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Homology
BLAST of mRNA_P-littoralis_Contig20.211.1 vs. uniprot
Match: A0A6H5JB15_9PHAE (AhpC-TSA domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5JB15_9PHAE) HSP 1 Score: 485 bits (1248), Expect = 1.130e-162 Identity = 266/350 (76.00%), Postives = 290/350 (82.86%), Query Frame = 2
Query: 296 MGKQGELMEQMAKAQRDRKQRELEEKLRESGDLPPK--DEAPKPSTATGSG-RIKPDRSWREAGVAKAPSLDSKAAAPAAPARPQPQRAGSSAGGTKTPAAAAGMGGKVWPSTREEGRSGAEYNEYEQLLESTGDHSGSRKSPEVENPKAAYKDWDSMRDQAQWDAVIAGKKPVRNRSPVASETEYSDFEAMLSGGARLSANSLGLQAAEKKIAKRVEKKAQLAFSRGDFAPLDPWRTLSDMEGEK----VNFGLFRGTKPLLVVAEPNPGSGEMKQALYELNTRMPRKLVDVVAVTVDTPAANRKLAKKSRIQFPVLSDEAREWMLAYRVTQGGLRDNMAFLIEPDLGR 1324
MGKQGELMEQMAKAQRDR +RELEEKLRESGDLP + D+A KP+ A G+ RIKPDRSWR+AG AK PS A KT AAG+GGKVWPSTREEGRSG +Y EY QLLESTGDHSGSRKSPEVENP+A Y DW++MRD+AQWDAV+AGKKPV NRSPVASETEYSDFEAMLSGGAR+S+NSLGL+AAEKK+AKRVEKK L FSRGDFAPLDPWR LSD++G K VNFGLF+GTKPLLVVAEP PGSG MKQA+YELNTRMPRKLVDVVAVTVD PA+NRK+AKKSRI FPVLSDE EWMLAYRVTQGGLR+NMAFLIEPDLGR
Sbjct: 1 MGKQGELMEQMAKAQRDRMKRELEEKLRESGDLPKEEDDDAAKPAAAKGAAARIKPDRSWRQAGAAKPPS-----------ASXXXXXXXXXXXXXKT--GAAGVGGKVWPSTREEGRSGDKYEEYNQLLESTGDHSGSRKSPEVENPRAVYTDWETMRDKAQWDAVVAGKKPVVNRSPVASETEYSDFEAMLSGGARISSNSLGLKAAEKKLAKRVEKKVDLTFSRGDFAPLDPWRLLSDVDGNKASGAVNFGLFQGTKPLLVVAEPKPGSGAMKQAMYELNTRMPRKLVDVVAVTVDPPASNRKVAKKSRILFPVLSDEGGEWMLAYRVTQGGLRENMAFLIEPDLGR 337
BLAST of mRNA_P-littoralis_Contig20.211.1 vs. uniprot
Match: A0A835YU18_9STRA (AhpC-TSA domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YU18_9STRA) HSP 1 Score: 125 bits (314), Expect = 3.710e-28 Identity = 59/123 (47.97%), Postives = 82/123 (66.67%), Query Frame = 2
Query: 959 FSRGDFAPLDPWRT-LSDMEGEKVNFGLFRGTKPLLVVAEPNPGSGEMKQALYELNTRMPRKLVDVVAVTVDTPAANRKLAKKSRIQFPVLSDEAREWMLAYRVTQGGLRDNMAFLIEPDLGR 1324
F GDFAPL+ W L D EG ++ RG +PL+++A+ P + +M++ L ELN R PR D+VA+T DTPA NR++AKKS + FP+LSDE+REW+ AY VT + M F++EP GR
Sbjct: 144 FEPGDFAPLEVWAAALRDTEGAAASYASVRGARPLVIIADARPANADMRETLIELNRRFPRAAADLVAITPDTPAQNRRVAKKSNLFFPLLSDESREWLRAYLVTARVPWEKMVFVLEPRYGR 266
BLAST of mRNA_P-littoralis_Contig20.211.1 vs. uniprot
Match: A0A7S3XLL3_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XLL3_HETAK) HSP 1 Score: 100 bits (249), Expect = 1.590e-19 Identity = 50/126 (39.68%), Postives = 74/126 (58.73%), Query Frame = 2
Query: 950 QLAFSRGDFAPLDPWRTLSDMEGEKVNFGLF-RGTKPLLVVAEPNPGSGEMKQALYELNTRMPRKLVDVVAVTVDTPAANRKLAKKSRIQFPVLSDEAREWMLAYRVTQGGLRDNMAFLIEPDLGR 1324
+ + GD APLD W L+ +G F F G + ++VVA+ +MK AL ELN R P++ +VAVT D NRKLAKK+++ FP+LSD + W+ AY V L + F++EP++G+
Sbjct: 142 EATLAEGDLAPLDVWAALTTADGGGARFRNFVEGDQLVVVVADARKDCADMKAALIELNARFPKQAATLVAVTADLAHENRKLAKKAKLTFPLLSDPDKAWLKAYGVQNDRLLEKQIFILEPNMGK 267
