mRNA_P-littoralis_Contig110.49.4 (mRNA) Pylaiella littoralis U1_48

You are viewing an mRNA, more information available on the corresponding polypeptide page

Overview
NamemRNA_P-littoralis_Contig110.49.4
Unique NamemRNA_P-littoralis_Contig110.49.4
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
[Close]
BLAST of mRNA_P-littoralis_Contig110.49.4 vs. uniprot
Match: A0A6H5JEJ2_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JEJ2_9PHAE)

HSP 1 Score: 484 bits (1247), Expect = 2.150e-167
Identity = 262/414 (63.29%), Postives = 305/414 (73.67%), Query Frame = 1 
Query:  103 MATNNLTMRPEDYSPSGVNLRWPTCSDDTK---------------HHFHLTEVEAALIVLLACVLASNWQLRRKNSNNSRPR----GQSKRDVLAESTVQRSRWHFDWVSVVDLSLRLYSLLLCALLP-FDRHVDQDGQLKQ-HTRRAVLPPEPATAVLALDESQQIKRRRACKGGAQSDGLLASTGAPRHVAIIMDGNRRFGRVKYSDPLKGHSDGGKRLGEFLEWCMEAGVAMATAFAFSTENWKRDAHEVELLMDLVCSSCGELMEDAVKKNMRIRVLSSDPTKLPERVLTAIRKAEDETRDCTGFLLNICLSYGARQEIANACRQIAGDVASGVTCLDAVDEFAVEKHLLTRGLPDPDIVIRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITRSDVLDIFEAYRTRERR 1281
            M TNNLT R     P+ V L WPT  +DTK               H F     E   +V++AC+LASNW+LR K  N++RPR    GQS  ++   ST + S      + ++D  LR+ + +   LL  F   +    Q K  HTR+  LP +P T  L    S +++R+R     A  +  L+  GAPRHVA+IMDGNRRFGRVKY DPLKGHSDGGKRLGEFLEWCMEAGVA+ATAFAFSTENWKRDAHEV LLMDLVC+SCGELMEDA KKNMRIRVL+SD TKLPERVL+AI+KAED TRDCTGFL NICLSYGARQE+ANACRQIA +VASG T LD VDE+AVE+HLLT+GLPDPD++IRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITR DVLDIFEA++TR+RR
Sbjct:    1 MPTNNLTTRSGMNFPAAVGL-WPTRGEDTKSPGNNDNITATATDRHRFR----EGTFLVVIACLLASNWRLRHKGINSARPRKTSNGQS--ELPVRSTAKLSAL----MLLLDRGLRMAAYVAVQLLKLFSGRIGSWPQKKGLHTRQEGLPEKPETVTLDDGNSPKLERKRPRTECAPGERSLSPIGAPRHVAVIMDGNRRFGRVKYGDPLKGHSDGGKRLGEFLEWCMEAGVAVATAFAFSTENWKRDAHEVNLLMDLVCTSCGELMEDAGKKNMRIRVLASDATKLPERVLSAIQKAEDATRDCTGFLFNICLSYGARQELANACRQIAQEVASGATSLDLVDEYAVERHLLTKGLPDPDLLIRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITRRDVLDIFEAFKTRKRR 403
[Close]
BLAST of mRNA_P-littoralis_Contig110.49.4 vs. uniprot
Match: A0A836CC83_9STRA (Alkyl transferase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CC83_9STRA)

HSP 1 Score: 275 bits (702), Expect = 1.260e-87
Identity = 126/219 (57.53%), Postives = 164/219 (74.89%), Query Frame = 1 
Query:  625 MDGNRRFGRVKYSDPLKGHSDGGKRLGEFLEWCMEAGVAMATAFAFSTENWKRDAHEVELLMDLVCSSCGELMEDAVKKNMRIRVLSSDPTKLPERVLTAIRKAEDETRDCTGFLLNICLSYGARQEIANACRQIAGDVASGVTCLDAVDEFAVEKHLLTRGLPDPDIVIRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITRSDVLDIFEAYRTRERR 1281
            MDGNRR+G   + DPL+GH+DGGK L +F+EWC++AGVA  T FAFSTENW+R+  EV+LLMD +C  C    +DAV +N+RIR L +   +LP  VL A+  AE +T  CTG +LNICLSYG R+E+A ACR+IA DV SG     ++DE A+   LLTR + DPD++IRTSGE+RVSNFLLFQ+AYTELFF++K WP++TR D+  +F+ YR R RR
Sbjct:    1 MDGNRRYGAAAHGDPLRGHADGGKVLADFVEWCVDAGVAALTVFAFSTENWRRERREVDLLMDTLCEYCDRFRKDAVARNVRIRGLMTSAHRLPPSVLEAVANAERDTAACTGLVLNICLSYGGREELAGACRRIAEDVQSGAMAASSIDEDAIRDRLLTRHVGDPDVLIRTSGERRVSNFLLFQLAYTELFFLEKHWPEVTRDDLSAVFDQYRARRRR 219
[Close]
BLAST of mRNA_P-littoralis_Contig110.49.4 vs. uniprot
Match: H3HD49_PHYRM (Alkyl transferase n=4 Tax=Phytophthora TaxID=4783 RepID=H3HD49_PHYRM)

HSP 1 Score: 263 bits (672), Expect = 1.140e-82
Identity = 118/226 (52.21%), Postives = 168/226 (74.34%), Query Frame = 1 
Query:  604 PRHVAIIMDGNRRFGRVKYSDPLKGHSDGGKRLGEFLEWCMEAGVAMATAFAFSTENWKRDAHEVELLMDLVCSSCGELMEDAVKKNMRIRVLSSDPTKLPERVLTAIRKAEDETRDCTGFLLNICLSYGARQEIANACRQIAGDVASGVTCLDAVDEFAVEKHLLTRGLPDPDIVIRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITRSDVLDIFEAYRTRERR 1281
            PRH+A+I+DGNRR+G+ KY    +GHSDG K +  F +WC++AGV   T FAFSTENWKR+  E++ LM LV     +++ +A+ +N+R+RVL+SD +KLP  ++ +I++ E +T+ C  F LN+C+SYGAR EI  AC++IA +VA G T +D +DE  + + +LT GLPDPDI++RTSGE R+SNFLLFQ+AY EL F+DKLWP++TR D+ DI   +  R+RR
Sbjct:   24 PRHIAVIIDGNRRYGKNKYGSGTRGHSDGTKTVMNFTDWCIDAGVEALTVFAFSTENWKREKAEIDALMKLVDGFIHDILGEALTRNIRVRVLASDSSKLPAFLVKSIKEVETKTQHCNAFHLNLCVSYGARDEIVGACKKIAAEVAGGETSIDDIDEELLSQRMLTAGLPDPDILLRTSGELRISNFLLFQIAYAELIFMDKLWPEVTREDLQDIIVEFNRRKRR 249
[Close]
BLAST of mRNA_P-littoralis_Contig110.49.4 vs. uniprot
Match: A0A3F2S158_9STRA (Alkyl transferase n=3 Tax=Phytophthora kernoviae TaxID=325452 RepID=A0A3F2S158_9STRA)

