mRNA_P-littoralis_Contig117.42.2 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig117.42.2
Unique NamemRNA_P-littoralis_Contig117.42.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig117.42.2 vs. uniprot
Match: A0A6H5KKU8_9PHAE (TFIIS N-terminal domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5KKU8_9PHAE)

HSP 1 Score: 97.4 bits (241), Expect = 8.820e-17
Identity = 50/91 (54.95%), Postives = 63/91 (69.23%), Query Frame = 1 
Query:  502 EGNESDEWSDVEGDEVHQLPKAVKAQFGNVVWAKHGLRPQPPFPALVWDPRFLDKSDVSHSLAEVAHSTLGRCHLVRLYNA-RQEFRAMKY 771
            +GNESDEWSD   DEVH LP+ VKAQFG VVWAK G    PP+PALVWDPRFL    V+  +A +A++ +G+ HLV+ Y A +  F  + Y
Sbjct:  170 DGNESDEWSDH--DEVHYLPREVKAQFGQVVWAKMG---NPPWPALVWDPRFLGNDKVARGVARMAYAAVGKSHLVKFYTAAKNSFACVPY 255
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BLAST of mRNA_P-littoralis_Contig117.42.2 vs. uniprot
Match: A0A1L9BIU3_9DELT (Uncharacterized protein n=2 Tax=Cystobacter TaxID=42 RepID=A0A1L9BIU3_9DELT)

HSP 1 Score: 67.4 bits (163), Expect = 8.290e-9
Identity = 45/128 (35.16%), Postives = 69/128 (53.91%), Query Frame = 3 
Query: 1497 ALLEAAKGGDATAIMNLVAAGADVN-FPPEDDCTMSIHLAAKGNHVEALRVLLKAGGRTDLMSSDSEPPLHIAARAGAIDTVNVLLDEAGSRV--DATDQFGCPALIAALEKRNLPIIRALLSAGADP 1871
            A+   A GG+   ++ L+  GADVN +  E D T  +    + N +EA+ +LL AG   ++ SS+ + PL   A  G +   ++LL    +R   D     GC AL  A+ + +LP++R LL AGADP
Sbjct:   43 AIHALADGGELDVLLALLEHGADVNAWDSERDRTPLLEAVCE-NQLEAVELLLNAGAEPNVRSSEGDTPLRACAEVGNVVMASLLLRAGATRTINDWGGLTGCTALGIAISRLDLPMMRLLLDAGADP 169
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BLAST of mRNA_P-littoralis_Contig117.42.2 vs. uniprot
Match: A0A1Q3HUN9_9DELT (Uncharacterized protein n=5 Tax=Archangiaceae TaxID=39 RepID=A0A1Q3HUN9_9DELT)

HSP 1 Score: 65.5 bits (158), Expect = 3.840e-8
Identity = 43/128 (33.59%), Postives = 70/128 (54.69%), Query Frame = 3 
Query: 1497 ALLEAAKGGDATAIMNLVAAGADVN-FPPEDDCTMSIHLAAKGNHVEALRVLLKAGGRTDLMSSDSEPPLHIAARAGAIDTVNVLLDEAGSRV--DATDQFGCPALIAALEKRNLPIIRALLSAGADP 1871
            A+   A GG+   ++ L+  GADVN +  E D T  +    + N + A+ VL+KAG   ++ SS+ + PL   A  G ++  ++LL    ++   D     GC AL  A+ + ++P++R LL AGADP
Sbjct:   43 AIHALADGGELDVLLALLEHGADVNAWDAERDRTPLLDAVCE-NQLAAVGVLVKAGAEPNVRSSEGDTPLRACAELGNVEIASLLLGAGATQTINDWGGLTGCTALGIAISRLDIPMMRLLLDAGADP 169
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BLAST of mRNA_P-littoralis_Contig117.42.2 vs. uniprot
Match: UPI00090416B7 (ankyrin repeat domain-containing protein n=1 Tax=Cystobacter ferrugineus TaxID=83449 RepID=UPI00090416B7)

HSP 1 Score: 63.2 bits (152), Expect = 2.350e-7
Identity = 41/127 (32.28%), Postives = 65/127 (51.18%), Query Frame = 3 
Query: 1497 ALLEAAKGGDATAIMNLVAAGADVNFPPEDDCTMSIHLAAKGNHVEALRVLLKAGGRTDLMSSDSEPPLHIAARAGAIDTVNVLLDEAGSRV--DATDQFGCPALIAALEKRNLPIIRALLSAGADP 1871
            A+ E A GG    ++ L+  GADVN    +     + +AA  N + A+  L+K G   ++ SS+ + PL   A  G +   ++LL    ++   D     G  AL  A ++ +LP+I+ LL AGADP
Sbjct:   43 AIYELADGGGLDVLLALIEHGADVNAWDVEQDKTPLLVAACENELAAVEALVKVGANPNVRSSEGDTPLRACAEVGNLGIASLLLGAGATQTINDWGGLSGYTALGHAADRLDLPMIKLLLDAGADP 169
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BLAST of mRNA_P-littoralis_Contig117.42.2 vs. uniprot
Match: A0A250JFE4_9DELT (Uncharacterized protein n=4 Tax=Archangiaceae TaxID=39 RepID=A0A250JFE4_9DELT)

HSP 1 Score: 62.0 bits (149), Expect = 5.820e-7
Identity = 44/128 (34.38%), Postives = 66/128 (51.56%), Query Frame = 3 
Query: 1497 ALLEAAKGGDATAIMNLVAAGADVN-FPPEDDCTMSIHLAAKGNHVEALRVLLKAGGRTDLMSSDSEPPLHIAARAGAIDTVNVLLDEAGSRV--DATDQFGCPALIAALEKRNLPIIRALLSAGADP 1871
            A+ E + GG+   ++ L+  GADVN +  E D T  + +A   N + A+  LLKAG   ++ SS+ + PL      G +    +LL    +R   D     G  AL  A  + +LP+I+ LL AGADP
Sbjct:   43 AINELSDGGEFDVVLALIEHGADVNAWDVERDMTPLL-IAVCENELAAVEALLKAGAEPNVCSSEGDTPLRACVERGNVGMATLLLAAGATRTINDWGGLTGYTALGHAARRLDLPMIKLLLDAGADP 169
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BLAST of mRNA_P-littoralis_Contig117.42.2 vs. uniprot
Match: A0A7T2LLJ3_9SPHN (Ankyrin repeat domain-containing protein n=1 Tax=Sphingosinicella flava TaxID=2771430 RepID=A0A7T2LLJ3_9SPHN)

