Homology
BLAST of mRNA_P-littoralis_Contig59.96.1 vs. uniprot
Match:
D7G5J3_ECTSI (PPIase cyclophilin-type domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7G5J3_ECTSI)
HSP 1 Score: 425 bits (1093), Expect = 2.400e-139
Identity = 216/255 (84.71%), Postives = 230/255 (90.20%), Query Frame = 1
Query: 619 GAQLLNRAGSS--SNDLSPAEDDEEPAIPQAAITDKVFFDVEIDGLPAGRVIMGLYGGVVPRTAANFIGLCKGESERRRKPFGFEGSSFHRAIPGFMVQQGGDFTRGDGTGGFSIFGGKFKDEDMSQLKHIGPGVLSMANSGPNSNGSQFFLTTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLRGKATITGCGLVKRNSAAMETEAADWGGADSGNSFRANAMRGVRADVREEKAGVSRAVGGALRPS 1377
GAQLL +GSS S SP +DDEEPAIPQAA+TDKVFFDVEIDGLPAGRVIMGLYG VVPRTA NF+GLCKG+ ++RR+PFG++GS FHRAIPGFMVQ GGDFTRG+GTGG SIFG KF DEDMSQLKH+GPGVLSMANSGPNSNGSQFF+TTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKL GKA I GCGLVKRNSAAMETE A WGGADSGNSFRANAMRGVRADVREEKA VSRAVG A + S
Sbjct: 151 GAQLLKGSGSSKGSTPASPTDDDEEPAIPQAAVTDKVFFDVEIDGLPAGRVIMGLYGAVVPRTAKNFVGLCKGDPKQRRQPFGYKGSIFHRAIPGFMVQ-GGDFTRGNGTGGVSIFGAKFDDEDMSQLKHVGPGVLSMANSGPNSNGSQFFITTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLSGKAVIAGCGLVKRNSAAMETEGAGWGGADSGNSFRANAMRGVRADVREEKAAVSRAVGNAFKSS 404
BLAST of mRNA_P-littoralis_Contig59.96.1 vs. uniprot
Match:
A0A087SNB6_AUXPR (Peptidyl-prolyl cis-trans isomerase n=2 Tax=Auxenochlorella protothecoides TaxID=3075 RepID=A0A087SNB6_AUXPR)
HSP 1 Score: 215 bits (548), Expect = 9.330e-62
Identity = 111/172 (64.53%), Postives = 132/172 (76.74%), Query Frame = 1
Query: 709 ITDKVFFDVEIDGLPAGRVIMGLYGGVVPRTAANFIGLCKGESE--RRRKPFGFEGSSFHRAIPGFMVQQGGDFTRGDGTGGFSIFGGKFKDEDMSQLKHIGPGVLSMANSGPNSNGSQFFLTTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLRGKATITGCGLV 1218
IT KVFFD+EIDG PAGR++MGLYG VP+TA NF L GE + +KP F+GS FHR IP FM+Q GGDFTRGDGTGG SI+G KF DE+ +LKH GPGVLSMANSG +SNGSQFF+TT WLDG+HVVFG+V++GMDVV++IE LGS+SG+ K TI G V
Sbjct: 28 ITSKVFFDIEIDGAPAGRIVMGLYGKTVPKTAENFRALATGEKGIGQSKKPLTFQGSHFHRIIPQFMLQ-GGDFTRGDGTGGESIYGPKFADENF-KLKHTGPGVLSMANSGRDSNGSQFFITTVKTSWLDGRHVVFGRVIEGMDVVYKIEALGSQSGQPSKKVTIAKSGEV 197
BLAST of mRNA_P-littoralis_Contig59.96.1 vs. uniprot
Match:
A0A2S8GAG5_9BACT (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Blastopirellula marina TaxID=124 RepID=A0A2S8GAG5_9BACT)
HSP 1 Score: 214 bits (546), Expect = 1.270e-61
Identity = 107/175 (61.14%), Postives = 133/175 (76.00%), Query Frame = 1
Query: 700 QAAITDKVFFDVEIDGLPAGRVIMGLYGGVVPRTAANFIGLCKGESERRRK--PFGFEGSSFHRAIPGFMVQQGGDFTRGDGTGGFSIFGGKFKDEDMSQLKHIGPGVLSMANSGPNSNGSQFFLTTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLRGKATITGCGLV 1218
Q +TDKVFFD+ I+G PAGR+++GL+G VP+TAANF LC GE + R P ++GSSFHR IP FM+Q GGDFT G+GTGG SI+G KF DE+ + H G GVLSMANSGPN+NGSQFF+TT WLDG+HVVFG+VL+GMDVV ++E LGS+SGK R TI CG++
Sbjct: 25 QGKVTDKVFFDIAINGQPAGRIVIGLFGDDVPKTAANFRALCTGEKGKGRAGVPLSYKGSSFHRVIPQFMLQ-GGDFTNGNGTGGESIYGAKFADENF-KYTHDGSGVLSMANSGPNTNGSQFFITTVKTDWLDGRHVVFGRVLEGMDVVKKVESLGSQSGKPRATVTIADCGVL 197
BLAST of mRNA_P-littoralis_Contig59.96.1 vs. uniprot
Match:
A0A2V0P3P9_9CHLO (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Raphidocelis subcapitata TaxID=307507 RepID=A0A2V0P3P9_9CHLO)
HSP 1 Score: 213 bits (543), Expect = 4.170e-61
Identity = 110/179 (61.45%), Postives = 132/179 (73.74%), Query Frame = 1
Query: 700 QAAITDKVFFDVEIDGLPAGRVIMGLYGGVVPRTAANFIGLCKGESE--RRRKPFGFEGSSFHRAIPGFMVQQGGDFTRGDGTGGFSIFGGKFKDEDMSQLKHIGPGVLSMANSGPNSNGSQFFLTTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLRGKATITGCGLVKRNS 1230
+A IT KVFFD+EIDG P GR++MGLYG VVP+T NF LC GE + KP ++GS FHR IP FM+Q GGDFTR DGTGG SI+G KF DE+ +LKH GPG LSMAN+GP++NGSQFF+TT GWLDG+HVVFG+VL+GMDVV ++E LGS SGK K I G +K S
Sbjct: 29 KAQITHKVFFDIEIDGKPEGRILMGLYGEVVPKTVENFRALCTGEKGVGKSGKPLHYKGSIFHRVIPQFMLQ-GGDFTRSDGTGGESIYGEKFADENF-KLKHKGPGYLSMANAGPDTNGSQFFITTIKTGWLDGRHVVFGKVLEGMDVVMKVEALGSGSGKPSKKVVIADSGEIKETS 205
BLAST of mRNA_P-littoralis_Contig59.96.1 vs. uniprot
Match:
