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Homology
BLAST of mRNA_P-littoralis_Contig78.66.2 vs. uniprot
Match: D8LT02_ECTSI (Dimethylargininase n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LT02_ECTSI) HSP 1 Score: 513 bits (1320), Expect = 2.090e-177 Identity = 255/294 (86.73%), Postives = 277/294 (94.22%), Query Frame = 1
Query: 76 MTAMHLMNSRVVALVRGVPKSFAKAVMDKESAAALGGKTIDWSLASKQHASYVEALSKIVDSVETLPAVEAHPDCPFVEDAVVYARGIAVTLRQGHESRRGEVDAVREALTSRPALKCVQTVDMEDPEARCDGGDVLFTGRHMFVGISERTNQAGAAALAKAFGASLPVIPVPVTGALHLKSLVSMIKPGVFLFAKNDAGTEVVARMAAEVGATAYKAIGVPDQTSANVVSVVHKGKWRGALIQGGRCDESRWLIRKCFTEKEQAQVLEIDYSEMCKPDAALTCCSVLLGGQPA 957
MTAMHLMNSRV+ALVRGVPKSFAKAVMD++SAAALGGK IDW+LASKQHA YV+ALSKIVDSVE LPA+EAHPDCPFVEDAVVYARGIAVTLRQGH+SR GEVDAVREAL + PALKCV+TV MEDP+ARCDGGDVLFTGRHMFVGISERTN+AGAAALAKAFG SLPV+PVPV GALHLKSLVS+++PGV LFA+NDAG E V MA++VG TAYKAIGVPDQ SANVVSV+HKG+WRGALIQGGRC+ESRWLIRKCFTEKEQA+VLEIDYSEM KPDAALTCCSVLLGGQPA
Sbjct: 1 MTAMHLMNSRVIALVRGVPKSFAKAVMDEKSAAALGGKAIDWALASKQHAGYVDALSKIVDSVEALPALEAHPDCPFVEDAVVYARGIAVTLRQGHDSRIGEVDAVREALATNPALKCVKTVHMEDPDARCDGGDVLFTGRHMFVGISERTNKAGAAALAKAFGPSLPVVPVPVAGALHLKSLVSLLRPGVLLFARNDAGQEAVGSMASDVGETAYKAIGVPDQPSANVVSVIHKGQWRGALIQGGRCEESRWLIRKCFTEKEQAKVLEIDYSEMIKPDAALTCCSVLLGGQPA 294
BLAST of mRNA_P-littoralis_Contig78.66.2 vs. uniprot
Match: A0A835YN07_9STRA (Dimethylargininase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YN07_9STRA) HSP 1 Score: 241 bits (616), Expect = 1.510e-71 Identity = 144/296 (48.65%), Postives = 185/296 (62.50%), Query Frame = 1
Query: 97 NSRVVALVRGVPKSFAKAVMDKESAAALGGKTIDWSLASKQHASYVEALSKIVDSVETLPAVEAHPDCPFVEDAVVYARGIAVTLRQGHESRRGEVDAVREALTSRP-----ALKCVQTVDMEDPEARCDGGDVLFTGRHMFVGISERTNQAGAAALAKAFGASLPVIPVPVT---GALHLKSLVSMIKPGVFLFAKNDAGTEVVARMAAEVGATAYKAIGVPDQTSANVVSVVHKGKWRGALIQGGRCDESRWLIRKCFTEKE------QAQVLEIDYSEMCKPDAALTCCSVLL 942
N R++ALVR VP +F KA+ ++A G TID +LA +Q YV AL K+VD+V +PA +A+PDCPF+ED VV ARG AV R GH SR GEV AV + + AL+ +QT+ D EA DGGDVL+TGRHMFVG+S+RTN A A L +AFG SLPV+P+ + G LHLK LV+ + PG + AG +V RMA V AY ++ VPD+ +ANVVS+ H WRGAL+QG RC +S L+R F Q V E+D SE K D +LTC SV+L
Sbjct: 6 NKRLIALVREVPSTFHKAL-----SSAPGAGTIDVALAKQQWQGYVSALRKLVDTVHVIPADDAYPDCPFIEDTVVCARGTAVLTRPGHPSRMGEVQAVGDWFKTAEEYAEGALQ-LQTLAELDAEATLDGGDVLYTGRHMFVGLSKRTNAAAARCLQRAFGPSLPVVPINIQDLDGVLHLKCLVTGLGPGALCVVDSPAGRQVGERMAGAVDGVAYTSVAVPDEFAANVVSI-HSDTWRGALVQGNRCRDSVNLLRSAFASSASSSSSLQGAVHELDMSEFIKADGSLTCLSVIL 294
BLAST of mRNA_P-littoralis_Contig78.66.2 vs. uniprot
Match: A0A836CCP0_9STRA (Dimethylargininase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CCP0_9STRA) HSP 1 Score: 234 bits (597), Expect = 7.170e-69 Identity = 137/290 (47.24%), Postives = 182/290 (62.76%), Query Frame = 1
Query: 91 LMNSRVVALVRGVPKSFAKAVMDKESAAALGGKTIDWSLASKQHASYVEALSKIVDSVETLPAVEAHPDCPFVEDAVVYARGIAVTLRQGHESRRGEVDAVREALTSRPALKCVQTVDME--DPEARCDGGDVLFTGRHMFVGISERTNQAGAAALAKAFGASLPVIPVPVTG----ALHLKSLVSMIKPGVFLFAKNDAGTEVVARMAAEVGATAYKAIGVPDQTSANVVSVVHKGKWRGALIQGGRCDESRWLIRKCFTEKEQAQVLEIDYSEMCKPDAALTCCSVLL 942
++ R++ALVR VP SF +AV + A G ID +LA +Q +YV L +VD V +PA E HP+C +ED +V+ARG AV + G+ SRRGE AVR +L + +K ++ M DP+A +G DVLFTG+HMFVG++ RTN AG L +AFG SLPVIP+ + G A LKSLV+ ++PG+ A ND G EV RMA VG ++YKAI VPD+ SANV+S+ + GKWRGAL+Q RC+ S LIR F EQ +LE + SE K LT V +
Sbjct: 1 MIKGRLLALVRQVPNSFGQAVSLSQPA----GTLIDVALARRQWDAYVGTLRHLVDEVVEVPASEDHPECAAIEDLLVFARGSAVLTKPGNPSRRGEAAAVRSSLENNEGIKGIKLHMMSNMDPQATLNGHDVLFTGKHMFVGLNARTNDAGVECLKRAFGKSLPVIPIDLEGIGASAASLKSLVTSLRPGLLCVAANDVGLEVAGRMADAVGRSSYKAIAVPDEPSANVLSL-NSGKWRGALLQADRCENSVGLIRGAFELNEQNSILEHEMSEFVKAGMGLTSLCVFV 285
BLAST of mRNA_P-littoralis_Contig78.66.2 vs. uniprot
Match: A0A1Y1Y505_9FUNG (Dimethylargininase n=1 Tax=Basidiobolus meristosporus CBS 931.73 TaxID=1314790 RepID=A0A1Y1Y505_9FUNG) HSP 1 Score: 183 bits (464), Expect = 9.200e-50 Identity = 118/276 (42.75%), Postives = 151/276 (54.71%), Query Frame = 1
Query: 115 LVRGVPKSFAKAVMDKESAAALGGKTIDWSLASKQHASYVEALSKIVDSVETLPAVEAHPDCPFVEDAVVYARGIAVTLRQGHESRRGEVDAVREALTSRPALKCVQTVDMEDPEARCDGGDVLFTGRHMFVGISERTNQAGAAALAKAFGASLPVIPVPVTGALHLKSLVSMIKPGVFLFAKNDAGTEVVARMAAEVGATAYKAIGVPDQTSANVVSVVHKGKWRGALIQGGRCDESRWLIRKCFTEKEQAQVLEIDYSEMCKPDAALTCCSVLL 942
+VR +PKSF K V + L IDW LA++QH +YVE L K V V +PA E HPDC FVED V G AV GH+SRR EVD + AL P +K + V ME P A DGGDVL G ++F G+S RTN+ G A L + FG + V VP+ LHLK LV+ I P + A N G V + A+KA+ VPD+ SANV+S G +IQ G ES +I + E + ++ SE K D ALTCCS+L+
Sbjct: 6 VVRDLPKSFTKCVTSVD----LQQDPIDWELATEQHNAYVETLKKFVPHVIAVPADEKHPDCCFVEDTTVCVNGTAVINHMGHDSRRKEVDPIASALEKIPTIKKI--VRMEAP-ACADGGDVLTIGNYIFAGLSHRTNEQGVAFLKEIFGETHSVFGVPMADTLHLKCLVTAINPQTIMVADNKNGRAVF-EFIQQKSNNAFKAVYVPDEISANVLSFPEHG---AIIIQQG-FPESEKIITEAVKELQITDAYTLNMSEFRKADGALTCCSILI 269
BLAST of mRNA_P-littoralis_Contig78.66.2 vs. uniprot
