mRNA_P-littoralis_Contig149.51.4 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig149.51.4
Unique Name	mRNA_P-littoralis_Contig149.51.4
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot
Match: D7FW90_ECTSI (Glyco_hydro_114 domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FW90_ECTSI)

HSP 1 Score: 242 bits (618), Expect = 6.520e-71
Identity = 117/157 (74.52%), Postives = 128/157 (81.53%), Query Frame = 3

Query:  693 YDVDMXXXXXXXVSTETFEEIKANGSAVICYFSAGTQEDWRPDADDFPAEALGEPLGDWEGEVWADVNNEDVRDVMVARLDMAAAKGCDGVEPDNVQVYLEALWGTDTGVNVTAEQQLDYNIFLATEAHNRNLSIALKNDLDHLADLEPYFDFAINE 1163
            YD+D+       V T  F+EIKA GS VICYFSAGT+EDWR DADDFP E LG PL DW+GEVW DVNNE+VR VM ARLD A  KGCDGVEPDNVQVY E LWG DTGVNVTA++QLDYN FLATEAH+RNLSI LKNDLDHLA+LEP FD+AINE
Sbjct:    2 YDIDLFD-----VDTSVFDEIKAQGSVVICYFSAGTREDWREDADDFPEEGLGAPLADWDGEVWVDVNNEEVRAVMAARLDKAVEKGCDGVEPDNVQVYAEILWGADTGVNVTADEQLDYNTFLATEAHSRNLSIGLKNDLDHLAELEPLFDWAINE 153

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BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot
Match: A0A1X0HF01_9MYCO (Endo alpha-1,4 polygalactosaminidase n=2 Tax=Mycolicibacterium moriokaense TaxID=39691 RepID=A0A1X0HF01_9MYCO)

HSP 1 Score: 234 bits (597), Expect = 3.280e-66
Identity = 134/274 (48.91%), Postives = 165/274 (60.22%), Query Frame = 3

Query:  540 IASMGLSRGG---AVSLTADTADRDQRHLEIDEIWQPETNATWQWQLQ-YPVVTSYDVDMXXXXXXXVSTETFEEIKANGSAVICYFSAGTQEDWRPDADDFPAEALGEPL-GDWEGEVWADVNNEDVRDVMVARLDMAAAKGCDGVEPDNVQVYLEALWGTDTGVNVTAEQQLDYNIFLATEAHNRNLSIALKNDLDHLADLEPYFDFAINESCDEYDECEGYVATFIAAGKAVFHAEYEREDI--SFCAASNDLGLSSLLKSYDLGPARCSC 1340
            +A++    GG     S+T+ TA    +      IW+P    TWQWQL   P+ TS DVD         + E    +KANG  VICYFSAG+ E++RPDA DFPA A G PL   ++ E+W D+ N DVR +M  RLD+AA +GCD VEPDNV  Y       DTG ++TA  QLDYN FLA EA  R LS+ LKND+D L DLEP FD+A+NE C  YDEC  Y   F+AA KAVFHAEY   D     CA +  LGLS+L+K+ DL   R  C
Sbjct:   17 LAALTACGGGDPDTASITSPTATSGGK------IWRPPVGTTWQWQLSGLPIDTSLDVDAYDVDLFTTTDEELATLKANGRKVICYFSAGSWEEFRPDAADFPAVANGNPLDAPFQDELWLDIRNADVRTLMQRRLDVAAERGCDAVEPDNVDGYTN-----DTGFDLTAADQLDYNRFLAAEARVRGLSVGLKNDVDQLVDLEPDFDWALNEECFAYDECAQYRDNFLAANKAVFHAEYVNRDRLPEVCAVTEPLGLSTLIKNIDLDAFRLPC 279

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BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot
Match: A0A4R3HPG2_9GAMM (Glyco_hydro_114 domain-containing protein n=1 Tax=Reinekea marinisedimentorum TaxID=230495 RepID=A0A4R3HPG2_9GAMM)

HSP 1 Score: 231 bits (588), Expect = 2.350e-64
Identity = 124/253 (49.01%), Postives = 155/253 (61.26%), Query Frame = 3

Query:  633 WQPETNATWQWQLQYPVVTSYDVDMXXXXXXXVSTETFEEIKANGSAVICYFSAGTQEDWRPDADDFPAEALGEPLGDWEGEVWADVNNEDVRDVMVARLDMAAAKGCDGVEPDNVQVYLEALWGTDTGVNVTAEQQLDYNIFLATEAHNRNLSIALKNDLDHLADLEPYFDFAINESCDEYDECEGYVATFIAAGKAVFHAEY--EREDIS-----FCAASNDLGLSSLLKSYDLGPARCSCQDPSTNYLCD 1370
            +QPE + TWQWQ+   V T YDVD+         T   EE++A+G AVICYFSAG+ EDWR D  DFP EALG+ L  W+GE W D+ NE VR +M AR+D+AA KGCDGVEPDNV  Y        TG +++ + QLDYNIFLA  AH R L++ALKND++ + DL  YFDF+INE C EYDECE  +  FI  GK VFH  Y  E  ++S      C  +  L   +L+  +DL        D S  Y CD
Sbjct:   88 YQPEVSTTWQWQISGTVNTDYDVDVYDIDLFDTHTSVIEELQADGKAVICYFSAGSYEDWREDEADFPEEALGKDLDGWDGENWLDITNETVRKIMAARMDLAAEKGCDGVEPDNVDGY-----SNKTGFDLSYDDQLDYNIFLAEAAHERGLAVALKNDVEQVDDLVDYFDFSINEECFEYDECET-LEPFIEQGKPVFHTSYVDEESELSDKAGEICTEALALQFRALILPWDL--------DDSFRYSCD 326