A0A0D2MNZ0_9CHLO (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Monoraphidium neglectum TaxID=145388 RepID=A0A0D2MNZ0_9CHLO)
HSP 1 Score: 213 bits (542), Expect = 5.620e-61
Identity = 107/179 (59.78%), Postives = 133/179 (74.30%), Query Frame = 1
Query: 700 QAAITDKVFFDVEIDGLPAGRVIMGLYGGVVPRTAANFIGLCKGE--SERRRKPFGFEGSSFHRAIPGFMVQQGGDFTRGDGTGGFSIFGGKFKDEDMSQLKHIGPGVLSMANSGPNSNGSQFFLTTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLRGKATITGCGLVKRNS 1230
+A +T KVFFD+EIDG PAGR++MGL+G +VP+T NF LC GE + + KP F+GS FHR IP FM+Q GGDFTRGDGTGG SI+G KF DE+ +LKH PG LSMAN+GPN+NGSQFF+TT WLDG+HVVFG+V++GMDVV ++E +GS SG K TI G +K S
Sbjct: 28 KAEVTHKVFFDIEIDGKPAGRIVMGLFGDIVPKTVENFRALCTGEKGTGKSGKPLHFKGSVFHRIIPQFMIQ-GGDFTRGDGTGGESIYGEKFADENF-KLKHKAPGYLSMANAGPNTNGSQFFITTVKTAWLDGRHVVFGKVIEGMDVVLKVEAIGSGSGTPSKKVTIADSGEIKEAS 204
BLAST of mRNA_P-littoralis_Contig59.96.1 vs. uniprot
Match:
A0A5C5V450_9BACT (Peptidyl-prolyl cis-trans isomerase n=3 Tax=Blastopirellula TaxID=265487 RepID=A0A5C5V450_9BACT)
HSP 1 Score: 212 bits (540), Expect = 8.980e-61
Identity = 105/176 (59.66%), Postives = 133/176 (75.57%), Query Frame = 1
Query: 700 QAAITDKVFFDVEIDGLPAGRVIMGLYGGVVPRTAANFIGLCKGESERRRK--PFGFEGSSFHRAIPGFMVQQGGDFTRGDGTGGFSIFGGKFKDEDMSQLKHIGPGVLSMANSGPNSNGSQFFLTTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLRGKATITGCGLVK 1221
Q +T+KV+FD+ IDG PAGR+++GL+G VP+TAANF LC GE + R P ++GS+FHR IP FM+Q GGDFT G+GTGG SI+G KF DE+ + H G GVLSMANSGPN+NGSQFF+TT WLDG+HVVFG+VLQGMDVV ++E G+++GK R TI CG+VK
Sbjct: 25 QGKVTEKVYFDIAIDGKPAGRIVIGLFGEDVPKTAANFRALCTGEKGKGRSGVPLSYKGSTFHRIIPQFMLQ-GGDFTNGNGTGGESIYGAKFADENF-KYTHDGAGVLSMANSGPNTNGSQFFITTVKTDWLDGRHVVFGRVLQGMDVVKKVESYGTQNGKPRATVTIADCGVVK 198
BLAST of mRNA_P-littoralis_Contig59.96.1 vs. uniprot
Match:
A0A2E8AYF3_9PLAN (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Planctomycetaceae bacterium TaxID=2026779 RepID=A0A2E8AYF3_9PLAN)
HSP 1 Score: 212 bits (540), Expect = 1.130e-60
Identity = 107/173 (61.85%), Postives = 131/173 (75.72%), Query Frame = 1
Query: 709 ITDKVFFDVEIDGLPAGRVIMGLYGGVVPRTAANFIGLCKGESERRR--KPFGFEGSSFHRAIPGFMVQQGGDFTRGDGTGGFSIFGGKFKDEDMSQLKHIGPGVLSMANSGPNSNGSQFFLTTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLRGKATITGCGLVK 1221
+T++VFFD+ IDG PAGR++MGLYG VVP+T NF LC GE + R K ++GSSFHR IP FM+Q GGDFT G+GTGG SI+G KF DED S L+H PG+LSMAN+GPN+N SQFF+TT WLDGKHV+FGQV+ GMDVV IE LG+RSG+ R + I GCG +K
Sbjct: 35 VTNQVFFDLTIDGEPAGRIVMGLYGNVVPKTVENFRALCTGEKGKGRSGKALHYKGSSFHRVIPNFMIQ-GGDFTIGNGTGGESIYGSKFNDEDFS-LRHNQPGLLSMANAGPNTNNSQFFITTVKTPWLDGKHVIFGQVIGGMDVVKSIEALGTRSGRPRSRIQIIGCGELK 205
BLAST of mRNA_P-littoralis_Contig59.96.1 vs. uniprot
Match:
A0A7J7Q6Q0_9CHLO (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Scenedesmus sp. NREL 46B-D3 TaxID=2650976 RepID=A0A7J7Q6Q0_9CHLO)
HSP 1 Score: 212 bits (539), Expect = 1.520e-60
Identity = 106/177 (59.89%), Postives = 133/177 (75.14%), Query Frame = 1
Query: 703 AAITDKVFFDVEIDGLPAGRVIMGLYGGVVPRTAANFIGLCKGE--SERRRKPFGFEGSSFHRAIPGFMVQQGGDFTRGDGTGGFSIFGGKFKDEDMSQLKHIGPGVLSMANSGPNSNGSQFFLTTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLRGKATITGCGLVKRN 1227
AA+T+KVFFD+EIDG PAGR++MGL+G VVP+T NF LC GE + + KP F+GS FHR IP FM+Q GGDFTR DGTGG SI+G KF DE+ +LKH GPG LSMAN+GPN+NGSQFF+TT WLDG+HVVFG+V++GMDVV+++E +GS G K I G +K +
Sbjct: 29 AAVTNKVFFDIEIDGQPAGRIVMGLFGDVVPKTVENFRALCTGEKGTGKSGKPLHFKGSVFHRVIPQFMLQ-GGDFTRSDGTGGESIYGEKFADENF-KLKHKGPGYLSMANAGPNTNGSQFFITTVKTTWLDGRHVVFGKVIEGMDVVYKVEAVGSGGGATSKKVVIADSGELKES 203
BLAST of mRNA_P-littoralis_Contig59.96.1 vs. uniprot
Match:
A0A1R2BWN9_9CILI (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Stentor coeruleus TaxID=5963 RepID=A0A1R2BWN9_9CILI)
HSP 1 Score: 211 bits (536), Expect = 2.690e-60
Identity = 110/177 (62.15%), Postives = 130/177 (73.45%), Query Frame = 1
Query: 694 IPQAAITDKVFFDVEIDGLPAGRVIMGLYGGVVPRTAANFIGLCKGESERRR--KPFGFEGSSFHRAIPGFMVQQGGDFTRGDGTGGFSIFGGKFKDEDMSQLKHIGPGVLSMANSGPNSNGSQFFLTTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLRGKATITGCGLV 1218
