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|
Homology
BLAST of mRNA_P-littoralis_Contig164.36.2 vs. uniprot
Match: A0A6H5KH12_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KH12_9PHAE) HSP 1 Score: 508 bits (1309), Expect = 3.090e-171 Identity = 304/494 (61.54%), Postives = 342/494 (69.23%), Query Frame = 1
Query: 493 HDAVIQPLLKGRNQRAARDSSSSPGVRLSHNDPRPMDVNSSKRSAGDGMHDIAMADKVVMRAASSCSFRAGAGSSSETAIQGLSRDTPGPIYDPNIGGSSAPTPATLFSPADRFPVAHTISWTPGPGHYNTAGDSVHRGKRPAGPGAVAWTGVETFMDSEWCRPVPPPHLRPWQGFGSGCNVQEHIDYGACLDGRCCTRNSFEQKNALRVVQFLGRGQRPGRRRDRGQRQGRSANEKPIVGSSPGDNGTFDEATAASPNVSRGMASAGVLRPPEARAAVRKRTPLHFASERGELALVDSRLCCQGDDRNAVDERGFTXXXXXXXXXXXXXINRLLLGDEDENTALPAGAKRGARAVAKQRPRQFPANPDAQDDKGRTSLYLACLRGHERAVRALLKAGACPDLVDIRGKPAQEVAGAQRIYQLLQFKADVSLVKANIAALEERERVAERLQQEAXXXXXXXXXXXXXXXXXXXXXAVDALEKKRVAYATAAKTQ 1974
H +I PL+K + AR SSSS GVRLS+N+PRP DV SSK SAGDG++DIA+ADKVVMR A SC F G S E+A+ G SRDTPG IYDPNIGGSSAP P TLFSPA RFPV + T GPG Y + RPAG G VAWTG++TF DSEW + VPPP LRPWQGFG+GC+VQEHIDYGACLDGRCC+R+S E+KNAL VVQFL GQR R + A+ ++ ++GT ++A G + G ARAAVRKRTPLHFASERGEL+LVD RLC QGDDRNAVDERGF XXXXXXXXXXXXX GD DEN PAG + R A RPRQ PA+P+ QDDKGRT LYLAC RGHERAVRALLKAGACPDLVDIRGKPAQEVAGAQ IYQLLQFKADVSLVKANIAALE R+R ER +++ AV ALE KR AYA AA +
Sbjct: 50 HPDII-PLVKAETRPGARSSSSSNGVRLSYNNPRPKDVGSSKHSAGDGIYDIALADKVVMRTAPSCFFGGGMASGDESAVPGASRDTPGAIYDPNIGGSSAPAPTTLFSPASRFPVGQKVFDTLGPGQYYNPAGAGASACRPAGSGVVAWTGIDTFADSEWSKSVPPPRLRPWQGFGNGCSVQEHIDYGACLDGRCCSRHSIEKKNALLVVQFLD-GQRHRRSPQSPEPVHEDASPSSRSPATHNEDGTPLSFSSAGVGGGGGELAVGSG---AARAAVRKRTPLHFASERGELSLVD-RLCFQGDDRNAVDERGFXXXXXXXXXXXXXXXXXXXQGD-DENEVQPAGGETAPRGAAPTRPRQVPADPNVQDDKGRTPLYLACHRGHERAVRALLKAGACPDLVDIRGKPAQEVAGAQNIYQLLQFKADVSLVKANIAALEGRQRNEERQRKKVAQAAALKELAELKEEELRLKAAVSALENKREAYAAAANAR 536
BLAST of mRNA_P-littoralis_Contig164.36.2 vs. uniprot
Match: D7FMA6_ECTSI (Ankyrin domain protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FMA6_ECTSI) HSP 1 Score: 452 bits (1164), Expect = 3.540e-151 Identity = 274/423 (64.78%), Postives = 301/423 (71.16%), Query Frame = 1
Query: 712 SSSETAIQGLSRDTPGPIYDPNIGGSSAPTPATLFSPADRFPVAHTISWTPGPGHYNTAGDSVHRGKRPAGPGAVAWTGVETFMDSEWCRPVPPPHLRPWQGFGSGCNVQEHIDYGACLDGRCCTRNSFEQKNALRVVQFLGRGQRPGRRRDRGQRQGRSANE--KPIVGSSPGDNGTFDEATAASPNVSRGMASAGVLRPPEARAAVRKRTPLHFASERGELALVDSRLCCQGDDRNAVDERGFTXXXXXXXXXXXXXINRLLLGDEDENTALPAGAKRGARAVAKQRPRQFPANPDAQDDKGRTSLYLACLRGHERAVRALLKAGACPDLVDIRGKPAQEVAGAQRIYQLLQFKADVSLVKANIAALEERERVAERLQQEAXXXXXXXXXXXXXXXXXXXXXAVDALEKKRVAYATAAKTQ 1974