Match: A0A1Z5KK28_FISSO (Dimethylargininase n=1 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5KK28_FISSO) HSP 1 Score: 171 bits (434), Expect = 1.900e-45 Identity = 108/282 (38.30%), Postives = 167/282 (59.22%), Query Frame = 1
Query: 109 VALVRGVPKSFAKAVMDKESAAALGGKTIDWSLASKQHASYVEALSKIVDSVETLPAVEAHPDCPFVEDAVVYARGIAVTLRQGHESRRGEVDAVREALTSRPALKCVQTVDMEDPEARCDGGDVLFTGRHMFVGISERTNQAGAAALAKAFGASLPVIPVPVTGA----LHLKSLVSMIKPGVFLFAKNDAGTEVVARMAAEVGATAYKAIGVPDQTSANVVSVVHKGKWRGALIQGGRCDESRWLIRKCFTEKEQAQVLEIDYSEMCKPDAALTCCSVLL 942
+AL R +P +F++ + + +S +++ +LA++QH SY++AL I+ ++ LPA+ +PD FVED VV L+ GH SRRGEV++V +AL + ++ V + P+A CDGGDV++TGRH+F+G+S RTN+ GA L +AF A +P I +P T A LHLKS V++ P + AG + A A Y + VPD + NVV+V G L+Q C +SR ++ + E++ +++ ++ SE+ K DAALTCCSVLL
Sbjct: 1 MALARALPSTFSQGISEHQSDD--HSASLNMTLATQQHESYIKALRSIIPVLQ-LPALPEYPDSLFVEDTVVAIDRQVALLQPGHPSRRGEVESVHQAL-QQLGMQVVADLRNNTPDAYCDGGDVMYTGRHLFIGLSNRTNRIGAQLLQQAFPA-IPSIVIPPTMAGNQVLHLKSAVTLFAPDTLVVPTGPAGDAIWATF----DAYNYSVVRVPDVLACNVVAV--NGS---VLVQDTSCTDSRRILEQAARERDVQELIWVNTSELAKKDAALTCCSVLL 268
BLAST of mRNA_P-littoralis_Contig78.66.2 vs. uniprot
Match: A0A8H7R122_9FUNG (Dimethylargininase n=1 Tax=Mucor saturninus TaxID=64648 RepID=A0A8H7R122_9FUNG) HSP 1 Score: 166 bits (421), Expect = 1.470e-43 Identity = 111/282 (39.36%), Postives = 153/282 (54.26%), Query Frame = 1
Query: 112 ALVRGVPKSFAKAVMDKESAAALGGKT--IDWSLASKQHASYVEALSKIVDSVETLPAVEAHPDCPFVEDAVVYARGIAVTLRQGHESRRGEVDAVREALTSRPALKCVQTVDMEDPEARCDGGDVLFTGRHMFVGISERTNQAGAAALAKAFGASLPVIPVPVT---GALHLKSLVSMIKPGVFLFAKNDAGTEVVARMAAEVGATAYKAIGVPDQTSANVVSVVHKGKWRGALIQGGRCDESRWLIRKCFTEKEQAQVLEIDYSEMCKPDAALTCCSVLL 942
A+VR +P SFA V ++ KT I+ LA KQHA YVE L + V V +PA E HPDC FVED V + +A+ G ESRR EV V AL P +K + + DP+A DGGDVL+TG H+FVG+S RTNQ GA L K F PV + ALH K +VSM+ L + AG +V+ + + G Y I VP+Q +N++S+ GK+ ++ ES +I + ++ +V + SE+ K D ALTCCS+L+
Sbjct: 3 AIVRELPSSFASCVTSVDN------KTDPINIELAKKQHADYVEVLKQHVKGVIHVPADEEHPDCCFVEDNAVIVQDLAIINYLGAESRRKEVSGVENALKEVPVIKSIVHMHEIDPKATLDGGDVLYTGSHLFVGLSHRTNQRGADVLIKTFSEKCPVYVIKSLLNFNALHFKCIVSMLNDHTLLITDHQAGHDVLNEIKSHTG-DHYTFIKVPEQIPSNILSL-DDGKF---IVYQQGFPESEKVILEELEKQRGVKVKALCMSELIKADGALTCCSILI 273
BLAST of mRNA_P-littoralis_Contig78.66.2 vs. uniprot
Match: B8CD40_THAPS (Dimethylargininase (Fragment) n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8CD40_THAPS) HSP 1 Score: 162 bits (411), Expect = 4.310e-42 Identity = 111/286 (38.81%), Postives = 152/286 (53.15%), Query Frame = 1
Query: 109 VALVRGVPKSFAKAVMDKESAAALGGKTIDWSLASKQHASYVEALSKIVDSVETLPAVEAHPDCPFVEDAVVYARGIAVTLRQGHESRRGEVDAVREALTSRPALKCVQTVDMEDPE------ARCDGGDVLFTGRHMFVGISERTNQAGAAALAKAFGASLPVIPVPVTG--ALHLKSLVSMIKPGVFLFAKNDAGTEVVARMAAEVGATAYKAIGVPDQTSANVVSVVHKGKWRGALIQGGRCDESRWLIRKCFTEKEQAQVLEIDYSEMCKPDAALTCCSVLL 942
+A+ R +P SF A++ S + + L+ +QH Y+ L K + ++ LP + HPDC FVED+VV AV + GH SRR EVD+++E L + ++ E A CDGGDVLFTGRH+FVGIS+RTN+AG L + FG+S +P V G LHLKS V+ + L + G V+ M A Y A+ +PD S N VSV G L Q +C S+ I K TE++ V +D SE+ K DAAL+CC VLL
Sbjct: 1 IAIAREIPDSFLDALVSHHSPNGASSEDVSLDLSRQQHDKYLAELRKHIPTL-CLPPLPNHPDCLFVEDSVVAIGDTAVITQMGHPSRRREVDSIKEVLHQLGMKNMYDMREKDEKEHHVGEMALCDGGDVLFTGRHLFVGISDRTNRAGFRFLKRVFGSSQ--VPALVAGKEVLHLKSAVTHLDERTLLAPEGALGDTVLQSMNATGTERGYTAVRLPDVLSCNAVSV--NGH---VLAQDAQCKVSKERIEKACTERDLG-VTFVDTSELAKKDAALSCCCVLL 277
BLAST of mRNA_P-littoralis_Contig78.66.2 vs. uniprot
Match: S2JHE2_MUCC1 (Dimethylargininase n=4 Tax=Mucor TaxID=4830 RepID=S2JHE2_MUCC1) HSP 1 Score: 162 bits (410), Expect = 5.360e-42 Identity = 107/280 (38.21%), Postives = 149/280 (53.21%), Query Frame = 1
Query: 112 ALVRGVPKSFAKAVMDKESAAALGGKTIDWSLASKQHASYVEALSKIVDSVETLPAVEAHPDCPFVEDAVVYARGIAVTLRQGHESRRGEVDAVREALTSRPALKCVQTVDMEDPEARCDGGDVLFTGRHMFVGISERTNQAGAAALAKAFGASLPVIPVPVT---GALHLKSLVSMIKPGVFLFAKNDAGTEVVARMAAEVGATAYKAIGVPDQTSANVVSVVHKGKWRGALIQGGRCDESRWLIRKCFTEKEQAQVLEIDYSEMCKPDAALTCCSVLL 942
A+VR +P SFA V ++ I+ LA KQH YV + + V V +PA EAHPDC FVED + + A+ G ESRR EV V AL P +K + + DPEA DGGDVL+TG+H+ +G+S RTNQ GA LAK F PV + +LH K +VSM+ L + AG +V + + Y+ I VP+Q +N++S+ GK+ +I ES +I + +K QV + SE+ K D ALTCCS+L+
Sbjct: 3 AIVRNLPSSFASCVTSVDN----NDSPINIELAQKQHDDYVNVIKEHVKQVIEVPADEAHPDCCFVEDNAIVVQDKAIINYLGAESRRKEVSGVENALKEVPVIKDIVHMHDIDPEATLDGGDVLYTGKHLLIGLSHRTNQRGADVLAKVFSEKCPVYTIKSLLSHDSLHFKCIVSMLDDHTLLITDHKAGHDVQEEIN-QFTNNHYEFIRVPEQVPSNILSL-DGGKF---IIYQQDFPESEKVILEELQKKRGVQVKSLCMSELIKADGALTCCSILI 273
BLAST of mRNA_P-littoralis_Contig78.66.2 vs. uniprot
Match: UPI001884E8C5 (N(G),N(G)-dimethylarginine dimethylaminohydrolase 1-like isoform X1 n=3 Tax=Pollicipes pollicipes TaxID=41117 RepID=UPI001884E8C5) HSP 1 Score: 163 bits (413), Expect = 5.820e-42 Identity = 116/280 (41.43%), Postives = 152/280 (54.29%), Query Frame = 1
Query: 112 ALVRGVPKSFAKAVMDKESAAALGGKTIDWSLASKQHASYVEALSKIVDSVETLPAVEAHPDCPFVEDAVVYARGIAVTLRQGHESRRGEVDAVREALTSRPALKCVQTVDMEDPEARCDGGDVLFTGRHMFVGISERTNQAGAAALAKAFGA-SLPVIPVPVTGALHLKSLVSMIKPGVFLFAKNDAGTEVVARMAAEVGATAYKAIGVPDQTSANVVSVVHKGKWRGALIQGGR--CDESRWLIRKCFTEKEQAQVLEIDYSEMCKPDAALTCCSVLL 942