HSP 1 Score: 261 bits (667), Expect = 6.430e-82
Identity = 117/226 (51.77%), Postives = 168/226 (74.34%), Query Frame = 1 
Query:  604 PRHVAIIMDGNRRFGRVKYSDPLKGHSDGGKRLGEFLEWCMEAGVAMATAFAFSTENWKRDAHEVELLMDLVCSSCGELMEDAVKKNMRIRVLSSDPTKLPERVLTAIRKAEDETRDCTGFLLNICLSYGARQEIANACRQIAGDVASGVTCLDAVDEFAVEKHLLTRGLPDPDIVIRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITRSDVLDIFEAYRTRERR 1281
            PRH+A+I+DGNRR+G++KY    +GH +G K + +F +WC++AGV   T +AFSTENWKR+  EVE LM +V     +++ DAV +++R+RVL+SD +KLP+ ++ +I+  E +T+ CT F LN+C+SYGAR EI  AC+++A  V  G T +D +DE  + KH+LT GLPDPDI++RTSGE R+SNFLLFQ+AY EL F+DK WP++TR D+ DI   +  R+RR
Sbjct:   24 PRHIAVIIDGNRRYGKIKYGSGTRGHIEGTKTVMKFTDWCIDAGVEALTIYAFSTENWKREKAEVEALMKMVDGFIHDILGDAVARDIRVRVLASDRSKLPDFLVESIKVVEAKTQSCTSFNLNLCVSYGARDEIVGACKKVATAVCQGDTKIDDIDEDLLSKHMLTAGLPDPDIMVRTSGELRISNFLLFQIAYAELIFLDKFWPEVTRDDLNDIIVEFNRRKRR 249
[Close]
BLAST of mRNA_P-littoralis_Contig110.49.4 vs. uniprot
Match: W4G700_9STRA (Alkyl transferase n=2 Tax=Aphanomyces astaci TaxID=112090 RepID=W4G700_9STRA)

HSP 1 Score: 264 bits (674), Expect = 7.450e-82
Identity = 125/226 (55.31%), Postives = 163/226 (72.12%), Query Frame = 1 
Query:  604 PRHVAIIMDGNRRFGRVKYSDPLKGHSDGGKRLGEFLEWCMEAGVAMATAFAFSTENWKRDAHEVELLMDLVCSSCGELMEDAVKKNMRIRVLSSDPTKLPERVLTAIRKAEDETRDCTGFLLNICLSYGARQEIANACRQIAGDVASGVTCLDAVDEFAVEKHLLTRGLPDPDIVIRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITRSDVLDIFEAYRTRERR 1281
            PRH+A++MDGNRR+GR KY  P++GH DG +RL +FL W M AGV + T +AFSTENWKRDA EV  LM +  S   +++ +A+ +N+R+RVL SD T LP+ V  +I++ E  T+ C+ F LNIC SYG+R EI  ACRQIA  VASG   +D V E  V +HLLTR LPDP++++RTSGE RVSNFL++Q+AY EL FVDKLWP +T  D + I   Y  R+RR
Sbjct:  104 PRHMAVVMDGNRRYGRSKYGVPMRGHHDGSQRLVDFLSWAMSAGVQILTVYAFSTENWKRDAAEVNALMGIFDSFMMDIIPEALARNIRVRVLVSDATHLPQHVQVSIQEIEAATQHCSAFTLNICASYGSRNEITMACRQIAKKVASGELNVDDVTEDIVSQHLLTRNLPDPEVLVRTSGELRVSNFLMYQIAYAELIFVDKLWPALTHDDFIGILAEYNRRQRR 329
[Close]
BLAST of mRNA_P-littoralis_Contig110.49.4 vs. uniprot
Match: A0A0P1AT52_PLAHL (Alkyl transferase n=1 Tax=Plasmopara halstedii TaxID=4781 RepID=A0A0P1AT52_PLAHL)

HSP 1 Score: 264 bits (675), Expect = 9.500e-82
Identity = 120/226 (53.10%), Postives = 169/226 (74.78%), Query Frame = 1 
Query:  604 PRHVAIIMDGNRRFGRVKYSDPLKGHSDGGKRLGEFLEWCMEAGVAMATAFAFSTENWKRDAHEVELLMDLVCSSCGELMEDAVKKNMRIRVLSSDPTKLPERVLTAIRKAEDETRDCTGFLLNICLSYGARQEIANACRQIAGDVASGVTCLDAVDEFAVEKHLLTRGLPDPDIVIRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITRSDVLDIFEAYRTRERR 1281
            PRH+A+IMDGNRR+G++KY   ++GHSDG K L  F  WC+EAG+ M T FAFSTENW R+  E++ LM+L      E++ +A+KK++R+RVL SD  K+P  +L AI + E +TR C+ F LN+C+SYGAR EI NACR+IA +V++G T +  ++E  + + +LT GLPDPDI+IRTSGE R+SNFLLFQ+AY+EL F+DK+WP++ + DV +I   +  R+RR
Sbjct:  123 PRHIAVIMDGNRRYGKIKYGAGVRGHSDGSKTLVNFTGWCIEAGITMLTVFAFSTENWNREQSEIDALMNLFNEFMHEIVPEALKKSIRVRVLVSDGRKMPPYILKAIEEIETQTRHCSKFSLNLCVSYGARDEIVNACRKIAMEVSNGDTSILDINEDLLSQRMLTAGLPDPDILIRTSGELRISNFLLFQIAYSELIFIDKMWPEVVQDDVQNIIVEFNLRKRR 348
[Close]
BLAST of mRNA_P-littoralis_Contig110.49.4 vs. uniprot
Match: A0A8K1CIV8_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1CIV8_PYTOL)

HSP 1 Score: 263 bits (671), Expect = 3.890e-81
Identity = 126/259 (48.65%), Postives = 170/259 (65.64%), Query Frame = 1 
Query:  508 AVLALDESQQIKRRRACKGGAQSDGLLASTGAPRHVAIIMDGNRRFGRVKYSDPLKGHSDGGKRLGEFLEWCMEAGVAMATAFAFSTENWKRDAHEVELLMDLVCSSCGELMEDAVKKNMRIRVLSSDPTKLPERVLTAIRKAEDETRDCTGFLLNICLSYGARQEIANACRQIAGDVASGVTCLDAVDEFAVEKHLLTRGLPDPDIVIRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITRSDVLD-IFEAYRTRERR 1281
            A + LD      +    K        L +   PRH+A+IMDGNRR+G+  Y   ++GHSDG K L  F +WC+EAGV   T FAFSTENW R+  EV+ LM L      +++ +A+++N+R+RVL SD  K P  ++ AI + E +TR C GF LNIC+SYGAR E+  ACRQIA  VA G   LDA+DE  + +HLLT  LPDPD+++RTSGE R+SNFLL+Q+AY EL F+DK WP++TR D+ + I   +  R+RR
Sbjct:   91 AAVQLDAKIGFSKLSTTKSSPGDMSRLENVQVPRHIAVIMDGNRRYGKATYGAGVRGHSDGSKTLVAFTDWCIEAGVQALTVFAFSTENWNREQSEVDALMGLFNQFMHQIVPEALQRNIRVRVLVSDGRKFPAYIVDAIEQIETKTRHCDGFNLNICVSYGARNELVGACRQIAAKVADGRVALDAIDEACISQHLLTADLPDPDVLVRTSGELRISNFLLYQIAYAELIFLDKNWPEVTRDDLHEHIIHEFSRRKRR 349
[Close]
BLAST of mRNA_P-littoralis_Contig110.49.4 vs. uniprot
Match: H3GUB2_PHYRM (Alkyl transferase n=1 Tax=Phytophthora ramorum TaxID=164328 RepID=H3GUB2_PHYRM)

