSALPNEINYPFLERLGLKTIIYLYPDDDIDAQLVSFLEDQDVTLVSLGEHDDKRNKSWAPVGEEIVLAALERIVDSVHYPVLITCNTGKHRTGTVVACLRKLQRWNLTSIFEEYRRFTKHKVRVQNEQFIELFDTDLVHLPPEAPRFV 165
BLAST of mRNA_A-nodosum_M_contig102.94.1 vs. uniprot
Match:
A0A835YIK6_9STRA (Protein-tyrosine phosphatase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YIK6_9STRA)
HSP 1 Score: 239 bits (610), Expect = 1.370e-74
Identity = 114/170 (67.06%), Postives = 141/170 (82.94%), Query Frame = 1
Query: 1 MFFPPVSFGLVEEGLYRSALPTDINFPFLERLGLKTIIYLYPDKEIDPQLLSFLEDQDIVLIPLGEHDDK-----RNKSWAPVGEETVLATLEHMVDSSFYPVLIICSTGKHKTGTVVACLRKLQRWNLTSIFEEYRRFTKQKVRVQNEQFIELFDTDLVHLPPDAPRYL 495
MFFPPV+F VEEGLYRS LPT+IN+PFLERL LKTIIYL+PD++ID QL SFLEDQ++ L+ LGE D+ ++++ + EETV+ L ++VD++ YP+L++C TGKH+TGTVVACLRKLQRWNL+SIFEEYR FTK KVRVQNEQFIELFDTDLV +PP PR+L
Sbjct: 1 MFFPPVNFAPVEEGLYRSGLPTEINYPFLERLKLKTIIYLFPDEDIDAQLESFLEDQEVKLVCLGEQDESAQLANKSRNNHMIAEETVIEALSYLVDTTHYPLLVMCGTGKHRTGTVVACLRKLQRWNLSSIFEEYRHFTKHKVRVQNEQFIELFDTDLVRIPPRPPRFL 170
BLAST of mRNA_A-nodosum_M_contig102.94.1 vs. uniprot
Match:
A0A1V9YB19_9STRA (Tyrosine phosphatase n=9 Tax=Saprolegniaceae TaxID=4764 RepID=A0A1V9YB19_9STRA)
HSP 1 Score: 200 bits (509), Expect = 2.130e-59
Identity = 94/167 (56.29%), Postives = 130/167 (77.84%), Query Frame = 1
Query: 4 FFPPVSFGLVEEGLYRSALPTDINFPFLERLGLKTIIYLYPDKEIDPQLLSFLEDQDIVLIPLGEHD--DKRNKSWAPVGEETVLATLEHMVDSSFYPVLIICSTGKHKTGTVVACLRKLQRWNLTSIFEEYRRFTKQKVRVQNEQFIELFDTDLVHLPPDAPRYLQ 498
F PPV++G++EE LYRS +P ++NFPFLERL L+ I+YL P+ E +PQLLSF+E+Q+I L+ LG + + R K+W P+ EETVLA L+ ++D S YP+ + C G+ +TG VV CLRK+Q+W+L+SIFEEYRRF KVR+QNEQFIELFDTDLV +P + P +++
Sbjct: 4 FIPPVNYGMIEEDLYRSGIPNELNFPFLERLNLRKIVYLAPE-EPNPQLLSFVEEQEIELVVLGCNTKLESRRKAWEPMSEETVLAALDIILDRSNYPLFLTCHLGRDRTGAVVGCLRKIQQWHLSSIFEEYRRFAGSKVRLQNEQFIELFDTDLVTIPTNPPNWIK 169
BLAST of mRNA_A-nodosum_M_contig102.94.1 vs. uniprot
Match:
A0A485KRG3_9STRA (Aste57867_10594 protein n=2 Tax=Aphanomyces TaxID=100860 RepID=A0A485KRG3_9STRA)
HSP 1 Score: 197 bits (500), Expect = 4.420e-58
Identity = 93/167 (55.69%), Postives = 128/167 (76.65%), Query Frame = 1
Query: 4 FFPPVSFGLVEEGLYRSALPTDINFPFLERLGLKTIIYLYPDKEIDPQLLSFLEDQDIVLIPLGEHD--DKRNKSWAPVGEETVLATLEHMVDSSFYPVLIICSTGKHKTGTVVACLRKLQRWNLTSIFEEYRRFTKQKVRVQNEQFIELFDTDLVHLPPDAPRYLQ 498
F PPV++G++EE LYRS +P ++NFPFLERL L+ I+YL P+ E + QLLSF+E+Q+I LI LG + + R K+W P+ EETVLA L+ ++D YP+ + C G+ +TG VV CLRK+Q+W+L+SIFEEYRRF KVR+QNEQFIELFDTDLV +P + P +++
Sbjct: 4 FIPPVNYGMIEEDLYRSGIPNELNFPFLERLNLRKIVYLAPE-EPNAQLLSFVEEQEIELIVLGGNTKLENRRKAWEPMSEETVLAALDIILDRGNYPLFLTCHLGRDRTGAVVGCLRKIQQWHLSSIFEEYRRFAGSKVRLQNEQFIELFDTDLVTIPSNPPNWIK 169
BLAST of mRNA_A-nodosum_M_contig102.94.1 vs. uniprot
Match:
A0A5J4YWC4_PORPP (Putative tyrosine-protein phosphatase n=1 Tax=Porphyridium purpureum TaxID=35688 RepID=A0A5J4YWC4_PORPP)
HSP 1 Score: 196 bits (499), Expect = 6.040e-58
Identity = 93/166 (56.02%), Postives = 126/166 (75.90%), Query Frame = 1
Query: 1 MFFPPVSFGLVEEGLYRSALPTDINFPFLERLGLKTIIYLYPDKEIDPQLLSFLEDQDIVLIPLGEHDDKRNKSWAPVGEETVLATLEHMVDS-SFYPVLIICSTGKHKTGTVVACLRKLQRWNLTSIFEEYRRFTKQKVRVQNEQFIELFDTDLVHLPPDAPRYL 495
+ PP++FG+VEE LYRS +P ++NFPFLERL L+ IIYL P+ ++ Q L+F++DQ I L+PL +K W PV EE VL L++++D+ S YP+ I+C+ G+H+TGT+V CLRKLQRWNLT++FEEYRRF KVR+ NEQFIELFDTDLV +P + P +L
Sbjct: 11 LLIPPINFGMVEENLYRSGMPNELNFPFLERLNLRKIIYLAPE-DLTQQFLNFVDDQGIELLPLSWEGNK--SPWKPVSEEVVLTALDYILDANSNYPLYIMCNLGRHRTGTIVGCLRKLQRWNLTAVFEEYRRFAGPKVRLLNEQFIELFDTDLVRVPQNPPEWL 173
BLAST of mRNA_A-nodosum_M_contig102.94.1 vs. uniprot
Match:
M1VJ97_CYAM1 (Tyrosine-protein phosphatase domain-containing protein n=2 Tax=Cyanidiaceae TaxID=265316 RepID=M1VJ97_CYAM1)
HSP 1 Score: 194 bits (493), Expect = 3.550e-57
Identity = 88/164 (53.66%), Postives = 123/164 (75.00%), Query Frame = 1
Query: 4 FFPPVSFGLVEEGLYRSALPTDINFPFLERLGLKTIIYLYPDKEIDPQLLSFLEDQDIVLIPLGEHDDKRNKSWAPVGEETVLATLEHMVDSSFYPVLIICSTGKHKTGTVVACLRKLQRWNLTSIFEEYRRFTKQKVRVQNEQFIELFDTDLVHLPPDAPRYL 495
F PP++F VEE LYRS +P ++N+PFLE+L L+ ++YL PD E+ PQ L+FL+D DI L+P+G D+ W P+ EE VLA L+ ++D+ YP+ ++C+ G+H+TGTV+ CLRKLQ+WNLTS+ EEYRR+ KVR+ NEQFIELFD DLV +P + P +L
Sbjct: 4 FIPPINFSWVEEDLYRSGVPNELNYPFLEKLNLRKVLYLSPD-ELPPQFLNFLDDHDIELVPVGWDSDQT--PWMPISEEVVLAALDVILDTENYPLHVMCNLGRHRTGTVIGCLRKLQQWNLTSVLEEYRRYVGGKVRLLNEQFIELFDVDLVRIPENPPAWL 164