+ IT KVFFDVE DG GR+I GLYG VPRT+ NF LC GE+ + KP ++GS+FHR IP FMVQ GGDFTRGDGTGG SI+G KF DE+ LKH+GPG+LSMANSG N+NGSQFF+TT WLDGKHVVFG+V++GMDVV +IEDLGS+SGK K I G +
Sbjct: 17 VQDVQITSKVFFDVEADGEFLGRIIFGLYGKSVPRTSENFRALCTGENGQTLDGKPLHYKGSTFHRVIPNFMVQ-GGDFTRGDGTGGESIYGKKFPDENF-MLKHVGPGILSMANSGQNTNGSQFFITTISTPWLDGKHVVFGEVVEGMDVVKKIEDLGSKSGKPSKKIVIRDSGEI 191
BLAST of mRNA_P-littoralis_Contig59.96.1 vs. uniprot
Match:
A0A7R9VAD6_9CHLO (Peptidyl-prolyl cis-trans isomerase n=1 Tax=Chlamydomonas euryale TaxID=1486919 RepID=A0A7R9VAD6_9CHLO)
HSP 1 Score: 211 bits (536), Expect = 3.060e-60
Identity = 103/179 (57.54%), Postives = 134/179 (74.86%), Query Frame = 1
Query: 691 AIPQAAITDKVFFDVEIDGLPAGRVIMGLYGGVVPRTAANFIGLCKGE--SERRRKPFGFEGSSFHRAIPGFMVQQGGDFTRGDGTGGFSIFGGKFKDEDMSQLKHIGPGVLSMANSGPNSNGSQFFLTTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLRGKATITGCGLVK 1221
A+ ITDKV+FD+EI G PAGR++MGL+G VP+TA NF LC GE + KP ++GS+FHR IP FM+Q GGDFTRGDGTGG SI+G +F DE+ +LKH PG LSMAN+GP++NGSQFF+TT WLDG+HVVFG+V++GMDVV+++E +GS SGK K I G+++
Sbjct: 19 ALADETITDKVYFDIEIGGEPAGRIVMGLFGNTVPKTAGNFKALCTGERGTGTSGKPLHYKGSAFHRVIPQFMIQ-GGDFTRGDGTGGESIYGSRFPDENF-KLKHTAPGYLSMANAGPDTNGSQFFITTVVTSWLDGRHVVFGKVIEGMDVVYKVEGVGSGSGKPAKKVVIADSGVLE 195
The following BLAST results are available for this feature:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig59.96.1
>prot_P-littoralis_Contig59.96.1 ID=prot_P-littoralis_Contig59.96.1|Name=mRNA_P-littoralis_Contig59.96.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=472bp
MHEAPDETTSCECDPSIYPPGPRRTTKLAPGRGGREGAKAMELFFRASCG
QALTRNPVHGRAILALTTRVCRPHSSSSTIIKHHGPECAAFRSGTCTRSS
DTSGRSSISTSALSGSLVNRSVHEMAATARNTLGSAGPLLKNAERRPTSY
GLGRGIAVERFSTSPSGLTPPPPPPPTPPPAGSTWSGGAFKLVGAAILFA
GGYFGAQLLNRAGSSSNDLSPAEDDEEPAIPQAAITDKVFFDVEIDGLPA
GRVIMGLYGGVVPRTAANFIGLCKGESERRRKPFGFEGSSFHRAIPGFMV
QQGGDFTRGDGTGGFSIFGGKFKDEDMSQLKHIGPGVLSMANSGPNSNGS
QFFLTTAPCGWLDGKHVVFGQVLQGMDVVFRIEDLGSRSGKLRGKATITG
CGLVKRNSAAMETEAADWGGADSGNSFRANAMRGVRADVREEKAGVSRAV
GGALRPSSSSSSSAASSAHKG*
back to topmRNA from alignment at P-littoralis_Contig59:546557..565266+
Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig59.96.1 ID=mRNA_P-littoralis_Contig59.96.1|Name=mRNA_P-littoralis_Contig59.96.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=18710bp|location=Sequence derived from alignment at P-littoralis_Contig59:546557..565266+ (Pylaiella littoralis U1_48)
GATTTAATGCACGAAGCCCCCGACGAGACCACATCATGCGAGTGCGATCC
CTCCATCTATCCACCAGGTCCGCGTCGTACAACCAAACTTGCACCAGGCC
GGGGGGGTCGAGAGGGGGCGAAGGCCATGGAATTATTTTTCCGCGCGAGT
TGTGGCCAAGCCCTCACAAGGAACCCTGTCCACGGCCGTGCCATCTTAGC
GCTTACGACTCGGGTTTGTCGTCCACACTCCAGCAGCAGCACCATCATCA
AACACCATGGCCCCGAATGTGCTGCATTTAGGTCTGGTACTTGCACGAGG
TCCTCCGACACCTCTGGGCGTAGTAGTATCAGCACTTCTGCTCTATCAGG
CAGCCTGGTGAATAGGTCCGTCCACGAGATGGCCGCCACCGCTCGCAACA
CCCTAGGATCCGCTGGGCCTCTGCTGAAGAATGCGGAGCGTCGTCCCACG
TCGTACGGGCTAGGGAGAGGCATCGCCGTTGAGAGGTTTTCTACTTCCCC
CAGTGGTTTGACGCCGCCGCCGCCGCCACCACCAACGCCGCCACCTGCGG
GTAGTACGTGGAGTGGAGGGGCATTCAAGTTGGTGGGCGCAGCGATTTTG
TTCGCAGGAGGGTATTTTGGGGCGCAGCTGCTCAACCGGGCTGGCTCTTC
GTCGAACGATGTGAGTGCAACACCAGTTGCAATTTTTGCTTCCTTGAGTG
AACAGGTTTACTTCTACAGAGTAGCACTCCGTATTAAATTATACTCCGGA
GTACTCCGTAATTTCTTCTCCAAGATATCCTGTCAAGTAGACGACATACC
TGGTACCAGGTATCAGGTATGGAGTACTGTACTCCGTAATTTCTTCTCCA
AGATATGCTGTCAAGTAAACGACATACCTGGTACCAGGTGTCAGGTATGA
TACGAAGTACTTACCAGGTATCATATCATTTCGTGTCATACGAATACTAC
ACCTCTCATATGATGGTACATATCGTGTGTGTTGGTGGACGATGGGATTC
CTAAAAGAGGAATGGCCAAAAATGGGTATACCCGGTGGTTTTGTGGCCAT
TATCGGGTACCCTTCTTTTCCGCCGATAGAAAAGGTCTCAGGGAGCAATA
ATCCCGTTGGCCAAAACCGCGCCGCCACCCGTTCCTGGCCAGATTTCTGC
CAGGTATACCCGGTTTTGGCTACTTTCCTCGCGGGAGCTACCCGATTTTC
ACATACACTACCGAAAGTGGCCCGACAAAACTCTAATACTAAGTTGTTTA
CCTGCTGCTGAAGTTCATGATGTACTTCGAATCGTATGCGTATGGTCATA
GACAGACGATGATGCCAGTCTCGCACGCAATACCCCGACTATACTACTCC
TGTAGCACCACCACTACTGCTGCCGACTGTCATAAGCGCGTGCGTGTGTG
TGTGCATCTGCGTGCATGGATGTGTGTGTGGTGTGTGACAGAGAGGAGAT