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BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot
Match: A0A6L3F7Y4_9CHLR (Endo alpha-1,4 polygalactosaminidase n=1 Tax=Chloroflexi bacterium TaxID=2026724 RepID=A0A6L3F7Y4_9CHLR)

HSP 1 Score: 228 bits (580), Expect = 1.020e-63
Identity = 117/240 (48.75%), Postives = 148/240 (61.67%), Query Frame = 3

Query:  627 EIWQPETNATWQWQLQYPVVTSYDVDMXXXXXXXVSTETFEEIKANGSAVICYFSAGTQEDWRPDADDFPAEALGEPLGDWEGEVWADVNN-EDVRDVMVARLDMAAAKGCDGVEPDNVQVYLEALWGTDTGVNVTAEQQLDYNIFLATEAHNRNLSIALKNDLDHLADLEPYFDFAINESCDEYDECEGYVATFIAAGKAVFHAEYEREDISFCAASNDLGLSSLLKSYDLGPARCSCQ 1343
            +IWQP    +WQWQL   + TS+DV+M           T + +  NG  VICYFSAG+ E+WR DA  FPA  LG  L  W  E W DV     +  +M+ARLD+A +KGCDGVEPDN+  Y       D+G  +T + QLDYNI+LA+ AH+RNLSI LKNDLD + DL  Y+D+A+NE C +Y+ECE  +  F  AGKAVF  EY+     FC   N+L    LLK  DLGP R SC+
Sbjct:   58 DIWQPSPGVSWQWQLTGEIDTSFDVEMYDIDLFDTPQSTIDLLHENGRIVICYFSAGSYENWRSDAGQFPASVLGNTLDGWPDERWLDVRAISQLEPIMMARLDLAVSKGCDGVEPDNMDGY-----SNDSGFPLTGQDQLDYNIWLASAAHDRNLSIGLKNDLDQIPDLVSYYDWALNEQCYQYNECE-LLRPFTNAGKAVFGVEYQGNSAQFCPYFNNLDFDWLLKELDLGPTRTSCR 291

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BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot
Match: A0A150SSH0_SORCE (Endo alpha-1,4 polygalactosaminidase n=3 Tax=Sorangium cellulosum TaxID=56 RepID=A0A150SSH0_SORCE)

HSP 1 Score: 225 bits (573), Expect = 1.460e-63
Identity = 124/236 (52.54%), Postives = 144/236 (61.02%), Query Frame = 3

Query:  639 PETNATWQWQLQYPVVTSYDVDMXXXXXXXVSTETFEEIKANGSAVICYFSAGTQEDWRPDADDFPAEALGEPLGDWEGEVWADVNNEDVRDVMVARLDMAAAKGCDGVEPDNVQVYLEALWGTDTGVNVTAEQQLDYNIFLATEAHNRNLSIALKNDLDHLADLEPYFDFAINESCDEYDECEGYVATFIAAGKAVFHAEY--EREDISFCAASNDLGLSSLLKSYDLGPARCSC 1340
            P    TWQWQL   + TS DV M           T + ++A G  VICYFSAG+ EDWR DA  FPA ALG PL  W GE W D  +  VRDVM ARLD+A  K CDGVEPDNV  Y        +G  +TA  QLDYN FLA EAH R LSI LKNDLD + DL  +FD+A+NE C  YDECE  +  FI AGKAVFHAEY    +  + CA +  LGLS+L+K  DL   R +C
Sbjct:    2 PAPGTTWQWQLTGTIDTSLDVAMYDIDLFEAPQATIDALRAAGKKVICYFSAGSSEDWRSDASRFPAAALGNPLDGWPGERWLDTRSAGVRDVMKARLDLAVQKRCDGVEPDNVDGYTNG-----SGFPLTAATQLDYNRFLAAEAHARGLSIGLKNDLDQVRDLVGHFDWALNEECHAYDECE-MLTPFIRAGKAVFHAEYVAASQANAVCADTKPLGLSTLIKRLDLDAWRVAC 231

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BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot
Match: A0A3A4KCZ1_9DELT (Endo alpha-1,4 polygalactosaminidase n=1 Tax=Myxococcales bacterium TaxID=2026763 RepID=A0A3A4KCZ1_9DELT)

HSP 1 Score: 226 bits (575), Expect = 3.440e-63
Identity = 126/287 (43.90%), Postives = 170/287 (59.23%), Query Frame = 3