S +E+A+ G SRDTPG IYDPNIGGSSAP P TLFSPA RFPV + TPGPG Y + RPAGPG VAWTG++TF DSEW RPVPPP LRPWQGFG+GC+VQEHIDYGACLDGRCC+R+S E+KNAL V QFL G+R+ R R A E P S N + AS +V G V ARAAVRKRTPLHFASERGEL+LVD RLC QGDDRNAVDERGF XXXXXXXXXXXXX LL GDE+E PAG + R A +RPRQ PA+P+ QDDKGRT LYLAC RGHERAVRALLKAGACPDLVDIRGKPAQEVAGAQ+IYQLLQFKADVSLVKANIAALE R+R ER +++ XXXXX AV ALE KR AYA AAK Q
Sbjct: 3 SGAESAVPGASRDTPGAIYDPNIGGSSAPAPTTLFSPASRFPVGQKVFDTPGPGQYYNPAGAGASACRPAGPGVVAWTGIDTFADSEWSRPVPPPRLRPWQGFGNGCSVQEHIDYGACLDGRCCSRHSVEKKNALLVAQFLD-----GQRQRRSPRSPEPAREDASPSSNSPATHNEDGTPLSFASADVGGGGGEFAVGSG-AARAAVRKRTPLHFASERGELSLVD-RLCFQGDDRNAVDERGFXXXXXXXXXXXXXXXXXLLQGDENE--VQPAGGENAPRGAAPKRPRQLPADPNVQDDKGRTPLYLACHRGHERAVRALLKAGACPDLVDIRGKPAQEVAGAQKIYQLLQFKADVSLVKANIAALEGRQRNEERQRKKVAQAAALKEXXXXXAEELRLKAAVSALENKREAYAAAAKAQ 416
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.D7FMA6 |
| PFAMs | Ank,Ank_2 |
| Model size | 1980 |
| Max annot lvl | 2759|Eukaryota |
| Hectar predicted targeting category | other localisation |
| Exons | 9 |
| Evalue | 5.8e-152 |
| EggNOG OGs | COG0666@1|root,KOG4177@2759|Eukaryota |
| Description | spectrin binding |
| Cds size | 1980 |
| COG category | I |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680789792.6469324-CDS-P-littoralis_Contig164:205940..206192 | 1680789792.6469324-CDS-P-littoralis_Contig164:205940..206192 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 205941..206192 - |
| 1680789792.6577208-CDS-P-littoralis_Contig164:207296..207509 | 1680789792.6577208-CDS-P-littoralis_Contig164:207296..207509 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 207297..207509 - |
| 1680789792.6684186-CDS-P-littoralis_Contig164:208009..208136 | 1680789792.6684186-CDS-P-littoralis_Contig164:208009..208136 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 208010..208136 - |
| 1680789792.6819334-CDS-P-littoralis_Contig164:208353..208543 | 1680789792.6819334-CDS-P-littoralis_Contig164:208353..208543 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 208354..208543 - |
| 1680789792.6909518-CDS-P-littoralis_Contig164:208822..209040 | 1680789792.6909518-CDS-P-littoralis_Contig164:208822..209040 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 208823..209040 - |
| 1680789792.7112346-CDS-P-littoralis_Contig164:209791..210085 | 1680789792.7112346-CDS-P-littoralis_Contig164:209791..210085 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 209792..210085 - |
| 1680789792.7237475-CDS-P-littoralis_Contig164:211406..211527 | 1680789792.7237475-CDS-P-littoralis_Contig164:211406..211527 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 211407..211527 - |
| 1680789792.7340176-CDS-P-littoralis_Contig164:211886..212123 | 1680789792.7340176-CDS-P-littoralis_Contig164:211886..212123 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 211887..212123 - |