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 | 159749.K0RHF2 |
| Model size | 2423 |
| Max annot lvl | 2836|Bacillariophyta |
| Hectar predicted targeting category | signal peptide |
| Exons | 9 |
| Evalue | 4.39e-06 |
| EggNOG OGs | 2C0FB@1|root,2SP81@2759|Eukaryota,2XCUG@2836|Bacillariophyta |
| Ec32 ortholog description | Thioredoxin-like fold |
| Ec32 ortholog | Ec-17_002350.1 |
| Cds size | 1473 |
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 |
|---|
| 1680789980.3259745-UTR-P-littoralis_Contig20:911890..912761 | 1680789980.3259745-UTR-P-littoralis_Contig20:911890..912761 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig20 911891..912761 - |
| 1680789980.4373806-UTR-P-littoralis_Contig20:924162..924241 | 1680789980.4373806-UTR-P-littoralis_Contig20:924162..924241 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig20 924163..924241 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789980.3365343-CDS-P-littoralis_Contig20:912761..912989 | 1680789980.3365343-CDS-P-littoralis_Contig20:912761..912989 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig20 912762..912989 - |
| 1680789980.347592-CDS-P-littoralis_Contig20:913826..914009 | 1680789980.347592-CDS-P-littoralis_Contig20:913826..914009 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig20 913827..914009 - |
| 1680789980.3585184-CDS-P-littoralis_Contig20:914768..914885 | 1680789980.3585184-CDS-P-littoralis_Contig20:914768..914885 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig20 914769..914885 - |
| 1680789980.3677533-CDS-P-littoralis_Contig20:915459..915537 | 1680789980.3677533-CDS-P-littoralis_Contig20:915459..915537 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig20 915460..915537 - |
| 1680789980.3836298-CDS-P-littoralis_Contig20:916349..916460 | 1680789980.3836298-CDS-P-littoralis_Contig20:916349..916460 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig20 916350..916460 - |
| 1680789980.3944385-CDS-P-littoralis_Contig20:917424..917561 | 1680789980.3944385-CDS-P-littoralis_Contig20:917424..917561 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig20 917425..917561 - |
| 1680789980.403579-CDS-P-littoralis_Contig20:917961..918241 | 1680789980.403579-CDS-P-littoralis_Contig20:917961..918241 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig20 917962..918241 - |
| 1680789980.4128802-CDS-P-littoralis_Contig20:920755..920900 | 1680789980.4128802-CDS-P-littoralis_Contig20:920755..920900 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig20 920756..920900 - |