A+V VP SF KESA L G + A +QH +YV AL ++ V LP+ E HPDC FVED V GIA+ R GH SRRGEVD +R + L V+ +D P+A DGGDVLFTGR FVG+S RTN+AGAAA+A AF S + VP G LHLKSLV+M P + ++ D V+ R+ E Y+ + V + AN V V G LI R C ++ + F ++ + + SE+ K DA LTCCS+L+
Sbjct: 48 AIVCRVPNSF------KESALGLSGP-VALDEARRQHEAYVRALRQLDVDVIELPSDEKHPDCVFVEDCAVVCNGIALLCRPGHASRRGEVDTIRAVIKKELELPIVEVLD---PKATLDGGDVLFTGREFFVGLSGRTNEAGAAAVAAAFPEFSCTPVRVP-AGELHLKSLVTMAGPDILCVSETDESQTVLKRIEREA-TFRYQTLTVREPAGANCVLV------NGTLIHRPRSECPDACDV----FEDRLSTALHPVCISELAKADAGLTCCSILI 305
BLAST of mRNA_P-littoralis_Contig78.66.2 vs. uniprot
Match: UPI001C8FD9E8 (N(G),N(G)-dimethylarginine dimethylaminohydrolase 1-like isoform X1 n=2 Tax=Amphibalanus amphitrite TaxID=1232801 RepID=UPI001C8FD9E8) HSP 1 Score: 160 bits (406), Expect = 6.260e-41 Identity = 107/248 (43.15%), Postives = 140/248 (56.45%), Query Frame = 1
Query: 208 ASKQHASYVEALSKIVDSVETLPAVEAHPDCPFVEDAVVYARGIAVTLRQGHESRRGEVDAVREALTSRPALKCVQTVDMEDPEARCDGGDVLFTGRHMFVGISERTNQAGAAALAKAFGA-SLPVIPVPVTGALHLKSLVSMIKPGVFLFAKNDAGTEVVARMAAEVGATAYKAIGVPDQTSANVVSVVHKGKWRGALIQGGR--CDESRWLIRKCFTEKEQAQVLEIDYSEMCKPDAALTCCSVLL 942
A +QH +YV +L ++ V LPA E HPDC FVED V GIA+ R GH SRRGEVDA+R + L V+ +D P+A DGGDVLFTGR FVG+S RTN+AGAAA+A AF S I VP G LHLK+LV+M P + ++ D V+ R+ E Y+ + V + +AN V V G LI R C ES + F ++ + + SE+ K DA LTCCS+L+
Sbjct: 77 ARRQHEAYVRSLRQLDVDVIELPADEKHPDCVFVEDCAVVCNGIALLCRPGHASRRGEVDAIRAVIKKELELPIVEVLD---PKATLDGGDVLFTGREFFVGLSGRTNEAGAAAVAAAFPEFSCTPIRVP-AGTLHLKTLVTMAGPDILAVSELDDAQTVLKRIEREA-TFRYQTLTVREPAAANCVLV------NGTLIHRARSECPESCDV----FEDRLSTNLHPVCISELAKADAGLTCCSILV 309
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 |
| Seed ortholog | 2880.D8LT02 |
| Preferred name | DDAH1 |
| PFAMs | Amidinotransf |
| Model size | 1825 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K01482 |
| Hectar predicted targeting category | mitochondrion |
| GOs | GO:0000052,GO:0001505,GO:0003008,GO:0003013,GO:0003018,GO:0003073,GO:0003674,GO:0003824,GO:0005488,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005829,GO:0006082,GO:0006464,GO:0006520,GO:0006525,GO:0006527,GO:0006807,GO:0006809,GO:0007154,GO:0007165,GO:0007263,GO:0008015,GO:0008150,GO:0008152,GO:0008217,GO:0008270,GO:0008285,GO:0009056,GO:0009058,GO:0009063,GO:0009064,GO:0009065,GO:0009889,GO:0009891,GO:0009893,GO:0009987,GO:0016054,GO:0016403,GO:0016597,GO:0016787,GO:0016810,GO:0016813,GO:0017014,GO:0017144,GO:0019222,GO:0019538,GO:0019752,GO:0019932,GO:0022603,GO:0023052,GO:0031323,GO:0031325,GO:0031326,GO:0031328,GO:0031406,GO:0032501,GO:0032768,GO:0034641,GO:0035556,GO:0036094,GO:0036211,GO:0042127,GO:0042133,GO:0042136,GO:0043114,GO:0043116,GO:0043167,GO:0043168,GO:0043169,GO:0043170,GO:0043177,GO:0043412,GO:0043436,GO:0044237,GO:0044238,GO:0044248,GO:0044249,GO:0044260,GO:0044267,GO:0044271,GO:0044281,GO:0044282,GO:0044424,GO:0044444,GO:0044464,GO:0045428,GO:0045429,GO:0045765,GO:0045766,GO:0046209,GO:0046395,GO:0046872,GO:0046914,GO:0048518,GO:0048519,GO:0048522,GO:0048523,GO:0048583,GO:0048585,GO:0050789,GO:0050790,GO:0050793,GO:0050794,GO:0050896,GO:0050999,GO:0051094,GO:0051171,GO:0051173,GO:0051239,GO:0051240,GO:0051341,GO:0051716,GO:0065007,GO:0065008,GO:0065009,GO:0071704,GO:0072593,GO:0080134,GO:0080135,GO:1900037,GO:1900038,GO:1901342,GO:1901564,GO:1901565,GO:1901575,GO:1901605,GO:1901606,GO:1903409,GO:1903426,GO:1903428,GO:1904018,GO:1904407,GO:2000026,GO:2000377,GO:2000379,GO:2001057 |
| Exons | 9 |
| Evalue | 1.24e-182 |
| EggNOG OGs | COG1834@1|root,2QWPA@2759|Eukaryota |
| Ec32 ortholog description | Amidinotransferase |
| Ec32 ortholog | Ec-08_004320.1 |
| EC | 3.5.3.18 |
| Description | dimethylargininase activity |
| Cds size | 885 |
| COG category | E |
| BRITE | ko00000,ko01000,ko04147 |
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 |
|---|
| 1680791604.489197-UTR-P-littoralis_Contig78:272830..272905 | 1680791604.489197-UTR-P-littoralis_Contig78:272830..272905 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig78 272831..272905 + |
| 1680791604.6221535-UTR-P-littoralis_Contig78:291892..292757 | 1680791604.6221535-UTR-P-littoralis_Contig78:291892..292757 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig78 291893..292757 + |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791604.5073733-CDS-P-littoralis_Contig78:272905..272977 | 1680791604.5073733-CDS-P-littoralis_Contig78:272905..272977 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 272906..272977 + |
| 1680791604.5199566-CDS-P-littoralis_Contig78:283955..284075 | 1680791604.5199566-CDS-P-littoralis_Contig78:283955..284075 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 283956..284075 + |
