|
Homology
BLAST of mRNA_F-serratus_M_contig961.20948.1 vs. uniprot
Match: D7G6P6_ECTSI (tRNA (adenine(58)-N(1))-methyltransferase n=2 Tax=Ectocarpus TaxID=2879 RepID=D7G6P6_ECTSI) HSP 1 Score: 467 bits (1201), Expect = 8.430e-155 Identity = 274/503 (54.47%), Postives = 305/503 (60.64%), Query Frame = 1
Query: 115 MDFRRGREKDGSREVIESPTISEIGGIGNGASAPAIRLGDTVIFFEGREAIGCDRMKQKTIWQCRHGAFHHDDIVGKPFGCRVFSRTTKGHVYALSPTPELWCQVVPSRTQIVQDFDQSIVIFRLDLKPGDVVVESGTGSGVMSTAIMRTIAPTGFLHTFEFNEIRAKMAQEEFQQNNIGELGKVLHRDVCAGKNEGGGFGQELEGKADAVFLDLPEPWLAVPHAKLVLKSGKKIASYSPCIEQVMKTCEALRSEGFHSVTTLECRLRPINYAEVQLDTPDFGSPVVSLAASSVAASQGQVAAPAPPSSGDRDVTEIATGTAKESHAGGSNGVEGTACTPPPQESENGKGMKSTDRERSGDDSSRVRDREAAVDRVVDYAEAIEHAGQRVVNSGVEDTTTAVDDSKDHPVTESAKESKKRPRDEPTEGGADTDSTEYGVGRGRNERLQSKAAIRAAEAAA--VNGAKPRMLHKLVCAQPFPVMRGHTAFLTFATTPVAPRLGS 1617
MDFR GR DGSR+ TI E ++AP IR GD V+FFEGRE IG DRMK KTIWQCRHGAFHHD+I+GKPFG RVFSRTTKG+VYALSPTPELW VVP+RTQIVQDFDQSIVIFRLDLKPGD VVESGTGSGVMSTAIMRTIAP+GFLH+FEFNE RA AQEEF++N +G L K +HRDVCA + +GGGFG+EL+GKADAVFLDLPEPWLAV HAK+ LK GKK+ SYSPCIEQVMKTCEALRSEGFHSV+T+E RLR INYAEV+ P +EG P G K RE G G GV+D + GRGRNERLQ KAAIRAAEAAA V GA+ L KLVCAQPFP+MRGHTAFLTFAT PV+ +LG+
Sbjct: 1 MDFRAGRCSDGSRDPA---TICEA------STAPLIRNGDMVVFFEGREPIGFDRMKAKTIWQCRHGAFHHDEIIGKPFGSRVFSRTTKGYVYALSPTPELWSHVVPNRTQIVQDFDQSIVIFRLDLKPGDTVVESGTGSGVMSTAIMRTIAPSGFLHSFEFNEFRATRAQEEFEENALGGLVKAVHRDVCAARGDGGGFGEELDGKADAVFLDLPEPWLAVAHAKMTLKPGKKLCSYSPCIEQVMKTCEALRSEGFHSVSTIEFRLRNINYAEVEGIKP----------------------------------------------------MEGDQAALP--------GSKKRSREEGG--------------------------GSGAATPGVDDGASR-------------------------------------TGRGRNERLQPKAAIRAAEAAAEKVGGARKPPL-KLVCAQPFPLMRGHTAFLTFATAPVSRQLGT 370
BLAST of mRNA_F-serratus_M_contig961.20948.1 vs. uniprot
Match: A0A835ZH22_9STRA (tRNA (adenine(58)-N(1))-methyltransferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZH22_9STRA) HSP 1 Score: 293 bits (751), Expect = 5.570e-89 Identity = 139/211 (65.88%), Postives = 162/211 (76.78%), Query Frame = 1
Query: 334 IVGKPFGCRVFSRTTKGHVYALSPTPELWCQVVPSRTQIVQDFDQSIVIFRLDLKPGDVVVESGTGSGVMSTAIMRTIAPTGFLHTFEFNEIRAKMAQEEFQQNNIGELGKVLHRDVCAGKNEGGGFGQELEGKADAVFLDLPEPWLAVPHAKLVLKSGKKIASYSPCIEQVMKTCEALRSEGFHSVTTLECRLRPINYAEVQLDTPDFGS 966
++G+P+G +VFSR+TKG +Y LSPTPELW VVP+RTQIVQ DQS VIFRLD+KPGD V+ESGTGSG MSTAIMR IAPTG LHTFEFNE RA A+ EF +N + L V HRDVC + EGG FG +L GKADA+FLDLPEPWLAVPHA LK KK+ SYSPC+EQV +TC LR GFHS+ T+E R+RP E LD PD+GS
Sbjct: 1 MIGQPYGSKVFSRSTKGFIYVLSPTPELWSTVVPNRTQIVQPSDQSFVIFRLDMKPGDTVIESGTGSGAMSTAIMRAIAPTGHLHTFEFNEARADRARAEFVKNGLASLVTVKHRDVCGREGEGG-FGDQLNGKADAIFLDLPEPWLAVPHAHAALKPNKKVCSYSPCVEQVQRTCTVLREWGFHSLATVELRIRPYQLYEADLDLPDWGS 210
BLAST of mRNA_F-serratus_M_contig961.20948.1 vs. uniprot
Match: A0A7S3XKL8_HETAK (tRNA (adenine(58)-N(1))-methyltransferase n=2 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XKL8_HETAK) HSP 1 Score: 262 bits (670), Expect = 9.780e-78 Identity = 129/210 (61.43%), Postives = 155/210 (73.81%), Query Frame = 1
Query: 334 IVGKPFGCRVFSRTTKGHVYALSPTPELWCQVVPSRTQIVQDFDQSIVIFRLDLKPGDVVVESGTGSGVMSTAIMRTIAPTGFLHTFEFNEIRAKMAQEEFQQNNIGELGKVLHRDVCAGKNEGGGFGQELEGKADAVFLDLPEPWLAVPHAKLVLKSGKKIASYSPCIEQVMKTCEALRSEGFHSVTTLECRLRPINYAEVQLDTPDFG 963
++GK +G +V SR + G V+ L PTPELW + RTQIVQ D ++V+ RL LKPG VV+ESGTGSG MS AIMR IAPTG LHTFEFNE RAK A+EEF++N +G L V HRDVCA EGG FG L GK DAVFLDLP PWLA+P A LK+G+ + SYSPCIEQV+KTC+ LR GFHS+TT+E RLR + V+ +TPDFG
Sbjct: 1 MIGKTYGSQVQSRISTGWVFLLKPTPELWTLALDHRTQIVQGSDAALVVLRLHLKPGMVVIESGTGSGAMSYAIMRAIAPTGHLHTFEFNEHRAKQAEEEFKKNRVGHLVTVRHRDVCAEGAEGG-FGDHLNGKVDAVFLDLPAPWLALPRAHAALKAGETLCSYSPCIEQVIKTCDKLRELGFHSITTVENRLRSYDVRPVEFETPDFG 209
BLAST of mRNA_F-serratus_M_contig961.20948.1 vs. uniprot
Match: A0A7S2WUG9_9STRA (tRNA (adenine(58)-N(1))-methyltransferase n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2WUG9_9STRA) HSP 1 Score: 256 bits (653), Expect = 1.990e-75 Identity = 130/249 (52.21%), Postives = 167/249 (67.07%), Query Frame = 1
Query: 220 IRLGDTVIFFEGREAIGCDRMKQKTIWQCRHGAFHHDDIVGKPFGCRVFSRT-TKGHVYALSPTPELWCQVVPSRTQIVQDFDQSIVIFRLDLKPGDVVVESGTGSGVMSTAIMRTIAPTGFLHTFEFNEIRAKMAQEEFQQNNIGELGKVLHRDVCAGKNEGGGFGQELEGKADAVFLDLPEPWLAVPHAKLVLKSGKKIASYSPCIEQVMKTCEALRSEGFHSVTTLECRLRPINYAEVQLDTPDFG 963
I G VI F + + +++ +I + G FHH+DI+G+PFG +S++ T+G +YAL TPELW +P RTQIV + D ++V +L++KPG V+ESGTGSG MS+ + R+++PTG L TFEFNE RA A+EEF+QNN+ L V H DVC GK GGF G ADAVFLDLPEPW+AVPHA LK ++IA YSPCIEQVMKT ALR GFHS+ T+E RL+ N E PDFG
Sbjct: 13 IAPGSLVIVFLHHDQLDHIVIQRDSILNNKWGTFHHNDIIGQPFGSIWYSKSSTRGWLYALQATPELWAMALPHRTQIVHELDAAMVTLKLNVKPGFRVIESGTGSGAMSSVLARSLSPTGHLFTFEFNENRADAAREEFKQNNLSHLVTVAHFDVC-GKGGTGGFPGVESGTADAVFLDLPEPWVAVPHAATALKPNRRIACYSPCIEQVMKTATALRDAGFHSIETVEVRLKSYNVREFPFKVPDFG 260
BLAST of mRNA_F-serratus_M_contig961.20948.1 vs. uniprot
Match: A0A1V9Z9G2_9STRA (tRNA (adenine(58)-N(1))-methyltransferase n=1 Tax=Achlya hypogyna TaxID=1202772 RepID=A0A1V9Z9G2_9STRA) HSP 1 Score: 255 bits (652), Expect = 2.460e-75 Identity = 122/254 (48.03%), Postives = 167/254 (65.75%), Query Frame = 1
Query: 205 ASAPAIRLGDTVIFFEGREAIGCDRMKQKTIWQCRHGAFHHDDIVGKPFGCRVFSRTTKGHVYALSPTPELWCQVVPSRTQIVQDFDQSIVIFRLDLKPGDVVVESGTGSGVMSTAIMRTIAPTGFLHTFEFNEIRAKMAQEEFQQNNIGELGKVLHRDVCAGKNEGGGFGQELEGKADAVFLDLPEPWLAVPHAKLVLKSGKKIASYSPCIEQVMKTCEALRSEGFHSVTTLECRLRPINYAEVQLDTPDFGS 966
A P + +GD VI +E ++ M++ ++Q RHGAFHH+D++G +G +V+SR +KG++Y LSPTPELW + + RTQIV D S ++F PG +VVESGTGSG ++T+ R I P+G ++TFEFN RA++A+EEF N + ++ V RD C GF + L+GK D VFLDLP PW AV HAK VLK+G ASYSPC+EQV KTC+ALR +GF + T+E RL V + PDFG+
Sbjct: 26 AGKPIVEVGDLVILYETHNSVTYAFMEKDAVYQNRHGAFHHNDMIGHRYGTKVYSRMSKGYIYILSPTPELWSKALRHRTQIVFTLDASAILFNTHCGPGKIVVESGTGSGALTTSFARAIQPSGHVYTFEFNATRAQVAKEEFAANGLNKVATVECRDACEQ-----GFPEHLDGKVDVVFLDLPCPWKAVGHAKRVLKTGGAFASYSPCMEQVQKTCDALRIDGFDRIRTIETRLMTYTARYVSMPVPDFGA 274
BLAST of mRNA_F-serratus_M_contig961.20948.1 vs. uniprot
Match: B7FTZ8_PHATC (tRNA (adenine(58)-N(1))-methyltransferase (Fragment) n=1 Tax=Phaeodactylum tricornutum (strain CCAP 1055/1) TaxID=556484 RepID=B7FTZ8_PHATC) HSP 1 Score: 250 bits (638), Expect = 1.750e-74 Identity = 126/235 (53.62%), Postives = 159/235 (67.66%), Query Frame = 1
