Homology
BLAST of mRNA_F-serratus_M_contig100.102.1 vs. uniprot
Match:
A0A096PBI5_OSTTA (Galactosyl transferase n=1 Tax=Ostreococcus tauri TaxID=70448 RepID=A0A096PBI5_OSTTA)
HSP 1 Score: 153 bits (387), Expect = 1.890e-39
Identity = 96/256 (37.50%), Postives = 131/256 (51.17%), Query Frame = 1
Query: 49 KLKFGILMMCDEEMWPKKYTDMSIENKNAYAELHGYDVIVATKADV-DRSRPAAWSKLLVLQKYLDNYDYLIFVDIDAFIMNPAFKLEWLLDVARMQQQTGGTDGWGDPKREPHLIVTRDWNGPNSGVILMKNSDFSRWLLKEWWDQDQFVKGK----FPFQYEQRAMHYLMQPDTWRKAGL-PYYADHEVIRVHTAVIDQCAMNSYLVHPWQGLQGRTKDLGPAASYVPGDFILHFAGKKGRVRLELVDYYYPEA 798
+LK GI+ +CD + S+ NK AYA+ HGYD IV ADV DRSRP +WSKLL ++K+L YD+L++VD+DA +MNP LE ++D Q ++ D NG N GV L++N+ ++ W L E W Q+ V K F+YEQRA H+L WR+ P Y + +R T ++ CA NS PW Y GDFI+H AG KG V+ + YY A
Sbjct: 42 RLKGGIVSLCDGGV--DAICAPSMANKQAYADAHGYDFIV--DADVIDRSRPTSWSKLLAMRKHLPRYDFLLYVDVDAVVMNPETGLEDIVDFDYDQ------------------VLAADSNGVNCGVWLVRNTPWTLWFLDELWAQEHLVAPKNTWNMLFKYEQRAFHHLYASTRWREVTKGPIYPNANTVRARTKIVHACAFNS---QPW--------------FYETGDFIIHLAGLKGTVKCVVFARYYARA 258
BLAST of mRNA_F-serratus_M_contig100.102.1 vs. uniprot
Match:
K8EBT0_9CHLO (Subunit of Golgi mannosyltransferase complex (ISS) n=1 Tax=Bathycoccus prasinos TaxID=41875 RepID=K8EBT0_9CHLO)
HSP 1 Score: 157 bits (398), Expect = 2.180e-39
Identity = 96/260 (36.92%), Postives = 135/260 (51.92%), Query Frame = 1
Query: 55 KFGILMMCDEEMWPKKYTDMSIENKNAYAELHGYDVIVATKADVDRSRPAAWSKLLVLQKYLDNYDYLIFVDIDAFIMNPAFKLEWLLDVARMQQQTGGTDGWGDPKREPHLIVTRDWNGPNSGVILMKNSDFSRWLLKEWWDQDQFVKGKFPFQ----YEQRAMHYLMQPDTWR-KAGLPYYADHEVIRVHTAVIDQCAMNSYLVHPWQGLQGRTKDLGPAASYVPGDFILHFAGKKGRVRLELVDYYYPEAVQAVEKY 819
K GI+++CD + S+ NK AYA+ HGYD+I K VD SRPA+WSKLL ++KYL YD+L+++D+D I+N +LE ++D E I+ D NG N GV +++N+++S W L E W Q Q V G P+Q +EQRA HYL Q + WR K G + +R T V++ C NS L A Y GDF++H AG KG + YY A+ ++EKY
Sbjct: 219 KVGIIVICDGNV--HSICASSVANKQAYADRHGYDMIYDEKI-VDSSRPASWSKLLAMRKYLPKYDFLLYLDVDTVIVNFDVQLEDIVDY------------------EYDQILAADRNGLNCGVWMIRNTEWSLWFLDEMWSQSQLV-GAAPWQMLFHFEQRAFHYLYQTNIWRQKVGGEQFEKANTVRARTKVVNACVFNSQL-----------------AFYEDGDFLIHLAGLKGVYKCLTFRRYYKNALNSLEKY 439
BLAST of mRNA_F-serratus_M_contig100.102.1 vs. uniprot
Match:
C1MYN6_MICPC (Uncharacterized protein n=2 Tax=Micromonas pusilla TaxID=38833 RepID=C1MYN6_MICPC)
HSP 1 Score: 154 bits (388), Expect = 1.870e-38
Identity = 99/262 (37.79%), Postives = 132/262 (50.38%), Query Frame = 1
Query: 46 GKLKFGILMMCDEEMWPKKYTDMSIENKNAYAELHGYDVIVATKADVDRSRPAAWSKLLVLQKYLDNYDYLIFVDIDAFIMNPAFKLEWLLDVARMQQQTGGTDGWGDPKREPHLIVTRDWNGPNSGVILMKNSDFSRWLLKEWWDQDQFVKGK--FPFQYEQRAMHYLMQPDTWRKAGL-PYYADHEVIRVHTAVIDQCAMNSYLVHPWQGLQGRTKDLGPAASYVPGDFILHFAGKKGRVRLELVDYYYPEAV-QAVEKY 819
GK K GI+ +CD + S+ NK AYA+ HGYDVIV +D SRP +WSKLLV++KYL YD+L +VD+D I N KLE ++D Q I+ D NG N GV L++N+ +S W L E W Q+Q V + F++EQRAMH+L Q WR + Y IR T V++ C NS A YV GDF++H AG KG + + +YY A + V KY
Sbjct: 157 GKPKVGIVSLCDHNV--DAICSASVANKQAYADHHGYDVIVDGDL-IDESRPTSWSKLLVMRKYLPYYDFLFYVDVDTVITNVDVKLEDVVDYGYDQ------------------ILAADKNGLNCGVWLIRNTPWSLWFLDEMWAQEQLVSPRTFVLFKFEQRAMHFLYQSRIWRTSVKGDAYKGANTIRARTKVVNSCVFNSL-----------------PAWYVKGDFLVHLAGLKGVAKCMMFRHYYATAQSEIVGKY 380
BLAST of mRNA_F-serratus_M_contig100.102.1 vs. uniprot
Match:
