|
|
Homology
BLAST of mRNA_P-littoralis_Contig854.2.8 vs. uniprot
Match: D8LSM7_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LSM7_ECTSI) HSP 1 Score: 563 bits (1452), Expect = 1.700e-186 Identity = 314/427 (73.54%), Postives = 349/427 (81.73%), Query Frame = 3
Query: 987 AATAQERQGPVAPLFSFPPGPRVHRTEAEESLQEVLPMQQRLVKYLTEDRVFGAQILCSVYFFVSAVAYSMDSVKYRRCYSAALAALTMKQWGTVLGRVRRVLVPHLLYEPQCRYIKYRARVSALALDPAVQGIVYCAIFMLMPLGHALIPLLLKESVYLLWVIKEVLQIAAPGLVETLTSLFEPLMSVFMTAGDREKWRGTPAGEKRLLLGRRLAQLCFKLELVMPFSVAIRVLPGSIQAALEKKSADAGRETGELGGGALAAAGAAFAGTGDLIRVGALMVLYVKLLVVKNAQLEDDVRILKGLKIRGYNCEWVEQAVDSMVFGKLVGCPWWAGLLASCFALLPNNEATKTIMASDDKLKTLGITVLNLAIGRTPGAEEDEXXXXXXXXXXXXXXXXXXXXXSPPP-SRVAKIAKIAAVVTGVSD 2264
A +ER+ PVAPLFSFPPGPRV RTEAE+ LQEVLP+QQRLVKYLTEDRVFG QILCS+YFF+SAVAY MDS K+ Y AALA LT+KQWGTV+GRVRRVLVPHL+YEPQ RY+KYRARVSALALDPAVQGIVYC IFMLMPL ALIPLLLKESVYLLWV+KE LQI APGLVETLT+L EPLMSVFMTAGD EKWR TPAGEKRLLLGRRLAQ CFKLE+VMPF VA+RVLP +Q +L A G GE GA A AG L++V L++ YVKLLVVKN QLEDDVRIL GLKIRGY+CEW+E+ VDS+VFG +VGCPWWAGLLA F+LLPN+E TK +MASDDKLKTLG+T+LN AIGRTPGA++D XXXXXXX XXXXX SR+AKIAK+AAV TGVSD
Sbjct: 245 ATEGEERRRPVAPLFSFPPGPRVRRTEAEDGLQEVLPVQQRLVKYLTEDRVFGVQILCSIYFFMSAVAYLMDSTKFGGSYQAALAVLTLKQWGTVVGRVRRVLVPHLIYEPQ-RYVKYRARVSALALDPAVQGIVYCGIFMLMPLSLALIPLLLKESVYLLWVMKEALQITAPGLVETLTTLSEPLMSVFMTAGDSEKWRDTPAGEKRLLLGRRLAQACFKLEMVMPFGVALRVLPAVLQTSL---GAGGGVADGEGAEGAAAGAGGQLGRALPLVKVLVLVMAYVKLLVVKNGQLEDDVRILSGLKIRGYDCEWIERGVDSVVFGMMVGCPWWAGLLAVAFSLLPNHEVTKKVMASDDKLKTLGMTLLNKAIGRTPGADDDXXXXXXXXGSGEKDGSSXXXXXXXXXXSRMAKIAKVAAVATGVSD 667
BLAST of mRNA_P-littoralis_Contig854.2.8 vs. uniprot
Match: A0A6H5KS72_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KS72_9PHAE) HSP 1 Score: 253 bits (645), Expect = 2.510e-74 Identity = 143/195 (73.33%), Postives = 156/195 (80.00%), Query Frame = 3
Query: 1326 RYIKYRARVSALALDPAVQGIVYCAIFMLMPLGHALIPLLLKESVYLLWVIKEVLQIAAPGLVETLTSLFEPLMSVFMTAGDREKWRGTPAGEKRLLLGRRLAQLCFKLELVMPFSVAIRVLPGSIQAALEKKSADAGRETGELGGGALAAAGAAFAGTGDLIRVGALMVLYVKLLVVKNAQLEDDVRILKGLKI 1910
RY+KYRARVSALALDPAVQGIVYC IFMLMPL ALIPLLLKESVYLLWV+KE LQI APGLVETLT+L EPLMSVFMTAGD EKWR TPAGEKRLLLGRRLAQ CFKLE+VMPF VA+RVLP +QA+L + A E E GA A AG L++V L++ YVKLLVVKN QLEDDVRIL GLK+
Sbjct: 16 RYVKYRARVSALALDPAVQGIVYCGIFMLMPLSLALIPLLLKESVYLLWVMKEALQITAPGLVETLTTLSEPLMSVFMTAGDSEKWRDTPAGEKRLLLGRRLAQACFKLEMVMPFGVALRVLPAVLQASLGAGGSVADGEGAE---GAAAGAGGQLGRVLPLVKVLVLVMAYVKLLVVKNGQLEDDVRILSGLKV 207
BLAST of mRNA_P-littoralis_Contig854.2.8 vs. uniprot
Match: A0A835YJH6_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YJH6_9STRA) HSP 1 Score: 184 bits (468), Expect = 3.750e-44 Identity = 126/324 (38.89%), Postives = 177/324 (54.63%), Query Frame = 3
Query: 1062 TEAEESLQEVLPMQQRLVKYLTEDRVFGAQILCSVYFFVSAVAYSMDSVK-----YRRCYSAALAALTMKQWGTVLGRVRRVLVPHLLYEPQCRYIKYRARVSALALDPAVQGIVYCAIFMLM--PLGHALIPLLLKESVYLLWVIKEVLQIAAPGLVETLTSLFEPLMSVFMTAGDREKWRGTPAGEKRLLLGRRLAQLCFKLELVMPFSVAIRVLPGSIQAALEKKSADAGRETGELGGGALAAAGAAFAGTGDLIRVGALMVLYVKLLVVKNAQLEDDVRILKGLKIRGYNCEWVEQAVDSMVFGKLVGCPWWAGLLASCF 2012
T AE L LP+QQRL+KY T+D++F QI S+YF +A ++ S R Y AL AL +K W VLGR+RR LVP L EP ++ +RAR ALA DPAVQ ++CA+ + PL AL PL L+E YL V +EV+ IAAP + L +L +V + GD WR G + + +GRR++Q CFKLE+ + +R P +++A + K A A AAFA + +GA Y +LL V++AQL DVR+L GLK+ G W+E VDS ++ +++G P W L + F