Query: 220 IRLGDTVIFFEGREAIGCDRMKQKTIWQCRHGAFHHDDIVGKPFGCRVFSRTTKGH--VYALSPTPELWCQVVPSRTQIVQDFDQSIVIFRLDLKPGDVVVESGTGSGVMSTAIMRTIAPTGFLHTFEFNEIRAKMAQEEFQQNNIGELGKVLHRDVCAGKNEGGGFGQELEGKADAVFLDLPEPWLAVPHAKLVLKSGKKIASYSPCIEQVMKTCEALRSEGFHSVTTLECRLR 918
IR GD V+ E + + K+ I+ R+G FHH+D +GKPFGC++ SR+ +G+ VY L PTPELW + + RTQIV + DQS VIF+L LKP VVESGTGSG MS AI+RTIAP G LHT+EFNE RA A+ EF N +G L V H+DVC + +GG F + D VFLDLPEPWLAVPHA V+K ++ASYSPC+EQ + E LR GFHS+ T+E RL+
Sbjct: 1 IRTGDLVVIMESFDNLAFVYAKEGEIFSNRNGNFHHNDFIGKPFGCKIRSRSHRGYGFVYLLKPTPELWARSLNHRTQIVHELDQSQVIFQLHLKPNMTVVESGTGSGAMSHAILRTIAPHGKLHTYEFNEHRADTARHEFANNGVGHLVSVHHKDVCGIRGDGG-FDLPPQ-SVDGVFLDLPEPWLAVPHAAFVMKPNARLASYSPCVEQTQRMVETLRQSGFHSIKTMEYRLQ 233
BLAST of mRNA_F-serratus_M_contig961.20948.1 vs. uniprot
Match: A0A6G0XQT4_9STRA (tRNA (adenine(58)-N(1))-methyltransferase n=1 Tax=Aphanomyces euteiches TaxID=100861 RepID=A0A6G0XQT4_9STRA) HSP 1 Score: 252 bits (644), Expect = 1.880e-74 Identity = 125/247 (50.61%), Postives = 161/247 (65.18%), Query Frame = 1
Query: 220 IRLGDTVIFFEGREAIGCDRMKQKTIWQCRHGAFHHDDIVGKPFGCRVFSRTTKGHVYALSPTPELWCQVVPSRTQIVQDFDQSIVIFRLDLKPGDVVVESGTGSGVMSTAIMRTIAPTGFLHTFEFNEIRAKMAQEEFQQNNIGELGKVLHRDVCAGKNEGGGFGQELEGKADAVFLDLPEPWLAVPHAKLVLKSGKKIASYSPCIEQVMKTCEALRSEGFHSVTTLECRLRPINYAEVQLDTPDF 960
+ GD VI FE +I MK+ I+Q RHGAFHH+D++G +G +V+SR +KG++Y LSPTPELW + + RTQIV D S +IF+ PG +V+ESGTGSG ++TA RT+AP G ++TFEFN RA++A+EEF N + + + RD C GF LEGK D VFLDLP PW AV HAK +LK ASYSPC+EQV KTC+ALR +GF V T+E RL P + V L P F
Sbjct: 16 VEEGDLVILFETHNSITYAYMKRDEIYQNRHGAFHHNDMIGHKYGTKVYSRMSKGYIYILSPTPELWSKALRHRTQIVFTLDASAIIFQTHCAPGKIVIESGTGSGALTTAFARTVAPHGHVYTFEFNATRAQVAKEEFHANGLDSVVTIECRDACEQ-----GFPDNLEGKVDVVFLDLPCPWKAVGHAKQMLKHNGAFASYSPCMEQVQKTCDALRLDGFDRVRTIETRLMPYSTRTVTLPLPSF 257
BLAST of mRNA_F-serratus_M_contig961.20948.1 vs. uniprot
Match: A0A024TN05_9STRA (tRNA (adenine(58)-N(1))-methyltransferase n=1 Tax=Aphanomyces invadans TaxID=157072 RepID=A0A024TN05_9STRA) HSP 1 Score: 248 bits (633), Expect = 1.030e-72 Identity = 122/252 (48.41%), Postives = 160/252 (63.49%), Query Frame = 1
Query: 205 ASAPAIRLGDTVIFFEGREAIGCDRMKQKTIWQCRHGAFHHDDIVGKPFGCRVFSRTTKGHVYALSPTPELWCQVVPSRTQIVQDFDQSIVIFRLDLKPGDVVVESGTGSGVMSTAIMRTIAPTGFLHTFEFNEIRAKMAQEEFQQNNIGELGKVLHRDVCAGKNEGGGFGQELEGKADAVFLDLPEPWLAVPHAKLVLKSGKKIASYSPCIEQVMKTCEALRSEGFHSVTTLECRLRPINYAEVQLDTPDF 960
A + GD VI FE +I +K I+Q RHGAFHH+DI+G +G +V+SR +KG++Y LSPTPELW + + RTQIV D S +IF+ PG +V+ESGTGSG ++TA RT+AP G ++TFEFN RA++A++EF N + + + RD C GF L GK D VFLDLP PW AV HAK +LK ASYSPC+EQV +TC+ALR +GF + T+E RL P + V L P F
Sbjct: 24 AGKTIVEAGDLVILFETHNSITYTYVKPDEIYQNRHGAFHHNDIIGNRYGAKVYSRISKGYMYVLSPTPELWSKALRHRTQIVFTLDASSIIFQTHCAPGKIVIESGTGSGALTTAFARTVAPHGHVYTFEFNATRAQVAKDEFHANGLDSVVTIECRDACEQ-----GFPDHLAGKVDVVFLDLPCPWKAVGHAKKMLKHNGAFASYSPCMEQVQRTCDALRLDGFDRIRTIETRLMPYSARTVHLPVPSF 270
BLAST of mRNA_F-serratus_M_contig961.20948.1 vs. uniprot
Match: W4FYX8_9STRA (tRNA (adenine(58)-N(1))-methyltransferase n=1 Tax=Aphanomyces astaci TaxID=112090 RepID=W4FYX8_9STRA) HSP 1 Score: 246 bits (627), Expect = 8.480e-72 Identity = 122/252 (48.41%), Postives = 160/252 (63.49%), Query Frame = 1
Query: 205 ASAPAIRLGDTVIFFEGREAIGCDRMKQKTIWQCRHGAFHHDDIVGKPFGCRVFSRTTKGHVYALSPTPELWCQVVPSRTQIVQDFDQSIVIFRLDLKPGDVVVESGTGSGVMSTAIMRTIAPTGFLHTFEFNEIRAKMAQEEFQQNNIGELGKVLHRDVCAGKNEGGGFGQELEGKADAVFLDLPEPWLAVPHAKLVLKSGKKIASYSPCIEQVMKTCEALRSEGFHSVTTLECRLRPINYAEVQLDTPDF 960
A + GD V+ FE +I +K I+Q RHGAFHH+DI+G +G +V+SR +KG++Y LSPTPELW + + RTQIV D S + F+ PG +V+ESGTGSG ++TA RT+AP G ++TFEFN RA++A+EEF N + + + RD C GF + L GK D VFLDLP PW AV HAK +LK ASYSPC+EQV +TC+ALR +GF V T+E RL P + V L P F
Sbjct: 23 AGKTIVEAGDLVVLFETHNSITYAYVKPDEIYQNRHGAFHHNDIIGNRYGAKVYSRMSKGYIYILSPTPELWSKALRHRTQIVFTLDASAITFQTHCAPGKIVIESGTGSGALTTAFARTVAPHGHVYTFEFNATRAQVAKEEFIANGLENVVTIECRDACEQ-----GFPEHLAGKVDVVFLDLPCPWKAVGHAKKMLKHHGAFASYSPCMEQVQRTCDALRLDGFDRVRTIETRLMPYSARTVALPVPSF 269
BLAST of mRNA_F-serratus_M_contig961.20948.1 vs. uniprot
Match: A0A485LAM3_9STRA (tRNA (adenine(58)-N(1))-methyltransferase n=1 Tax=Aphanomyces stellatus TaxID=120398 RepID=A0A485LAM3_9STRA) HSP 1 Score: 245 bits (625), Expect = 1.870e-71 Identity = 124/254 (48.82%), Postives = 160/254 (62.99%), Query Frame = 1
Query: 205 ASAPAIRLGDTVIFFEGREAIGCDRMKQKTIWQCRHGAFHHDDIVGKPFGCRVFSRTTKGHVYALSPTPELWCQVVPSRTQIVQDFDQSIVIFRLDLKPGDVVVESGTGSGVMSTAIMRTIAPTGFLHTFEFNEIRAKMAQEEFQQNNIGELGKVLHRDVCAGKNEGGGFGQELEGKADAVFLDLPEPWLAVP--HAKLVLKSGKKIASYSPCIEQVMKTCEALRSEGFHSVTTLECRLRPINYAEVQLDTPDF 960
A + GD VI FE +I MK I+Q RHGAFHH+D++G +G +V+SR +KG++Y LSPTPELW + + RTQIV D S +IF+ PG +V+ESGTGSG ++TA RT+AP G ++TFEFN RA++A +EF+ N + + + HRD C GF L G D VFLDLP PW AV HAK +LK ASYSPC+EQV KTC+ALR +GF V T+E RL P + V L P F
Sbjct: 24 AGKTIVEAGDLVILFETHNSITYAYMKPDEIYQNRHGAFHHNDMIGHRYGTKVYSRMSKGYIYILSPTPELWSKALRHRTQIVFTLDASSIIFQTHCAPGKIVIESGTGSGALTTAFARTVAPHGHVYTFEFNATRAQVAMDEFKANGMDSVVTIEHRDACEQ-----GFPDHLAGTVDVVFLDLPCPWKAVRVGHAKKMLKHNGAFASYSPCMEQVQKTCDALRLDGFDRVRTIETRLMPYSARTVTLPIPSF 272
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 |
Taxonomic scope | Eukaryota |
Seed ortholog score | 469.9 |
Seed ortholog evalue | 1.7e-129 |
Seed eggNOG ortholog | 2880.D7G6P6 |
Preferred name | TRMT61A |
KEGG ko | ko:K07442 |
Hectar predicted targeting category | other localisation |
GOs | GO:0001510,GO:0003674,GO:0003824,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005654,GO:0005737,GO:0006139,GO:0006396,GO:0006399,GO:0006400,GO:0006725,GO:0006807,GO:0008033,GO:0008150,GO:0008152,GO:0008168,GO:0008173,GO:0008174,GO:0008175,GO:0008757,GO:0009451,GO:0009987,GO:0010467,GO:0016070,GO:0016071,GO:0016426,GO:0016429,GO:0016556,GO:0016740,GO:0016741,GO:0030488,GO:0031515,GO:0031974,GO:0031981,GO:0032259,GO:0032991,GO:0034470,GO:0034641,GO:0034660,GO:0034708,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043233,GO:0043412,GO:0043414,GO:0043527,GO:0044237,GO:0044238,GO:0044260,GO:0044422,GO:0044424,GO:0044428,GO:0044444,GO:0044446,GO:0044464,GO:0046483,GO:0061953,GO:0070013,GO:0071704,GO:0080009,GO:0090304,GO:0140098,GO:0140101,GO:1901360,GO:1902494,GO:1990234 |
