mRNA_P-littoralis_Contig182.62.2 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig182.62.2
Unique Name	mRNA_P-littoralis_Contig182.62.2
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot
Match: D8LLY4_ECTSI (MSP domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LLY4_ECTSI)

HSP 1 Score: 439 bits (1129), Expect = 1.140e-147
Identity = 233/302 (77.15%), Postives = 255/302 (84.44%), Query Frame = 1

Query:   55 MAAQEALFALECLPSKILQFALEDGADPTECKLHLTNNGSESVAFKVKTTKPKRYLVRPNQGVIAPTENLEVSIVLLAQDKVGLIAEYRQTGGCNETNKFMVQALPLQGADASS-TVHPNFWEEAKGRVQQKKLVVSFTFPRLTAPSSTTDSLREASNGIRGAVAA---------GGEKGLQSG---DGSDMSQDQMWLQTTELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDLQREQQARKSLETKMMEPGARRPASSVIGT--PSESGSGFSLFFVLVVAVLALFAGQWTAANGYPLM 915
            MAAQ+ALFALECLPSK+L FALEDGA+P EC LHLTNNGSESVAFKVKTTKPKRYLVRPNQGV+AP+E+L VSIVLLA DKVGLI+E+ QTGGCNETNKFMVQALPLQG  A++  V P  W+EAK RVQQKKLVV FTFPR + P S+ ++L++ASNG+R A+A          G E GLQ G   DGSDMSQDQMW Q  ELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDL REQQARK LETKMMEPGARRPA SV G+  PSES SGFSLFFVL+VA LALFAGQWTAANGYPL+
Sbjct:    1 MAAQDALFALECLPSKVLDFALEDGAEPAECVLHLTNNGSESVAFKVKTTKPKRYLVRPNQGVVAPSEDLPVSIVLLAHDKVGLISEFMQTGGCNETNKFMVQALPLQGESATAGAVPPGLWKEAKARVQQKKLVVHFTFPRPSIPPSSAETLKQASNGVRDAIAGDSSRSRFATGTEDGLQGGAGGDGSDMSQDQMWAQAAELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDLAREQQARKLLETKMMEPGARRPAGSVAGSTSPSESRSGFSLFFVLIVAALALFAGQWTAANGYPLL 302

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BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot
Match: A0A7S2RAX6_9STRA (Hypothetical protein n=1 Tax=Eucampia antarctica TaxID=49252 RepID=A0A7S2RAX6_9STRA)

HSP 1 Score: 136 bits (342), Expect = 1.200e-31
Identity = 103/303 (33.99%), Postives = 154/303 (50.83%), Query Frame = 1

Query:   76 FALECLPSKILQFALEDGA----------DPTECKLHLTNNGS--ESVAFKVKTTKPKRYLVRPNQGVIAPTENLEVSIVLLAQDKVGLIAEYRQTGGC---NETNKFMVQAL--PLQGADASSTVHPNFWEEAKGRVQQKKLVVSFTFPRLTAPSSTTDSLREASNGIRGAVAAGGEKGLQSGDG----------SDMSQDQMWLQTTELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDLQREQQARKSLETKMMEPGARRPASSVIGTPSESGSGFSLFFVLVVAVLALFAGQWTAANG 903
            +ALE  P   LQF L  G               C + L + G   E +AFKVKTT+P+RYLVRPNQGV+AP    +V+I+L+ +DK  L+  Y + G     +  +KF+VQ+   P   A    +   +  ++++G    K+L  S T    +A         +  + +   V+       + G+            +MS DQ++ + + LRRKYD+LVSF++NLTAE+D++  +L  TK DL RE  A+ +LE K +  GAR       G P +S  GFSLF V+ VA+     G   A +G
Sbjct:    6 YALEISPDSTLQFTLTRGTANDGRSTVGESTPRCTMSLRHPGKTKEHLAFKVKTTQPRRYLVRPNQGVVAPGTTEKVTILLVEKDKQILLQSYDRLGQTALDHSKDKFLVQSCTTPDDFASRYMSAKADSTDDSEGNRATKELAESLTTMWNSAAGGDLPIYNKKLH-VHHVVSPSDSASAKGGNAPQPLEEKPSMENMSPDQIYAEVSSLRRKYDELVSFSVNLTAERDILNNTLEQTKRDLNRETMAKAALENKGLI-GARSK-----GVPKQSSRGFSLFSVIFVALTFTLLGIKGATSG 301

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BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot
Match: A0A6U6EE94_9STRA (Hypothetical protein n=2 Tax=Odontella aurita TaxID=265563 RepID=A0A6U6EE94_9STRA)

HSP 1 Score: 127 bits (318), Expect = 2.270e-28
Identity = 107/313 (34.19%), Postives = 154/313 (49.20%), Query Frame = 1

Query:   79 ALECLPSKILQFALEDGAD----------PTE-CKLHLTNNG--SESVAFKVKTTKPKRYLVRPNQGVIAPTENLEVSIVLLAQDKVGLIAEYRQTGGC---NETNKFMVQALPLQGADASSTVHPNFWEE------AKGRVQQKKLVVSFT-------------------FPRLTAPSSTTDSLREASNGIRGAVAAGGE----KGLQSGDGSDMSQDQMWLQTTELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDLQREQQARKSLETKMMEPGARRPASSVIGTPSESGSGFSLFFVLVVAVLALFAG 882
            ALE  P   LQF L   A+          PT  C + L + G  SE +AFKVKTT+P+RYLVRPNQGV+AP     VSI+L+ +DK  L+  Y + G     +  +KF+VQ+  +    AS  +      +      AK     K++  S T                     R   P S  D++ + + G   A A        +  Q  +  +M+ +QM+ + + LRRKYD+LVSF++NLTAE+D++  +L  TK DL RE  AR +LE      GA           S+  +G S+  +LVVA++ LFAG
Sbjct:    9 ALEVTPESALQFTLTRTAENSASASSSNEPTSRCTMTLRHTGGTSEHLAFKVKTTQPRRYLVRPNQGVVAPNSTETVSILLVERDKQILLHSYDRLGQSALDHSKDKFLVQSCAVTDDFASRYMDERSKAKKIDDSGAKASGMSKEMADSLTSMWNAVASGGSVPIFNKKLHVRHVVPKS--DNVTQRAVGDLSATAVSKSPPALQETQKTNVENMTPEQMFTEISSLRRKYDELVSFSVNLTAERDILNNTLEQTKRDLNREMAARAALENSGAGGGAGTKHEK-----SKGATGLSILQILVVALVFLFAG 314

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BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot
Match: K0R3I0_THAOC (MSP domain-containing protein n=1 Tax=Thalassiosira oceanica TaxID=159749 RepID=K0R3I0_THAOC)

HSP 1 Score: 123 bits (309), Expect = 3.200e-27
Identity = 105/311 (33.76%), Postives = 157/311 (50.48%), Query Frame = 1

Query:   76 FALECLPSKILQFALEDGAD----PTECKLHLTN-----NGSESVAFKVKTTKPKRYLVRPNQGVIAPTENLEVSIVLLAQDKVGLIAEYRQTGGC---NETNKFMVQALPLQGADASSTVHPNFWEEAKGRVQQ--KKLVVSFT--FPRLTAPSSTTDSLRE---------ASNGIRGAVAAGGEKGLQSGDG-------------SDMSQDQMWLQTTELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDLQREQQARKSLETKMMEPGARRPASSVIGTPSESGSGFSL-FFVLVVAVLALFAGQWT 891
            +AL   P   LQF L   AD     + C + LT+      G   +AFKVKTT+P+RYLVRPNQG++AP  +  VSI+L+ +D+  L A Y + G     +  +KF+VQ+  +    A+      F  E++G   Q  K+LV + T  + + T+  S      +          S G  G  AA       SG G               MS DQ+  + + LRRKYD+LV+F++NLTAE+D++  +L  TK DL RE   R +LE + ++ G+R  +     T S    G+SL   +L VA+  +F+ + T
Sbjct:    6 YALSISPDSALQFNLTPDADNGDGASRCIMTLTHPRKDGKGGGYLAFKVKTTQPRRYLVRPNQGIVAPGSSETVSILLVDKDRQQLRATYNRLGQSALDHSKDKFLVQSCAVPDDFAAQ-----FKNESRGEGGQYKKELVDALTSMWNKATSGGSEISVFNKKLHVKHSVGGSAGSGGTPAASASSPXSSGGGLPATFDSGKRNNADKMSPDQLQDEVSSLRRKYDELVAFSVNLTAERDILNNTLEQTKRDLNRESATRTALEKQGLKVGSRSAS-----TRSGEAGGYSLKTLLLFVAMTFVFSVKGT 306

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BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot
Match: A0A7R9WSF8_9STRA (Hypothetical protein n=1 Tax=Craspedostauros australis TaxID=1486917 RepID=A0A7R9WSF8_9STRA)