A0A2R5GV14_9STRA (Xyloglucan 6-xylosyltransferase 1 n=1 Tax=Hondaea fermentalgiana TaxID=2315210 RepID=A0A2R5GV14_9STRA)
HSP 1 Score: 150 bits (380), Expect = 2.440e-37
Identity = 90/221 (40.72%), Postives = 119/221 (53.85%), Query Frame = 1
Query: 115 SIENKNAYAELHGYDVIVATKADVDRSRPAAWSKLLVLQKYLDNYDYLIFVDIDAFIMNPAFKLEWLLDVARMQQQTGGTDGWGDPKREPHLIVTRDWNGPNSGVILMKNSDFSRWLLKEWWDQDQFVKGKFPFQYEQRAMHYLMQPDTWRKAGLPY----YADHEVIRVHTAVIDQCAMNSYLVHP-WQGLQGRTKDLGPA----ASYVPGDFILHFAGK 750
SI+NK YA H Y+VIVA ++D+SRPAAWSK +L+KYL YDYL++VD DA MN ++E ++D E L RD NSGV L++N+D++ W LKE W Q + G PF+YEQRA+HYL D +K + Y + +R TAV+ CA NS + W GL + P Y GDFI+HFAGK
Sbjct: 175 SIKNKQDYANRHSYEVIVADD-EIDKSRPAAWSKFPILEKYLPEYDYLMWVDADAIFMNMTIRVEDIVDA------------------EHDLFFARDEGDINSGVFLVRNTDWAMWWLKEAWSQTWLITGSHPFKYEQRAIHYLYGTDGLQKDARRHNHELYPRVDEVRGKTAVVPYCAFNSNICEEFWTGLALFRRIRWPGWFCDNIYANGDFIIHFAGK 376
BLAST of mRNA_F-serratus_M_contig100.102.1 vs. uniprot
Match:
A0A7S4EDF9_9STRA (Hypothetical protein (Fragment) n=2 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S4EDF9_9STRA)
HSP 1 Score: 140 bits (352), Expect = 1.650e-33
Identity = 87/266 (32.71%), Postives = 136/266 (51.13%), Query Frame = 1
Query: 55 KFGILMMCDEE-----MWPKKYTDMSIENKNAYAELHGYDVIVATKADVDRSRPAAWSKLLVLQKYLDNYDYLIFVDIDAFIMNPAFKLEWLLDVARMQQQTGGTDGWGDPKREPHLIVTRDWNGPNSGVILMKNSDFSRWLLKEWWD----------QDQFVKGKFPFQYEQRAMHYLMQPDTWRK------AGLPYYADHEVIRV--HTAVIDQCAMNSYLVHPWQGLQGRTKDLGPAASYVPGDFILHFAGKKGRVRLELVDY 783
+ GI+++ D + ++Y+ S++NK AYA+ HGY++IV A + PA WSK+ L +L +D+L+++D DA + NPA LE LD A +++ DW G N+G ++NS FS LL++ D ++ + PF++EQRA+HYL +WRK +P R H V+ QCA+N+YLV P + G + + A+Y PGDF++H AG KG + L+DY
Sbjct: 124 RIGIVVLADTASEARYVQTQRYSQKSLDNKRAYADHHGYELIVHEPA---AALPAPWSKVDALLLHLRRFDWLLYLDGDALVANPAICLESFLDDAY------------------DVVMAEDWGGYNTGAFFVRNSTFSHELLRKMADAATGKLDLARREPWYAKTLPFEFEQRALHYLTDTASWRKWAARSPTKVPRVDPAAAARTRSHIKVVPQCALNAYLVRP-RLASGPSAKVAARAAYQPGDFVVHLAGHKGENKGALLDY 367
BLAST of mRNA_F-serratus_M_contig100.102.1 vs. uniprot
Match:
A0A1Y5I3K8_OSTTA (Subunit of Golgi mannosyltransferase complex n=1 Tax=Ostreococcus tauri TaxID=70448 RepID=A0A1Y5I3K8_OSTTA)
HSP 1 Score: 135 bits (339), Expect = 7.210e-32
Identity = 88/253 (34.78%), Postives = 129/253 (50.99%), Query Frame = 1
Query: 49 KLKFGILMM-CDEEMWPKKYTDMSIENKNAYAELHGYDVIVATKADVDRSRPA-AWSKLLVLQKYLDNYDYLIFVDIDAFIMNPAFKLEWLLDVARMQQQTGGTDGWGDPKREPHLIVTRDWNGPNSGVILMKNSDFSRWLLKEWWDQDQFVKGKFPFQYEQRAMHYLMQPDTWRKAGL-PYYADHEVIRVHTAVIDQCAMNSYLVHPWQGLQGRTKDLGPAASYVPGDFILHFAGKKGRVRLELVDYYYPEA 798
+LK GI+ + CD + S+ NK AYA+ HGYD IV A +DRS P +WSKLL ++K+L YD+L++VD+DA +MNP LE ++DV Q ++ D NG + GV L++N+ ++ W L E W +++ F+ E+RA+H+L WR+ P Y + +R T ++ CA NS PW Y GDFI+H AG KG V+ + YY A
Sbjct: 126 RLKGGIVSLACDGGV--DAICAPSMANKQAYADAHGYDFIVDDDA-IDRSAPTRSWSKLLAMRKHLPRYDFLLYVDVDAVVMNPETGLEDIVDVDYDQ------------------VLAADSNGVHCGVWLVRNTPWTLWFLDELWARERV------FEDERRALHHLYASTRWREVTKGPIYPNANTVRARTKIVHACAFNS---QPW--------------FYETGDFIMHLAGLKGTVKCTVFARYYARA 334
BLAST of mRNA_F-serratus_M_contig100.102.1 vs. uniprot
Match:
A0A7S1TVM1_9STRA (Hypothetical protein (Fragment) n=1 Tax=Phaeomonas parva TaxID=124430 RepID=A0A7S1TVM1_9STRA)
HSP 1 Score: 130 bits (328), Expect = 1.170e-31