HSP 1 Score: 61.2 bits (147), Expect = 8.810e-7
Identity = 44/130 (33.85%), Postives = 62/130 (47.69%), Query Frame = 3 
Query: 1488 DHKALLEAAKGGDATAIMNLVAAGADVNFPPEDDCT--MSIHLAAKGNHVEALRVLLKAGGRTDLMSSDSEPPLHIAARAGAIDTVNVLLDEAGSRVDATDQFGCPALIAALEKRNLPIIRALLSAGADP 1871
            D    L+A + GD      LV A   +    +D  T   +IH   K   V  L  LL  G + DL S   +    + A+ G I    +L+    + V+ATD  G   LI A++ R+LP++R LL AGADP
Sbjct:   28 DGYTFLKAIREGDGAKANALVTAPGSIVLTYKDPSTGEAAIHEVVKRRDVAWLNYLLGKGAKADLQSRSGDTAFTLVAQMGWIGGAEILVAHRAN-VNATDSRGQTPLILAVQGRDLPMVRFLLDAGADP 156
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BLAST of mRNA_P-littoralis_Contig117.42.2 vs. uniprot
Match: A0A246TVD2_9HYPH (Uncharacterized protein n=1 Tax=Rhizobium sp. R693 TaxID=1764276 RepID=A0A246TVD2_9HYPH)

HSP 1 Score: 60.5 bits (145), Expect = 1.590e-6
Identity = 42/130 (32.31%), Postives = 66/130 (50.77%), Query Frame = 3 
Query: 1500 LLEAAKGGDATAIMNLVAAGADVNFPPEDDCTMSIHLAAKGNHVEALRVLLKAGGRTDLMSSDSEPPLHIAARAGAIDTVNVLLDEAGSRVDATDQFGCPALIAALEKRNLPIIRALLSAGADPNHLAEV 1889
            L +A   G+A A+   +AAGADV+   +D  T  I+ AA  N +  + +L+         +S     LH AA +G++    +LLD      DA+++ G   L+ A E+  + +   LL+ GAD  H AEV
Sbjct:   23 LFDAISAGNAVAVKQYLAAGADVDSRAKDQATPLIN-AALSNQIAIVELLIGKHANVMARNSGGFTALHAAAYSGSVPISKLLLDHGAILDDASNKAGATPLMVAGEQNQVALAEFLLAKGADIGH-AEV 150
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BLAST of mRNA_P-littoralis_Contig117.42.2 vs. uniprot
Match: UPI001FA5EEFC (Uncharacterized protein n=1 Tax=Spodoptera exigua TaxID=7107 RepID=UPI001FA5EEFC)

HSP 1 Score: 63.5 bits (153), Expect = 2.060e-6
Identity = 72/214 (33.64%), Postives = 92/214 (42.99%), Query Frame = 3 
Query: 1284 RSISPFDPEKLPVYLEALTGKNNKWSLETAQDLKDGTQKAIDASLLSRAERLK---TMRQIGRHDL-FRKLRDHKALLEAAKGGDATAIMNLVAAGADVNFPPEDDCTMSIHLAAKGNHVEALRVLLKAGGRTDLMSSDSEPPLHIAARAGAIDTVNVLLD---------EAGSRVDATD------QFGCPALIAALEKRNLPIIRALLSAGAD 1868
            RSIS FD         A   +     L+   DL +G   + D S+      +    T+ +I R  L  RKL  + +LLEA K  D   I  LV AGA+ N     DC  + HLAA      AL +LL AG            PLH+AA AG +  V +LL          +AG  +DA +      Q G  AL AA  +      R LL AGAD
Sbjct:   52 RSISLFD---------ATEDRQPLLKLQKPNDLDEGDNASEDFSISGNKLLMVPAVTLPKISRLSLRVRKL--NTSLLEAVKHRDVQEIERLVQAGANPNATCGIDCVSACHLAALRTD-GALEILLNAGASRKRADRLGRTPLHLAAWAGNVKQVAILLGFSKELQDRLDAGEIIDANENELPTFQLGWSALHAASARAQCHSARLLLVAGAD 253
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BLAST of mRNA_P-littoralis_Contig117.42.2 vs. uniprot
Match: S9P769_9DELT (Ankyrin protein n=8 Tax=Archangiaceae TaxID=39 RepID=S9P769_9DELT)

HSP 1 Score: 60.1 bits (144), Expect = 2.630e-6
Identity = 41/127 (32.28%), Postives = 65/127 (51.18%), Query Frame = 3 
Query: 1497 ALLEAAKGGDATAIMNLVAAGADVNFPPEDDCTMSIHLAAKGNHVEALRVLLKAGGRTDLMSSDSEPPLHIAARAGAIDTVNVLLDEAGSRV--DATDQFGCPALIAALEKRNLPIIRALLSAGADP 1871
            A+ E + GG+   ++ L+  GADVN    +     + +AA  + + A+  L+KAG   ++ S D   PL  +A  G +   ++LL    +R   D     G  AL  A  + +LP+I+ LL AGADP
Sbjct:   43 AIYELSDGGELDVLLALLEHGADVNAWDVERDRTPLLVAACEDELAAVEALVKAGAEPNVCSRDGITPLRTSAEVGNLGMASLLLGAGATRTINDWGGLTGYTALGHAARRLDLPMIKLLLDAGADP 169
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BLAST of mRNA_P-littoralis_Contig117.42.2 vs. uniprot
Match: A0A250JKQ1_9DELT (Uncharacterized protein n=5 Tax=Archangiaceae TaxID=39 RepID=A0A250JKQ1_9DELT)