HSP 1 Score: 121 bits (303), Expect = 1.140e-26
Identity = 87/242 (35.95%), Postives = 127/242 (52.48%), Query Frame = 1

Query:   70 ALFALECLPSKILQFALEDGADPTECKLHLTNNG--SESVAFKVKTTKPKRYLVRPNQGVIAPTENLEVSIVLLAQDKVGLIAEYR---QTGGCNETNKFMVQALPLQGADAS-----STVHPNFWEEAKGRVQQKKLVVSFTFPRLTAPSSTTD-SLREASNGIRGAVAAGGEKGLQSGDGSDMSQDQMWLQTTELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDLQREQQARKSLETK 762
            +L +LE  P   L F L      +   L L + G   + +A+K+KTT+P+RYLVRPNQG+IAP  +  VSI+L+ +DK  L+  Y    QTG  +  +KF+VQ+  +  A +S     ST            V  K    S +  ++       D S    +NG +    +   +     +   MS DQ+  + T LRRKYDDLVSF++NLTAE+D++  +L  TK D  REQ  R +LE+K
Sbjct:    3 SLNSLEITPDTYLDFNLAPNELTSRTTLTLRHPGHTDDHIAYKIKTTQPRRYLVRPNQGMIAPGGSDTVSILLIEKDKQILLQSYEKLGQTGLDHSKDKFLVQSCVVSSAFSSKLTKDSTELYEALTSMWNSVSNKDSQASVSHRKMHVRHQVVDNSPTSPANGSKTVAKSFKREASSQANVDTMSTDQLKSELTNLRRKYDDLVSFSMNLTAERDILSNTLEQTKRDYNREQATRSALESK 244

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BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot
Match: A0A7S4QY17_9STRA (Hypothetical protein n=2 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S4QY17_9STRA)

HSP 1 Score: 121 bits (303), Expect = 2.990e-26
Identity = 95/298 (31.88%), Postives = 140/298 (46.98%), Query Frame = 1

Query:   76 FALECLPSKILQFAL-----------EDGADPTECKLHLTNNGS--ESVAFKVKTTKPKRYLVRPNQGVIAPTENLEVSIVLLAQDKVGLIAEYRQTGGC---NETNKFMVQALPLQGADASSTVHPNFWEEAKGRVQQKKLVVSFTFPRLTAPSSTTDS-------------LREASNGIRGAVAAGGEKGLQSGDGSDMSQDQMWLQTTELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDLQREQQARKSLETKMMEPGARRPASSVIGTPSESGSGFSLFFVLVVAVLALFAG 882
            +ALE  P   LQF L              A  T C + L + G   + +AFKVKTT+P+RYLVRPNQG++AP     VSI+L+ +DK  L+  Y + G     +  +KF+VQ+       AS        +E K    +    ++     L   +ST+               + E  +G     A             +MS +QM+ + + LRRKYD+LV+F++NLTAE+D++  SL  TK DL RE  A+K+L+      G     S  I      G   S+  V+V+A+    AG
Sbjct:   10 YALEVTPESALQFTLTRTPASAAENSSTDAGVTRCTMTLRHPGKTGQHLAFKVKTTQPRRYLVRPNQGIVAPNSTETVSILLVEKDKQILLQSYDRLGQSALDHSKDKFLVQSCAAPDEFASLYDKEKRGDEQKSDGYKTSKEMAEKLTSLWDKTSTSGESPVFNKKLHVRHVVMEIKSGTPDPTAQVPTTRSDKTPVENMSPEQMFSEVSSLRRKYDELVAFSVNLTAERDILNNSLEQTKRDLNREIAAKKTLQEAA---GGASADSRSIARGDTGGFSLSVVQVMVIAIACFLAG 304

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BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot
Match: A0A7S0UGK8_9STRA (Hypothetical protein n=1 Tax=Pseudo-nitzschia delicatissima TaxID=44447 RepID=A0A7S0UGK8_9STRA)

HSP 1 Score: 120 bits (300), Expect = 3.040e-26
Identity = 86/242 (35.54%), Postives = 127/242 (52.48%), Query Frame = 1

Query:   94 PSKILQFALEDGADPTECKLHLTNNG--SESVAFKVKTTKPKRYLVRPNQGVIAPTENLEVSIVLLAQDKVGLIAEYR---QTGGCNETNKFMVQALPLQGADASSTVHPN---------FWEEAKGR-----VQQKKLVVSFTFPRLTAPSSTTDSLREASNGIRGAVAAGGEKGLQSGDGSDMSQDQMWLQTTELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDLQREQQARKSLETK 762
            P   L F+L        C + L + G  +ES+AFKVKTT+P+RYLVRPNQG+IAP  +  +SI+L+ +DK  L+  Y    Q+G  +  +KF+VQ+     + A+                W           +Q KKL V        AP+++     +A++  +  + A     L      DMS DQ+  + + LRRKYD+LVSF++NLTAE+D++  +L  TK D  RE  AR +LE K
Sbjct:   10 PESELVFSLSPNEATPRCMMTLKHGGGSTESIAFKVKTTQPRRYLVRPNQGLIAPGTSETISILLVEKDKQVLLQNYDRLGQSGLDHSKDKFLVQSCAADSSLAAKKSGSQTELYDALTAMWNSVTSGGSSTPLQNKKLHVRHVVDSSPAPATS-----DAASTPKPKLEAASHSNL-----GDMSADQISSELSNLRRKYDELVSFSVNLTAERDILSNTLEQTKRDYNREIAARSALENK 241

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BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot
Match: A0A1Z5K8X9_FISSO (Vesicle-associated membrane protein-associated protein A n=2 Tax=Fistulifera solaris TaxID=1519565 RepID=A0A1Z5K8X9_FISSO)

HSP 1 Score: 117 bits (292), Expect = 2.550e-25
Identity = 91/277 (32.85%), Postives = 141/277 (50.90%), Query Frame = 1

Query:   82 LECLPSKILQFALEDGADPTECKLHLTNNGSES--VAFKVKTTKPKRYLVRPNQGVIAPTENLEVSIVLLAQDKVGLIAEYRQTGGCN---ETNKFMVQALPLQGADASSTVHPNFWEEAKGRVQQKKLVVSFTFPRLTAPSSTTDSLREASNGIRGAVAAGGEKGLQSGDGS------------DMSQDQMWLQTTELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDLQREQQARKSLETKMMEPGARRPASSVIGTPSESGSGFSLFFVLVVA 861
            L+  P   LQF L +      C L L +  + S  +AFKVKTT+P+RYLVRPNQG+I P     V I+L+ ++K  L+  Y + G        +KF+VQ++ +   DAS       ++E          + S       +PS++T ++      ++  VA  G K   SGDG+            +++QDQ   + T +RRKYD+LV+F++NLTAE+D++  +L  TK DL RE     + +      G  R A +    P+ +G  F L F+L +A
Sbjct:   13 LDLNPDSTLQFTLSNQEQSPSCSLELRHPDASSAPIAFKVKTTQPRRYLVRPNQGLIEPGGAQTVQILLVEKEKNSLLQSYERLGQPTLDQSKDKFLVQSVAI--LDASKLASLKDYDE----------LTSLWATVGNSPSTSTSAVANKKLHVKHVVA--GNKKSGSGDGAHGNSSISREPIENLTQDQAKAELTNMRRKYDELVAFSVNLTAERDMLNNTLEQTKRDLNRELSKTAAQDNAS---GRGRAAGNGSAKPN-AGVTFVLVFLLSMA 271

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BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot
Match: A0A1E7FVV3_9STRA (MSP domain-containing protein n=1 Tax=Fragilariopsis cylindrus CCMP1102 TaxID=635003 RepID=A0A1E7FVV3_9STRA)

HSP 1 Score: 116 bits (290), Expect = 4.710e-25
Identity = 79/213 (37.09%), Postives = 115/213 (53.99%), Query Frame = 1

Query:  175 ESVAFKVKTTKPKRYLVRPNQGVIAPTENLEVSIVLLAQDKVGLIAEYR---QTGGCNETNKFMVQALPLQGADASSTVHPN---------FWEE-----AKGRVQQKKLVVSFTFPRLTAPSSTTDSLREASNGIRGAVAAGGEKGLQSGDGSDMSQDQMWLQTTELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDLQREQQARKSLETK 762
            E +AFKVKTT+P+RYLVRPNQG+IAP  +  +SI+L+ +DK  L+  Y    Q+G  +  +KF+VQ+  +    A+  +             W       +   +Q KKL V       T+PS    S    S G+   +        Q  +  +MS DQ+  + + LRRKYD+LVSF++NLTAE+D++  +L  TK D  RE  AR +LE K
Sbjct:   11 EFIAFKVKTTQPRRYLVRPNQGLIAPGTSETISILLVEKDKQALLQSYERLGQSGLDHSKDKFLVQSCTVDKTFAAKKLGSQTDLYDALTTMWNSVTSGGSSAALQNKKLHVRHIVS--TSPSLAGTSNTSGSKGVAPRLET-----TQHSNMVEMSADQISSELSNLRRKYDELVSFSVNLTAERDILSNTLEQTKRDYNREMAARSALENK 216