HSP 1 Score: 262 bits (670), Expect = 4.300e-81
Identity = 120/226 (53.10%), Postives = 167/226 (73.89%), Query Frame = 1 
Query:  604 PRHVAIIMDGNRRFGRVKYSDPLKGHSDGGKRLGEFLEWCMEAGVAMATAFAFSTENWKRDAHEVELLMDLVCSSCGELMEDAVKKNMRIRVLSSDPTKLPERVLTAIRKAEDETRDCTGFLLNICLSYGARQEIANACRQIAGDVASGVTCLDAVDEFAVEKHLLTRGLPDPDIVIRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITRSDVLDIFEAYRTRERR 1281
            PRH+A+IMDGNRR+G+ KY   +KGHSDG + L  F +WC++AG+   T FAFSTENW R+  EV+ LM+L      E++ +A+K+++R+RVL SD  KLP  ++ AI   E +T  CT F LN+C+SYGAR EI  ACR+IA +VA+G T ++ ++E  + + +LT GLPDPDI+IRTSGE R+SNFLLFQ+AY+EL F+DK+WP++T+ DV DI   +  R+RR
Sbjct:  116 PRHIAVIMDGNRRYGKTKYGVGVKGHSDGSRTLVNFTDWCIDAGIKALTVFAFSTENWNREQSEVDALMNLFNQFMHEIVPEALKRDVRVRVLVSDGRKLPAYIVQAIEDIETKTHHCTKFSLNLCVSYGARDEIVGACRKIATEVANGETTVEEINEDLLSRRMLTAGLPDPDILIRTSGELRISNFLLFQIAYSELIFLDKMWPEVTQDDVQDIVFEFNRRKRR 341
[Close]
BLAST of mRNA_P-littoralis_Contig110.49.4 vs. uniprot
Match: A0A6G0XDS5_9STRA (Alkyl transferase n=1 Tax=Aphanomyces euteiches TaxID=100861 RepID=A0A6G0XDS5_9STRA)

HSP 1 Score: 259 bits (662), Expect = 3.130e-80
Identity = 116/226 (51.33%), Postives = 167/226 (73.89%), Query Frame = 1 
Query:  604 PRHVAIIMDGNRRFGRVKYSDPLKGHSDGGKRLGEFLEWCMEAGVAMATAFAFSTENWKRDAHEVELLMDLVCSSCGELMEDAVKKNMRIRVLSSDPTKLPERVLTAIRKAEDETRDCTGFLLNICLSYGARQEIANACRQIAGDVASGVTCLDAVDEFAVEKHLLTRGLPDPDIVIRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITRSDVLDIFEAYRTRERR 1281
            P+HVA+IMDGNRR+GR KY  P+KGH +G +R+ +FL WCMEAGV + T +AFSTENW RDA EV  LM +  +   +++ +A+ +++R+ VL+SD  +LP  V  +I+K E+ T++C+ F LNIC SYG+R EI NACR IA  VASG    + ++E  + ++LLTR +PDPD+++RTSGE R+SNFL++Q AY+EL F+DK+WP +TR D + I + +  R+RR
Sbjct:   91 PKHVAVIMDGNRRYGRTKYGIPVKGHHEGSQRVVDFLTWCMEAGVQVLTLYAFSTENWNRDAAEVNALMGIFETFMNDIIPEALTRDIRVCVLASDSARLPVHVKESIQKIEEATKNCSSFTLNICASYGSRNEIVNACRGIATQVASGAIHAEEINEDTISRYLLTRNVPDPDVLVRTSGELRLSNFLMYQCAYSELIFLDKMWPAVTRDDFVGILDEFNRRKRR 316
[Close]
BLAST of mRNA_P-littoralis_Contig110.49.4 vs. uniprot
Match: A0A812WIJ2_SYMMI (Alkyl transferase (Fragment) n=1 Tax=Symbiodinium microadriaticum TaxID=2951 RepID=A0A812WIJ2_SYMMI)

HSP 1 Score: 255 bits (652), Expect = 5.600e-80
Identity = 117/226 (51.77%), Postives = 160/226 (70.80%), Query Frame = 1 
Query:  604 PRHVAIIMDGNRRFGRVKYSDPLKGHSDGGKRLGEFLEWCMEAGVAMATAFAFSTENWKRDAHEVELLMDLVCSSCGELMEDAVKKNMRIRVLSSDPTKLPERVLTAIRKAEDETRDCTGFLLNICLSYGARQEIANACRQIAGDVASGVTCLDAVDEFAVEKHLLTRGLPDPDIVIRTSGEKRVSNFLLFQMAYTELFFVDKLWPDITRSDVLDIFEAYRTRERR 1281
            PRH+A+IMDGNRR+GR K++D L+GH  GG+ L +F++WCME G+ + T +AFSTENW R+ HEV  LM ++        ++A  +N+R++VL++D  KLP  +   + + +D TRDCTGFLLNICLSYG R ++ANACR IA     G      + E  VE+ L T+ +PDP+++IRTSGE R+SNFLL+Q+AYTELFFV K WP+ITR+D+  I   Y  R RR
Sbjct:    2 PRHIAVIMDGNRRYGREKHNDALQGHWTGGQTLVDFVQWCMEDGIEILTVYAFSTENWNREQHEVTTLMLIISKYADSFKQEARTRNVRVKVLATDFDKLPANIQGKVEELQDATRDCTGFLLNICLSYGGRADVANACRNIAAAAMKGDITPSDIGEDTVERFLSTKSIPDPELLIRTSGEYRISNFLLWQLAYTELFFVTKYWPEITRADLRQIIWEYSQRARR 227
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig110.49.4 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5JEJ2_9PHAE2.150e-16763.29Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
A0A836CC83_9STRA1.260e-8757.53Alkyl transferase n=1 Tax=Tribonema minus TaxID=30... [more]
H3HD49_PHYRM1.140e-8252.21Alkyl transferase n=4 Tax=Phytophthora TaxID=4783 ... [more]
A0A3F2S158_9STRA6.430e-8251.77Alkyl transferase n=3 Tax=Phytophthora kernoviae T... [more]
W4G700_9STRA7.450e-8255.31Alkyl transferase n=2 Tax=Aphanomyces astaci TaxID... [more]
A0A0P1AT52_PLAHL9.500e-8253.10Alkyl transferase n=1 Tax=Plasmopara halstedii Tax... [more]
A0A8K1CIV8_PYTOL3.890e-8148.65Uncharacterized protein n=1 Tax=Pythium oligandrum... [more]
H3GUB2_PHYRM4.300e-8153.10Alkyl transferase n=1 Tax=Phytophthora ramorum Tax... [more]
A0A6G0XDS5_9STRA3.130e-8051.33Alkyl transferase n=1 Tax=Aphanomyces euteiches Ta... [more]
A0A812WIJ2_SYMMI5.600e-8051.77Alkyl transferase (Fragment) n=1 Tax=Symbiodinium ... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig110contigP-littoralis_Contig110:248576..262800 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop0
Start0
Seed ortholog36331.EPrPI00000022516
PFAMsMyb_DNA-binding
Model size1282
Max annot lvl121069|Pythiales
Hectar predicted targeting categoryother localisation
Exons7
Evalue3.12e-80
EggNOG OGsCOG0020@1|root,COG5114@1|root,KOG0457@2759|Eukaryota,KOG1602@2759|Eukaryota,1MGKE@121069|Pythiales
DescriptionTranscriptional adapter 2-alpha. Source PGD
Cds size1281
COG categoryK
Relationships

The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig110.49.4prot_P-littoralis_Contig110.49.4Pylaiella littoralis U1_48polypeptideP-littoralis_Contig110 248576..262800 -