HSP 1 Score: 59.7 bits (143), Expect = 3.490e-6
Identity = 45/130 (34.62%), Postives = 66/130 (50.77%), Query Frame = 3 
Query: 1491 HKALLEAAKGGDATAIMNLVAAGADVN-FPPEDDCTMSIHLAAKGNHVEALRVLLKAGGRTDLMSSDSEPPLHIAARAGAIDTVNVLLDEAGSRV--DATDQFGCPALIAALEKRNLPIIRALLSAGADP 1871
            H A+ E A+ G    +M L+  GADVN +    D T  +    +G    A+  LLKAG   ++ SS+ + PL   A  G +   ++LL    SR   +   Q G  AL  A  + ++P++R LL AGADP
Sbjct:   41 HVAINELAERGGLDVLMALLEHGADVNAWNVGRDVTPLLVAVFEGQQA-AVEALLKAGADPNVRSSEGDTPLRACAGVGDLGIASLLLGAGASRTINEWGGQAGYTALGLAASRLDIPMMRRLLDAGADP 169
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig117.42.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 18
Match NameE-valueIdentityDescription
A0A6H5KKU8_9PHAE8.820e-1754.95TFIIS N-terminal domain-containing protein n=2 Tax... [more]
A0A1L9BIU3_9DELT8.290e-935.16Uncharacterized protein n=2 Tax=Cystobacter TaxID=... [more]
A0A1Q3HUN9_9DELT3.840e-833.59Uncharacterized protein n=5 Tax=Archangiaceae TaxI... [more]
UPI00090416B72.350e-732.28ankyrin repeat domain-containing protein n=1 Tax=C... [more]
A0A250JFE4_9DELT5.820e-734.38Uncharacterized protein n=4 Tax=Archangiaceae TaxI... [more]
A0A7T2LLJ3_9SPHN8.810e-733.85Ankyrin repeat domain-containing protein n=1 Tax=S... [more]
A0A246TVD2_9HYPH1.590e-632.31Uncharacterized protein n=1 Tax=Rhizobium sp. R693... [more]
UPI001FA5EEFC2.060e-633.64Uncharacterized protein n=1 Tax=Spodoptera exigua ... [more]
S9P769_9DELT2.630e-632.28Ankyrin protein n=8 Tax=Archangiaceae TaxID=39 Rep... [more]
A0A250JKQ1_9DELT3.490e-634.62Uncharacterized protein n=5 Tax=Archangiaceae TaxI... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig117contigP-littoralis_Contig117:124303..137045 -
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
Stop1
Start1
Seed ortholog135651.CBN31766
Preferred nameDAPK1
PFAMsAnk_2,Ank_4,Ank_5,Death,Pkinase
Model size3185
Max annot lvl33208|Metazoa
KEGG koko:K08803
KEGG Pathwayko04140,ko05200,ko05219,map04140,map05200,map05219
Hectar predicted targeting categoryother localisation
GOsGO:0000149,GO:0000166,GO:0001952,GO:0002376,GO:0003674,GO:0003824,GO:0004672,GO:0004674,GO:0004683,GO:0005488,GO:0005515,GO:0005516,GO:0005524,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005654,GO:0005737,GO:0005829,GO:0005856,GO:0005884,GO:0005886,GO:0006355,GO:0006417,GO:0006464,GO:0006468,GO:0006793,GO:0006796,GO:0006807,GO:0006915,GO:0006937,GO:0006940,GO:0006950,GO:0006952,GO:0006955,GO:0006979,GO:0007088,GO:0007154,GO:0007165,GO:0007166,GO:0007275,GO:0007346,GO:0007399,GO:0008022,GO:0008134,GO:0008140,GO:0008144,GO:0008150,GO:0008152,GO:0008219,GO:0008360,GO:0008625,GO:0009889,GO:0009890,GO:0009892,GO:0009893,GO:0009894,GO:0009896,GO:0009966,GO:0009967,GO:0009968,GO:0009987,GO:0010033,GO:0010468,GO:0010469,GO:0010506,GO:0010508,GO:0010556,GO:0010558,GO:0010564,GO:0010604,GO:0010605,GO:0010608,GO:0010629,GO:0010646,GO:0010647,GO:0010648,GO:0010810,GO:0010941,GO:0010942,GO:0010950,GO:0010952,GO:0012501,GO:0015629,GO:0016020,GO:0016301,GO:0016310,GO:0016604,GO:0016605,GO:0016740,GO:0016772,GO:0016773,GO:0017016,GO:0017048,GO:0017075,GO:0017076,GO:0017148,GO:0018105,GO:0018107,GO:0018193,GO:0018209,GO:0018210,GO:0019219,GO:0019222,GO:0019538,GO:0019899,GO:0019904,GO:0019905,GO:0022008,GO:0022603,GO:0022604,GO:0022898,GO:0023051,GO:0023052,GO:0023056,GO:0023057,GO:0030111,GO:0030154,GO:0030155,GO:0030162,GO:0030177,GO:0030182,GO:0030275,GO:0030334,GO:0030335,GO:0030554,GO:0031267,GO:0031323,GO:0031324,GO:0031325,GO:0031326,GO:0031327,GO:0031329,GO:0031331,GO:0031974,GO:0031981,GO:0032268,GO:0032269,GO:0032270,GO:0032409,GO:0032412,GO:0032501,GO:0032502,GO:0032553,GO:0032555,GO:0032559,GO:0032879,GO:0032956,GO:0032970,GO:0033043,GO:0033194,GO:0033554,GO:0034097,GO:0034248,GO:0034249,GO:0034341,GO:0034599,GO:0034762,GO:0034765,GO:0035556,GO:0035639,GO:0036094,GO:0036211,GO:0040012,GO:0040017,GO:0042221,GO:0042802,GO:0042803,GO:0042981,GO:0043065,GO:0043066,GO:0043067,GO:0043068,GO:0043069,GO:0043085,GO:0043167,GO:0043168,GO:0043170,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0043233,GO:0043269,GO:0043280,GO:0043281,GO:0043412,GO:0043519,GO:0043522,GO:0044057,GO:0044087,GO:0044093,GO:0044237,GO:0044238,GO:0044260,GO:0044267,GO:0044422,GO:0044424,GO:0044425,GO:0044428,GO:0044430,GO:0044444,GO:0044446,GO:0044451,GO:0044464,GO:0045087,GO:0045121,GO:0045862,GO:0046777,GO:0046983,GO:0048518,GO:0048519,GO:0048522,GO:0048523,GO:0048583,GO:0048584,GO:0048585,GO:0048699,GO:0048731,GO:0048856,GO:0048869,GO:0050789,GO:0050790,GO:0050793,GO:0050794,GO:0050896,GO:0051020,GO:0051049,GO:0051128,GO:0051171,GO:0051172,GO:0051173,GO:0051239,GO:0051246,GO:0051247,GO:0051248,GO:0051252,GO:0051270,GO:0051272,GO:0051336,GO:0051345,GO:0051493,GO:0051716,GO:0051726,GO:0051783,GO:0051893,GO:0052547,GO:0052548,GO:0060255,GO:0060548,GO:0060828,GO:0065007,GO:0065008,GO:0065009,GO:0070013,GO:0070887,GO:0071310,GO:0071345,GO:0071346,GO:0071447,GO:0071704,GO:0071944,GO:0080090,GO:0090109,GO:0090257,GO:0090263,GO:0097159,GO:0097190,GO:0097191,GO:0097367,GO:0098589,GO:0098805,GO:0098857,GO:0099080,GO:0099081,GO:0099512,GO:0099513,GO:0099601,GO:0140096,GO:1900449,GO:1901265,GO:1901363,GO:1901564,GO:1901700,GO:1901701,GO:1901888,GO:1902041,GO:1902042,GO:1903391,GO:1903506,GO:1904062,GO:2000112,GO:2000113,GO:2000116,GO:2000145,GO:2000147,GO:2000249,GO:2000310,GO:2001056,GO:2001141,GO:2001233,GO:2001234,GO:2001235,GO:2001236,GO:2001237,GO:2001238,GO:2001239,GO:2001241,GO:2001257
Exons4
Evalue1.04e-07
EggNOG OGsKOG0032@1|root,KOG0032@2759|Eukaryota,38GFU@33154|Opisthokonta,3BAQ1@33208|Metazoa,3CY7G@33213|Bilateria,40C6Z@6231|Nematoda,1KXH1@119089|Chromadorea,40UEX@6236|Rhabditida
EC2.7.11.1
DescriptionDEATH domain, found in proteins involved in cell death (apoptosis).
Cds size1368
COG categoryT
BRITEko00000,ko00001,ko01000,ko01001
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig117.42.2prot_P-littoralis_Contig117.42.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig117 124675..126730 -