Sbjct: 30 TAAEAGLDGFLPLQQRLIKYFTDDKLFTVQIAGSLYFAANAAILALSSAPDASAARARAYQGALLALIIKYWCVVLGRMRRTLVPGLAREPG-KFGLFRARARALARDPAVQTSLFCALALTRQPPLSAALAPLALREGAYLFLVAREVVSIAAPRALPALGALVRWPAAVLVAKGDVRAWRAMGEGAQLVEVGRRVSQACFKLEVAALGAALLRDYPRAMKA--DNKLA----------------AAAAFA-----LYIGA----YAQLLSVRHAQLGGDVRVLSGLKLGGVGLGWLELVVDSALYARMLGLPRWTAFLMAVF 325
BLAST of mRNA_P-littoralis_Contig854.2.8 vs. uniprot
Match: A0A836CE38_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CE38_9STRA) HSP 1 Score: 114 bits (286), Expect = 1.170e-22 Identity = 112/370 (30.27%), Postives = 165/370 (44.59%), Query Frame = 3
Query: 987 AATAQERQGPVAPLFSFPPGPRVHRTEAEESLQEVLPMQQRLVKYLTEDRVFGAQILCSVYFFVSAV----AYSMDSVKYRRCYSAALAALTMKQWGTVLGRVRRVLVPHLLYEPQC-----RYIKYRARVSALALDPAVQGIVYCAIFMLMPLGHA----------------LIPLLLKESVYLLWVIKEVLQIAAP--GLVETLTSLFEPLMSVFMTAGDREKWRGTPAGEKRLLLGRRLAQLCFKLELVMPFSVAIRVLPGSIQAALEKKSADAGRETGELGGGALAAAGAAFAGTGDLIRVGALMVLYVKLLVVKNAQLEDDVRILKG-LKIRGYNCEWVEQAVDSMVFGKLVGCPWWAGLLASCF 2012
+ ++ E+ P PLF+ P P T AE L+ LP+QQRLV+Y T+DR F Q S++F A A S ++ R Y +ALA + K + RVRRV +P LL Y ++RAR +ALA DPA Q +VYCA+ + LG + PL++ E +L AP L + L + M+ + GD + W+ E R +GRR+AQ KLE+ + V +RV P ++ A + S A+ A FA T + + L V++AQL D R+L G + G +E +DS + +G P WAG + F
Sbjct: 104 STSSSEKLAP--PLFNAPLRPGRAHTVAEAGLEGFLPLQQRLVRYFTDDRAFALQAAGSLWFAAHAALTLAAPSAAAMDPLRMYRSALAGVAAKNAALLAQRVRRVALPPLLAAEAPGGGARAYARFRARAAALARDPAAQALVYCAL--MATLGGSGXXXXXXXXXXXXXXXXXPLVVNEGAWLXXXXXXXXXXXAPPRALRAAASRLAQWPMAALVARGDVKAWQEMGEAEWRAAVGRRVAQASLKLEVAVMALVLLRVYPRAMTAPNKIASI---------------ASFALFAST------------FARYLRVRSAQLGGDTRVLGGGAALCGVPLAPLELLLDSAAYAAPLGLPRWAGAAFALF 442
The following BLAST results are available for this feature:
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 |
| Model size | 2942 |
| Hectar predicted targeting category | signal peptide |
| Exons | 9 |
| Cds size | 2106 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791723.6423502-UTR-P-littoralis_Contig854:13483..14155 | 1680791723.6423502-UTR-P-littoralis_Contig854:13483..14155 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig854 13484..14155 - |
| 1680791723.7969382-UTR-P-littoralis_Contig854:26834..26998 | 1680791723.7969382-UTR-P-littoralis_Contig854:26834..26998 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig854 26835..26998 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791723.6550236-CDS-P-littoralis_Contig854:14155..14353 | 1680791723.6550236-CDS-P-littoralis_Contig854:14155..14353 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig854 14156..14353 - |
| 1680791723.6704273-CDS-P-littoralis_Contig854:15047..15212 | 1680791723.6704273-CDS-P-littoralis_Contig854:15047..15212 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig854 15048..15212 - |
| 1680791723.683946-CDS-P-littoralis_Contig854:16000..16270 | 1680791723.683946-CDS-P-littoralis_Contig854:16000..16270 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig854 16001..16270 - |