Query:  513 AYIRRSCWI--IASMGLSRGGAVSLTADTADRDQRHLEIDEIWQPETNATWQWQLQYPVVTSYDVDMXXXXXXXVSTETFEEIKANGSAVICYFSAGTQEDWRPDADDFPAEALGEPLGDWEGEVWADVNNEDVRDVMVARLDMAAAKGCDGVEPDNVQVYLEALWGTDTGVNVTAEQQLDYNIFLATEAHNRNLSIALKNDLDHLADLEPYFDFAINESCDEYDECEGYVATFIAAGKAVFHAEYEREDISFCAASNDL-------GLSSLLKSYDLGPARCSCQD 1346
            A ++R  W+  IA+  +  G +    +D +D D            E  ATWQWQL   + TS+DVD+          ET + +  +G AV+CYFSAGT EDWRPDA  F    LGE L +WEGE W DV  E VR+ +  RLD+A  KGCDGVEPDNV  Y       D+G  +TA+ QLD+N+F+A EA  R LS+ LKND++ + +LE  FD+A+NESC +YDEC  Y   F+ AGKAVFH EY  ++    A + D+       GLS+L+K+++L   R +C D
Sbjct:    9 AKMKRLVWLCLIAAWAMGCGSS----SDESDHDISDAAF------EAGATWQWQLLGTIDTSFDVDLYDIDLFDAPAETIDALHEDGRAVVCYFSAGTYEDWRPDAALFTPATLGEALPEWEGERWLDVRAESVREAVRRRLDLAVEKGCDGVEPDNVDAY-----ANDSGFPLTADDQLDFNLFIAGEARRRGLSVGLKNDIEQIPELEAAFDWALNESCMQYDECAAY-GPFLEAGKAVFHVEYVEKEEDGPAFAEDVCDSPEREGLSTLVKTWELTAWRIACGD 279

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BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot
Match: A0A7V5U264_9BACT (Endo alpha-1,4 polygalactosaminidase n=1 Tax=Thermodesulfatator atlanticus TaxID=501497 RepID=A0A7V5U264_9BACT)

HSP 1 Score: 222 bits (565), Expect = 8.920e-62
Identity = 117/239 (48.95%), Postives = 144/239 (60.25%), Query Frame = 3

Query:  627 EIWQPETNATWQWQLQYPVVTSYDVDMXXXXXXXVSTETFEEIKANGSAVICYFSAGTQEDWRPDADDFPAEALGEPLGDWEGEVWADVNNEDVRD-VMVARLDMAAAKGCDGVEPDNVQVYLEALWGTDTGVNVTAEQQLDYNIFLATEAHNRNLSIALKNDLDHLADLEPYFDFAINESCDEYDECEGYVATFIAAGKAVFHAEYEREDISFCAASNDLGLSSLLKSYDLGPARCSC 1340
            +IW+P    TWQWQL   + TS   +M          E  EE+   G  VICYFSAGT E WRPDA+ FP E LGEPL DW  E W D+   DV   +M ARLD+A  KGCDGVEPDNV  Y       ++G  +T E QL+YN++LA +AH R LS+ LKNDLD +  LEPYFD+A+NE C  Y ECE  +  FI  GKAVF  EY  +   FC  +N +G SS+ K  +L   R +C
Sbjct:   46 KIWRPSPGTTWQWQLTGEIDTSLKAEMFDVDLFETPPEVIEELHRLGKVVICYFSAGTYEPWRPDAEKFPEEILGEPLVDWPDERWLDIRRLDVLGPIMEARLDLAVEKGCDGVEPDNVDAYQN-----ESGFPLTYEDQLNYNLWLAEQAHKRGLSVGLKNDLDQIPALEPYFDWALNEECFYYGECEK-LRPFIEKGKAVFQVEYYLDPEDFCPEANAMGFSSMKKRPELDAWRIAC 278

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BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot
Match: G8RVR2_MYCRN (Glyco_hydro_114 domain-containing protein n=1 Tax=Mycolicibacterium rhodesiae (strain NBB3) TaxID=710685 RepID=G8RVR2_MYCRN)

HSP 1 Score: 221 bits (562), Expect = 1.850e-61
Identity = 122/246 (49.59%), Postives = 157/246 (63.82%), Query Frame = 3