| 1680789792.7493584-CDS-P-littoralis_Contig164:216921..217249 | 1680789792.7493584-CDS-P-littoralis_Contig164:216921..217249 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig164 216922..217249 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig164.36.2 >prot_P-littoralis_Contig164.36.2 ID=prot_P-littoralis_Contig164.36.2|Name=mRNA_P-littoralis_Contig164.36.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=660bp
MTELCPTEPGSQQDSVVLSAKAHAASIRRTLLMREYKREHGRAMPPAGRN
ACKPQQQQMERRHKLGKRDDPSPIVNGPIYSTEYWRKWKHRSRAGARAGS
GGGTDTPHVTERSLSARTLRGTRRRSLINAHPTSSFAGGRHRTQIFAVVS
GGRGGRGDSLLRAHHDAVIQPLLKGRNQRAARDSSSSPGVRLSHNDPRPM
DVNSSKRSAGDGMHDIAMADKVVMRAASSCSFRAGAGSSSETAIQGLSRD
TPGPIYDPNIGGSSAPTPATLFSPADRFPVAHTISWTPGPGHYNTAGDSV
HRGKRPAGPGAVAWTGVETFMDSEWCRPVPPPHLRPWQGFGSGCNVQEHI
DYGACLDGRCCTRNSFEQKNALRVVQFLGRGQRPGRRRDRGQRQGRSANE
KPIVGSSPGDNGTFDEATAASPNVSRGMASAGVLRPPEARAAVRKRTPLH
FASERGELALVDSRLCCQGDDRNAVDERGFTPLHDAADKGNTRVINRLLL
GDEDENTALPAGAKRGARAVAKQRPRQFPANPDAQDDKGRTSLYLACLRG
HERAVRALLKAGACPDLVDIRGKPAQEVAGAQRIYQLLQFKADVSLVKAN
IAALEERERVAERLQQEAAQAEAVRKLADLKAEELRLRAAVDALEKKRVA
YATAAKTQR* back to topmRNA from alignment at P-littoralis_Contig164:205941..217249- Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig164.36.2 ID=mRNA_P-littoralis_Contig164.36.2|Name=mRNA_P-littoralis_Contig164.36.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=11309bp|location=Sequence derived from alignment at P-littoralis_Contig164:205941..217249- (Pylaiella littoralis U1_48)
ATGACTGAGCTTTGTCCGACCGAACCTGGCTCTCAGCAGGACAGCGTCGT
CTTGTCCGCCAAGGCGCACGCTGCCAGCATCCGGCGGACGCTCTTGATGA
GAGAGTACAAGCGAGAGCACGGTCGGGCCATGCCACCAGCAGGCCGTAAT
GCGTGCAAACCACAGCAGCAGCAGATGGAACGTCGGCACAAGCTAGGCAA
ACGTGACGATCCGTCACCTATCGTAAACGGTCCTATTTATAGCACAGAGT
ACTGGCGCAAGTGGAAACATCGATCTAGAGCTGGTGCTCGTGCGGGCAGC
GGAGGTGGCACCGATACTCCACATGTCAGTGACACGGCAAGCACGTCCTG
ACGGCATGATGAACACTGGGGTGAATACCTTACGCCGCACTACAAACAGT
GAAGATGCAAGTTGAACAATGGGACCACAGGACAGTTCGTACCTACCAGG
AGCGTTTACCTCGCCAAAGCAGCTTGGCAATTTGAGACTGTGGTGAACCT
GTGGAGAATTGTGCGATTCAATTTGGTGTTGTTCTGGGCGAGATCTCGCC
CCATACTGTATCCCCTCCCTCACACCAAAAGCTACTCACGTGACCACCAC
CTATCTATATACTTCGAAGTACGGAGTATAATTTAACCATCTCATATTTG
CAAAAAGTCGTACACCCATACGAAGCACTTTATCACAAAGCAAACGAGGA
ATTACTGTACAGCATTACAAGTAGTACGATGGGTATGATATGATAGGAAA
CAGAAAATCGCAATACAGTAGGCGCCCGCTCGTAAGAAAATTTTTCATAA
GAAAATGAAGCTCACCTGTCCCCGAAAAATCAGAAATTCGGGGTAAGAAA
TAGAGCTCAGCCGTCGATCCTACACTAAACACTATACAAAGACCTTTGGC
CACCGGTGGTGGCGAAAGAAGAAATTGAGCCTCGACCCAAATTTCACGTT
TCTTGTCAGCGGGCGTCTACTGTACTGCTGTACCGCGAAAATAAAACAAA