| 1680791604.5314662-CDS-P-littoralis_Contig78:284613..284741 | 1680791604.5314662-CDS-P-littoralis_Contig78:284613..284741 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 284614..284741 + |
| 1680791604.546345-CDS-P-littoralis_Contig78:285296..285394 | 1680791604.546345-CDS-P-littoralis_Contig78:285296..285394 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 285297..285394 + |
| 1680791604.5595388-CDS-P-littoralis_Contig78:285735..285839 | 1680791604.5595388-CDS-P-littoralis_Contig78:285735..285839 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 285736..285839 + |
| 1680791604.5700798-CDS-P-littoralis_Contig78:286466..286561 | 1680791604.5700798-CDS-P-littoralis_Contig78:286466..286561 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 286467..286561 + |
| 1680791604.5796885-CDS-P-littoralis_Contig78:289247..289302 | 1680791604.5796885-CDS-P-littoralis_Contig78:289247..289302 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 289248..289302 + |
| 1680791604.6008656-CDS-P-littoralis_Contig78:290223..290343 | 1680791604.6008656-CDS-P-littoralis_Contig78:290223..290343 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 290224..290343 + |
| 1680791604.6121554-CDS-P-littoralis_Contig78:291799..291892 | 1680791604.6121554-CDS-P-littoralis_Contig78:291799..291892 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 291800..291892 + |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig78.66.2 >prot_P-littoralis_Contig78.66.2 ID=prot_P-littoralis_Contig78.66.2|Name=mRNA_P-littoralis_Contig78.66.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=295bp
MTAMHLMNSRVVALVRGVPKSFAKAVMDKESAAALGGKTIDWSLASKQHA
SYVEALSKIVDSVETLPAVEAHPDCPFVEDAVVYARGIAVTLRQGHESRR
GEVDAVREALTSRPALKCVQTVDMEDPEARCDGGDVLFTGRHMFVGISER
TNQAGAAALAKAFGASLPVIPVPVTGALHLKSLVSMIKPGVFLFAKNDAG
TEVVARMAAEVGATAYKAIGVPDQTSANVVSVVHKGKWRGALIQGGRCDE
SRWLIRKCFTEKEQAQVLEIDYSEMCKPDAALTCCSVLLGGQPA* back to topmRNA from alignment at P-littoralis_Contig78:272831..292757+ Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig78.66.2 ID=mRNA_P-littoralis_Contig78.66.2|Name=mRNA_P-littoralis_Contig78.66.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=19927bp|location=Sequence derived from alignment at P-littoralis_Contig78:272831..292757+ (Pylaiella littoralis U1_48)
GGGAGGCTCTACGACTGGCGATGGGTTCAGGATTCCATCACTCACTGTAC
CACAGCTTACCGGTAGTTTTCAATCATGACCGCCATGCACCTGATGAATA
GCAGGGTGGTTGCTCTGGTACGTGGAGTCCCGAAGAGCTTCGCCAAGGTA
TGATATTTGCGTGCTTCCCTACATCTATTGTGTGTGTGTGTGTGTGTGTG
TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGAAAA
AGCCCCAGATCGTGTTGCTGCACTGGGATTCGAACTCACGCGTGAATGTC
AGAAGGTTGCGTGGATACCCAACTGAATCACTGGGGCGACCGTATATGAT
ATATTGTACAGTACTCCGGAGTACATATATACTCCAGAGTATGATGTACT
TCGTATTTATACTCCAATATTATATACTACTTCGTATCGTAGTATATACT
TCGAAGTACTTCGAAGTAGTAGATACAAGGGCTCCGGCCGGGGGGCCTGT
CGGCCCCCTCGGCCTCCGGTGTGTGTTGCGGAATGATAACATAAGTGTAT
GAAATGTGAGTCGGCATACCAAGGGTGAGATTGGTGAGGACGCCGTGAAG
ATCAGACGCGTGCACTATCCGGTGACGCTCCGTAAATGAATGTTGGTGGG
ATGGTGGAATAAATGTTGGTGGGATTGTGGAGGTGAAGAAGAAGCGCCCG
TTTGTACGCAGTTGTTGGAAGGAAACCTGAATTGAAAGTGAATATACCTA
AGACGACACTACAGCGAAGCGAAGTCAGGGCAAACAGGAAACCAACGCCT
CCCATCCAAATTCTAAGGAGTGAAAACGAAAAGATTATGCTGATGAGCAT
CCACAGCGAAAGGTGCAACGCTAAAGGTACTGAACACAACAGGAAACCAA
CGCCGAAAGAAGTGGAAGCGTAACGAAAAGATCATGGCGACCTGAACGTG
TACACTGAAGGCGACAGAAGACGCCAAGGAAACGAAAAGATTATGATGAT
GAGCATCGACAGCGAAAGGTGCAACGCTAAAGGTACTGAACACAACAGGA
AACCAATGCCGAAAGAAGTGGAAGCGTAGCGAAAAGATCATGGAGACCTG
AGCATGTACACTGAAGGAACAGAAACCAAAGGCACCGAAGACAACGGGAA
ACCAACGCTGAAAAGCGGAAACGCCAAGGGGAAATGTAACCGCAACGTTG
GGCGACAGAAGACACCGGGGAAACGGAAACACTCCAACGAAATGTTACCT
AGTAGTAACGAGGCAAAGGTACGTCTAAGGCAGAACTACTGTAAGAGGTA
ACCGGAAGTTCCCAGCGTACGGCATTGATATCGACGAATAAAGAATCATC
GCTCAAAATGCGATGGGTGTGTTGACCAAAATACAGTCCACGTAGACGTC
GGGTGGGAGAACTACCACGGCGTCTTCTCGCACTGCGCAGGAGCCAGGAG
CCACGACGGCAAAACCTGTAAGAACGCAACCGTCGCTAGCGGTGACATCG
TCGGCGTAAGTTGAACGGTTGCATGTCATGTCCGCCATGATGTCACTGTC
AACGACGGTGAGGGAAATAAATGGAGAGCGGGAGGGGCAGGCGGAAGGGG
GAGGAAGAAGAGAGGTACGATGTTACGGCGTACGTAAATATTATCAAAAT
AATATACGGGGGCGGCTCTTTTTTCTTTTGAACTACATGGGTAAAAGCAG
CATATAAAAAGAAAATGGAAAAACAGACGGGGGCAGGTCTCTTTATCACA
TGACAAAAAAACAGCATATACGACGGTCATCATGGCGGACATGACATGCA
ACCGTTCAACTTACGCCGACGATGTCACCGCTAGGGAAGGTTGCGTTCTT
AAAGGTTTTGCCGTCGTGGCTCCTGGCTCCTGCGCAGTGCGAGAAGACGC
CGTGGTAGTTCTCCCACACTGCCAAAAATATGTGTACCGAACGGGACAAA
CACGAGAAAAGCAGCATGAAAAAAAAAACAACAGATTCATGGGAAAGGTG
CTGGTGGCGGTACAGCGTGACCTTGAAAAATTGTGCGAGGCATGAACAAA
AAAGCAACAGATTCACGGGAAAAAGTGCCGGTGGCGGTACAGCGTGACCT
CGTCGGAAAAACGGGACGAAACAACCTCTCACCGGTGTAGCCACGGTCGT
CCTTCTCGTCTGTGGGGATACCAATGGAAGGGTAGCCCCCGACGTCACAC
AGGCACAGCTGGCAGCCGTGCGGGTGATCCTTGCTGGCGAGCAGCATGGA
TAGCGTGACCTTAAAATGTGCGAGGCATGAAAAAAAAAGCAACAGATTCA
TGGGAAAGGTGCTGGTGGCGGCACAGCGCGACCTTGAAAAATTGTGCGAG
GCATGAAAAAAAAGTGTGGTACACATGCGGTTAAGCACGTGCAATCCACG
GACACATTGTTACCGGCAACACACGGTCTGCGGTGTTACCGGCAACACAC
GGTCTGCAGCACTGAAACAAACGAGCAACAGATTCATGGGAAAGGTGCTG