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

Feature NameUnique NameSpeciesTypePosition
1680789488.115758-UTR-P-littoralis_Contig117:124302..1246741680789488.115758-UTR-P-littoralis_Contig117:124302..124674Pylaiella littoralis U1_48UTRP-littoralis_Contig117 124303..124674 -
1680789488.1446998-UTR-P-littoralis_Contig117:126730..1267491680789488.1446998-UTR-P-littoralis_Contig117:126730..126749Pylaiella littoralis U1_48UTRP-littoralis_Contig117 126731..126749 -
1680789488.153207-UTR-P-littoralis_Contig117:127127..1279651680789488.153207-UTR-P-littoralis_Contig117:127127..127965Pylaiella littoralis U1_48UTRP-littoralis_Contig117 127128..127965 -
1680789488.1630287-UTR-P-littoralis_Contig117:136457..1370451680789488.1630287-UTR-P-littoralis_Contig117:136457..137045Pylaiella littoralis U1_48UTRP-littoralis_Contig117 136458..137045 -


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

Feature NameUnique NameSpeciesTypePosition
1680789488.127515-CDS-P-littoralis_Contig117:124674..1259901680789488.127515-CDS-P-littoralis_Contig117:124674..125990Pylaiella littoralis U1_48CDSP-littoralis_Contig117 124675..125990 -
1680789488.136258-CDS-P-littoralis_Contig117:126678..1267301680789488.136258-CDS-P-littoralis_Contig117:126678..126730Pylaiella littoralis U1_48CDSP-littoralis_Contig117 126679..126730 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig117.42.2