Query:  630 IWQPETNATWQWQL-QYPVVTS-----YDVDMXXXXXXXVSTETFEEIKANGSAVICYFSAGTQEDWRPDADDFPAEALGEPLGD-WEGEVWADVNNEDVRDVMVARLDMAAAKGCDGVEPDNVQVYLEALWGTDTGVNVTAEQQLDYNIFLATEAHNRNLSIALKNDLDHLADLEPYFDFAINESCDEYDECEGYVATFIAAGKAVFHAEYEREDI--SFCAASNDLGLSSLLKSYDLGPARCSC 1340
            +WQP  + TWQWQL   P+ TS     YDVD+       ++T     ++A+G  VICYFSAG+ E  RPDA +FPA A G PL   ++ E+W D+ N +VR VM  RLD+AA +GCD VEPDNV  Y       DTG ++TA  QLDYN F+A EAH+R LS+ LKND+D L +LEPYFD+A+NE C  Y+EC  Y   F+AA KAVFHAEY   +     CA +  LGLS+L+K+ +L     SC
Sbjct:   39 VWQPPVSTTWQWQLASLPIDTSLNAAAYDVDLFTTTDTELAT-----LRADGRKVICYFSAGSWEALRPDAAEFPAAANGNPLDPPFQDELWLDIRNPEVRTVMRRRLDLAATRGCDAVEPDNVDGYRN-----DTGFDLTAADQLDYNRFIAAEAHSRGLSVGLKNDVDQLTELEPYFDWALNEECFTYNECAQYRDNFLAANKAVFHAEYVNGNRLGEVCAVTERLGLSTLIKNIELDAFALSC 274

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BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot
Match: A9EVK6_SORC5 (Glyco_hydro_114 domain-containing protein n=1 Tax=Sorangium cellulosum (strain So ce56) TaxID=448385 RepID=A9EVK6_SORC5)

HSP 1 Score: 229 bits (584), Expect = 1.950e-61
Identity = 127/239 (53.14%), Postives = 145/239 (60.67%), Query Frame = 3

Query:  630 IWQPETNATWQWQLQYPVVTSYDVDMXXXXXXXVSTETFEEIKANGSAVICYFSAGTQEDWRPDADDFPAEALGEPLGDWEGEVWADVNNEDVRDVMVARLDMAAAKGCDGVEPDNVQVYLEALWGTDTGVNVTAEQQLDYNIFLATEAHNRNLSIALKNDLDHLADLEPYFDFAINESCDEYDECEGYVATFIAAGKAVFHAEY--EREDISFCAASNDLGLSSLLKSYDLGPARCSC 1340
            IW P    TWQWQL   + TS DV M             + ++A G  VICYFSAG+ EDWR DA  FPA ALG PL  W GE W D  N  VRDVM ARLD+A  + CDGVEPDNV  Y       + G  +TA  QLDYN FLA EAH R LSI LKNDL  + DL   FD+A+NE C EYDECE  +  FI AGKAVFHAEY    E  + CAA+  LGLS+L+K  DL   R +C
Sbjct:  299 IWVPAPGTTWQWQLTGTIDTSLDVAMYDIDLFDAPQAKIDTLRAAGKKVICYFSAGSSEDWRDDASKFPAAALGNPLDGWPGERWLDTRNAGVRDVMKARLDLAVQRRCDGVEPDNVDGYTN-----NPGFPLTAATQLDYNRFLAAEAHARGLSIGLKNDLAQVKDLVGSFDWALNEECREYDECE-MLTPFIRAGKAVFHAEYVDASEANAVCAATKPLGLSTLIKKLDLDAWRLAC 531

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BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot
Match: A0A7V5WPV2_9DEIN (Endo alpha-1,4 polygalactosaminidase n=1 Tax=Trueperaceae bacterium TaxID=2026798 RepID=A0A7V5WPV2_9DEIN)

HSP 1 Score: 220 bits (560), Expect = 2.180e-61
Identity = 116/244 (47.54%), Postives = 154/244 (63.11%), Query Frame = 3

Query:  615 LEIDEIWQPETNATWQWQLQYPVVTSYDVDMXXXXXXXVSTETFEEIKANGSAVICYFSAGTQEDWRPDADDFPAEALGEPLGDWEGEVWADVNN-EDVRDVMVARLDMAAAKGCDGVEPDNVQVYLEALWGTDTGVNVTAEQQLDYNIFLATEAHNRNLSIALKNDLDHLADLEPYFDFAINESCDEYDECEGYVATFIAAGKAVFHAEYEREDISFCAASNDLGLSSLLKSYDLGPARCSCQ 1343
            L   ++WQP+   +WQWQL   + TS DV+M        S ET   ++ +G  VICYFSAG+ EDWRPD   FP + LG  + DW+ E+W D+ + + +  +MVARL++A +KGCDGVE DNV  Y       ++G N+TA++QL YN FLA EAH R LSI LKNDLD +A L  YFD+A+NE C EY+EC   +  FI   KAVF  EYE +  +FC  +N L L  L K+Y+L   R SC+
Sbjct:   24 LHRQKLWQPQPGTSWQWQLSGDIDTSIDVEMYDIDLFDTSKETIRALQKDGKIVICYFSAGSYEDWRPDKGQFPKKLLGRKMEDWD-ELWLDIRDLKTLGPIMVARLELAQSKGCDGVEADNVDGYQN-----NSGFNLTAKEQLTYNKFLAKEAHKRALSIGLKNDLDQVAQLVKYFDWALNEQCFEYNECNKLLP-FIKTNKAVFGVEYELKPEAFCNKANKLNLDWLYKNYELDSFRLSCR 260