Identity = 72/202 (35.64%), Postives = 109/202 (53.96%), Query Frame = 1
Query: 265 VDIDAFIMNPAFKLEWLLDVARMQQQTGGTDGWGDPKREPHLIVTRDWNGPNSGVILMKNSDFSRWLLKEWWDQDQFV----------KGKFPFQYEQRAMHYLMQPDTWRKAGLPYY-ADHEVIRVHTAVIDQCAMNSYLVHPW--QGLQGRT--KDLGPAASYVPGDFILHFAGKKGRVRLELVDYYYPEAVQAVEKYRE 825
+D DA +MNP+ +LE L+ R +LI+T DW+GPNSG++L++N ++ W L E + Q+ FV K ++PF+YEQRA+HYL+ WR G P Y D V+R + QCAMNSY +HP+ + +G +D A Y+ GDF++HFAG KG + L + A ++ ++ E
Sbjct: 17 IDADALVMNPSIRLERLIPADAAA-------------RGVNLILTDDWSGPNSGIMLLRNDAWTYWFLDELYAQELFVNRRPPPGLSAKPQWPFEYEQRALHYLLDTAMWRARGNPAYEGDVAVVRSRVYTLPQCAMNSYFLHPFMRRNFKGELPLRDFFETAQYIDGDFVIHFAGYKGARKQNLFSTFADMAEESAQRLSE 205
BLAST of mRNA_F-serratus_M_contig100.102.1 vs. uniprot
Match:
A0A7S3YDS0_HETAK (Hypothetical protein (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3YDS0_HETAK)
HSP 1 Score: 125 bits (314), Expect = 5.600e-30
Identity = 77/205 (37.56%), Postives = 103/205 (50.24%), Query Frame = 1
Query: 196 RPAAWSKLLVLQKYLDNYDYLIFVDIDAFIMNPAFKLEWLLDVARMQQQ-----------TGGTDGWGDPKREP---HLIVTRDWNGPNSGVILMKNSDFSRWLLKEWWDQDQFVKG----KFPFQYEQRAMHYLMQPDTW---RKAGLPYYADHEVIRVHTAVIDQCAMNSYLVHPWQGLQGRTKDLGPAASYVPGDFILHFAG 747
RPAAWSKL + L +YDY+ +VD+D I N + LEW + A + + GT G D P +I+T DW+GPN+GV M+NS +S L W+D QF + ++PF YEQR +HYL+ W R AG P H R H + QCAMNSY VHP Q ++ Y D ++H AG
Sbjct: 1 RPAAWSKLKGIAALLPSYDYVWYVDLDTVITNSSIALEWYIHEANAMFRRDKTLLTAGAGSTGTAGSVDSSTTPVVPDVIMTNDWHGPNTGVFFMRNSAWSLRFLDTWFDLKQFDRSLYPRQYPFNYEQRGLHYLLSTQEWASHRLAGHPAARAH---RAHFQFVPQCAMNSYSVHPLQRGGSLRRN-----GYYRTDLLVHLAG 197
BLAST of mRNA_F-serratus_M_contig100.102.1 vs. uniprot
Match:
A0A1Y5I0J3_OSTTA (Subunit of Golgi mannosyltransferase complex n=1 Tax=Ostreococcus tauri TaxID=70448 RepID=A0A1Y5I0J3_OSTTA)
HSP 1 Score: 126 bits (317), Expect = 6.850e-29
Identity = 78/229 (34.06%), Postives = 115/229 (50.22%), Query Frame = 1
Query: 130 NAYAELHGYDVIVATKADVDRSRPA-AWSKLLVLQKYLDNYDYLIFVDIDAFIMNPAFKLEWLLDVARMQQQTGGTDGWGDPKREPHLIVTRDWNGPNSGVILMKNSDFSRWLLKEWWDQDQFVKGK----FPFQYEQRAMHYLMQPDTWRKAGL-PYYADHEVIRVHTAVIDQCAMNSYLVHPWQGLQGRTKDLGPAASYVPGDFILHFAGKKGRVRLELVDYYYPEA 798
+AYA+ HGYD IV A +DRS P +W+KLL ++K+L YD+L++VD+DA +MNP +LE ++D Q ++ D NG + GV L++N+ ++ W L E W Q+ V K F+YEQRA H+L WR+ P Y + +R T ++ CA +S PW Y GDFI+ A +G V+ + YY A
Sbjct: 131 DAYADAHGYDFIVDADA-IDRSAPTRSWNKLLAMRKHLPRYDFLLYVDVDAVVMNPETRLEDIVDFDYDQ------------------VLAADSNGVHCGVWLVRNTPWTLWFLDELWAQEHLVAPKNTWNMLFKYEQRAFHHLYASTRWREVTKGPIYPNANTVRARTKIVHACAFDS---QPW--------------FYETGDFIIRLAELQGTVKCVVFSRYYARA 323
BLAST of mRNA_F-serratus_M_contig100.102.1 vs. uniprot
Match:
A0A7S3GYY2_9STRA (Hypothetical protein (Fragment) n=1 Tax=Spumella elongata TaxID=89044 RepID=A0A7S3GYY2_9STRA)
HSP 1 Score: 112 bits (279), Expect = 9.420e-26
Identity = 63/157 (40.13%), Postives = 87/157 (55.41%), Query Frame = 1
Query: 196 RPAAWSKLLVLQKYLDN--YDYLIFVDIDAFIMNPAFKLEWLLDVARMQQQTGGTDGWGDPKREPHLIVTRDWNGPNSGVILMKNSDFSRWLLKEWWDQDQFVKG------KFPFQYEQRAMHYLMQPDTWRKAGLPYY-ADHEVIRVHTAVIDQCA 639
RP AW+KLL ++K LD YDY+ +VD+D IMNP + LL+ Q G D I+T DW+G N+G++ +N+DFS+ L+ WDQ+Q V+ PF+YEQRA HYLM W+ GLP Y D+ R H + QC+
Sbjct: 1 RPPAWNKLLAMKKQLDTGLYDYVFYVDMDMVIMNPEISPQSLLN-----QAPPGQD----------FILTNDWSGLNTGIMFARNTDFSKTFLQLAWDQEQLVQKYSANGVPHPFEYEQRAFHYLMNTPLWQGRGLPQYQGDYLENRKHFTTLPQCS 142