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BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot
Match: A0A7S3LDL8_9STRA (Hypothetical protein n=1 Tax=Amphora coffeiformis TaxID=265554 RepID=A0A7S3LDL8_9STRA)

HSP 1 Score: 114 bits (284), Expect = 3.070e-24
Identity = 92/283 (32.51%), Postives = 142/283 (50.18%), Query Frame = 1

Query:   82 LECLPSKILQFALEDGADPTECKLHLTNNGSE--SVAFKVKTTKPKRYLVRPNQGVIAPTENLEVSIVLLAQDKVGLIAEYRQTGGC---NETNKFMVQALPLQGADASSTVH----PNFWEEAKGRVQQKKLVVSFTFPRLTAPSSTTDSLREASNGIRGAVAAGGEKGLQSGDGSDMSQDQMWLQTTELRRKYDDLVSFTINLTAEKDLIQRSLGATKEDLQREQQARKSLETKMMEPGARRPASSVIGTPSESGSGFSLFFVLVVAVLALFAGQWTAANG 903
            +E  P   ++F L  G    +  + L + G    SVAFKVKTT+P+RYLVRPNQG+I   +  EV I+L+ +DK  L   + + G     N  +KF+VQ+  L+ +D+ S         FW          KL  +   P L   S+   ++        G+   GG   + +G G++   +QM       ++KYD+LV+F++NLTAE+D++  +L  TK DL R   A+ + +         R   S  G+     SGFS F VL+VA++   AG ++ A G
Sbjct:    6 VEISPESEIKFELSSGEATPKAVITLKHPGGSAGSVAFKVKTTQPRRYLVRPNQGIITAGKTEEVQILLVEKDKNSLYQSFLRLGQAALDNCKDKFLVQSTFLRPSDSLSAGDYDGLTEFWT---------KLASNPNDPSLPPISNKKLTVIHTGISSEGSTERGGT--VPAGAGAETELEQM-------KKKYDELVAFSVNLTAERDVLNNTLEQTKRDLNR-YMAKAAAKDNSGGAAGERSVGSTGGS-----SGFSFFTVLMVALIFWLAGCYSQAQG 264

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot

BLAST of mRNA_P-littoralis_Contig182.62.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LLY4_ECTSI	1.140e-147	77.15	MSP domain-containing protein n=2 Tax=Ectocarpus T...	[more]
A0A7S2RAX6_9STRA	1.200e-31	33.99	Hypothetical protein n=1 Tax=Eucampia antarctica T...	[more]
A0A6U6EE94_9STRA	2.270e-28	34.19	Hypothetical protein n=2 Tax=Odontella aurita TaxI...	[more]
K0R3I0_THAOC	3.200e-27	33.76	MSP domain-containing protein n=1 Tax=Thalassiosir...	[more]
A0A7R9WSF8_9STRA	1.140e-26	35.95	Hypothetical protein n=1 Tax=Craspedostauros austr...	[more]
A0A7S4QY17_9STRA	2.990e-26	31.88	Hypothetical protein n=2 Tax=Ditylum brightwellii ...	[more]
A0A7S0UGK8_9STRA	3.040e-26	35.54	Hypothetical protein n=1 Tax=Pseudo-nitzschia deli...	[more]
A0A1Z5K8X9_FISSO	2.550e-25	32.85	Vesicle-associated membrane protein-associated pro...	[more]
A0A1E7FVV3_9STRA	4.710e-25	37.09	MSP domain-containing protein n=1 Tax=Fragilariops...	[more]
A0A7S3LDL8_9STRA	3.070e-24	32.51	Hypothetical protein n=1 Tax=Amphora coffeiformis ...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig182	contig	P-littoralis_Contig182:219552..237953 +

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
Pylaiella littoralis U1_48 OGS1.0	2022-07-08

Properties


Property Name	Value
Stop	1
Start	1
Seed ortholog	2880.D8LLY4
PFAMs	Ank_2,Ank_4,Motile_Sperm
Model size	1955
Max annot lvl	2759\|Eukaryota
KEGG ko	ko:K06096
KEGG Pathway	ko04979,map04979
Hectar predicted targeting category	other localisation
Exons	12
Evalue	4.13e-153
EggNOG OGs	COG5066@1\|root,KOG0439@2759\|Eukaryota
Ec32 ortholog description	MSP domain
Ec32 ortholog	Ec-14_002110.1
Description	FFAT motif binding
Cds size	978
COG category	U
BRITE	ko00000,ko00001,ko04131

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1680789879.1092236-UTR-P-littoralis_Contig182:219551..219605	1680789879.1092236-UTR-P-littoralis_Contig182:219551..219605	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig182 219552..219605 +
1680789879.2400076-UTR-P-littoralis_Contig182:237030..237953	1680789879.2400076-UTR-P-littoralis_Contig182:237030..237953	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig182 237031..237953 +

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


Feature Name	Unique Name	Species	Type	Position
1680789879.1235323-CDS-P-littoralis_Contig182:219605..219653	1680789879.1235323-CDS-P-littoralis_Contig182:219605..219653	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 219606..219653 +
1680789879.1320198-CDS-P-littoralis_Contig182:225065..225107	1680789879.1320198-CDS-P-littoralis_Contig182:225065..225107	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 225066..225107 +
1680789879.1406696-CDS-P-littoralis_Contig182:225568..225639	1680789879.1406696-CDS-P-littoralis_Contig182:225568..225639	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 225569..225639 +
1680789879.149804-CDS-P-littoralis_Contig182:226483..226567	1680789879.149804-CDS-P-littoralis_Contig182:226483..226567	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 226484..226567 +
1680789879.1596055-CDS-P-littoralis_Contig182:227247..227350	1680789879.1596055-CDS-P-littoralis_Contig182:227247..227350	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 227248..227350 +
1680789879.1703334-CDS-P-littoralis_Contig182:227983..228097	1680789879.1703334-CDS-P-littoralis_Contig182:227983..228097	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 227984..228097 +
1680789879.1802533-CDS-P-littoralis_Contig182:228568..228642	1680789879.1802533-CDS-P-littoralis_Contig182:228568..228642	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 228569..228642 +
1680789879.190347-CDS-P-littoralis_Contig182:230120..230211	1680789879.190347-CDS-P-littoralis_Contig182:230120..230211	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 230121..230211 +
1680789879.20041-CDS-P-littoralis_Contig182:231371..231453	1680789879.20041-CDS-P-littoralis_Contig182:231371..231453	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 231372..231453 +
1680789879.2115276-CDS-P-littoralis_Contig182:231854..231919	1680789879.2115276-CDS-P-littoralis_Contig182:231854..231919	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 231855..231919 +
1680789879.22074-CDS-P-littoralis_Contig182:235849..235935	1680789879.22074-CDS-P-littoralis_Contig182:235849..235935	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 235850..235935 +
1680789879.2299986-CDS-P-littoralis_Contig182:236912..237030	1680789879.2299986-CDS-P-littoralis_Contig182:236912..237030	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig182 236913..237030 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig182.62.2	prot_P-littoralis_Contig182.62.2	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig182 219606..237030 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig182:219552..237953+
coding sequence from alignment at P-littoralis_Contig182:219552..237953+

protein sequence of mRNA_P-littoralis_Contig182.62.2

>prot_P-littoralis_Contig182.62.2 ID=prot_P-littoralis_Contig182.62.2|Name=mRNA_P-littoralis_Contig182.62.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=326bp
MAAQEALFALECLPSKILQFALEDGADPTECKLHLTNNGSESVAFKVKTT
KPKRYLVRPNQGVIAPTENLEVSIVLLAQDKVGLIAEYRQTGGCNETNKF
MVQALPLQGADASSTVHPNFWEEAKGRVQQKKLVVSFTFPRLTAPSSTTD
SLREASNGIRGAVAAGGEKGLQSGDGSDMSQDQMWLQTTELRRKYDDLVS
FTINLTAEKDLIQRSLGATKEDLQREQQARKSLETKMMEPGARRPASSVI
GTPSESGSGFSLFFVLVVAVLALFAGQWTAANGYPLMCTLVRWRRWRAGR
LPRANEMYLLLGAKTRRAGKCSWKC*

mRNA from alignment at P-littoralis_Contig182:219552..237953+

Legend: UTRpolypeptideCDS

Hold the cursor over a type above to highlight its positions in the sequence below.