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesTypePosition
1680789433.545869-CDS-P-littoralis_Contig110:248575..2487011680789433.545869-CDS-P-littoralis_Contig110:248575..248701Pylaiella littoralis U1_48CDSP-littoralis_Contig110 248576..248701 -
1680789433.5554147-CDS-P-littoralis_Contig110:249147..2492561680789433.5554147-CDS-P-littoralis_Contig110:249147..249256Pylaiella littoralis U1_48CDSP-littoralis_Contig110 249148..249256 -
1680789433.5637586-CDS-P-littoralis_Contig110:249888..2500341680789433.5637586-CDS-P-littoralis_Contig110:249888..250034Pylaiella littoralis U1_48CDSP-littoralis_Contig110 249889..250034 -
1680789433.572553-CDS-P-littoralis_Contig110:254306..2544111680789433.572553-CDS-P-littoralis_Contig110:254306..254411Pylaiella littoralis U1_48CDSP-littoralis_Contig110 254307..254411 -
1680789433.5818734-CDS-P-littoralis_Contig110:254929..2550491680789433.5818734-CDS-P-littoralis_Contig110:254929..255049Pylaiella littoralis U1_48CDSP-littoralis_Contig110 254930..255049 -
1680789433.5965517-CDS-P-littoralis_Contig110:255506..2557051680789433.5965517-CDS-P-littoralis_Contig110:255506..255705Pylaiella littoralis U1_48CDSP-littoralis_Contig110 255507..255705 -
1680789433.6049037-CDS-P-littoralis_Contig110:262324..2628001680789433.6049037-CDS-P-littoralis_Contig110:262324..262800Pylaiella littoralis U1_48CDSP-littoralis_Contig110 262325..262800 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig110.49.4

>prot_P-littoralis_Contig110.49.4 ID=prot_P-littoralis_Contig110.49.4|Name=mRNA_P-littoralis_Contig110.49.4|organism=Pylaiella littoralis U1_48|type=polypeptide|length=427bp
AAFACCASSQRYVASLSASVSLHLSQIDGLSGVDMATNNLTMRPEDYSPS
GVNLRWPTCSDDTKHHFHLTEVEAALIVLLACVLASNWQLRRKNSNNSRP
RGQSKRDVLAESTVQRSRWHFDWVSVVDLSLRLYSLLLCALLPFDRHVDQ
DGQLKQHTRRAVLPPEPATAVLALDESQQIKRRRACKGGAQSDGLLASTG
APRHVAIIMDGNRRFGRVKYSDPLKGHSDGGKRLGEFLEWCMEAGVAMAT
AFAFSTENWKRDAHEVELLMDLVCSSCGELMEDAVKKNMRIRVLSSDPTK
LPERVLTAIRKAEDETRDCTGFLLNICLSYGARQEIANACRQIAGDVASG
VTCLDAVDEFAVEKHLLTRGLPDPDIVIRTSGEKRVSNFLLFQMAYTELF
FVDKLWPDITRSDVLDIFEAYRTRERR
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mRNA from alignment at P-littoralis_Contig110:248576..262800-