The following BLAST results are available for this feature:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_F-serratus_M_contig100.102.1
>prot_F-serratus_M_contig100.102.1 ID=prot_F-serratus_M_contig100.102.1|Name=mRNA_F-serratus_M_contig100.102.1|organism=Fucus serratus male|type=polypeptide|length=299bp
MMCDEEMWPKKYTDMSIENKNAYAELHGYDVIVATKADVDRSRPAAWSKL
LVLQKYLDNYDYLIFVDIDAFIMNPAFKLEWLLDVARMQQQTGGTDGWGD
PKREPHLIVTRDWNGPNSGVILMKNSDFSRWLLKEWWDQDQFVKGKFPFQ
YEQRAMHYLMQPDTWRKAGLPYYADHEVIRVHTAVIDQCAMNSYLVHPWQ
GLQGRTKDLGPAASYVPGDFILHFAGKKGRVRLELVDYYYPEAVQAVEKY
RETWRLNEPRASGSGSTLPRAQVDGDPAEHRQADGHVRGVHERHFRGR*
back to topmRNA from alignment at F-serratus_M_contig100:14105..26432-
Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_F-serratus_M_contig100.102.1 ID=mRNA_F-serratus_M_contig100.102.1|Name=mRNA_F-serratus_M_contig100.102.1|organism=Fucus serratus male|type=mRNA|length=12328bp|location=Sequence derived from alignment at F-serratus_M_contig100:14105..26432- (Fucus serratus male)
GGTGTGGGAGGGAGTTCGAATGGTGTGGATGGGGAGGGGGGAGAGGGGAA
GTTGAAGTTTGGCATCTTGATGATGTGTGACGAGGAGATGTGGCCGAAAA
AGTGAGTAGTGCTGTGTTATGAAGAGTGTGATTTGTTTATGTTGCTATGA
ATTTTTGTTTCGTTTTTTCCCTATACCAGGTACAAGTATAGACTATGCTT
TTAATTATTTTGCCGTGTTTTTTCTCGGGGAGCGCGTAGGAGAGAAGCAT
TATTCGAGAACTTACATCGCGGGGTCGGAAAAGGGGGGACAGTATCCTCA
GACTTGCAAAGAGGTTTGAGATTGTCTGCAGTACAGTATTGAAAACGTTC
TCGGAAAGCGCGAGAAGCGTCCAAATCCTTCCGAATGCTCCAGCAGTACG
CTAAAAAGTTAAAGTATAGCTGTAGACAGCCACGGATGGGACAACCTTGG
GAGGCGTTCTTGTGTGAAATATTTCCATCTGGAAAGTGTGTTTGAAAAAT
CTGCGACAGCAAGCACATGGCAACACCCTATCCTACCTCACCTACCTTCG
TAACGAATTCAGGGGACGTTTGGTCCTAGGCGCACCGAGCAGTAGCAGGC
ATAGCGCTCATCGCTGTTCTACGAGACGCCACCGACCCTGTCCTGTTTTT
CGCGGTCCCACAGGGTGCACGCAACCCCTCTCTTGACATCACTTGACTTT
AGTAACGCCTCCGTCAGGGTTTCCTTTTCCTTGCGGGAGTACGGTCGTCG
ACGATCTTGTACGGAGCTAAAAAATGAAATCTCCATTTTTCAGCGGTTAT
TTTCCCCGAGAGGCCATTTTATTTGTGAGTGGGGCCTCTTTTGTCCATTT
TTCGCCGATCGGTCGAGGTCCCCTCCGTTGGAGTTTCCTTTTCCTTGCTG
GAGTTCGGTTACCGACGATCTTGTATGGGGCTGAAAAATGAGGGCTGCTG
AAAAATTAAACCTCTATTTTTCAGCGGTCATTTATACGAGAGGCCATTTT
TTGTATGGGGACTTTTTTGTCCATTTTTCATCGAACGGTCGAGGTCGCCT
CCGTTGGGGTTTCCTTTTCCTTGCAGGTGTTCGGTTATCGACGATCTTGT
ATGAGACTGAAAAATGAGGATCGCTGAAAAATGAAACCTCCATTTTTCAG
CGTCATTTATTTACACGAGAGACCATTTGTATGGGGACTTTTTTAAATAG
GGCTAAAAAATGAAATCTCCATTTTTCAGCTGTCATTTTTCACGAGTGGC
CAACTGTTTGGGCTGAAAAATGGTAATTATGGTCATTTTTCACCCCCGGA
TCGAAGTCGCTCGCCCGCTGAGAAATGCCCCCCCCCCCCCACACACATAC
ATTTTTCAACAAAGTTTCGACCTAGATTGGGTCGGCACTGAAGAATAATA
TTGTGTAACTGGTGAGGTATTCACAGAGGTAATTATATAGGTTTCAGAGT
CATATCTCGGATCCAGGTTGGGCACGCAATATTGTTGCTTGTAGGTAACA
TGGTCACCCTGCCATGGCTGGCGAGCGTGAGATTACTTTGAAACCTATAT
AATTAATGACCTCTGATAATGATGAATGATGAGGAGCTAGGCGCAAAAAA
AATCGGGGTGAGATCAATTTGAAACTGCTGCTTCTTTCAAGGTTTACTCC
AGCAACAGGCAAATACAATAACAACTCCCGAGCGAGGAGAAGGATGAAGA
GATCAGCCCAAGCTGTGTGTATCTAATCATCACGAGGGCAACCGCGGAGC
CGAGGTAGCCACCGTCTCGCGCGCCACAGGCTTGGCTGTGATCGTCCCAA
TCTGGGCAAAGCGTGCGGTGTCGAATGCTCCCGTGTGCTTGAAGCGGCTG
GTGGCGAAAACCAGGCATTCGGGGAGTCGACTTTTTTTCTTTTTCTTCTA
TCCCGTACTTGTATTGACGACTTTTAGAAACACTTGGAAATAGAGGGGGT
TCAACTCCTCGGGTTACGGGGGGGTCAGAGTTCCTTCCATCACGCAAGCA
ACAGCGGTTTGGTTACACACACCCTCCATCACACCTTGCTGTTCGATAGA