| 1680791723.7011268-CDS-P-littoralis_Contig854:16783..16914 | 1680791723.7011268-CDS-P-littoralis_Contig854:16783..16914 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig854 16784..16914 - |
| 1680791723.7214327-CDS-P-littoralis_Contig854:19409..19591 | 1680791723.7214327-CDS-P-littoralis_Contig854:19409..19591 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig854 19410..19591 - |
| 1680791723.7343285-CDS-P-littoralis_Contig854:20019..20159 | 1680791723.7343285-CDS-P-littoralis_Contig854:20019..20159 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig854 20020..20159 - |
| 1680791723.7501752-CDS-P-littoralis_Contig854:21343..21442 | 1680791723.7501752-CDS-P-littoralis_Contig854:21343..21442 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig854 21344..21442 - |
| 1680791723.7629676-CDS-P-littoralis_Contig854:22001..22295 | 1680791723.7629676-CDS-P-littoralis_Contig854:22001..22295 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig854 22002..22295 - |
| 1680791723.778381-CDS-P-littoralis_Contig854:26207..26834 | 1680791723.778381-CDS-P-littoralis_Contig854:26207..26834 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig854 26208..26834 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig854.2.8 >prot_P-littoralis_Contig854.2.8 ID=prot_P-littoralis_Contig854.2.8|Name=mRNA_P-littoralis_Contig854.2.8|organism=Pylaiella littoralis U1_48|type=polypeptide|length=702bp
MRKAKTAGGAHVFPVLNSPSTVLIASALLLGAGSAIPPARAAAAAGGGGG
GGSPSSSAGALAALRNSGWHRLRRDGQQQQQQRQRLLSSFTTAATLIDSG
SNSDCSSSGCRRSRAWLAARNTRGGGLFRRHRRGDGESEGGGYCFSTEKG
ELKQEGSGSKDAAMTSEGFAVAAGTTRGGSSGGAVDEQQEQGTTSEGGGG
GEASESDEQDKANPGVSTAGDGDGDGDDQDFSEEVSEEGGSAEGVREEEE
EEEEQEQEQGEDGNAEGGAASAAGAATAQERQGPVAPLFSFPPGPRVHRT
EAEESLQEVLPMQQRLVKYLTEDRVFGAQILCSVYFFVSAVAYSMDSVKY
RRCYSAALAALTMKQWGTVLGRVRRVLVPHLLYEPQCRYIKYRARVSALA
LDPAVQGIVYCAIFMLMPLGHALIPLLLKESVYLLWVIKEVLQIAAPGLV
ETLTSLFEPLMSVFMTAGDREKWRGTPAGEKRLLLGRRLAQLCFKLELVM
PFSVAIRVLPGSIQAALEKKSADAGRETGELGGGALAAAGAAFAGTGDLI
RVGALMVLYVKLLVVKNAQLEDDVRILKGLKIRGYNCEWVEQAVDSMVFG
KLVGCPWWAGLLASCFALLPNNEATKTIMASDDKLKTLGITVLNLAIGRT
PGAEEDEDDDEDDEKAKKNAENGDGDGASPPPSRVAKIAKIAAVVTGVSD
F* back to topmRNA from alignment at P-littoralis_Contig854:13484..26998- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig854.2.8 ID=mRNA_P-littoralis_Contig854.2.8|Name=mRNA_P-littoralis_Contig854.2.8|organism=Pylaiella littoralis U1_48|type=mRNA|length=13515bp|location=Sequence derived from alignment at P-littoralis_Contig854:13484..26998- (Pylaiella littoralis U1_48)
ATTACACACGCGATTTGATTCAGCACAGCAGTGCCCCACACAAACCCACA
TACCAGTCCTTCTATTGTCGCGTACAAAGCGTGCAGAGAGACGTGCACAA
CAGCAGCATCGCGCTTGTTGCCCTCCCCACGGGTGGCTTACGAGCGCAAA
AAAGGAAAGACCGGATGCGGAAAGCGAAAACGGCAGGTGGTGCTCATGTG
TTTCCGGTCCTAAATTCACCTTCAACGGTCCTCATAGCATCCGCGCTGCT
CCTTGGCGCCGGCTCTGCTATACCTCCGGCCCGCGCAGCAGCAGCAGCTG
GTGGTGGTGGTGGTGGCGGAAGTCCTTCCTCCTCCGCCGGGGCACTGGCA
GCCCTGCGAAATTCGGGTTGGCACCGTTTACGCCGCGATGGCCAACAGCA
GCAGCAACAGCGGCAGCGCTTGCTGTCGTCGTTTACGACAGCGGCGACTC
TAATCGACAGCGGCAGCAACAGCGATTGCAGCAGCAGTGGCTGCAGGAGG
AGCCGTGCCTGGCTTGCTGCTCGAAACACCCGCGGCGGCGGTCTCTTCCG
GAGACATAGGCGTGGCGATGGCGAAAGTGAAGGCGGTGGCTATTGTTTCT
CTACTGAGAAGGGGGAGTTGAAGCAGGAAGGGAGTGGGAGTAAAGATGCC
GCCATGACGAGTGAGGGATTCGCGGTTGCGGCGGGAACGACCAGGGGCGG