>mRNA_P-littoralis_Contig182.62.2 ID=mRNA_P-littoralis_Contig182.62.2|Name=mRNA_P-littoralis_Contig182.62.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=18402bp|location=Sequence derived from alignment at P-littoralis_Contig182:219552..237953+ (Pylaiella littoralis U1_48)
GGGGCAGCGCGAGAAGTGCAAGTGTTGCGACTGGAGCGAAGGAAGGAGAC
GAACATGGCTGCTCAAGAGGCTCTCTTCGCGCTGGAGTGCCTTCCTTCGA
AGGTGTGAGACGGCTAGCCAGAGCTTCACATCATTGTTGTGCTTTGGGAG
TCGGCAGTGCGGAGGTGTTGTCTCTCCGTTTTTGAACAGTAATAATATCA
TTTGATTTAGATAGGTGAGGACACACACAGCACCTGCGCAGCAGACCTGC
TGCTGCTGCCCTCCTCCCGGACCCTCGCCGCTTGCGGTTGTAGGGGCGGC
CACAGAAGTAGCAGCCAGGGCGAGACGATTAGTGTTTATTGTCGGGAAGG
GGGGGGCGGCACAGTAGTGAAGCAGTACACCCAAGCCAAAGCCAGCCAAA
TAAGAGAATACTGTACCGGTAGGTTGGTGCTCCCTTCGATGATTTTTAAA
ATCATCGAAGGGAGCACCCAAGGGCTTGCACGGGACACAATGGGACGGGA
GTCCCGTTGAAAAGGGGACGGGATGGGACGGGACGTCCCATCCCACAGTG
AAATACGTGCGGCCCGTCCCACCCCGGCACCATCCCACCGTGAGTTTCTG
CCCCACTTGCTCCCACATTACCTACATAATTTCGCTCCCGTCCCACCTAC
GTCCCGTCCCACCACTAGCACAGCCAGTCCCGTCCCAAGCCCGTTGTGAA
CGGAGCTACTCCCGTCCCATGTGTACTGTGGGCTCAAGACTTCCCGTCCG
AGATGCTCTACGATGTCCCGCAGGAGACACACACACACACCCAACAAAGA
ATAAAGAATCAATTGTAAAATCTAAAATATTTTTATTTCGAAATAGTTCT
ATTGAAGAATCTCGAATTGCGGCGCCAGTGCCTCAGCTGACTAGGATGGA
AAAGATAAGGCTGGCTCAGAACGCAAAGATCGCCCGGCCGAATACCGCCA
GCTCTGCTGTCCGCGAGACGCGAAGGGCTGCCGCACAACGGGAGTACGCC
GAGTACATGAACACACACACACACCCAACAAAGAATAAAGAATCAATTGT
AAAATCTAAAATATTTTTATTTCGAAATAGTTCTATTGAAGAATCTCGAA
TTGCGGCGCCAGTGCCTCAGCTGACTAGGATGGAAAAGATAAGGCTGGCT
CAGAACGCAAAGATCGCCCGGCCGAATACCGCCAGCTCTGCTGTCCGCGA
GACGCGAAGGGCTGCCGCACAACGGGAGTACGCCGAGTACATGAAGGAGG
CAGCTCTCACTGACACCGACCCCACTTTCACTGCCCTAGAGTACTGGAAG
CCGCGGGCAGTTGATGGGCTCGACAAATCGGGGAACGTTGTCGCTCCTGC
CCGCTGGCCGCATGTTGGCTTGATAGCGCGGTTGCACCTAGGCGTTGATG
CAACCAGTTGCCAAGCGGAAAGGAATTTTTCCGCCCTCAAGTTGATCGTT
AGCGACCTACGTGCGAACACTTCCCCCGCCAAGGTTGAGAAGACTATTTT
TCTTAGGCTTAACAAGCACCTTATCCCCGGGCTAGGGAAGGCGTTGAGGG
ATTGGGATGCCTTGCAGGCTGAGCGGAAGGCGCAGAAAGAAGCAGCAGCT
AACGCTAAGAACGCTGCGGCAGGTGGCGCGGGTGTTACCCCTGATGCAGT
TTTGTAGGAGCGAGACTTCGTTCATGTCTATTTGCAATCTAGGTTTGCGT
TATTCTTTTTGATTCTTCTCTTCGTTTGTCGTCTACTCCCTCGGTGGCGT
CTACTTCGGTTGGGGAGCCATCAAAGGTGCATTCGTGCACTCATCTGAAA
CTCAGTTGACACACCTGCTACAAACACGATATCTGCTTTTTCGTTCGGAG
CTGGTTGGTTTTCAAACCATGGCTTGCACGGGGCAAGCAGTGCAGCACGG
GGCGAATGTATGAATAATATATATATTTTCTATGTTGTCTGTCCGGTGTG
GTCCCACACTGGATTCCCACGTTGGAATCCCACATAACCCAGCAGTGTCC
CGCCACCCCCTATGACACAATAGTCCCGTCCCGTCCCAAATGGATTTTTC
TGGATTCCCATGTGATGCCCATTCTCGCTAAGCATCCCAGCTTCCCGTCC
CATTCCCATCCCACATACAACGCAAGTGGGACCGTCCCATCCCGTTAAAG
TGGGATGGCAAATGCCTGACCATGGGATCCCATACCATCGACAATGGGAC
CTAAAAATTTTCCCGCCTGCGGCGAGCAAACCCGTCCCATCCCGCTTGCA
CGGGGCCTTCGGCCCCGTGCAAGCCCTTGAATGATTTTACTCTACATTCT
CCCGCCCCATCTCTCTTGTACAAGCAGTACTTGTACAGCAGCCTTCGAAA
TCAAGTACAAGCGACTTCACTTCATGCAGCACTACTACTTCGTGTATCAT
ACATACCTTTCGTACGACAGAGTAACATTAGGTCGTAGATACGTATCATG
TGATATCCTATAACATGATGTAAAATCACACAACAGCAGGAAGACGTCGT
CATGCGCGCACTCCTTCACATGAAGCTGTTCATTGATAATGTGCACGAAG
TACGATACATACACATCACACACATGATATGATGTTGTTGTTGTTGTTTG
TTGATTCTCACATTAGCTCACTACCGCCGCAGTCTAGCCCGTGGTCACAA
ACCAGGCACATATCGTGCTAGGAGGGAAAAAATAAAGAGAAAATAAATCG
ACTACTGTACTTGTATGATCACCCACAGTCAAATCAGACACGGTACCCCT
TATAGGGTACCGTTGGGGTACCATCTGTGGTGGCCAAGAGGTACCAAACA
AAATACAGAAAAAAACCCAACAGGTTGAAAGAAAAAACAAAAATTGGAAA
CAGTACAAGACAAAAAAGAAAAAAATTATTCATTTGTAGAATAAAATCAG
AGCAGCAACAGGGCGCGTGTCGATTCGAAAAGTGTTTTGGATGGGTTTTA
TCACACCCCCGCACTTTCCTCACTACTGCTGTGCGGTAGTCTCTCTTTCT
CTCTCTTTCTGTCCTTATCTCTCTCTATCTCTCTATCTCTCTGTATCTCC
CTACAGCATCTCTCTCTTTGTTTGTGTGTGTTTGTTTTCCCGTCTCTTGT
CAAGTCTTCAATCGATGTATCGTCTCCTTTGCTTATATCATATGTATGAT
AACACTTCTGACGATGAATGGTGCATGCGGCCATAGTAGAACAGCCGTAG
AGCATCACATCACATGGATAGACGCCGAAGTTCGCGATCAAAAGATGATC
GTGATTGTATCATATAACAGCAGTAGAGTAATGGAGCAGCAGTTGAAGTC
AAGCTTTCTTCTGTCAACTCTTCGAGAACGTAGATACTTCGTTTCGTACC
AGGTACTGCTTTTTGGCAGTGGCACAGCAGCATAAATGAAATTCTCAAGA
AAATAACGTCTTCAGGGCATCTGTTCCTAGAGTTTTCAGATTGGCCTTTA
CTTTTCTTCGAAGGCGACTTGCTTACTGCTATATTCGTGCACACAGCAGC
AGTGTTTTTTTTTTTTTTATGGGGGTTCCTGGGAAATGACGAAATGGTCT
TTTTGGGAAACAGAGGGAATAAAAAAAAGTTCCCAGTACCTGCGGCGGCA
TTTGGCACCTATCTCATGCATGATTCTATCCCCTGCTTGTAAGATCGGAA
GATCGGCAGTATCTCCACGAATACAGCCGCGATTCACACTCGGATTTTGG
AAACAGAAACACAGACATTAGGGCCATTCGCGTTGCGCGCGATTTTTTTT
CTGTTGAAGCAAAATGTTGTTGAGTTCTGGGCCTGTGATGCTTTCATCAT
CATTGCACTATGATATTGTCCTAATACTCTGTACGAACACACCATATTTA
CGATGCTGTCCATCAGCCACGATTGTAGGTGGAATGTTGGAGTGCTTCTA
TCGGCAAATTTGCATGTAGTGGGTCGTATGTGTGCGTCAACATGTATCAC
ATGATAGAAGATTCCATGCCTCAGGTTCGGCTGCGCCCCCACTGCTGCTG
CTCCATGCCGCTATAGCCTTTGACATGCTCACAGCAGTATAAAATCTGCG
ACGGACATGCTTCATCCGTTGTTTCAAGGTGACTGTTGCACATGAGGAAT
AATCCCAATGTCTGGTACAGCGTTTTCTGGCGTGCAGACGCGACCGGCCC
GCTAATCAGGAAACCAGATGTCAGGCTCAGCCTTACTTTTTTCTTTGTGA
GGCCATTGCCGAGCTAGTTCGTTCTGTAAAATTTTGTGTAGGGCTTGCAA
CTGAGCCTGGCCACTTTCTTACCTTTTCCAGAATCTCAGCCTCGGTTTGT
CGAGGCCGCTCTCTTGATAGGGGCCAGTGGACAGCAGTACATCTACGTAT
CCATCGCAGATATGATACCTGTTCAATAGTCGCGGTGTCACTACAGCCGT