Legend: polypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig110.49.4 ID=mRNA_P-littoralis_Contig110.49.4|Name=mRNA_P-littoralis_Contig110.49.4|organism=Pylaiella littoralis U1_48|type=mRNA|length=14225bp|location=Sequence derived from alignment at P-littoralis_Contig110:248576..262800- (Pylaiella littoralis U1_48)
GCTGCGTTCGCTTGTTGTGCCAGCAGCCAGCGGTACGTGGCCTCTCTGTC
CGCGTCCGTCAGTTTGCACCTCTCTCAGATCGACGGGCTTAGCGGCGTTG
ATATGGCGACAAACAATCTGACCATGAGACCTGAAGATTACTCACCATCT
GGCGTTAATCTACGGTGGCCTACATGTAGCGATGACACAAAGCACCACTT
CCACCTGACAGAAGTGGAAGCAGCCCTGATTGTTCTGCTAGCGTGCGTGC
TGGCCTCCAACTGGCAGCTCAGGCGCAAGAATTCCAATAATTCAAGGCCA
CGAGGTCAATCGAAGAGAGACGTGCTGGCTGAGAGCACAGTGCAACGATC
AAGGTGGCATTTCGACTGGGTTTCGGTCGTGGATCTTTCTCTCCGCCTCT
ACTCTCTCTTGCTATGCGCACTGCTGCCGTTCGACCGACATGTTGACCAA
GACGGACAGCTGAAGCAACACACGAGGTACTGCTGTTTTCTGCTGTATCG
CACGTCTTCGCTGGATGCATTTGTGTATTCGTAGCCCAGTGCGGTCGCAT
ACTGTCCCTGAACTCTTTTTTGTGTGCGAAAGTTGCCTACTGTTTTTGCC
TGCTGTGTCTGAAAGCGACAGGCCTGCTCCCACGTTCTCCTGTTTGTGCA
CACTCGATGTAAGTAAGGGCTTATCTTATCGAGAACTAGTCCTTGATTCT
GATTACAGGCTGGTTCACTCAAGAAACCCAAAATTCATTCAACACATGCT
CACGAACGCAATAAAAAACCGATGACAATAAATATGGTACCAAACTGACC
GCCGTCAATAGAGAAAGACCGTGACGTTCTCGGATTTTTGTTTGAGGCAC
TACAGGTGGCGCTAGGGGAGAAAATGTGTCATTTCAAGGAATGACGTGGT
ACAACACCCCCCCCCCCCCAAGGTCAGGCTTTCCACTCTAAGTGCTGTAT
AGCATTCAAGTTCTGAACAAGGGCCAAATCTATACTCCATGCAAGTATAT
TTCGGGATTGAGGGACTTGACCACACTGAAGTGCGATTTCTCGATGAAAT
AATCAAAAAAAAGTTTTTTTAGCACAGGTGGTATCAATGGAACACAAGGA
AGGTGTCCACCATAAGGTTTTTCAAATTTCATTAAAATGACGCAGTTTGG
CCAATAATAGCGTAAAAACTCTTGAAATCGGCCGATTCCTTTCTCTATCC
TACTATCTGTCTTTTAGTACTCTACCACACTGAAGTGCGTTTTCTCACGC
GGTTTTTTCGAGTTTGACCCTGAAACTTTGCACGCGTGTTCCTTGGGTTA
CTACGAAAAATCGACCGATCGGGGTGCATCGATTTTGTTTTTTTTTACCG
AATTTCCGGGGTCCCAATCGAGCAATGCAGACCCAACATCCCTTTACACT
ACTATATCTATTGAAAAAAATAATAATCGCTGCACCCCGGTCGGTCGATT
TTTCGCAGTGACACAACGAACACGTGTGCAAAGTTTCAGGGTCTAACTCG
AAAAAACCACGTGAGAAAATGATGTTGAACAAATTTGGGGTTTTCTTCCG
TGAACCACCCTGTATTGATTTTGATTTTGACAACGACGATTCGCTCTTTT
TTTTTTGCATTCCTCTGGTTGGTTTAGCTGCTACGGAGTATTATTTTTTG
CTAGAACTGGTTAAAATACTTCGTAACTTTTTTCCAACACCCCCGCCAAA
GTACCTGCAGTAGGCTGTGTTCATCACACGGAAGATAAGGAGGAGATCGC
CATGATCAAGAAAAAAAACGAAAACAAATCTAGTGCGGATTACTAAAAAT
TATCGCCCGTCAGCCGGGCGAGAGAGAGAAGACTCTGTGACTCAGTCTTC
AACATTGCGGCACTGTCTACGGCCACCCTCTAGTACGCAGCGTGGTGTGT
CTCACTGCTAGCTGCAGTAGCAACAGGTACAGCTGTTGTTCTGCGTGCTG
GACTGCAGCTTCCGCAGCAGGGCTGTACCGTTGCACGAGTACTGCTGCTA
CACTGCTGGTGGTGCTGTGCGTTGTTGTGCTGCCTGCCTCGTGCACAGCA
GCAGCAGTAGAGTCATGTTCACACTCAGGAGATAGCAGCAGCAGCACTGC
CTTCCCTCCCTGCCTCTCACTCCCTCTCTCTCCCAGCCATACACCAGTAT
ACCAGCAGTACAGCAGTAGCTAAGCGACTGTCGTGTGAGATATGTGTGAT
GATGTGCTCTCTGCAGTGTACCTGACATACATGCCTCCCTTCATTTCTCC
GGGAAAATGGTGAATTTTGGCGAAGATATAAACACAAATCACCGCTGCTA
TCTCGATGGACTCGGCACGGGATGGGCAGGAAGCAGGTGCGAGAGCTCGG
TCTAAATTAGCTCTGTCGCCCGCATCCGAGGATTCGTGAAGCTGTTCGGT
ATTCGTGTCGTTTTCAACAAAAAGGTGGCCGAAAAAACGACTTCAGACAG
ACAGACGGACAGCCTCGGCCATCTATTCACGCCCCCACGCTTGTTTTATT
TTATATTTTTTGCGTGTGTGATCATGATGTGGGTGCGAGGCTTGGGGGGG
GGTATCTGAACAGTTTTTTTTTTTTTAACAAAAAGCTCGCTAAAGCTCGC
AAAAAAAGCTACCAAGGGTGTGTTCGGTACGGTACGGGTACGCTCGGTAG
GGTATGGAGGGCTGTACCGAGCGTACCGAAATTTTCGGTAGGGTATAGAG
GGCTGTACCGAGCGTACCGAGGTTGTCGGTACGGTATGGGGGTCGTACCG
GTACCCGTACCGAACTTTCGGTATTCGACGGGGTTGTACCGATACACCTT
ACCGAACTTTCGGTATTTTTTCTTCGAATACCGAGATTTTCGGTAGGGTA
TAGAGGGCTGTACCGAGCGTACCGAGATTTTCGGTACGGTATGGGGGTCG
TACCGGTACCCCTACCGAACTTTCGGTATTCGACGGGGTTGTACCGATAC
CCCACCGAACTTTCGGTATTTTATTTTTTCTTCGAATACCGAGATTTCGG
TATGGTATGGAAGCAAAGTTATCGACGGCTTTGGTGGTTTCGTGTTCCAC
GTCGTACACCTCCCCGAGCTTGTTGTAGACGATCGCTGGTGAAATCGTAG
CCACGCTGTTTCCCTGTGAGATCTCGGCAACCTCTGGCGTCGGGGCTTGC
GAAGAGGAACTGCCGCCAGAACCGGGGTTGGCACCGCTGGCACCCCCCTC
ATCCTGAGGGGTTGCCTCACTGCTCATGAGTGCTCGGTATCGTGTATGTA
CACCAGGGTGGATGGTGATGTTCGGTAGGAGGTGGTGCGGCAGCAGTGTT
GTGTGTTTGGGAATGGTAGGGGTACAGCACATTGCACCGCTATTTGTGTG
GTGAGTGAGCGAATGACCTCACAACGTGGCGGTACAGGTATTTCTTTCGG
TAAGGTATGGGGTTGTACCGATACCCCTACCGAACTCTCGGTATTCGACG
GGGTTGTACCGATACCCCTACCGAACTCTCGGTATTGGACGGGGTCGTAC
CGGTACCCCTACCGAACTTTCGGTATTCGACGGGGTTGTACCGATACCCC
CTACCGAACTTTCGGTATTTTTTCTTCGAATACCGAGATTTTCGGTAGGG
TATGGAGGGCTGTACCGAGCGTACCGAAACGCTCGGTAGGGTATGGAGGG
CTGTACCGAGCGTACCGAAACGCTCGGTACGGTGTATACCGGCGGAAATA
CCGGCGGTATACCTCGGTACGTACCGTACCGAACACACCAAGCTACTGTT
ATCTCTCATGATAACGTGTTTGCGACAATCACAAAATTTTGTCAAGTGAC
GCCACTGCAAATAAAATCAGATTCAGCCCTTCTTCGGTACGCAGAAAAAA
AGTCGGATGGAAGATGTGTCTTGCGAAAGTTGCAAATTGGAAACCATAAT
TGACCAACCAGGGAGGGCCCTTCCGGCACGTCTGCGTCGTGTTGCGGTCG
TGTCTCTAGATGCGTATGATATGAAGCTTTGAATCATTCAAGTATGTACA
ACACAAACAACACGTATATACAACAGAACGTGCATGCGTGCATGCCCGGT
CGGGTGTTATCGCCGCGGTAATCTACAACAATCACAGAGCAATATGACAG
CGAAAGGAGTGCGGAAGATCCAAGAGCCGGAAATATTTCAGCCAGAGCTC
ATGCCGTGAAAGCATCGACTTGTCTTCCGTCAGTCTCTCTGCCCTCCTCA
CGGATGCATCGCATACATATATGCAGGGACGTGCTCCGTTCTGTGTTCTG
TACCCTCAGCCCTCTCTCCCTCCTCTTTTCTGGAATTGCCATTTGAGGAA
TGAATATGTTCGCAAGCCGTATGTTTCTGTACGGTATGCTGTATGCATGT
CTATGCCCACGCAACCAGCGTCCTTGTCCAACCCTGCTTCCAAGAGGTCC
CTTTCCTCGATATGGTAGTAGTCAGCATCCACAACCAAGCTGGGAGCCAC
AGCTGTACCGGGCTTTTTCTATCGCTGACGTCGCGCGACTGTGTCATGAG
CGCCAATTACAGCTTGTGATGCGAAGAGCGCCAACCAAAGCTCTTGGTCG