CGCGAAAGATCAAAAAGATGAGACATGGCCCACGGCTCAACCACAAACAC
AATCATGCGCCGCTCATGAACAGCATAGCACATTATATATATACAATGTA
TATATATAATAATACATAAAATAATGTACCAGGTATATAATAGTGTGTCT
CCTTCATGGTGCGAACGACTCAGTCGGCGCGTCATAGATGCTCTTATGAT
CTGTGCAGTGTGTGGGGTTTTTTTACGCGTGAAAAAAGAGATAATGAGGC
GTTTAGATAATGAGGCGTTTCCCTTGAGAACGGTGGTGTGGTAGGCGTGA
CTCGGAACCGTGACTCGGAAAAACCTTTCCAGCAGCACTTGCAAAAACGT
GCGCCAGTCGCGATCCCTCGAATGATTTCTTCTTTCATTGGGAGCATTTT
CATTGGATGGCTTGGATGGCTTGGATGGAGTTAGTGGTGCTGCAGAGAGG
GTTACAAGCTGAAACCTCGCGTCGCCATGCGAGCGCGGTTTCAATGTCTG
TTTGATCTCTTGTTTCCCTGTAAAATACTATATTATACTGTAATATACTG
TGACTTAGAAGAGAGCCGTTGCTGCTTCGGACATTATTTGTATTCACAGT
CGATCGTGTCCCTATCGAACGGTTGATGCTCCCTTACACGATGGTCACGA
TACTGTGCTTGTTGTACAGGTACACGGACATGTCCATCGAAAACAAAAAC
GCCTACGCTGAACTCCACGGCTATGACGTCATCGTGGCGACGAAGGCCGA
CGTGGACCGGAGCCGGCCGGCGGCGTGGAGCAAGCTGCTGGTGCTCCAGA
AGTACCTCGACAACTACGACTACCTCATGTGCGTGCTGCCCGAATCGTGC
GGTGTACAAGGTTAGAGGAGGTGTTGGTGCGTTAGCGTCGTGAGAGATGG
AGGTGCTTGCTTCGATGCTCCCCCCTATGATACTTCGAGGTTGGTCCATT
CCTCGACTTGTCGGACGGATGTTGTGATGCACTTTTCGGAACCACGTGGG
TCCTTTTTTTTCGCAACGCGCTCGTACCCCAAACGCCGGTCTGGTGTGTT
TTGGACGGCATTGCTTGCTTAACCTATTAATAGAAACAGAAGCGTGGATC
TGTGTTCCGACCACAGAGGCATTTATAGACCGAGTGATGTTAGACCGGCT
CGTGATCGTTAGTTAGATGGATCGCGGTGTGGATGGGATGATCGATCCTT
ATCGATCGGTCGAACGGCGGCTGGGATCTACCTCTCCCACATCATATTCT
CGCAAACGGTTTGAGGTTCGGTCAAAAGTCGACGAAATATATATTTATAT
ATATATATATATATTATATTATATGTATGCCAACCCCTTTGAAACTGGTG
GCCTTGTCCAGAGGTTGATATGACCAAAACGAAAATATGGTATAACTTGG
TGCACGCCTTCCCAAGACTTGACCGTAATCTAAATACCACTATTAGAGTT
GATTATATTGTACCGTAACTAGTTCTAAACCGGTAGCGTTTTGCCACCTT
TGATGATGCACTTTGAAGAGAAGTTATTCAGCATGAACTCATGAACTCTA
AAAATAAATAGATTCAAACCCTTATTTTTATCGCGTGTTGTCTTCAGTCT
GCCTGCCGCGAAAAAGAGCCGGGACTGTTTATGCAGCACAAAATTTCCGT
TTACAGTCTCAGAACACGCGCACACACGGCATACATCGTCATCGTCGGTG
GTAACATACTTCAGCTAATCCAACCACACGGTTAGGCACGCGCTCTACGT
TTTAAAAACCGAAGTTGTGTGATGACGACTAGCAGGGCGACGGTGCCAGC
GGCGGGCCCTTCTCTCGACTTTGAAGACTAGTCTAGTTCCGCGGTTTTTC
AGAAGGAAATCGCAGTTTTTCCCGTGCTGCTGTGTGCGTTGAGAGGCAGA
AGCCGAGAATTACAGCACCATTCTCAACAACTATCTATAGGAAGCAGTGT
ACAATCTGAAAAGGCCTTGTTGTACGAACATAGAATCTTCAACCTGTACC
AAATGCACTTTAGTTATGTTCTTGTAGGTACTGGCAGTGCGGAAGACTAA
TAAAGCAAAAAATACTTGTCTGAGTGAACGTGCGAATGTTCCGTAGTCTT
TCCACCAACAACACGGTCTAGGCGGTATGTAAGTTGTAAATGGGCACAGC
AGTTCGGGGCTAAATAATCCACTCCCGTTGCTGCCGTTGACCCCGTTTTG
AGGTTTTCTCTGTTACACATCCAGTTGCGGATTATCTGTATGTTTCATCA
CTTCATAGCAGAGCATTGTGTGGGGCGTTACAAGTTTGTGTGGGCGTTAT
TACGTCAGTACCCGGGGATATTTAGTGGGCTATAGGCTGGGCTGGCCAAG
AAACTGACTTCTGTTCGTCCATGTCTCGCTCTGCCGTTTCTACGAGTTAA
AGCTTGAAATTTGGAGGCTGCTCCTATACGGCAAAAAGGGAAGCGCAGGC
GCCGGAATTTTTCGAATCCGAGTTGATTTTGGTAAATAATGACCAATTGG
CGTAGTGGAGGATACTTCCTATACTAAAATCAGTATGAAAAAAAGTGTCA
CGGATCAAGCTGAAATTTGGTGTACACGTATCCAGGAGCACCGCAAGAGC
GTGGGTGGTAGTTACAAGGCTCGCCTCGTTTTCTATCAAGAGTTGCGGCC
TCGTAAAGATTCCGATACAAAACACAAGTGAACTGAGGAAATGTGGGGGT
ATCGCGATTTGCCACGCGGTTTTTACGATTTTTCACCTGAAATTTTGACA
CGTGATTTAGACCGCTCTTGCGGAGAGGACCACCACTGCACATTTTTATT
TATTGCTATTTTTTCCATCATTTCGTCGCGAAACAAATATTCCCACATCT
ACTTATATCCGGCTATCATACCATAACTTACGAAAAAAACTAAAACCAAA
ATGTGCAGTGGTGGTCCTCTCCACAAGAGCGGTCTTAATAACGTGTCAAA
ATTTCTGGTGAAAATTCGTAAAAACCGCGTGGCAAATCTCATTCCGCCAT
GTGTACAGCGTCTTGGCCAGCCCAGCCTGTATTGGTGCAGCACTTTGTGA
AACGCAGGCCGTTCAGACAATCGGCCAATCAGATACAGAATGCTAAAGTG