EggNOG free text desc. | tRNA (adenine-N1-)-methyltransferase activity |
EggNOG OGs | COG2519@1,KOG2915@2759 |
Ec32 ortholog description | S-adenosyl-L-methionine-dependent methyltransferase |
Ec32 ortholog | Ec-26_000130.1 |
EC | 2.1.1.219,2.1.1.220 |
COG Functional cat. | J |
Best tax level | Eukaryota |
Best eggNOG OG | NA|NA|NA |
BRITE | ko00000,ko01000,ko03016 |
Exons | 7 |
Model size | 2197 |
Cds size | 1803 |
Stop | 1 |
Start | 1 |
Relationships
The following UTR feature(s) are a part of this mRNA:
Feature Name | Unique Name | Species | Type | Position |
1622932734.1347523-UTR-F-serratus_M_contig961:282470..282584 | 1622932734.1347523-UTR-F-serratus_M_contig961:282470..282584 | Fucus serratus male | UTR | F-serratus_M_contig961 282471..282584 + |
1690964447.1508632-UTR-F-serratus_M_contig961:282470..282584 | 1690964447.1508632-UTR-F-serratus_M_contig961:282470..282584 | Fucus serratus male | UTR | F-serratus_M_contig961 282471..282584 + |
1622932734.2787557-UTR-F-serratus_M_contig961:308347..308627 | 1622932734.2787557-UTR-F-serratus_M_contig961:308347..308627 | Fucus serratus male | UTR | F-serratus_M_contig961 308348..308627 + |
1690964447.244585-UTR-F-serratus_M_contig961:308347..308627 | 1690964447.244585-UTR-F-serratus_M_contig961:308347..308627 | Fucus serratus male | UTR | F-serratus_M_contig961 308348..308627 + |
The following CDS feature(s) are a part of this mRNA:
Feature Name | Unique Name | Species | Type | Position |
1622932734.1520977-CDS-F-serratus_M_contig961:282584..282666 | 1622932734.1520977-CDS-F-serratus_M_contig961:282584..282666 | Fucus serratus male | CDS | F-serratus_M_contig961 282585..282666 + |
1690964447.1689634-CDS-F-serratus_M_contig961:282584..282666 | 1690964447.1689634-CDS-F-serratus_M_contig961:282584..282666 | Fucus serratus male | CDS | F-serratus_M_contig961 282585..282666 + |
1622932734.1694903-CDS-F-serratus_M_contig961:296531..296695 | 1622932734.1694903-CDS-F-serratus_M_contig961:296531..296695 | Fucus serratus male | CDS | F-serratus_M_contig961 296532..296695 + |
1690964447.1824915-CDS-F-serratus_M_contig961:296531..296695 | 1690964447.1824915-CDS-F-serratus_M_contig961:296531..296695 | Fucus serratus male | CDS | F-serratus_M_contig961 296532..296695 + |
1622932734.1979594-CDS-F-serratus_M_contig961:297165..297261 | 1622932734.1979594-CDS-F-serratus_M_contig961:297165..297261 | Fucus serratus male | CDS | F-serratus_M_contig961 297166..297261 + |
1690964447.1951394-CDS-F-serratus_M_contig961:297165..297261 | 1690964447.1951394-CDS-F-serratus_M_contig961:297165..297261 | Fucus serratus male | CDS | F-serratus_M_contig961 297166..297261 + |
1622932734.2147133-CDS-F-serratus_M_contig961:297785..297878 | 1622932734.2147133-CDS-F-serratus_M_contig961:297785..297878 | Fucus serratus male | CDS | F-serratus_M_contig961 297786..297878 + |
1690964447.2043896-CDS-F-serratus_M_contig961:297785..297878 | 1690964447.2043896-CDS-F-serratus_M_contig961:297785..297878 | Fucus serratus male | CDS | F-serratus_M_contig961 297786..297878 + |
1622932734.2297907-CDS-F-serratus_M_contig961:298535..298638 | 1622932734.2297907-CDS-F-serratus_M_contig961:298535..298638 | Fucus serratus male | CDS | F-serratus_M_contig961 298536..298638 + |
1690964447.2140608-CDS-F-serratus_M_contig961:298535..298638 | 1690964447.2140608-CDS-F-serratus_M_contig961:298535..298638 | Fucus serratus male | CDS | F-serratus_M_contig961 298536..298638 + |
1622932734.243752-CDS-F-serratus_M_contig961:299204..299398 | 1622932734.243752-CDS-F-serratus_M_contig961:299204..299398 | Fucus serratus male | CDS | F-serratus_M_contig961 299205..299398 + |
1690964447.2264926-CDS-F-serratus_M_contig961:299204..299398 | 1690964447.2264926-CDS-F-serratus_M_contig961:299204..299398 | Fucus serratus male | CDS | F-serratus_M_contig961 299205..299398 + |
1622932734.2589157-CDS-F-serratus_M_contig961:307276..308347 | 1622932734.2589157-CDS-F-serratus_M_contig961:307276..308347 | Fucus serratus male | CDS | F-serratus_M_contig961 307277..308347 + |
1690964447.2352774-CDS-F-serratus_M_contig961:307276..308347 | 1690964447.2352774-CDS-F-serratus_M_contig961:307276..308347 | Fucus serratus male | CDS | F-serratus_M_contig961 307277..308347 + |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_F-serratus_M_contig961.20948.1 >prot_F-serratus_M_contig961.20948.1 ID=prot_F-serratus_M_contig961.20948.1|Name=mRNA_F-serratus_M_contig961.20948.1|organism=Fucus serratus male|type=polypeptide|length=601bp
MDFRRGREKDGSREVIESPTISEIGGIGNGASAPAIRLGDTVIFFEGREA IGCDRMKQKTIWQCRHGAFHHDDIVGKPFGCRVFSRTTKGHVYALSPTPE LWCQVVPSRTQIVQDFDQSIVIFRLDLKPGDVVVESGTGSGVMSTAIMRT IAPTGFLHTFEFNEIRAKMAQEEFQQNNIGELGKVLHRDVCAGKNEGGGF GQELEGKADAVFLDLPEPWLAVPHAKLVLKSGKKIASYSPCIEQVMKTCE ALRSEGFHSVTTLECRLRPINYAEVQLDTPDFGSPVVSLAASSVAASQGQ VAAPAPPSSGDRDVTEIATGTAKESHAGGSNGVEGTACTPPPQESENGKG MKSTDRERSGDDSSRVRDREAAVDRVVDYAEAIEHAGQRVVNSGVEDTTT AVDDSKDHPVTESAKESKKRPRDEPTEGGADTDSTEYGVGRGRNERLQSK AAIRAAEAAAVNGAKPRMLHKLVCAQPFPVMRGHTAFLTFATTPVAPRLG SDLGLTTSLKHAEVEEKVNTVDSKGGKLNGDSIGDDGDNQPKSTCVDGHA GARIVRDGRKGLDVDDEDRKGRIHLAENVEGGHLVHAPDNGALLPPTDRR * back to topmRNA from alignment at F-serratus_M_contig961:282471..308627+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_F-serratus_M_contig961.20948.1 ID=mRNA_F-serratus_M_contig961.20948.1|Name=mRNA_F-serratus_M_contig961.20948.1|organism=Fucus serratus male|type=mRNA|length=26157bp|location=Sequence derived from alignment at F-serratus_M_contig961:282471..308627+ (Fucus serratus male) AGGAAAGAGCATTTGTGCTCGGCCGCTACAGTGACATCTGCGTTATCTGC
CGTACACTGTTGTATTGAACGGTTTGTGGGCATTCATACAATTGCACTGG
AGGGAGCCAAGGAGATGGACTTTCGAAGAGGCCGCGAGAAAGATGGCTCT
AGAGAAGTAATCGAGAGTCCAACAATAAGCGAAATCGGGGGCATCGGTGA
GTGCCTACGTAGCACGTATTTCAGCTAAACCAAGGGATCGATAGGTACGA
TACTAGGCGGGGGTAATGAAGCAATAACTTTAAAGGGCGTCGTAACCGGT
CAGAACAAAGAGGTGAGGCCGTACTGGGTTTTGGGAAACTACTATTTCGA
AGTACGATGTACGGTACATGTTCAGGTTGGTGAGAAAAAACGAGAAACGG
GCTTACTCCGGACGAGACACCCGAACCTTTATCTAAATACTCTGTAGACT
ATACATGCATGTGAATCAGGTTGGTGAGACTTGGTTGGTCACAGTAAAAA
TCGCCCAAGAAACGGTGGGGCTTGGGGTTTTCTGGTATGAAAGGGAGCCA