ATAAAATTACAAAATTTTCTTAGGAATCGAGCAAATCCGGCCGGATTTGC
TCAGACTCGATCAAACATTTGTCTGAATCATTTTCCGGAGTAACACTTGG
GGCTCCAAACTGGTCATTAGCCATGAACATTTTGTTTTCGCAAACACGTC
AATCAACGACCAATTTCGAAATAAAAAAAATAATGTGTTTGCGAATATAA
CAAAAGTTTTGTAAAGTGATGCTGGTACAAATCAAATCAGATTCAGGTCT
TCTTCGGTACGCAGAAGAAATTGGATGGAGGATATGTCTTGCGAAAGTTG
CAAATTGGGAACCATGATTGAACAACCAGGGAGGAGGGAGTGAGGGCCTT
TCCGGAACGTCGTGTTGTTGCAGAGGGCGGCAGGGCGTTTGTTCGTTTCT
GCATGTTGCTACTACTGCTGTATCCATGATAAAAGCTTCGAAGTAGAAAC
ATGCATGCATTCATGTGCCCGGTGGTATCGCCGCGTTATCTACAACAGGA
ATCAGGGAGCAATGACACCGAAAGGAGTGCGATAGAGGAAGGAGCAGGAA
ATATTTCCGCCAGAGCTCGTACCGTGAGACCATCGACTTGACGTCTTGCG
TCTGTCTCTCTCTGCTTTTCTTCTTATCGTGGCACTGCTGTAGTATCACA
TACATGAAGGGAGTGCTGCTCTATCTTTCTGGGATTGTCAGAGATGAGGA
ATATTTCAAGCCGTGTTATATGTTTGTGCAGGTGTTATGTTGTATGCATT
CGTGTACCCACGCAACCAGCATCTCCGCCCAGCCCTGCTCCCGAGAGGTT
CCTTTCCTTCACACGGTAGTTGTCACAATCCGACCAACTGGGCGCCACAG
CAATTCCAGGCCCTGTCTGTTGCTGACGTCGCGCGACTGTCCCATGTAGG
CCAATTACCGCACCAGGCAGGCACCGCACCACTGCCGTTCGAAACAGTTC
GTTCGAAGTCAACAAAAAAAATCACCAGCCCATCACTGTATGCCATCTCC
TTGGAAAGGTCGTAGATGACTCTGCAAGGGTCACCCTCCCCCTCTAACTG
GTCACCGTGGTATTATCGATCCTCACATCTGCCACAGCTAGCGAGATCAA
CCCAGTGCAAAACTTCAGATATGTTGTCCTCCCAATCGTATCTGTCTCTA
GCTCTCACTCAGCCCAACTAGGATATGCATGTGGTTGCTAAAGCATGACG
GACATCGTTGGTACAATAGCAACGAAAAGAATGCGTAGTACAGCAGTACT
TCAGAGGAATATTACACTTCTTCGTGTATCATTCGTAAAACGTGCAACAG
ATTCCAGCAGCCTCACTGCCGCTGCTGTACAGCTGGTGGCTCGTGATGCC
GCCCCAGCCCATCAGCGAGCCCATCCATGCAGTTACAGACAGTATGATAG
GTAGTGGTGCTGGGGCGAGAATGGCAGCAGTACCAACCAGTGCCATACCC
TTATGTTGTTGTTGGACACGGACTGCTGTTTGCATGAGGAATAATCACCC
CGGCATTACTCCGTGTTGGTCTGTTCGAGTGCGGTTTCCAAAATCAAAAT
CAATGTCGCCTCTGTGTTGCGTTGTCAAAAAGATGGCCGGGTGAATTCCA
TTGATTTTTGAGCGTGCGAACCGTCATAATAAAAATCGAAATCAACAATC
ACAATCAAGAATTTGATCTCGATAAGATAAACTCTGAAGGATTGCCGGAC
AACCAACTTGCGATTTAACTAATTTTGATGAACAGCGAAGAAGCACCCGA
CAAGCACACACTGGGTAACTCACCTGTAGGGAGTCATCGGGCAAGAAAAA
AACGTTCGTTATCGCGCACGGCGGCGGCCGGGGCTTCTCTCGACATGCAT
ATCGCATGGCTATCTCCATTCCCCCTTTTTAAAAACAAGGTAATTTTTCC
GCCTCACTAAAATCAAGTAAGAAAAGCTTATTTTGATGAGGCTCGAACAA
AGGCTGCGGTCCATGAGTGCGCGTAAACCTAGTTTCGAACAGGAACGTCA
TAAAGTTGTTACGTGTGGGTTGGCGCATTCAGATCTGCTGCTGGGGCTTC
GATATCGAAGGTCGTAGCAGTAGCTCAAAAAGCCCGCAACTGGACAGATT
CCAAAAACATCTTCCACAGCTGTGCTATCTTCGACTGCTGTGCTAGCTTC
CACTGATGTGCTATCTTCCACTGCTGTGCTCGCCGCCACATACCCCCAAC
CTCCTGTACGAAGTACGGGTCAACAGCAGTAGCTTCATGCCACTAGCTAC
CTCGGACTGACCAGAGTTCAGAATATTGATGCCAATGGCGGAGAGTACAG
CCGCGTCAAACTTTTTGTGTTAGTCGGATTGCGGAGTTCTTGAGGGGTCC
TGCGGAGTTATTACAGCCGCGTCAGCAAACGTTACAGGATGGCGTCTTTT
GAAATTTGAACGCGACGAAATGGCTCGTTGCTTCAGATATGTAAGTGCTC
TGATAGAAGCAAGTCGCGTTCCTGAAGTTCCTTTTTTCCATCATCCCCAA
AAGCTGTTCAACGTGTGTACTGCTGCCGTTCGTGTTCGGCTGCAGGCGAG
CGGTATTGCCGCCAGAACCCGCAACTGCTGTGTTGGCGTTGGATGAGTCG
CAACAAATTAAGCGGAGAAGAGCGTGTAAGGGAGGTGCGCAGAGCGACGG
TTTGCTTGCATCAACAGGGGCACCACGACATGTGGCGATAATAATGGACG
GCAATCGACGCTTCGGCCGCGTCAAGTACAGTGATCCACTGAAGGTGGGC
TTCGTTTAATGTTGGTGATTTAGAGTTTGGTGATGGGGCGTGGCGGCCCA
CCAAACAGCCGTCAAGATATACGTCACCATCCGAGATGAGGTGTGGCTCT
CCTCGATTACGCCACGTGTTGGATTCTGTTCGCCTCGATTTTGCGTATCA
CTACTGTGGGCCGCGCTCGAAAGTACCCACTTCAAGGAAGGAGGCCTGGG
TTTTTCGTGAGAAGCTCAGTCTTTCGAAGGCCACGTTGGCAGTTTACAAC
AACTTCCCCTCATGACTACTGTCAGTTCCGTCCTTTCCCGAAAACGAAAC
TTTCTTCGTAGTGGCGTGTGCAGTGCGTGGCACGATCGCACATGCTCATC
GTTTCCACGCAGTCATTCTGTGCCCACTTCGCGCAAATCGGGTGGGGTTC
GTTGTTGGTGAGGTTTACCGTTGCGGACGTTTGACCCCGATCCTTGACCA
GGGGCATTCTGACGGGGGCAAAAGGTTAGGGGAATTTCTTGAGTGGTGCA
TGGAGGCAGGGGTTGCGATGGCGACTGCTTTCGCGTTCTCGACTGAGAAT
TGGAAACGGGATGCACACGAGGTGAGCGTGCGGGTCTTTACATTGCGCAC
TCGTACATTGCCCGAGCCAGAGTCCGGTCCCTGTTGTTTTCTGACCTGGT
GCCCGGTTCCGCTCTGAGCTTGGAAAATCGGATGATTTATAAATTTTCAT
CTTGACCATCCAACGTAGTTGAACCGCAATCATTGTGGCGGAACTTTTAG
GTGTTTCAAACACGAATATTTCAGTGTGCTAGCATGACACGACCAGGTAT
TGCAGAATATCCATTTGGAACTTCGATGAAAATTTTACGCATATTCCTCG
AAGACATTTTGGGCCGGTGGTTTTCATAGCATGCGTAGCAGCATGCATTG
AAGCGTAAAGGGTAGTTTTCATCAACAGACCTTCATCTTTGCTACGATAT
GTGCGGGTAGTCCGATGTAAAATACTGCATGCCAGGGCATCTCGTGCACT
AGCTGTGGTATTCGCGTTGGTACTTCCATATTACGTCCGAGCATCGACAG
TGTTCTTTAGTTCGAGACCCTGACACCATCGCTGTACAGGTGGAGCTGCT
GATGGATCTGGTGTGCTCATCGTGTGGTGAGCTGATGGAGGACGCCGTGA
AAAAAAACATGCGGATTCGGGTACTTTCATCTGACCCAACAAAGGTATGC
GCCGTTCCATTGATGGCTGGAACGTTATTCTTCAATGCAACTTAGTGCCG
GTTGAGGGCAGATAATTCACGTCATACGTACAAGCTGGGCCGGGCAAGAG
CTCCGGGATTCACCAATATCGCCACGCGCCGCTCATTTTTTCGAGTAAGG
GCCTGAAAAATTGACATGTGATTTTGACGAAGCTCGCCAAGACACTCAAA
GGAAGAACCATTTTTTTTTCTTTTTGGCCGACATACGACCAGCCGAAAGA
TTTCAGGCTTCCGCGCGGTACGGGAACGTTTAGGCCGCCGCAGGCGTAAT
TTTTTTTTGTCTTCCCGAGGAATGGTACGGAAAAAGATTCCCGTGTGCGT
GCCGCGGGATGGGAACGGGACGGGAAGGCGGGAACGCAGTAGGTAGACGG
GATGGGATGGGAATTCGTGGATTTCCCGTGGGAAGGGAACGGTCGGGAAA
CAAGTCGGTAAAGTCGGGAAACAAGTCGGGAAAGTCGGGAAACAGGTCGG
GAAACAAGTCGAGAGGCACAGGAGGAATCAATTCGTCGCTGTCATCACGA
CCGGCTGTGTCAGTGGTGCGTTTACCTTGCGTGATCCAGAAAAAAAAAAA
GAAAGGATTACAACAACGAGTACATATACTCGTGCATTCGTGATTAAAAG
TATGTGTGAAAAGGCATACACACGCTCCCTATTGTTGAGGGTAGTTGCCG
CCCCCCCCTTGTTCTTTTTTCTTTATTCAATATATTTCAATAGTTATAGA
TGATCTCCAGCCGCCCTCAAAAAAAAAAACAGGCGAAACGAACCAACTGC
ATTTCGCCGATTGCAAATAATAATCAGATAAAACGGCTCCCGCCTTCTCG
CTGTCAACGTCCGAACAAACACGATGATACCCCTGATAACCAGACCTCAT
CGTATCGAGCCCGTCTGCACCCACGTACAACGCATTATTACCTGCTACAG