TATCCACAACTGCGGATGCAATATCGTGTTGCTGCTTCGTTGCACATGCC
ACTCACGGCCTTCACCAGCAGCACCAGCAGCACCAGCAGCGGTGGCATGG
CATGGCAGGGCATGGCATGCGAATTGCAGTGGTAAAATGCCCCGTGGCGG
TTTCTCCGCTTTTCATTTGGTTTGTTCTGTGTCAACGGCTCAGAGCTCCG
CTGGCCCTCTGTTTGCAAGCTTGCTGCGGCGCTGCTGCTGCTGCACCTCA
TCCCTAAAACCTGTGTACTGCTGTACCGCCGTTCACTTCATCATGTAGTT
CAGTTGCTGGCCGTGCCCGTCTTCGGTTACGGCCTCTGATTGGAGGACCA
GCGTTACTTTCGTCGCCCAGGCCTCTGATTGGATTGGAAAAAAACAAATC
TACGTCGGCACCCCCACTGAACAACTGAAACCGCCTCCACTCAGTACACA
GGAAAGCGTCCCCGATTGCTGCTGTATATTCCCCGAAAACGTTTGGGCAC
TTTCCCCTGCGTGACTAAGTTGGCGTGCTCAGCTACACGAACATTCCGCC
GAAAAGAAACACATTTGCTTGGTCCGTCTGCTGCCATGGTTAGCCTGGAC
CGAGCCTGCACAGCAGGTACACCACTCCCGGAATAGGCGCAGCAAGCGAA
GCCAAACTGCTTGAGGCTGTGGGTACCGTATGTGTGTGTGTTGATCTTGT
CGCAAAATTATGTTTTTCTGTTCGTCTTCAAAAAAAAATATATATCGGCG
TTCCCCAAATAAATCGTGTGTGTTACTATTTTGGCGTCCAGCACAGCGGT
ATTAGTAGGTAAACTCTCTTGCCACGCTGTCTAGCTGGATCGATAAATCT
GTACATAATCTGTCGGTGTTGGCCCGCGAAGAGGGTTTAGGTGAAGGCGA
CATTTCATGATCGATATCAAAATGCGAGGATATCATACCATCATACGTGA
GCGTCACTACCTGCGGCTAGTGCTGCTGGTTATTTTTGGGTGCTACTGCT
GCTGCTGCCGATGATGGTGCTGTCATAACGCTGATGCTGATACTGCTGAT
GCTGCTGCTGCTGCTGCTGCTGGTGATGGCTTTATCGGTGGTCCGAACTC
GTTTGCCTTGACAGATCCTGCAGTTCGCGCTTGAGGATGGCGCTGACCCC
ACCGAGGTGTGTATCGACAGAGCGGAGTGCGTGCTGGCCGTAAATGGTGG
CCCTCTCTGAGGCCTGTTTTTGGTCGAGTGGGCCTGTGTGTCGTGATGCC
GTGCTGCTGTCATTGATGCTGGCCAAGCCGTGTTGTTGTTGTTGTTGTTG
TTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGCTGTTGTTGTCGTCGTC
GAAAGCACGTCGTCATCGCCGCCGCCGTTTTTGCCCGGCCTTTGGTCATT
GTTTTTGCTGTAATTGTTGCTGCTGCTGCTGCTGCTGCTGCTGCTGCTGC
TTTTGCTGCTGCTGTTGCTGTGTTTTGAAATGTGCTGCTCTCAAGATTGA
GTCTCTATATCCACGATGCCAAATGATTCCCGACGTCGTTGTCGCCGCCG
CCCGTTTCCATGCCCCCCCCCTCCCGCGACGAACCGGAAACACCCTCCCG
CTTGGTTGGCAAACCAGTGCAAGCTGCATCTCACGAACAACGGAAGCGAA
TCGGTCGCGTTCAAGGTCAAGACCACCAAGCCGAAGCGGTGGGTTTCGTT
GCGTTGACGTGTGCCGGGTCGGGCTGGGTTGGTTGTTCGGCCGATGTCCT
TTGCATCGTCGTGTCCGGTTTCGTTCCGTGTGTATTGTATCGTACCTCGC
CACGGATTGGTTCTGCTTTCGGGCATGTATGATGCTGCCGTATTGTGCTT
TAAAGAGCGGGCTTTGCTTCTGTGGCAATCGCTCCTTCAGCGTAAGAAGC
ACTCGCCGCCTCAGAGCTGGCTGCCTTTGCCCTCTTGATCGAGCCGTGTC
TGTCTTTCGTGCGTCTGGCCTCGATTTGCTCACGTGCGGCTTTTAGGGGG
GCGTGTTGAAGACGCGTTTTTATTGTTTCTAAGGGCGTCGTCTCGTCTTC
CTCCTTTCCTCGTCGATTTTTTTTCGCCACATGATGTATTGTTTCTGGTC
CTTTTCATGTTTTTCGTCTTTTTTTTGTGCTTGTGTGTGTGTGTGTTGCT
GCTGCTGTTGAATTGTACATTCTACGCGTGTTACTCTATTTTAGTACGAA
GGTACGAAGTAAGGTGTTGTCACTCATTTCAGACCATTTCGCACTGTTTC
CTGCGTCTATGTCGTGTGTTTTCGTCAAATGATAATGAGACACCTATTGT
TTTCTTCGATAATTGTTTTTGACCATGTCCTTCTGCCATTTTTTTTTTTC
ATTTCGCTGTGTTGACCTCTTGCTTTGTTTGTTTGTTTGTTTGTTTGTTT
GTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGT
TTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGATGGTTTGTTTGTTT
GATTGTTTGTTGTGTTTGTCTGGGTTTTTCAGATACCTGGTCCGTCCGAA
CCAGGGGGTGATCGCTCCTACCGAGAACTTGGAGGTCTCGATCGTTCTCC
TGGCGCAAGACAAAGTGTGAGTCGTCGTACCGACACCACCCATACGCGCA
CATGATGATGCACGTTCAAGTACTGTAGATGAGACCGTCTGTCTGGTGTT
GTACAGCAGTGCGATGAGTTAAGTACGATATGTTGAAAGCGTGTCCGTAT
GTTTTACATGTACGAAAGCGTGATACATTCACCGCATAGTGCGAGCGGGG
CGGGGTACGTTTGGATACCCGGTGGTGCGTGGCGCACCGCAGTTTTATTT
TGCCGTCCACAACAAGTGCCGAGGTATGATATGATATGTCGATCTACACG
TCTCGGTGCGTTCCGTTTCTCGAAGCAAAAACGAACGAGCGGAGATAAAT
CCGCACTCGTGTGATGGTTCTTTAAAGATGAAGCATTCCCAGCAATGCGG
ATTTCAGCCTTGAACATCACGAAGTACTCGAAGTACGAAGTGTATCATGT
TGAGTAGTAGATTTTTTTTTAATCAGTCCCCCAGTTTCGCTTTTTTAACA
CTCACACACACGCACAAAACGGGGTTGTGAACAAGCCTCCAACATTAAGC
GAGCCTGGGTTGGTGAAAGTTGAGCACAGAGAGAGAACACTATATGCGCA
GGATACAGCTGCATCATACGTAGCTCCCCTTAAAAACTCCAACATCTGGG
CAATAATCCAGAAGCGTCTTCGCTTTTTTTTGTTTTCCTTGTCCAGAGGC
CTTATCGCGGAATACAGGCAAACCGGCGGATGCAACGAGACGAACAAGTT
CATGGTTCAGGCATTGCCTCTGCAGGGCGCCGATGCCAGCAGCACCGTGG
TGAGCACAAGCGGGGGCGGGGGGGGCTGAGGAGGAGGAGGAGCAACAGAG
ATGGGAGATGAAGAGGGGTTGGGTTTCGGAGAGAAGGGCAAAGATGCAGA
TGGAGGGAAGGAGGAAGGGAGGAAGAGGGGGTGCGGGAGCGAGGGAAGGG
ATGGGGGGGGGGGGGGGGGACGATGGAGGGGGTTAGGAGATGAGGAAGAA
CATATGCGAGAGAGGGAGGGGGGGAGGGGGCGAGCGAGAGCGAGAGAGAG
GGAGAAGAGAGAGAAAACAAGGAAATTGTTACGAAGTAGAAAAATTGGGA
ATGCCGAGAGAGAGAGAGGGAAAGAGGCAGGGAGAGGTGGAGACAGACAG
ACACGCAGGCATCGAGGACTGTTGCTGCAGCACTGACTGCACGAGTGGGT
GTTTTTCGCTCTTGCCCCCGATACATGGCAGTGCCGCGGTGTTTTATGCC
GAGTGCTGCTGCAGCTCGTGTGGACACGCACGCGGTCTGTGCGCGCGTGT
ATGTCATCACACCCATGTCAGGAGCAATATCGACGATAGTGGTGTGGTTG
TCTGCTGCTGTCACACGAGGTGTGCGCTTCGTGTGGAAGTTTATGACGTG
TCATTTTGCTTGTCGTTTTTTTTTTCTCGCAGCATCCCAACTTTTGGGAG
GAGGCGAAGGGAAGGGTTCAGCAGAAGAAACTGGTCGTCAGCTTCACCTT
CCCGAGGCTTACGGCACCGTCGTCCACTACCGACAGCCTCAGAGAGGTGT
GTGCGTGTGTGTGCGTGCGTGTATGTGTGTACAGTAATACGTGCTTGTGT
TTTGTGTATTCGGTGTGTGATTTGTCGTGTCGCTGTTTGTGGTGTCAGTG
GTAAACGTGGTGGTTTCGGTCGGTGGCTGCCCTGTTGCATAAGTGTCGTC
GTCTCTGATGCTACGGCCTTCTGCTGCTACTGCTGGTGCTGGTGCTGGTG
CTGTGCTGGTGCTGCTGGTGCTGCCGTGGCTACCGCTCCCCGTCGTTACT
TACAGTCCGCTATTGCTGGTGCTGGTGCTGGTGCTGTGCTGCTGTGGCTA
TCGCTCCCCGTTGTTACTTACAGTGCGCTATTGCTGCTGCTGCTGCTGCT
GCTGCGTACGTGCTTGTTATTTCTGAGATCTCGTACAATATAAACATATG
CGATACTACCGCTGTATTGCACGCTGTTGTCTGCTTGCTGTGCGTGCTCG
CTTTTCCTCTCCTCAAGGCATCCAACGGGATCAGGGGTGCGGTCGCGGCG