TACATACCAAGAAAGACCCGACCGGCCGTGGTAGCACGTAGACAGGACCG
TTTGGGCTGCACGATAGACAGATTAATAACCCTAACACACCCATGCATGT
ACTGTGACCAACCAAGTCTTCTGGCGCGAGATCCTATACGAGAGAATTGC
CCACCGGTGGGCCAAATAGCCATGAATCTATGGTCATCACATGTAACAGA
GTACTTGTACAGATCAACCGGGTAAGGTTGCCAATCCTGCTGGTGGTCAG
CTGAGAAGAGAAACTAAACATTTCCCAGTCCCCGTTCGTGCCTGAGAAAG
TTGTCTCTCGGTCGTCTAGTCCCGCGTCAGCCTCCTCATTCTCCATACTC
AGGCTGAATCTGGTTCTTAGGCCAACTCTTATGCAAGATCGAAAACGAAA
AATCCCAGATCGAAAATCGGCCGTTTTTGATCTGGCAAAATCGTTTTCGT
TCCGGGAACAAAAACTATCTTATGTGAGATCGAAAAATCGGCTGGGTTTT
ACTTGCGGGGTTAGCTGCATACCTTTGTTCACAGTTCAAATGCCGACCGC
TGACCACGTACATTTTTTGTACAAACGTACCAGTATACTGGTACTCATAG
GTATAACTGTACATGTCGCAAGCTCCTATTAATAGTCTAAGTGTATGAAG
AAAACGAACATTCATTTGTAGCTCCTGCCCATATGTGGGCATGCTGCTAC
TATTAGTACTTCATGGATCGACAGCAGTACAAGGGCTGGGTCACGCGGTG
ACAGTAGTACAAGGGCTGGTTGACTAAGCTATAAAATCGCCCTATCAAAC
GCTCGCGGTTGCTGGTCGAGCGTACACGGACGGTATAAATATAAATAAAC
TGCAGCACGAGCAGCAGGCAGCAAGTTTGAACAGCAGCCCTTGGTTGTGG
CCATCGCCACAGAACAATCATTCATATCTACAGCCGTATCATCTACACCA
GAGTCAAAAATTAACAAGTACTGGGTGAAGTTGCTTAGCTTGCACAGCGT
TACAGGGATGCACGGCCGACCTCAGCATTCGGGAACCATCCCTCCTCAAT
GACCCTACGCTCCAGCGTGAGGAAAACACGCGAGGTACACGGAAGCGTCG
GCGAAACAGCTTCGCTTCTCTGGAGGTGGGTTCGAGAAACTCCTGGTTTC
GAAGCATATTCGCCCGGAGAGACTGCTTGTAGTCAGGCCGTGGGACCACG
GTCCTCGTTATCTGTCCGCTCGTCATCTTCCACGTCTAACAGCTCAAGCA
CTGCAACACAAGTAGCCACGGCCCGGATTCGCTGGCGAATTTCTGTGAAG
GCTGCCACGGCAGCCAGTGAGGCCTTGTAGCGACGACGAGCAGAGCGCCT
CATGACCTCAATAGAAATGTCTTGAACAACTGTATCTAATTTACAATTGG
TTTTTGTGAGTGGGTCTCGCACACGCCTTGGTATCTAGTGGAGCAGTATT
TTTCGATCACCATTTCCGTGATCGAAAATCAGCCCCGTTTCCGTGCGATG
GAGTGAACGAAAACGCTAGATCGAAAAATACTGCTCGGAAATCGCCAAAA
TCCGGGCGCATAAGATAGCTTTAGGCCCGATCTTATGCGAGATCGAAAAC
GCAGATCGAAAACGAAAAACGGCGTTTTTCGATCTGGAACTTTTCGATCA
GAAGAATAAATCTATCTTATGCGCCCGGATTTTGGCGATTTCCGAGCAGC
ATTTTTCGATCTAGCGTTTTCGTTCACTCCATCGCACGGAAATGGGGCTG
ATTTTCGATCACGGAAATCGTGATCGAAAAATACTGCGCGACTAGATACC
AAGGCGTGTGCGAGACCCACTCACAAAAACCAATATAAATCAGATGCAGT
CCAAGATATTTCTAATGATGTCATGAGGCGCTCTGCTCGTCGTCGCTACA
AGGCCACACTAGTTGCCGTGGTGGCCTTCACAGAAATTCGCCAGCGAGTC
CGAATTACGGCTACTTGGGTTGTAGTGCTTGAGCTGTTAGACTTGGAAGA
TGATGAGCGGACAGATGACGAGGACTGTGGGTCCCACGACCAGACTACAA
GGAGTCTCCGTGGGCGAATATGCTTCGATACCAGGAGTTTCTCGATTCCA
CCTCCAGAGAAGCAAAGCTGTTTCACCGACGCTTCCGTGTTCCTCACGTG
TTTTCCTCACGCTGGGGCGTAGGGTCATTGAGGAGGAATAGTTCCCGACT
GCTGAGGTCGGCCGTGCATCCCTGTAACGCTGTGCAAGTTAAGCAACTTC
ACCCAGTACTTGTTAATTTTTGACTCTGGTGTAGATGATACTGTACCTGT
AGATATTAATGATAGTTCTGTGGCGATGGCCACAACCGAAGGCTGCTGTA
CAAACTTGTTGCCTGCTGCTCGTGCTGCAGTTTATTTATATTTATACCGT
CCGCGTACGCTCGACCAGCAACCGCGAGCGTTTGATAGGGCGATTTTATA
GCTTAGTCAACCAGCCCTTGTACTGCTGTCACCGCGTGACCCAGCCCTTG
TACTGCTGTCGATCCATGGAGTACTAATAGTAGCAGTATGCCCACATATG
GGCAAGAGCTACAAATGAATGTTCGTTTTCTTCATACACATTACAGTAGA
CTATTAATAAGAGCTTGCGACATGTACAGTTATACCATAGTACCAGTATA
CTGGTACGTTTGTACAAAAAATGTACGTGGTCAGCGGTCGGCATTTGAAC
TTGCGAACAAAGGTATGCAGCTAACCCCGCAAGTAAAACCCAGCCGATTT
TTCGATCTCACATAAGATAGTTTTTGTTCCCGGAATGAAAACGATTTTGC
CAGATCGAAAACGGCCGATTTTCGATCTGGGATTTTTCGTTTTCGATCTC
GCATAAGAGTTGGCCTTATTCTTCTGATCGAAAAATTCCAGATCGAAAAA
CGCCGTTTTCGTTTTCGATCTGCGTTTTCGATCTCGCATAAGATCGGGCC
TTACTAACAGGATTCCTCCTGATTTCCGCGGCGGCGTCCATTTATTTTTT
TATTTAAACCGCCATACGCCGTCGGCCGAGTTTATCGGGTCACGCAAATA
TGTACCGATGGCGTTCACTGCTGAGAGTCCGCCGGCATAGGGCCAGTAGT
CCTTAAGGTAGTTCCAGTTACGGGTACTGCCTTTGCATCACCATGGACCA
ATTGATATCCACACCAACTAATATAGTCTAATAGTATTATTTGGGTATGG
CTATTTGCCCCACCGGTGGCATATTCTCTTGTTTACCCCCCCACCTGGTT
CTCGCGTCAAAAGACTCGGTTGGTCACAGTACATGCATGGGTGTGTTAGG
GTTAGCTATCATGGGGTCTATCGTGCAGCCCAAATGGTCCTGTCTACGTG
CTGCCACGGCCGGTAGGGTGGTTGGTGTTTTCTGGTATGTTTGGCTATTT
GCCCTTACATACCAGAAAACACCAACCACCCCACCGGCCGTAACAGCACG
TAGACAGGACCGTTTGGGCTGCACGATAGACCCCATGATAGCCCTGTGAC
GCGCCAACACACTCATGCACGTACTGTGACCAACCGTGTCTTCTGACGCG
AGATTAATGTGGTGGGGTAAATTTGGGAAAGGCCCACCGGTGGGCCACAT
AGTCATTTCCTATTAAAAAGTGTGCATGTTGAAAGTATCGGAGGCGGTTA
TTATTATTAGTAGGACTGAGATCGTGTGTTTAAGCACGAAGGGGATGCCG
GAGTCCGCCGCCATATTCAGCGTAGAGGCAGCGGGCCAGGTGTACAACCA
AACGAACGAGTTCGTATACCTCAGGGGGGACATCAACCATAATGACGAGT
TGTCCATCGAGGTCAACCGGCGCATACCTAACGCATGGTGAAGCTTCCGG
AAGTACACCCTCGAACTGTACACCGACCGAGCGCTCCCCTCAAGCTCAAA
ATCCGGATTCTAAGAGCTGAGGTCGAGACAGTGCTGTACGGCTGCGTCAC
GTGGAGCCCGCGCGCGTGCCACTACGACAAGCTGCGCCGAGCCCATCACA
GCTTCCTGACTCGCTGCATCGGTTGGCGAAAGAACAATCGCGCCGACCAC
CAGATTTCCTATCTGGACACGCTTATCAAGACGGGAAGTGAGAGCATCGA
GGCGACTTTACGTAGGAGGCGGATCTTGTTCGCGGGATTTGTGGCGCGCA
TGGAGGATACGAGGCTGCCGAATTGCGTAATGTTCGGAGAACTGGTGGGA
AGCGCGGGCTGCATGGGGGGCCAGGGAAAAGAGTGAATGGGGTGTTTCTT
GGACGATCTCAGAGCTTTCCACATCAACGTCGACCGGTGGGCGACTGCAG
CCCATAACGCGGGGGAATCCGTAGGACGACGGAACAAGGGGCGGAATGTG
TACTATGCAGAGAAAGCCAGGGCTGGACTACAGTATGCAGTGGTATGCCC
GAACGTGACGGAAAGGACCAAGAAGAGGATAGCCCAAAGCAAGCGGGCTC
GCGCTGGCTCGCTCGCTACAGTTAACTAGCCACAAGTGGCGTGAATTTGT
ATCCTCCGGGCGTTTGGTTTGTAGATGTTATGTCGTCTTTCTCTGTTGTT
ACGTTTGTTTTGTTTTGTTTCGTTTTCGTCTTTTTGCTTTCACCGAACCA
TCGGCCCTTTGTCCAATAATTCTTCGTTTTTCTATATGCATCGCTGGTGC
TTTCAACATGCCCACTTCATACCAATTGTGAGTGTGGGAAAGGGAGGCGC
ATATTAGTTGGTCCATGGTGACCTGCTAAGGCGGCACTCGTTCGGAACTA
CCTTGAGGTTTACTGGCCCTGTGCCGGCGGACTCTCGGCAGTGAACGCCA
TCGGTACGCAATTGCGTGACCCGATCAACTCGGGACTGACCCGATGGCGT
ATGGTGGTTGTTGTAAATAATTAAATGGACGCCACCGCGGAACTCGGGGG
GAATCCCGTAAGAAAGCACCAGATTCAGCCTGAGTATGGAGATGAGCAAG
CTGACGCGGGACGGGACTGCCGAAGCCGTCTCGCGAGACCAGATCCTCAG
GCGCGAACGCGGACAGGGAAATATTATTTTTCCATGTTCAGCTGACAACG
TGCAGGATCGGCAACCTTACCCGGTTGATCCATACTCTTGCTATGTGTGT
TACCTAACCTAACAACTGTCCGTGTCTTTTTTTGTTTTGTTCCTTCCCCT
TTTTAATTCTTTGGAGATGCCCCTTTTTCTGAGTATTTTTATACCATTAC
CGTTTTCTCCTTATATGGATCGTACGTGGTAGTTTTTTTGTTCTTCCGGA
TGGTGTTTTTCTACGTTGTGACCACGAGCTGGATTTTTTATATCATCTTA
TATGATGATTCAATCAAAATCAAGCAAGATTATGAGCCAGTCACTGCCTA
TATTTTCAACGTGCCCACTTCATACCAGTATTAATATAGTGGGTGTGGGG
AAAGAGAGGTAAACATTATTTGGTTCATGGTGACCTGCAAAATGGCAGCA
CCCGTTATTGAACTACCTTGAGGACTACTGACCCTGTGCCGACAGACTCT
CGGCAGTAAACGCCATCGGTACGCATTTGCTTGACCCGATTAACTCGGGA
CTGACCCGATGACATGTGGCGATTTGAATAAATATATGGACGCCTCGCGG
AAATCGGAAGAAATCCCGTGAGTAAGCACCAGATTCAGCCTGAATATGGA
GAATGAGCAGGCTGACGCGGGACGGGACTGCCGAACCCGTCTCGCGAGAC
CAAATTCTAAGGCGTGTACAGAGACAGGGGAATATTCATTTTCTATGTTC
AGCTGACCACGAACAGGATTGGCAACCTTACCCGGTTGATCCATACTCTG
CTATATGTGATGACCATACATAGTCAGTTGACTATGCTCCGTAGCCGGAG
TAACTGTTATCGGTAGTCGCGTTGGCTTGATCCATTTAAGTTAACGGGGC
CCCACACACTTGGGCCGAAAAAATATATTTTGGTCACAAAATATTGATGA