>prot_P-littoralis_Contig117.42.2 ID=prot_P-littoralis_Contig117.42.2|Name=mRNA_P-littoralis_Contig117.42.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=456bp
MRQIGRHDLFRKLRDHKALLEAAKGGDATAIMNLVAAGADVNFPPEDDCT
MSIHLAAKGNHVEALRVLLKAGGRTDLMSSDSEPPLHIAARAGAIDTVNV
LLDEAGSRVDATDQFGCPALIAALEKRNLPIIRALLSAGADPNHLAEVCD
NGAFTALRLAVERDCVDSINLLISAGANPNRPFYTRQLEGVTPVHWACRL
ARSDCLETLLRRGGDPSREEGGGVSLSDYTARPAGLKASDVVGAGNPCER
SSELSDERAVVRERIFTTLRSAEDRRSGWGRRKTLVILRALRAREPEGTL
VGGTEEKCEEHRESALEALQAVWERQKIVAEDRRQLFAAVKHSRMAARKL
GVAFNELNTRRFRPPMLSLQGEDLAIAEKKLQEDFDAFSNAEPEPRLDEI
GIRRKLVRNRELRQVANEERGRAVDLERRGILERLTRHNSGSLPAAIFQM
VMTYI*
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mRNA from alignment at P-littoralis_Contig117:124303..137045-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig117.42.2 ID=mRNA_P-littoralis_Contig117.42.2|Name=mRNA_P-littoralis_Contig117.42.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=12743bp|location=Sequence derived from alignment at P-littoralis_Contig117:124303..137045- (Pylaiella littoralis U1_48)
GGCACTGCCCCACAACCGGAGTACAATTTGGTGTGCCTCGTCAAGTAGAC
AGCAGTGTAGACCAAATGTACACCGGTACTAAACGCCAACCACCACGCTA
CTTCAGCTACTATGGCAATCAAGCAAATCAAACGTGTCCCCTTACCTCAG
GACTACACCCTTTCGCCCATGGCGTCTGAGGAGGGGACAAAGGAAAGCAA
GAGCACGATCGCCTCCCAGGCCCGTGCTGAAACAAACCAAGAACAGATGG
CCTGCCAACCACACCAGGACGGAACAACGACAGCAGAGGCACTGCCAATA
TCGCCAGCTGATTCAGCTGCCAGGGGCGGTTATGGTACCCCCGCAACGAA
CTCGGTTGATATGCCAAACAAGGGACATCCACAGCCAGCCAGCGATGCTC
GCAGCAGCAGCTACCCCGCCGCTCTTGAGGAAAATGCCACTGGAGAGAGT
GCCTACGGGGACAACGCATCACAGGAGGAGGGAGGTGCTGATGGCAATGA
TGAAGGCAACGAGTCGGACGAGTGGTCAGATGTGGAGGGCGACGAAGTTC
ATCAACTCCCCAAGGCGGTCAAGGCGCAGTTCGGAAATGTGAGCCTACAT
CGTGGGTCACAACACAAAACAGAGTAGGTTCTGAAAAGTAGGAAGACAAA
AGTAATACTTCCTGACACTTTGATAATTGCCTCAAAAACAAAAAACGCAA
ACCCAATTCGTTCAACGTGGACAGCATCTATGATACGTGTTGTGTCAACC
TTTCCCTGTTGGAGGTTACAAATATACGAAGAACTTCGTAAAGAAATGCG
TGCCCACCGTGATTACGCTGGCACAGCACTCTCGTGAGCGAGGGTAAATA
TGTAAAAGGTGACTCCGATTCATTTCTGTACTTGACAGGAATTTTCACGT
ATGATACCTACCTGTCAAGTGAGGGTTCGTAGAAAAAAAAAGAACTGGAA
CCTAGATTCGTCCCTCCCTTCCATCCTACCATGCGTTGTGTCTTGGAAAA
AACAAAAAATATCCCGAAACGTGTCATATGGTAGAACGTGGAACGGAGCG
CGAGCTAAAAGCCGGGCGCTGCTGTGGTTCTTCGCTGATGTATTTATGTA
CAGCAGTACGTTTAGAAGTTTCAATACCACACACACGTACACGAACATCC
GTCCATCTCCCATCTCTCGCCCACAGCAGACACACACAGTCCACACAGCA
CAGCACATCATGGTTTGAGAGATGGTCATTTCTCGGTCGGTGGCAGTCGT
CCGGGCCCGTTTGAAGAAAAGCGCGTGAACAAACAGACGGAGAGGTGTGA
CATGGTGCTTTGATCATTCGTTTTCTGCTGCTCTTCTTGCTGCTGCGCTG
CGCGATGAGTTTGTTCATCAGAGAGAGGGCTTACGGTGTTCGGCGCGTGG
CGCTAGTCGGGGTGGGGGAGCTGCTGTGTCTCTGTGGTGTGCGTATGTGT
TGTTATCCCATATTCTCTGGCATACTAGTCTGCACCTTGCGGTTCAAACT
ACAGGCTAGGCCCATCGACGGGGTCACACAGGAGGAAGGTCAACACAGGA
GGAGTTACCCCCACCTTCCTTCTGCGGTACATGCGTGAGATTTTTTCTCG
CGGTCCCTACCCTCGTCGGCGAAGCCGAATCTGCTTTTACTAATAGCATA
GCCGCTTTCAAAGTAGCAAAGGAACACATTCACCGGGAATCGAACCCCCG
TTCCTCTGCATCTAGTGGTCAACGAGGGGACCACTAGTCCACCGGGGCGA
CCGGTATGTATGTGTGTGTGGTACAGATTTGTGGTCAGAGAGGGAAAAAG
CTGCCAGAAACGTCTTGCCTCCCAGCAGCCCGTTCCACATGAACTTTTGG
ACAATTTTAAGGAACGAGACTCTGAAAATAATATTTTTGGAGGAGGCAAC
GAAAAATGAGAAACCACGGTGGCCGGGGAATTCTTTCCAAGAATGCTTTT
TCCTGAGGTTGGCCAATCAGAAAATTATTATAGGTTTTACGTTTCACGTT
CCACACCTCGGTTTTGTTCGACGAACCGCGGAGGAGCGTACAGGACACGA
TCCGCGTGCTCCCTCCCCGTTCCTCCCGTACCGTGTGCCACCGCATATCA
CACAACCCCCCCAAATCCCCGTGAATCATAATAGCCACAAGCACCTGTAG
TCAAGAAATACCAGGAAATAAAACCTCACGCCATAACCCATTTTAATTCC
TTCAAATCAAACATAAACCTCCCGAATGTCCCGATCTCTCACGAAGTATC
AACAACGAGCGTTCAAGCTGAAATACAACCAGCCCCTCCAAAGAAGGTTG
AGGTCAAACCTCTAAATTTCTTGCGCCAAATTCTCAATCCGCCAAAAAAC
AAAAAGATTCTCGAAAAAATACCCCAAAAGAACGACGTCGATTACAGAAG
TGGTGCTGCTGCTGTAGTGTGGATTTCTACTCCGGAAAATGCGCCAAATA
CCGAGACAAAATCTTCAAATAGTATAATTTCAACTTTATTCAACAACCCT
ATTACTGTAAGACTTCGGAGGCACTGAAGGCTCAACAAGGACTCACCAAA
ACACTCCAAAAGTAGTACGAAGTATCATCCAATACACCAGAAAAAGCAAA
AACCCTTGTTGTAAACAGGAAAACAGGAAAGAGCTTCGCCAGTACTACTG
TGATTAAATACCAAACACTCTCAACAAAAACCGACAGCCCCCTGCTGCAA
TGTTACTCTCGAATTTACAATAAAAGACCATGAAGTCCACTCTGCGCTGT
GACGGCAGGTGAAGCAAACGCCAGACTCGTTGATCAACATCGAAAATATT
GAATCGACCAAACGAACTAAAATGAGACCCCCCCTCTCAGTGATGGCATG
GGAATCAAATGCCAGGAGTTGCATTATCATGAAAACAGTTCAAGTCGCCA
ACATCTGCTGATATTGCAAACAGAATCACGATACCTTATTCCCACCCTTA
TTCCTCGAAGCAGGAAGCAGCAGCATTCGATATCAGTGCCAAGTAACAAC
GATCAAGATTTAAAGCATATCGAAGATCAAACCAAGCAAAAACTACACAA
AAAACGAGGTATAATACAAAACGCACATGTTCAAGCTCATCAAACAAACC
CAGAGATGAAATGAGATTTGCCGCTTCAAGATTTATCTTCAAAGTCTCAA
TCCAATCAAAACTGAAAGCGACATATCAAACTTCAAAAGGAACACACAAA
GAAAAACGAAACAAAACATTAACGAAACCAAGCAGAAACCTAAACCCCAG
AGCACCCGAAAATGGCGGTTGCCTTTCGCACGGAGAATGAAATATTGCCG
TCCACCACGTTTGAAAAATTGTCACAAACAATCGCAAATGGCTCCGACGT
TATCAACGCAATTTCATTTTTGAAAGCCCTTCCAACGGACGATTCATGAG
AAATAGAAAACGCTTATTGGAAAGGAACGGACGTGCATCAACGTCAGCAT
CACAATTTCAACACCATGCACATTGTTTCCGAGTAGAGTCACGCCAACTC
CCCGTGATTCTACATACAGAAGTGCAATACTCATTTATCGATCATGAATT
CCATGACGAATGCCAAATGACTCGCCCCCACCGCAACGTAGTTGTCAGTC