ATATGACGGGATATGGCAGCACGACAACAGTCTATGATATGTGTTGTCAT
CCCTTTAACTTACGAAGTACCAGGTACATTATAAACACCTTAGTTAAAGA
GTTTGTGTCGGGCCACTTTTGGGTAGTGTATGTGAAAATCGGGTAGCTCC
TGCGGGGAAAGTAGCCAAAACCGGGTATACCTGGCAGAAATCTGGCCAAG
ACCGGGTGGCGGCGCGGTTTGGCCAATGGGATTGCTCCCTGAAACCATTT
CCATCGGCGGAAAAGAAGGGTACCCGATAATGGCCACAAAACCACCGAGA
GAAGAGCGTTTGTAGGATTCATTTTTCGAAGACAATAAAAAGAAATGAGC
ATGGGAGGCTTGTTGGCGGGGACGCTTCAGCTCTGCGAGGCATCTCCGGT
TGACTTGACGTTTGCGCAGCAGACAAGTTCATACAGTATACGAGTACTGT
GTATGTTGACTGGGTATGTCGCCATACAAGGGACGCAATGCCCTGCTAAC
TGTGCATCTAGAGGTATAAGCGCAGCGTTAGTGAGGAGTGCCCCAGGTTT
GGGCCCGTGGGGTGTCAAGCATGGCGTGAAAGAAGCTTTCAATATTTTCA
TACCGAGCCACTCGTGCTCTGAGCCGCTTTTTTGGCGTTTGCAAGCAGCC
AAATTTACCTCTTTCACTCATGTCTTGCCGGGAAACGAACGAGATTCCCT
ACCATTTGATAAGATTGATATATTTTCCATCGGGAATGCCCGAGTTTTAG
GAGCGGTGGGCGTCGAGCGTGACGGGAGCAACAAGTTTTCAGCAAGTCCA
AAATCTCGACGACGAGCGGTGAAATGTACCTCTCTCGTGTGTGAGAGAGG
GTTGATTCAAAGCTTCATTCACGCCGCATTTCACACGCCACTGCTCCGAA
TCTCAGCCTTTCCCGATGAAGGACAAGCGTAGTGAACCTTGTCAGGCTTT
GGGTGAGAGAATAGTGAAAACGTGAAATGTTGCTGCCATTCAAAAGTTCA
CCCAAATGGTGTTGCTTTCGTATACCCCCTCTTCTCCCTCACGCTGTTAC
TAGATCTGTTGTGACAGCCCACAAAGACATCATTATTCTTCCTCTTAAGG
CTACATCTTGTGTGTCAAAAACGTCATTATTCCTCCTCTTTAGGCTACAT
CTTATGTGTCGAAAACGTCATTATTCTTTTTGGGCCGTTCGAACAATAAC
TTTTCCAGCAGGCTCCGTTCAAGCACCCGATATTATGTGTCAAAACCGAA
CAGCAGGTGGTTTTATTTTTATGAATAACTTCCGAAACAAAAAGTCTCTC
CTGTTCGGCTGGGGCGGTTTGATGGTAGCCAACTTGACTCTCATTTTGCA
CTGATGTAACCGGTTCGCTCTTTCGTCCACCACTCTCGAGCGAATGAAGC
CACAGTCATGGTAAGGACATGCCTCGCGAGCTGGGTATATGGTCCTTCTT
CTCCCGTACTTATATAAGACCGCGAGGTATCGGTAGACTAGCGAAAAAAG
GGTGCAGGTATCACCGATGACCTCCGATTCGATGAGACGTTCGGCCGGGT
TTCACCACAAAATCAAAAGAAACGAAAAAAACCGATGCAGCTCACCACCA
GCAGGTGGTCGGGATTTCTTCTTTTTTCCACTGGCCATCAATTCCTGCAA
TCTTTCACGCCAGCCTATCGATGCCTCGCTACTTCAGAGGACCACCGGAG
GAGAGAGACCATGTTCACAGCTCGCGAGGCATGGCTTTACCATTGCTGTG
GCTTCATTCGTTCGAAATAAATCAACAAAAAACCAAACTGGTGTGGCGGC
AAAAAAACTGCTGCTGGTTGAAGAGTCCAGAGGACAGGAGCAGCAGCATC
CGCTAGCCGCCAGCTCTCGTCCGATCCATTTTGGTTTTTGGTCCATCGCT
CTCGAACGAAATAACGCACAGCGATCCTAAAGCCATCGGCCGTGAGGTGT
ATGTATGGTCATTCTCCTGCGTCGGTCATCAGAGGCCGCGAGGAATCGAT
GGGCTACCAAAACAAAGTTTTCAGGTCATCTCATCATGCAAGGCTGACTG
TAACTTGGGTTGTTCGTTGTTCAAACTCCTTGACCCAAAAAAAATAACAG
GTTTCCGATATCTGCAGGCTATCAGAAGAAATACTTTTTCTGATCGTCTG
GGGCTATCGGAAAAATTACTTCGAAAAGTCGCTGTCTAAAGTGGCTGTTT
CTGATCACATAAGATGCTCCGTTTTGGGCTAATGTTCAATACGGCCCAAT
GAATATAAAAAAATGAACGGTTCTGACACATAAGATGTGTAGCCTTAAGC
TACTTATTATGTGTCGAATCTGGATATCAAAACTCATTCGTTTTTGATAT
TGGGCCCAGATCTGGCATCTTATGTGATCAGAAATGGGCGGTTTTTGATA
AAAACGTTTTCAATCATTATTTTTGATCCAGCACCAGCTCAGAAATGAGC
CTCATTTCTGATCTACTCCGCATGTCAAAAACGATTATTGAAAACGTTTG
AGAATCCAACGCAAGCCATCATACAACACAAACAAGCACCCACAGCAGCA
GCAGCAGTACTGCCAGATCATTACTGCTGCTGCTGCTGCTACTTACCGCG
GGCGGTCAGCGTGTTACTTCCTCGTCGTCGCCCGCCAGCAGCGTGGCCCT
TCATCCCATGGCGGCAGCAGCAGAGAGCGACTGATTGCGTTTCACCTTCA
AGCACGTGTACACTGCTGCTGTGCAGATAGATGCCCTGCATATGAATCGT
CTGCAGTACTTGTTCTTGCTACGAATAGCCTCCCAAAACAAGCTTGAAGT
AGGTCTGGGTGTACTCCGAGTGGTTCAGCGGGAGGGACAACACCTTGTCT
AGATTTTTGGTTTGCGCGCGGTGCTGCTCTGTTCTGGCTGTGACCCAGCG
CGTCGTGCTCCATCCCGAGATGGTGCTGCGCTCGCTCCAAAATTTTTAAA
TGTGTGTATCATACTGTACTGCTGTATACCCAAACGGCTCTTCTTGGGAT
CCTTCATATACGATACTACTGCTGTACGAAAAATACGTTTTTGATTTTGA
TAAGTTGTATATTTTACAAGGGGCCTCTCGGTAATTTTCCCGTGCGGTTA
TTACTGCGGTAATTACCGTGGGAATGGGATTTTTGGCGTTACCGCGCTTT
TTCCATTATCCCAATCCCATACAATCAGTTACCGCAACAAAGCAAAAATC
CCATTCTCATTACCGTGAAAAATAATTATCCCATTCCCGCGGGAAAAATT
GCCGTGAAAATGTCGCAAATACCGCGATTTCTGGTTACCGCGGTAATAAT
TACCGTAACATTCACAAAGTGTTATATACCGCACGGTATAATTCTATGAA
TTACCGTAATCTCCGTCGATAGATTTGAACGATAGGACAGAGCACGTCAT
CGCGCTCTTCTCCCAACACCGAGCAGGCTGAGGGTTCGGACCTGCAGACA
TGTCTAATTTTTTACGTAGTTCACCTTGCTTTTCATTATTATCATTTTAT
TGTTTTTCTTCCTGTCCTTTTTCCTCTTTACTACTTCCAGTATTTGATTT
GTATTTAAGCATTGTTTTGGTGGTTCACAACCACCACGCGTCACTCACGA
CACCACTAAACAAAAACGCGCCGTGGGTAGGCCGGCAGTCATGGAAGGAG
GCGCCAATGTCGGAGGTGTCAGCAATGACGTGGGTGAAGGATCACTGGTT
GTCACCGATCATGAGGCTATGATTCTGCTGTGTGCTGTTTACGACCATGT
GTGTGTGTGTGTTGTCGTTTCTTTAATTGGACGCCACTCTGCACCTTTCG
GGTAGGTCGACGCTCCAACTGGGGTCACACAGCAGTGGGGAGTCAACACA