GGAGGGGAGAAGGGCTTGCAAAGCGGCGACGGGAGCGACATGTGAGAGCA
TGTACAACAGGAAACAGCAGCAGCAGCAGCAGCAGTAGAAATGTTCGTTG
ATTTCATGACACGAAGTTTGATGTGATGGTGGTGTACGGGTTCAGGTTAT
GTAGGTCACCTGGTTGTCGTGCACGAAAGTGTGGTAGATGTTTGGCTTGT
GTATCAAATGTGTGTTTTGTGTCCCCCTCTTTGTTTTTTTTTTCGAGGAT
ATCGTACGATGATGATGACATGACTTATATGCGATACGGCGACGGGAGCG
GTCGATATGCATGTGAGATACGATATGGCACCTCTGGAAAGCAGAGCGTG
GTGAAAAGCTCGAAGGGGTTTCTCCCGAAAGAGGAATAACGGAAGAACAA
AACCAAAGAAAATAAACGGGAAAAAAAAAAAAATGTCGATAAAAAAACAA
AAATAAACGAAGAAATAAAAAAAGAGCTATCCCGTGTTTTTGGCTGCGCT
GCAGGATATTTACGAGAGGAGCTTTTAAAGTCGGCTGCGTTGAAACCACA
AAAAAACAAGTCCAAGGTACATGAAAAAAAGAAAGCACGAAAGCACATAC
AACAGCTGTACGTTTTCGTTATTTACCTCGAGTTCTGGCGTGAAAACTCG
AAAACCACCTTTGTGAAAACGCCGAAACCAAACCTTGAAACCTCCGGGTG
CTGTTGTATGTGTACAAGGTTGACCGTCGGAAAAGAGGTTGCCGCTCGTT
CAGGCGCCGAAACCATGTAAAAATAGGAGCCGCAACTATTTTTTTGAGGA
AAATTTGAAGGACTCCGGAGCCGCAGTTTTTCTTCCCGCCCCGGTGGGCT
TTTCTGATGCCTTTCAGTTTTTTTTTGTTTTGCCGCCTCCCCAAAGTCGG
TAACCCCGAAAAACGCTAAACCACTACCGCCGAACAAGTACCGCCGTGTG
GCGTTATGATACCGCCGGCAAAATCACCGCCATATTTTGGTTCTACCGCC
TCCGCCAGAGTCTATACAGCCGAAAAACGAAAAACGGCCGGTCGCCATGA
AAGTTTCGCCGCATGACATTTTTACCGGCCCCCCGCCAAGTGTGTCCGCC
AAAAAACGCCTTCCCGACGTATGACAACCCTTAAATATTTTTTTCCTGAA
GGGGAGAAAAAGGCGATAGCATAGCGGCAAAGAAGGTGACCGGAGGCGGA
GGTTCGGTCGTTTGCTCACCTGAAGGAATAGCCAAATTTTTCTGCCGCAC
TATCTGGAGGTCGAAGGACCTCGACTGGAATATGTATATTCCGAAATATT
TGTGTTCCGAGAGGGTTCGTGTTTTCCCTACCATGCTGTCTATGTGTTCA
ACGGATATGTTGTTTGTGCGTTCAACGGATACGATATGACATGATATGAT
ATGATACGATGTCTGGTCAGTTCAGCCGGTATCTACATTCATTCCTTTTT
TTTTCTCTTGTCATTTGCTTTAATTGCTTCGTATATGTGACACATCGTTG
TCGTTTTATTGTCGGGCAGGTCACAAGATCAGATGTGGCTGCAGACGACC
GAGCTTCGCCGAAAGTACGACGACCTGGTGTCGTTCACGATTAACCTCAC
CGCCGAGAAGGTTCGAGGAATTTTCGAGGAAGTTGGTTTGATTCAATTTA
GGCTTCATTCAGCCAGGAAGGTTTCTTCTCGCTCAGGAGCCTTCCCCCCC
CCCCCCCTCCCCCCAACGCCCTTTCCCATTTTTCTACGAGAAAATAAAAG
AGAGGTATGTATTTCATTCAGCAGTCAGTCCCTCTTTCGCTCAGCAGGCA
AATAGAAACCCGAAGCTCTTCTCTTGCTTGTGCAGTCAAAAGTTGTCCGA
AACAACCACCCGTTGGCCCATCGAAGTAAAGCGCGCATTACAATGCTTAT
TTTTTTGCCTTACCGAGCAGGGTCACGGCAGCAGTCGCTTGGTAATATAA
TTATTTCTGTTTTTTTTTTTAAATCATTCGCCGTACCGGTGTACACTACG
GGAATATATCACACCTGAGAACAAATGAATTTGGCATTTATCGGAAGAGT
CACCTGGCCCGGAGGTGTGGTGGTCCCTCGCACGCCCTCAGGGGCTCAAC
TCACTCGTCGCGGAGATGGGTCGTGAGAATTTGTTTCGGTTCGTGCCATG
CGCTCGAGTGGGGTGTCACGTGCGTGTGTCATTGTCTTACCACTGTCTCG
TGTGCCTGCCTGTGTGTTGTGTGTTGTGCCTGCGCGTCTGTATGCCTCTG
TGTGTGTATATATATTTTTTTTGTGTTGTGCCTGTGCCTGTGCCCGTGCC
TGTGTCGGTGTCTGTGTCTGTGTCTTGTGCCTGTGTGCCTAGCGTGCCTT
GCGCGTCCTGTGTGTTGCGAAGCATTTGATAAGCCAGTACCACCACGCTG
TGACATCCGCCGCCGGACCAACAAGAAACGTTTGAGTCTCTTTTTCCACA
CAGCGTGTCGAATACGAGCAAAACAAAACATGGTCAAGACCATGGTACCC
CAGAAAGCGGAGTGACGGCGGAGATTTAGTGTGAGGGTCTGTCTATCTAT
CCATCCAGCGTCCGGATCACTTTAATGTGTTTCGTTCGTTCGTTCGTTCG
TTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTT
TGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTG
TTTGTTTGTTTGTTTGTTTGTTTGTTTGTTTGTCTGTTTGTCTGTTTGCG
TGTGCGTGTGCGCGTTGCAGGACTTGATCCAGAGATCGCTCGGCGCAACG
AAGGAGGACCTGCAGCGAGAGCAGCAGGCACGCAAGTCGCTGGAAACAAA
GAGTGAGTTTTTTTTTCTTCCCGTGCAGGTGTCGTGTAGATGCTGCTGTG
TGCGTACAGTATGCCCCTTGTACAAAACAGTACTTGATATGAGATCCCCC
CCCCCCGCAGCCTCCGCAGCCGCGCCGCCCACCGCTTGCGACAGAGTGCT
GCAATACCTACCGGGCTTGAAATTCGGATCGGACCAAGAAAAATACTCAC
GTCAAGGAATATGACAGGACGTTGCGTTTGTTACCTCTTTGTGTTCGTGT
GGTTTTGTCTCGTGTCGAAACTGCCGCTTTTGTTCTATTTTTGGCGCCAG
GAACACGATATCAGATCACGCGAACAAACCATGTCTCCTTGCGGTTTCGT
GTTTGTGCGCGTTTGTGTGTGTGTGTGTTTTTTTTTCTTCTTCTGTTGAG
CAGTGATGGAACCCGGAGCTAGGCGTCCCGCCTCGAGCGTGATTGGAACT
CCGTCTGAGAGCGGCTCGGTGAGTTCCCGAAATGAAAGAGCGTTGCTGAC
ACCTCGTTCGTTAGTAAAAAAAAAAAAAAAGCACGGAGAGACTGGACATT
TTAGTGTTGCTTGTTTTTAGAACAGATGCTGGTGCACACACGTTATTACT
ACAGCTGTTTCATTTTTGTTTGTTTCGATCGGTTGGTTGTTTTAAGCGCG
TTTCGAATTTTGAGCTCCTTTGAGAGTCGCTCAGTGAGGCCGCGGCTCGC
AACTGGGCGAGACGAGGAGCATCACTGTATTTATTATTTTTTTCTCGCAC
CAAAACGTATCTGCAATTTTTTTTTTTTTATTTCAAACGAAAACAAAACG
CAAATAACTCCCTGGTTTGTACGTATGTCGAATAAAAATTGAAGGGAGTT
TTTTATTGCATTGATGACTTTAAAGCACACAAATAAAATATGTTCGCGAA
ATCGATTTTTTTTTTTAGGGAACTGATGCCGTCCTAAAGCGCAGAGGAGA
ATGGGAAAAAAAAATCGGATTGTTTCGGTCCTTCCGGTGGGACGCAAATA
AAGAATTTGAACAAGACACGGAGCCTTGCAGAGCAAAAAGAAAAGAAAAA
GACTGCAAGTACAAAACATGATGTACTTTACGGGTAACGTCTGTATCAAC
ACACCACATGCCCCACTCTGTTATTTATCTTCCTGGTGGAGCGTAAAAGT
TGAACACAGCATGACGCTGTTGCACTGCCCGTCGGTGATCTGCTGGAGAT
AAATGTACCGACAGACAGACAGACGGGCCTGGTCTTCTCATCGATGCAGA
CCTTATCGTGTAGGAAAGGTGCCTTGCTGTGACAGTCTGTTCTCTTTTGT
GCGTCATCATCGCAGACGCACAAAATATCGAGCCTTTACACACACACACA
CCACACTAACGAACGGCGTTAAGCTAAAAGAACTGTCACTGGAACATAGA
CTAGGGGGTTTGCACAAATGCAGCCTTTTTTTCAGGGGACCAAACAATCA
ACTGGAAATAATCTTTTTTAGGAGCACTTTGCGCGATAGATCGAATTTTG
AATCTGCGCACTTTCTTAAACCTCCGGATGTTTTTATTGCTTGTGCTAGC
TCGGTAAGCCAGCTACATTCGCGTCGAATCCGTCTGTTGATCGGGGATGC
ACACGCGGAGAACGGCAGTTTCGCATCATCGCACCCAGCAGATCTGTCAG
TGCGGTGCAATTTCGGGCCGCTGCTGCATCTAGCTAGATACAAAATCACA
AGCTCCGAAGAATGCCTCTAAATTAGAATCGTTTCTGGCTGCCTGTTGCT
GCTGGTGTAAAGGCACGAGACTCCGCTCGTCGACCACATCTGTGGGCTGT