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot

BLAST of mRNA_P-littoralis_Contig149.51.4 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FW90_ECTSI	6.520e-71	74.52	Glyco_hydro_114 domain-containing protein n=1 Tax=...	[more]
A0A1X0HF01_9MYCO	3.280e-66	48.91	Endo alpha-1,4 polygalactosaminidase n=2 Tax=Mycol...	[more]
A0A4R3HPG2_9GAMM	2.350e-64	49.01	Glyco_hydro_114 domain-containing protein n=1 Tax=...	[more]
A0A6L3F7Y4_9CHLR	1.020e-63	48.75	Endo alpha-1,4 polygalactosaminidase n=1 Tax=Chlor...	[more]
A0A150SSH0_SORCE	1.460e-63	52.54	Endo alpha-1,4 polygalactosaminidase n=3 Tax=Soran...	[more]
A0A3A4KCZ1_9DELT	3.440e-63	43.90	Endo alpha-1,4 polygalactosaminidase n=1 Tax=Myxoc...	[more]
A0A7V5U264_9BACT	8.920e-62	48.95	Endo alpha-1,4 polygalactosaminidase n=1 Tax=Therm...	[more]
G8RVR2_MYCRN	1.850e-61	49.59	Glyco_hydro_114 domain-containing protein n=1 Tax=...	[more]
A9EVK6_SORC5	1.950e-61	53.14	Glyco_hydro_114 domain-containing protein n=1 Tax=...	[more]
A0A7V5WPV2_9DEIN	2.180e-61	47.54	Endo alpha-1,4 polygalactosaminidase n=1 Tax=Truep...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig149	contig	P-littoralis_Contig149:185587..203341 +

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.D7FW90
PFAMs	Glyco_hydro_114
Model size	3222
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	other localisation
Exons	12
Evalue	1.15e-77
EggNOG OGs	COG3868@1\|root,2RCTR@2759\|Eukaryota
Ec32 ortholog description	Glycoside hydrolase superfamily
Ec32 ortholog	Ec-01_003820.1
Description	Endo alpha-1,4 polygalactosaminidase
Cds size	1074
COG category	S

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1680789704.3253582-UTR-P-littoralis_Contig149:185586..186044	1680789704.3253582-UTR-P-littoralis_Contig149:185586..186044	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig149 185587..186044 +
1680789704.4796412-UTR-P-littoralis_Contig149:201651..203341	1680789704.4796412-UTR-P-littoralis_Contig149:201651..203341	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig149 201652..203341 +

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


Feature Name	Unique Name	Species	Type	Position
1680789704.3349752-CDS-P-littoralis_Contig149:186044..186250	1680789704.3349752-CDS-P-littoralis_Contig149:186044..186250	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 186045..186250 +
1680789704.349057-CDS-P-littoralis_Contig149:193453..193515	1680789704.349057-CDS-P-littoralis_Contig149:193453..193515	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 193454..193515 +
1680789704.3585324-CDS-P-littoralis_Contig149:196298..196355	1680789704.3585324-CDS-P-littoralis_Contig149:196298..196355	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 196299..196355 +
1680789704.3735063-CDS-P-littoralis_Contig149:196773..196892	1680789704.3735063-CDS-P-littoralis_Contig149:196773..196892	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 196774..196892 +
1680789704.3837557-CDS-P-littoralis_Contig149:197187..197268	1680789704.3837557-CDS-P-littoralis_Contig149:197187..197268	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 197188..197268 +
1680789704.3932014-CDS-P-littoralis_Contig149:197757..197847	1680789704.3932014-CDS-P-littoralis_Contig149:197757..197847	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 197758..197847 +
1680789704.4040096-CDS-P-littoralis_Contig149:198475..198566	1680789704.4040096-CDS-P-littoralis_Contig149:198475..198566	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 198476..198566 +
1680789704.415405-CDS-P-littoralis_Contig149:198950..198976	1680789704.415405-CDS-P-littoralis_Contig149:198950..198976	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 198951..198976 +
1680789704.4314113-CDS-P-littoralis_Contig149:199464..199514	1680789704.4314113-CDS-P-littoralis_Contig149:199464..199514	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 199465..199514 +
1680789704.4415386-CDS-P-littoralis_Contig149:200242..200309	1680789704.4415386-CDS-P-littoralis_Contig149:200242..200309	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 200243..200309 +
1680789704.45154-CDS-P-littoralis_Contig149:200711..200799	1680789704.45154-CDS-P-littoralis_Contig149:200711..200799	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 200712..200799 +
1680789704.4637156-CDS-P-littoralis_Contig149:201514..201651	1680789704.4637156-CDS-P-littoralis_Contig149:201514..201651	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig149 201515..201651 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig149.51.4	prot_P-littoralis_Contig149.51.4	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig149 186045..201651 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig149:185587..203341+
coding sequence from alignment at P-littoralis_Contig149:185587..203341+