GGAGTTTTTTTTTTTTCTCTCCACTTCCCTCTGCGGTGCTTGCCTTGTTT
GGTTGAGCTTTTATCGCGAGAAAGGGGACAGCAATCCCTTTCCCTCGTCG
ATGGTACGATCGAATTTTGTTTACTCACGAATTAATCGCTCTCCACTTTC
ACGCGCATTGTGAGAAGAAAATCATACGAAGTATAATATGGGTGTGTTGA
AACTGCCGTTTTGCAGACGTTACTGCTGTGCGGACATGTACTGTGTGGAC
ATGTGTCCAGGAAAACAGTAGTTTCTGGGACGGGGGTGGGCTCTTTCACG
ACTTTTGTTTGGTAAGTTTTGGTTTATTTGGTTGAGTAAGTAGTCAACTC
GTGGTGATGAACGTAAGTATTAAGTACTTCGTAGTTGACATGTTTCGGCC
GTCTTCTGGTTATCGTCTTCTTGCTGTGAACGTACTCCCTTCGCCGCATC
ATACGCTGGTACTGTATGTACATGAACCCCGGCGGCTGATTACCGCGGAA
ACAATTACCGTGGTGATCAATTACCGTAGAAAAAAAACGCAAAATTACCG
CGGTGGTTGAGTGCCGCGGTAATGATTACCGCGGTGGCCAATTCCCGTGG
AAAAATTACCGCGCATTGCGGTCGTTGAGTACCGCGGTAGCAGTTACCGA
GGGACTCGATTACCGAACAAAAAAAAACGTGGATTACCGCGTTTGCTGAC
TACCGCGGTAAAACTTAGCGACATCAAAAGTCGTTACCGAGAGAACCCCT
GATATTTTACACATAAGATCCGATGTTGATACCACCCTGTGGGAATTGTC
AATATCGAAAACGAATCAGAATTGATATTTTGATACTTGACGCATAAAAA
GTAGCCTTAGCATGGAAAAAGTGACGTTTCCTTTTTTTTCCAAAAATAAG
TTTTTTTCGTTTTTCCGTGGCCTCAATTTCGTGATTTTTTACTGTTCAAA
CGATATCTTGCACGTATAATATCTCAACTTGTGATTTACCATGTGTGTAT
TATGTGTACCGGGCATGCTTGTTAGTATAAGACCCCATCGTTGTACTGCG
CTGCCGCACTGCTGTTGACCCGCTGGGCTGAAAAATTTTAGTCCCGTTCA
AAACATTTTTACAGTACTGTTGTCAAGTTCTACTACAGATATCACGGGAC
CTCCTTGGGCCGATTTTTAATTATCCTAATTCATATTTGTAGCTGTAAGA
AAAGGTCGGGTTGGTAGGTTGTCAAATATTACGCTTCAAATTTGCGGTTG
TCTGTAGGGTTAGAACGTTATGTTGGCTGGGTTGGGTTTTTGTTGCTACG
TTGTTTCAGTCCTCCTCACTCGAATCTCCGATAAGTGCCCACGAGCGAAG
TGAGCCACAAACGCCCTTTCCTCCCTCCCGCACCCCCCGTTAAGTTCCTA
AGAGGGTGGTGAGCCACCAACACACGGCGGTGACGCATCACTTCTTGTTA
CCCAAATCCCCGTTTCAAGTTCCAACGAGCATAGCGAGGCACCCACAACC
TGTGATATTGCAGTCCTCCTGCTCGAGTCCAACACTCCGTTCATCTCCTC
TTCTCGCGGTCTCCTCTGTCCGCCATGTACAGCTAGCGCCTGCTTGCATT
TTCTTTGGAAAATGTCAAAAAAGGGGGGTAGGGGGGTTGCCAATGTTTTC
CCGCATGCAAGTCTTACTTCTTGATGCCCTGGGCCCCTATGATTTCCTCC
CCATGGAGTGGAACTCCGTAACTTTCAAAGGGTTGCTTCGAAATGCGCTC
GCCATCTTCCCTGCTCCGTCTGAACTACTGACTACTGCACCTTGTTTTTA
CTCCTCTCGAGGCTGCTGACGCACGTGCGTGTGTTCTCTCCGTCCTCCCC
GCAGCACATGGTCGCGTGATACCTGTTGCCCTCTGTTGGTCTCGCTGTCC
GTCTTCCTGCTACAGGAGCTGTTACAGCAGTAGTCGTTCCTGCTGCTGGC
TCTTGCTGTGGTCCTGCCTCATCGCCTGTTTCCTTTAAAATACATTGCCA
CATCTCATGCCTGCTCGAGGCCAAGGTACCCCTCGCGCTCACAATCTTTT
CACCCCTCTACCCTCCCGCCACTCTCCTATCCTCCTGCCTGCTGGTATTC
TACCTCTTGCTGACTGCTGCTGGGATTTTTCCTTTGGGTACATGTTTTAA
TGTTACAAACAGCACCGAGTTTTGTGGTTTTCGTTTTCGGTGCATAACAT
GTGGTACCTGGTACCAGGTATGTGTATCTATGTTTTGAAGAGAACCGCGC
CGCCACATGAACACCGGGGCCGGAGTGCGAGATCTGCTTCGCGCCGGACT
ACCCCACCCCCGGCGGCTGCCCGCACCTGTCGCCCATTCGTCTCAAATCG
GGAATCGATATTGAATCCGGTATGTCGAATGGACAGGACGGAGGGGATGC
CAACCGCCCCCGCGCCGCCCGCCCGCCCGCCCGCGTCGCCCGGACGACTG
CGCGATATGCCGAGTGGCGCTGGGGGGAGGGGACCTGTCCACGACGCCGT
TCGGGCATTCCTTCCCCTTCACCCGCCTCCTCCGGTCTATGAACACTTCC
AACCTATGCTTGATGTGCAGGATGAATATCCGCCCTTCCTGTCCCAGCTG
GTCCAGGTCTACCGGGCCCCGGCGCCGTGGGAACGCGCGCTCCGACACGG
AGGAGGAGATCCGCGTGGACACCAGCATCGACGACGATATGTCGGACGAC
GCGGGGATACGACGTGAGATCATGTCGGGCCTCTTCCACACCTCTTGCCG
CCAGGGAGACGTGCCCTCCACCCGCGAGATCCTGGCCGCGAACCACGACC
TCCTCTGCAGCCGTGGCGACATGGGAGAACTCCTCACGCACGACGCCGTC
CTGTCGGAGAGCGGAGGCGTGGCCATGCCTGAACCATGTACCCCGCAACG
TCGACGTCCGAACTATAGTGGGATCATGTATCATCCAATACAATGCATTA
TGTATGTACGTAGTGTGCATCTCTCGAATTTGACTACTCAGCCGCACTTG
AGTTCTGCATCATCCTAAATACTAGGATATGGTACCAGCAGGCAAGTAAT
GCCATCGAATAAACGGAAAAACAGAAGGTCCGTAGCAAGCCAGAGGCAGG
ACACCCTTTCCTCTTACCGCTGTTCGAGGATTTGAGAAAGCCGTCAGCCG
CTATCTCTGGACAACATCAATGCACCACGCGGTGCGTATTCTCCGCGACG
TGAAGCGCCGGCTTGAGCGACGCAAAGAGGTGTACTTTTTGTGCCCCGAA
CAGAATCACGAGACATCGCGCGCGGCAGAGGGGACTGCCTGTGACAATAA
TGATATAATCTAGGCAACGCGTTTTCTCCAGGACGCACCGGGCCGCCTTG
AGCGACTCGAAACGATCAAAAATGTTCAAGTCGTACATTGCCGATAATTT
ATATTAGCGCGCGAGGTGTGTTTTCGAATATTTGGGTTTAACAGATGTGA
GAAAATCGGAATAGGACAATCCCCGAGACATTTTCGAGGCTCACATAATA
TTTCGCAAAAAGTGCCACAAGCGGAAGGCCTGAGCCTCTTCGCTGGCCAC
CCCTCCTCTTGCATCCGAGACCCGTACACGGTGCCGACTGGCAGAATCGT
GTCGTGATCCATGAAGTCGACGTTGTCGGGTACCTCGAGCTCGCCGCGGA
AGGTGATTCCATGTGTTGACGTTGCGTGCGTCGTCCCGACCCCCCTGTGG
TCAGCCACGTCTCGGACGCCGCGCCCGGCGAGATGGAAGGCCCGGGCGAG
AGGTGGTGGAGTGCGATGCCCCTCGTTTGACTCGCAACAGAAGCTCACCA