AACCGTCATACGACTGTAGCTACTAGCCAATAAGTGGGAGGCCAAACGGA
GCTTTATTAGAGAAAATAGAGAAAAAACTGAAAAGCCGTCTTAGGGCACC
TCGGATAACGGAGCAACCACGGCGCCATGGCAGCTCTTTTTTTTTTTTTT
TTAATCACACTTATAGCCGATGGACCTCTAATTACCATCCTGCCTGTAGT
CACAAAGGATCTTCCCATCTCTCCCCGGTTCACGCCTTACAATTTTTATC
GCGATGCAAGTTCAGCACTCTTACAACTCGTCAACCAATGATTGAATTTT
ACTTACTCACGTTCCCACACTTTCCGTTACGAAAGAAAGAACACAAATTC
TGCTTAAGCTAAGAATCGAACTCACGACTTCCGCACTAGCAGGTATGCAG
GTTACCTACTAGACCACTCGGGCGACGAATGGCTGCAGGATACATATGTG
ATCCTATGGCTCAGGGCTATCGGCCTGGGGAGCTTGTAGGTCATGTGTCA
TGTGGCACATTACCAAGGAAGTTGTCTCGGAGCCCAGGACCCTTCCTCGT
TGTTCCTCACTATACAATTTGGACGCACGGTCGTAACCCTTCAAGCACCT
CCTCTGACCCGTGGCCCCCGGACAAGCTCGGTGCAGGTAGACTCCATTAT
CGCCGCTTGTGCATTTGCGTAGCACATGGTAAATACTGCATATATATTTC
CGCGACAAGTTGATATCTCTCCTGTTGCAATATATTTGCGATAGTGCTTG
GGCGGTCCAAACCAGGTCTCCGTTTTCTTTCTGTACTCCTTCACAGCAGT
AGGAACAGCAGCTGGCGTTCTCCGCTCTTGAGCCTGACATCGTCCCCGAG
ACCGCGGTTTTGCGCGGAAAACCTCCCAAAACCTTGCTGGAACACCCTCC
CAAGAGGACAACCTTCTACGTGCTACGAAGCCGAAGAAAGTTGACTAAAT
GTCTGTAGTCACCTTTCTGTGGCATTTGTGGTGGGATTCCCGGGTTTGCA
CAAAACCACCAAAAAGTCGCCCGCCGAACCTCGGTACATGACCTTCGAAG
CCCAACACTTCCTTCGGAAGAAAGATACATGACTATGAATTCTTACGTTT
GGAAGATGTGGCGGTGTGTACAGCAGCGGTCTCACTTCTCAAATTGTTGA
TACCAAAATTATATTTTGAGGCAAAAACGCCCGTATTCACGCCTTTCTTG
TACCGATCAACCTAATATTTAAGGTTTTTTAAGTGTTGTAAAGGTGTCGC
CATGTTTCTAGACCGTCCCTGGCCAATCAGGGGCGGAGCTGCCGACATTT
ATATGCCCTTAATACCCATTCAACAAACCGTAGCAAAAAAACATACGGTA
CAAATGAAGTTTTATATTCCTAGAAAAAGGGGCCCCGTTAAGTATCGCCC
GACAGTGCTGAAAATGGAGTGGACTGATTCCCAAGCTTTGGGGTGATTCC
CAACGTTCGTTTCCAGACTTCGGGAAAAACTTCCGAATGCTTTTGACGTT
TCGAAGGACTGTTATGACTGTTTTAATCGGACACCGATGCCTTCTCCCAG
ACCTGTTGACGCAGGCCCTTAACCCGTGGCGCCGTTTACTACTAGTGTTA
GGCCTGGTTTTCACTTTGTGAACCGGAACTTAGCGGTGGAATACATATTT
TCTTCTTGTTTGGGGTACCCGGCAGTCGGTATGATACACGGAGCCTCTGG
GGTTTGTATGAGATTCATGAGGCGTTAGGGTTCTTTGGGATATGTGACCT
GATGTGTGGTGGGTGATCAAGTCCTCTCTGTCTTGGGGCTCTCTTGCTCT
CTCTGCTCGGTGATGAATAGAACAAGCACGTCTATAATATATATACCTTC
ACGGCACGGCTGCTATAATAGGATCTTAACGTCTGGTCACCCGCCCGGAA
CCTAGAAACACGATCGAAGTGATGTTGATGTTTTCCTACGTCCATGTCCA
TGCCTCCGGCCACACGGCAGAGTAGTGCACTGCACTGCTGGGAAGCCATA
CGTCCGGGAAGAGACGCGGAAACCCCAACGACGCTGCCCGAGCCCCTTCC
TTGACCAGGGCGATCCGCCACTCCACGCGACCATTGCGCTTCGTTCCGTT
GACGGAGGTGAATTTGCGGCGGAAGCCGTGCTCAGGCAAGAGGTTAGCAA
AAGGTTCGTTGACGAATTCCGTACCGTTGTCTGTGCGGAGGGCTCCCGAC
TCCCCGTACTTCTCCTGCAGCGGTTTGATGGCCGCCAGAAAGACGTGAAA
GGCGTGAATGACGGTGTCGACGGATTTGTCCTTCAGGAAGATCGGCCACC
TTTAGTTGGAGAAGCAGTCCACGATGAAAAAGCAGTAAACCGACCCTCCG
GTAGAGGCTGACAAAGCACCGGAGAGATCACCCTAGAGAAGCTCGAGCGG
CCTGGTCGCCCGCCACGCCGTGGACCGCGAAATACTCCGACGAATTCCCT
TCGCCGCCGCGCATTCGGAGCAAGGTACGAGCGTCCCCGTCAGCCGCATT
ACCATTTGTTTCGCAGTCTCGCGCAAGTTGCCCTCATGCGCGTGACCGAG
GCTGGCGTGTAGATCATTGATGCCCATGGACGTGGAGGCACCAGGGCGCA
GAACAGCCGCCGCCGTGGCGGGAGGGACGGTGGCGCTGGGCATCCCGGGG
TTCAGGCAAACGGCGGGTGAGCTATGATGGGCCACTTTGGTCGCTTGCAC
GTGATTCCCGTTGGCGTGCTTGGTGAAGAGAATTATTCCCCCCAGTATGT
GCGCGCCCTCCTTGTCCAAGAGGATGGGGTGAGTTTCTTGGATCTGGTTG
AAGGAGATGATATCGAACCAGATGCCGGGGACCACAGCAACGATTTTCAA
CGTCACCCGATCATTGCTCCACGGCTTCTCGTTCCTTTCGCAGTGGAGAA
CGAGGTTAAGGTCCCCGTAACACACCACCGGCAGCCGCTCCCGTCACCGA
TGATGAGGTACGCCTCCTCCGCAGCTGGCAAACGCTTGTTTCTCACGTGG
GTGCCATCGTCGAAGGTGTGCCTCGACGCGCCGCTGTCCCCGATCACGGT
TGTAGCGCCAAAACGTTTCGACGCGAAAACGTCAGACATGACGTGGGGAA
AGAAGCGCGCGATTCTGAAGTTGGAAGCTGTAGGACACAAGCAGTGGGGC
CATGACCCGATTCCGGGCCACCCCAAACGGAGGAAAGAGGACCACCGAAA
TTCCATTGATCTTCGTGGCCCCCGTCCTCAGCCGCAAAGACGACACCGTC
TCCGCCGTTACCTGCCTGCTGCATAGCTCCATGGTAGCCGCCATCAGGTA
CTCCCGTCGGCCGTGATGGTATGTCATGATCGGCGCCGCGACCGCCAGGC
GACTGTCCAACTGGCACCACTTCATAGCTGACACCGCCGTTTCCGCCGCC
GTGGCCGTGATCGTAGGTGCCATCGCCATAGCCATCACCGCTACCACCAT
AGCCGTAGGCACCACCGCTGTAGGAACCATCGCCGCCGCCATAGCCGTAG
GCACCACCGCCGCCTCCATCGTAGCCAAACGCGCCTGGTGGAATATCATA
GCTGCTGCCGCCAGCCGGGGGAGCGGAGAAGGCGGGAGCAAAGGGGGCGG
GGGGGGGCTACAGGGGCGGCAACGACGTAAGCGTGCTGGGCAGGTTGGTT
TCGAATGCAGTAACGCATCCGATGGCCGTACTGCCCACAGGTGCCACAGA
TCCATTCGAGTCTCGACGGCGTCCTCCAGATTCTGGCCACGTGGCCCTTT
AGCCTTCACCGTCCACAGTGGGGCACCGAGCCGTTGGGTGAGGGCGTCGA
TTCCTCTTGAGGCCATCCTCCGGCGTTGGTTCCGCCGTCGAATGGCCCCC
CGAGACCAAAATTCGTCGTTAGCGGTTTTGGCGGCGGACGGGGCTGCTGC
TGTTGCTGCTGGCGGTTGAAGTGATGGTTGCCTCCACCGCGAGGTTTGGA
CTGCTACCTTCCACGTCCGCCTCCACTTGATCTCCCAGCGCCTCTCCTCG
GTCTTCCGTACCCTCCACATGTGGCCTGGAACCCTCCACCATCAACAAGC
GCGTGCGGGTTGGGCGTCACCCCCGATGCCGACCGCTGTTCGAGCTGACG
CGTCTTGCGGGTGGCCCAGGAGACGCGGACAAAATGCTCTACGTCTCGAC
GCCGAAGAAAAGGAGAGTCGAGCCGGGAGCGCTTTTCGATTTCGTAATGA
TCGGAAAGATTGTGGACGATGATGGTGACGATCTGCTGCTCGTTTATGTG
AATATCGATCTCGCTCGCAGGCGAGTGAGCAACTGATCCACCTTGGAAAA
AAACGTTTTGAGTCCCCATCCCCGTCGTTGCGGACGGTTTCGAGCTGCCT
CTCTAGCAATGACGTCTCAACCTCCCTGGAAGACCCGATCCAATTCAGAA
CTTGACACCATGCATCTTTCACCGCCATAGCCGACAGCACTCTCTATTCA
AAGGCAGCTTCCGCGGTGGCGTCCAAGAGACACGCCCATGCCGCTTGAGC
TTGCTGCACCGGCTGCTCACCGCAACGCGAAATTAAATCACGTTGCTCCT
CCTTCACAGGAACAGGAGTGACCGCTTGATCCAACGTGTACCCCAGGCCC
ATGCCATCCAAGTGGGCCCTAAAACGCAAGTGCCACATCGCGGCCTCATC
TTCGTTTTCGGGAATTGGGGGGGCTGGCGATTTATACCTCCCCCAGAAAA
AAATTGTTGTGTTCACACCTTGTCTCGCAAATGCGTTGGGCCCAGCACGC
CCATCAGCTGCCGTCTCAGCCTGTCCGTCATCATGATTTGCTCGATGGGC
ACTGTCCACCTCATCAGCATCGTCTGTATTGTTCACTCAAGGGGCCCTAT
CCGCTCCCTCAGCTGCAGCCCTTAACGTTGCTGTTTCAGCTTGTGAGGCT
TCGAGCGCGCGGCGCAATTCCTCCACGGAGTCCAGTCTCGGATTTTTTTG
CGCTATATCTGGAGTTTCATATTTCCGGACCGCGACGATTGGTGCACTTT
AGTCGAGGAGGATAATGTGGGGGCGATTCACCTATTATAGCTAAGAACCC
GACGCCCGCGCCCAACTCGAAGCACATTGACATTCGAAGCGCATTGACAT
TCGTCACCATTTTATTCGGGAGCGTGTGGCAAACGGCGAATTCAAGGTAG
TCTATGTGCCATCAGAAGAACAGCACGCGGATTGTCCAACTATTAATAAA
CCGCTGCACCAGGGGGCGTTTGCAGTGCACCGAAATTTTGTGATAAATAT
TGGTTGATTTTTTATTTCTTGTGGTTGACATGGCTTATTTGGGATTTTTT
TCTCGTGGTATCAGCGTGCTAAATATCGAATCCTGGGGGTGGAGTTGAGT
ATGGCATTATTTAACATATAGCAACACGAACAAGGGATGCATTTGTTTTT
GAGTTCGATTTTGGCCATTGATTTCGGGTTTTGATGGCACTTTCGGGTAT
TTTGATGACCGACTTTACTATTATTATTATTAATAGTAGAAGTTTTCCTT
TTCGGTTTGAAAGTTGAGGTGCACATACGCGTTTTACCTGCTGAAAATGA
TAGTTGGGAGAAGCGTTGGAACATGGGGGCTGTTGCCAGAACGGTAATAT
TTATATTGTTTTATTTTTGACCTCTCAAATCACTAATAACGATATCATAC
CGTTCCGCGTAAGCCTGCTCATTCTCCATACTCAGACTGAATCAGGTGCT
TACTTACGGGATCCCTCCGAAGTTCCGCGGCGGCGTCCTTTCATTTATTT
CAAACCGCCATACGCCATCGGGTCAGTCCCGAGTTTATCATGTCACGCGA
TTGCGTACCGATGGCGTTCACTGCCGAGAGTCCGCCGGCACAGGGCCTGT
AAACCTCAAGGTAGTTCCGAACGAGTGCTGCCTTGACAGGTCACCATGGA