protein sequence of mRNA_P-littoralis_Contig149.51.4

>prot_P-littoralis_Contig149.51.4 ID=prot_P-littoralis_Contig149.51.4|Name=mRNA_P-littoralis_Contig149.51.4|organism=Pylaiella littoralis U1_48|type=polypeptide|length=358bp
MRQEPAGYFIISSLIMRTAYIRRSCWIIASMGLSRGGAVSLTADTADRDQ
RHLEIDEIWQPETNATWQWQLQYPVVTSYDVDMYDIDLFDVSTETFEEIK
ANGSAVICYFSAGTQEDWRPDADDFPAEALGEPLGDWEGEVWADVNNEDV
RDVMVARLDMAAAKGCDGVEPDNVQVYLEALWGTDTGVNVTAEQQLDYNI
FLATEAHNRNLSIALKNDLDHLADLEPYFDFAINESCDEYDECEGYVATF
IAAGKAVFHAEYEREDISFCAASNDLGLSSLLKSYDLGPARCSCQDPSTN
YLCDMLLEEGTSGYTSSSSSSSSTSSVSSSSHTLSPSSSWAALAGATAAA
VFGAVLV*

mRNA from alignment at P-littoralis_Contig149:185587..203341+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig149.51.4 ID=mRNA_P-littoralis_Contig149.51.4|Name=mRNA_P-littoralis_Contig149.51.4|organism=Pylaiella littoralis U1_48|type=mRNA|length=17755bp|location=Sequence derived from alignment at P-littoralis_Contig149:185587..203341+ (Pylaiella littoralis U1_48)
GCGCCTCGGCTTGCGGACCACCACGGGACTGTACGAAACTTCCAGAACCA
ATTTCATGCGGTCTCCGGACCCGAGCCAGGCCAGAGGGAGGGATCTCTCA
GCTGGTTCAATTTTATTTTTGTTCTAAAAAACAATCCAAACATTCTTTGT
GATTCCGCCTGAGAAAAGTCCGAAATCTGAAAGTTCTTCGGAGACTTTGT
TGCGCTTCGGGAAAGAAGAATCCACTTCCCAATGGGCAGATTTGGGACGT
CGCAGACCAACTTCTGACGACACCTGGTATTCCGGTACAGCAGTATTCGT
ACGGTGTACGAGTATAAGTATACAACAAGAACTGCACAGACGACGCGTGT
AGGAGCTCTAGGACCATCTCGGCGGACAGCCGTTCTTCATTGTCTCCGTC
TTCTTCTGCGTACCGGGGCTGGCTGTGGAGAGGGACAGACTCCACACGCC
TCCGAAAAATGCGACAAGAGCCCGCAGGATATTTTATCATCTCGTCGTTG
ATCATGCGGACCGCGTACATCCGGAGGAGCTGCTGGATTATCGCCAGCAT
GGGGCTGAGCAGGGGAGGAGCAGTTTCCCTAACAGCAGATACAGCCGACA
GAGACCAACGCCACCTGGAGATCGATGAGATATGGCAACCAGAGACCAAC
GCCACCTGGCAATGGTGAGAAAGAGGACCCTGTGTTTCAACAAACTTGAT
AATAAAGTTAAAGTTTGATCCACATCAGCAGCATCATACAGCAGTTGTAA
TAGCGTCGGATGGATGTCTTTCTCTGACAGCTATCATACGTATTTACCTC
AAGGTTGGGGTATGGGGTTGTATTTTCACTCGTACTTCGAAGTATTTACC
CCGCCATGCCGGTCGCCCCGGTGGTTTAGTTGGTTATCCACGCAACCTTC
TGACATGCTCGCGTGAGTTCGAATCCCAGTGCAGTAACACGATCTGGGGC
TTTTTCTCGGAAGTGGAAAGCGATCGATTCGTGAGTAAACAAAATTCGAT
CGTACCATCGATGAGGGAAAGGGATTGCTGTCCCCTTTCTCGCGATAAAA
GCTCAACCAAAAAAGGCAAGCACGCAGAGGAAAGTGGAGAAAAAAAAAAA
AAACTCCTGTGTTGACTTCCCCCTGTGTGACCCCAGTTGGAGCGTCGACC
TACCCGAAAGGTGCAGAGTGGCGTCCAATTAAAGGGATAACAACACACAC
ACACACACACACACACACACACACACACACACACACACACACACACACAC
ACACACACACACTGAATCGCACCACCAGGAGAACCGGTGGGTCACGGAAC
ATGCACGAGTGTGTTGGTTGGCACGATGCAGGGCTATCGTGGGACGCATC
GTGAAGCCCAAACGGTCCAGTCTACGTGCCACTAATTATTGTCGGTGAAT