ACCACGCCAACATCACCCACCTCTAAAACTTCAAGTGCCCGTGGCCAGGA
TGTCCTAAGTACGTGAGATCCTTTGCGTCCCCGTACAACTCCATGCCCAG
CGCTACAGCTGCCAGCGTTGCCAGTGTTTGGTGATCATAAATAACCGGGG
CGCGCCCCGAAGCGCGCCCACAATCCATAGCTCTTCCCTCCTCGGCGACA
GAGTGCGGAAAGTAGCAGCGCCGAGCACCGGCTGACACCCACGTCCGTGT
AGCGCGGAGGGTCCTGCAGCCTCCCGGGGGCAGCAGGATGGCAGCGGGCG
AGAATGGGAATGGTTCGAACGACGACGAGGATGGTTCCAGCCCGAGCGAC
GAACTGTATGATGGTTCTTTCCCGCTGTTGTACAGGCACGTCTCCTCGCA
GAACTATATCGGGCCCATGCGGTGCCTGTTGAGGGCCTGACGACACCGTG
CACGACCCATACATTCGTCCTTGATCCCATCGGCATTTCTCAATCCCAAG
GGGTTTACAATGAAAGTAGATTAGGCACTCCACTGGCAACCTAGTCACCG
AACGCGGTCGAAATATCCTCTGAATCGAAGGTGAGAGATGATCGACGCCC
ACCTGATTTACGGTTTTATATTCCTCGGTGACCCCTTCTGCCATACCCGT
ATCCGCTCATGCTAGAGCTACTACCCCGCGAATCGTAAATCAGGTGGGCG
TCGGTCATCTCTCACCTTCGGTTCAGGGGATATTTCGACCCGTTCGATGA
CTGGGTTGCCCGAAGAGTTCCTGGTCTCCCTCTCATTGTGAACCCCTTGG
GATTGAAAAATCCCTATGGGATCAAGGACGAATGCATGGGTCGGTGTGTG
TGTACATCATCGCTCTGTGTACGCATCCTGCAGGTGTGCACGTCGAGGGG
CCCGCACAAGCTGAGTGTCGTCGCCAGATACGGCTACCAGGACAGCGGCC
TCCTGCTCCGGCTCCTCGACGAGATCAAGGAGATCCACGACGCCACGGAG
ATGGCGAAGCTCTGCACCGTGCCCCTGAGGCACATCCAGAGCAGGGACCA
GCAGATCAACCCCCTCCGCCTCATCCTCAACAGGGCGCACGGGGGGCGCT
TGCGGACACCGCCGCCCCGACGAGGAACCCGCAGCCATTCGCGCCTGAGA
GGACCCACTTGCCCTCGGGGGTGGCGGTCTTGATCAGGGGGCCCGAGACG
CGGCCAAACAGGCCCACGTTGTCCCTCGTTGCGCTGCAATAGGACCACTC
GGTGATAGTGAATTCGTCCCCGTCGTAGGACCCGCGAAAGCGTTCGTCCG
ACGTGCCGATCGGGACGACGTCGCCGCTGGAGGGTGGGCACCAGCTTCGG
ATTCATACCTCATCGACGAACACAGCACCGCCCGCGCGGTCACGGGCCTC
CCGACGGACCCGGACCACTTCGGCCTGCCATACTCGCGCCTGGACAGGAT
GGACGGCGACGGGTGGCCAACCACTGGAAGTTTGTCTACGGGAACGAGGC
CGTGCCCGAAGGAGTGTGGACTAGGGGGCGCTGGCATTGGAGTAGGTGAG
GTTGGTGCGAAGATTCTCCGTTAACCAGTGTTTGGAACAACAATGAGGAT
TCAGCGAGCGAACCCGGCGTTACTACAACGCTCCCGGGATGGACAGTCTC
CAGACTCTGTCGTGCAGATCCTTCCTGCGGTACGCTCGCGGCGGCAACGA
CGTGCCCCACGACGTGCCGGGGACGGCGCACTCCTGGGTGGCTTCCGGGG
CGTCGCATATAGGTTTCGACGTCGGCCCCGAGGATCTTACACCAGGTTGA
ACACGACCTACTCCTGCAGGAGGCGCGTCGAGCTGCTCTGCGACACCATC
GGCGTCAACCGCGGGCCATTCCGGAGGGCAAAGCTGTGTCACGTGGTCGT
TCGCGTGGACCCGGGGGTTGAGGAGCGTGGCGCTTTCCGTCCGCCGGCAG
TGGGAGGAGGAGGCTCTCCAGTCGTTGTTGTTGATTCTCACATAAGCTCA
TCGCCAAAATCTAGCCCGTGGTCACAAAAAGTGCTGAGCCCTAGGAAGAT
CCAAAAAACAGAAAGAAACTACAAGGGAATACCCAAAAAAGAGCGAGGAA
GATACGCCTTCCTACGCGGTGTGCATCACTGAACTACAGCAGTCACAGCA
GTACCAACATCAAACTACTTCCTTCCAGCGTCGTTCATTTGACTACAACA
TCGTGTTCGGTCTCCTCCCGCCCCACTTTTAACTAATAACCACCACTGCT
ACAAGCAGTCAGGAGGTAGCTGCAGACTACAGCAGTTAGTTGCTGTCTGG
AGTGCTGCCTGCAACGTACAAGTAGCCCCGGCAATCGGAGAAGACAGAAA
AAGAAAAAACAGAAAAACACACACGTATCATCAGATGTTGTCGAGGATGG
TGTCTCCATGCCGTCCTTGCGACGCTGGTGATGATGTCGTCCTAAACATT
TCCTCCTTGTCTGGTTCCACGTTGCTGTTGGCGTTGCCCAAGGCCACATC
ACCAGTACCATGCTCTCGTAACGCTTCTTCACTGCTGGCGTTGCCTTAGG
TCACCTCCATCACCGCCGCTCTCTCACATAACAGCTCTTTCTTGTTGTTC
ATTTCCAATCAGTTCCCTAAAAAACTCCACTGTGCACTTGAGGTACAAGT
CTTCTGAAAAAAAAGTTTACGCTCGGAGTGAGATCGACCAAGCTCTTCCC
CGTTCGTCGCTGCTCGTCTACCTCCGTCCTTGGCTGCGAAACTGGTTACT
GGACGGCACAATCCCTCTGCGCATCCTAGATCGTACCGTCTTTTCACCTG
TGGTGTCGCCTGCCACCGCGCACAAATACTTGTGATGTACATTGCTGTAC
TGCCGCTGTAACCAAAAGGCCCGCGAATCCGCACATTTGCACCTGGCACA
CCAACTGCGACCCAACTCTACCGCCACGCCCGTGGCGTTCGACCACAGCG
CAGCAGCAAGAAGGCATCACTCCTTGAGGGTGAGTCCGGCCTTACACCCG
CCAGAAAGACCCCCCCAACTCGCTTTGGGCCATGCTTACAGCAGACCTTG
CCTAGGCAGCGAGGGAAAACCAGTGACGACCCTTGATCCTCTCCAGCTCG
TCCGAGGCCTCCACAAGCCGCCTCCCCTTCTTGTACTTGGCCTGAGGGCG
TTCGACACAAGGTTTGCGACGATCTGAGGCGTCCGGTCCACGTCCACCAG
CACGGGGTGGATCATGAGGTATTCGCCCATCCCTAGCCCCATCTCGATCT
CTCTCTGCTCCTCGTACAGTCTGGCCGACTCGAGGAACCGGTGCCAGCAC
GCGTGCAGGGCCTGGTACACCAAGTCGTAGAGCATGCTCTGGGTCTCCAC
GGCCTCCACGGACCCTTCCTCTATCTTGAACGTGTTTCACCACAGCCTGT
AGCAGCATACGTTTTTTTATCTGTTCTGACCCCACCCTGTTTGCAGCTGT
CTGCCTATGTATGTACGACGTTTAGTGTATTTACACACCCTGCAGTAGCA
CAACCGTGCCAAGATCTTACATCTCTTCCTGTGACACACCACGCGTTTCA
CAGGGTTTGTACCGGGTCGGTTGAGTACGGTTGAATGAAGTATGGGTTGG
GTTGGTTCGGGTGGCAGAATAATACCAAGGGGCTCAGAGTGCCTAGTCGC
CGAGACAAGTAGCCCTCAATAGTTGTGACAAACGTTTCCTTTCTACCGGA
ATCCCTCATCAAAAATGTCTTTGCCTCAAGTTAGGAACACGAGGTAGCAA
CGCGTCCAAATCAACCTAAACCCGAATCTCTGGGATGTTCCTTCGACCCC