| 1680789980.4277916-CDS-P-littoralis_Contig20:923968..924162 | 1680789980.4277916-CDS-P-littoralis_Contig20:923968..924162 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig20 923969..924162 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig20.211.1 >prot_P-littoralis_Contig20.211.1 ID=prot_P-littoralis_Contig20.211.1|Name=mRNA_P-littoralis_Contig20.211.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=491bp
MRSSPLLLVTLPGWVWGYLSPAPLSSRHPKHRSTPPADGGSFRLRPETES
FPTKSHAQRCRPLFRKGFSKGGMGKQGELMEQMAKAQRDRKQRELEEKLR
ESGDLPPKDEAPKPSTATGSGRIKPDRSWREAGVAKAPSLDSKAAAPAAP
ARPQPQRAGSSAGGTKTPAAAAGMGGKVWPSTREEGRSGAEYNEYEQLLE
STGDHSGSRKSPEVENPKAAYKDWDSMRDQAQWDAVIAGKKPVRNRSPVA
SETEYSDFEAMLSGGARLSANSLGLQAAEKKIAKRVEKKAQLAFSRGDFA
PLDPWRTLSDMEGEKVNFGLFRGTKPLLVVAEPNPGSGEMKQALYELNTR
MPRKLVDVVAVTVDTPAANRKLAKKSRIQFPVLSDEAREWMLAYRVTQGG
LRDNMAFLIEPDLGRRFRNEGGEGARKMCHVPGCCCRALLGVNKIHVSYL
YHAQDASEVNEPLKLQRVILAFRSDPPPYPPISKLHISAA* back to topmRNA from alignment at P-littoralis_Contig20:911891..924241- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig20.211.1 ID=mRNA_P-littoralis_Contig20.211.1|Name=mRNA_P-littoralis_Contig20.211.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=12351bp|location=Sequence derived from alignment at P-littoralis_Contig20:911891..924241- (Pylaiella littoralis U1_48)
CATCGCTCTGCCCCGAGTGTCTGATGTTGTGTCAAGTGCAACCTCCACCT
GCATCATTTACTCGTAGCCACACAGTACCATGCGCAGCTCTCCGTTATTG
CTTGTCACCCTTCCTGGTTGGGTATGGGGATACCTTTCCCCTGCTCCACT
TTCTTCTCGCCATCCAAAGCACCGTTCAACGCCGCCAGCTGATGGAGGAT
CATTCCGCCTTCGACCAGAAACCGAAAGCTTTCCCACGAAGTCTCATGCG
CAGCGGTGCAGGCCCCTTTTCAGGTGTGTACAGCGCCGTGCACCTGAAAG
TACACGTAGTTTCCCGTCAGGGAATCGGCGTAGGTGGAGGTAGTTGTAAT
AGAGCGGCTTATTGATGCCTGTAACAGGCTTTTTGAATGCATTACGGCGG
TTGATCACGCATGATGCCTTGTAGGTACCGTAAATATCATACTCGGAGTA
CTTCATGCTGTACTCGTTTACAGAGCAGAAGTGTTGTACCAGGTACTTCG
AAGTAGGGTTTAAGTAAGGGGGGTGGTTGTGCGTGGGGATAGTAGTAGGA
GATGCGAAGCACATGGGAGAGCAGCTTGTTTTATCGCCCATCATAGGCTT
TGGGTTTGGCGGTGTACGATAGCAGCGTATGAAATGCCTCCCATATGACC
TGCCTATGCCGTCGTTCAGTTTTAATCTCCTCCTCTAGTGCAACATGCTT
ACAGTACGAGTATCATACAACTGAGATGCCCCCAGGAGATAATGGGGTAG
CTGGGGCACTTGTACAATCTCTCTGTGAACTAGTGCCTGTGCTGCTGTAT
CATGTGTGGCAGGATGTTTGAATGCACACAGCAACTATCGGTACCACCGA
AGTAGGTCGCGTAGTGTACCACCACAACTATCACAAAAAACACTGGACCC
GATTTCTGAGCTCGATTGCTCCACAACAAGGAGCGGGTGGCATGCCAACA
TGAAACAAACAAGAAAGTACCTGCTGTTGTAATGTGCAGCAGCAGTAGCC
GTTTTGCGTCCCGTATGATATACTTCGCACTTCGTAACTTTTTCTGAACG
CTCTCTACAAATATCGATGCTGTCGTACACATCATACTATGGCATCTTAC
ACATAATATCATCGTATCATATCATACTTCGTTCTTCGAAATATAATTTA
ACCCTTCTGGGACCAGGGTGTTTTGTTCCTTTTCACACGAACAGCCCGGG
TTCCAAATCAGAACCATACGATGTTCCCCCGAGAAAAAAAAATATAGCTC
AAATGTCCCTGTCAAATGTACAGCAGTCACGAAACCAAAGAGAAAATGTA
CACATCAGCACCGCAAAGATATACAGCCAGGGCCCCTGACGGGGGCTCAC