GTGGCGGTGGTGCTCGGGGAGACTGCAACATAAAACACAGCAGCACACAC
AGGACACGGATGCATACACCACAAAATTCGTGAGGGTGATCGAAGAGCAC
AATCACGGTAATGAGGGCAAAAGGTAATCACAGATCACGTTTCCAACACA
ACCGCAGTCATACCATGCACGTGTCCTTGTAGCTCCACACGTTTTGGTCG
CAGGTAACGTATTCTTTCTGATCCTTCTTGCGAAGGCAGACCTTCAGACG
CCCGTCAGGGCAGTCCTTGGAATCCAGACAGGGCCAGTCTGGGTTACCAG
CCGAGAAGAGAGCCCTAGGCTTGGCTGCCGTGTTGCTACCTTGCTGCTTG
CACTTCAGTGGTGAACACTTTGACAACGCGCTCATTCTGCTTATGAAGTG
TTTGGTGCTCTGTGTGATGGGTGTGACGCTGTGTGATGTTTGGTCATCAG
GGGGCGTGTGCCTCATGGTGCGCGTGTGCCTCCTGAACAGGCGTGTGCCC
TTTTTGGTGACGTGTTTTTGGTGACGTGTTTCCTTTTCACGACATAAAGC
GATGTTTATGACGTCAAAACTCCTGTGTGCCGGCATCGCCTGTGGCCGTG
AGGCGTCTAGAGGCTTGGAATAAAAGAACCATATTCTTCGTTACATGCAT
TACCTCTATAGAACTCCTGTGTCCCGGCATGGCGTGTGAGGAGGGCAATG
CTGCGCTGTGAGCGACCTAGAACTAAAGATTTTTTTCGCGTCATATTTGT
TACCTCTATTATATGCGAGTAGTATATACGGAGCAGTATATATTCGGAGT
ATATATATTGGATTAGGGCCATTTTTTCGTTTCGGGCTCCTGGGCGATTG
GCTTTAATCAAGTATGTTTACCATGAAAGGAACCAATATTTGACGTACCT
TATTTACTTGTTTGAAGACTTGCGTGAAGGCAAATTGGCTGAAAAAACAC
CAATGCCCTGTTTGATCAAGTGAAAATATATGGTATCTCCCTATCTGCTC
GAATCCAAACTACTCAACGTATTATTTACTTAGTTAAACAAAAAGGCCCC
TGGTTTTCTTTTAGCGGTCAATAACCGAGTCACTTGATTTTGTTTCTTGA
TATCTACACGAAACGAAACACTCAACATAGAATACACTAGGTTAAACACC
ACAAGGCCCCTGAGTTTCTCGGAGCGTTCAAAAACCGAGTCACTTGATTT
TGTTTCTTCATATCTACACGAAACGAAACACTCAACATAGAATACACTAG
GTCAAACACCACAAGGCCCCTGAATTTCTCGGGGCGGTCAATAATCTCTT
GACTTTACAGTAGCGTCCGCAATCGGCAGTGATAGTGCTGGCTCGTAGAT
GAGTGCACTGCTACTGCTGCTGCGAAGCTTGTCGCAAGCTGTTACAATGA
CGATGTACAGCTCACAATAATGCAGAGGTTGTACACGGGTCTGCTGCTGC
AGCTCGATGTACGTCGGTTGGAAGTAAGATTCGAAAGATGACTTGCTTAT
TACTGGCTGACTCCGGGGCGAGGTTTTGGTGATGAAGAGGAGTGAACACA
TGTGGCGTGAGCACGCGCGGTGTGTATCACAGCTCTGACAAACTCAGAAA
CAATACTCATGACCCTGATGACAAAACTATCATACTCATGACCGACCCTG
ATCACAAAGCTACAGCAGCATCTTACATGACCCTACATAGAACCAACACT
TACCAAATACGGCAACCTGCAATATACTTTGCTGAAGTTCTTCCGGAGAC
CCTTTATCATCAAGTACTGAGTGTACCAACAATAACACAGATTGTTCTGA
TGTTCTGTATCAGGACAATGTACGTACGTTTGCACTCAGAACCTCTCAAC
CGTACACAATGCTAAGTGATAGCTCTACCGACAGAATATTATCAGAAATA
TCTGGATCGCACAACATCATATCCATTCATCTCTCATGGACTACATATTC
GGGTGTTTGCGCAGAACGGACTATATTAAGGTTTCGGTTTGGTCTTTGTG
CACATTTTTGTAGTAGGCTAAAAGGGATCTTTAGGAGAAGACCCGATTTG
GTCTTTTAAAGACCCACTTTGGTCCTTTCCTCCGGCCTTTTGTGTAAAAA
GACCTGAGCAAAAAGCGCCTCAGTTAGTTTTTGCTCAGGTCTTTTTATGG
AACACTTGTTTGATTGGCTGGATGCCCCAGATCCCCCCTGATGTCAGGGC
CCATGGTTGGGTTTATGCGGGACCACAGCAGTACTGCTGCTACAGAAATA
CAACACCACGGCCACGTAACAGACTGCTCTCGCAACGAAGACCTCACGTG
GTACGCAATAACACGCAAAACCTCTCGTGTCAGTCTACCGCCAAAATGCA
TAAAAAAAGTGATCAGCTCAGAGAAATGCAGAAGAGCTAGCTGCACAGGC
ACGCATTCATGGGTTAGAGAGGGAGCACAAAAGTACGTGTGCGGAGAGTG
TCAGCAGCATCTCGAAGGAAAAAAATAAAAATAAAGGGCGAACGGACCAC
TTCGAAACCTGAGTGAAACCTGAGTCGAGTCAGGTCTCCGCAAACACCTG
ATTAATATACTTCGTATACTTCGTATATGATACCGGTATGATATCTTGCA
ACAGGTTATTATGGCTGCTGCTACACGTACTATACTTGTACTGTATGCTA
CTCTGCAGCTATGCGCGTTACTACTACTGCAGCTCACTTGGATGCCGTTG
CAGTCCTACCATCATCTTCGTGTTGTCCGATAATGTTACCTAGAACAAGA
CTTACTGCTTGCATATCTACAGCAAGCAGTGTGTTTTGTTAACACGACCC
CACAGAGGAGGAGAACACACCAGAGCAACAGGAATATCCTAATAATCCTG
TGGCGTACTCAACTACTGCAGATACATTTACTTTCCATCCCACCTGCTCT
GTTTGCCTCAGAGCAATAAATACCTACGGCCATGCCATTGGTGCGGCGCT
ATCGAGAGAGTGCTATCCGATAATGACAAAACAAGGAGAACCATACTACT
GCTACTCGATGTCCAGACATGTAATCCAGGAGTATTTTCTCCAACACGAC
CCCACATTAGAGGTGACACTAAAATGAAGCAATGCTTCACAAATTCAAAA
AGTAAAAGTCGAAATGACTACTTTTGCAGACAAGATAAGGTGTCAACGTG
CCATTTTATCCTAGCTTATGAAAAATCAACTTTGACTATTGTTCCTGTTT
GCTGCTAATGCGTGTCATCATGAGAACGATCACATTTTCGCACATTCGTC
AAAATTTGATGTACTGTTAGATTTGCAGGTGTACTGCAAGGCGCGCCTCA
ACGCAAATAATCCTCAAGACCTATCCATGTAACTTTCCATAGAAGTATCA
CTGTCTCTTTTCCTTCGTGACTAAGAGAGCCTAAAAGTCACTTTTGACTT
CGCCTATGCCTACATAGTAGGTGGGTTTGCTCGCGTTTTCTCTGTCCGCA
CACGAGCTACACCCTTACTGCACTTCCGGCGTGCCTTTTGTGTTTCTTCC
TTCCGAGTTAAGTTAGGTACATTCCTGTTCAGTATACTATCGTATCTCAA
GCAACACTCAATATCTCTCAGATCCTCAACTGCATGTCCTTGATTGAACT
GCCGTTAAGTATTGTTTGGTCGTGAATCTTCTCGACGGAGTCCGCCGTGT
CCGAGTTTTCTTGGTCGGCCTTCCCTTCATGCACATCGATCACAAGACCT
TAGGTCAAGGAACTCAGAACCCTTCATTTGCCGTAGATTCCGTGCTGAAC
TGCTGCCCCTCTCTCCAGGAAGCTGTCGATGTAGCTGCCTTCGGTAGTGT
AGCGAAGGTTCTTCTCCTGTAGTTTCGATTGACTCGTACGTCGAGAATGA
CGCCGATGATGACGCTGACCTACAGTTGTCCCGTGTCCGTAAGAGTTCCG
TTGTAGTTGCACTGAAACCCTTTGTTGAGGATGAAACAGACCTCCCTAAT
GTCCGGCATCTCGAGCCCGTCCTTGAGCTCATTCTCGAGCGGTCCTTGTG
CGGGATCTTGGCTGATTTTGGTGTACTCGACGTCGCTGGCGGTGGAGGCG
CCCTGAACGGCCTGATGCTGCTCCGTTGTCTTGGACACCTCGTGTGTCTT
GTGCGGGCTATAGATGGCCTGATACACCTCCGTTCGCTTGCGCACCTCGT
GATTTGTCGAGTTGTTCGGGATTTTGGTGACCTGATTTTCCTCCTCCGAG
AAGCCTGTGTTGACTGCGCCTATGGCTGACACCGCCTCTGGAATGACAAA
GACTTCTCCATCAAAGCAGGTGAAATTCTTTATCTCAGCTGCACTGTTGT
GGCACGCCCTGTTGGCTACCTCGAGCAGTTGGTCTGGGGCGTCCCCAGTC
ACAGCCGGAAGTGAACCTCGCGGGGCTGCTGCTTCACTCCTTGTAGTAGT
GATGTCTTGGCTTCAAGCTCCCTCGAGTGGCTCTTCCTGGGCCACGTTGC
TCTGTCCACGGTGATCAGGTGCGACCCCAGGCATGGACGAAGTGGTAAGA
TCGACTCGACTTCGATATCGTTCGCGGAGCTGCTCTGGAGTCGCATGATT
TCGTCGTAGAACGCGAATTTCCTGCCGCAATAGCTCTACATCCCTCATCA
GACGGCCGATTTTTACCGCAGCAGATGCGTCCCCCGACTTGTTGTCGTGC
GAAACGCTGTCGAAGTTTCCAGTTGCTCTGTCCAGTGGGACGGCCGGAAA