ATCCAGGCGATGGGGTAAACTGAGACTATTTGCCCCACCAAGGTGGGGAA
ATCACGTGTGCCCCACCGGCCGTCCTCTAGCACCACCTGTGACCGTTCGT
TACCATGGACCATCGCCCTGGTTTGCCTTTGCCTTGGTCTGTCATGGCCC
TGGGCCCTGGTTCGATGTACGAAGTACTTCGAAGTTTATGGTGATGGTTG
AGGTTTGTCTTGGTTAATTGTTTGTTTGTCGTACTGTTTCCAATTTTTGT
TTTTTCTTTCGAACCTGTTATTTTTTTTCTGTATTTTGTTTGGTACTTTG
GCCACCACAGATGGTACCCCAACGGAGATGGTACCCCAACGGTACCATAT
CTGATTTGACTGTGTGGGTGGTCATAGTTCATTGTTTGTTTTTTTTTTCC
TCCTAGCACGATATGTGCCTGTGGTTTGTGACCACAGGCTAGACTGCGGC
GGTAGTGAGCTAATGTGAGAATCAACAACAACAACTGTTTGGCCTTTAAA
AAATACTTCGAAGCTGGTACTTCGTAAGAAGAAGTAGCCGGTCGCCCCGC
CCGGTGGTTCAGTTAGTAATCTACTCAACCTTCTGACATTCATGCGTGAG
TTCGAATCCCAGTGTGGTAACACGATCGATCCGGGTTTTCTTCTCACAAT
GCGCGTGAAAGTGGAAAGCGATTGATTCGTGAGTAAAAAAAAATAAAATT
CGGTCGTACCATCGACGAGGGAAAGGGATTGCTGTCCCCATTCTCGCGAT
AAAAGCTCAACCAAAAACAAGGCAAGCACCGCAGAGGGAAGTGGAGAAAA
CAAAAATCCTGTGTTGACTTCCCCCTGTGTGACCCCAGTTGGCGCGTCAA
CCTACCCGAAAGGTGCAGAGTAGCGTCCAATTAAAGGGATGACAACACAC
ACACAACACACGGCGGTAGGTTCTCCTTTCGTTTAATTGCAGAAATGGCG
TCCAATGAACCTCTCTGGGACTAGGCGGCTCACGCAGGTGACTAGTCGAG
TAGTCTGTTTTGTTTTTTTTGTCGGGCAGAAGGGTTCCGTTTCGTGCAAT
CTCGCCGCGTATTGCCTCCATAAAAAAAATGAGCTCTCGCCCCGAGAATT
GCAGCAGCACAGCAGCCATGGCACGAGCTAAAAATACGTAGGGGCCACGG
CAAAGGCCCGCGATAGGCTCGATGGGTTAGGTTACATAGTGGAAGTTAGC
CCGGCCGCTATTACGAGCCGACAGAGAGGTAGCCTGCTGGATCCCTGGTT
CCGGTGTGTTTGCCCATGCTCTATTATCATTCAATTCCCCGGAAATAATG
CCTGATTTTTCCCGGTTGAAGGTTTTCCTGTATCTGTAATTCTCTAATCC
CCTGGGTGTGGAGGCCTTCGGCCTCTCTAGGGTACCCATTATTTGCTGCT
GTTGCTGCTGTTGCTGCCTGGTGAAGGCTGTCTGTGTCCTTCCCGCGGTT
GACGCTACCGCCTACACGGAGGGCGGCACAACCGCCTGCTACAACCAATT
CGTCTCTTTCATCGAAGAAAGCCTTGCCAGATGGAGAAGCCAATACATGC
TGTTTCCCGGAAGTGCGGCGCAATCACAGACAGACGTGTTCATGATTCCA
GAATCCAAGTAGACCGGGCTGGAACAAAAAAATAAATGTCGATTTTGATG
CCCGATTTTTCCCTCTGAAGGCCCAAAAGGGCTAGAGGGATGACAACATA
CACACTTCAGTACGAAGTTCTTCGTAAGAAGTTGTTGTTGTTGTTGTTGA
TTCTCACATTAGCTCACTACCGCCGCAGTCTAGCCCGTGGTCACAAACCA
GGCACATATCGTGCTAGGAGGAAAAAAATAAAAATAAAATAAATGGACTA
TGATCCCCCACAGTCAAATCAGATATTGTACCGTTGGGGTACCATCTGTG
GTGACCAAAGTACCAAACAAAATACAGAAGAAAAATAACAGGTTCGAAAG
AAGAGGCAAAAATTGGAAACAGCACGACAAACAAAAAATAACCAAGACAA
ACCTCAACCATAACCATATACTTCGAAGTACTTCGTACATCGAACCAGGG
CCCAGGGCCATGACAGACCAAGGCAAAGGCAAAGCAGGGCGATGGTCCAG
TAACTATATGATCAATAGACGAAAGACAAAAAAATAAAAAAGCAGAAGAT
ACAGGGAGGGCACAAAGACTGAGGGGGTGCACTCGTACACAAACGCAACA
AACAGGCCGCCAAACAAAGAGGAAGCAGGGGAACGAAAAGGGAAAAGAAA
AAAAAAGAGACAAAGAGGAATAAAATACATACACATGGAGAGTGCAGAGG
GGAGACCGGAAGTACCGGAGGTCGGGGGTCGGGGGGGGGTGATAAAAAAT
AAAATAAAAGGCATGCAATCAATCGCAAACATGTCTTGCCACGAGGTCTG