AGCGGGCTGGTTACGTCACGGGAGAGTACAGAAGGGATACCCGGTGATCG
AGATGCCGCGGCTAGCTCTCAGGCATCGTGCTACGTGTTCTAACCATCAA
TAGCGCTCAAAGTATCCAGTCACCTCAAAACAAGGCTTTTGGGTGGGGGC
CCCGCGGCCTGCGGCCGGCCTGAAGGCCGGTCCTTCCTTCTCGCACATAG
GTTCATCATTGGTACCGGTAGCAGCAACAGCAGCAGTAGTAGTAGTACTA
GTAGTACTAGTAGTAGTAGTAGTAGTAGTAGTACTAGTAGTACTAGTAGT
ACTAGTAGTACTAGTAGTACTAGTACTAGTAGTAGCAGCAGCAGCAGTAG
CAGTAGTAGTAGTAGTAGCAGTAGCAGCAGCAGCAGCAGTAGTAGTAGCA
GCAGCAGCAGCAGCAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGT
AGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAG
TAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTAGTA
TTCTTGCAACCAATCGCATGTATCTGCTGCTGCTGCTGCTGCTGTTGTCG
CTGGGTTGACCAAACAAGATAATACCATCATCTCTACAGGATGTATCATA
CGTAGAGGTACGGAAAATGATAAAAACGTACACGTGTGTGTCATTTATTC
AACATACAGGGATGATATGTCACCCTCCCCGGGTCCTCTGATTGGTCAAC
CTTATGTGTACGTGAAGCACACCGCGTTCTGTCTTGCGGACCACCGGCGT
TCCACGACCGCGGCGCAGCCGCGGTTGTGCTCGCTACGGCCCTCCTCGGT
CGGTCGTGAGGGTTAGGGTTAGGGTTAGGGTTGGGTTGGATTGAGTTGGG
TTGGGGTGGGTACGTGTGTATATCATGGTTCGTGTGCTGAACTGAAGTCG
AACTTTCTTTCAGATCTGAAGATCCTCTAAACAGGTGTAAATTTGTTGGT
TCAGCTCTTCCACAACCATATCATCCCTGTATGTCGAATAAAGCGACACA
CACGTGTACGTCTTTATCATCTCCCATAGAGGTACGTATGATTCTTCTAC
TACTACTACTGCCCTTGCTTGTTGTGTGATACAGAAAAGGGAGGAGGGGT
ATCATATGGCATGTATGTGATGTACTGCTGTACAGCAGCGGCAGTAGCAG
TTGTAGCAGGAGTAGTGCTGCTATAATGCTAGTGGTGTGGTGTTGCACTC
CAGAAAAATATGATACTGCGAAGTGCATACTATACTGCTGATGATATTTC
TCTGTCAGATGAGATGATTTCAGATTTCGACTGCCGGGGATTTATTATGT
TGACTTGAGTCTTGGGCACCCACACCCCTTGACCACACACACAGCAGCAG
CTGTGTGTGAGCGGTGTTTGTTGACCCTCTTGCCCGTATCTGAGTGCAGC
CGGAATGCTGCTCAACTTCCAACGTGATGGGGTTCGGGAATTTTTTGTTT
CTGTCCCCGTCCCGAAGAGACCGGCTAAACAAAAAAAATAAAAATAAAGG
ATTAATAATGTGTGATCAATGTACGCCTAGAAGTCACAGAAGGGTTAATA
CGATATAATGTCCATTCGTATGATGTGACATTTCATTACCATCAATATCA
TGCTGCTCTTTTTGTCTTTTAGGTAAGACCTCCATGTTGCCTTGCTCAAC
CTGACAGCCTCTGAGCTCCAATGATACATTGTCTGAGGAGTTATGGTGGG
ATGTAAATCATACGGTACTCTCTGTTGTTGTGTTCGTTTCTTATCTACTC
GAAGATAAATCCCCGTCAAGAGAGAGACGAAGACACAGCTCAGCAGTGCT
TGTACACGTCGGCAACGTCGGCTCGGCTCTCGACGCCGCTCGCCCTCTTT
CTTCCGCTGCTGCGTGCACACCTTAATCGGGGGGCACCGCACCGCACTCC
ACTTCATTCATTGCACTGCACTCCACTGCACTGCGCTGCAGGAAAGGGTT
TTCCAAGGGTGGCATGGGCAAGCAGGGAGAGCTCATGGAGCAAATGGCGA
AGGCGCAGCGGGACAGGAAGCAGAGGGAGCTCGAGGAAAAGCTCAGAGAG
AGCGGGGACTTACCACCCAAAGACGAAGCTCCTAAGGTTAGCAACAAACG
GACCCGAAGCGGTTTCGTCCGCCTTATGTGCCGTAGAAATACAACAAACG
ATTTGTGTATTTGAGGTGGGGGTGGGGGGTGGGGGGGGGAAAGCTACAGG
AGAGCAGGGACTTGTCGCCAGAGGAAAAGAAAGGTTCCTGCGTACAGGGC
TCAGGAAACTAATAACTGGGCGGTTCTCTCGGCTGAGAAACCCGAAAGAC
AATTGCAGCAATGAAGTAAAACTAGAAAGACAATTGCAGCAATGCAGGGA
GTTCCACTGTGTCATGACGGGGGGTCGGCAGGGTACGGGAGAGCAGGAAC
TTCGCCACCGGAACAGGCTACTTTATAGGTACGCAAGGCTTCTAATTTCC
TCCGATGTACGGCTTCACCGCCTCTCCCCTCATAACAAAGTTCCTGATGG