AAAACGACGGAGGTCTGCGGTTAGGCCAGGGCTCGACAGTCCCTCTCCGA
CTAAGCACAATACCTGTGAACCGTCTCCATATTTTTGGGGATATTTGATG
ATACTTCAGAAAGGCCGCAGGCCGAAGGATGCCGCACATTTTAGCCGGAG
GCGTGTGCGGCATTTGGCCCCCCGCCAGGACCAGAATTTATAATTTGGGG
ATATACTCAAGATATAAGCGTCAAATACCCAAAAAAAGAGTGTTTCATCA
ATAAATCTATGTAAGACCCTACGAAGTACTTCATGATATCACAACTTGTC
TAGCATCCATGGGGCACGTTTTCTCGCATTTATACTGATAATTTCATAGA
AAACAGTAAAGCGCAGCATGTTTCTCGCCTCACATCACGGCGAGAAAAAG
GTGACCCGAATATTTTTGCGGCGAATGATGTAGTATGCCCCACAGAATTT
TTTGTGCGCTCGGAGAATTTCGTGTGCGGCTTCGCCGCACATGACCCCCT
CTCGTGGTGCGGCGTTGCGACATTTTCACCTGAAAGTGTGCGGGGCCGCA
ACAGCGCAACAACTATCTGAAGCTCTGCGTTTGACACGGTGGCCAATAAA
GAAAAATCTAGCCGTAAACGGGGAAACGGGCACGAAAAAAAGCGTTCCAG
AGTTCGCGTGTGGGATTTGTCTTTTGGTCAGTATACACATCGAAAACACA
CATCACCGTACCATGGCGCTGTTTGGTGCCGAAAGCTTCGTCAGAGGCCG
AAGGAGGAAAGAAGGTTGACTCAAGACCTTTATTCTTAACGAGTGAGCAT
ACAGCGGTGTAGCCCAGCCAGGGGCCCCGCCATACACCCATACACCACAC
ACATCCCCAGAGTTCCACATAATACGAATCGAGTACCGTGTACCCCAAAC
AGCCCCCCTACTCGGTGCTCGATACGATTTGCAGAACTCCTCTCATATCT
TCATCGCCAGGTAAAACGGCAATGAACCCAAACCTCACACACTTTCAAAT
CATCAATCATTCCGATCCAAAACGTCTTCCGAATCTTCTGATGTCAAATC
AATATCCCCTACGAAAGGTCCGTCAACAGACAATTGAAACCCTCTCGAGA
AAATGGTATCCACGAACCGCGACCTCGCGTTCCCATATGTTCCCAAGCCG
TCAAAATACCAGAAATACCCTCGGAAATTACCCCCACAAAAATCAACACT
CTATTGAAATAGAGCAGAATACGCAAACAGTGATGTTATTCCACCAACCA
ACCGGTGATCAAACGGTCGTACTATTCCGCAAAAATGGCTCAATTCATCC
GAACAAATTCCTCAAACGAAACCAGTGTTCAACGTTTTGACCAATTCAAA
TAAGCTTCGGAAGCACGAAGGCTTCAACCATACTTCATCAAAACATGTCA
AATCCTTCCTCCAAAATACATCATAAAAAGCAAAATCAGCGAACCGGCGA
AGTAAAATCTCAACGTGTACGACGACAACAACAGGCGTCAAGCAAAAACC
TTCATCGATGCGACTGCAGCTTCAATATCTTATACATAAACCAGTACCCA
ACAGCCCCCCTGCTGAGGCATCCCTTCAGAACATGAAACAAATATGTGCC
TGTTTGCAGTCCCGCAACACAATCAGAGATACTGCAAGTTAAAACCAGAA
CACAATTTCCCTTCAGATTTCAGGGAAACCATTCAACACCAAAACCAAAT
CACAAATCGACCAAAACTCTGCTGATACACTGCGGCGAGAATCATGATAC
ACAAATCCCCCCTCCTGATTCTCGACTACAGTACAGTCAGTGCATGTGTA
CATCATGAAATTCTGCATGCTGAATAGAAGCAATCACACAAAACAAAAAC
CAACATCATAATCCACTCCAAAACAACACCAAAACCGTGTACACGATCAG
CAACAGCCTAGCTTGTACACAACCACAAACAAATGTTGCTCTTCTACTCT
GCGCACATGGACAACGCTTAAAACGCTGCAAATTGTGTTGGAAATAAAAC
CAGAAAGACACATCCACCGTGCGCCAAAACGTTTGCAATATTCCGTCAAA
AACATACAATCACGGATGTACGGTGCTGCCAAACAACACAGCTGCTGTCA
GCCTCAAACCTTCGAATTTTTTTGTCTCTACACGCGCGAAAAAGACAAAC
CATAAGTTAGAAAGCACCAAAATCAAACATCATGTCGGGAATGTCACAAT
AATTCAGGAATATCACAGATGAACCGCACAAAATCAAATTAAAAACAAGT
ACGTACACAAGCGTAACATGCCTGAACAGGTATCAAAACCTTAGCTGCGG
CACGCTGCTGTTGTAGTTCTCATTCTGCCGAATCCACCGCCCCCCGGCAC
GAAGCCCATCACCCTCCATGCTGCACACGGCGCAAACCTTTTGCCGCGAT
CGAACGGGTGCGTCACGCCGAGGACCTCCTTTCCTCTTCCGCGAAGCTCG
AGGAACTCTTGCCGGGGTCGAAGAGGGTGCGTTGGTGCACTCCCCCATTT
GACGTTCCACCACTCGTCGTCCCTGTCTCCACCGCTGTCGTTGCTGCTGC