BLAST of mRNA_A-nodosum_M_contig102.94.1 vs. uniprot
Match:
A0A3R7JKP5_9STRA (Tyrosine-protein phosphatase domain-containing protein n=2 Tax=Oomycota TaxID=4762 RepID=A0A3R7JKP5_9STRA)
HSP 1 Score: 194 bits (494), Expect = 6.810e-57
Identity = 96/167 (57.49%), Postives = 127/167 (76.05%), Query Frame = 1
Query: 4 FFPPVSFGLVEEGLYRSALPTDINFPFLERLGLKTIIYLYPDKEIDPQLLSFLEDQDIVLIPLGEHD--DKRNKSWAPVGEETVLATLEHMVDSSFYPVLIICSTGKHKTGTVVACLRKLQRWNLTSIFEEYRRFTKQKVRVQNEQFIELFDTDLVHLPPDAPRYLQ 498
F PPV++G++EE LYRS P ++NFPFLERL L+TIIYL + E +PQ SF+E+Q+I LI LG + + R K+W P+ EETVLA L+ ++D S YP+ I C G+ +TG VV CLRK+Q+W+L+SIFEEYRRF KVR+QNEQFIELFDTDLV +P + P +L+
Sbjct: 27 FIPPVNYGMIEEDLYRSGQPNELNFPFLERLNLRTIIYLALE-EPNPQFQSFVEEQEIQLIFLGGNTRMESRRKAWEPLSEETVLAALDIILDRSNYPLYITCHLGRDRTGAVVGCLRKIQQWHLSSIFEEYRRFAGSKVRLQNEQFIELFDTDLVTIPVNPPSWLR 192
BLAST of mRNA_A-nodosum_M_contig102.94.1 vs. uniprot
Match:
M4C493_HYAAE (Tyrosine-protein phosphatase domain-containing protein n=18 Tax=Oomycota TaxID=4762 RepID=M4C493_HYAAE)
HSP 1 Score: 193 bits (490), Expect = 1.370e-56
Identity = 95/167 (56.89%), Postives = 126/167 (75.45%), Query Frame = 1
Query: 4 FFPPVSFGLVEEGLYRSALPTDINFPFLERLGLKTIIYLYPDKEIDPQLLSFLEDQDIVLIPLGEHD--DKRNKSWAPVGEETVLATLEHMVDSSFYPVLIICSTGKHKTGTVVACLRKLQRWNLTSIFEEYRRFTKQKVRVQNEQFIELFDTDLVHLPPDAPRYLQ 498
F PPV++G+VEE LYRS P ++NFPFLERL L+TIIYL + E +PQ SF+E+Q+I L+ LG + + R KSW P+ EETVLA L+ ++D S YP+ + C G+ +TG VV CLRK+Q W+L+SIFEEYRRF KVR+QNEQFIELFDTDLV +P +P +++
Sbjct: 4 FIPPVNYGMVEEDLYRSGQPNELNFPFLERLNLRTIIYLALE-EPNPQFQSFVEEQEIQLVFLGGNTRMESRRKSWEPLSEETVLAALDIILDRSNYPLYLTCHLGRDRTGAVVGCLRKIQGWHLSSIFEEYRRFAGSKVRLQNEQFIELFDTDLVTIPAKSPSWVR 169
BLAST of mRNA_A-nodosum_M_contig102.94.1 vs. uniprot
Match:
A0A507DVU8_9FUNG (Tyrosine-protein phosphatase domain-containing protein n=1 Tax=Powellomyces hirtus TaxID=109895 RepID=A0A507DVU8_9FUNG)
HSP 1 Score: 192 bits (489), Expect = 1.760e-56
Identity = 90/166 (54.22%), Postives = 123/166 (74.10%), Query Frame = 1
Query: 4 FFPPVSFGLVEEGLYRSALPTDINFPFLERLGLKTIIYLYPDKEIDPQLLSFLEDQDIVLIPLGEHDDKRN--KSWAPVGEETVLATLEHMVDSSFYPVLIICSTGKHKTGTVVACLRKLQRWNLTSIFEEYRRFTKQKVRVQNEQFIELFDTDLVHLPPDAPRYL 495
+ PP++FG+VEE LYRS P D+NFPFLE+LGLKT++YL P+ E + L+F+EDQ+ L +G + +W PV EE VLA L H+++ + YP++I+C+ G+H+TGTV+ CLRKLQ+WNLTSIFEEYRR+ KV+V NEQF+ELFDTDLV + P +L
Sbjct: 7 YIPPLNFGMVEENLYRSGQPNDLNFPFLEKLGLKTVVYLAPE-EPSQRFLNFIEDQEATLHHIGHPSSSTHLPSTWDPVSEEVVLAALAHILNPASYPLIIMCNLGRHRTGTVIGCLRKLQKWNLTSIFEEYRRYAGPKVKVLNEQFVELFDTDLVGVTGAKPAWL 171
BLAST of mRNA_A-nodosum_M_contig102.94.1 vs. uniprot
Match:
A0A7S0ZKH8_9RHOD (Hypothetical protein n=1 Tax=Timspurckia oligopyrenoides TaxID=708627 RepID=A0A7S0ZKH8_9RHOD)
HSP 1 Score: 192 bits (488), Expect = 3.420e-56
Identity = 89/165 (53.94%), Postives = 120/165 (72.73%), Query Frame = 1
Query: 1 MFFPPVSFGLVEEGLYRSALPTDINFPFLERLGLKTIIYLYPDKEIDPQLLSFLEDQDIVLIPLGEHDDKRNKSWAPVGEETVLATLEHMVDSSFYPVLIICSTGKHKTGTVVACLRKLQRWNLTSIFEEYRRFTKQKVRVQNEQFIELFDTDLVHLPPDAPRYL 495
+ PP++FG+VEE LYRS + ++NFPFLERL L+ IIYL P+ + Q L+F++DQ I LIPLG D W PV EE VL L++++D YP+ ++C+ G+H TGT++ CLRKLQRWNLT++FEEYRR KVR+ NEQFIELFDTDL+ +P + P +L
Sbjct: 20 LLIPPINFGMVEENLYRSGMANELNFPFLERLNLRKIIYLAPEDPSE-QFLNFVDDQGIELIPLGW--DSNKSPWKPVSEEVVLTALDYILDPDNYPLHVMCNLGRHHTGTIIGCLRKLQRWNLTAVFEEYRRHAGSKVRLLNEQFIELFDTDLIRVPANPPEWL 181
The following BLAST results are available for this feature:
BLAST of mRNA_A-nodosum_M_contig102.94.1 vs. uniprot
Analysis Date: 2022-09-19 (
Diamond blastx: OGS1.0 vs UniRef90 )
Total hits: 25
0 1 Expect = 1.28e-97 / Id = 85.45 Expect = 1.37e-74 / Id = 67.06 Expect = 2.13e-59 / Id = 56.29 Expect = 4.42e-58 / Id = 55.69 Expect = 6.04e-58 / Id = 56.02 Expect = 3.55e-57 / Id = 53.66 Expect = 6.81e-57 / Id = 57.49 Expect = 1.37e-56 / Id = 56.89 Expect = 1.76e-56 / Id = 54.22 Expect = 3.42e-56 / Id = 53.94 Sequence D7FJ05_ECTSI A0A835YIK6_9STRA A0A1V9YB19_9STRA A0A485KRG3_9STRA A0A5J4YWC4_PORPP M1VJ97_CYAM1 A0A3R7JKP5_9STRA M4C493_HYAAE A0A507DVU8_9FUNG A0A7S0ZKH8_9RHOD
Pages
back to top
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
Property Name Value
Stop 1
Start 1
Seed ortholog 2880.D7FJ05