TAAGTCAAGTTACGACTTACGGGCCTTAGTTCCATAAGGGTTGAGCGAAA
TTGTATCGTCTGTCCGGTATGAAATTAGGCTTATCGTATGCATCGTAATA
AAACATTTTTATTTTTCCGCCTAAAGTACTGGAGACAAACACAAAAACCC
TGTCTGTATACGAGTATTTTTGCCGAAAACCTTGGACCCCAATGAAGTTG
CTCCCCGCTAGGGAACGCAGCATCCCTGACGTTACGGATCGGGAAACTAT
TATTTTCGGAAAACGTTTGGCCTCTCTTTCCCTCCAACGCGTCAGTTTTG
TGGACATCGACGCGTTCATCATGAACCCGGCGTTCAAGCTGGAGTGGCTG
CTGGACGTGGCCCGGATGCAACAGCAGACGGGGGGCACGGATGGATGGGG
TGAGCTGCTGTTCCTGGTTACATGTTAGATGTTAGATGTCACCGATAAGG
GGGGGGTACTGCAGCACTGCAACTGTTAATAATGATAGAATCGTCTTGGT
GGAAAGGTGGAAAGTGTTTGTTTTAGCTTCAAGGAGGGAGACAGGGAACC
ATAAAAGACACATGCACAAACCTATGCGAGTGACATAGAATGACTGGGAT
GACGGGGGCGGATTGCGCGGTTATGTGCAATTTAATAAATACACACACAC
ACACACACACACACACACACACATATCATTGATCCCCCCTTGGGAGGATC
AATGCGAGTGGCATATAATGACTAGCATGACAGGGCCGTATTGCGTGGTT
ATGTGCAATTTAATACACACACACACACAGATCAGAGGTTTTCGTAATAA
GTATCATTGATCCCCCCTCGAGAGGATCAATGCGAGTGGCATAGAATGAC
TAGGATGACAGGGCCGGATTGCGCGGTTATGTAATAAGTATCATTGATCC
CCCCTCGGGAGGATCAATGCGAGTGGCATAGAATGACTAGGATGACAGGG
CCGGATTGCGTGGTTATGTGCAATTTAATAAATACACACACACACACACA
CACACACATTTTCAAAACAAAACCATGATGAGTTACACATCGCGATAACA
TGGTGCACCCCATGAGTCTAGGGAAAATTTCGGAATGACCTTCTGCTCAT
TGGGAAAGAAACGGCTGATTCGGAGCTTGATTGCTGTCTCCAAAGGGAGA
CCTCTCCCCCCGAGGGCACCGTTGACGCGATTTCGTTTTTGATACTGTGA
TTTGATGAAGCGGATGCTATCGGCTGCTGCTGAGCTTGAAGACTATTCGT
GGTTTCTCGTGCGTTGTGACTTTGCCATGTGTGAAACCGTACGGACGATA
TATATATATATATATACCGTACAGTCGGGGAAATGGTTTTGTTCGTTCTT
TACTTGAATGTCGTTTTATTCCGTGCCGACCTTACCGTGTGATCTGATTG
GTTGGACTGCTGCGGTCATAGTCCGCTCGTTTGGCGTGACGTGGCAACTT
GTGTTGTCCTGTGCTCCAACATTTCCAGCTGTAACTCGTCGTGTACAGAG
CATCTACAAAATGTTGCATGGTACGGTTACGGCATGGAATGCGGTGTGGT
TGATCGTGTACGATGTGGTGGTATCCATATGGCATACACAGTATATAGCA
CGGTACGGAATATGGAGTATGGCATTATGCCGTTGGAACATGTGTGTGTT
GTCATCCCATTTATTCTGGAGGTCAGACTAGTGGACGCACCAGCCGGGGT
CACACAGGTGGAAGGTCACTCACAGGATTTCTCATCCACCTTCCTTCTGC
GGTGCTTGCCTTAACTTTTCTCGCGAGAAGGATTCAGCCATTCCTTTCCC
TCGTCGACCGTGAAAGTCGAATTTTGTCTACCCCATGAAATAATCGTTCT
CCACTTGTCGGGCATATGATGTGAGGAAAAGTCCCAGTTCGTGTGACTGC
GCCGAGATTCGAACTCACGTCCCGAACGTTATAAGGTTTCGAGGTTACCA
CGAACTGAACCACCGGGGCGCGACCGACTTATGACGTGGTACGATACCGT
CCGGCATGCGACGCTAACTGATTCATTGTTTTAAAAATAAAAAAAAATAA
AAAAATAGGTGACCCTAAGAGGGAGCCTCACCTGATCGTGACGAGGGACT
GGAATGGCCCTAACTCCGGGGTGATTCTGATGAAGAACTCGGATTTTTCG
CGCTGGCTTCTCAAGGAGTGGTGGGATCAGGACCAGTTCGTGAAGGGCAA
GTTCCCTTTCCAGTACGAGCAGGTGAGTCATGGGCATCGGCATCGGCATC
CCTCATAAAGCTGTTGTTGATAAAAGTGTTTTGTCAGTTTTGGGGCGAAA
TGCGTTGTGTTGGGTTGTATTGTGTTTGTCACCGGTTGGAGTCGAGTAGG
CGTCATCGTCGACCTGGTACCCAAAAAGAGGTACCTCGACGTATACCCTA
ATGGCTTTGGCCGGACATCCTCCCCCCCCCCAAAAAGAAAAAAAGGTACA
GGTTGAAAAAGTACCGTACCTCCGTGAAACCGTCAAAGGACCTTAACGAG
TACCTCGGCGCGGTTGCAGTTCAGCACCCTACTATAAATACTACCTATTG
GTGAGTTTAATTGTGTTCTCCCCCATCCCCTCTCGAGGAACTCCCAGAGG
ATAAGTTTATGTTTCGTGTTGCGACCACGGGCGGGGGGTGGGAAGCGTTG
CGATGGATGGGATAGGTAAAAACCAAGCTCGTTGATTGGGTCCCATGAGC
AGAAAGTTTAGGATGTTACATTTGAGGTTCATGCTTGCAGAATCGAAATT
TTCCTGCGTCCCAGAGGGTGTCACGGCGTCGCGTGATTTTTTTTTTTTTT
TTTTTTTTTTTTCTCCGAACGAGCAGCGCGCACGGGGGGGGGGGCGCTGC
CTGCCAGACTTTTTTTCTTTTTCTTTTTTCCCTGTTCAGCAGACCACGAG
CGGGATTGGCCACCGTGTAAAGTAGTTTTCTTCGGGTTGGCAACCAATGC
GCTGAATGTGAGAAACAACAACAACAACAACAACTCTAATTTATGTCTTC
TAGTTTATGTCTTCTAGACTATGTATGGTGACACATATAGCAAGAGTATG
GATCAACCGGGTAAGGTTGCCAATCCTGCACTTGGTCAGCTGAACAGGGG