GGCACTTTCGAGCAGTATGGTTGCTCGTGATGAGCTTGCGCTGTAGTGAG
CTGAAGCACAGTTTTCTGGGATTTTTGAACTTTTTCACCAATTTCTTCCC
GGGGAGATGATGCTCAAAACGATAACTTCGATCGTCTCGATCTCGCGCTG
CAAGGCCTAAACTGGCATAGCGCACAGCAGTTTTGATCCACTCAGGATGA
CAAGCCGAGGTGCTTCCTGCAAAAACATCCGGAGGTTTTTGTCTCCTAAC
GCAAACAGGGGAGGGGATGGGATGTGGAGTATACAGCAGTCAGGGGGGGC
ACGCCAAATATTTTTTTTATCTTGAAGTTGAGAGAAAAAATGATACCGTT
GGAGCGAGAATACGACATTGGAACCCCGGGATACCGGGACAGCAGCGTCT
TCCCCATTCTCGTTGTGCTGAGAACGCAGCGGAGCCTTGATCAAACGTCC
CCGCCCGACCTTGAAAGGTTCATGGCAAGCAGAAAAGAAGTCATGGTCTG
GTCTGTTCGACCGGTCCTCAACGTAACGTCATGGAGATGTGAATGCGTTG
CCCTGTCTTTCGTACACCCTATGGAGCACACGCCCGCCAGCAATGTACAC
GTGCGTGCGTTTTTTTTTTCGTGTGTTCTTGCCTGTGTGTCCCCCTGTGT
GGTGTCCGTGTTCTCCTCAAGTACACTTGCGCGCGCATGTTCGTGTTTCT
GTGTGTGTTTCTGTGTTTGTTCCTGTGTTTGTTCCTGTGTCTCTTCCTGT
TTGTGCGTGTTTCTGGTGTTTATTGTTTATTCTGTGTCATTTTTATTATA
ATTTTCTACAAAGGTCTGGAAGGTAACATACTGGCAAATAACGAGAGCGC
GACACCTGTCGCAGCCTCCTCTCATCCAGCAAGCAGAGTTGCCTTTCACG
TCAACTGGCCAGGGCCCAACAAATGCTGCCTCGATAGACCGAGACCCCCA
GAATATACCACTTGACATGAACCATCAAGCCCCGTTCTTTCCACCAGTCC
ATTGGAAAAAGATATAGTAGCTGTCGCTAAAACGAGCGACAGCTGATAGA
TGTAACTGTCGTCGGACGTGTGCGTCCGCGGGAGGTGGAAGAGACCCTTT
CTTCTTCTGTGTTCTGTCTGCTGACCCCCCTTCAATACCAAAGTCATGTA
GGGTTGTACTCTAAAACCTAGTTTAAGCGAACACACGCACAAACTTTTTT
TTCCGCATCAGCCCCTACATTTGCGGCGAGACTTCAGGCAAGAACAGAAA
TCTCGCTTCGCTCGAATAATTACTCTTAAGTATCCACGATTTAATAAAAT
ACTCTATCCGGTACTCATTCCCCAGGTGTCGTCCTGCCCCCCTCTCCACT
TTCGAGGATAAAAAAGGGTGGGGTGGGTGGGAAAAACGACAGCAACACTA
GTTCCCTCTGAAGTAAAGCTGAGCGGCAGGGTTGTCCGTTCACGCGAGAG
AAGCTTTTCGTTTTTCAGGGTGATGCTGGAGGCTCGTGCTGCTGCGCGAT
CCTACCTCCCTTCGCAATAAATAATGATATGTTGATGACGTCTCCGTAAA
CCAATAAACTGTAGTTTCGTTGTCTTCCCCCTATGGTTGGAGCCGTAAGA
AATACCCGCTTTCTGTGTGTATTTCTGTGTGTGTTTCCATGTTTGTTTCT
GTGTATGTTTCTGTGTGCGGTGCTCACCACTGCTGTGTGCACATCCACCG
GTGTTTTTTCAGCACGTGCTTCCGCCAAATTTCTCCCTGGAATCGAGCAG
ATTTCATGCGTTTCCATTTCACTACTGTCTGTATGCATGCACAAGTCTGT
ATGCATGCACAGGTGGTCGTCAGCCCGAACATGACCCGTTTTTCGCAAAG
TTGTTGTTTTCTGTTTTCAATTATTCTATCATACGATTTTATGTTATTAC
GCTTCGAAGTTGTTTATTTCTATGGATTGGTTCGTTTGTTCAATCTGGAC
GAAAAACGTAGAGCAACGTTTTGATTATTTTGTTTGTTTTTCGTCTTTTG
TTCTCCTTCGCCAGCGGAATATCATACGTGCACGCTTCCTAAACACGATG
GTTGATGGTGTTCCATTCGTGTGTAGTATACGTACGGGCATCATCACTAC
AACGGTACATCGATGGCACGACAATTTGAAGAAAATATATATTTTTGCTG
AAGCGTTTTTATTTTGCTTCATTGCACGTATATATTTACAAGTACGTTTT
TCCGCATATATTTGAAGAGATAAAACAAATCCAAAACTCTGACCTTCTGT
ACCCAGACTTGGACCAAATGTAGTCTCTTTCTTCCCTGGAGTATTTTGTT
TTCTAGGAGTGTCGACGACACGTCACACGCCCGCGTGCATGATGGTCAAC
TCTGGAGGGCGTCTGGCTTTCCTTTTCTTCCCCCTTGTTTCTGAACAGGA
AAACGTGTCTGCCGCCAGAGAGTCTTCAGGTGCCGCCGCAGTTAGTGCAA
TCAAATCTCGTCACGTCACGTCACGTCACATCACACACGGAATGGACGCA
TCTTGAACATGACGGCTAGGACAGGCTGTTACGAAACCACGCCTTGCGTA
ACCCCCCCCCCCCCGCGCGCCCCCTTAAACTTTCACTCATCTGCACAGGG
GTTCTCGCTATTTTTTGTGCTTGTCGTGGCTGTGCTGGCGCTTTTTGCGG
GCCAATGGACGGCCGCCAACGGATACCCTCTCATGTCCGGCTCCTAATGG
CATTGATTGTGGCGGTGGCGGCACCGGGGCGAAGCAGGGGGGGGGGGGGC
ACTCTGTTGGGGTTGCGCCGGGTAGGGTAGGGTAGGTTGGGTTTGAACGG
GGGGGAAAGGAGAGAGAGAGAGAAAAGGTGCCTGCAGTTTTCTCCTTGGC
CAATTGTTACCAAAGGAGCTTTCTGATTGAAATACTTGGAGTTTTTTAGA
ACAAAGTGACCCCGCCGTGGATGACACGTCATGTCGCACAGGGATTTCTG
GCCAACCGGAAATTTCCTTTCAAAAAGTTTGGCCACGATCAGAAAACTGC
GGGCACCTTTTCTCTCTCTCTCTCGGGGGTGGGATATTTACTACTTCGAA
GTATTTTTGTTTGTATACTTGTAGCTGTTTTCCGTTGTCGTATGCCAGTT
TCCTGTTTCCCAATAGACAGTTGGAATGGAATGTAGAAGTATTGATGTGC
TTGTATGGACGTGCTGTAGTTGATGGGCGATGGGGGGGGGGCGGGGTGGT
TTGAAAGCACCTCTGTGTTACTGCCCCCCTcCCCCCCCCCCCTCCCCCAA
CTTCGGCTGTACCTGCTCGCGGGCTGGACTGGCTAGAGAGTTGCTTGTCT
CATTTTTGTCAAAAGGTTTTTACTAATTTCTTATTTTGCTTGTGTTAAAA
CTTTTTTTTTCGTATTTTGGTCTTGTTGCTGCTGCTGTTGCTGCTGCTGT
TGCTGCTGCTGTTGCTGCTGTTTGTTGCTTCGTGCGCTGCTGTGATTGGA
TTTTTTGGTCATCGCCGCATCACAAAGCCGAGAACACCAATATTTTCTCC
ATGGTTTGAGGGCCTTCCACCTCCCACGCGGTTGGTTCCAGTTCCATTTC
CTGCGGGGAGGAGGAATGAATGGAGCTAGATTAGATTGAATGGAGAAAGG
ATGTACTTCGAACTAGCATTCAACATATGATGTATGTGTGTATCGCCGTG
TGTGTGCTTAGGTGCACGCTCGTGAGGTGGAGGCGGTGGAGGGCGGGGCG
GTTGCCAAGAGCGAACGAAATGTACCTTCTTCTTGGAGCAAAAACCCGCC
GCGCCGGGAAGTGTTCATGGAAATGTTAATGTTGGTTTTGGGATGTAGAC
AGGCGAGAAAATCCACCAACCTCCAACACGGACGAAAACTATGGATAATG
ACCATTAAATAATGGTGACTTCGAAGTATTGCTTGAGGTCATTATCCATA
GGATGAAAACGACGGGCTTTGATCTTCGTATTCCCTTCTTGGCGTGACAC
GGGGGGTGGTATACGTATGCAGTCAATCCCTCTTCGCTCTATGTTGTTGG
GGTTCGCGGATTTGAGAGCACGGCTTTCTCTGGCAAGAGGTTGAACACAC
AGCCGCAATCTGTACGCACACAGCAGAAGCAGTGGGGGGACATGAACATA
CCATGTATTTGGTTTGACACATTATTTACGGCATGTGATACTTGAAGCTC
GCTTTTTTATCATCCTTTGAAATACATTTCATTCATACAGCAGTAGCAAT
TTTGTCGGAGTAATTCCTTGTGCTTGTTGCAGTGGCATTAAGGGGGCTCC
ACAGCAGCAGCAGCAGCTGTAGCAGTATTAGCGGCAGCGTGCTGAAGCTT
TTTTTGTTCAGTCATGATTTGTTGCCCTTGAGTCGATGGGGAACTTGGGT
GCGGCGGGAGGTGGGGGATGGGGGGCGGCATCATGGCAAAATGGAGGGGA
GGGCGTTGCGTGGAAGCCCCCCCCCCTTGTTTTTTGTTTTCTCTCGTCCT
TTTTTTTTGGCCGTTGCCATTCACTGCGGCAGCGGAGGTGGCGTAGAACA
GAAAACAGCAGTATTATTATTGTCGCACACGGCTGGCTTTGTGCGCCTTG
GTTTAGCCCTTTTCGGTATTCTGCAGCCAAGCGGAGAGCAGACGATTGTC
AACAACGAATAAACAAAGACAGGGTATGACAGCGCGGTTTCCAGCAAAAA
ACGCCGACTTCGTTCGAAGTGTTAAAAGAATACTTCGTTATTGTCGTTGA
AG