TGCTACTGCTGCTGTCGTCTCCAACAGTTGGAGACGCAACTGTCTCCGCA
CACCAGCAGTTGCTGACCTCCAAAACGACACGGCAGTCCTCCGCCAAGAC
CAACGTCTCGCTCAGCGGCCCTGCCTTATGCCACTTGATGTCCACAGTTG
GCTCGCCCCCTAAAGGCGATACCACCACTTCCTCCACCGGATCCATCTTC
TGCTGCTGCTGGACTTCCGGCTCTTCCAACGGTAATTCCGCCACTGTCGC
CATCGAATGCTCCTCCTGTACTGCTCTACTTGAAAATAAAACCCCCACCC
TGCTGTCCCAGTCTCTCGTAGTACTGTCCCAGCTATAAAACCTCCGCTGT
TCCGGCCTCTCGAAGTGCCGTCCCAGCTATATATCCACCGCTGTCCCGAC
CTCTCGAAGTGCCGTCCCAGCTATAAACCCACCGCTGTCCCGACCTCTCG
AAGTGCCGTCTCAGCTATAAATCCATAAATATCGTTCCACCGCCCGGACT
ACGGTTCCACGACAACTCCAACGCCAATACCCCGCCGCGACACAGGCCTA
CGATTATCGTGTTTGGTGCCGAAAGCTTCGTCAGAGGCCGAAAGAGGAAA
GAAGGTTGACTCAAGACCTTTATTCTTAACGAGTGAGCATACAGCGGTGT
AGCCCAGCCAGGGGCCCCGCCATACACCCATACACCACACACATCCCCAG
AGTTCCACATAATACGAATCGAGTACCGTGTACCCCAAACAGGCGCAGCC
CGCTCTCTCTCGCCCGATACGGCGGTATTCAACACCGGCGATCACGAAGC
TATCCACAATTACTTGCTGCGGGTTGAAACATTGTGTTCGATTGTTTTCT
TTTCTATTTTGGGACAGAATGTCCCCAAAATCCGATCTAGCCGTAAAAAA
CAAAAAAAGGGTTGAGTAAGGAAAAAAAACATGAGGAATCAGCGAGTGCG
CGATTTCATCCCACTTGTTCTGGGCAGCAGTCTACACCTTTCGGTACGAA
GTGGGTGCACCAGCCGAGGTCACACAGAAGGGAGGTCACACAGGAGTTTT
TGTCTGATTTTTTCTTCCACCCATCTTCTGCGTGGTTCTTGTCTTTGTGC
CTTGAGCTTTCTATCACGAGAAGGGTTCAACCGCCCCTTGCCCGGCCTCG
TCTCGGCCTCGTCTGCCGTTGAGTAGAATGTATTTGTTGTATACTCGTGA
CATAGTCGTTTCCCTCTCCCAAGAATTTTATGAGAAAATCCGAAATCAGT
GAAGGGATACAAATTGTTCTCGGGTTGTTTTTGGTCTGTGTGGGGAAGAC
AAATGGCGGCCCAGATACAGCACCTATCCATTTATTCAGTGGAAATGAAG
GCTAGACGTCTATGATTGCAAGGAAAAGAAATATCACTGGCATGACTACC
GCTGAAGTTGATGTACTATGTGCAGGAGACACGCTATCTAAGCCAAGACA
CGCGAGCTCTCGGGGAAACGTTTCTTACGGGGTGTCCTGTACTGCTGTGT
ATGCATGTGCCGAACCAGGAATTGAATGTGGGCAACAGGATTACCCGGAG
AAGAGACGGGCGCTCACCACAACAAGCAGAAAGGAGTCTGTCCGCGCGCA
CTTTGCGTGGTACCAGACGACGTTCCTTGATAAACGCTCACCCTACGTCA
TCATTTGCCGGCGGGAGACACAGAACACAAATTTTTGCGGTGGTATCCGG
CGGTCGAGGCGGCCGTGGCGACAGTCTGTTGCGAGCGCATCATGATGCTG
TGATACAGCCGCTCCTCAAGGGGCGAAATCAACGTGCTGCTCGCGATTCT
TCGTCGTCCCCAGGTCTGGACAGGAGTAAGAAGGAAGATAAAATTACGAG
CAAAATTTAGACAGTACACGGTAGACTCTTTGTTCTTCAAGCTCGAGGCG
TGATGCATTGTAACACCAAGTTGCAACGCCGTGTTGAATCATGTGTTCCT
GGATTCTATGCCCTACCGGTAGAAGCACGCCTACCTGCCCTGAACTGGTG
CCAACTTTGTGAACTAACCCCGCTGATGTCGCTCAAAATTTGAGTTTTGG
GCGCCTCCTTTTAGGATATGTCATATAGCTTCTCAATGTTCTTCATTTCG
CCAACAGGAAAAAATTAGTTTTGTCGGGTTGTTGCAAACTGGTTGGGCAA
CGCGTTATTTACCGATCCTCAGGAGTACGCCTGTCGCACAACGACCCGCG
CCCTATGGACGTTAACAGCAGCAAACGTTCCGCTGGCGATGGAATGCACG
ACATAGCCATGGCCGACAAGGTGGTAATGCGTGCTGCATCCAGGTGAAAT
AATTACAACAACAGCCGTAGCTTGCTCGTGTAGCCTGCCATATTAGAGCG
CTACTGATAGGGTATCGTTATCATCTTTCCTCCCACCTTTTTTGAAGAAA
ATCAACTATTCAACCAATGCTGAAATAAATGAGGGGAAAACGACACAGCA
CGGTATACCCTGGTCATTTTGCGACACAGTAGAGTATACACTTTCTTTCA
GCGTGGAATGAGTCAAACTCATCGGCCGACTCTCTCTTACACCCTGCGGT