CAAAAAGGAATATTTCTCTGTACGCGTTCGCGCCTGAGAATTTGGTCTCG
CGAGACGGGTTCGGCAGTCCCGTCGCCCGTCAGCGAGATTCCTCCCGAGT
TCCGCGGCGGCGTCCATTTATTTGTTTTATACCGCCATACGCCATCGGGT
CAGTCCCGAGTTTATCGGGTCACGCAATTGCGTACCGATGGCGTTCACTG
CCGAGAGCCCGCCGTCACAGGGCCAGTAAACCTCAAGGTAGTTCCGAACG
TGTACCGCCTTGGAAGGTCACGATGAACCAGTTGATATGCGCGTCTCTTT
CCTACACCCACTATTGGTATGAAGTAGGCATGTTGAAAGTACCGGCGCAT
ATACTGTATGTACATCATATCATAGCCCTATTCATACATATTTACGGGTA
AATAGCGAGATATATGAAACATGGAAGTAAAACCAAAACCTCCACTGCAG
CATTTCGACGCCATATTGCCGCCCTAAGTGTAGCCCTATTAATTATTACA
GTAATTATTAACATCAACAGTAGCAGCAGTAGTATTTTGTATAATGCGAC
CATTCCATATTAATCGCTTAGTTTGTGACAAGCTGCCGAGAGAACAATAG
GCGATAGAGAGGATCTGTGTGTGCGCCGACTTTGTTGTCACTTGCCGGCA
TGCCTTTGAAAGGTTGATGTCTTTGAAACAGGTATTTAATGCTTATGTCG
TTATTAAAAAAATCTTCGGAGCCAGAGAATGAAGTATGCAATGATACTGC
TGTAGTATAGTTTAGTGTGTAGTGTAGTGTAGTGATGATAGTGTAGTGTT
GTGTTGTATGTGATGATAGTGCAGTGTCGTGTAGTGTAGTATGCGATGAT
AGTGCAGTGTAGTGTAGTGTCGTGTAGTGTAGTATGCGATGCTAGTGTAG
TGTAGTGTAGTATGTGATGACAGTGTCGTGTCGTGTAGTATGCGATGATA
GTGCAGTGTATTGTAGTGTAGTGATGATAGTCTAGTGACCGATGATGGTG
TAGTGTAGTGTAGTGATGATAGTGTCGTGTAGTGTAGTATGCGATGATAG
TGTAGTGTATTGTAGTATGTGATGACAGTGTCGTGTCGTGTAGTATGCGA
TGATAGTGCAGTGTATTGTAGTGTAGTGATGATAGTCTAGTGACCGATGA
TGGTGTAGTGTAGTGTAGTGATGATAGTGTAGTGTAGTGTAGTGTAGTAT
GCGATGATAGTGCAGTGTAGTGTAGTGTAGTGATGATAGTCTAGCGACCG
ATGATGGTGTAGTGACTGATGATAGTGTGTAGTGTAGTGTAGGGTAGGGT
ACCAACCCTTCTTTTCCTGCCAAACGTTTTTTTGTATCGAGTCGTCTCAC
CAACTTTTGAAGGATAACGCACTCCGCCATCCTCGATCCCGCGAGATCTA
GCGTGATAAAAATCACCATCCTTTCAAAATCTCAACCAGAGTAGAACCGC
GGCATGCGATTTTTGCTGGCAAACGCCTTCGATCGATCAAAAACCGTTAT
TGTCGCCCTTATAAAGTATTTCATGAGGAGACGCGTTATTTTATAATATC
GGCTCTCCTTTACCACTACTCAGCGTGTGTGTCCCCGATCTACTATACCT
ATAACCTCCTTGGTACGCGATCTGCTTTTTCTGTACAAAGATACATATGA
AACTTGCACACGAGTTCTGAATGGGTTAACGGTATTGTACAGAGTAAGGT
TTTATTGTGTGGTTGGCGTTTGGCTTTTGTTCCTCAGTCGATACATTCTC
CTTGTCGCTCACCTTTCCTTGGCAGCGAGCGATGCACTACCTGATGCAGC
CAGATACTTGGAGGAAGGCAGGGCTCCCGTACTACGCCGACCACGAGGTG
ATCAGGGTCCACACGGCGGTGATCGATCAGTGCGCCATGAACAGCTACCT
CGTGCACCCCTGGCAGGGGTTGCAGGGGCGAACCAAGGACCTGGGTCCGG
CGGCGAGGTACGCAGTGGTATCATTTCTCGAAAATGTATGAGATATAGAG
TAGAGGGCATGCAAGAGATTGGGAGGGTCTGGAGAGGGGAGAGGCTGGGG
TTTTGTTTTTTTTTGTTTTTTTTTGTGTGGAAAACAGTATGGGAGAGAGA
AAGATGGGAGGGAGTGGAAGAGGGGAATGTTTTTTTCGCTTTGATGAGCT
CTTTGTAGACTGTTACTGGCCTCTGCATACTTTCGTGTCCAGCAAGCAGA
CCACGCAACTACCTACCCATCTGTCTGATGGGCAACCGCGTCTTTTCCTA
GGGGTGATAGGTAGGTCGAGGTTCGATTGCGGGTTGTAATGAGGGTAAAA
AAGCCAAAGTGACAGCATGCAAGTGTCTCGATGTCAAACCAAAACAGAAA
CATTCTCAAAAGAAAGCACGTCAGATATGAAAACTTTTGACTCCCACGTC
AGAGTAGAGTTGCATCAAACACCAACGGCAGGTAGTGGACACCACACGAG
AAAGGAAAGGAAGAGAAAGAGAGAGATGGGATCTAGCCAACCGACGAAAG
AAGGGGCGCCCTCCGCTCGACTGCTGTCTTTGAAAGCCATAACCGTGGCC
ATGATGATGGACACGCCAATATGGTGGTGCTTTCGGGGATACTGCAGACG
CGGCGGATATCACAAGCGTTCACATAGCCGTGGCCATGATAATGGACACG
CCAATATGGGGGTGCTTTGAGCGGGGATACTGCAGATGCGGCAGATATCA
CAAGCGTATACTACAGTATAGTACACTTACTATTATTTATATTATAGTAG
GCAGTGACATGTCAGAAACGAGGAAACTAAGAAACAGTACTAATTATGAC
CTGTTTTCAAACAACTCTCCCTCTGGGGAATTGTGCTCCCCCTGGTTAGC
AGGAATGCCCCGGACGAAACCCTATCCACCAGGGGATTTACCAAATATAT
CCCCGGGAGGGGTTGGTTCGATCCCTTCCCCCCCTTTTTATCCCCATTCC
GACGAATTCGTTTGAATCCCCTTTCTTTCAATGATTTTAGTTCACGCTTT
CAGCACAACGGCACACAAAACAACAATCGACACGGGTGCAGCAGCGTTTT
GCCTCCAAAGACGTTAGATGTCATCGATGTTCTGTTTTCCGCTGTTCTCT