CAGCAGCGGCGGCGCTGTGGACGAGCAGCAGGAGCAAGGAACGACAAGCG
AAGGAGGAGGAGGAGGAGAAGCAAGCGAGAGCGATGAGCAGGTGTGTCCG
TTTGTATATGTGCTTTGTAGGTTCGTATGTGTTAATCTGCTGCGGCTGCT
GCTGCTGCTGCTGCTGCTGCTGCTGCTCCTGTTGTGCGTATAGTCTATGT
GTGTACGACTGCTGTAATGCACAAATTCGAGAGCAGGGACCCGACCAAGC
TGAACCATTTTCCACCACCACGTGACCGATCGCCCCGGTGGTTCAGTTGG
AAATCCACGTAACCTTCTGACGTTCACGCGTGAGTTCAAATCCCAGTGAA
GTAACACGATCTGGGTTTTCTTCTCACAATGCGCGTGAAAGTGGAAAGCG
ATCAATTCGTGAGTAAACAAAAATTCGATCGTACCATCGACAAGGGAAAG
GGATTGCTGTCCCCTTTCTCGCGATATTTAAAAGCTGAACCAACACAAGG
CAAGCACCACAAAGGGAAGTGGAGAAAAAAAAAAAAAAACTCCTGTGTTG
ACTTCCCCTTGTGTGACCCCAGTTGGAGCGTCGACCTACCCGCAAGGGGC
AGATTGGCATCCAATTAAAGGGATGACAACACACACACGTGGTATAAGTG
GGGCGGGAGGAGACTGAACGCGATGCTGTAGTCAAATGAACGACGCTGGA
AGTACGTTTGATGTTGGTACAATGCACACCGCGTAGGAAGGTGTATCTTC
TTCGGTCTTTCTCGGGTACCGGTATTCCCTTGTAGTTTCTTTTTTTTTTG
GATCTTCCTAGGGCTCAGCACTTTTTGTGACCACGGGCTAGATTTTGGCG
ATGAGCTAATGTGAGAATCAACAAACAAACATGTGGAACCTGTTTACAGA
ACACGCTTTACTGCTGCTACCCGCCTCTCTTACCGCCGATTCAATTGGGG
CGGCGGCGGCGGCGGGTAAAGGGCGGTGGTGGTAGCTGGGGAACAGCGAC
TTGCTTCACAGAGAACGATCGGTCGAATAGACAGAGATTCCTATATACAA
GTACTGGTTCGTTGGTCAGAGGAACACGCAAGGCATATCCCTCAGGGTAC
CGGTACAACCGACTTGCATCATACAACAACAGCAGTATGACGCTGCGATC
TATCATATGTCTAACTCCTGTGTGTGTGGTTGTCCGATCTTTTCTTGGCG
CCGGTCCTCATTTTTCTGTTTAAAGTGGGTGCGCGAGCAGGGGTCACACA
GAAGGAAGGTCACACACGGGATTTTTTTATAATTTTGTTTTCATTGCTCA
CACCTTTCCTCCTGCGGTATTTGCCGGGTTCATCAATCCCTTCCCTTGTT
ACACGGGGTATAATCACATGTAGTCGTGTACGATACAGCAGCCGTACTCG
TACTGCAGTACTGCTGTATTGTTGGCGTATATGCACACAGCTTAACGTCT
GTTTTCTGTTTTATGCACAGCTGGACGGCTGGCACACCGTAACACAACGA
TGCGGTTTATTTTCTTGTTCCACGGTGGTGCAGTGTAACTCGGCATGCGA
CCTTTACCTGTAGGAATTACGACCAGGACGTACAACACAACAGCATCCGG
TGTGCAACAACAACAACAACGGCTAGTTTGTAGCTGGGCTGGGCAGGCGA
GAGCTCTCCTGCGCTCTTGTTGTCACAGGGTCGTTGTGCGTCTCTTGTCA
TGCGGTACCCGTAGCTGCTGCGGCGGCGGAGAGATACATACCTCGACCCA
GTGCCCAGTGCACCTGTGACGGCCAGGAACAGTATGACAATCGCAGCGTT
TCATACTGCTGTGCTCACGTTGGCTCTATACGACTGCCCATGAATTATAG
AGGCATGTTTCTTCCCAAGTTTCAGTGGAAGCAGAGCTACATTGTACATG
TACATACCCTCGCCTGCCGCCATCAGGTACCAGCGCACAACCCCGATGTT
TGCGTGCGAGCTAATTTGGCTTGCCATCGGGCAACGTACGTATTCGTGCG
ACTGCTGCGGTGTCATGAAACAGAAAAAAAAGAGAGAGAAATGACACCCA
TGATGGACGTGTATGTAAGCCTTTGTCAATAGCAATGCAATATTGTCCGT
CTCTAGAGCAGATTTGCAGCTAACACAAAGGATTTTACATCTACCTTTAT
TCTTTTTTATCTCATCAGATAAAGATCAGACAGAGTACGGTTCGCAGTTC
CCTTTGAAGGTATCAGCCTTCCCAAGAAAGATTGGAAGTAATCTTGTGTG
ACACAGGATACATCATGTACGGTCTAAAAGGTGTGTGCTGCCAGCATCAT
AGAAGTTTAGCTCTCACCCACGAAGGCCACAATCGGCGCTTTTGGGGTCG
GCAGTAGTGCTCAAATCGGCACTGCACAGGGTCAGTTCTTACGTTCTTAA
ACCCTGAACCCAGATCGAAAAATCGGAAATCACGCCCAGTCGATCATTTT
CTAAGAATCGTGTTTCTGTTCCGAACAGAAAATCCTGCTCACAAAATCGG
AAAAGATGGAGCTTAGGTGAACGGACGGATGGAAAAATATTCATCAAAAC
TACGAACACACTGTACCGTGAAGCGAGGGAGAGATGTTTGCTGCACATTC
CGGGAGCACGTCGGTCAACACCGACACGCCTCCGATTTTTGTTGGCCACG
TCACGAGGGTGTATACAGTATACAGTACCCCTGTCGTACTCGCATGTGGT
ACGTGATGCCTCTTCATGAAGCTGGTTATCTAGCAGAGCAAAAAAGGATT
CACTTTGTTCGAGCGGATTCCGATGAGAACGCGGAAAGCAGCACCACTCA
AGTGTTCCAAGTGTGTGCAGAAGTGTGTGTGCAGAGTTCTTTCTTAACGG
CTGGCTGGTCACGGAGCTTGAACAGCGGTGCTGCTGCTTTTCGTTCCGGG
GGCATGTCTGACATACGCTTTTGCTATAGCAAGATCACAACGCAAATCAG
CTGGTTTGCTCTATGAAGCACAAAGTACTTTGTCTGGGCGGAGTCTGCTG
AGACCCGAGGCAGGAGCACTCAGCGAAGTTTTGTAGCTCAAACGGGTGGC
GTTTTGGACCTCTGTGACCTCCGAAGGGAAAGCACGTGCAACACGCGATT