GCCGGAAAAAGGGCGGGGTATACCCTGCGGTGGCCACTTTTTTCCAAAAT
TATACCCTGATCTCGGAAATGTACCCTGTTGTGTCGGGAAATGAGACTCT
TACACCGGCCTTTTCTACAGCAGGAACCCCTTCCCCAGTTCCCGCTCACT
TCAAAGGGCACCAGAATATAGATCTTCCCGCACACACTGCTTGCTGCTGC
TTGCTGCTGTCCTCATGTCGTATGTCAAGTGCGCTGAGAGCAGCACACAT
TCTGAGAGGGTCTTCATTGAGAGCCTTGGATCGCATTGTTGTGTCGCTTT
TTGTGTCGAGGTTCCACCACGTGTTTTCATTGCGTTATCGTGTGGTATCT
CTACGATAACATAAACAACAACTTCTACTGCTCCAAGGAAGTAGCTGATT
CTTCGTTGGTTTCAGGTAGTTGGTGGTGGCTGGTGTGGGCCAACGACTCT
CTTTCTCTGTTGGTAGCAGTGTTATTGTATCCCATCGTGTTCGTTTTGAG
CGGGAAGAGTAAATACGGAGGGTTGGAGGCAGGTCCGTATATTGCCGGTC
ACCATCGTATTTTGAGGGCGGGAAGATCTGTATTTTGGTGCCCTTCGAAG
TGAGCGGGAACTGGGGAAGGGGTTCCTGCGGTAGAAAAGGCCGGTGTAAA
GGGTCTCGTTTCCCGACACGCAACAGGGTATATTTCCGAGATCAGGGTAT
ATTTTTGGAGAAAAGTAGCCACCGCAGAGTATACCCTGCCTGTTCCCGGC
ACCGTAGGGTGAAAGAGTGCGTCGGCCGTTGAGCTTGACTCATTCCACGC
TGAAAGAAAGTGCATACTCTGCTGTGTCGCAAAATGACCAGGGTATACCT
GTTGTGTCGTTTTCCCTATAAATTATCTCCATCGCAACCCTGCCCCCCAT
CAATCTCGTATAGTGTGGCTTCAAGTTCCGAAGCGCAGTTTATGGCTGAT
TGCTGGGAAATGTGATGGCACCGTAATAAACATGACGTATTAACTGCTGC
ATACAGGTAACCTCCACCTCTCACTCTTCCCGTGACAACCATCACCCTCT
CGAAACTCCGGCAGTTGTTCCTTCAGGGCGGGAGCAGGTTCCAGCTCTGA
AACCGCCATCCAGGGATTATCTCGGGACACTCCAGGCCCGATATACGACC
CCAATATCGGCGGTAGCAGCGCCCCCACGCCGGCCACGCTTTTCTCGCCA
GCCGATCGTTTTCCCGTCGCACACACGATTTCGTGGACCCCGGGTCCAGG
ACACTACAATACGGCGGGCGACTCGGTGCATCGGGGGAAACGTCCGGCAG
GGCCTGGAGCCGTAGCGTGGACTGGCGTAGAGACATTCATGGACTCCGAA
TGGTGCAGGTTGGTCGAGCGCCCCTCTGCTTCAGGAAAGAACGACTGATA
TCCAGCCCGATGCAAGCCTTTATTTTCCGATCAACCAGGCCTCACCGAAG
GCGGCGCGAACCAAAGCTTCACCAGCAAAATGCCCCTTTTTCAATACTTC
GAAGTACATACGTAAGAGGGATGGTCTCCCCGTGGAACCATTCTGATACA
CGCGAAATTCGCGACTAGCTGAGAGGTATTCTACGCGAATCCTGCTAGGA
AGTCTTTACTTTGTCTCTCGGTGGAAGTTCGAAATACTCCTCTCTCTTCA
TTTTGCAACTTCCCCCCCCCCCAGGTTCAGGGCTCGCTCTTATCACCATG
CAGGGATACGCGTTTGATGATAAAATTTCACAGAAGCGTGACCAATACTA
CGGTCTAAACCTGTATGATTTTACAATTTGATGCCAAGACATGTATCGTA
TTTGAATGGAGCAAGTTGATCAGACGAAGGTAGTGATTCTTATCAGGAGT
AAAATAGGAGTCGTTGTTATGTTGCAAGATGTCCATCTCCGGTTTTGGAG
GTCATCTCGGAAGCCGATTGGGAACATCGAAAATATGCAGCGGGGACTTA
TCTATTCTCTCTGTTCGTTCACTGCGGCGGGAGCGTTGTATGATCTGACC
TCTCCGCTCCTTCCATATTACACGACATACGGCTATTGTTCTTCATCGCT
ATAGGAGAAATGCATAACATTCATTCCACGTTTTCGGTGTCTTTTTCTTC
GATCCTCAGACCGGTGCCTCCGCCACACCTCCGCCCCTGGCAAGGGTTCG
GGAGCGGCTGCAACGTGCAGGAGCACATTGACTACGGGGCCTGCCTCGAC
GGGCGCTGCTGCACCCGTAACTCCTTCGAGCAAAAAAACGCGCTCCGCGT
GGTGCAGTTCTTGGGAAGAGGACAACGGCCAGGGCGAAGACGAGACCGAG
GGCAACGCCAGGGCCGCAGCGCTAACGGTATCGACGGCCGCAATGGCGTT
CTCATGGATGGATATCAACACCAAGACCTCAAGCCCAACCCAACAAGCAG
CGGAAATCGCCCCTCCTCAGGCCCCCCTTCCCCTCCTTCTTCCCGCCCCC
AGTCAACACGAAGAGACCAGTCAGAAGCAGAACGCAACGGCTCTGCATGC
GCCTCTGTTGGAAGAAATTACGACAGTACAGCGAAAGCAGGCGGAGGGGT