Preferred name OCA1
PFAMs Y_phosphatase2
Model size 1257
Max annot lvl 2759|Eukaryota
KEGG ko ko:K18043
Hectar predicted targeting category other localisation
GOs GO:0003674,GO:0003824,GO:0004721,GO:0004725,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0006464,GO:0006470,GO:0006793,GO:0006796,GO:0006807,GO:0006950,GO:0006979,GO:0008150,GO:0008152,GO:0009987,GO:0016311,GO:0016787,GO:0016788,GO:0016791,GO:0019538,GO:0033554,GO:0034599,GO:0035335,GO:0036211,GO:0042221,GO:0042578,GO:0043170,GO:0043412,GO:0044237,GO:0044238,GO:0044260,GO:0044267,GO:0044424,GO:0044464,GO:0050896,GO:0051716,GO:0070887,GO:0071704,GO:0140096,GO:1901564
Exons 4
Evalue 2.24e-102
EggNOG OGs COG2365@1|root,KOG1572@2759|Eukaryota
Ec32 ortholog description Protein-tyrosine phosphatase, SIW14-like
Ec32 ortholog Ec-07_004920.1
EC 3.1.3.48
Description protein tyrosine phosphatase activity
Cds size 507
COG category T
BRITE ko00000,ko01000,ko01009
Relationships
The following CDS feature(s) are a part of this mRNA:
Feature Name Unique Name Species Type Position
1680866384.3285503-CDS-A-nodosum_M_contig102:741983..742132 1680866384.3285503-CDS-A-nodosum_M_contig102:741983..742132 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig102 741984..742132 +
1680866384.338885-CDS-A-nodosum_M_contig102:754209..754388 1680866384.338885-CDS-A-nodosum_M_contig102:754209..754388 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig102 754210..754388 +
1680866384.350168-CDS-A-nodosum_M_contig102:761318..761404 1680866384.350168-CDS-A-nodosum_M_contig102:761318..761404 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig102 761319..761404 +
1680866384.3634868-CDS-A-nodosum_M_contig102:761759..761852 1680866384.3634868-CDS-A-nodosum_M_contig102:761759..761852 Ascophyllum nodosum dioecious CDS A-nodosum_M_contig102 761760..761852 +
The following UTR feature(s) are a part of this mRNA:
Feature Name Unique Name Species Type Position
1680866384.3772175-UTR-A-nodosum_M_contig102:761852..762602 1680866384.3772175-UTR-A-nodosum_M_contig102:761852..762602 Ascophyllum nodosum dioecious UTR A-nodosum_M_contig102 761853..762602 +
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_A-nodosum_M_contig102.94.1
>prot_A-nodosum_M_contig102.94.1 ID=prot_A-nodosum_M_contig102.94.1|Name=mRNA_A-nodosum_M_contig102.94.1|organism=Ascophyllum nodosum dioecious|type=polypeptide|length=169bp
MFFPPVSFGLVEEGLYRSALPTDINFPFLERLGLKTIIYLYPDKEIDPQL LSFLEDQDIVLIPLGEHDDKRNKSWAPVGEETVLATLEHMVDSSFYPVLI ICSTGKHKTGTVVACLRKLQRWNLTSIFEEYRRFTKQKVRVQNEQFIELF DTDLVHLPPDAPRYLQNR* back to top mRNA from alignment at A-nodosum_M_contig102:741984..762602+
Legend: CDS polypeptide UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_A-nodosum_M_contig102.94.1 ID=mRNA_A-nodosum_M_contig102.94.1|Name=mRNA_A-nodosum_M_contig102.94.1|organism=Ascophyllum nodosum dioecious|type=mRNA|length=20619bp|location=Sequence derived from alignment at A-nodosum_M_contig102:741984..762602+ (Ascophyllum nodosum dioecious)ATGTTCTTTCCCCCGGTAAGCTTTGGTCTTGTGGAAGAGGGTCTCTACAG
GTCTGCGCTGCCAACCGACATAAATTTCCCGTTCCTTGAACGTCTGGGAC
TCAAGACCATAATCTACCTCTACCCAGACAAGGAGATCGACCCTCAACT G
TAAGAGCTATCGGATACCTGGTACAAAAGTAAATCAATGGAACAGCATAT
CATAACGTTATTATGTACTACAATAGTAAATCAATGTAACAGCACTAGAA
TATCATAACGTTCTTATGTACTATACTATAGCTCACTTTGTATTGTGATA
CTGTTCGATGACACTTATTATCGTGTACCTGGTACCAGGTACTATTATTA
CTATGATACTACTGCTGTACTACTGTATTGTACTGTGTGGCCGTGTGTGT
GTATGTTGTTTTGTACCCTAGTACACAATAATTAATCATGTCCAACATCA
GTTATTATTGGACAATTTTCCAGTATCACGTCTCAGGCGCGAACGCAGAC
AGGGAAATTTTCATTTTCCATGTTTAGCTGACCACGAGCAGGATTGGCAA
CCTTACCCTGTTGATCCATACTCTTGCTATATGTGATGACCTTACATACA
TACAACAAGTATCATTGATCCCCCCTTGGGAGGATCAATGCGAGTGGCAT
AGAATGACTCGGATGACAGGGCCGGATTGCGCGGTTATGTGCAATTTAAT
ACTGGTAAATATACATACATACATACATACATACATACATGTAGAGAGAG
TGTGTCCCCTTTGTCGCGTTTGATCAGAGGGTTTCGTAACAAGTATCATT
GATCCCCCCTTGGGAGGATCAATGCGAGTGGCATAGAATGACTCGGATGA
CAGGGCTGGATTGCGCGGTTATGTGTGTGTGTGTGTGTTTTCTTCCCATC
CATTCTGGACATCAAGTTCGTTGGACGTACCAGCCGGGGTCACACAGGAG
GAAGGTCACACAGGATTTTTAATCCACCTTCCTTCTGCGGTGCGTGCCTT
GATTTTTGTCGCGAGAAGGATTCAGCCGTTCCTTTCCCTCGTCGACCGTG
AAGTCGAATTTTGTGTACTAACGAATTAATCGTTCTCCACCCGTTGGGCA
TTTTTATTTTGGTTTTTTAGTTTTTAGTGAGAAAAATCCCGTTTGCCGGG