ATGCCATGCAGGAAAGTAAAAGTAAGAAAAACGAAAATGGAGATCGCATT
TATTCACATCTCAGTTCCATTTTCACACGCTTGCTGTTTTCATGATCACA
CTCGTCGAACGTTCCAAACAACAAAGCCGTATAACCGTTGTGTTGCGCAA
TTGCTTCTACTTGCACAGCAGATTGCTGTAGTGACCAGAGGATAAGTTCG
TATCTGTACGTATCTCATCACTATTCCAAGCGCCTGATTGTCAGATGGGA
TGGTCTTTCCTTTCTCTCAAAACGCAAACAAGAATACAAACTGCGATCAT
TAACGGCACATTCCAATTTTCGGTGCTTTAACACACTAGCGGTTCCAACA
CTATTTTTGGGCACAAGAACGAATCGAAAGAAAAGAAAGATCTCAACGCA
TGTCCCTGTTTTTTCGACCCCTCTCAACAAAACGGCAGAACGATACAAAA
CAGAACACAAACCCAAGCTCAGATTTTCAAATAGCATGCTCTCTTCTGTC
ATTACGTGCCTGGTCGGGTGTGAACGAAACCTCTTCTCGTTGGTCGAGGA
CGTGTCTCGCCAGCACTCCTATCGTTGGTGGTGTCGCTGCTGCCACTGCT
GCTGCTGCTATTGCTGCTGCTGCTGCACCCACGGTCACTCTAAACACTGC
CCCCCAGCACAAAGCCCGTCACTCTTCGTGCTGCAATTGCCGAAGCCCTT
GCCCCGGTCAAACGACCGTGTGACCCCGAAATTGTCCTCCCCGCGTCCAG
CGCTTCGTACAGACCGTTTTACCCCGTCGAACGAGAATGCCGACATCCCT
GTCTCCGTCTCGTCTGCCCCCTCGTTTCCCTGCTGCAGGCTGCTGCCGCC
GCCGCCTCCACCGTTGCCGCAGCTGCTGCTGCTGCTGCTGCCGCCGCCGC
CGACGTTGCTGCTGCTCTCGGCATCGTCCAAGGTGCCCGTGTCGTGGCAG
CTGCTACCGTTGAAGCTGCTGCTCTCGTCGTCGCCGCCGTCGCCCGTGTC
GCTGTAGTTGCTACCGCTGAAGCTGCTGCTGCTGCTGCTGCCGCCGACGT
TGCTGCCGCTGACGTTGCTGCTACCATTACTGTTGTCCGTGCTGATGTTC
TCGTCGCAAACAACAGTCTTCACGAAAAACAGAGGCCAACTGAAGACCAC
TCCTCCAACCCAGGCACAATTGATACAGCTGGCCTCGTCAGAGGTGCTTC
TTCCTGGAACCTGCTGTTTGGTCGTGCTGTCTCCGGTCTCTGTTGTCGCG
GCTGCTGTAATGCGGTGTATACGTCCCCGGTTGCGGCTTCCACGACCACT
CCACACGGAACCCAGGGCCCGGCGTCCAGGTCCAGCTTGACTGATTGGTC
GGCTGCGACGATGCGACTGCCATGTCTGGAGACGACGGTCGAGGTTCAGA
CCCCGCATCACCAACATCCGGCTCAGCGAGCTCGGCGGATAGCGCCGCCG
GTGCCAAATTCACATTATGCCTCTGCCGCAGGAGGCCTCGATGTGCGACA
TGCTCCGCCCGCGCGGCTCGATCCGCATGCCGTGCGGCTGCGACTTCTGC
TGCCGAGATCACCACAGCACGCATGGTGGCCCGTAATAAGAAGGCTGGAG
GCCTTGAACATCTGATGCTCTCTGGTGCCGTCAATCAAATTGTGATCGCA
AAACACCACCAGCGCGGGTTGGGAGCGCCTCACCAGCGCACACCCTCTTC
TCGCTACCTTCGTTTAGCGTCACACGAGCTTTTGACAACCGCGTAGCGGT
AATGACACCGAGAGTCACGATCATGTAGACAATATGTTCGAGAGAATCAG
GACTTGGGAGATTTGCAACCTCGGTCGCTGTCTGCTGAAACGCGGACAAC
ATTGTGTTGTGTACTTGATTCGATTTTACAGCGAAAACAGCGAAAAGCAC
CCACCGCATCTTGGACTAACACGGAGGTATTTCATGTTCTGAGTTCCATG
GAACCAATAGTTGTAGACAAAACACAAGAATTTTGCCCGATGACCAAGAG
GACCCTCGCTCACCGAACAACGCGTGATTGGGAGCAAGCCTTCGGAAAAT
TCACACCAAGTACTACGTACCAAATTGTTTGCGGCGATGTAATGTTGGAC
GGTATATTGGCAGATGATTGATTGACTCGATTGGTCGCTCATCACTTTGG
AACGAACGAATCCACACCAATGCTGCAGCGATGCGCCGTGAGTTGTGTGT
GTGAAACTTCTCCTGCGGTGGTCATGTAAGGCTGCGAGGCATCGATAGGC
TTGCGGAAAAAATTGCAGGCATCGATGACGTGTGAGAGACGAAGAAAGTT
CCGCCTGCGGGGGGCTGTTTAGGCATTTTATTATTTTTTCACAATCGATC
GATGCCTGCCAATTTGTTTTGCAAGCCTATCGATGCCCCTCGGCCTCAGA
TGACCACCACATCAGAGGAAGGACCAAAAACACAGCTCACGGGCGATGGC
TTTGGTACTGATATGCCTTCATTCGTACCAAAGTGATGGACGAAAATTCA
ATCTGGTGGCGGCGCGAAAATTCCTGCTGCTGCTGCCGTGTGCTGGTGCT
GTGGTCAAGAGCGCAGAGCGGGTGCCAGCTCTGGAGTTTGGATGTTAGTT
CATCGCCCTCGAGCGAACGAAGGCACTGCACTACCAGAGATGGCGATCCT
GAGCTGTGTGTGTGGTCCCTCTCGTGTGGTGGTCGTTTGAGGCTGCGAAG
CATCGATAGGCTAGCGAAAGATGTCTGTCGGCTGTCTCATATTTGAAGGC
TAACAAACGTTCGGTGTTCAAACTGATTTCAACTATACATTATTTCCTGA
TACGCGAATCGATCAGAAAAAACTTTCTGTCTTGACCTGGGCGATAAGAC
AAAGTAATGTACCAGAAAACTTCGGATCAGAAAAGGCCGTTTCTGATCCC
GTGAAATGCCCGACCTTTGCTCAAGATAAAAAAACACCTGTTCTGGTACT
GGCATTTCGACACGTGGGAAGTAGTCTCCGGCCGGGTCTTTGAGCCCCGA
ATTTTTCACACGGACTTTCTAAACGTTGTGGTCTACGCATCATGGGAAAC
ACAAAGAGCCCCCGCACAACACACAACCACAGCATCCTTCCCTCCTGGCC
GCCAAATCGCCGCCAAACCACCGAGGCTGTAAGCCTCATATCTCTGGGGT
TATTTGCACCTCGTTGCGATTTTCGGGCTTCTTGTGTCTGGATCGTGGTC
AATATATGTGTATGAGAACGAAACTCCGTGTGAAAATCCGTGTAAAAGGT
CACACGGATGTTGGGCCTAACATCCGTGTGATGCCGATGCACAAATTTAT
CACACGGATGCTTGCTCTTGCTGACATGGATATGAATCGATCATGCTCCA
CACACAAGGAGCCCACGACAATGGCATTTAGCTGCGAAGAAGCCCAGAGA
TGCGGAGCGTGCAATGTTTATTACTGATTAGCTGACAAAAGGAAAGCTGT
ATGTAGTGTGGTGTGCCATCAGTCTTCTTGTCGTGAAGGCGGCACCGGTT
TTGTACGAATGTCGACCATCCTTGGGAAATCTATGGGAAAATGATGATAT
TCGTATCCATAACATCCGGCCTCAGCAGTTTCTCACATATCCCTCTTGTA
CAGCCGGACGACATCACATTTGGTGCCTTAGTAACCCAGAACTTTAGAAA
AGCGCCAGAATCGTTCTATAAATCGAAAATCCCGCGGAAAGGCCCGCAGG
ACAACCTGCACGAGTGCGTCCACCATCCATCGTAGACCTCGGAGCAATTT
GTTTGAAGCATAGGTGCAAACAATCAGGCAGCGAACGACGGACCCGGCAC
TCCACTGCTGGACTTCACACTCAAAATCTCCACCCACGCAACATCTGGTG
ATCATCGCCAGATGTTTTGCATCACCCCCTCTTCCCATCAAATGATGTAC
GGCAAGATACATCGTTTATCACGGGGCAAGCGCAGAGTACCTGTCACACC
ACGATTTATTGTACCTCTAACGAGACACTCAACTTGCTCCAGGGTAAACA
TAAAGGGCTTGTATTGACTGCGTCCCTGCGTGCATGGTCGCGCTCAGTCT
CGCTATCATACATTTGCGTCACAAGCCAATTTCCCAACCGAGCTGACCCG
GCTGATCCTCTTGTTAACCACGTCATGTGTTTGTTCATCGACACGACGTG
CGGTCGGTGCCTGGACTGTACTTGCAATCGGTTGAATGCCAATACATGCC
TCTACCTGTGCCATACTCATGCCCGGGTTCTTGTACAAGACTGCATTAGG
CCCCGTATTGACACTGTTCAGGAAATAAACTTTTTGAAAATCGTCATTTG
GTTTGTGGTAATACACCGCGACCCATGCTACGGAGAAGGTAGGAAAAGTT
GCGGGAAGGCCTGTGAACGCCCTCAGGATACAACACCTCCGATGATGGCA
CGACGGGCAAATAGACCAATTTGGACAATAAAACATGTGTGTCCTCTCGC
ATCCATATAAGCAGCACAGGGAAGGGCCAAGCACCGTGTGGTCACCGGTC
ATGACTGCTGCCTCCCTCATAATTTTGAACAGATTCAGGCCGCGTCAGGT
TTCTCAAACACAAACCTGGTATCATACGTACGAAATATAAAATAACTGGT
AAAATAGCAGTACAGCAGCAAAGATATACGTACGTATGATACCCCGCACC