CCAATTAATATGCGCCTCTCTTTCCCACACCCACTAATGGTATGAAGCGG
GCATGTTGAAAGTTCCGGCGGTGTATAATGGAGATGAGCAGGCTGACGCG
GGACGGGACTGCCGAAACCGTCTCGCGAGACCCAATTCTCAGGCACGAAC
GCGGACAGGGGAATATTATTTTCCCTGTTCAGCTGACCACGAGCAAGATT
GGCAACCTTACCAGGTTGATCCATACTCTTGCTATATGTGTGACCATACA
TACGATATATCCGGTGCTGGGACCACTAGAGCTCTAAAGCTTTAGCTATA
GTAGTTGTATGTACAGTGAATAAAATACAGCTCCACTAATATTATACCAG
TATTTATATTACTAATATAATAGCTCTAGACTAATAATAGACTATTAATA
GCATTTCCCTATGGAGCTGTGATTTGAACGATTTATTTGACGATCCTTAC
CTGGCGCATTAATTAGTCTATACTGGTAATAGTTATTATTATTATTATTA
TTGAATTATCACATGCAGTGTACTGTAGTGTAGTGTACAGTAGTGTGGTG
TAGTATGGGGTATGTATATAGTGTAGCTGTTCTATAGCAGAGTAGTGTAA
AGCGATTTTGGGCTACATTGTTTAGTTTGCTGTCCCCACCTTATTGATAG
TCGTGTATAAGGCAGGACTTATGATGGCTTTGCACAGGGATGGGATGGGA
TGGGATGGGATGGATCCCTCGTAGAACGACTTATAATGTGACACACATAC
TCATTATTAATACTGATCTGTGATCTGAGCAAGTGACCCCTTCTGTTGTG
TCTCTGTTTGTTCTTATAATAGAAGTATCATACTGGTAGTAAGGTATACC
TGGTATTTCAGATGAAAACACACGAGACACGATTGATAGAAAGATAGAAA
GATAAAAAGGCACGGTTGGGTATCATCGAATCCTGCAACGGAGGACGAGA
CTGTCTCGTTGTCAAACCGAGGGTCTACCACGCTGCATAGAGCTATTTGT
TAATATGTCGTGGAGATAGCCTTTACAAGTACATCACATGTGACTAGTAA
ATTATAAAGGATCATGAGTTTGATTGATGATACCGCAGCGGCTATGCCCG
CTGCGCTGCTACAGGTTAAAGCTAGCCCAGGGTAAACGTGCGAATACTGA
GAGCCTCCGAATAAGAGGCAAGCGTTCCTCCGTATGATAATTCCAATTCC
TTACTGTAATCCTATCAAGTCGCGTCACGCTGTGCCTTATCTTCCCTTAT
CCGTGTCGCCTGAGAAGGGATCGATCTATCAATACTATTAATACTGTAAT
AACTGTACAGAGTTCTGTCGCAATATCTTGCTATTAGTTTAATAGAGTTA
GGTATTAATACTATTAATACTATTTTGATTAAATAGTTTAATAGGTCCTA
GTAGGTCCTGTACACTGGGGGCGAGTTTGAGGCTATCGTCTATGCATTCA
AGTGCTGGTCGCGTTCGTAGGTTCTATGCATTGAGCTATAAAAATATAAA
AATCATTAAAACACTTTTTTTGTTCGTAGCTGAGCTGCAAGTCGGTGTCG
GTGTCGGTGTCGGTGCTGCCAGAATCACCCATCCATCAGGGTTATCAGTT
ATAATAGCTCTACGAGCCAATATTAATATGGTCATGTGTTGTTTTTTCCC
ATCAAAACCAGGCAACGGAGCATCCGCGCCAGCGATTCGATTGGGAGACA
CGGTGATATTCTTCGAGGGACGTGAGGCGATCGGTTGCGATCGGATGAAG
CAGAAAACTATTTGGCAGTGTCGCCATGGAGCATTCCATCACGACGACAT
AGTCGGCAAGCCTTTCGGGTGCAGGGTTAGTTAATGAATACTATTATAGT
GTACCAGTATTGACTAAGCTAGACTACACTGGGCTGAGCCCTTATTAAGA
TTAATTGTAGTTACACCCTATGATACCAGTAAAGCGAAGCCGTGAAGGGT
TCGCTGTGAAAGGATATGGATACATATGGATGTGGATATGCTGGGCAAGG
CAGGATAGGATAGTGATACGATGTGATACACGCTGTGCAAGGCTGTGCAA
GGCTGGGCGGAGTCGCACTGAAGAGAGGGAGGATAGTTAACTGCTCCAAC
TATAATATAGTTAACTGTTCCAACTGCTGGAGATGGATAGGATAAGTTTG
GATAGGATACATCCGGTGGACCCGACACGGCATCCGCAAAAAAACGCCTG
CGGAATCCCATATTGGAATGCCAGATTGGAACGCTATATGCGGTATGAAA
TGTGACGGAGGTACCTCGTTTTCCGTAACGGACCCAATGACACAGGTGTT
TTCTAGAACGACGAAAGGCCACGTATACGCTCTTTCTCCGACCCCAGAAC
TTTGGTGCCAAGTCGTACCCAGCCGAACGCAAATCGTACAGGTGATGCTC
ATTAGGGTTGATATCTCCAGTTTAAGTACCTGGTAGCAATTAACATCTAC
TGCGTTCTAGAACCCAACAACTCACCAACTCGCTGGCCTGACTGGCTGGC
CTACCACACAACTGATCCCCTATCGAGCCTTTAGCTACAGAGATCCCGTC
CCGCGCTACCTTGCGTGGACTGCTAACTCAATGCACTCTCTTCTTGACCG
CGTATACCGAGAACAATGATGAATTCACAACCATACCCTCCATCATCCCC
TGTTCCCTTGTTTACGATGCAACAATAATGCCTTCCGAATTATGTCCAAA
CACAATAAAAAACGGTCGATCTAGACTCCGTATTGATAGACCTGCACTTA
CCCGTTCACTTCTTGGTTTTTGTATAACACGCAGTATGAATTGTATCAGT
CTATCCATATTAATAGTAGACCTAGACTATTAAATACCGTACAGTAGTAT
TGAGGTGCAGTTCTGATGTCTGATACGAACACTAATCGTTCTTCATCCAC
TCCTGTTGCCATCAGGATTTCGACCAGAGTATCGTCATCTTCCGCTTAGA
CCTCAAGCCGGGGGACGTGGTAGTGGAATCGGGAACAGGGAGTGGAGTCA
TGTCGACGGTGAGGACCAAAGTGAAGTGAGGGTGTCAGAAGTGCCTTCAA
TACTTGTATCCAGAACAAGTGTCTCTTGTTGACTTAACCCTAACCCTAAC
CCTTCTCCTAACCCTATCCAGCAATGAAACGACTTCATGTATGATTCACC
GTGATTGACCCACCATGTCAGCTGTACCTCTATTGCATCACCATCTAAGG
ATCACATGGGTATGGTAGTATGGTATTAACAGTATGGTAGTGAAGAGCAC
TGGATACTGTTGGATACTGTAATACCATGCGAGATATGCGAGATATATAA
ACTTGTTTTATCACTTGATGTTCAAAGAAGGGTTGGGGTTAGGGCTAGTC
AAGCTCCGAGTTAGAAATGTGTACACAAGTTTCCACCAGAGCTGCTGATC
TGACGTTTAGGGTTAGGGTTAGGGTTAGGGTTAGGGTTAGGGTTAGGGGC
ACTGATCTACGAGAGAAGATGTTGCCATGAAATATTGTATATTGTGTCAC
AAGATACAGTCGTCGTCTTGAGTTGCTGTGCGATACTTCTCGTTTTCGCG
TTTCTTCGCAAACGCACTGGTAACGCGACAACCTAAAACGTAGGTCTGTG
AAGTCACCCACGCTGTATCAGGCTATCATGCGTGTCGTGTCCATGATCTC
CTTATACGTTAACAGGCTATCATGCGAACCATCGCACCAACTGGCTTTCT
CCATACCTTTGAGTTTAACGAGATTCGCGCAAAAATGGCCCAGGAAGAGT
TTCAACAAAATAATATAGGTAAGGTAGTTAGTAATAGTTTATCGTCTAAT
GTCTAATGTATCATTCTTTTGGTGTCATTGATACAGTAGTATTAGTATAG
TATTAGATTGATACCAGAGGTCTATTACGTCTATTACGTCTATTACGAAT
ACAGTAGAGCATCAAATACCAGTATGTTTGACTCGGTCCGCTATGATATC
AATAACCATCACCACCTCTCACGGTTTGTGATTTTGTGATTTTGTGATTG
GATAAAAAGATCCATCCCGTTCATCCCGTCGTCGCCGAAGATTTTGATGT
CCATGTTGGTACCATTTGCTGTACACTGTACCTAAGTCTCGAGACACCGA
TTGAAAGACTGTTTTCAATACTATTTTCAATAATGTTTTCAATAATGTTT
TCAATACTGTTTTCAATACTGTATCTAAGTTGTGGGAGGGGGAGGGGTTG
GCGGGGGAAGGCATTCGGCGTGATTTGATTTGTGCATGTGTATGCTACAA
TAACACTAAACACTGTCTGTACTGTAAGAGCGAGAAAAGATATGACAAAG
ATGAAGGGCGTGACTCGCTTGTTCGCGTCTTCAGGTGAGCTTGGGAAGGT
GCTACATCGTGACGTGTGTGCTGGGAAAAACGAAGGCGGTGGCTTTGGCC
AGGAGCTAGAAGGCAAGGCGGATGCGGTATTTCTGGACCTGCCAGAGCCA
TGGCTGGCAGTGCCTCACGCGAAGCTGGTGCTTAAATCCGGCAAGAAGAT
TGCCTCCTACTCGCCGTGCATCGAGCAGGTGAGACGATTTTTCTTTTTGG
AAGGAACATCGATTAGAATAGCGATTACTGTATTAGAATAGTGATTACTG
TATTAGAATAGCGATTACTGTATTTTTTACAGAGCCAATTGGAGTCATTG
AAATTGGAGCTACTGGAAAATGCGCCCCAAAAACATTGAAGTACCCTTTC
CCCAACTGCGTTTCCCAACCAACGCCATCAACGCCATCAACGCCATCATA
GTAATATTTGGTGGACGAGAAATACTTGTACGTGTTTCCAAACCCCACGC
CCGCAAAATTAGTCCGATGGTTGGGAAGCGCGTGTACTGTACTCCCCAAC
AAGATTCGAGACTATTAATATTTAAATAGTAGTTCACAAGTGCCCAGTGC
GGCGTAACCTCATACCTTGGTATTAATTTTCAATAACGCTTGGGGCGCGG
TGATTCAGCCACTCAGCCATTCAGTTATTCAGCAATTCAGTCATTCATAC
ACATACAGCTATTAATAGACACTGTAGTGAGCTATTAATAAGCTATTAAT
AAGCTAAGGCGAACACCAATAGTAGTTGGAAAGGGGAGATGGTGGACTCC
CCGACTTATGGTAAACGTGGTAAACGATGTCGAGGTAATAATAGGTGCAG
GGCTCGCAGCCTTGGGAAAGTCAGCCGCTTGAGCTCTGGCTCGTGGTTGG
GGCTATAACGATAAGTTCGGTGTTAATGGTATTTGGGTCAAGCGAACCCC
AGGTCCTCGCTATCCTGACCGACTATTAATACTGGTACAACGATTGACTA
TTAATGTAGTATTGTAGCCGAAGGCCTATCTTTTAGACTATTAGAGCGAA
GAGTCCTTGGCTGGGCCCCAGGAGTGCCGGGAAAAGCTACTTATACGGTG
GACAATATCGCTCGTGGTCTGCTGAACAGGGAAAAGAGCAGAGAATAAAA
AGATAAAAGTCTGGCAGCACACCCCCAATCCCCCCAACGGCGCTCGTCCC
GCACAACAAAGACACAAATATTAAGAGAACATAGGGCGCTTACTGTACAA
CTATTAATTAGAGAACAAAGATAAAAGATGGACAGAAGGGCATCACGTAA
CGCACCTACATGCCTAGGCGCTACTCCGGTCGCGGTTCGTCTCGCGCCCG
TACAGGGTTCCTCCGGCTCGTTGACTGGGTCAATTAGTGTCACTTCATAG
GTTCTACGCTTCCTTATACGATAGCAAATTTACCTACCGTCTATCGGAAT
GGTGTTGTTCAAGAGATGTATCCTACCAGTATATATATTAGTACAGTACA
CTATTAATATTAATATTAATTTTAATACAGTATATATTAGTACACAAGAA
CGAAGAGACATTTTTGTCGTCTTTTTCTTTGCGCAATAACCCTAACCCTA
ACCCTAACCCTAATCCTCCCCCTCCCTAACCGTGGTGTGATTCTACTCAT