CGGTCTTGGAAGTCGTGTGTAGTGTGTTGATTCATTTTTAATTTCTCTCT
CCACGTCTGTCTGTTAAAAAACATACGAAGTACGAAGTATGTTTATGCAT
AAGCATACAGCGTACAGCAGTGTATAATGGGAGATTCTGACGCATACTGC
TGCACTGATAAGATACACATCAGTATATGGGTGATGGGAGATACTGGGAG
AGGCAAAACATACCTATAGTTAGTTACAGTGGTAGCTCTCTCGCGTTTAA
CTTTACGTCTAATATTTTGTCGCGCGGCTTCTATTTTTTTCCCGTTTAAA
AACCCAGATTCCATAGCAATTACAGCAAAATAGCTTGATTCGTTTAATTT
AGGTGTTTCAGTATATATTTGGAATTCCTCGCGGTTTAAAGTACTTGCGA
TATTTTGTTCTCTTAGGTTGTGTTAGCATAGAAGTGAAATGTGGGACGAG
GGAGAAAGGATTCTGCAGCCGGGAATGGGACGGTAGGTGAGCAGACAGAC
AGTGGGATATTGGACGGGAGAAAAAGTTTCAAAGTCGGTCATGGAATGGG
AAGCGGGTTGGCAGATGTGGCACAGGAAGAGAGTGGGATGGGAACAGTTA
ATTTTGCGATGGGACGGTAGATGCGGGAACATAAATTAGAAACGGGAAAG
GTCGGGAAATCTCGGCCGGGAATAAAATATCGCCCGGTACGAGAACGGGT
CCCGTTCCCGTACCACTTTTTCCGAAAATACACGGAGAAAAAGTGGGCAA
AAAAAGAAAAAAACTAATGGGTCTTTCTTTACGTTTCTCGGCGAATATCG
TCCACATCGCGTGTGAAATTTTCAGGTTGTAATTCGAAAAAAACAGCGGC
GCATGGCCGATTTTTCACCAAAATAGCTCTGCATTCAAACTGACATACGA
TGTTGGAATCTTCCATATCTTTTGAACGACGACGACCCCCAACATTGAAC
GCCCATCTCCTTCCACGTCCAAGGATCTTCACGCTCAGAAAGGTTTGTGG
AAAAGTCCATTCACTTCTTTTTGTAGGGAATTTTTGAAAATGCATAATAA
AAACCGCATGAAACAAAAGTCTAGAAGATATGGAGACACTGGCTTCACGC
AACTTTTTTTGGGTACGATGTCCGATTCCAAAGATGTATAGCTTCAAATG
ACCACCTCGTCTAGCTGATAACGAAGATATGCTCAGTTGCCAGTGTTACA
GCGTCGTTCAAGAGATATGCCCTACTGACACATAATTGGGTTCTTGGCCG
GCGCAGCTCGTATCATTGAACTCTTGCTGTCTCCTCCGTGTACAGATTAA
TTTTTATTGTAAGTTGCAGGCAGCTGTTTCTCACCTAGCTGACGGGTTGT
CACTTGGTTTTCTCCTTGTTTGAAGCATACACCCAAAATACACAAAGCTA
CACGCACACATTTACAATGCTGTGTGGCTTCCACACCGGCGCACTCATTG
CCGGTCATGTGTGCTCTTGCCGCTGATAGCGCGTCCATCTGAGCCCCTCG
CCCCCGTCTCACACACACCTTTCGCCACCTGCATGCCGTTCGCTCACAGC
AAAAGCTACTGGCCGTCTTGCTTCCTGTCGACCAGTTTGTGCTGGTGCTG
TATCGTTTGTCGTCGTATATAGTTCACACCATTTTGGGTAATCAAGCTTC
GAAAGTCAGCCCAAAAAAGGGCTGTGTGTACATTGCGTGGGTACTCACAA
AGTAGTTTATGGGGGCACACAGTTTTTTTACAACTTCAACCAACTTCTAT
GTGGCCAGTACTTTGAGCTGCCACACGCTGACGTGCTGCACGAGATAGAC
GTTTCGTCCCTTGCTGTGATATCGCGCTTTGTTTGCTCAGTTTGAAGTGA
GTGCTGAACATGAAAGGGCAAGTCGTTGGATTGGTCGTCATCCTGTCCTG
AGGTGGTAATTTTGCAGATATTTCAATCGGACACCGTCTTACATTAAAAA
AGATGCGACCTATGAAGGTACGACACGCGTCACTTTATTCGAACATCGAC
ACAAAAACACTGCTGCTCCATACGCGGGACCACCTTGCCTCAACTGGTAT
ATTTGACGTGCTCTCTACCGTTTGAAGCCCCCCAGACAGGGAGCTGCACA
ACTACCAAAAACAGGAGAGTACCTTCAACGGGGCTTCGTGGCCTGCCTCA
TCACCTCAAGTTTTTACGTGCTTGACTGAACTTTCTTGAACACGACCAAA
ACTGACCAACTTTGTGAGGCACAAGGAGATTGATGTTTTATTCGATGCAG
CTTGCTCCCCTCTCTCACATCGCGTCGCCTCGCTTGTCAGCGGAGGCCGG
GAGGCCGAGCCCCAGAAACCCTACACAACACGACGTCTCTAACGGCCAAT
AACAGCCTCATCACCCACCCCAACCGGGCTTACTTTTGTGTAGACTCTGT
AGCGAGCTCTTCACAAGCAAGCACGACCCAGAAAATTGATGTCGCCTTCT
GCTGGTGTGGTGTGTCAGGAGCGTTTCTTGCCCAGACAGGAACAGCAGAC
CGCCAGAAACGGTGGATATCGGCAACGTTTTCTGATGGATGCAGCTCGTG
TCAGCTAACAAAATGCGGGTGATTGGGAGAGGACTTCTGATCTGGGTCGT
GGTATTCTGACCATCTTAGCCTTAGTCCGAGGCTATGGCACCAATCCACA
AACAGACTTGGCGCGAATTCAGCTCTTCTCCATAAGGTTTTTGCAACTCT
TATCGCACTGTTGTTCCAAAAAGTGCACACATTGGGGTTGCGATTTAGAT
TTTTATTGTGAAGAAAGAAAAATAGCCAAACAATCACCGAATGTCCTCCC
CCGAGTTTTAAAAACGCGAAAAGAAATGGTGCGACTGCAAATCCCAGAAT
TCGTTTTCAAGTCAAGGTACCCCGTGACAAAACGCTCCCTCAGATTATCT
TCCATAACTTACACCTTTGCGTAGTGTGAACGCAGTCTAAAAAATCCTGT
CGTGGCGAGCAACAAGTATTCCTTGTCCACGTGCAGTGCATGGGAAGTGG
AGGCATTTCGCTGAGTCCTTTCTCTAGCGGTATGCATTTGGGCTCTCATT
TTGTGATGTATGTGCCTGTTTCCGGATTCGGGGCGTCAACCATTCACAGG
TTTTCGCCATCATATCAGTCCGTGGTGTCGGTTTTTCTCGTCTCAAAAGA
GAAGTGCCACTTCGAATAACCTATGGAATCTAGGTCCCTCAACGTGCTCG
CGTTTCAGGGAAGTTGTCAGTTGCAAAGCGGCCTTTGAACGCCTTTTTTA
AGAAATCACATGAAGTTTGCTCGTGATAACTCCACACCTCTTGATTGTAC
CTTGGTGTGATACCAGCTGCCCGAACGAGTGTTGACAGCTATTCGGAAGG
CAGAAGATGAGACAAGAGATTGCACTGGGTTCTTGTTGAACATCTGCCTG
AGCTACGGTGCCCGGCAAGAAATAGCAAATGCATGCCGGCAGATAGCAGG
AGATGTAGCCAGGTACGTACCACGGGCGCGGTATGATGTATAGATGTAAC
ACTGGCCAACCAAGCAGCGAGAAACGACATCGCAATGCACCATGATGCGT
GGCTTAACTTTAGATGTGGACTTCCAGCGCGAGGGAACTTAATAGGCAAC
GTTGTGGTATGGTTTCAGAAATTTGATTTTCGATAAGATACTTGGTACTT
TGTTGCCCCAAGAACAGCACGTTGGGTTTGAGAATATTCATAATATCACC
CGTCCAGCAAACATGGGCCGGGGCTGTTGTTCGCACGCAGCATTCATTGA
ACCACATGTAGGTTATTCTGTCACCAGCCCGTTGCAATTTGGTTCTCGTC
ATGTTTCCTGGCAACAGCAGCACAGTTTTTCGACTTTTACCTCAATTTGG
CACTCTTGTTCGTTCGGGTGCGTTGCAAATTTGTTTAATGTTTTTTCTAA
GAAAGGTTTCGTGAGCCCCTCTTCACACACCTGTGTACGTGTACGGTACA
GTTTTGCAAATTATTAGACCGACTTCCGATGTGAACGATAGGGCTTCCCG
TTTTTTCTTGCCCATTAGGAACTCGTGGTTTCTGTTTGCATCTTAAAGCT
GTCTGTGGACTCATTTTGTTTTCCTCCTCGTTCTGTGTGCACAGCGGCGT
GACGTGCCTGGATGCGGTGGACGAGTTTGCTGTAGAAAAGCATTTGTTGA
CCAGAGGCCTGCCGGACCCCGATATTGTGATTCGAACCTCAGGCGAAAAG
CGGGTGAGGCAAAGTGCTTGCGGGTAACGTTGCTTTGAGTGTACGATTTG
GCGGAGCAGTATAGCTGCTTGCATCTGTATCCTGCAAGTCTAACCAAACA
GATTTGGCATAGCGACTTAGTGCTTGGCTTTAGACTTGGATATCATTCGC
GCCCGCCGAACTTTTCGCGTGACATGTACAAGCGCTGCTGCCTGCTCTTG
CACTTTCATGTTACAAATTAGGTGCGTGGGGGGCACGAAATAAGCAGGCA
ACTTTTCGCGTAGCAGATATGTTTCCTTTGTTTTTGTGTGCTAGGTTAGT
CGGAGCAAGAACTCTTATCTCATCGCGATCCATTCCAAGGGCGACCTGTT
GTTTCTATTTTCAAGGCGCTGCCTTCTGGAGACCGGGGCGTGCGGCACCC
TTATGACGTACCCGCCACTCCTGTTTCCTTCCCCCCACCCCCATTTCAGG
TAAGCAACTTCCTTCTTTTTCAGATGGCTTACACTGAGCTTTTTTTCGTG
GACAAGTTGTGGCCAGATATTACCCGAAGTGATGTCCTCGACATCTTCGA
GGCGTACAGGACACGAGAGCGCAGG
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Coding sequence (CDS) from alignment at P-littoralis_Contig110:248576..262800-