ACGCTATTTTCCAGTAGAAGACGCATCATATGCACGTATGCGAACCTACC
CATTGCGAAGTACTTCGGAGTATGTTGATAGATTGCTGCTGCTTTGTCGC
GGTCAACCACAATCTGTTGCAGCAAAAACCAAACAGAGCACTGCAGCATA
CTGATGATGCTGTGCATTATATTGAGAGCCACGGTCGTGGGCTCTGGGCA
TCAAGCCTGCATGCTGAGAGACACTCCGTTTGTGTATCTGTGCGGTGTGT
GTGTTGGTCCATGCACCCCAGAACTGCTGTACGTCTGTTTGCTGTGGGCC
ATCATACATTTATCTTTTTTAGAGGCGGCCTCTCGACCTGCCTGGCGTGT
CATGCAGACTGTGTGTGTTGTGGTACTGGCTTTGGCTTGCCTGGTGCAAA
TGCAAACCTCTGTGTGTCTTTCTGTGGATCTGTGTGTTGGTTCGGTATTT
CTTTCCTGCCTGTTCACCTGTGTGTGGTGCGTGAGGCAGATCGTTTGGAA
AGCATTCGATCGGATTAAGAACCCCAATTGTGATTTTGATTTTCTGGCAC
TGAAGTATTTTTGGATTTCTTGGGCCTGCCAGCGATCCCAGGAAAATCAT
TGGCGTCCTCGGGAGGTTTGAGAACGTCGACCAATCAGCCCGCTCTTGAT
TTTGAAAATTTCATTTTTTCAATTTTGATTTTCTGAACAGCAATGTATGT
ATGTTATTACAGGGCCTTACCCAAATACCTGGTGCTCTGTTTTTCGTTTT
TGCGATTTTCAAATTTTGATTTCCTGAACAGAGTGGCCTTGTCCAATTGC
CTGGTACTGTTTTCCGTTTTTGCGACTCAGGTTGTATGGGCGAAACACGG
ACTTCGGCCTCAACCCCCGTTTCCCGCACTGGTGTGGGACCCACGGTTCC
TCGACAAGAGCGATGTTTCCCACAGTTTGGCTGAGGTCGCGCATTCCACT
CTCGGCAGGTGCCACCTGGTGCGGCTGTATAACGCCCGCCAGGAGTTCAG
GGCCATGAAGTATTAGTGAGTTTCAATGTACCAGCCTCTCTCAAACGATG
CAGTTACTACGGCTGTTTGCGTAGTATATGGTTTCACTAGTGCTTTTTAC
AAGTCATGTGCACTTGGCACGAGCTGTTTGTGGCATTGTTGCCGTCAAGA
GCACGCTTGGGACCATCATGGTTTCCCTGCAAGCATTTAGCGTTTGACAT
GGCATGCATATTTGGTTTTGCGTACATACCCAAACACAGCCATTTACCAG
CAAGACAGGAACTCATACGTGCATATTGACCTTGGCGATGGGTGCATGTT
TTTTTGTATGTTCGTACGCACCAGTGTACGACTTGGCTTTAGACAAGGTG
AAAAGTATTTTAACTCGCTGTAGACATTTGGCTTTCATGCCGTTGAGTTA
TGAAACCTGTATGCAACGCACCCTGAGTTCTGCGTTGGCGTCCTTTTGGC
CGTGTTGTAGTCGTGTTAATTAGAGCTGCGTTTGCCGTTCTGGGGCTGTT
GTCTTTTTTGGATTAATGACCGTGCAGAAGCATCTCACCGTTCGACCCGG
AGAAGTTGCCTGTTTACTTGGAAGCTTTGACCGGGAAAAACAACAAATGG
AGTTTAGAAACGGCCCAGGATCTCAAGGACGGCACGCAGAAAGCCATCGA
CGCGTCCCTCCTTAGCAGGTCAGGTTATTACATAATAATGTAGGATACAA
GCTGCGAGCCCATCATTTGTGTTGGGCGATGCAAGAATGTGAGCATCATG
CGTTTTTCGCGAGTCGCTTTCCCGCTACGAGTGCAGTGTTGTGGACGTGC
GACCCCGCCCGTGCTCCAGAGTGCCATTCCGCACGACCATAGGGTACAGC
TGACCAAGGTTAGGAGGAGAAGCTTTCTCGTTGCGCAGGTTTTGCCGCTA
CTGCTTCGTCTAGTTATCAATGACGCGTGCAGATCGGCTAGACGTCGTGG
TCGCCCTCCGCACCCTAATTCAGCATCAGAGGCTCCCCTCTCGTCTGGTG
TTCATGTGTTTTGTTACTTGCTGTGGTCCTTCCGTCACACCTACAGAGCC
GAGAGACTGAAGACCATGCGCCAAATCGGGCGACATGATCTCTTCCGAAA
GCTCCGGGACCACAAAGGTGAATTTCCTTGCCTTGGGCATCTTCACGAGT
CCAAAAAGTCGGGCAAAGATGGCGAACGGGAAGGTATCACACCTCGAACG
ACACGATACTACCCAATTTTTTGCAGCGTTTGGGGTCGACTTCGTGAACA
GAGTAACGCTGTGACAGTGCGGTGCTGACGAACTAGTAGACTCTCACGTC
GAGGCGATAGGCTTCTGTGCAATGATATTCGGCACCGATACTGCATTCCA
GCAGTGGTGACATCTCCCACGCTTCGAGTGCGACACAGACTTGCGGTATT
GCATCAAACGCTCCAACAGCATATAGCACTAGGTGAACGTGTAGAGAAGA
TACCCACCTTGAACTCATGCTTTCACGGCACGGCGTGTCATTCAAATGAC
AACCCTGGGGTCAACAAACGCGAAGAATATGACACGCAACATCATTTAGT
TACTTTTTCTAGCACCACCTTCGGTAGAACGTAGTGTCACGAGATGTTAC
GGAGTTGTTAAACATCGTTACTTAATGTCGACACCAGGCGAGCGTTCTTC
TCAGCACGCATGGTATCGGAGCTTATTCGAATCTGCAAAAATCAGTGTTT
TACATGCGGCCTTCGAAACAATCATCACGCCCCGTTACCACTTGCTGCCA
CGTATCCCGCGATCACCGCTTGTCCTTCTTTGCCAATCGCACTTGCACAA
CGTAGCCCTGCTTGAAGCGGCAAAAGGAGGCGATGCGACGGCCATCATGA
ACCTCGTCGCTGCCGGCGCCGATGTGAACTTTCCACCGGAGGACGATTGC
ACTATGTCCATTCATCTCGCGGCCAAGGGAAACCACGTAGAGGCACTGCG
AGTTCTCCTCAAAGCTGGAGGAAGGACTGACCTGATGAGCTCTGACAGCG
AACCTCCCTTGCACATCGCCGCCAGGGCGGGTGCCATTGACACCGTCAAC
GTTTTACTAGATGAAGCTGGCTCAAGAGTGGACGCAACGGACCAATTTGG
TTGTCCAGCTTTGATAGCGGCGTTGGAGAAAAGGAACTTGCCGATTATCC
GAGCTCTCCTTTCGGCCGGTGCGGATCCGAATCACCTCGCTGAGGTGTGC
GACAACGGGGCCTTCACAGCGCTGCGCCTCGCTGTCGAGAGAGACTGCGT
GGATAGTATAAATCTCCTGATTTCGGCTGGTGCAAACCCCAACCGTCCGT
TCTACACCAGGCAGCTCGAAGGAGTCACTCCCGTGCACTGGGCCTGCCGT
CTCGCTCGCTCTGACTGCCTGGAGACACTCCTCCGCCGCGGGGGTGACCC
CTCGCGCGAAGAGGGCGGTGGGGTGTCTCTCTCCGACTACACGGCCAGGC
CCGCTGGCCTCAAGGCGTCGGATGTAGTCGGTGCAGGAAACCCGTGCGAG
CGGTCCTCCGAACTTTCGGATGAGAGAGCGGTCGTGCGAGAGCGCATTTT
CACCACTCTCCGTAGCGCTGAGGACAGGCGTTCGGGGTGGGGCCGCCGCA
AGACGTTGGTGATATTGCGGGCGCTGCGCGCTCGGGAACCTGAAGGTACC
CTGGTCGGCGGCACAGAGGAGAAATGCGAAGAGCATCGGGAGTCTGCGTT
GGAAGCGCTGCAAGCCGTGTGGGAGCGGCAAAAAATCGTCGCGGAGGATA
GACGCCAGCTGTTTGCTGCGGTCAAGCACAGCCGAATGGCGGCCCGAAAG
CTTGGGGTAGCCTTCAATGAGCTGAACACCCGCCGCTTCCGCCCACCGAT
GCTGAGTCTTCAGGGAGAGGACCTGGCGATAGCAGAGAAGAAACTCCAAG
AGGATTTTGACGCATTTTCGAACGCTGAACCAGAGCCGAGGCTCGACGAA
ATTGGAATTCGTCGCAAGTTAGTCCGAAACAGAGAACTGCGGCAAGTGGC
CAACGAGGAACGCGGGCGGGCAGTTGATCTGGAGCGGCGCGGCATTTTGG
AGCGCTTGACGAGGCACAATAGTGGATCTTTGCCTGCTGCGATTTTCCAG
ATGGTTATGACCTACATTTGAGTGGTGCATTCGGGTTGCCAGCGTCGAGC
TTCTACCTTGGGTGTTTGATAGCGAGGTGTGGTGTATACACAGAGTTGGG
CGCTGTTGATGGCTTATTTTGTTGCAATGACGGGGAAATCTCAAGGGGAC
CACACGGCCGTCGACTCCACCTAACTAGCTAGCTTTGTTTTTTACATGTT
ACCATGCACGTGTGCATTGTTTTGAGACTATGGGCTCTTGATGGTGTTGG
AAATACTGAGCTCATGCGTGGGGTTGCGAGATGGAGGTTCAAATTCGGAC
ATCCTTGCATACCGCCGTAGTAGTTCCTGCCGCGTCTGCGCTCAATCACT
TCCTAGCTACCAACCGCCGAGGGCTCGTTGACATAAAACGATA
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Coding sequence (CDS) from alignment at P-littoralis_Contig117:124303..137045-