ATCGAACTCACGTCCCAACGTGTCAGAAGGTTACGAGGTGCCAACTGAGC
TACCGGGGTCGACCGGCTTCTGTTATGTGCAATTTAATAAATATACATAC
ATACATACATACATACATACATAGGTTTCGAAGAGGGTTGCACCATTCTC
TCATACGACGGAGCAAACGCCTTTAACAGTATATACCGCCACAGGTTCCT
GCCCGCGCTAGCGGAAATCGTTCCCTCAGTGGTCCCCTACGCATCAAACT
TGTACGCACGGGAACCCCCAAAACTCCTGTTTGCACTAGATGGTGGAGGT
TTGGAAGTGGTTGAGTCAGCGCGGGGAGTACAGCAAGGATGCAATCTAGG
CCCACTTTGCTACAGCGCAGGCTCACTGAAGATCCTAAAAGAATTCAAGG
CTAATCCACCGGTGCCAGGAGCGAGAGCGGTCTCGTTCATCGACGACATC
ACGGTCATTCTACCACCGGAATTTTCTCTCGATATGGCCGCGATAGGGAA
AGTTACGGAATGGCTGCAGGAACGCCTGGGGGTAGAAGGCATCTCGCTGA
ACCGAAGGAAATCGCAGGCCCTGCTAGCAGATGGAGTTGGGCCAGAACAA
CTGACGGAAGAGCAGCGAGAGGCAATGGATATCACAGGGCTCACGGTGGT
CCGACAGGGGATGAGGGTTGTGGGAGTACCAGTTGGAACAGAACAGTTTC
AGCGCGATTTCTTACAGGAGGCGGTTAATGGCGAGCCAGCCGAGCTCATG
AGGGCGCTAGTCCCGATGGAGGATGCCCAAGCGAGCTTTCAGATTTTGCG
CCTATCTGCCACTTCTCGCCTCTCACATTTACTTCGGACAGTCCCGCCCT
CCATCACGTGCCAAGCTGCAGCAAATTACGACGCTTTGGTGGAATGGGCG
CTGGCGTCTATCATAGCTGGTGACGGAGCTGCCGCGGCAGGGCTACCAAC
GCCAGAGGAAGTAGCCCACGATCCCACTGTGTGCCAAAATCATACCTACC
TGGGGCACGATGCCCTACGGCAGGCCCACCTGCCAATCCGAGAAGGCGGC
CTTGGACTTACCAGCAGCAGCTCCATCAAAGGCGCGGCATATATCGGCTG
CCACGCCCTGGTCCTGGGGCGTGTCGTCGCTGCCTCCGCCCGGGGAACCT
TCCGTCCCTTCTTGAACGGCTGCCTGAGCGACCCATGGCGTCAGCGCTCC
TTGAAGAGCTGAAGATCGTGGCCACCGAAGCCAAGAGAAGCCAGATAGAG
GACGCAGTGGGCAGTTCATGGGCTGCCCTAGCGGCGGAAGAGGACCCTCA
AGGGAGAGGGATAGGAACGCTACTGGTAGAAGCGGGAGCAGGAGGAGGGG
GGCGAGGGGGAGGGGGAGAGAGAGGGGCGGGGGAGGGGGGCGTGGGGGCG
GGGGTGTTGGACAGCGAGAACAATGGGAGGATCCGATGGCAACCCAGTCT
GATAGGGAGATTGAGCTGAGCCAGACCAACCGAGGGGTCGGAGGAGTCTG
CGTGGGAGTTGTACCTCGCGTCCAATCAAAGCTCTCGCGCGCCCTCCACG
CACACCCTGGGAAGAAGCTCCTGCAAGATCTCCAAACCCAAGAAAGTGCG
GCGACGAAGAGAGCTATGGTAAGGTTTAGGGGAGCGCGGGAGAAGGGCGC
CATGGCATTTGTAGAATGCCTGGGGGTTTCGCAAGAAGACACGATGGAGG
GCCCCTGTGGAGGGAAACCTTAGGCAGGAGTCTGGGGTCGCATGATGCGA
CGGAACTTGTTGGTGGGATGTGTCATGGCAATGGTTGCCGGCAGGAAACC
ACCCGCCTCCACGCCATATCTTGCTCAAAGACGGGATGGAGCTCTCTCAC
CCACAATCGGGTGCTCCGCCAGGCACTGGCTCGATCCCTTCGTGAGAGTT
AAGTCCAGTTTGTGGTTGAAGATACGTGGCCCTTCCGACAGAGAGCTAGC
GAAGAAAACGGCAGACTGAACCCGTTACGTATGGACATCACAACGGAGGC
GGGGGCACTCTTCGACAACCACCCCCGGCACAAGAATAAGGCACTCCTAC
TCGACATTACAATCGTCAACCCTTGCGCCGGCTCCAATCTGGGGAATGCA
GTACGCCATGTAGGAAAACACCTCGCCGACGCAGTCGAGCGGAAGAAAAA
CAAGTATCGGGGCTCGTTCCCCGCTACCTACTCCTCCTTCCTCTCGCTAT
GTCGACATGTGGTGACGTTGGCTCAGACGTGCATGCCCTCATCAAGGAGC
TCGCCATCAGACGGGTACAGCACAGGTCGGAGACATACTCCAATGATTCC
CAACATCTGGCGGAAGGGACAGAAGTAGCACGTCTCCGGCGGCGATTTTC
TTTGTTTTACAGCAGGCACTCTCATTCCGCACGCGTCACCATCTCTGCAG
ACAGGGGTGGCGCTTGCGAGCACTCGACGGCCCCATTCGCAAGGCCCGGC
GTCGGTACAAGCGCATGGTACCGGGGGATAACCGGATCCGGGGGCAGGAA
GGAGCGAACGGGGTCGGGGCGGGATTGAAGTCGGGGTGGGAACGGAGACG
GTAACGGGGACGTGGACGGCCAAGGGGACGGAGCGGGAGCGGGAACGGGG
GTGGAAGCGAACGAAGGAGCGCAGGACGGGAACGGGGACGGGAGCGGGGA
CGGGGCGGGAACGGGGACGGGGGTGGGGATCTGTAGACGAACACCGGATG
GGAACGGGGACGGGAACGGGGAAGTAAGTGAGGACTGTAGCGGAGATGGG
GACGGGGACGAAGACAACGGGAACGAGAATAGAATTGGGGAGGGCGGAAG
GGGGACAAAAAAGCGCAAGAAACCTCAAAATAGCTGTAGACGCCGTGCGG
AAAACGGGGGAGACATGGGCGGAAAGCGGAAAAAATGTAGAAAAGAAAGG
GCTGGTTCAGTAGCTGCCAACTCGGATAACCTGGGGAGCTACAAGGAAGC
AGAGGGGAGCACAAGGTGCTCAGGGCTCAAGTAAGATTTGTACAAGTAGA
GAGAGTGTGTCCCCTTTTGTCGCGTTTGATCAGAGGTTTTCGTAACAAGT
ATCATTGATCCCCCCTTGGGAGGATCAACGCGAGTGGCATAGAATGACTA
GGATGACAAGGCCGGATTGCGCGGTTATGTGCAATTTAATAAATATACAT
ACATACATACATACATACATACATACATACATACATACATACATACTTGG
GAGGATCAATGCGAGTGGCATAGAATGACTAGGATGATAGGGCCGGATTA
CGCGGCTATGTGCAATTTAATAAATATACGTACATATATGTCAATGCGAG
TGGCATAGGATGACTAGGATGACAGGGCCGGATTGCGCGGTTATGTGCAA
TTTAATAAAGGGCAACGGCCAAAAGAGGGTATACCCTGTGGTTTTTAGGC
CAAAGCAGGGTAAAGCCTGAAACCAAGACCGCCAGGCCCCAATGAAGCCA
TCTGATTGGCCAGCGCACACCTACACCCGCTGCTGGCCGCCAAATAGGAG
GGTATACCCTCCGAAGGCTTTTAAGGTCCCGAATATACCCTGCTTTGCCA
CCCCCTGCACCCTCGTTTGGCCGGAAGTGCGGGGCTGTTCGTCCCAACCG
GAACACGGTGAACGTACACATAATGACGAGCGGGCAATGACCCGCCGATG
ACTTGTACGCAGCGGCGGGGCGTTTAAACCAGCGGTGCAACTTAGGGCCA
TTCTACGCGGACACCAAAAAGTCGTCTTTCGACGTCAAAAACGCACGACA
TTTGGCTTGAAGAATTCTACTTATTTCACTTTTTACGTCGGCCATTCTAC
GCGCCAGGGCATCTCTCTACATAAGGTGTCAAATCGAATAACGCACGACA
TACAGCCACACACATCACAACTTCATTCAGTACAAGAACTGACTCTGATA
TTTACTATTGTACGTTATTTTGAATACTGTTTTCAAAAAACAATTGCTGC
ACCGCGGTGGACGCCTGCCAATGCAGCACCGCTGTTCCACACACCACGAA
GCAGCGATACTTAAATGACGCAGTTCTGTAGGAGGAAACCTGAGATTGTG