CGCTACGTCGATTGGGCAGTCACCCCGGTCTCGGTCTTGCTGGAGCGGTG
CTGGTGTCGTCGAGGGTGCGACCCCAGGAGTGACGGGGGGTGCGACCCCA
GGCGTAACATGGGGTACGGCCCCAGGTGCAGCCGGGGAGGTAGAGTTGTC
CTCATTACCGCTGTCTCGCACACGGAGCTCCTCCAACGCCTCATTCCGCT
GCACTAGGCGGCGAATCTCCTGCCGCAATAGTTCCATTTCGGTCGTGCTG
TCGATGTGCGAGCCTTCGTGCGGTCTGTCGAATGAGCCTTCCGTGGTCTG
GATGTTCGCGCTCCCACTCACGGTGAAGGCGGCCCCAGGAAGATCCTCGA
ATGAAGTCTGGGTAGCTCTGCCAAACCTCTTGTTCAGAGGAGGAGGGAAC
GTGATTTTTAGTGAGCAAATCCCTTCGTCTTGTGGGTCTTGCTTGAGCGG
TACAGTGAGCTCGCCCACGACCATGTGGGGGTTGGCAGCTTCAATGACGA
GCTTGACCCCATTCTTCAACTGGGATGTAGGCGAGAAGACGTTGCGTCCC
AGACCTGACACGATCATTCCTTGAAGCCGTGCCGCGCGTCCGTTGCCCTT
GTCGTCCCTGACAATGCAGGGGATGATTCCCGTTGCTGTTCCATGCAATT
TGTTCCCACCAGCAGTGATGATGATTTTCGGCGCCTTCAAATCCTTGTAC
TCCTTCATTCGGTCCTTCAGGCCGGGGATGAGTTGATCATCAAGGAAGGT
CTCCGTAGCGCCGCTGCCGATCAGCAGTGTGGCTCCTTCGGCATCAGGTA
AAAACGTCCTCGCATCTCTAGTAGCGGTGAACATAAATCCTGCGTCGAGC
TCCTCCCTGTCCTCAGAAGAGTTTTGCTCCTCCCCTTGAGTGCTGTTGTC
CTTTTTAGTGCCGGAGCACTGCGCGCACTGTGTGCATGCAGAGAGAGCCT
GCCCGGGTCGCTTCTCTCCTTGCTCGTAGCACTCGTCGTCGTTGTGGGTA
CCGGTGCGGTGAACGGAGCACCATTTCCGGGAACCTCCTCCGGATTTGAC
CTCGCGTTCCCCGAAAGCTCCGCCGGATTTTTCCTTGCTTTATTTGGCAT
CCTTCTTGGCATCTTTAAGTTGGGGGCAGCGCCATTTCTTGTGTCCTCGC
TCCTTGCAGATGTGACAGATGATGGCCGGCGATGTCGCAATTGTCATGGC
GATGCCACGGCCAGCGACCCGCCCCTTGCTTCCGTTGCGTGATTGGTCAT
CGATGAACATATGACGCATGGTGGACTGCATCTGGTCGATGTCGAAAGTA
GGGTCACGGTACATCAGCATTTTGACGTCCTTGTAGTCGTCGGTGAACCC
TGTGACGCAGATGTCCTTGAACCAACGGTCGGAGACCGTTTCCCCCATTT
TCTCGGCCCGGTGACGAAGCAGGTGTTTCTGGTTGAAGTAGTCGTCTGGG
TTCTGCCCAGGTTCCATTGGTGTACTCACGAGCTCCTCCATAGTTCCGCG
AATAAGTTTGTCCGTCACCTTGTCGTAGCTGTTGCGAAGTTCCATGAAAG
CGGCTTGTCCGTCGCCACTGATCTCGCTTTCGTCTTCGTGTTTCTGGACG
GAGAGGGCGGCGGGCATCTCGACGAGGAGGTACAACATGGCATATAAATC
CTCGTTCGCCTTGTTGAAGGCGGTCAGGTCAGCAGAACGGCTGGCTGCCG
GCCGCACTTGTCCTTTCAAGAGAGGGAAGATGTCCCTGCGGGTAACACCC
ACGACGACGCAGAGTTTTTTCATCCAGCCTTTGAACTCTGCTGGATTTCT
GCCATTAAACTTCTTCAGGCCCCGAATCGTGTTGGCAAGATTGCTTCCGG
AGTCACTGGTACTCATGCTGGTATACGTGTCCTCTGTCACGATGTCTCCC
ATCTTGACGTGTACGTCTGGTACAAAAGCTGTCGCGGCGAGACCTGCTGC
GTTTTTCCGCCCTACTTGCGGTTTATATCTGTGACGCTTGTTGTTGCGGC
GATTCCTGCCACGTTGTCCGCCTTACTTGCGGTATACATCTGTAGCGCTA
CTTGTTATTGAGGCGATTCCTGCCACGTTGTCCGCCTTACTTGCGGTGTT
CTGTTGCTGTCACGGCGATTCCTGCCGTTGTATCCGCCTTACTTGCGGTG
TTCTGTTGCTGTCACGGCGATTACTACCGTTGTATCCGCCTTACTTGCGG
TATCCTGTTGCTATCGTGGCGATTCCTGCCGCTGTATCCGCCTTACTTGC
GGAGTTCTGTTGCATTTGTTGCTCCTCGATTCTTATCACTATCCCTTGTC
TGTAAGTTTCGTCGTACGAGTGTTGGCCGTTCTTATTTTCTGTTCTCAGT
ACAGCAAAAATGACAACCCGGCCCCTGCAGGGGGTGTGACGGGCGTTTGC
TAGTACTGACTATAGGACACAGGTACTGTCTTTCTGCTCACTTCTCGTTT
GTTATTGGTTGATCGATCCAGAGTGTCTCCAGGTTTGTTGTTGTTGTTGA
TTCTCACATTAGCTCACTACCGCCGCAGTCTAGCCCGTGGTCACAAACCA
GGCACATATCGTGCTAGGAGGAAAGATAAACAAAAATAAAATATGTGGAC
TGTGATCACCCATAGTCAAATCAGATATGGTACCGTTGGGGTACCATCTG
TGGTGGCCAAAGTACCAAACAAAATACAGAATAAAAATAACAGGCTCGAA
AGAAAGACAAAAATTGGAAACAGTCCGACAAACAAAAAAATAACCAAGAC
AAACCTCAACCATAACCTTATACTTCGAAGTACTTAGTACATCGAACCAG
GGCCCAGGGCCATTACAGACCAAGGCAAAGGCAAACCAAGGCGATGGTCC
AGTAACTATGTGATCAATAGACGAAAGACAAAAAAAAAATTAATAGTAAA
GAAGAAGATGCAGGGAGGGCACAAAGACTGAGGGAGTGCATTCGTACACA
AACACAACAAACAGGTCGCCAAACAAAGAGGAAGCAGGGGAACGAAAAGG
GAAAAGAAGATCGGAAGTACCGGAAGTCGGGGGGGGGGAGGTGATAAAAG
TAAAATAAAAGGCATGCAATCAATCGCAAACATGTCTTGCCACGAGGTCT
GCCTGTTCACGCTTGCTCTCCTCAGTCGCACTCATGCCTCCTGCTACTGG
CACCACCGTACCCAGTTGTTTCTGCCCCACATCTTTGGCAGCAGCTACAC
CACCATTCCGCCCTACAGGTTTTCCACTCCGGCCACCCCGTAGCTTGGCT
TTGGGCTGCTTCTTCTTGTGCTGTGCAACTCCAACCCCACTACCCCGCTG
CCCTTGTGCCCCCCCGTACCCCTCCTTTCGTTTATCCCCGTTATTTGGTT
AAACACGACAAGCCCCCTGGATTTCTCGGAGCGGTCAATAACCGAAGTCA
CTTTTTTTTGTTTAATGATATCTATAAGACCGAGCTGGACACGCATTGTA
ACATCCGTTGCACTGCGAGTGTAGTTTGCAATCAAGGCCCTGTCTTCTCG
TTCTACAGCTCACGCTTTCGTTCCTGCCAAGCACCGCGGCTAACGGAAGC
TTTATGAGTGCTCATGCTAGTAGTGTCGTGGTACTGCATGCCTTTTATTT
TATTTTTATCACCTCCCCCCCCCCCCCCCCCCCCGACTTCCGGTACTTCC
AGTCTTTTCCCTTTTCGTTCCCCTGCTTCCTCTTTGTTTGGCGGCCTGTT
TGTTGTGTTTGTGTACGAATGCACTCCCTCAGTCTTTGTGCCCTCCCTGC
GCTTCTAATTTTCCCGACTCTGCGTGACTTTTCACAGCTAAGGTTTGTGT
CATGCAAACGCGCTTTCACCCGCCTGCCTGTCAAATTGAGGAATCTGGGT
CAACTTTTCCGACATGCTCGTACGTACCTGACCACGTACCCTTTCGCATT
TTATTTTCGTTTTTCGCTTTTTGAGGCTGTGATGGACAAAGAGTCGGCGG
CGGCGCTAGGAGGAAAGACTATCGACTGGAGTCTCGCGTCTAAGCAGCAC
GCGAGCTACGTGGAAGCTCTGTCCAAGATTGTTGATTCTGTCGAGGTGCG
AAGAACCAGGAAGTCCTCTGTAGTAGCTCCGCATGGTGTGCGTCAGTAAC
ATGTCGCCAAGTTTTTGTTTTTTACCCTGCTGCTGCTAGACACACACACC
CAAACTTGGTTGCCGTGTGATGATCCTCAGATGTGCATGCTTTATTTTCT
GTTTATCGGGCGTGGTGCAAGCCTCGGCGAGCCACCCTGTGTCTATATAT
ATATATCTGATCTTACACGCTCTGATGCCTCTCGGCCGGTACGTATCGTT
GACGCCGTGTGCTTCAAATCAACAGACAGTCGTGCGTATTTGTATGGTGC
CCACGTTTGTCCTGAAGGCAACATGTATGCACGTGCACACAGCAGTTTTG
TGTTTGCCTTTCTCCTCACACTACGTATCACACGGTAGCATCGTATCTGT
TTCGGGTGGCTGAAAAATTCGGGACCGCCTGATGTTTTTTTTCGCAAACT
GATGGCCTCACGCGTGTACACACGCACAAAGAACCGATTTTCCTCGCTGT
TGCATGCGAAAACACGCCACGGGCGCGGGGCAGACGCTTCCTGCAGTGGA
AGCTCACCCAGATTGCCCTTTCGTGGAGGACGCGGTGGTGTACGCGAGGG