>mRNA_P-littoralis_Contig110.49.4 ID=mRNA_P-littoralis_Contig110.49.4|Name=mRNA_P-littoralis_Contig110.49.4|organism=Pylaiella littoralis U1_48|type=CDS|length=1281bp|location=Sequence derived from alignment at P-littoralis_Contig110:248576..262800- (Pylaiella littoralis U1_48)
GCTGCGTTCGCTTGTTGTGCCAGCAGCCAGCGGTACGTGGCCTCTCTGTC
CGCGTCCGTCAGTTTGCACCTCTCTCAGATCGACGGGCTTAGCGGCGTTG
ATATGGCGACAAACAATCTGACCATGAGACCTGAAGATTACTCACCATCT
GGCGTTAATCTACGGTGGCCTACATGTAGCGATGACACAAAGCACCACTT
CCACCTGACAGAAGTGGAAGCAGCCCTGATTGTTCTGCTAGCGTGCGTGC
TGGCCTCCAACTGGCAGCTCAGGCGCAAGAATTCCAATAATTCAAGGCCA
CGAGGTCAATCGAAGAGAGACGTGCTGGCTGAGAGCACAGTGCAACGATC
AAGGTGGCATTTCGACTGGGTTTCGGTCGTGGATCTTTCTCTCCGCCTCT
ACTCTCTCTTGCTATGCGCACTGCTGCCGTTCGACCGACATGTTGACCAA
GACGGACAGCTGAAGCAACACACGAGGCGAGCGGTATTGCCGCCAGAACC
CGCAACTGCTGTGTTGGCGTTGGATGAGTCGCAACAAATTAAGCGGAGAA
GAGCGTGTAAGGGAGGTGCGCAGAGCGACGGTTTGCTTGCATCAACAGGG
GCACCACGACATGTGGCGATAATAATGGACGGCAATCGACGCTTCGGCCG
CGTCAAGTACAGTGATCCACTGAAGGGGCATTCTGACGGGGGCAAAAGGT
TAGGGGAATTTCTTGAGTGGTGCATGGAGGCAGGGGTTGCGATGGCGACT
GCTTTCGCGTTCTCGACTGAGAATTGGAAACGGGATGCACACGAGGTGGA
GCTGCTGATGGATCTGGTGTGCTCATCGTGTGGTGAGCTGATGGAGGACG
CCGTGAAAAAAAACATGCGGATTCGGGTACTTTCATCTGACCCAACAAAG
CTGCCCGAACGAGTGTTGACAGCTATTCGGAAGGCAGAAGATGAGACAAG
AGATTGCACTGGGTTCTTGTTGAACATCTGCCTGAGCTACGGTGCCCGGC
AAGAAATAGCAAATGCATGCCGGCAGATAGCAGGAGATGTAGCCAGCGGC
GTGACGTGCCTGGATGCGGTGGACGAGTTTGCTGTAGAAAAGCATTTGTT
GACCAGAGGCCTGCCGGACCCCGATATTGTGATTCGAACCTCAGGCGAAA
AGCGGGTAAGCAACTTCCTTCTTTTTCAGATGGCTTACACTGAGCTTTTT
TTCGTGGACAAGTTGTGGCCAGATATTACCCGAAGTGATGTCCTCGACAT
CTTCGAGGCGTACAGGACACGAGAGCGCAGG
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