GTCTGACGAGTCGTCGCCTTCTCCACTCTTGTCGCCTTCTCCTCCTCCCA
ATCGAGAGAAACCAATTGTTGGTTCTTCGCCCGGTGATAACGGTACTTTT
GATGAGGCTACCGCTGCATCCCCTAATGTTTCCCGTGGAATGGCGAGCGC
CGGGGTGTTGCGTCCTCCAGAGGCGCGGGCTGCGGTCAGAAAGAGAACGC
CGCTTCATTTTGCGTCCGAGAGGGGGGAGCTGGCCCTCGTCGATAGGTGA
CAAGAAAAGCCTTCCCCTCAAAGGGTTTGGTGAAAGGGTTTGGTGGATAA
TTTGTGTGTCCTCTCGTGAAGGCCATCTCACGAAACTCAATGCTACATGG
ACGCCTCGCTAGGCGCCCTCAGGTTGCGTAGAAAAAGAGACCACTCACAG
ATCTGAACATGTTTTCTGCTCCGTACTACTTAAAAATTGCGTTCTCGGTA
TGGCTCAAACGAGCAGACTGTGCTGTCAGGGTGACGACCGGAATGCCGTG
GACGAACGCGGATTCACGCCTCTTCATGACGCGGCTGATAAGGGAAACAC
AAGGGTGATCAACCGACTCCTCCTGGGGGACGAGGACGAGGTGTGTACCA
ACAAACCCGGGAATTTCATTTCCTTGCGAAATATGTTTCTGTATGTGTCG
CCCCGGCAAAATCCTATCTCGAGAGAAGTTTCGACCGTGGTTATACGACG
GATTCATCGTACGAGTTTGTTTCGAGCCCACGGTACCCGTCGTAGTTCCG
CGAGTGGCTTGCACAGGCTTACAAACATTCTATCTGGGTTATCGCACGAA
CAGAACCTGACCGAATCCCCATGGCCGTGCGATGGCATCGGTGCGGCTTT
CATGTATATCGAGAGCGACTATCAACTTGGCGTTGTGGACGTGTGCGGGT
GCAGTTCGCCTTGTGAACTACTCGTGACATTGAGTCTTGTGACAATCGAC
TTACTCTCACATTGATTCGATCAGAAAGAAACGTGGAGGGATGGAAATAA
GCACCTACTCACATGTGTTCACCCAATATGCGTCGACCTCGTCGCCACCA
AAATATCGACGGTACGCGCGTGATGCTGCACGCATCGTAGAATACGGCAC
TGCCAGCAGGGGCCAAACGAGGCGCTCGAGCTGTCGCCAAGCAGCGGCCC
CGGCAGTTTCCTGCCAATCCGGACGCGCAAGACGACAAAGGGAGAACTTC
GCTGTACCTCGCGTGTCTTCGGGGCCACGAGAGAGCTGTACGTGCGCTCC
TGAAAGCGGGAGCCTGTCCGGATTTGGTTGACATCCGAGGAAAGCCCGCG
CAGGTGAGTTTGGTTTAGATGTGTGTTGTATCCTTTGCGTTTCTAATATA
GACAGTTTTCTAGCCGTGATTTGACGGCCTTGCGCCTCCAGCAAAGCGGT
GTCAAGGGAAGGTTATACAGGCAGTAGAAGCCGTTCAACCGCAGCACTCT
CAAAGAGTACTCGTAGTTGCGCAATTGGAACGCCCACAGTTGAGGGAAAG
GTGGTCAGAGCGGTTGGCGTAGCATAGTTTTTGTTTTCGGGAAGCCCCTC
CCTATGGCACAGCATGTACGCTGGTGCATTGGGTAATTTGGCACCGCTGC
TGCCACAGAACAGCTACGATGTCGTTGTGCTCACGGCAGCACAACCGGCC
GTTTTTTCCGGCCCTCGAACCGCGGGGAACGAACAGTATTAATTTTTGCC
GATTTTCGGGCCAAAGCCGGCTCGAATGGGTTTCTGTTTGGCCTTGGGTT
TGGCCATTGCCGTGTTTTCGTCCTCGCAGTGCCAATCCTTTGCCCTCCGC
CGACAGCAAAAGCACTTACTCGACGGCGTGGAGTATCCATTCACTATGTG
GATTTCCGGGCGGGTACGTCCTCGCTTGCTGGGTGTTTTAGACGCTCTGA
GGCAGCTGTTGAGGGAGGGATCATTCTTCGGCGTGTACGAGCGTTTGCAT
GGCTTCCCCGTTTTGGATAAACTTCATCTTCGGCGCATTTTTGTCTTCAC
CTGCGCTAGCGGGAGGTTATATTTTTACCCTGACGATCAACATGCTACAA
AATGCTTCGTTGTGATCCTGTGCAACATGTAGTGGAAGGGGATCTCCAAG
CAGAAATGTCACAACCACTTGCCGCGTGTTTGAATCGTCGCACACCATCA
AGTTCAACAGGTGTAGCCTTCAATTTCGCCATCGTGTCCGCGCTTCGGCT
GCCTTGATTCCTACACGCTAGTACATTTCCCCCATTCAAAAGCGTACCGC
TGCCTGTCTGACGGCATACGCATATTGCCGAGACGCGAACAATCTCTCTT
GTTTTCACTGGTTGCCTCGGTGCTTCAGACTATTCCTTGTGCATGGAGAC
GATGCTCTGTCTCTCTCTGTGTCTCCCTCGCTCGCCCTCCACCTGCCGCA
CAAATAGGAGGTAGCAGGGGCACAGAGGATCTACCAGCTGCTCCAATTCA
AGGCCGACGTCTCGCTCGTGAAGGCCAACATCGCCGCCCTAGAAGAGCGG