GGTCTGTGCGTCGCCTGAAGGTCACAGACTGCCACATGTATCTCGATGGG
CAGCAGTAATTTCATCAGTGCTGCCGTGCTTGATATCTCACGAAAGGCGA
CGGCTGTAAAGGAAAGGGCTGACTTTATTGGTAAACTGCATTCCTGTACA
CAACATCCACGTCTCTCCAGCTGCAAGCTGTACTTCAAATAATGTATGTT
AGCTACGCGTGCAGATTTTTCTTTCAATAACAGCACTATAATTGCCGCTT
TCTTTATACAAGTTTATCCCCTGTGCACTTCAGATAATGGCGACGCAAGT
TCTGGCAGTTGGACCATGCGTTGAAACCTTATTATTTTAATGTTAAGGCC
GAATCTTATGGAACAGAAAACAAGTGATCGAAAACTTTTTTTTTCTGACA
AGAAAATTTCTTACTTAAAACCTTTTGATTGCTCAGGAGGTTCAGGGCCG
TTCTTAGCAGCCACCAACAAGTCGTCTTTCGACGTCAAAAACGTCAAATA
ATTGACGTAAAAATCTACTTATTTCGCTTTTTACGTCGGCCGTTTTACGC
GACAAGGCTTAGTGTGATAAGGTTACTATTACACCACAGGGTAAAAGTCA
ATTGACGATTACAACTCGGTAATCAGTCCTTATAACACTCTCCACCCACA
GAATTTGACTAGCCGGCGATCAAACGAGGTGATCAAGCGGACTAGACAAT
TCGATAAGGTTTTGAGTGTAGGAGCATAATCGCTTTCTTTTTCATACGGG
AATAGAACCGGTATTTTCTTTTTCGTGCGGGAATAGTACCGGCATTTTTC
TTTTTCATCTCCAACCAATATTCTGCCCAGGAATTCGGTGAGGTAATAAA
GAAGCTAGCTCAGCGGGATTCGAACCCGGGTCCCAGTCGACGCCAGTGTG
ATAAGGTTACTATTACACCACAGGGTAAAAGTCAATTGACAAATACCACT
CGGTAATCAGTCCTTATAACATTAGGGTTTCAAATTCGAATAACGCACGA
CGTACAGCCACACACATCACAACAACTCCATTCAGGACAACAACTGACTC
TGATATTACTGTTTACTGTTGTACGTTGTTTTGAATACTGTTTTCAAAAA
CCAATTGCTGCACCGCGGTGGACGCCTGCCGGTGCAGCGCCGCTGTTCCA
CACACCACGTAGCAGCGATACTTGAATGACAGTCCTGTAGGAGGAGGGTA
AACCTGCGATTGTGCGTCTGTGCGTCGCTTGAAGCTCACAGACTGCCACA
TGTATCTCGATGGGCAGCAGTAACTTCATCAGCGCTGATGTGCTTGATAT
CTCACGAAAGGCGACGGCTGTAAAGGAAAGGGCTGATGTTATTGGTAGAC
CGCATTCCTATACACAAAATCCACGTCTCTCCAGCTGCAAGCTTTTCTGC
AAATGTATGTTAGCTGTACTTTAGATGCCATGCGACTACGGCTCTGATGT
ATCGCATGACAATGTACTAGAGGACAACCGTGTGTCGCCATAATCCGGGT
CTATGATACTATCTGTACACAACAACTTTAGTACAAGTGATTCTGTAATA
TGACTACTGGAGGTTGCTGTATATGCGGTGTTTTCAAAAACCGCATTGAT
TTAACGGTAGATGTCTACCGGTGCTGTGCCGCTGTTCCGCACACAACCCC
AGCACCGATAATACAATGACGCAGCTGGGCAGGAGTAAACCTGCGAGTGT
AGGTCTGTGCGTAGCCTGAAGCCACGGAGTACGGAGTGTCAAATGTTTCT
CGATGGGAAGCAGTAGTACTTCATTAGGGTTGCCCTTGACATCCCACGAA
AGGCAACATTAATTAGCACAGGTTGGGGAGACGGTAGTGTCTCGGTGCTT
CGTGGGGTGCCTCGGGCAGGGTCGTAAACGCTGTAGCAACCGCTGCTGTT
GTGGTCTCCGTAACTATGCAAGCGACGTTCGTCCGACCGATCCACTTGCA
GCAGGTGTCGAGTCCCCAAGTCAGACCCTACCTCCCGGAGTTGTGTTCTG
CACTGCTACTGCGGGGCTAAAATATACAAAAAAATATCAGCCGTCCGATC
GAGGAGGGTCGTCATTGGTTCGACACGTAAAATGTTTAATTATTTTTGTA
TCGTATTTTTGACGTCGAAAAAAATATTGGACGCCAAAAATGGTCGTTTT
CGACATCAAATTTTACTTCACATTCGACATTTTTCGACATTTCACTTCAT
TTCACTTCATTTCGTGGCTGCTAAGAACGGCCTTCAGCTGCGTTCAGATT
TCTTCTTAATACCAATGGGACGTGGGTTATGGGACAGAAAAAACATGATC
CAAAATATTTGTCAGTTTATGGCTCTATTTTTTTTGTGTTGGATGCTCTT
CCGTATGTTTGCATCGTACGGTGCGGCCGGCCAGCTGTATTCGTGTGGTT
GGGCAAGCTTCACACGATCGAATATCGTGTCCTGTGCCATGTCACGGTTG
TAAGTAACACGAATCTACTCGAAGCCGAGGAATATCGGCGTCTGCACGTT
GTACGAATATCGTGTCCTGTGCCATATCACGGTTGTAAGTAGCACAAATC
TACTCGAAGCCGAGGAATAGCGGCGTCTGCACATTGTAGTCTATTGGAGA
GTATGTTCAATGTATATACCCTCTACTACTGTATGTTTTAGATAATTCTG
TATGCTGCCACCCACAACACATCGCGAAGGACTGCTCCGGGTAGGCTCTG
TGCCTTCTGCACCTTTACAACCGTGGCCTGGCACAGCACGTGATCTTCGA
TCGTTTCGGGCTTGTACAACCACACGAATGCAGCTCGAAGGCCGCAACGT
GCCATGCAAGCAGTCCTAAGCGGCCTCCAACAGCATATAATCTGCACCGT
GGACATGGCTTCTGTACGATGCACGTTGCAAAGGCTACAAATATGCTTTC
GGGACACATTGTGTATCTTCCTTATCGAGCAATACTAGAACGAGAACTGA
TATTTTTTATTCTTTGCTTGCGACGTGGATGTGCCGCCACCGGGGCCGTC
ATCGCTGCAACGCAGTCATCCATGCCTGTCTCCAACCCACAAGAGGTCTG
TGTTTGAAGGCAGATTTGGACTTTTGCGTCCGTCCGTCCGGGGGATGCCT
TCGTATCGCTACTATTTTTCTGGTCTCTTTGACTCTTATGGGAACGAAAA
ACTTACACGAAAATGACCCAAATCCGTTTTTTTTTTCAGTCTTGTGGAAA
CGAGAATTGTCTAGATTCGTATAGAGAAATCCGTTTGAGCGTTTTGTAAC
AAATTACAAACGTATTTGGTGCCCAGATTCGTTTGCACCAGCGATACTTC
CTTTAAACACGACAGGCGACCAGTTGCGAGCCCAAGAGCAATGCCTGGTA
AGGTCTGTAGTGCTGAACGCCCATACTACCGCCGGTACTTTCAACATGCC
CACTTCATACCAATAGTGGGTGTGGGAAAGAGAGGCAGATATTAGTTGCT
CCATGGTGACCTGCCAAGGCAGCACTCGTTCGAAACTACCTTGAGGTTTA
CTGGCCCTGTGCCGGCGGACTCTCGGCAGTGAACGCCATCGGTACGTAAT
TGCGTGACCCGATAAACTCGGGACTAATCCGATGGCGTGTGGCGGTTTCA
TATCTGGACGCCGCCGCGGAACTCGGGAGGAATCCCGTAAGTAAGCACTA
GATTCAGCCTGAGTATGGAGATGAGCAGGTTGACGCGGGACGGGACGGCT
GAACCCGTCTCGCGAGACCAAATTCTCAGGCACGCACGGGGACAGGGGAA
TATTCATTTTCCCTGTTCAGCTGACCACTAGCAGGATTGGCAACCTTACC
CCGTTGATCCATACTCTGCTATATGTGATGACCATACTGGTAGATTGTGG
TTTATGACCCTCTCAGCCTCGCTACGGACGGTGGATTTGTGTTTTTCTTA
TATTATTAATCCTTTATATAACTAGCTCCAGGTAAAAAATAGTGTCAAGT
GGCTGGGACAATGTTTTTTACCTGTAGCTAACTAGCTAGACCAAAATACA
TGAAATAAATATACTGCAGTACGATAATTGTTGTAAGGCTCAAATAGCCC
AATATTTGAGTCCTCTGGAGAGATTAAATTGTAGATAGTATTATACTGCA