TGGTGCAGGGAAACTTGAGACTGAGAATTGTGTTAAAAAAAAAGTGGTAC
GTATGGAATTGAGTGTCCATTCAGATGTCATGTCGTATGTATGAAGGTGA
TTGTACATCATAGCTCAGAAAGCATTTCATTCATCTAAGAAAATTTCTCC
ATTTTTCATTCACATCGGGAAGTGTTTCAATCAGAAAATATGGGGTAACT
CAGTTGAGAAAATGCTTTGTTCAGATACAGAGGTGTTTCATACCACGGGA
AGGTGATCGTTTGGCGAAGAAAACTGTTTTATTCAACTGACGTGGCATGT
CATTCACATCAGGACAAAGGGAGTGTTTTATTCATATGAGAAGGTATTTC
ATCTGGATGAGATATGGAAGGCCTCTACTCGCTACAGTAAGGCCCCGTGA
CGTGGTAACTTTTATAACCCGTTACCGTAGGTGGGTTAATGTTTCCTCTC
GTTGCAGTGTGACGAAGAATGTCAAGCGATGGCCGAGCTGAGTTCGATCA
GGGCTAGGTAGAGAGAGTGTGGCAAGGGAGGCCATCGTGGACCTTCCTTG
ACCCCACGAATCCGGTCATGGTCGCAATTTCATTTCCAGATTCTCTGTGT
CCAGGGTTCGGAGATCGTGGGATATTATATTGTCCGGTAGATCTCCCAAT
ATGTCCGTTATGTATGCCTTCCTGTATTCCCTAGGAAGATGCAAATCCAT
TGTATCCACAGAGAACATGCTTTTTTCAGAGGAGGTTTTTCATACGGTCA
CCAAGAGGTTAATTCATAAGGTGATTGATTCAAGTCAAAAAGTCAAAGTT
GGTACATTCAGACATGAAGGTGTTCACAGGGCCGAGAGGGTGTTTCATAC
AGCTGATAGAGCGTCCATCCAGATATGAAGGTGCTTCATCCGTGTACGAA
AGGGTGCTGCATGTGGTTCGGGTGTTAAGGTGTCTCGATCCGAAAGTAGA
ATGTTAGTGGAATGTTCATCCAGGTAAAATAATGGTGCTTCATTCAGGTA
TGAGAGTCTTTATTGGGATATGAAGAGTATTTCATTCGGACACAAAGGCG
TGTATTCAGATAACGAGTGTTTCATTCGGCTGAGTAAATGCTTCACTCAG
GTATTTATGAGGGTGGTTTATTCGGATGTGAAAGCATTCCATTCAGATTA
TAAAAATTCCATTAGGATGATCACGAAGGTGGTTATCCAGGTCGAAAGGT
GCTCATCCGGCCAAGCGCTTCATCCGAAAAGAGAGTGTTTCGTTCAACCC
TGGCGAGGTAATTCAAGTCCTACTGGGATATGCTGCGGGTTGTGGAGGGC
ATGACCGACCATCGCCAAGAAAGGAATTAAAACGAGGCCCAGGCAATGTT
CGGGTTCTTGTGAGAGCGCCGGTAATTCTGCTGCCGCTGTGCCACGTACT
GCTTGCCGTAGAGAAGGACAACAATTGAGCGAGGGTTCCTACCGCTGTAC
CGTTGTGCAGCAAGGGGCGGGGCAAAAAGGTTTCTCCGACCAAAACCAGC
CGTCTTCCCCGCAATATTTCAGGAAGTTCCGGCACGGAATGAACCGGGAG
GGTTAAAGTATTGTGTTTTGTGTTTTGCTTGTGCTGCTGCTGCTGCTGCT
GCTGCTGCTGCTGCTGCTGCTGCTGCTGCTACTGCACCTGGATGCACGGT
GGGCATTACTTGTTTGACACACACACAAGATGTTTACAATACAGCCTCCT
TAAATCATTGTGACTTTGTCGCGGGGTGAGTTTGTTTCGCAGGCATATCC
GGAGTGGCGATGGATGGCTTCATGTGACAAGTTCTTGGTGTACGATCAAT
GAATGTTCGCCGTGGGACGCAGACACACGAGCTCAAAAATGGATTGTACA
GTTTTTTTTGCTGTGGGGCGTACAAACGTGTGGGAGTCCGTGAATGTTAT
CCTCTGTGTGTGTCTTGCAGCTCACGGGCGGACTGCCCTGGCGCTAACAC
AGCATTCAGTAGTCGCGGCGTGGTATCAGGCCCGGTTCATTCGCTCACTC
AATCAACCCCATGACCGATTAAAAATCACCAGCACCACCTGCTCACGCAC
CTTGCTTTGGCCGACGCCCCCCCCCCAATCCCCATTCCGCTTGAAAAAAG
CCTTCAACGGCAACAGGGTCGGGAAGGATCAAGCCGGATAGATCGTGGCG
AGAAGCTGGTGTCGCAAAAGCCCCTTCCCTAGACAGCAAAGCAGCAGCAC
CAGCAGCACCAGCACGACCACAACCACAACGAGCCGGGAGTTCTGCAGGC
GGGACGAAGACGCCGGCAGCAGCGGCGGGTATGGGAGGGAAAGTGTGGCC
AAGCACGCGGGAGGAGGGACGGTCCGGAGCCGAGTACAACGAGTATGAAC
AGCTACTGGAGAGCACGGGGGATCACAGCGGTAAGTGGGGGTGGGTGTGG
GGTACTCATTTTGTTGTCTCAGTGATTTCACGGTTGCCGTTGTCCCCACG
CCCCTTTTGAGACGTAAGCACCGCTCCTACACGGTGGAGTCGCCGCCAGC
ATTTTTCAACAAGATCGTACGTGGCAAGAGTGTGTTTGCGTCAGCTTGGC
GGGGGGTGGCGAGGGCGAATACCTGACACTGGTGTTGTTTACTCCGTCCG