GAGCGGGTGGCAGAGCGACTTCAACAAGAGGCCGCTCAAGCCGAAGCGGT
GAGGAAGCTCGCTGACCTCAAGGCCGAAGAGCTGCGCCTGAGAGCCGCCG
TGGATGCGCTAGAGAAAAAACGGGTGGCTTACGCCACGGCCGCTAAAACT
CAGCGCTGA back to topCoding sequence (CDS) from alignment at P-littoralis_Contig164:205941..217249- >mRNA_P-littoralis_Contig164.36.2 ID=mRNA_P-littoralis_Contig164.36.2|Name=mRNA_P-littoralis_Contig164.36.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1980bp|location=Sequence derived from alignment at P-littoralis_Contig164:205941..217249- (Pylaiella littoralis U1_48)
ATGACTGAGCTTTGTCCGACCGAACCTGGCTCTCAGCAGGACAGCGTCGT
CTTGTCCGCCAAGGCGCACGCTGCCAGCATCCGGCGGACGCTCTTGATGA
GAGAGTACAAGCGAGAGCACGGTCGGGCCATGCCACCAGCAGGCCGTAAT
GCGTGCAAACCACAGCAGCAGCAGATGGAACGTCGGCACAAGCTAGGCAA
ACGTGACGATCCGTCACCTATCGTAAACGGTCCTATTTATAGCACAGAGT
ACTGGCGCAAGTGGAAACATCGATCTAGAGCTGGTGCTCGTGCGGGCAGC
GGAGGTGGCACCGATACTCCACATGTCACAGAAAGGAGTCTGTCCGCGCG
CACTTTGCGTGGTACCAGACGACGTTCCTTGATAAACGCTCACCCTACGT
CATCATTTGCCGGCGGGAGACACAGAACACAAATTTTTGCGGTGGTATCC
GGCGGTCGAGGCGGCCGTGGCGACAGTCTGTTGCGAGCGCATCATGATGC
TGTGATACAGCCGCTCCTCAAGGGGCGAAATCAACGTGCTGCTCGCGATT
CTTCGTCGTCCCCAGGAGTACGCCTGTCGCACAACGACCCGCGCCCTATG
GACGTTAACAGCAGCAAACGTTCCGCTGGCGATGGAATGCACGACATAGC
CATGGCCGACAAGGTGGTAATGCGTGCTGCATCCAGTTGTTCCTTCAGGG
CGGGAGCAGGTTCCAGCTCTGAAACCGCCATCCAGGGATTATCTCGGGAC
ACTCCAGGCCCGATATACGACCCCAATATCGGCGGTAGCAGCGCCCCCAC
GCCGGCCACGCTTTTCTCGCCAGCCGATCGTTTTCCCGTCGCACACACGA
TTTCGTGGACCCCGGGTCCAGGACACTACAATACGGCGGGCGACTCGGTG
CATCGGGGGAAACGTCCGGCAGGGCCTGGAGCCGTAGCGTGGACTGGCGT
AGAGACATTCATGGACTCCGAATGGTGCAGACCGGTGCCTCCGCCACACC
TCCGCCCCTGGCAAGGGTTCGGGAGCGGCTGCAACGTGCAGGAGCACATT
GACTACGGGGCCTGCCTCGACGGGCGCTGCTGCACCCGTAACTCCTTCGA
GCAAAAAAACGCGCTCCGCGTGGTGCAGTTCTTGGGAAGAGGACAACGGC
CAGGGCGAAGACGAGACCGAGGGCAACGCCAGGGCCGCAGCGCTAACGAG
AAACCAATTGTTGGTTCTTCGCCCGGTGATAACGGTACTTTTGATGAGGC
TACCGCTGCATCCCCTAATGTTTCCCGTGGAATGGCGAGCGCCGGGGTGT
TGCGTCCTCCAGAGGCGCGGGCTGCGGTCAGAAAGAGAACGCCGCTTCAT
TTTGCGTCCGAGAGGGGGGAGCTGGCCCTCGTCGATAGCAGACTGTGCTG
TCAGGGTGACGACCGGAATGCCGTGGACGAACGCGGATTCACGCCTCTTC
ATGACGCGGCTGATAAGGGAAACACAAGGGTGATCAACCGACTCCTCCTG
GGGGACGAGGACGAGAATACGGCACTGCCAGCAGGGGCCAAACGAGGCGC
TCGAGCTGTCGCCAAGCAGCGGCCCCGGCAGTTTCCTGCCAATCCGGACG
CGCAAGACGACAAAGGGAGAACTTCGCTGTACCTCGCGTGTCTTCGGGGC
CACGAGAGAGCTGTACGTGCGCTCCTGAAAGCGGGAGCCTGTCCGGATTT
GGTTGACATCCGAGGAAAGCCCGCGCAGGAGGTAGCAGGGGCACAGAGGA
TCTACCAGCTGCTCCAATTCAAGGCCGACGTCTCGCTCGTGAAGGCCAAC
ATCGCCGCCCTAGAAGAGCGGGAGCGGGTGGCAGAGCGACTTCAACAAGA
GGCCGCTCAAGCCGAAGCGGTGAGGAAGCTCGCTGACCTCAAGGCCGAAG
AGCTGCGCCTGAGAGCCGCCGTGGATGCGCTAGAGAAAAAACGGGTGGCT
TACGCCACGGCCGCTAAAACTCAGCGCTGA back to top
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