GTTAACTTTGGAAATTTATTTTAAGGCTACTCGGCCGCTTGCTCCAATAT
AGGTTTAGCTGGTTTTATCCGATGGCACATGTTTTGTCTTTCCAGCACAT
GATGCCACCTAAGCGTTTTGACACTTTTCCCCCTGACTGGGAGATGCTCA
GAAGGTCTAGATGCGTTCAGATTTTTCTTTAAAAACTGCAAGCGGATTTC
GCACGCGGCGCAACTATTATTACATTTGGCCAATAACGCTGCTAGAACTT
ATATACCAGTAATTACCTCTGCCAGGAATGCGGCGGCTATCGCCAAGGGT
ATGGTCGATTTGAGGTCTATAGTTTTCTACTCAAGAGAAGAGGAGAGAGG
ACGCTGGCGGCAAGGTCCGACGTGCTTGAGATGCTCAAAGTTAAGGAGGA
TAGGTGGTTTGGGGGGCTTGAGAATTACTCCCCGAACGTCAAGTGGATGC
GGCGCGTGCATCCCCGAGTTGACTACACGCAGGCACCGTGGACGGTTGTT
ATGCTTGGGCAGTCGAGCCAAAGCATCCACAGTTCAAGGGAATCATAGAC
GTTTTATCGGGCGATTCCGCATTCCATACCTGGTATGTCTTTTCGTGGGC
TCCTCTCCTTGTTGGCGACACAGCAGAAGTGGTATCATAATCTGCAACAA
GTACAGAGTTTGATTCCACATAACTATATACAACATATACGCTGGTGTGC
CCAGCACACTGTATGTAGCACACACACACACCCGCATTGTAACTGAATTG
TTTGCTGTACAGCAGTCTGTACTTGTTTGAGTACTATTGTTTTCATCTAA
ATTCGGAGACAGTACACCCCGATATCGTTCACCGAAACAGGAAGCGCTCG
CTCCTGTCGAGTCAACGGTTCGAAAAGAGTTTGTTAAGAAAAGTACCAGG
TAGTTGCTATAATAGGCTGCCCAATTATTCCAGTCCAAGTGCACCCCCCC
ACAATACAGCAAACCCTGTGGTCTGTACGAGTATCTTCTGGTGTAGCCTT
CTGTCTTCGGATGATACGTACCGGAAGCAGATTTTCCCTCATGTGCGGCG
CATAGCAACGCGACCAGCTGTTTCAGACTACAATAGCTTTCACAGTTGTC
GTTGAACTCCGCCAAGTGCTTGGTACAACATGACCTCCGTGTCACGATAC
GACATGCTGCGTGCATTCGTTGTGGTGGAATTTTGTCTCGATGCATCCGC
TCGCCCGAGTCTGGTAAAATTATCGCAGGACAACGTACTGTATCCGAGTA
CAGCAGTACAGAAGTATGGATACGTAGACTGAATCGAAGACGCCTCAGTG
AAAACCGTACTAGCCGACGAACCTATTCCAATTCTGGGGAGCCCGACGAG
TATCGAAACCGCACATATAGCAAAATTTACCTCGACCTTTGATCTAATTG
AACAGTAGAGCGAGTTCAAAGACGTGGAATTTTGGCAGCCAACAGACCAC
AACAACATCGGTGCGGCGTCTGTCTGTAGTTCTGCACATAGTGTATAAAC
TTAGAGTAGCGCATTCCTGCCGGGCTGTGCTTGTGTTGATCCACCGACAA
GGGGTGAACAAGAGTAAAACCTCGACATGGTTGGTGTCTGCGCTTCACTG
CTAAAGTAGTACTACTGTAGAGCTCCAGCTCGTCTGCTCTTGCATATCTC
ACCCTCTTGTTTTGAAAAATAGGTGGTAATTTGTAGTCGGCATTTTCAAG
TTTGTATTTCCCCCGCATAGACAAGCTCAGACTAGCAGTCGAAACCATGC
CAAAACAAAACCGTTGCCATAAGATTGACTCCAACCATGTTTTTGATTCC
CCCCAAAAAAGGATTTGGCTTATTTTCGTTCAAATTTTTCGTTCCGATAA
GAGTCGGCCTAACTTCTTCCTCCGCTTTTTCCAAATTTTATGACCAACTG
CTTCTCCGAAAGCGCTTCCTCCGAGGAAAAGTGACCCGAAAACTTTTTTC
CTGTCCCATACCTTAGGGTTTGTGGTCATTAATAAAAAAACAAAGTTTTT
CAGTCACTTTTTTTATGATTAACATTGGGCCTTGCTGTAAATGAAGATTG
TTACATGAAAGACTGCCGGACGAACAATGCGTTTCAAGAAAAATCCGAAC
GCATCTCTCTATAAACCTTCTGAGCATCCACCCTCGGGGAAAAAATTATC
AAAAGGTTTTGGTAGGAAGATTGGCTGTAGGGACAAAAACTCTGCATGGT
ACTAAAAGGGTCCCCCAATGTTATAATAGTCCCATAGAGTCAACAGTTTC
TTGGGGTGGAGTTGGCGAGCGGCTCCGTGTTCTTGTTCCTTGGACACGGG
TAGCGGTTTACAAATGCCTACCAAGTACTGTACTGTTCATTAATATTACT
AGCTGTACTCTAAAAATTACACCACCTCAAAGATCGATATTTAGTCTGTT
CGGATGGATGTAGTCTAGCGGCCAAAAGCCGGAGGGGCCCATGAGTAAGC
ACCAGATTCAATCTAAGTGTGCAGAACGAGCAGGATGACGCGGGACGGGA
CGACCGAACTATCTCTCGGGACCAAATTCTCAGGCGCGAACAGAGACAGG
GAAACATAATTTTTTCCTATTCAGCTGACACGAGCAGGATTGCCAACCTT
ACACGATTGATCCATACTTTGCTATAAAATGATGACCACACATAATATAC
TACAAGATCCGGCTGTATACAGAGAACAACCGGGCTGACGCGGGACGGGA
TGGCCGAACAATGTCTCTCTAAAACCAAATTCGCAGGCGCGAACGGGGAC
AGGGAAAATTCACATTTCCCAATTCAGCTGACCTTAGCAGGATTGGCAAA
CCATACCCGGTTGATGCGAAGTCTCTCATTGTGAAAATAGTTTGTAAGTG
ATCATCGCCGTACATACGTACGGTCCTATAAAACGTTGCTCGCTGTCCAA
TCTTACACGGTACTTGACACTTTCAGCCTCAGCTTTCTGGAGGATCAGGA
TATTGTTCTCATTCCTCTGGGAGAACATGATGACAAGCGCAACAAAAGCT
GGGCGCCTGTTGGGGAGGAGACAGTCTTGGCGACTTTGGAGCACATGGTG
GACTCTTCCTTTTACCCTGTCCTCATCATATGCAGTACTGGCAAACACAA
AACAG GTATGTACAGTACCTACTCGTACTCTGAACAGTTGGAGGCTTTGC
GCCCCTACCATACGTGACACTATTAATAGACCAATAGACACACTATTAAT
AGACCACACGCATCGTCGCCCGAGTGGTGAAGTGGATCACCTCGCAATTC
AATAGTGCGGGTTTCGTGAGTTAGTATAGTCCAATCATTGTAATTCGGTT
GACGAGGTATAAGTGCTTAACTTGCATCGCGATAAAAAGTAGCAGGTGAG
CACCAGGGAAAGGGGGAGATCCTTTGTGACCCCAGACAAGCTGGCAACGT
TGCAGTAGGTGGAATTGGTAACATAGCACTCAGAGGTCCATCGACCGCAA
TCGAGATGAGATACGAACAAAATTCTACTATTAATAGCAGAACGCTTCTG
GTACTGGTACTGGTACTGGTACTGGTACTGGTACTGTGTATTTTCGTACG
AATCTATTTTGGGTATGCTGAACGATTAGAGTTAATTATGTGACGTAATC
TCTTCTTACGTATCCAGGGTAATTTGCGGTGTGTCTGCATCACGCGCGAC
ACCCAGATATATTCTCTACCCACAAGAGTCAGGTTCGATCAATCAATCAG
GCTTACGGAAATCGGGAGGAATCCCATAAGTAAGCACCAGATCCAGCCTA
AGTATGGAGATGAGCAGGCTGACGCGGGACGGGACTGCCGAACCCGTCTC
GTGAGATCAAATTTTCAGGCGCGAACGGGGACAAGGAAATACTTATTTTC
CTTGTTCGCTGACCACGAGCAGGATTGGCAACCTTACCCGGTTGATCCTT
ACTCTTGCTATATGTGATGACCATACATACATGACGTTCATGGATTCAAA
TTTTCAGAGAGCACAGTTTTATCACCTGATAACTCACCGAAACCCTATAC
GAGAACAAGGTACAGCAGCACGTGTATACGTACGGGTAGGAAAAGACGCT