Coding sequence (CDS) from alignment at P-littoralis_Contig182:219552..237953+

>mRNA_P-littoralis_Contig182.62.2 ID=mRNA_P-littoralis_Contig182.62.2|Name=mRNA_P-littoralis_Contig182.62.2|organism=Pylaiella littoralis U1_48|type=CDS|length=978bp|location=Sequence derived from alignment at P-littoralis_Contig182:219552..237953+ (Pylaiella littoralis U1_48)
ATGGCTGCTCAAGAGGCTCTCTTCGCGCTGGAGTGCCTTCCTTCGAAGAT
CCTGCAGTTCGCGCTTGAGGATGGCGCTGACCCCACCGAGTGCAAGCTGC
ATCTCACGAACAACGGAAGCGAATCGGTCGCGTTCAAGGTCAAGACCACC
AAGCCGAAGCGATACCTGGTCCGTCCGAACCAGGGGGTGATCGCTCCTAC
CGAGAACTTGGAGGTCTCGATCGTTCTCCTGGCGCAAGACAAAGTAGGCC
TTATCGCGGAATACAGGCAAACCGGCGGATGCAACGAGACGAACAAGTTC
ATGGTTCAGGCATTGCCTCTGCAGGGCGCCGATGCCAGCAGCACCGTGCA
TCCCAACTTTTGGGAGGAGGCGAAGGGAAGGGTTCAGCAGAAGAAACTGG
TCGTCAGCTTCACCTTCCCGAGGCTTACGGCACCGTCGTCCACTACCGAC
AGCCTCAGAGAGGCATCCAACGGGATCAGGGGTGCGGTCGCGGCGGGAGG
GGAGAAGGGCTTGCAAAGCGGCGACGGGAGCGACATGTCACAAGATCAGA
TGTGGCTGCAGACGACCGAGCTTCGCCGAAAGTACGACGACCTGGTGTCG
TTCACGATTAACCTCACCGCCGAGAAGGACTTGATCCAGAGATCGCTCGG
CGCAACGAAGGAGGACCTGCAGCGAGAGCAGCAGGCACGCAAGTCGCTGG
AAACAAAGATGATGGAACCCGGAGCTAGGCGTCCCGCCTCGAGCGTGATT
GGAACTCCGTCTGAGAGCGGCTCGGGGTTCTCGCTATTTTTTGTGCTTGT
CGTGGCTGTGCTGGCGCTTTTTGCGGGCCAATGGACGGCCGCCAACGGAT
ACCCTCTCATGTGCACGCTCGTGAGGTGGAGGCGGTGGAGGGCGGGGCGG
TTGCCAAGAGCGAACGAAATGTACCTTCTTCTTGGAGCAAAAACCCGCCG
CGCCGGGAAGTGTTCATGGAAATGTTAA