AGCCCGTGTGCTCCAGCGCATGCACCCATGATGCAGTATCAAATACTGGT
CACATCATACATGTGACGCGGCGTGGAGGCTCTCCTTCCTTTTCATGGGG
GCGTCTACGTATGTCGCTCCTTTTTGCCCCGCTTAGAAAACGTTCCCCTT
CTTCTGCCCCCCCCGCCCCCCCCCTGCTAGGATCGCGGAAGTCACCAGAG
GTGGAAAACCCCAAGGCGGCGTATAAGGACTGGGATAGTATGAGGGATCA
GGCGCAGTGGGACGCCGTGATTGCCGGCAAGAAGCCTGTTCGTAACCGCT
CTCCTGTGGCATCAGAGGTGCACCCGCGTTGTGGAAAACATTCAGTGTTT
CCATCTGTACGGGTTTTTTGGGATCCTACTACGTGTTGTAGTGCAGGGGG
GGGGGTCCGCTGCTGTGCGTGTGGGGCTGCCCGGTGGTATGTACAACAAC
AGTGTTTCATCTAGAGCCGATGCTGCTTTTGCGTGTGGCGTTGGCTGGAG
AGAAAAGACTTTCGTACGCCATTGGAGTAATGGAGGAACACTTTTGCTGC
CGTGTGTCCTTTTGTGTGTGTATCGCGTCCGTGTTCTTCTGCTTCTGTAT
TTTTTTGTGGGGTAAAAACGTGAGCAACCATACATGCACCGCGGTAGAAT
GTGTGTGTTGTTTTGTTTTTGTGAGGTGGCTACTGTAGGGACCGAAGCTC
TCGGTGTAATCAAACATTGCGAAGCCACAGCCGGTGCAGGAGGGAGAAGA
GAGAGGGAGAGACCCTCCACCATCTGCTTCTTCCACCTCCTCCTCCTCCT
CCTCCTCCTCCTCCTCCTTCTCCACCTCCATCGCGCCGTCGAACGGTGCA
ACAAGTGTACCGCGTACGGCGGGAGATAACACAACCCCTGGACCGTCTCA
CAAACCTCGACGTCTCCACCCGCGGCAGCATGAAAGAGTTTTGTCGGTGG
TGCCTACGAGGATGGCGTGGCCTCGGAGCGATGAAGATCGATACCGCCGA
GTGATTCCCGTGAATGTGCCGCTTGGTGATACCAACACCCTCTTTTGTTG
CTACGCACAGGAAGTGGGCTCTGAACATCGGCCAAGGGGGGGCCCGTGTG
AGATACACTGCTGCCGTATACGGCGTTTGTATTTTGTGTCTTTACTGTTG
CGCCCTGTATTATCATATGCAGCATATTACGTGCCGTTGCATGCTTCTAT
TTGTCTGAGGTGCTGCTGCGCTTGCCCGGCGTTTGTATTTCGTGTCTGTG
TGTGCGCGTTGTGTGTGTGTGTGTATGCCAGACCGAATACAGCGACTTCG
AAGCGATGCTCTCCGGAGGTGCTAGGCTTTCAGCCAACAGCCTAGGACTT
CAGGCTGCGGAGAAGAAGATCGCGAAACGTGTCGAGAAGAAGGTGCATGC
TACGAGTGTGGGCTCAAACGTGCCTACCTGTTTTATCTCTTTCTCTATCT
CTCCTTCTCTCTCCTTCTCTCTCCCGGGGTTGTCAGGGAGCATATGAATC
CTCCTTGTTGCGTGTACAGTAAATCACGGGCGCACGTGTTGCGACGTAGT
TGGGGAGATCGTGCCACAACCACCGACATCGGCTCTTCGAGCATGGTACG
GCCAAAACGTTAAGCGCTTACACATCATCGAGCGAAGAACTTTGCCTTAT
TGCTGTGTAAAAAAAACACATTCTGCAGCACAGCAGTCGAGAAAGTCATC
TTACCGGGCATGCCCGGCGCCGATAACAGGAGTAAAAAGCTGGGGACGGC
GAACCCATTACCTCGCGGAGGCTGAAGTCAAGCGCGTACAGGGCGTGGGC
GTGGATTTGATAGCGTGTGTCCGCTTTTTGTGGACGTGCTGGACGGAATC
GGGTTGCGCTCGGTGGCATTTTTATTTTTTGCCTTTTCAAATGCAACGAA
CGTGTCACCTCCTTGCCCTGCCCCCGGTTTTTACCCGTGTCTAGTACCAA
AGTTTATGGTCCATGCATGTATAGAAGTACTTCTTGGAGGCCATTTAAGG
GAGGCAAGTGCTACTGCACAGAACTATTTCGTTTCTTTCGGAACGCCTGC
AGAGACACCAACAAAACTCGATGTTCCTTCTGTGGCATCGATGACGGACG
AACGCGCTGCGCCCCCCCCCTCCCCCGCGGCTTGTACACTGATCGTGATT
ACTGGACCCTTCGCCCCTCTCTCAATTGCCCTGTGGAACACATGCCCTTC
GCAGGCACAACTAGCATTTTCGCGCGGAGACTTTGCGCCGCTGGACCCAT
GGCGCACCCTCTCAGACATGGAGGGAGAGAAGGCGAGTCGGAGTTCCACA
TGGAGGCGATGGGGGGAGGGGGGGGTAGAAGCAGGCTTGCTGTTTTGTTG
AGGGCGCGGAAGGTGACGGAATGTGCCCACTCTTGCCGTATGCCGCTCCA
AGTACTCCCACTGCTGCTGTGCTTTAGCTTGTATATCCTGTTTTTTTTTC
TGCTTGCTGCGTCGTTTGTCGGCCTGTACTACTGTACAGCAGTACTGTAG
TAGTCTCTTCTTCTTGTTGAGCTGCATCTTTTTTCATTTTTGAGGTGCAC
GGTCTTTGTTACCCCAACCTTTTACCAAAGTACTAGTTTGTGCGTGTGTG