ACAGTAGCGGCAAGCTTTCACGAAACACCTATTTGAGGGTTTGATGAAAA
CGTTATTGTCATGGGCAGTGAGTATTATTTCCAATTTTGCCATTTCTTAT
GTTGAGTCACCTTCAACGAAACACAGTTCTTAAATACATAGAGTATATAC
TCCGTAATTTCTTATTTATCGCCCGATCACTGCTGTCATCAACTGGTCGA
CGTACGAAGATCATCCTCCCTGGTCAATGTTGCGAATATTCGGTGTCCGC
ACCCTCTCGGACCTGCGCTCTGATGCTTCACCGTCCTCCTCTTGCGACTC
CTTCGGAGAACCTTCGTCCGGCTCGAGGAGCACCCGTGTGCGCCCTCGTC
TGCGCTGTACTTATCTAGAGACAGCGCCATGCTATGAGTACTCTGATGGA
ACTTCAGCGTCACACCAAAGTCGTACGTGTGTGTAGCAACAGTAGTGATC
TCTGCGGCTGATCAGCCCTATGAAGCACCCATGTCACGCCGCAATGGGAC
GTATCGCTTAATCAACGCTTGGTCTAGCTTAGCTAGTTTCGACTCCTGGA
GGTGGAACCGGTTCGGGCCCTGAATGGATAGAAGTTCATCGCCAGGGTCC
ATGTGATGATCGCTGTCCAACTACGAAATGGAGTCATTCTTGTCTCGATC
GTCTGTGGTTTACGACACGCATACAGTACAGTATAGTATACAGTAGTACA
GTACAGTGCACAAGAGCGATGGGCAGAGCAACGGAGTGCTGTTGGTTCGA
TTGTCCCCCAGAGCACCAATGCATCCCTCTGCTGTTGTAAGAATTCCCAT
TCACAAGATAATGTATTCCCACTACATCATAATAATAGGTTCTACAGTAC
TTGTCTCACCGCCGCTCTCGTCGCTATCCTCATCGCTGAAATCGTCGCTC
TCGTCGCCACTTCCGCGAATGCTCTGCTCTCGTGATAACTCTTGTTATCA
CCCTCATGACATGCCTCAACTATCGTGTCCGGAGTCCGACTCTTCGCTGC
TCGTGGCTTCATACATGAAGCTGTACGGTCTTGATATGCCTTCCGGCATT
ATGCGGTCATCCCTCGGCTCATCAGCCGTCATAGCCAACTCCGTCTTAAC
AAGAAGGCGGAGGCGGTAGACAGGACGAGCGTCAAAGCGTTCTACGGCAT
TCTCCACCCACCGAGTTATAAGGACTGGCCGATCGGACCCGGTGATTTAG
TTGGTCTCCGACTTAAGGAGGATGTCATATTGGTTGAGGAACCAATCCAG
CTCCTTTTGCGATCTCGACCTTGAGGAGTCGATCATAGCTCACATTGATT
GGCTGAACTTCGTCGGTACAAGCCGGCGGATGAAACCAAACTAACGTGTA
GCATTCTTCTGCGAGGGCCCGCTTGAACTCAACCGTCGTCTGCGCGTGCA
GTTTGTCCAAGAAAAGGATTGACTGCTTCGACGGCACGACGTTCTCATCG
GCCTTGATGCTTCGGAGGAAGCTGCGCTTGACCTATACGATGCACGCAGC
GCTCGCTTCGAAGAAGACATCAACTCGGGGGTCGTACGTTCCCTCTTCAA
CCGCAGAGATCCTGCCCTTTCCGCGGAATGGGATGGCGAGTCTTATCAGC
TTGTCACCGGGGCCGATAATGATGCTGACAATACACTGCTGCTTCTCCAG
ACCGGCGAACGGGTGCGAGAGGTGCACCCGCTTCGGCCACGTCACCTCGT
AGATTGCCACGAACGCTAGACCTACTTTGTCGGCACTGAACCGCCCGTCC
AGGGGGAAGCGTTCGAACGCAGGATCCCTCACCGGTTGCGACTTGATCTC
GCCTCTGTCACTCGCTGTCGCACCCTCCGCACAGTCGTGGCGACGAGGAG
CTTGCCGCATCACCTTGCACAGCTACTGTGGAACCGCTTTATCTTTGGCA
GGCGCTCCTCCTCTACCTTTATTTTGGTGTTGGTCCTCCTCCGCACGCAG
AGCTTGTGGCGCTTGCGAACATTCTGCACCACCGTGCCGCATTTCCCGCA
CGAGCTTCTGGCATGTCCGGTGGATCCAGAACGTCGGAACCCTCATCTTC
CTCTTGCGCCACACCAATACCGAAGGCTCTGCATCGCCGAACGAATTCCT
TGCCCGACCCGCCAAAAAAGACCTCGTACCACGCGTTCCGAAGCCTACTT
GATGATATATATATATATATGGTTTGCTCCTCCGCCTACCACGTACTATT
AATAATGTCGGGAATGTCCGTCTTCCTGTCTTCTTTGCCAAGAAGAGCTA
AGGCGTCGAACCGCAGATTCGCCAGAGTTCCTTATCCTGATCCTCCAGCT
CGGGGAACTCTTCGATGACTGCCGCTCTCTGCCTAACTGAGTATCTCACT
CGTTTTTTAGCTCCTTAAGTCTCCTTCATCGCTCTTTGCGGCCCAAAACC
GTCCGACGGGGGGTCGCCCTCAGGGAATCTTTGAAGTCTCTACTGCAGTT
CGAACGTCACTGTCCCGCCCCGACGCCGGGTGCGCCCGACGACACGGCAT
CAACCCTGAATCCCACGCCACGGCGGTTCCGTGATCGTTCCGCCTGTTTC
CAGTGCCCGCTTGAGCCCCTCCGCTAGATTGTTGGTCAAGGAGTGGGTGG
ACTGCCTTGTAGTGCAGGGCAAAGCCTTGCTTCGCAGATAATGTTTTGGG
GGCAGTGGCGACACGGTAGCTTTAGAGGACCCAAAGGAGACGGGTAGATC
ACGTGCGAGACCACCGCCGTCACGCCATCACGGGTGCGCTGAGTCTGTCG
GCCGCGCAAAACGAAGGGCAAGCATTCAATCACCCTTCCACGGAGCTTGA
CACTTCTGCAAGTAACTAAACCTAACCTAACCTAACCTAACCTAAGCTAG
ATATGGTGTACTTCTTCGTCGTATGGAGTACATTCAACCGCTTTGTGCCT
TTTGCATGAACATAGGCAGTAAATCACACTACAGTACGATACTCCAGAAA
CATTTATAAGAAACATATATCACTGTATACACAATCGTATTTATGTAAAT
TTGAAGCAAGCTACCAGTGCTGCAATTACTTCAGGTACTTACAGTATATA
TACTACAGTACAGCTGTTGACAGTAACAAAATGACAACTGCATGGTTGAA
GCAGAGGCATGCCATACATCAGCAAGCTTGAAATCACACGCTTTCAGCCT
TTCAGCACATCATGGTCAAGTGCTGCAACGTCAAGTGCTGCTGCTCATCG
GCTGTTTCGCCGCTTGTATCAGGCATTTACAGTTGATGTTCACGCCTCCA
GTATTCGAGACTGCGGCCGCGTTCCTGCCCTTGAGTTTTGCTCTTTTCAC
CGGGCGAGCCAGCGGAGAGGATGGGGTGGATGCAGAAGGCGCAGGCAACA
CCCTCCGAATTCGACGGTCGTTGTCCACCCTTGACCAGCTCCTCGACTAT
CGAATCCAGCTCTCTCCGATGGTCGTCCTCTGAGGATGACGCTGGACTTC
AAGCCGACTAAGCTCTCAATGTTTAACGAAAAGCCGTCACCCACGTTCTC
AATGCAGTCTTTTTGCTCATTCGTCCACCATACACCCACTACCACCACCA
CCACCGACCACTCTTGAGATCTTCTCGAGATTGCCGATTGGTGCTTGATT
CAGCATTATTCACCATTGTCTGCCTACTCTAGTTCTTGCCCCTGGCCGAT
GGGGTACAAACTGAGACCGGGCACGACCACCCGATTCGGGACTCAAAATC
TGGAGAGTTCCCACCTGATGTTGAACGGATTCGGTCGAAGCCGGCAACCT
GGGGACGATACGACGATGACACCTACTGGGCTGAGCGGGGCGCCCAGCAG
GGCTGAGATCGTGTCTCTTATCGAGACCTCCACCTTCCAAAGATGCATTT
CTTACCCCAGCTACCGTGTTTGTGTTTGATTATCTTTCTTTTTAAACGGT
TTTCTTACTCTTCAGCTTGAAATGACCTATATTTATTATCCAGGATTTGT
TCATTTTCAAAAAAATTGAGCCATAATTTCTCAAAAACGTATTTCTAATG
AGCGCTTCGCTACTGTATGTATAGCTCAGTCGGAAGCGAACACAGCCCTA
CTGTTGACGCTATTTTGATATTTTACATTTGATATACAGTGGTATACAGT