AAATAAGCCACCATCACACTACTGCGATACGTCAATCCATGTCCTGAATC
CCCGTAGGCTCCTACGAGCCCAAGCGAGCAACCAACATATTGCCGTGATA
CATCGATCCACCTGGTCCAAACCCCCGACGAAATGCTACGAGCCCAAGTG
AGCTAGCATCACATCGCTGTGACAGTACATGCATCCAATTCAACGCGATG
TTACACTTCGCCGCGTGCTTTTCTGTGCTCGTGATGTACATCGCAAGAAG
AGTCAGTGCCGGGAAAGGTGACCGCTGCTGTAGCGTGAAATCTCTTTTTG
TCTTTCTCTCTCTCTTTCCCCCTCTTCTTGTATTCGTTGCCGTTCGGTTC
CATGATAGTGAAGCTCTACGAAACCTCACACACACATACACCGGTCGGAG
TTTTCGGGATGCGAATGATACCTGTACTACGTCAAGGACTCGGAGTTCTT
GGGAGGGTTGACAATTAGAGTTGAGTTGCGAGGTACTCTTGCTGCGTGAT
TCTGGGCACCCTGCGTCACACGCGCGTGTGCAACAGCAGCTGGGTTTTGA
AGAGGCATGGAACAAGACGGAGCGATTTCTTCGCCATGTCAATCGTTCCG
ACAGAGTATGTGAAGGCGTACCAGTAGCCAGAGATTCAAAATGGCGAAAG
CCCGACGGTAACGTACAGGTGAAGCGCGGCAGCTTGCTAAATGGCAACTG
GCGCTGCTGCTGCAGTGCAATGCCATGACAGGTTGTCATGTTGTCCCTTG
AGCTAACTTCCCGCCCCTTCCCGCCGCATCTTCGTCGCTCCCCTCGACTG
CTCTCTCGGCGTGGCGCTCTTTTTTTTCACGTCTGGGGCGTGCGTTTGTT
TAACTTTCGTTTAGTTATCACCTGCAGAGGACGACGAAGAGCCGGCAATT
CCTCAGGTACTTCTGCTGCTTCCGCTATTGTTGTTGTTGTTGTTGTTGTT
GTTGTTGTTCGTGTAGCACATCGTGTAGCAAATCAATTGCCGGGTTTAGT
CCTTGTGTCGTCGTCGTTGTCAAATTTCTTCTGGCATTGTTACACAACGA
TCTTGGAGGGGAGCCACGTTGAAATGCCTGGGGGTTAAATATGGCTATTC
ATGATTTCCTTTCACACCCAACTTACTGACTCCACTCAGTCACGGCAAAG
TCGTTCTCCAGTTCCAAAAACGTCGTCCCGTTTTGACGGCGCGATGATCT
CTTCGTTCGTTCCTCCTTCGGTCTGCTCGGCCCTTGGCGAAAGGCGGCGA
TAACGGATAAGGTCTTCTTCGACGTGGAGATAGACGGCTTGCCGGCGGGG
AGGGTGATCATGGGCTTGTACGGAGGGGTCGTTCCCCGAACGGCTGCGAA
CTTTATCGGCCTCTGCAAGGGAGAATCGGTGAACAAGAATAGCAGCTGTA
CCGGCGGACAGTTTCGCTAGTAGTGCCCCGGCGAGTGTCATATTGTTCTG
TTCGAGCCAGTTTTGAAGAATTTGTCTTACAAGCCCACAAATGTGTGTGT
GTTTTTTTGCTGGTATCGCCAAGTTTGTGTGGTCACCGAAGTCCTCGTGG
GCATGATATTTGATCAGCGCTGATGCAGCAGAGGCTTGCAGGTCGTAGTG
GCGTCAATCACTAGCAACAGCAATGACAGCGACGGGAGTGACAGCAACAG
CAGCAGCAGCACCACCACCACCACCACCACCACCACCACCAACGACAAAA
ACAGAGAGGACATTCCTCTGGCGTCCCCTCAATGTTTCGAAATACCCCGG
CCAGTATGTGTCGACATGCGCCCGCCCCCGACCCGAGAGCAACAAGCCCT
CACGCCCTCGCGCGCTTCAAAATTTTTTCGTGCGTTCCACGCCTCTTACT
CCCTTTTCGTGTGGTCCTCGCATCTTTAGACGTTTTCGTGCGTTCCTCGC
ATCTTTAGACGTTTTTCGTGCGGCTCTCGTTAAACTCAGTTAGTGTAACG
ACACTAGGTCCTCCCTCCTCTCCCCCTCCATTCTCTTGTGCGTGCTTGTG
CGCGCACGCTGGGGGCTTTGTGTCGGCGACGCACTTGAACCCACTTGTGC
TTCGACGCACTCACTATAAATCTTGCCGGCAATACCCATTAATGCCGCTC
GGGTGGTTTGTGCGTGTGGGACAGGAGCGGAGAAGGAAGCCTTTCGGTTT
CGAGGGCTCTTCTTTTCATCGAGCCATTCCCGGTTTCATGGTCCAGGTGG
GTGGGTAGGTGGGCGGTGACTGAAAGTTTTGTTCGCTTTGCTCCGTGTGC
CATGGGTCCTCCGTGACGCGTTCCCGCTAAAAATGCTGCAGAATCTAAAC
TGCGTGCTGCAGGCCTCTTTGATATTATTTTCGAGAGGATCATCGGTCAA
CGTGTCAACCAGTCGCGCGGCATCCCTCTTCTCACCTTTTCGACCGTTTT
GTTTGCCAAAGAGAGCCACCGCAGTCAGTCGACAGAGAGGATCCTAGCAA
TACTTTCAGGATTGATAAACGCACGCAACAAGCAATATCTGTTCAAGAGG
TGCCCACCTCTTTTTTTCTCCCCCTTGTTCTCACCGCAACGTCGCTTTCA
AGCAGGGCGGTGACTTCACGAGAGGCGATGGAACCGGCGGGTTTTCTATT
TTCGGAGGTAAATTCAAGGATGAAGACATGTCTCAGCTCAAGCATATCGG
CCCCGGGGTGAGTGAGCAGAGGCGGCGATGGCAGTATGGGTTTCAGCCTG
GGGCGCGTGCAGGGCTTCGCGGGGTCGCACCAATTGCATACGATACCTAC
CAGAACATTTCGTAGGCACCCTGAGCAGGCGCTTGGTGCCCCCCGTGGGA
CAGAGAGGCAGACAGAGAAGTAAAATATGAAAGAGGGTGTGAGTGATGGT
CTATTCTTGCTTCCACCACCGTACACACGCACACGGCACACGGCATCGCC
GCCGCTGCCGCCGCCGCCGTCGACGGACTTTGCACTACGCCCAACTTCGC
ACTTAGCGGTGGAGCGTTTTCGATAGGAAGGGAGATATCTGACCCGCTGC
ACAAGCGGGGGCACAGCCCATCAGCAGGATCGCGCTGCCCCCCGTGTCGG
TGCCGGCGCTGCGCAGGCGAAAGTCAGAACAGACAAACGAGCGCAGCAAG
CAGCACACAACACAATACAACGTATAAAGTTTTTTTCGTCTTCCCCGCTA
CTCCCCCCCCTGCAGGTTTTAAGCATGGCTAACTCGGGCCCGAATTCAAA
CGGCAGTCAGTTCTTCCTCACCACGGCCCCGTGCGGGTGGCTCGACGGCA
AGCACGTTGTTTTCGGGCAGGTTTTGCAGGGCATGGACGTCGTCTTCCGG
TGCGTACCCCCTTTCCTGCCGCCGCTACTGCTGTTGGTGATCCTTCCCCC
CCAATAATAAGACTACGCGCGGCAGTTGGCCTCAACAAATGTATTCGTGC
TTTCTTAACCGCAGGCGACTCACAGTCATGGTTTTATAGCCGGGTTTCTT
CATTTTGTGTTCAGGGCGACCTGTTGCCGTAGCCACCGCCATTGCTGGTT
CCTCTTCTTTTTCGTTTTTCGCGGTGCTGCATTAGCCGTGCCCTTGTCTT
CGCGGTTTTTGTTTATGCCCTCCGTAGCACTTTGAGTATGGGTGCTTGTC
CCTGGGTACCCGTTCAACTAGGAACGACGGATCCCTCTTTCAAATTTGCC
GTGCCCCCTGCTTCGCGAAAGTAGTTTTGCAAGCCATCTATGACCGCGAC
AGCGCACCAACTTACCGGTTATTCTAACTCGCCCCTCTCTCTTGATTGAT
GGCGGTACGCCAGCTCCACAACGCCCCATGGACATCAAACGGAAAAATGT