GACACACATCTTACCAAGTATTTCCCTTATCGATCTCAAACCTCCAAGAC
TATCCATGCGTCCAGGTTGGGTGAGGCTGACTCGGGGCTATCGTATATTG
CCTCTCGAGGCATGGTAGCTCCCACACTCGTTGTTGAAATCGTCACGCCA
CGCGTCATTGTACACGTCCATCAGAGTGTCATTCCTGGTCGTTCCTCCCC
CCCCCCTCTTGGTTTCCCGCCTCCGCTCGAGATTTTTTGACAAACGAAGC
TGCACTTCGTCGGATACAAGTCCCTCTCTATGTAGGGTTGAAAATTATTT
TCGATTTCTGATTTCCGATTCTCGGATCGCGGATGATAAAACCGACCCTG
CTGACGGCAAGCAAGTGTCGGAGAGTCAACCGCACCGAAAAATACATATG
ATATGTATCCCGAAGGTATCCCTCCCACCTTTGATGAAGAAAACCACAAA
AAGAAGAGGTGGCCCCCGTGTGTACTCGCGCTTGTCTAGTCGCCGCAGGA
ATGTTGCGTAGTGCTGAGTCACACGAAACGAACGGCAACACTGCTTAACT
AATTTGGCAGCAATAGCGCTGTTTGATACCGGTATGCCAGCAACTGCCAA
ATGTGCGGGCCGCCGCCTCGACCTCGAAAGACACAGCCCAGGCGACAGAG
TATTCTATCGCTGTGAGGTAGATGAAAGGCTCTCGCCCCCCCCCCACGTG
CCGCTCGTCCCTTTCTCTTCTTTTATCCCTTCCAGTTGGCATGCACTGAT
GAGCCGATGTTGCTTGAAAGTCTTCAGCCACGGTGACAACAACCGTCTGT
GAACGTGAAAGCTGCACTTCCCCACCCCGTCACCCCCCCCCCTTTGTGTC
TTTGCCGTCCACCGCTCTCTGCCCTTCACCTCCGTGATATGACCCACCAG
CAGGATAAGGCAAATCCAGGAGTGTCGACGGCGGGTGACGGAGACGGGGA
TGGGGACGACCAAGACTTCTCGGAAGAAGTCTCAGAAGAAGGAGGGTCGG
CGGAGGGGGTGAGGGAAGAGGAAGAGGAGGAGGAAGAGCAGGAGCAGGAG
CAAGGTGAAGATGGGAACGCGGAAGGGGGTGCGGCATCGGCTGCGGGTGC
TGCAACAGCGCAAGAGAGGCAGGGCCCCGTGGCTCCGCTGTTCTCGTTCC
CGCCAGGCCCGCGGGTGCACCGAACAGAGGCCGAAGAGAGCCTTCAAGTG
AGGAAGTCCACGGCATTTGTTTTCATGAATCCGTCTGCTGTGGTACGGAG
TCGTTGCGTTCAGCCGCGTCCGTCTGTTTTCTTGATGTACATGGGTATCA
GATTTGTTGTTTTACCAGTAGGCCACAACATTCTTTCGGGAGGCGTTTTG
GTTCAGAGCCATGCAAGTAAGTCATTGAGTGGAATGTTGTGCCTGCCTCG
TCCGTATGTATACAATATTTCGTCTCAAAAGGCTATGTACGGTCTGTGTG
TCCTCCTCCCTCACCTGGGTTTCTCTCTGGAGGCGCTCGTTGTGTGTGCA
CATCATTATTTTCGGTCAAGTGTCTCTCACCACGCGCACGCACCCTTCCT
GTTGACAGGGCCATATCGATATTCTCGTCCGGCATGCAATGCAACACGTC
AAGAGGTTCACCATGCCCCTGCCCAGCAACACCCCTACAACCCTCCCACC
CCAACCCCGGGGCGGCGTATCCAAGTTAGTAAACAGCAGTGCGTTGATAA
CACTCGTCTCTGGCGATATCTATCCTCCTGTTGCTTTCGCAAATTCCTGA
ACGCAGGAGGTGCTCCCGATGCAGCAGCGGCTGGTGAAGTACCTCACAGA
GGACAGGGTGTTCGGCGCGCAGATTCTGTGTTCGGTCTACTTCTTCGTGA
GCGCGGTAAGGGGACCACGGGCGACGGTGTTGTTGGTGTCGTAATTTTAT
GTGCAGTTTTCGCAGACTTGTGTGCGTAGGTGGTGTGAATGTGTGGGGAG
GGGTGTTGCCATTCTCTTTCCCCATGCATCCGAGGGGGACCACTGTAACG
CATGTCCCCATTTCAGTGGCGACGTCCCCATTTCAGCGGCATCAGCGTAT
ATGTAGAGCGTCATGACTGCGGCTGTGGTTTGTCTCCCTGCACGCTTCGG
TGGCATTTCGACCGCGGTTTTTATTTCTATTTTTCCCGTGTACAGCTGTG
AAGCACTCGGCGGCGTGGTCGTTACAGCAGTGATAACCTAGCAGTCGAAC
TGGTGGTGTTTGTCTCCTCTCGGGCTCTCTACTGCGGCTGTTGTACGGCA
TACAGCAGCGCGCTCGCGAACGTGTGTAGAGAGGCGGACAAAAACGTTCT
CCGTCCGTCACCTTACATGTTGAATGTCAACACACCGGTCGCCCCGGTGG
ACTAGTGGTCCCCTCGTTAACCACTAGATGCAGAGGAACGGGGGTTCGAT
TCCCGGTGAATGTGTTCCTTTGCTACTTTGAAAGCGGCTATGCTGTCAGT
AAAATCAGATTCGGCTTCGCCGACGAGGGTAGGGACCGCGGACCCCTGCT
CGCGAGAAAAAATCTCACGCATGTACCGCAGAGGGAAGGTGGGGGTAACT
CCTCCTGTGTTGACCTTCCTCCTGTGTGACCCCGTCGATGGGCCTAGCCT
GTAGTTTGAACCGCAGGGTGCAGCCTAGTGTGCCAGAGAATATGGGATGA
CAACACACACACATACACACTGCTGTGTCAAGAGTCCGAAGATGACTAGA
CCTAACTCTCGGTGCACAGGAAAATGGTTTTCTCCCTCTGTTTTTATCAC
TCAAGGCCACCCCGAAAGCCGTACCGATGACGACCGCAGGTCGGGGTATG
GGTTGCTGTTGTAAGAGAACGCTCCCCAGCTTGACCCCCCAGCCCCAACC
CGCAATCTCAACCCCAGACAACGAACGCCCTGCGCCTGCGGCCCATTTTA
ATTTTTTTCCGCATACCAAGAATGTTTTAAATTCATCCGAAGCCCCCGCC
TGCCGCCTCCCGCCCTTGCCACATCCTCGCCTCCGTATCCTCCTCTACAT
ACGACCGCGCCACTGTCCCCGCGGCCGATCCTGTTGCAGGTGGCATACTC