GATATACTCGTAGGAATGAGCCCTCATAAGGCCCAAGGCCAAACGGGTAG
GATGACTATTATATTGTATGGTCACACATAGCTCTATAGCAAGTATGGAT
CAACCGGGTAAGGTTGCCAATCCTGCTCGTGGTCAGCTGAACAGGTAAAA
TGAATATTTCCCTGTCTTGTTCGCGCCTGCAAAATTTGGTCTCGAAAGAC
GGGTTTGGCAGTCCCGTCCCGCGTAATTTATAGTTTGCTGATTCGAACTA
GAAGGCAATACAAGGCAACATAAGGTTATCAATGTACCGGACGTTTTTAC
CGGACGACGGACTGACACCCTCTTGAGGAGGACGGAGGAAGAGCGTGTTG
CTGGTTCGAGAAAACACTTCGCCGGGGTCCCAGGGTTGATTTCGAGGGTG
GAAGGTGACTTAGCAATTTTAACCCTCGTCTTCTGGGTTGTGTCTGGGTT
GTGATCGGAAAAACAACAAAAACTCGCCTCTCATTGGTCTTGCAACACTA
TTGTTGCTGTCGAAGCTGGGCAGAAAGTATTGCTCGTTGTGATTACCTTG
CAGACGGGGATATTATCGTGGAATCATACCACATCTCGACGTCTACGGGG
TTGGCTGTGAGTCGTTCAGACCGTGTCTTTTCTTTCGAAAAATATGAACG
GATCGAAACCTTGTATCTAAACCTTGTATCTAAACCTTGGTTCAATGTTC
CGGGCATCCACACCGTCCGGGGGAATAATGGCAATTTTTTTTTTTAATTC
AATGGCTATTAAAACAAAAACTCCGCGCAGGGTTTAGTTGGTTCCCCGTC
GAATAGCTCCAACAGTAAAATATCGTGGATGAACACACCGTCATTCTGTA
CACATACACTAATTCCCTTGTAGGTGCACCTTAACAGCGGCAAAAACACG
CTATAAGCCCCAAGATAGTTAAATTTATTTATATTGATTGGTTTTGAGTA
CTTTGGGGGGTTGGTGAACGGGTGTTGAGTAAATACCAGGTATACAGTAC
AGTAGGTAGCTTTTAAAGAAAAATCAACACGTCTCTAAACCTTCTGAGCA
TCCCTCAATCAGGGGGAAAAATTGTCAAAACTTATAGGTAGGAACATAGG
CTGCGAAGACTAAAACGTTTCATGGCATTTAATCGGGTTCCTCAATGTAG
TCATATAGGGTCAACAGTGTAATATCGGGAGGAACCCACCGTTATACTGT
ACACTTACCTTAGTCGCCATGCAGGGACTGTTTTCTAACGACCGGTAGAA
GTTAGCTAGTCTACCGCAGTATGTATCTGCAGTCTAGGGAGATACAGCTA
GGTCTACCTTATTTAATCGTCACAAGTACATCAAAGGGTCTTGAGAATAT
ACGTATCAATACGTGATTGAAGTGAGGAAATGGTAGTGAATTAATAGGTA
GTTTCAAAAGACCATTGTAACGCCAGAGAGGGTTGCATTCTCTAATTTCT
AGGCGTCACTTACATTACTGGTCATTTAATGTACATCACACCATTAGAGA
TAGAACTCGATGCTCTTTTATATTAACGTGGAGATAATATTCTATTATAG
AAGATTATAAGGGGAAGTCAGTTCAAGTCATATGGTTTAAGAGGGCGCTA
TAATATTGATATATTGATAGTACCTTGTTCCTAAATAATTAACTGGATCA
TTAACACTGTTGATTTAACCTATTACTATTATAATAATACTGCACGTATT
TAATAGTTTGACTTGACGTACTCGTAATAAACCTCGAATTTCTTGACGTT
TTCTGGTAGCGGCATAACCTGGCTTGCAATCCCGAATAAGTTTTAGATTA
GTCTAACGTCAATCGAACTGATGACAACAAAATGCTTCGTGTACTAAATT
CGTTTTGATTGTTTGATTGAGCTCCGCTTCACCAGGGACGGTAGTCGCAT
GCCTTCGGAAGCTGCAGCGATGGAATTTGACTTCCATATTCGAAGAATAT
CGCCGGTTCACAAAGCAAAAG GTATGAAATGTACTCTACAGGTACCTCCT
CCGGAATTTCACTAGCTCTCCTCTGTGCTCGAGCTTATGCTTTGTTGACA
GCTCTTTGTTGACAGCTCTAGAGCTCTAGCCCCGGTCCATGACAGGAGGT
GGGGTCCGTCTAAGTTCCCTCTTCACCCATTGACTTCGGTTATTTGCATC
GTGGACATGCGTTGCAGTTCACGATTGCTGAGGCAGTCTGCGAATGGTAC
CGGTAGTTGTTTCCTTACAGCTACAGGGTGTCGTGGGTAACGACAGGCTT
AGTGCGCTGCGTTGTACCGACGGCACACACGCGTTTCGAGTCACCTTTCG
CCCCTTATGACGTTTGTTTGCGCCAGGTCCGAGTGCAAAATGAACAATTC
ATCGAACTATTTGATACGGACTTGGTCCACCTGCCACCTGATGCACCGAG
ATACCTCCAGAATCGATGA AGGATGCACGTGGTGGAAGCCTGTGTTACGT
TGTTCGTTGACGGCTTCGATGAAGGGGGCTTAAGCGATTGGGTGGCTAAG
TAAAAAATGGTCTAGAGCTGCCGCGAGGTCAGGACACTCTTTTGTTCTCA
AGAACTCAAACGTCGCTGGCAACATTCAACACTCAGTAGTTTTTCCGTTG
CCGACTGAGGGGTCGGGTCTCACATGTATAATACGAACACATTAAGAAGA
GTGTGTTGGAAATACCTTTACATTTTACATCAAGCCCAAGACTGTCCGAA
ACGAATTGTCACACCGCGGATAATCGTTTGTAAACCTCACGGATGGAGGG
ATGTAACGGGAAGGAGGGGATGATGACATTGTAGGGGGCATGACTTGGAA
CACGACGTACGGATCTAGGAGACGCGACTGGAACACGACGTGGAAAATGG
CAAAGAGCTCTACTAGAAGTGTATTTAATATTATAGTGGGGTTATGTACG
CCACCTTGCTTCCCATAGAAGACGAAAACTCTCCGCGTTCGTTTCTTTGG
CTATGGTACCTTCGCTGGGGAAAGCTCACCTTGGCGGTAGTTATGATATT
TTTCTTGGCGATAGTTGTGATGATTTTTGTTGATTTTTGCAACGCCATGG
GTAACAATTGGCGTTTTTATTTATTTATTTATTTCATCTCCCTCATAACC
AATGGGCCTCAACATTACCATCCTGCCTATGGTCACTAAGGACCTTCCCA
TCTCTCCCCGGTTCACGCC back to top Coding sequence (CDS) from alignment at A-nodosum_M_contig102:741984..762602+
>mRNA_A-nodosum_M_contig102.94.1 ID=mRNA_A-nodosum_M_contig102.94.1|Name=mRNA_A-nodosum_M_contig102.94.1|organism=Ascophyllum nodosum dioecious|type=CDS|length=507bp|location=Sequence derived from alignment at A-nodosum_M_contig102:741984..762602+ (Ascophyllum nodosum dioecious) ATGTTCTTTCCCCCGGTAAGCTTTGGTCTTGTGGAAGAGGGTCTCTACAG GTCTGCGCTGCCAACCGACATAAATTTCCCGTTCCTTGAACGTCTGGGAC TCAAGACCATAATCTACCTCTACCCAGACAAGGAGATCGACCCTCAACTC CTCAGCTTTCTGGAGGATCAGGATATTGTTCTCATTCCTCTGGGAGAACA TGATGACAAGCGCAACAAAAGCTGGGCGCCTGTTGGGGAGGAGACAGTCT TGGCGACTTTGGAGCACATGGTGGACTCTTCCTTTTACCCTGTCCTCATC ATATGCAGTACTGGCAAACACAAAACAGGGACGGTAGTCGCATGCCTTCG GAAGCTGCAGCGATGGAATTTGACTTCCATATTCGAAGAATATCGCCGGT TCACAAAGCAAAAGGTCCGAGTGCAAAATGAACAATTCATCGAACTATTT GATACGGACTTGGTCCACCTGCCACCTGATGCACCGAGATACCTCCAGAA TCGATGA back to top