GCATCGCGGTGACGCTGAGACAAGGGCACGAGTCCCGGAGAGGGGAAGTG
GACGCCGTCCGGTGAGACTTTACATCAACTTGACATCGCAGCTGTTGAAC
ATAATGCTCTTCGAGTATTATATAAAATGCCTTTCTTGACCGACCAGTGG
TTGCAACCTTGGGGTGAAAGTACGCTATCTCCAGGCGGTTTCGCCCCCAA
GAAGCCGTACGAAACGTGACGCAAGTCTCCGCGTTAGCGTGTTCCGGCAA
AGATGCACTGGATATTCACGTGTGTCACGTATTGTGAAGATATAAAATCT
GCGTTATTTTAGTGGTCCGGATCAAGAGTGTTTTGAAGTTTTGTTCGATG
ATATCAGTGTTCAGACATCATCTGCAATCCGTACTTGAGCGTATTGGTGC
AACACCCCCCCCCCTGTACTTTATTTTCTTTTGCCGGCCCCAGTCCATGA
AAGGCGTTCGGCTAGCTGTTGCGGGGAAAACAAGCGGCTTCGTCCTGCGT
GTCCGGGCGTGTTTTTTGCGGCAGTTCTTCGTGGAGATATTCAGCACTTC
CCAACCTCTTGTTTGGCCCAACCAATCACGCACGCCCCCTTCTTGTCTCT
ATTTTTCATGCGATAGGGAGGCCTTGACAAGTCGTCCCGCCCTCAAGTGC
GTGCAGACGGTGGACATGGAGGATCCCGAGGCGCGTTGTGACGGAGGCGA
CGTTTTGTTCACAGGTACTGCGTTATGTACTTGTATGCATTTCCATTTTT
TCACGGAAGGACTTGTCCCAAACCTCAAGCGGGGCATTTTTTTTTTCTCT
CTTTTTTTTTCTTGGGTTTCTCGGCGCTGGCGGTATTCCTGTTGCCCGTT
CGTTGTTGTTGTTCCTCTATGGAAAAGCTTTCCGGCGTCAATCGATGTGT
CGGTTTTCGTCGTTGGCTCCTCAAATGCACTTCTTCCTTCTTCGCCTCCT
CCTGCTCTTCGTTATTTTCCTTGCTCCGCACCTTTCCGGTCGTGATCCTC
CTGACATTCTTCACATGCGTCCCGCTTTGCTGTTGTTGCTGGGTGAGACA
CCAAGGGCGCCACATGTTCGTGGGAATATCGGAGCGAACGAACCAGGCGG
GGGCTGCCGCGTTGGCCAAGGCATTCGGTGCCTCTCTGCCGGTCATCCCG
GTGCCGGTGGTGAGAACGGGGCAAGAAAACAACGAAATTGGCGCTTGGTT
ATCTTTTCAACGTTTCAACCTCACTTTCCACTGCTACAGTAGTGAAGCTC
CGTTCTTTTCTTGTTCACGCACAGCAATTTTCCATCTGTGCCTCGGCTTC
GTGTGTGACCAGGAGCTGCATCTCAGCGATGAGGTATCGCGATATGGTGT
GTACACCACAACCGCAACAGCAACCACACAAACTTGTCGCGTTTCGGTTT
CGTTTCTCCATGTGTTAAACCGTCGAAAATTGAAAATAACTCGCTTGAGT
ATAGTATTGCAATTTCCATGTCGCTCCTGTATCAACAGTGCGGTCAGGGC
CCACGGGTTGCTCTCGCTCTGCTGGTCATCCCCACCCTCATCTCCACCCA
CCCAGCACATAGATACTCCCCCGCGCCTCGCGCTTGGTGTAAGTAGTTGT
AGCCTCGGTCTGTAGAAACTCGTTTTTTTCGGTCCCGGTATCATAGGAAC
GGTGCGTCGTCAATGATCAACTGACGAAGGCAATCAACAATCGGAAATTC
CCCGCCCCACCGTATCTTACCCTACCCTACCCTGCCCTGCCGGCAATGTG
CGGGATGTTTACCGCGGCCGGCTGTGCCTCGAGCAGACGGGTGCGCTTCA
CTTGAAATCGCTGGTGTCTATGATAAAGCCTGGGGTCTTTCTGTTCGCCA
AGAACGACGCGGGGACGGAAGTGGTTGCCAGGTACGGATGCTTGATGCAG
AACAAAAGGTGGTCCGCCTTTTTTTAGTTGGCCGCATTCTTGCTGTTTGT
TTTGCTTCTATGATATCGTAGTTTATTGCCCTGTCGACACAAAACATGTG
CGTTGTTTGTTGCGCACCTGGTTTATATAGCATGGTAGGAACCGAAGGGC
TCGGCTTGTACGGGTGGTGCTACCATACCGCTACTATTGGGCCCTTCGTG
TTGGTGAGACACCTACGAGCGTGAATTTTCAGTAGCAGCATCGAGACAAT
ATCTAGAAAATTTTGATCACAGTTCTAAACGCTCGGGTAAAGGTGGTGGG
GATACCAACTAGGTTTGTTATTCTAGGCTATCTCCCACAACCCCAACCTC
CTGAACAACAGGTCAACAGCAGTAGCTCATGCCACTAGCTACCTCGGACG
AACCGCAGTTCAGGAGATTGGTGCCGATGGCGGCGAGTATAGCTGCGTCA
AACGTTTGGTGTCAGTCCGGATTGCGGAGTTTTTCAGGAACCCTGCAGAA
ACTCGGGCCACTGCTGCGAACTTCGATATCTAAGCTCCAGCAGCAGATCT
GAAGGCGCCGACGCACACGCAGCTACTACATGACGTCGTCTCCTGATTGA
TTCGAGGTTTTGGCGACTCCCGTGACAACAGCCCATGTTTGAGCCTTATC
AAAAAAAGCTCTTTTGACTTGATTAAAGAATGAAAATGATCATTCAAACA
AAAATTAGGTTTTTCAGGAAGGAGTTTTTACCGCCCTTGTCCCTGGACCC
TTAAACAGCCAGGATAGACGTTTGGTGAAAAAATCATTTTTCCGCTCGAA
CGCGAACCTTTTGAAAGCTGAGGACCGGGTCTTCACAAATACGTTCGAGT
CAGACCGCTGGTAAAACACTCCGTTCAAGAGCAGCTGTGAGAAAAACATC
CCATGCACGTTCGTGGGGGCTGGAATTGGGAGAGCAGAACGGGTATCCTC
AACGATCAGACGTGCAGGCTTGCATGATAATTAGGGCATACACGTCCGCT
GATTGTGACCGGGTTTGTTTGATCCTGGGAATTTCACGAGGTAAGACAAA
AAACACGATTCTGCGCTGAGAAGAGGAAGCTAAACGCTTGACACCAGTCT
GCCCATGATGACGGGAAAGAAGTCGTGTGTTTTGTCCACTGGTCCGAAGA
TTCGAGATCACACTTTCAGACCGCCACTCGAGAGTACCTGCTGCCAGCTG
GAGAAGACTGTCATAGGCAGCCCCTCGCGGAAGTGGTCGATTGTACGTTG
GTCTACTATTTCATCCGGGCATCGGTCAACCGAGTTGAGGTTGACGCGAG
CATGAAAGAGAGCTAGAAGTTCGACGGCATCTTGAGTCTATTTTCTCGTA
AAAAAATACTCCGTACTTCGTACGTAGATCGTCTAGCAGGTCCGTTGGTT
TTAAAACAAAACGGCTTGTTGTACAAGCTTGATAAGCGGATGGTTGGTGC
CCGATTTGACTGTCAGAAAGAAGGTGCGGCGCGGTCGGTGGCAACGCAGG
AGCGGCAAACGCCGGCATAGTGGGTGCATGGAGGTGCATGGACTGGGGTG
CTGAGACCTGGCGTTCTGCCCGCAATCACCGGGTTGGTGTGTCCTGATGG
CAGAAGATGTAGCGGGCATGACACCCAAAAATTCAACACCAAGATCTCGG
GGTTGAGTGGCACAAGATTTACTCCTGAGATTATCACCAGCAACAGGCGT
GGTCGACGCCACACCCTTCAGAGTGTCGCCGGCGATGGAGTCGTTCTATC
CGTCCGCCGCGCGTCGTTCCTCAGAGGATAAGTCGTGTCCTTCACGATCG
AATGTGGGAGGTACTTTGTCCCCAGCCTCCGAGTCTTGAGAAACCCGGGT
CGTCATCCGCGTCGTCAATGTTGAGGTGCATGCCCGCTGACACCGCCACC
TTGAGGGGTGGTGGTTGCCTGCGTGGATGATCCCGCGTGCAACGCCGACG
AAGACGCAGCGCTCGATACCGTCGATCGGGTGGCCTGCACCCGGGTGACA
GGGGTGCCCTTCGGCGCCCTGCTCGCCGCCTTGGCCGTCGCCAGCGCTGC
TTGGGAGGGCCGCCCACTCCTTTTTTCTGCAATTTCCGAGCCTTCCGCTC
GTGGAAAGACGGTTTCGCCGCAGTAGTGAATGTGTTTTTTTTTCCGCGTT
TTGATGTTTAATATCTCTCTCTCTCTCTTCTGCTACGGTACAAGTGCGCT
ATCGTATTCAACTTCGACGCCGATGTTTTCCTAGGCCACCCTCAGTAGAA
GCAAGCCCCAGAGGGTCCCAAGAGAGTTGTCGTATTGGCCCACGACCATG
GGCAGGTAACGTTTTCTACCGTCATATTTAGCAAGGAGAGGGAGTTGAGA
GGGGGTAAAGGAGCCCGCGAAGGGTTGGTCACACCGAACGAAAGAGCCAA
GTATCCGCCGGACTATCAGGAGGTCGCGGGGCTGGAATAGTCCGAGAGGA
CTGGTATATTTCTTTCTTAATTTTTATGGTCATGCAACGGATATGATGTC
ACCACAGCCGGCACGCACGGGTAATTTTGAAAGTATTTACTTGGGTAGGT
TCTGGCAGTGAGACAGATCACGAAAAAAACGGCAGCGAAACGACACGAAA
TGCGTGAAATGACACTCTTTCGCGATGTTTTTTCCTTCCCAACGCGTTTT
GATTTCCTTGTGTTCAGAATGGCCGCCGAAGTGGGAGCGACAGCGTACAA
GGCTATCGGGGTCCCTGATCAGGTCAGAAAACGCTTCATCTATGTATGGC
TGCTTGTCTCTGGCTAGCTGGGTATAACTGATGTGCGCGATACCTCTTCT