GATGGACAGCGTCAAGTACCGGAGGTGCTACTCTGCTGCGCTGGCCGCGT
TGACTATGAAGCAGTGGGGCACAGTGCTTGGCAGGGTGCGGAGGGTGCTC
GTGCCCCACCTTCTCTACGAGCCGCAGTGGTGCCCGTCTGGTGTACCCCC
CCCCCCCCCCCCAAATCGACACTGATGTGACGCGGGGCTCCCTCAGTATG
CGTTGCCTCTACTCGCGTTGTGCGTGCTTGTGTGTGTGCGAATCTACCGT
ACGCCTTTGAAATTACGAACGTACCTTGAACGTGTCGTCTCTCACTCTTT
GAGGATGCGTGTTCGCTTGTCACCTTCTTCGGGGACTGACCGACCTTTCC
ATCTTTGTTGTTGGTATTTACGTATTGGATGTGAAAAACAAGTAGCGGCA
TCATGTGCAAGTCTGATTTGTTATCTCACCGTGCTAGGATACATCACGCC
ATACACAGGGGTGCCAGAAAAAATAAGCGAAGCTGTTCCTCGACCCCCCC
CCCGCCGCCGCCGCCGCCGCCTCCCTGTGAATTGAATTGAATTGAATTGG
ATCGCAGCAGGTACATCAAGTATCGCGCGAGGGTGTCGGCCCTTGCTCTC
GACCCAGCTGTGCAAGGAATCGTGTACTGCGCCATATTCATGCTCATGCC
CCTTGGACACGCCCTCATCCCGTTGCTGCTCAAGGAGTCCGTCTACCTCC
TCTGGGTCATCAAGGAGGTCCTGCAGATCGCGGCCCCTGGTGAGAAAGAA
GTAAATGTAAAAGAAAGCTGCAAGCCGTTTTGGTGCATTCATTGATCGGT
GGGAGAAGGACCGGTAGGGACACCGCCGCAAATACACTTCGTAAATCCTA
TGGTGTGTGTGTGCCATCCCATTTATTCTGGGCAGCGGTCTACATCTTTC
GGTATGATGTGGGTGCTTCAGCCGGGGTCACACAGGAGAAAGGTCACATA
CGTTTATTTTGTTTTATTGCCCACACCTTCCTCCTGCGGTATGTGCCTTA
GGTTTTTCATGTGAGTCGGGTACAGCAATCCCTTCCCTCTGTCTTGAATT
TTGCGGTGGCGACAAGGTATGACATGATATGATATGCTATGGTATGCTAT
GGTATGCTATGATATAATACCATATCATATACAAGGGGGCTGCGCCGGCG
CCTGAAGCGGCGCAGGCTAGTTAAAGGATTCGTATAGGAACGGAGTGCGA
GCGTATGAGTCTGCAGTGTGTTGAGACGAAGGCTTATATCAATACTAAGG
GTTTCTGTCGAAAAGTCCGAGAAGGAAAAATGTCTAGAGGAGGAAAAGTG
TTGGAAGAAAATGGTTGATGATAACATAAGAAAAGGGTAGATGGGATGCG
AGGTGAGAGGCAGATTGGCGGATGCATGCAGCCGGCAGGGTAACGACGCA
GCCGGTTGGAAAGACATGAAGAGTAAATGAACGCGGGGAGCGCGGCACGC
ACGAGAGTGGCAGGTACTGGTACCGCTGAAAAAACGAAGGTCGCAAGAAG
ATGTCAAGCCATGGAAGGACAGTCCACGAAGGACAGTAAAGGTGGGCGTA
ACTCAAGCCAAGATTGATTGCGCAAAATTACTTAGTGTGCAAAAACGCAC
CAAGAAAAGAAAACACCGCCAAATTACAGAAGCCAAGACTTGCGCAAGGT
AGAGGTAGACCGTCGACGTGGGGGACTGAAATGAAGAGAATGGAAGGGAA
GATCGTGCTATAAAACGACGACGACACCGCTCAATCACAGAAGCCGAGAC
GCACGCAAGGTGGAGATAGACCATCGACGTTGTGGTCTGAAATTAAAAGA
ATAGAAGGAAGGTAAAGACGCGAAGACGCGGCACATCGCGGAAGAACAAA
GTACAACTCAAAACAGAGACTAACTTGAGACGAAAGCTAGGTGTACGATA
GAAAGGTACGACGTTGTGGTCAGACTGGCAACAAAATCAAAAATCGCGAA
AGTGGAGACGAAGCACACGAAAGCAACGGCGTTCCCAGCATACGCACGAT
CGCGCAAGAAGATTCAACTACGAGAAAAGCGCATGAAAAACGCAGAACGA
AGATCCAACAGCATCGAAAAGAGCAGCCGACGAATGGAAAATAAAAATAA
ATCCATTATACCTCACGAAAGTGCCACAGTGTCTAGCCGGAATCCGAAAA
GCATGGGATTGAGTAGGCCGATGTGCGAAGCAAAATAGGCACATACACTA
CATGCCAAGGCGAGACTGAAAACTGGCAAATACATTACATACGAAACGTC
AAGGCGAGACGAAGGCAGGGAATTGGCACGTCAGTCTGAGACTAACTGTA
ATATGATATCATATGATATCATATGATGTTGTACGGTATGATTTGGTATG
ATATGATGCGGTATGATATGACGTGATATGATATGGTATGATATGATATG
GTGTGATATGATATGATATGGCATGGTATGATACGTTATAATATAATATT
ATATGGTATGATATCGTATGGTATGGTATAATATGATATTATATGGTATG
GTATGGTATGGTATGGTATGGTATGGTATGGTATGATACGTTATAGTATG
ATATTATATGGTATGATATGGTATGGTTTAGTATGGTATGGTGTGATATG
GTATAGCATGACGTGATACGATCTGATGTGGTGTGGTGTGAAATGATATG
GTATGATATGATGTGATATGCAGTAGCGTGTGTGGGACATCTCCGTATAC
TTGGTGATGTGAGACATGCCAAGAGCCGCGGGATGGGAATCGATCGCCCT
TTCGCTGCAGGTCGCTCGAAAAGTCTCTTTTTCTCTGCGGCGTACAGCAG
TACGCCGGCTGAGTACCGCCCATGCGCCTCTGCCGGCTTTGTCTCGCGTG
TGGATTTTGCCCGCCCCACACCCACCCCCTTTTCTTTCGCCCCGCCCACG
CCGTCGACCCGCACACCGACCGGTGTGCTCCTAGCGGTCCTCTGGGGACC
GCCGTGTAGCAAAGCGTACCTGTAACTGGTAGCCCTCGTCGCGCTCTGAT
TGAAAAAAATAAATGTTTTTGTCCTGACTTCCTTCCTTCCTTCCTTCCTT
CCTTCCCTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCC
TTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTT
CCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCCTTCC
TTGCCCCACAACATGGTTTTGTCCCCCGCATCAGGGCTGGTGGAGACGTT
GACCTCTCTGTTCGAGCCATTGATGAGCGTGTTCATGACGGCTGGGGACA
GGGAGAAGTGGAGGGGCACCCCGGCCGGCGAAAAGCGGCTCTTGTTGGGC
AGGCGCCTGGCTCAGGTATGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTG
CTGTCGATGCCGGTGTGCTGTGTGGATTAGTACACATCCATGTCCAGTAT
GTGCTGCTGTTGACAAAGTAGACACCCCCCGACTCAAGAGGTACCCCCCG
CGACAAGCCGAAAAGTTAGCCTGCCCGTCGTTTTTTTTTCCCATATGAGA
TAGTCGTGTGCTGAGGAGTGATCTGAGGGCATCTTTCACGGCACACGCAT
CGGATCATATCGACGACAAGGTGTGTTAACCTTTTTCCCCAACCGCTGCC
AACACACCGGAAAATCCTTTATATTCTTGTACTCTACGAGTTTCTAAGGA
TCAGCACGTGAGCCGAAACCTTGGTGTACATAGTGTCGCGTCGCCCGTCC
CCGAAGCCCTTCGTGAACAGGACTCCATATTTCCCTCTCCCCGTCACTCA
CGGCGACCCCAACCGACCCCACCCCACCCCACCCCTATCCCCGCTACGAC
CTTTCACCCTGCCCGCGGGCGAGTGAAGTTGTGCTTCAAGCTGGAGCTGG
TGATGCCGTTCAGCGTGGCCATTCGTGTGCTCCCGGGCTCCATTCAAGCC
GCCCTCGAAAAGAAGAGTGCCGATGCGGGAAGGGAAACAGGTGAACTAGG
AGGGGGCGCCCTGGCGGCTGCGGGAGCAGCGTTCGCCGGAACCGGCGATT
TGATCAGGGTCGGCGCGCTGATGGTGCTGTACGTGAAGCTTTTGGTGGTG
AAGAACGCCCAGCTGGAGGATGACGTGCGGATACTCAAGGGCCTCAAGGT
AGGACGAACCTTCCGCTGTGTTTTCCACGACAGGCGGGGAGGGGGTGAGG
GGGGGGGGCGGGATACAAGAGCGGGTGAAGGGATTGGATGGATTGCACCT
GCTCTCCCTCCTGAAGGAATAATTCCTGGGGTTTTTTGTACTTATTCGTT
TTCTTCTTTGTACTCATGTGGATGACGGCCGTAGTGACATCACAACCAGG
TAGGCACATACAAGAACATTTAGTGTTGAGTTGACCTCCTGATGGTCCGA
CGGCTTTCTGGTTCTTCCTCTTGGTAGGCAACAGGCCGGGCCTCCGGTCA
CGCCGTTTCCACTCTTTATTCTGTACCCTTCTTGTTGAATTTATGAAGAA
AACCTTGACCCTGCCTCTGGTCACGACAGCTCCTTGGGACCAAGTACGGC
TGCGCCTATTCACGGTAGCCTAGGTCTACAATGGCGTCGACGAATCAAAC
GACCAGCAGTTCTTCTTTTATGATAGGCGAGAGGGAAACAAATGGCAAGA
AACCTCTACGCAGGCCAACAGAAGGCCCAGCGCCTGAAGGACGCTTTGTT
GAGCAACGCCCCCCTGGAAAAGGAGCTCACAGCGGCTCGCGCTGCTCCAG
AAAAGGGAGGCAGCCTCTCTCGCTGGAGCAGCTCAACCGTAGGGGAAAGT
CGATCAGGCGGGTAGGCGATGTAGCCAGTCTCTCTCGCTGGGCCAGCTCA
ATCGCCCTTTACGATAGCGCAGTGCCGCAAGCAACAATTGAGTTCCCTTT
CCCCCCCCTGGATGCCGCTCGTTCCCTCGTGTGTAGATCCGTGGCTACAA
CTGCGAGTGGGTGGAGCAAGCGGTGGACAGCATGGTGTTCGGCAAGCTGG
TGGGGTGCCCGTGGTGGGCGGGGCTGTTGGCGTCTTGCTTCGCTCTGCTG
CCGAACAACGAGGCCACCAAGACTATCATGGCGAGCGACGACAAGCTCAA
GGTGCGTCGATTTGGCTCGGTTGGCAAGGCGTGCGGTATCACAACCACCA
ATATGGTTTGTGTAAGTCGTGTCAGGGGGGAGCAATACTGCTGTAGCCTG
CCGCCATCGTTGTTGGCACGATGTTTCGAGGGTCTGGTAATTCCGGGTTT
TCCCGGCCGATTTTTTGTCTCTCGGGTTTCCGTGGCCCTCAACCTGATAA
TATGGGTTTGTTTCCGGCGTGCTTTTGTCTCTTGGGTTTCCGCAGGGGCA
ACCTGGTATTATGGGTTTAGTTCCGGCCTACGTCTTTCTCTTGGGTTTGC
AAGGGAAAGGGTGTCGAATCCCCACGCCGAGCTTGCTCGCGCGAGCACAA
GTACACCAGGGTGCAACCATTCCACGCACACACAGGATGTCAGGAACGGC
TTTCTCTAAACAATTGATCTCGACATATTTCATGGGCAGGCATTTACCCT
CTACACGGGTTTAAAGTCTACTGTACTGTACCAGGTATTTGGTAAGTATT
GATAGAAAGAAAGAGGCGAGTCGTCGGTAGTGTTGACGTTGGAGCGGGTT
TGGTTGAAACCTGTATTACAAGAGGCCGATTCTTGACTTTTTTTGTTCAC
TGGTGCTCCTGGGCCTCCTTTGTCCGCAACTGACGACGTCCTTCCCCTAC
CTCACCCCCACCACACCCCTCTTTGGCGCTGTTTATCGGGGACAGACATT
GGGGATCACCGTGCTCAACCTGGCCATAGGCAGGACGCCGGGGGCGGAGG
AGGATGAAGATGATGATGAAGACGACGAGAAAGCGAAGAAAAACGCCGAG
AACGGAGATGGAGACGGAGCGTCCCCTCCCCCCAGCAGAGTGGCCAAGAT
AGCCAAAATCGCCGCCGTTGTGACTGGGGTATCCGATTTTTGAGCGTGAA
CCCGTCGAGTTTGAGGCGCAAGTCGTTGAGCTGGCATATCCGGCAGGTGC
CAGATTTATGGTGACGTGGCGCTGGCTTGGTTAGGTAATGCGTTTCGTGA