CGTGTACGTGTGTGTGCATCATCTGTGTATGACGGATTGGGTTGTGAGGA
GGACGAGGAAAGCACAACGTGTTTTGAACTAAAAAATTAACAAATCAACC
AACGGCGGTCTAACGATCGGTATGCGTGGCGCTTTGGGGCCGCATTGCAA
AAAAAGCCGCGACAACCCGAAAAACGGTGGTTGCACTTTTTCTTTTTTTT
ACCCTTACATCATACGCCTTCCCTTCTCTTTTTTTTTTGAACTGCTGGCG
TCGCAGGTGAATTTTGGGCTTTTCCGGGGCACAAAACCGTTGCTGGTGGT
GGCGGAACCCAACCCGGGGAGCGGGGAGATGAAGCAGGCGTTGTACGAGC
TCAACACGCGCATGCCTCGCAAGGTCAGGCCGAGCAAAGGTTGCGGCGGT
ACTGCTATAGTCTGGCGAGGAGGCGCATCGCCCCTTTTGATGAAAGGAAA
GCAGACTCTTGTCAAGTACCTGTAATGAATCAGCTGCTGGCGGTAGAAAA
GTTGCTTCGCAGACGCTTTCAGAACGACCATTATCTTCCGCAAGGTTCCA
TTCGTGGAGTAGTGTTCGTTCGTGTTCCTTCTCCATCGAGAGGTTTATTT
TCTCACTCAAGTTTTAACTCCGTTGTGCGGATGTTGTGGCAAGTCATGTC
AACTGGGCCCAACAACACAATAGCAAGACATGGGGGAAAAAAACAATGCT
GCGCGCTTGACTCCCCCGGTCCTGGAACGAATCGATTTCCTATCCAGCCA
GCCCTATCTTGCATCTCTTTGATTTATTCCCCATAGGGGAATATTGCTTT
GACGGTTTGCCAGTGCTCTCGAGAGAAAGGGAAAGGTGGCAGTGCTCTCT
AGTAATACGGCACGTACGCGGCTGCGCCCTCTCCGTCGCTCCGCCTCTTC
TTTTTTTTATCACCGGATTATTCACTGGGTCTTGAACCAATGCCACCCCC
TCCCATCCCACCACTCCCACTCACTCACCCATCCACGGACCCCCCCCCCC
GTCCTTGTTTTGTCGTTCTGGGCTGCGCATTGCATGCGCTCGCTTGGATG
CAACTACAACCGCCAAATTCTCACCACCATCGCCACCACCACGACCAACA
CCACCACCCCCCATCACCACACGAAAAAAAAGTTGGTTGATGTCGTGGCC
GTAACGGTCGACACGCCGGCGGCCAACCGAAAGCTCGCCAAGAAGAGTCG
CATCCAGTTCCCCGTGCTTAGCGACGAGGCTAGGGAGTGGATGCTGGCCT
ACCGGGTGACTCAGGGGGGTCTGCGCGATAACATGGCGTTCTTAATTGAG
CCTGACCTAGGGAGGGTGAGCGAGCTTTGATAACACTTGTTGTGCGACTG
GATTGCCTTTTGTATGATCGCATGTTCACATGTTCACCCGATGGCCTTAC
TTTTTTTTCTTCAAGAAAGGTTTTCCTGTCAGGATTGAGAAAATCGGTGA
CAACCATGATTTTCTACTCTTCTGCACTACACCGAGGGATTGTTTTTATT
GTTGTTTTCGAAGGCAGGTCGGGCACAAGTTTTTGTAATGTTGGCGCTGT
TTGTTGTCGACGACCAAGAAAAGACGTATGACACGGCATCACAATCGCCA
ACTTATACAAATGCCCTCCCACCCTCCCACCCCTTACCGGTCCCTCCCGG
CGCCGTCCAGACGTCTCCCAGAAACGCGACTTTTTTTCCCGCCCGTCGTG
ATTGTCATCACATATAGTTATCCTTACATTTGCTGCAACGATCCCCACCC
CGGGCCCCTAACTTGCCGCGTTGTCGCCCTTTTGCCAAGATCGACAACGT
GTGGTCGAGCTTTGACGCGGTGTCGCTGGTAGACCTGGTGAAACGTCACT
TCAACCCTGACCGATGATGATGGTGCCTCCGCTGGTGCTGTTGGTGCCGC
TGGTGCTGGTGTTGTTGCTGGTGCTGCTTACAAAGTTGATGATGCGTGCA
TGCCTAAGAGCGCGCACGATGTTTATACAAGGCACTAACGGGGCCAACAC
ACCTGCTGGCCCAGTGATCATTAGGGGGGGTGCCACATTTCTTGAGAAGG
ATTTTCAACCAGTGAGAAATTTCCTTTCAAGTAAATTGACCAAGCGGAGA
ACTGCGGGCCCTTTTTCCCTCTCTCTCGCTATCATGCTTTCCGAACCGGC
AGCGATTCCGGAACGAGGGGGGGGAAGGAGCGCGTAAGATGTGCCATGTA
CCAGGATGCTGTTGTAGGGCCTTGCTTGGTGTGAACAAAATTCACGTATC
ATACTTGTACCATGCCCAAGACGCGTCGGAAGTCAACGAACCCCTTAAGC
TGCAAAGGGTCATCCTAGCGTTCCGATCCGACCCCCCCCCCTACCCTCCA
ATTTCAAAGCTCCACATCTCCGCAGCATGAGCACCACCAGTGGCGAAAAG
GGTGGTGGCGTTTGGAGTTTTGGAACATGCAGTGTGGTCGAGAGCTTGCC
GGGAACGTGCCATTTGGTACGGGCACCCGCTTCGTTGCGGGTTTTAATTT
GAATCTAGCTTTGAAACATTGCCCAGGACCACAAAGGTTGGAGAGAAGGG