CGCTTCAGCTACGTACCGGGGGACTTCATCCTTCACTTCGCTGGAAAGAA
GGGTCGCGTGCGCTTGGAGTTGGTCGACTACTATTACCCTGAGGCCGTGC
AGGTAACGGTTTTCGTTTAAATCACGCGAGAGGAAATGACGCGAGTGGAA
ACTTAGTTCTTGACAGCTAAGCGCACGCGAAAGTGACGTGCAGTTGACTT
GTTAGAGGGGGCTACTGTCTTAGTAAGCATCGAGCGGCACACCTTAGTTG
TTTGAGTAGCCCCTGAAACGCGCTTTTGGGTTCTCCTGCTGCAGGGATTA
CCCACTAACACCAAGCAATATCAATATGAAAATCACATGCACTGCGGTGC
TGTTATCTCGCAGGCGGTCGAAAAGTACAGGGAGACGTGGAGGCTAAACG
AACCGCGGGCCTCGGGATCGGGATCAACTTTGCCGCGGGCACAAGTCGAT
GGCGATCCGGCGGAGCATCGCCAGGCAGACGGCCACGTACGAGGGGTGCA
CGAACGCCATTTCCGCGGCCGTTAGGATGCTGTGTCCACTTTGGATGGAA
GGCAAGAGTACTCGTATCTTCGGTGACAGGCAGGATATAGACGGTGCAAG
TATATCGGCTCAATGCATACCGGTAGTACATATAATAGACTGTGTTAACA
CACACCTCGGGGACGCAAACGTATCATCCCCTATCCTCTTTCCTAGACCC
GTTCGGGTTTCGCAACTACGAGTATTAAGAAACTGGCAGTGAAATCAACC
GCGACCGGGGAAGTCGATCATTCGTCCCCGGGTTGTGTTGAACCCTCTCC
CTGTGTCACGTACGTTGTTCAACATGTACGGGAGTGGTAGAGATATGGAG
GCGTTAGTTCAGGAATCCCCCACCAGGGGATAGGCTTTCGGGAGAGAACT
CTTGCGCCTTGGCGGTGAAGAGTTTCGAGCTTGAGAAATTCATAAGCAAA
TGGGAAAAGAAAGGGGGGGGGTCTTAAC
back to topCoding sequence (CDS) from alignment at F-serratus_M_contig100:14105..26432-
>mRNA_F-serratus_M_contig100.102.1 ID=mRNA_F-serratus_M_contig100.102.1|Name=mRNA_F-serratus_M_contig100.102.1|organism=Fucus serratus male|type=CDS|length=1794bp|location=Sequence derived from alignment at F-serratus_M_contig100:14105..26432- (Fucus serratus male)
ATGATGTGTGACGAGGAGATGTGGCCGAAAAAATGATGTGTGACGAGGAG
ATGTGGCCGAAAAAGTACACGGACATGTCCATCGAAAACAAAAACGCCTA
CGCTGAACTCCACGGCTATGACGTCATCGTGGCGACGAAGGCCGACGTGG
ACCGGAGCCGGCCGGCGGCGTGGAGCAAGCTGCTGGTGCTCCAGAAGTAC
CTCGACAACTACGACTACCTCATGTACACGGACATGTCCATCGAAAACAA
AAACGCCTACGCTGAACTCCACGGCTATGACGTCATCGTGGCGACGAAGG
CCGACGTGGACCGGAGCCGGCCGGCGGCGTGGAGCAAGCTGCTGGTGCTC
CAGAAGTACCTCGACAACTACGACTACCTCATTTTTGTGGACATCGACGC
GTTCATCATGAACCCGGCGTTCAAGCTGGAGTGGCTGCTGGACGTGGCCC
GGATGCAACAGCAGACGGGGGGCACGGATGGATGGGTTTTGTGGACATCG
ACGCGTTCATCATGAACCCGGCGTTCAAGCTGGAGTGGCTGCTGGACGTG
GCCCGGATGCAACAGCAGACGGGGGGCACGGATGGATGGGGTGACCCTAA
GAGGGAGCCTCACCTGATCGTGACGAGGGACTGGAATGGCCCTAACTCCG
GGGTGATTCTGATGAAGAACTCGGATTTTTCGCGCTGGCTTCTCAAGGAG
TGGTGGGATCAGGACCAGTTCGTGAAGGGCAAGTTCCCTTTCCAGTACGA
GCAGGTGACCCTAAGAGGGAGCCTCACCTGATCGTGACGAGGGACTGGAA
TGGCCCTAACTCCGGGGTGATTCTGATGAAGAACTCGGATTTTTCGCGCT
GGCTTCTCAAGGAGTGGTGGGATCAGGACCAGTTCGTGAAGGGCAAGTTC
CCTTTCCAGTACGAGCAGCGAGCGATGCACTACCTGATGCAGCCAGATAC
TTGGAGGAAGGCAGGGCTCCCGTACTACGCCGACCACGAGGTGATCAGGG
TCCACACGGCGGTGATCGATCAGTGCGCCATGAACAGCTACCTCGTGCAC
CCCTGGCAGGGGTTGCAGGGGCGAACCAAGGACCTGGGTCCGGCGGCGAG
CGAGCGATGCACTACCTGATGCAGCCAGATACTTGGAGGAAGGCAGGGCT
CCCGTACTACGCCGACCACGAGGTGATCAGGGTCCACACGGCGGTGATCG
ATCAGTGCGCCATGAACAGCTACCTCGTGCACCCCTGGCAGGGGTTGCAG
GGGCGAACCAAGGACCTGGGTCCGGCGGCGAGCTACGTACCGGGGGACTT
CATCCTTCACTTCGCTGGAAAGAAGGGTCGCGTGCGCTTGGAGTTGGTCG
ACTACTATTACCCTGAGGCCGTGCAGCTACGTACCGGGGGACTTCATCCT
TCACTTCGCTGGAAAGAAGGGTCGCGTGCGCTTGGAGTTGGTCGACTACT
ATTACCCTGAGGCCGTGCAGGCGGTCGAAAAGTACAGGGAGACGTGGAGG
CTAAACGAACCGCGGGCCTCGGGATCGGGATCAACTTTGCCGCGGGCACA
AGTCGATGGCGATCCGGCGGAGCATCGCCAGGCAGACGGCCACGTACGAG
GGGTGCACGAACGCCATTTCCGCGGCCGTTAGGCGGTCGAAAAGTACAGG
GAGACGTGGAGGCTAAACGAACCGCGGGCCTCGGGATCGGGATCAACTTT
GCCGCGGGCACAAGTCGATGGCGATCCGGCGGAGCATCGCCAGGCAGACG
GCCACGTACGAGGGGTGCACGAACGCCATTTCCGCGGCCGTTAG
back to top