TTTGTTTCAAAACATTCCTTAGCTCTCCGACCCTCCTATCCGCTTTATGT
CCTGGCGTTGGTTTTGTGCGGCATCTCCACTCTCCTTGCCGCTGGCGGTG
CTGCTACTTTTCTGATGTCCCTTTTCTGCGGGCCATGCTCTTTGTCGTGT
GTGTTTCACATCTGTTCTGTGGTTCGAAGTACCGTCTCTCTTCGTCGTAA
TGGTAGGCATTTGCACACATCCGCAACTGCTCCACTACAAAGTGGTTGCA
GCAGTGTGGTCCCCGCCTGTGATGAGTTCCGAATTATTTGCCGAGAAACG
TGACAGTGACTCACGAAAAAGACGTATATAAATGCTGTACAATACGCTGA
ACAGCGCAGTTACTCTCGTTTACAGAGCATGCACATATAACGGGGTACAT
TATGGTCAGGCTACTCCTGCATGTCAAGACAAACGCCTCACACCTGGACA
ATTTTCGAGACTGAGAGAGGAGAAGAGTGATTTTCCTCCTGGTGCCGAGA
AAGTGTGGCAGGAAAGTTACCGTGAGACGCTCTCTGGATGTATGTTATGA
AATTGCCCAAACGAG back to topCoding sequence (CDS) from alignment at P-littoralis_Contig854:13484..26998- >mRNA_P-littoralis_Contig854.2.8 ID=mRNA_P-littoralis_Contig854.2.8|Name=mRNA_P-littoralis_Contig854.2.8|organism=Pylaiella littoralis U1_48|type=CDS|length=2106bp|location=Sequence derived from alignment at P-littoralis_Contig854:13484..26998- (Pylaiella littoralis U1_48)
ATGCGGAAAGCGAAAACGGCAGGTGGTGCTCATGTGTTTCCGGTCCTAAA
TTCACCTTCAACGGTCCTCATAGCATCCGCGCTGCTCCTTGGCGCCGGCT
CTGCTATACCTCCGGCCCGCGCAGCAGCAGCAGCTGGTGGTGGTGGTGGT
GGCGGAAGTCCTTCCTCCTCCGCCGGGGCACTGGCAGCCCTGCGAAATTC
GGGTTGGCACCGTTTACGCCGCGATGGCCAACAGCAGCAGCAACAGCGGC
AGCGCTTGCTGTCGTCGTTTACGACAGCGGCGACTCTAATCGACAGCGGC
AGCAACAGCGATTGCAGCAGCAGTGGCTGCAGGAGGAGCCGTGCCTGGCT
TGCTGCTCGAAACACCCGCGGCGGCGGTCTCTTCCGGAGACATAGGCGTG
GCGATGGCGAAAGTGAAGGCGGTGGCTATTGTTTCTCTACTGAGAAGGGG
GAGTTGAAGCAGGAAGGGAGTGGGAGTAAAGATGCCGCCATGACGAGTGA
GGGATTCGCGGTTGCGGCGGGAACGACCAGGGGCGGCAGCAGCGGCGGCG
CTGTGGACGAGCAGCAGGAGCAAGGAACGACAAGCGAAGGAGGAGGAGGA
GGAGAAGCAAGCGAGAGCGATGAGCAGGATAAGGCAAATCCAGGAGTGTC
GACGGCGGGTGACGGAGACGGGGATGGGGACGACCAAGACTTCTCGGAAG
AAGTCTCAGAAGAAGGAGGGTCGGCGGAGGGGGTGAGGGAAGAGGAAGAG
GAGGAGGAAGAGCAGGAGCAGGAGCAAGGTGAAGATGGGAACGCGGAAGG
GGGTGCGGCATCGGCTGCGGGTGCTGCAACAGCGCAAGAGAGGCAGGGCC
CCGTGGCTCCGCTGTTCTCGTTCCCGCCAGGCCCGCGGGTGCACCGAACA
GAGGCCGAAGAGAGCCTTCAAGAGGTGCTCCCGATGCAGCAGCGGCTGGT
GAAGTACCTCACAGAGGACAGGGTGTTCGGCGCGCAGATTCTGTGTTCGG
TCTACTTCTTCGTGAGCGCGGTGGCATACTCGATGGACAGCGTCAAGTAC
CGGAGGTGCTACTCTGCTGCGCTGGCCGCGTTGACTATGAAGCAGTGGGG
CACAGTGCTTGGCAGGGTGCGGAGGGTGCTCGTGCCCCACCTTCTCTACG
AGCCGCAGTGCAGGTACATCAAGTATCGCGCGAGGGTGTCGGCCCTTGCT
CTCGACCCAGCTGTGCAAGGAATCGTGTACTGCGCCATATTCATGCTCAT
GCCCCTTGGACACGCCCTCATCCCGTTGCTGCTCAAGGAGTCCGTCTACC
TCCTCTGGGTCATCAAGGAGGTCCTGCAGATCGCGGCCCCTGGGCTGGTG
GAGACGTTGACCTCTCTGTTCGAGCCATTGATGAGCGTGTTCATGACGGC
TGGGGACAGGGAGAAGTGGAGGGGCACCCCGGCCGGCGAAAAGCGGCTCT
TGTTGGGCAGGCGCCTGGCTCAGTTGTGCTTCAAGCTGGAGCTGGTGATG
CCGTTCAGCGTGGCCATTCGTGTGCTCCCGGGCTCCATTCAAGCCGCCCT
CGAAAAGAAGAGTGCCGATGCGGGAAGGGAAACAGGTGAACTAGGAGGGG
GCGCCCTGGCGGCTGCGGGAGCAGCGTTCGCCGGAACCGGCGATTTGATC
AGGGTCGGCGCGCTGATGGTGCTGTACGTGAAGCTTTTGGTGGTGAAGAA
CGCCCAGCTGGAGGATGACGTGCGGATACTCAAGGGCCTCAAGATCCGTG
GCTACAACTGCGAGTGGGTGGAGCAAGCGGTGGACAGCATGGTGTTCGGC
AAGCTGGTGGGGTGCCCGTGGTGGGCGGGGCTGTTGGCGTCTTGCTTCGC
TCTGCTGCCGAACAACGAGGCCACCAAGACTATCATGGCGAGCGACGACA
AGCTCAAGACATTGGGGATCACCGTGCTCAACCTGGCCATAGGCAGGACG
CCGGGGGCGGAGGAGGATGAAGATGATGATGAAGACGACGAGAAAGCGAA
GAAAAACGCCGAGAACGGAGATGGAGACGGAGCGTCCCCTCCCCCCAGCA
GAGTGGCCAAGATAGCCAAAATCGCCGCCGTTGTGACTGGGGTATCCGAT
TTTTGA back to top
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