GTACGAGAGTACCCGTAAAACATTTTTTTTTCTTTCAGGTCAGGTCTCGA
CCGACGTCATTGAAACCTTACCGCAAGGAGTTTAAGAGCATCCGCCTGTC
CTTCCTTCATGTGGAAATGGACGGGCCTCCTTGTTGCAAATTTTGTGTAT
GCTGAAAAAGGCACGGTACGTACACATACGGTATACACGAAATAAAAATG
CGCCGTTTAAGGATAAAGCACGAAGAGCATTGCCGGTCAAGGTGCAATCT
AGGCAATAAACATGTGCCAGGGTGTACGAGAGACGGCTCTGTGAAAGGTA
CAAAAACAAGCAGCACAAACAACAGGAGGTGCAAAGGTATGGTGATTTTT
GTTGTTTATTCTTGCGCACAGACTGGATTTTTTGTTGTTCAAAACAGAGC
ACTACGGTGTACTGGTTTTTATTCTCGGCACAACCAGGATTTGCTTTCAC
GCTCTGCAAATTGACCTCGAAGTGGCGCCACCTCTCTTCGAGAGGCCATC
CTGTTTCGCCCATATGACACGACCATAACAGTCTGTGGCTGCCTTTTTTA
CCTCATGTTTTTTTCGCGCAGTCACGTGTGAAAGTTGTCTTTGATTTGTT
GAAATCTTTGCCCACAAGAGAAATACGAAGTATCTCGCATTGGACATGCG
TCTCTTGATGCATTCGAGCCATATCGTTTCTATCTCTGCTGCTCCAAGTC
ACTGAAACCTCGCTACAGCTGCTGCAAGGGCCCCCGGCAACAACCCTCCT
TCGCCGTACCGTGATTAGGTGGATGTGGTCCCCCTTTTGATGCTTCCTTT
GTCACGTATTCTGAAAACGATCTGAAACGATGCCCGCGTGCAGACGAGCG
CGAACGTGGTGTCCGTAGTCCACAAGGGGAAGTGGAGGGGGGCGCTGATC
CAGGGCGGGCGGTGCGATGAAAGCCGCTGGCTCATCCGGAAGTGCTTCAC
GGAGAAGGAGCAGGTACAACAGCGAGCGTCACAATTTGGTTTGTAATGCG
CTTACTTGTATAAGAAGGAGAACATGACGCCTGTTGAAGGATCATCACAC
AAATGCCGGTAGAATCGTGCCAGATTTTTTCTTTTTTACACCTGAGAAAT
TCAGCCTGAGTTTCTTCAAAATTATTCTTATTTAGTGTCCCGGACTGCTG
TAGCAAACGTCGCTCTGTCTATCTACGAGAGAGACGGTAGGAGTTGCTGC
TCTACCTCTGTCGCTATGATATTTAAGGCGTGCCCCCCCAGAATCAAGAT
GAGAGACCGTATTGGAAATGGAGACATCCTCATCGTGTCCCGGCTGAATG
AATGGCTCGTTACGTCAGATTGGCTAAAGGAGAGAGACAGGAGTAGACAC
GGGCGTACGAATATATATGGAAATACGAATGCATAGATTGTGTTAATTGT
TTTCCTTCGAGGTGTTATTTTCTATTATAAATTTCTACAAAGTCTGGAAG
GTAACTTACTGGCAAATAACGAGAGCGCGACACCTGTCGCAGCCCTCTCT
CATCCAGCAACCAAAGTTACCTTTCATGTCAACTGGCCAGGGCCCAACAA
ATGCTGCCTCGATAAATCGAGACCCCCAGTGGTGATCTACCGCGTACATC
AACCATCAAGCCCCGTTTCGACCAGTCCATTGTAAATGAATTACTCCAAA
TATCCACGATTTTTAGTGAAAATACTCTATCGGGTCCTTATCCCCCAGAT
GCCGTTATCCCCGCCTCTCCACTTTCGAAGAAAAAAAGGGTGGGGTGGGT
GGGAAAAACGACAGCAACACTAGCTCCCGCAGAGGTAAAGCTGGCCGATA
GGCAGAAGTAGCAGTGTTGTCCGCTCAGACGTGTGTAAGTGGTGCTTTCA
GTTTTCAGAGTGAGGCTTGTGATGGGTTGATCCCGATCCTGCCTCCCTTT
GCAAGTAATAATAATATGACGACATCTCCGTCTCCCAATAAACTGTACTT
TTGAACTCTTCTCTCCCCGTGGTTGCGGATCATACGAAAGACCCGCTTTA
TCTGGACGAACAAAAGCAGAATTACCAACGTACCTTTGTGTTGTTTTTTT
TCCCGCGTGACGCCTCTTCTTTCCGACGCGCATCCATAAATAGCTAAACA
AATGCGGACAACTGCTCCGCCCTCTTGCGTTTATGTACTTGGTTTTTGTG
TGTTTTGTATTTTGCGCCGCTGCTCCGCCAACCTTGCCTCACGAGTTGTT
CTTTGACACAATTATCTGAACTGAGACACGAAGGTTTTGGGGTTGATGGT
ATTCAACTCAATTTTTGTCTTAAAGGGAGTCTCTTTAGTTCACACTTGAC
GCTGCGCTGCACCGTTTCCGTCTGTTTCCGTTTTTTGTTGTATTCCTGTT
GTGTGTCCATTCTGACAACCGACCTATCAATTTTATTCTGCTCGTGATGC
ATGTCATACGTATTCATAGGCGCAAGTGCTGGAAATAGATTACTCGGAAA
TGTGCAAGCCAGACGCTGCGCTGACGTGCTGCTCGGTGCTGCTTGGAGGC
CAGCCCGCGTGACGTGACGGGATAATGAAGCGGTTGGTCCGGACGGACCG
ACCAAACGACCAACTTAGACGGATAGACCGACAGACAGACGATATTGATC
GAAGAAAGTCGGGGGGCAGTGGATTCATGTCCTATTTAGATACACATGTA
CGAGTAGGTATATTTACGAACCGTACATACTTTGTTCGTACGTATGCAAT
AGCCGGCTTCATCGCGTGTAAAACCAGCTATTGCGGCATGTAGGGTACCG
TCCACAGGACCACCGGCGTGGTAAGAGACGCCCGTCTACCTCCCGGCGTA
TATGTGTACGCCGTAAGATGTACTGGTGGCAGTGCGGAACTCGGCAGGAC
AACCCAATCCTGGACATCCCCTCCCCCCCTGGAATTTGTACAGCTTGTCT
CACGCGCTTTTATGTGTACCACTCTGGACATTAATGCCGCTATTTTGCGA
CGAAGTCCGTCCGTCCATCGTCCATTTGGGTGCCCCGACACGAATACTGT
ACGTAAATCATGGTCTGGGAGTTAAATGCAGGACATGAAATGCCAATCTG
CTGTATGCGAAGACCGGGCTCAAGATAATACATTCGGGTAAGAGCGATAG
GCACTTATTTTTGTGCCACCACAAGTGGTGCATTCTATTGGAATGGTGGG
AAGCAAACATGGACCCTGTTTGCCTTGTTCCCGGTTGCAGAGTTCACTTA
AAATCATGGAAGTGCCAACGAGTCGACAGCGGATGCAAATTTCACTTCAA
GGCAAACGAGCTTGTTGCGAGTGTCTCAGCCAGTGGACGTGCAATTACCA
CTGGGTAGCGACGGGGAGTTCACTGGAAGAAAAAAAATCTTCGCGCGAGG
ATCACCTGCTGTACTGTGCACAAGTGC back to topCoding sequence (CDS) from alignment at P-littoralis_Contig78:272831..292757+ >mRNA_P-littoralis_Contig78.66.2 ID=mRNA_P-littoralis_Contig78.66.2|Name=mRNA_P-littoralis_Contig78.66.2|organism=Pylaiella littoralis U1_48|type=CDS|length=885bp|location=Sequence derived from alignment at P-littoralis_Contig78:272831..292757+ (Pylaiella littoralis U1_48)
ATGACCGCCATGCACCTGATGAATAGCAGGGTGGTTGCTCTGGTACGTGG
AGTCCCGAAGAGCTTCGCCAAGGCTGTGATGGACAAAGAGTCGGCGGCGG
CGCTAGGAGGAAAGACTATCGACTGGAGTCTCGCGTCTAAGCAGCACGCG
AGCTACGTGGAAGCTCTGTCCAAGATTGTTGATTCTGTCGAGACGCTTCC
TGCAGTGGAAGCTCACCCAGATTGCCCTTTCGTGGAGGACGCGGTGGTGT
ACGCGAGGGGCATCGCGGTGACGCTGAGACAAGGGCACGAGTCCCGGAGA
GGGGAAGTGGACGCCGTCCGGGAGGCCTTGACAAGTCGTCCCGCCCTCAA
GTGCGTGCAGACGGTGGACATGGAGGATCCCGAGGCGCGTTGTGACGGAG
GCGACGTTTTGTTCACAGGGCGCCACATGTTCGTGGGAATATCGGAGCGA
ACGAACCAGGCGGGGGCTGCCGCGTTGGCCAAGGCATTCGGTGCCTCTCT
GCCGGTCATCCCGGTGCCGGTGACGGGTGCGCTTCACTTGAAATCGCTGG
TGTCTATGATAAAGCCTGGGGTCTTTCTGTTCGCCAAGAACGACGCGGGG
ACGGAAGTGGTTGCCAGAATGGCCGCCGAAGTGGGAGCGACAGCGTACAA
GGCTATCGGGGTCCCTGATCAGACGAGCGCGAACGTGGTGTCCGTAGTCC
ACAAGGGGAAGTGGAGGGGGGCGCTGATCCAGGGCGGGCGGTGCGATGAA
AGCCGCTGGCTCATCCGGAAGTGCTTCACGGAGAAGGAGCAGGCGCAAGT
GCTGGAAATAGATTACTCGGAAATGTGCAAGCCAGACGCTGCGCTGACGT
GCTGCTCGGTGCTGCTTGGAGGCCAGCCCGCGTGA back to top
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