GCAGTTGAGATTGTCTCAGGCTGAATGCGAACTTCGCAAACTCATCGACC
AGCATTTTCCAACCCATAATATTACCAGACCAGACCAGACCAGACCAGAC
CCCCCCTCCTCGTCCCCGCTTGAAGAATCAATTGAATCAATTGAATCAAT
CCAATCAATCGAATAAATCGAATCAGTGGCTGTTTAATGGCGGTTTTGGA
GCCGTTTTTTTCTCTCGTGTGTTTTATGAGCTCGAAAACCGTGATTCAGT
AGCGACCGTGATATATTTGTTTCCCTTTAGACAGCCTTTAGGAAAATCTT
GTGGTTTTGGGGGGTAAACTTGAGCGACTATTATAAAAAGTCACCATGGC
CTTGAGGTTGGACCGATAGCAAAACCAACATAAATATTGTCAGTTGGTCA
GTTCATTCAGCAGAGCAGGGATCAACGGGGTATGGTTGCCAACCCTGCTC
ATGGTCAGCTGAACACGTGAGAAGAATTTTCCTAGTCCCAGTTCGCGCGT
GAGAATTTGGTCTCGCGAGACGGGTTCGGCCGTCCCGTCCCGCGTCAGCC
CACTGATTCTTCACACTCAGGCTGAACCTGGTGTTTACTCGCGGGATTCC
TCACTTTTTCTACGACGACATCCACATAAACCGTCAACCGTCAACCGTCA
ACCGCTATCAAGTGAGTTCCGAGTTTATTGTGTCGCGCCGTATGGCGTTC
ATTGCCAAGAGTCCACCGGCCCAGGGCCACCATGGACAGATTTTTGTGCG
CTTATATTTTCCCACATCCACTATTGGCAATGACATGACATGTTGTGGGT
AGGAGTGATACAGGAAGTATGATATCACAGGCGGTACACAAGACGCCAAA
ATGTGTGCGCGGAAAAATTGGTGGTGTTCAAAGTTTTCTTGACTCAAGCA
ACACCCCACCCGACCGATCAAAGTCCAGAATTCTTCGGGTCGGTACAGAC
GCAGCGCAAATTCTTCAAAGTTTGCAAACGTCTCAAACTTTGGAAGGTTT
TTCTGGGGCACTATTTCGAAGATTTGGAAACAATTCGGAAACGAGTGGGT
CACCTCAACCCTAACCCTAACCTCAATTTTTCGGTACTAATAGTCGTCTC
TCGCACGCCGTTTGTAACTGTGTAGACTGACTGTGATTGCCACGGGCTAC
CTCCGTGCACTGTTAATATTAATACATTAATTAATTAATACTGACAAGAC
TAGAGTATTAATAAACTTGCCACGTTCCTTGCCAGCCAGTTCGTGATCCT
CAGCTCAGGATTATGAGCCAGCCTGTGTTCTACAGCCGATGTAATCAATT
TTTGCGTCGGATTGTCCTGGTTTTAGTCCATGGGAAAGGGGCTTCCCGAT
CATAATACTCTTTCTAGCATCTCCAGCTGAAACACAGTGTTGACTACGGT
ATGAATAATAATAATTTCCAAACTCTAGAACAGCTGTTTCCATTTTTTTG
GAAGACCAGTTTTTGCATTCAAACCAAATTTTTCGAAGATCCCTGGAAAA
AGGACAGGCGCACAGATGCACATTAGTAGCCTCGCGCTGGCATACCGCCA
TCCTCATCCTAACCCTTTCGGTTACGATGGCATAGTTACAATTTAGTAGC
CGCTATTGCTATAATTTATGCCATAGTTTTTGTCCGTGTGTGTACGGCGC
CACCAAAAAGGACGGCGACGCAATGGCTTGGCTACCATGCTTGTTTCTCG
TTGATAACACATGCTCACCGGAGCGACCCGAGTGTTCCACGTGTGGACAA
AATGCGATCGATCCTTTGTCTTTGCCTCCAATGAAGGACGCCCGTTGAAG
AAAGGATTTGATGATACTGTATGAGTAGTTACTCTGTACTCTGTACTATG
CTATTAATAACAATAGTATTATTATAGTCTAACTAGCAGGTAGCTACTAT
TAATACCTGGTACTACTTTATTAATGTTAAAATAGCTTTTGCGGGAGTGA
CGCTCTCCTTTGTGGAGGAGAGGTTTCGTGGACTCGATCGTACGAATGTG
TGTGAGTGTGTGTTCTTCAAATCAAGCGATCGGACTCCAACGATTATATT
AATGTATCCAGTAATATGCGCGGTTGTTCAATTATGTCAGTTACGTGATC
TGAAGAAAACGGCCAGGAGAAAATCTGCAAAGATCCAACGAGAACTGAAG
AAAAAATAACTGCTAAAAAAGGTTGAAAAAAAATTAATAAAGTAAAAGCA
CATATTATTATTTCCGCACATAATTCCGATCTCTCGAGCCCGTGGTCACA
GACGCAGGTTTCCCTTTCCATATCATCGCTACATCCTAAAAACAAATAAA
ATAGAAAGGGAGGAAAAAAATAATAGACGAGAAAAATAAGACAAGAGCAA
AAACAAAAGCAAATACCCGCCACGCATATCCGAGAGACAAACAAATAAGC
AAGCAAGACATACCAAGTGTCAAGACCACAAGACTGCCGATACCGTACGC
GAGTCGTTAGGCACACCCCCCACCAGTCACTGGGGAAGGCAAAGAAAATT
AAAAGCAGATGTGGTGCTCCTGAAGATAGAGACATTTTCTATGTACTGTA
GAAATGTATATGATAGAAACGAGAGGACATAACTATTAACTATTAATACC
AGGTACACACTATTAGAGTGGAAAACAGTCCAGGTTACCGTATGTAGACC
CCGTAGACCGCAAGTCGAGAGCGCATATGATTCCCCCATTCTGATCGCGA
CTACCTTGCATTTTCCCACACTGAAATAAGCTCTCAGCCTTCCATATCGA
CGCAGCCGACGCCGCTTCGGGGATCCTTGAGGTGTTCCAACAAGTGCTGC
CTTAAAACGTCTCAAGCTCGCTAGGGTCACCCTAGGTACCACATTGCCCT
TGTCCTCCTCTTCCTCCTTTTTCCTCCGCTGGGTTTTGCTTTTCGCTTCG
GACGCCTCAATCTTCTCCTCAATCTTCTCCTCAACCTTCTCCTCCACTCA
CTCACGCAGCCATGAACCTTCCCATCCCATCCCATCCTCCCTATTCGCAT
TTGTCACACCATGTCCTCGGATCTAAAAATAATAATAGTGATAACAATGG
TGCGGTGGCACTCCTACCCGAATATCCCTTTCCACGCCATCCGCCCACTC
CTATTATTATTAGTAAGCCATTAATAAGCTTCCCCTCCAGCCAGCGCTGT
TTGGCGTCATACAACTTTCCTGGCATAGCCCGCTTGGGTGGTCTGTGATC
GCCCATGTGGAAAAGCCCTCCCCCACTATCTGTAATACGTAATATTACCT
CGTGGCAGGGCCAATGGTTGTCCCGATACGTTCACGTTAAGTTCGTTGGA
GAGCGTCGTTGAAAGAGAGAATGCGGTTAAGCGGCGACCTGCAGCAGGTT
CTGAGGACCAGAAGAAACATTTTATGACTTGCAGTACGGAGCTTGTTGTA
GTGGCACTTTGGTCCTTAGAGAGGGGTCCACTTGGCGCATCCGTACAGGA
GAGTGTAGCCTCTACGACTTCGGGTTTGACCTTCTGGGCCTTCAGGTGCA
GCAGACTTGCTTGCCTTCGTGCGGCCGTACAGGTCCCGCTTGTAACGCCT
GACGCTCATCCACCCCGTACGAATCCACCGGGCAATCTCGGCCGACAGGT
TTCGAGTTTCAGTAGCGGCGCTCCCCAAATAGATAAAGAAGGTTGTCTGG
CGGTACTGTTGCCCCGTAACGTTGAAGACTGGTATCTGCGTTGCCGGAGC
ACGCGTAGTCGACATGCACATGGTGTCCGTCATGTTCTCAAAGATACTCT
GACCAAATATGTGCGCCGAAGACTCGAAAGAAGACCGCCGTCATCAGCTT
TCATCCGCGTGCCGACCGCAACACTATACACGCATCGTCATCATACAGCA
TATCCCGCACAGCACGCCGCGCAAACTTCGGAGCCGTTTCGGGGCCAATC
CTCGCCGGCTATTCTTAAAGATGGACAATGTCTGCGAGTATATGCCCGTG
CTTAGTGGATCTCTCTAGCATGTCGAGCATTACCGTAGCGAAGAAAACAT
TGAATACCAGCGGAGAAAGCACGCATATTTGCCACAGTCCCTGTTCAACC
TTGAAAATCACCGAGCATGCTCGTACGTCATCCCCAATCGCATGCAAGCT
CTCATCCCACCGTTGTGGAATTGACCGATTACTGCGATCATCACATCTGC
GGGGGCACCCCAAAGCGGGCGAGTACCTGCCAAAGAAGTTGACAGGGTTG
TAGGCCTTCTGCAGATCGATGAAACCCAGGAATATTTGTTCGCGCGCTTT
CCTTCCCGGCTCTTGTATCCTGCGCTTCGCCAACATATGTCCCTGGTCGA
TCGGTGCTGGTCGAACCCGCACTATTCTTCCTGCAGCAGTCCATAACGCT
ACCCTCGCAGTAGGTGCCATGTCTAATAGCGACTGTCATAAGAAGGACCT
TACCCGCGCGAGCTGCGAGTGTGTGGTGCCGCTGTAGTTCCGGCACTCGG
TCCTGTCCTTGTGTAAAAATCATTGTGTTAGAGAGCATTGGGTTCTGTCC
TTTTGTACTTCGAGAAAAGAACAGCCAGGACTATTTTGTAGTCTTGATAC
AAAGTACAGTACTATTATACCTGGTACGAAGTATATCGTTTGGAGATGAC
ACGTTCTACGATAGCAACCTTACCCATGTCAGCGACGGTTTACAAACCAA
CTCCGCCACTTTGAGTCCCTTTTTGAGTCTCTTTCTACCGGTCCAATCTG
TTCATGGTTCAATTTGGGGGAAAAGAGAGGCGCCTGCATTAATTGGTCAT
AGTCCATGGTGGCCTGCAAAATGGCAGCACCCGTTACTGCAACTAGCTTG
AGGACTATTGACCCTGTGTCGGCGGACTCTCGGCAGTGAACGCCATTGGT
ACGCAATTGCGTGACCCGGTAAGCTCGGGACTGACCCGATGTCGTTTGGC
GGTTTAAATAAATAGGCGCCGCCGCGGAAATCGAGAGGAATCCCTTGACT
ACCAGATTCAGCCTGAGTACTTGTGTGGAGAGTGAGTAGACTGACGCAGG
ACGGGACGGCTGAACCCGTATCGCGAGACCAAATTCTCAGGCGCGAACGG
GGACAGCGGAATATTCATTTTTCCTGTTCAGCTGACCACGAGCAGGATTA
TTTAGCAGCCTTACCCGGTTGATCCATAATCTGCTATATGTGATGACTTT
ACATACATGTTGTGTGCTTAGTACAAACCTATCACGCTGTTTGACGTTAT
GTGTGTGCTTGTTTATGAGTGGTTATACAAGTATTAATACCACAAAAAGG
TTCGCATTTTCGTTGAAGAAATCGACGGTTTCGGGGGGTACTATCAATAT
TGTAGAACGTGTCAGATTGTGCACCAAGGAGTCCATCTTTGCAGGATGAG
AGTTCAGTCCTCCCCCCGAAAATATGTCGCGAAGCACTCACCCAGCAGTG
CTCGGCAGACGGTGCGCATCAGTCATGAAAGGGGTCCTGACGTCTTGCCT
ACTGTTAGCTGATTCGGAGCACTCTTTGTGCCTATCCTGACTCTTGTTTT
GTACCCAGCACAGTACATTACTACATTTACACACAAGTCAAGCAGTACAG
CTGCACATTGCCGAAGAAAAACGTATAGTAGGGAAATAATTGATTGCCAT
AAAAAAGGCTTACTCGGAATATTTCTTGCGAGGCGTTTCACCTCGATACC
TCGATTTGTTAAAAAAAATAATACCTGGTACTTTATTTCCAAGCTGTTTA
GCCCATAGAAGTCTGTCTAAATCTAAAGTTTTAATTCACGCTCGCGCCGA
CCACCATGTTTGAAGCAAAATCTGAACGCATTTGCGGACAGCAGTTGCGG
ATGCGGAAGGAAGGTCGCGGTGGTCTTCCCGGAAGCCAAAATTTCTCATC
AATGGAAACTAGAAGCGGTGTTGTCCTTTCATATTGATAAAATCAAAATC