GAAAAGTGGCACACAGGTTTCTGTTCGGTCGAAACACCCTGTGGGGCGAA
ACTACAAATCGAGACTGTGGAAGTTCCTTGGGTGACGGTTGGTGCCATCC
AAGGTCGACACCCCGAGGCTTTGTTTGACTACGTATGTACGGTTATCTCG
TTTGTTTTCGCCCCCCACGATTGGCTCGGCTAGAGGGAGAGGCGCGAATA
GGCTCGCCCTTTCAGGCCGCGTGCTCAAAGTCACGTTTGTTCTTTCTTTT
TCGGTGCTTGTGTGTTTTTGACCTCGACTCCCATATCTGAATGAGGTTGG
GGGTAAGGGGGGAGGGTACTAGAAATAGAAAGTACCGCGTGTGCGATATT
ATTTGAAGTTTCTTGTTTGGTCGTTCGATAGAAAGTATCTTAGCAAAAAG
CAGAGCGTCGATCTGAACCGCTTAGAATACAGGCATGGCGTGAATCATGA
TCGTTGCTCGAAGAAAGCAGGTACTGCTGTAGCCAGACCAGAGGATTCGC
TCCTGCCTCTGTGTACAAAATACAAAATACGAACGATACGGTTCTGCTGT
GTTAGGAGGTGTAGTCCCCACTCGAGGAAATGGTTGACCTTTTTCCCGGC
GACAGCTGTATGTAGAGCGATTATCAGTTGGATCATACAAAGTACTTCAC
ACGAGGTTACGATACGCACACGTGTGAGCGCCTGCTAGGGGGAGGGGGCG
G back to topCoding sequence (CDS) from alignment at P-littoralis_Contig20:911891..924241- >mRNA_P-littoralis_Contig20.211.1 ID=mRNA_P-littoralis_Contig20.211.1|Name=mRNA_P-littoralis_Contig20.211.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1473bp|location=Sequence derived from alignment at P-littoralis_Contig20:911891..924241- (Pylaiella littoralis U1_48)
ATGCGCAGCTCTCCGTTATTGCTTGTCACCCTTCCTGGTTGGGTATGGGG
ATACCTTTCCCCTGCTCCACTTTCTTCTCGCCATCCAAAGCACCGTTCAA
CGCCGCCAGCTGATGGAGGATCATTCCGCCTTCGACCAGAAACCGAAAGC
TTTCCCACGAAGTCTCATGCGCAGCGGTGCAGGCCCCTTTTCAGGAAAGG
GTTTTCCAAGGGTGGCATGGGCAAGCAGGGAGAGCTCATGGAGCAAATGG
CGAAGGCGCAGCGGGACAGGAAGCAGAGGGAGCTCGAGGAAAAGCTCAGA
GAGAGCGGGGACTTACCACCCAAAGACGAAGCTCCTAAGCCTTCAACGGC
AACAGGGTCGGGAAGGATCAAGCCGGATAGATCGTGGCGAGAAGCTGGTG
TCGCAAAAGCCCCTTCCCTAGACAGCAAAGCAGCAGCACCAGCAGCACCA
GCACGACCACAACCACAACGAGCCGGGAGTTCTGCAGGCGGGACGAAGAC
GCCGGCAGCAGCGGCGGGTATGGGAGGGAAAGTGTGGCCAAGCACGCGGG
AGGAGGGACGGTCCGGAGCCGAGTACAACGAGTATGAACAGCTACTGGAG
AGCACGGGGGATCACAGCGGATCGCGGAAGTCACCAGAGGTGGAAAACCC
CAAGGCGGCGTATAAGGACTGGGATAGTATGAGGGATCAGGCGCAGTGGG
ACGCCGTGATTGCCGGCAAGAAGCCTGTTCGTAACCGCTCTCCTGTGGCA
TCAGAGACCGAATACAGCGACTTCGAAGCGATGCTCTCCGGAGGTGCTAG
GCTTTCAGCCAACAGCCTAGGACTTCAGGCTGCGGAGAAGAAGATCGCGA
AACGTGTCGAGAAGAAGGCACAACTAGCATTTTCGCGCGGAGACTTTGCG
CCGCTGGACCCATGGCGCACCCTCTCAGACATGGAGGGAGAGAAGGTGAA
TTTTGGGCTTTTCCGGGGCACAAAACCGTTGCTGGTGGTGGCGGAACCCA
ACCCGGGGAGCGGGGAGATGAAGCAGGCGTTGTACGAGCTCAACACGCGC
ATGCCTCGCAAGTTGGTTGATGTCGTGGCCGTAACGGTCGACACGCCGGC
GGCCAACCGAAAGCTCGCCAAGAAGAGTCGCATCCAGTTCCCCGTGCTTA
GCGACGAGGCTAGGGAGTGGATGCTGGCCTACCGGGTGACTCAGGGGGGT
CTGCGCGATAACATGGCGTTCTTAATTGAGCCTGACCTAGGGAGGCGATT
CCGGAACGAGGGGGGGGAAGGAGCGCGTAAGATGTGCCATGTACCAGGAT
GCTGTTGTAGGGCCTTGCTTGGTGTGAACAAAATTCACGTATCATACTTG
TACCATGCCCAAGACGCGTCGGAAGTCAACGAACCCCTTAAGCTGCAAAG
GGTCATCCTAGCGTTCCGATCCGACCCCCCCCCCTACCCTCCAATTTCAA
AGCTCCACATCTCCGCAGCATGA back to top
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