>mRNA_P-littoralis_Contig117.42.2 ID=mRNA_P-littoralis_Contig117.42.2|Name=mRNA_P-littoralis_Contig117.42.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1368bp|location=Sequence derived from alignment at P-littoralis_Contig117:124303..137045- (Pylaiella littoralis U1_48)
ATGCGCCAAATCGGGCGACATGATCTCTTCCGAAAGCTCCGGGACCACAA
AGCCCTGCTTGAAGCGGCAAAAGGAGGCGATGCGACGGCCATCATGAACC
TCGTCGCTGCCGGCGCCGATGTGAACTTTCCACCGGAGGACGATTGCACT
ATGTCCATTCATCTCGCGGCCAAGGGAAACCACGTAGAGGCACTGCGAGT
TCTCCTCAAAGCTGGAGGAAGGACTGACCTGATGAGCTCTGACAGCGAAC
CTCCCTTGCACATCGCCGCCAGGGCGGGTGCCATTGACACCGTCAACGTT
TTACTAGATGAAGCTGGCTCAAGAGTGGACGCAACGGACCAATTTGGTTG
TCCAGCTTTGATAGCGGCGTTGGAGAAAAGGAACTTGCCGATTATCCGAG
CTCTCCTTTCGGCCGGTGCGGATCCGAATCACCTCGCTGAGGTGTGCGAC
AACGGGGCCTTCACAGCGCTGCGCCTCGCTGTCGAGAGAGACTGCGTGGA
TAGTATAAATCTCCTGATTTCGGCTGGTGCAAACCCCAACCGTCCGTTCT
ACACCAGGCAGCTCGAAGGAGTCACTCCCGTGCACTGGGCCTGCCGTCTC
GCTCGCTCTGACTGCCTGGAGACACTCCTCCGCCGCGGGGGTGACCCCTC
GCGCGAAGAGGGCGGTGGGGTGTCTCTCTCCGACTACACGGCCAGGCCCG
CTGGCCTCAAGGCGTCGGATGTAGTCGGTGCAGGAAACCCGTGCGAGCGG
TCCTCCGAACTTTCGGATGAGAGAGCGGTCGTGCGAGAGCGCATTTTCAC
CACTCTCCGTAGCGCTGAGGACAGGCGTTCGGGGTGGGGCCGCCGCAAGA
CGTTGGTGATATTGCGGGCGCTGCGCGCTCGGGAACCTGAAGGTACCCTG
GTCGGCGGCACAGAGGAGAAATGCGAAGAGCATCGGGAGTCTGCGTTGGA
AGCGCTGCAAGCCGTGTGGGAGCGGCAAAAAATCGTCGCGGAGGATAGAC
GCCAGCTGTTTGCTGCGGTCAAGCACAGCCGAATGGCGGCCCGAAAGCTT
GGGGTAGCCTTCAATGAGCTGAACACCCGCCGCTTCCGCCCACCGATGCT
GAGTCTTCAGGGAGAGGACCTGGCGATAGCAGAGAAGAAACTCCAAGAGG
ATTTTGACGCATTTTCGAACGCTGAACCAGAGCCGAGGCTCGACGAAATT
GGAATTCGTCGCAAGTTAGTCCGAAACAGAGAACTGCGGCAAGTGGCCAA
CGAGGAACGCGGGCGGGCAGTTGATCTGGAGCGGCGCGGCATTTTGGAGC
GCTTGACGAGGCACAATAGTGGATCTTTGCCTGCTGCGATTTTCCAGATG
GTTATGACCTACATTTGA
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