TCAAGGCATTTTTTCCAACCCTTTGAGCATCCATCCAATGAGGGTTAAAA
CATGGCAAAACATGGCAAAACGATTAGGTGGGAACATACCAGGTATTTGT
CTTGTTGCTCACATTAGGCGTATTGGTTGCCAACCCGTAAAAACTACAGT
ACTTCACACGGTGGTCAGTTTCGCTTGTGGTCTCCTGAACAGAGAAAATA
TAACAACTAGAAAGTGTGGCAGCGCCCCCCCCAACGCTGCCGGTATGGTG
GAAAAAAACAAAATCAAAACAAAGCATAAGGCGCGTACAATAAAGCGGTA
AAGTTTTTATAATTTGACACGGTAGGATTCTGCTTTGGTGCTACCATACC
GTCTTTCGCTCAGCCCAAGGTGTTGGTGTTGGTGATACCCGTTTGTCTAT
GTGAGAAAACTGTGGCTGAGCAGTATGAAGATGTTCCCACCAGGTACCTC
CTTGGCCGCACGCCCTAGCCTTCGTAAACTGTACGCATACCTCAGGTTCA
CTACCGACTTCCTTCCTTCCCTCTTCTGGCATTGTTTGTGTGTGCTTACT
GTGCAGGTTATGAAGACGTGCGAAGCGCTCCGTTCCGAAGGCTTCCACTC
TGTCACAACCTTAGAGTGTCGACTTCGGCCCATTAACTACGCCGAGGTGC
AGCTTGATACGCCAGACTTTGGATCACCAGTTGTATCATTAGCTGCATCA
TCAGTAGCTGCGTCGCAGGGGCAAGTCGCTGCCCCCGCTCCACCATCATC
AGGAGATCGTGATGTTACTGAGATTGCGACGGGGACTGCCAAGGAAAGCC
ACGCCGGAGGAAGCAACGGCGTCGAAGGTACGGCATGCACGCCACCCCCC
CAAGAGAGTGAGAATGGGAAGGGAATGAAGAGCACCGACAGGGAGAGAAG
TGGTGATGATTCATCAAGAGTTAGGGATAGAGAAGCTGCCGTCGACCGCG
TCGTCGATTACGCGGAGGCCATCGAACATGCGGGCCAACGAGTTGTGAAC
TCCGGGGTGGAAGACACCACTACTGCTGTGGATGACTCCAAAGACCACCC
CGTGACGGAATCCGCGAAGGAATCGAAGAAACGTCCTAGAGACGAACCTA
CCGAGGGCGGTGCCGATACGGACTCGACAGAGTACGGCGTGGGTCGCGGA
AGGAATGAGCGTCTACAGTCCAAGGCAGCGATACGAGCAGCCGAGGCCGC
AGCAGTCAATGGAGCAAAGCCGAGAATGCTCCACAAACTCGTGTGCGCCC
AGCCATTTCCTGTCATGCGGGGCCACACGGCCTTCCTCACGTTCGCCACC
ACGCCCGTCGCACCGCGGTTAGGGTCAGACTTAGGGTTAACAACTTCATT
GAAACACGCTGAGGTTGAGGAAAAGGTTAACACAGTAGACTCAAAGGGCG
GCAAGTTGAATGGTGATAGCATAGGCGATGACGGTGACAACCAACCCAAA
TCGACTTGCGTCGACGGTCATGCTGGTGCGAGGATTGTACGGGATGGGAG
AAAAGGACTAGATGTCGATGACGAAGACCGCAAGGGGAGGATTCACCTCG
CCGAAAATGTCGAGGGTGGGCACCTTGTCCATGCACCAGATAACGGTGCT
CTTCTGCCTCCGACAGACAGGCGATGACCTTACCTCTTCGGATACTCAAG
CATTGCTGTAAGAAACAGGCTCTAGAATAGATCATAGACTGGTCTGGTAC
AAGACAAGCTGTAAAGATGACCCTTCTATCCTCCTCGCACCGATGGTGTT
CGGGCTTGACCAGCGTCATATTACCGTATCGTAGTCCCGTGTTTTGAGGA
GTGACTGCAGCACAAGCTCTTTTTTCAAATACAAATAATACTTCAAACAG
GTTGACAAGTGCACAGTGTGTCTGTGTTCTTCACATTAACCGATCGGGCC
CCAACCA back to topCoding sequence (CDS) from alignment at F-serratus_M_contig961:282471..308627+ >mRNA_F-serratus_M_contig961.20948.1 ID=mRNA_F-serratus_M_contig961.20948.1|Name=mRNA_F-serratus_M_contig961.20948.1|organism=Fucus serratus male|type=CDS|length=3606bp|location=Sequence derived from alignment at F-serratus_M_contig961:282471..308627+ (Fucus serratus male) ATGGACTTTCGAAGAGGCCGCGAGAAAGATGGCTCTAGAGAAGTAATCGA GAGTCCAACAATAAGCGAAATCGGGGGCATCGATGGACTTTCGAAGAGGC CGCGAGAAAGATGGCTCTAGAGAAGTAATCGAGAGTCCAACAATAAGCGA AATCGGGGGCATCGGCAACGGAGCATCCGCGCCAGCGATTCGATTGGGAG ACACGGTGATATTCTTCGAGGGACGTGAGGCGATCGGTTGCGATCGGATG AAGCAGAAAACTATTTGGCAGTGTCGCCATGGAGCATTCCATCACGACGA CATAGTCGGCAAGCCTTTCGGGTGCAGGGCAACGGAGCATCCGCGCCAGC GATTCGATTGGGAGACACGGTGATATTCTTCGAGGGACGTGAGGCGATCG GTTGCGATCGGATGAAGCAGAAAACTATTTGGCAGTGTCGCCATGGAGCA TTCCATCACGACGACATAGTCGGCAAGCCTTTCGGGTGCAGGGTGTTTTC TAGAACGACGAAAGGCCACGTATACGCTCTTTCTCCGACCCCAGAACTTT GGTGCCAAGTCGTACCCAGCCGAACGCAAATCGTACAGGTGTTTTCTAGA ACGACGAAAGGCCACGTATACGCTCTTTCTCCGACCCCAGAACTTTGGTG CCAAGTCGTACCCAGCCGAACGCAAATCGTACAGGATTTCGACCAGAGTA TCGTCATCTTCCGCTTAGACCTCAAGCCGGGGGACGTGGTAGTGGAATCG GGAACAGGGAGTGGAGTCATGTCGACGGATTTCGACCAGAGTATCGTCAT CTTCCGCTTAGACCTCAAGCCGGGGGACGTGGTAGTGGAATCGGGAACAG GGAGTGGAGTCATGTCGACGGCTATCATGCGAACCATCGCACCAACTGGC TTTCTCCATACCTTTGAGTTTAACGAGATTCGCGCAAAAATGGCCCAGGA AGAGTTTCAACAAAATAATATAGGCTATCATGCGAACCATCGCACCAACT GGCTTTCTCCATACCTTTGAGTTTAACGAGATTCGCGCAAAAATGGCCCA GGAAGAGTTTCAACAAAATAATATAGGTGAGCTTGGGAAGGTGCTACATC GTGACGTGTGTGCTGGGAAAAACGAAGGCGGTGGCTTTGGCCAGGAGCTA GAAGGCAAGGCGGATGCGGTATTTCTGGACCTGCCAGAGCCATGGCTGGC AGTGCCTCACGCGAAGCTGGTGCTTAAATCCGGCAAGAAGATTGCCTCCT ACTCGCCGTGCATCGAGCAGGTGAGCTTGGGAAGGTGCTACATCGTGACG TGTGTGCTGGGAAAAACGAAGGCGGTGGCTTTGGCCAGGAGCTAGAAGGC AAGGCGGATGCGGTATTTCTGGACCTGCCAGAGCCATGGCTGGCAGTGCC TCACGCGAAGCTGGTGCTTAAATCCGGCAAGAAGATTGCCTCCTACTCGC CGTGCATCGAGCAGGTTATGAAGACGTGCGAAGCGCTCCGTTCCGAAGGC TTCCACTCTGTCACAACCTTAGAGTGTCGACTTCGGCCCATTAACTACGC CGAGGTGCAGCTTGATACGCCAGACTTTGGATCACCAGTTGTATCATTAG CTGCATCATCAGTAGCTGCGTCGCAGGGGCAAGTCGCTGCCCCCGCTCCA CCATCATCAGGAGATCGTGATGTTACTGAGATTGCGACGGGGACTGCCAA GGAAAGCCACGCCGGAGGAAGCAACGGCGTCGAAGGTACGGCATGCACGC CACCCCCCCAAGAGAGTGAGAATGGGAAGGGAATGAAGAGCACCGACAGG GAGAGAAGTGGTGATGATTCATCAAGAGTTAGGGATAGAGAAGCTGCCGT CGACCGCGTCGTCGATTACGCGGAGGCCATCGAACATGCGGGCCAACGAG TTGTGAACTCCGGGGTGGAAGACACCACTACTGCTGTGGATGACTCCAAA GACCACCCCGTGACGGAATCCGCGAAGGAATCGAAGAAACGTCCTAGAGA CGAACCTACCGAGGGCGGTGCCGATACGGACTCGACAGAGTACGGCGTGG GTCGCGGAAGGAATGAGCGTCTACAGTCCAAGGCAGCGATACGAGCAGCC GAGGCCGCAGCAGTCAATGGAGCAAAGCCGAGAATGCTCCACAAACTCGT GTGCGCCCAGCCATTTCCTGTCATGCGGGGCCACACGGCCTTCCTCACGT TCGCCACCACGCCCGTCGCACCGCGGTTAGGGTCAGACTTAGGGTTAACA ACTTCATTGAAACACGCTGAGGTTGAGGAAAAGGTTAACACAGTAGACTC AAAGGGCGGCAAGTTGAATGGTGATAGCATAGGCGATGACGGTGACAACC AACCCAAATCGACTTGCGTCGACGGTCATGCTGGTGCGAGGATTGTACGG GATGGGAGAAAAGGACTAGATGTCGATGACGAAGACCGCAAGGGGAGGAT TCACCTCGCCGAAAATGTCGAGGGTGGGCACCTTGTCCATGCACCAGATA ACGGTGCTCTTCTGCCTCCGACAGACAGGCGATGAGTTATGAAGACGTGC GAAGCGCTCCGTTCCGAAGGCTTCCACTCTGTCACAACCTTAGAGTGTCG ACTTCGGCCCATTAACTACGCCGAGGTGCAGCTTGATACGCCAGACTTTG GATCACCAGTTGTATCATTAGCTGCATCATCAGTAGCTGCGTCGCAGGGG CAAGTCGCTGCCCCCGCTCCACCATCATCAGGAGATCGTGATGTTACTGA GATTGCGACGGGGACTGCCAAGGAAAGCCACGCCGGAGGAAGCAACGGCG TCGAAGGTACGGCATGCACGCCACCCCCCCAAGAGAGTGAGAATGGGAAG GGAATGAAGAGCACCGACAGGGAGAGAAGTGGTGATGATTCATCAAGAGT TAGGGATAGAGAAGCTGCCGTCGACCGCGTCGTCGATTACGCGGAGGCCA TCGAACATGCGGGCCAACGAGTTGTGAACTCCGGGGTGGAAGACACCACT ACTGCTGTGGATGACTCCAAAGACCACCCCGTGACGGAATCCGCGAAGGA ATCGAAGAAACGTCCTAGAGACGAACCTACCGAGGGCGGTGCCGATACGG ACTCGACAGAGTACGGCGTGGGTCGCGGAAGGAATGAGCGTCTACAGTCC AAGGCAGCGATACGAGCAGCCGAGGCCGCAGCAGTCAATGGAGCAAAGCC GAGAATGCTCCACAAACTCGTGTGCGCCCAGCCATTTCCTGTCATGCGGG GCCACACGGCCTTCCTCACGTTCGCCACCACGCCCGTCGCACCGCGGTTA GGGTCAGACTTAGGGTTAACAACTTCATTGAAACACGCTGAGGTTGAGGA AAAGGTTAACACAGTAGACTCAAAGGGCGGCAAGTTGAATGGTGATAGCA TAGGCGATGACGGTGACAACCAACCCAAATCGACTTGCGTCGACGGTCAT GCTGGTGCGAGGATTGTACGGGATGGGAGAAAAGGACTAGATGTCGATGA CGAAGACCGCAAGGGGAGGATTCACCTCGCCGAAAATGTCGAGGGTGGGC ACCTTGTCCATGCACCAGATAACGGTGCTCTTCTGCCTCCGACAGACAGG CGATGA back to top
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