TGTAGCTGCTGTGACGGGTGTTGACAGAGCTCCAGTTTCTCAGAAATACG
AGATCGTGCACTGTGATCAGAGGTGTATCGCGCCCTCCAAAGTAAGCCGC
TGAGAATTTATTTAAATCGCATTACCCCCTCGTCCTCCTAGCCAAGTAGG
AGGAGCACGAGGGTCAACGCCATTTCGCTGGGACGGCCGTACATTTGTCG
TGAGCGACCTCCCCAGCCCCTCTCTGTGTGTCGTTTTTTTACCCATCGCC
GTCCCCTCATGCACATTCGCCGTCCTTTCTGTGTGACTGAATGCTTCCCT
CTCCCCCCCCTTCCGCCTGTCTGCCCTCACGAAATTTGTTTTGGCAGTAT
CGAGGACCTGGGCAGCCGGAGCGGAAAGCTCAGGGGCAAGGTGCGGAACG
ACCAACGCAGAGAGCAAGCGGTCGCCGTTCCTGCGTTTCTTCGGTTACCC
CCGCTGCGCTCAGAAGTAGTCTGTTCCAAGCAATGCCGATAACAAGGGGC
GGCGGCCTTCCATTACTATTTTTTGTTTTTGGTCTCTGTTTCCCTCTCGC
TCCCTCTCTCTCACCCGCTCGCTTTTGGCACCTTGTCTTGTTGAACTTAA
CGGCGATCGGGGGACATGAAAATCTAAAATGAACTTGGAAGCCCCCCCTG
AAGGCGCCTTGGACGGCTGTGTGTCGTAATCGCAAAGGACCGAGAGTGAC
AGCCAGCTTGGCCGGCAGCTCTTAAGTTTGTGTGCATTTTTCGTCGCGGG
TGCTCGAGCGCACCTTAACGCCACGCAGTGGGTTGTCTTAGTCTTGGACA
TCGGGATTAGAAGTTGGGTTGTTGGAGTTTAGACAGTTTTTTTTGGTGAA
CCTGTCCTGCAGCCAAGCGCCCTCCGTCGCTCATCCGTGAATCTTTCCAT
CGAGCAGTCCGTGAAACCACACCCCGCGCCCCACCCCAATCCACTCCGCT
CGTTCACCCGGGACCCACAACGATTAAGGCTACTATCACTGGGTGCGGCC
TGGTGAAGCGGAACAGCGCTGCAATGGAGACGGAGGCTGCGGATTGGGGA
GGGGCCGATAGCGGGAACAGTTTCCGGGCCAATGCCATGCGCGGAGTTCG
TGCAGACGTTCGGGAAGAGAAAGCTGGGGTCAGCAGGGCGGTGGGGGGCG
CGCTCAGGCCTTCGTCTTCGTCGTCGTCTTCTGCTGCTTCTTCTGCTCAC
AAGGGTTGACTGAGCAGGAGCAGTACTGGTAGCAGCAACAGCAAGTCGTG
GCAGTAGTGTTAGTAGTAGCGGTGGCAGCGGTGGTGGTAGTGGTAGAAGT
AGTACTAGTAGGAGGAAGAGGAGGAGGAGAGGCGACAGAGAAGGCAGGAG
AGAAGAAGAGCTCATCGCGATCGGCTGGACAGACGTGAACGGGATCAGGG
GGTACCAGTACTGGATTCCCAGTAATTGGCAGCCGCGAGACGGTGGTGCT
GGCTTCTCCAGTTTAGGATAAATCAACAGGGGTTCCATGTCCGGAGAAAA
TAATATGGGCGTCCATGTAGTGGGCGTCAGAGTCTCATTAGCCTTGACTC
AAAGATTTGGTGGTTGGAGGAAAGACGATTTCCCACGCGGAGTGGAATAC
TGTACCCCCTGAAGGCCCTTTATGGCGAGCCAGGAAAATGCTGACACGGC
ATATGGCCTGCTCGTTCTGTTTGAAAGGAAACGGAACAGTACTGCAAAGC
AGCTACACCCTCCTTCAAACTTCGTTCTGTTTAATAAAAAAGCGATCAAA
TGCGCAAACAATGCGCGTATTGCACGAAGGCAGAGATCCGGTAACCAATC
ATGAGAGGGACCCTCAGACCTCATGCACGTGATACTTGGAACCGATCTTG
TTCAGACCGACCCCGTCGATGACAAGCTCACCAAGGCTGAGCAGCATAGA
GTGGCGCTGCTAGGGTGTGTGTAGTCAAGGAAGGCAGGCTCCCAGAACAG
TTGAGAATCAAATTGCATTCGAAGTACAATAAAAATCGAGACAGCCGCAA
AGGAAGATAA
back to topCoding sequence (CDS) from alignment at P-littoralis_Contig59:546557..565266+
>mRNA_P-littoralis_Contig59.96.1 ID=mRNA_P-littoralis_Contig59.96.1|Name=mRNA_P-littoralis_Contig59.96.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1416bp|location=Sequence derived from alignment at P-littoralis_Contig59:546557..565266+ (Pylaiella littoralis U1_48)
ATGCACGAAGCCCCCGACGAGACCACATCATGCGAGTGCGATCCCTCCAT
CTATCCACCAGGTCCGCGTCGTACAACCAAACTTGCACCAGGCCGGGGGG
GTCGAGAGGGGGCGAAGGCCATGGAATTATTTTTCCGCGCGAGTTGTGGC
CAAGCCCTCACAAGGAACCCTGTCCACGGCCGTGCCATCTTAGCGCTTAC
GACTCGGGTTTGTCGTCCACACTCCAGCAGCAGCACCATCATCAAACACC
ATGGCCCCGAATGTGCTGCATTTAGGTCTGGTACTTGCACGAGGTCCTCC
GACACCTCTGGGCGTAGTAGTATCAGCACTTCTGCTCTATCAGGCAGCCT
GGTGAATAGGTCCGTCCACGAGATGGCCGCCACCGCTCGCAACACCCTAG
GATCCGCTGGGCCTCTGCTGAAGAATGCGGAGCGTCGTCCCACGTCGTAC
GGGCTAGGGAGAGGCATCGCCGTTGAGAGGTTTTCTACTTCCCCCAGTGG
TTTGACGCCGCCGCCGCCGCCACCACCAACGCCGCCACCTGCGGGTAGTA
CGTGGAGTGGAGGGGCATTCAAGTTGGTGGGCGCAGCGATTTTGTTCGCA
GGAGGGTATTTTGGGGCGCAGCTGCTCAACCGGGCTGGCTCTTCGTCGAA
CGATTTATCACCTGCAGAGGACGACGAAGAGCCGGCAATTCCTCAGGCGG
CGATAACGGATAAGGTCTTCTTCGACGTGGAGATAGACGGCTTGCCGGCG
GGGAGGGTGATCATGGGCTTGTACGGAGGGGTCGTTCCCCGAACGGCTGC
GAACTTTATCGGCCTCTGCAAGGGAGAATCGGAGCGGAGAAGGAAGCCTT
TCGGTTTCGAGGGCTCTTCTTTTCATCGAGCCATTCCCGGTTTCATGGTC
CAGCAGGGCGGTGACTTCACGAGAGGCGATGGAACCGGCGGGTTTTCTAT
TTTCGGAGGTAAATTCAAGGATGAAGACATGTCTCAGCTCAAGCATATCG
GCCCCGGGGTTTTAAGCATGGCTAACTCGGGCCCGAATTCAAACGGCAGT
CAGTTCTTCCTCACCACGGCCCCGTGCGGGTGGCTCGACGGCAAGCACGT
TGTTTTCGGGCAGGTTTTGCAGGGCATGGACGTCGTCTTCCGTATCGAGG
ACCTGGGCAGCCGGAGCGGAAAGCTCAGGGGCAAGGCTACTATCACTGGG
TGCGGCCTGGTGAAGCGGAACAGCGCTGCAATGGAGACGGAGGCTGCGGA
TTGGGGAGGGGCCGATAGCGGGAACAGTTTCCGGGCCAATGCCATGCGCG
GAGTTCGTGCAGACGTTCGGGAAGAGAAAGCTGGGGTCAGCAGGGCGGTG
GGGGGCGCGCTCAGGCCTTCGTCTTCGTCGTCGTCTTCTGCTGCTTCTTC
TGCTCACAAGGGTTGA
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