CCTGTTCACGCTTGCTCTCCTCAGTCGCACTCATGCCTCCTGCTACCGTA
CCCAGTTGTTTCTGCCCCACATCTTTGGCAGCAGCTACACCACCATTCCG
CCCTACAGGTTTTCCACTCCGGCCACCCCGTAGCTTGGCTTTGGGCTGCT
TCTTCTTGTGCTGTGCAACTCCAACCCCACTACCCCGCTGCCCTTGTGCC
CCCCCGTACTCTCCTCCTCTCGTTTATCCCCGCCATCCGTTCCCGTTCTC
CCTCTTTTGGCCAAGGCCTGCCCCTCAGCCGCGTCCCTCTCCCTTTTCCG
TCGACGTGTCTCTGATAAGTCTCCCTCTTTCTTGAGCCACTCGTCCGTGA
ACCGCCGCGCACCCTCGTCGATCCTGTCGTACCACTCGTCAGCTCTCTTG
GCACTTGCCTCCCACCCCTCGTTTTTGTCGACAACGCTGTCGAACGCTTC
GAGGTCCTCCTGCATTCGCCTCAGCCAGTCAAAGTCTTGCCCCTCCAGAT
ACCTCGCTCCCCCCTGCAATTCTCCCAAAAGAGCAATTTTAGGGAGTCTC
TCGTCTCTCATGCGCGCAACGAATTACCGTATTCTACACAAGATACCACA
CCCCGTGTTAAGATTTTTGCATTCCGTATAGCTCCACAACCAGGAGGGTG
CCACTGCCGAAAAGGGTGGTTTTGGAAAGATCTCGTCGAGAGCTTTCGTA
TGACGGGCTGTTTGGTGTTCGCACCCTCCTGGTTGTGGAGCAATACGGAA
TGCAAAAAACCTAACACGGGGTGTGGTATCTTGTGAAGAATACGGTAGGT
CCCATTGGATATCCCTCCATCCAGCATCGTGCCGACATGCATTTCCCGTG
ACCCACCGAGTGATGAGTCTCTTGGCGCGATTCCCAGCCGGTGGGGTAAA
CAAGAATTACCCCACCGGTGGGGTAAATAGTAAATACCGGTAGTCGTCGT
ACCGTTTCGGAGAAGGAATGTATGTGACGACGTAAACGCATGTTGTGCGT
ACAGCAGTATTTATTTTAGTACATACATACGGAGCATGTACGAAGTATTG
CATCGATAATATTACATGTAGCACTCTGTTTTTTTGGCACGCAAAAATCT
TGTAACGCACAGCCAAGGACCAAACACCACAAACGGGGGTACATCTCTCC
AAACAAAAGTAAGTCCAGAAAAACCCAAACCTTGCAGCAGTATGGACTGA
CCATAACTTCTCGAGAAAAAGGCAAAAGTTTGTAAAAATTCTTTCAGATC
TATCTATGCCGTTCATGCGAATACAAAATAATAAAATGTCTTGAGTTTTG
TGTGATTTTTTTGTTTTTCGCAGCGGGGGTCCAATGTTGATGAATGGGCT
GCTGGCCATAACTCCTCGAAAAATGCGAATTTTATAAGAACCCTTTCAGA
TCTAGGCCTTTCATGCGAATACAAAGAACGAAATGTCTTGCGTTTTTTTT
CGTTGTTTTTTTTTCCCAGCAGGATGATGACCCGAATTTGAAGGGCGGCC
TGGCTGGTCGTAACTCCTTGAGAAATGCGATTTTCGATTCAATTCTTTCA
GATCTATGCCGTTTGTTCGAATTCAGAAAAACATTTGTCCTCGAGTTTTT
TTTATTTTTTTGTGATTTTTGTTTTTCGCAGGGAGGGCGGGGGATAGGTC
AAAAATCTTTGATGTTCTGACCCAAAATGGGCGAGATACGGATATTTTTC
AATTTGTCTCTTTGAAATCTGCCACAAACAACCTCGTTTGTTTGCTTCTT
TTGTCTGTCTGAAGCAAACAGTAATATGCTTCAAAATGAGATACTACGAA
GAAGAAGGAAAATGAATAACACATTTATTTTATTAGTGTATCATATGGCT
TTTCGAAGCAATTGCGCGACAAACAGTCGTTTGGCGCGCAGAGCGAAGCA
GTAGGTTTATCCCACATCGTGGGTTAAGAAAGAGGCAGTAATATTCAAGT
GTGAGTGGGCAACAAAGAAAGCCACAACGCAGCAGCCGTAACACATTTTA
CTAGCGTAGACGATAGATAAAAAATTATTTCACAAAGCGGATTCGACATA
ATTATACTGACTGCTATTGTTACAGAAGTGCAGTGTGTATGATGTGTGTG
TAGTGTGTGTGTGTTTTGTGTGAGGTAATAGTGCTTGCACCGCTATGATC
ATGTGTTCGTGTAAGTTGTAGGAAGAGTGCACGCTATTTTAGAATAACTA
TGAATGGCAGTGCCGCAGGATTCAATTTGTGTGTGCGACCACCAAACGGA
CAAGGTCTCAATGTTGTATTTGTTGCCACAAGAACGACCTTGTACGGAAA
TTGTTGGCCCAGCAAATGCGGCCAATCCGATTCTGATTTTTTTACACAAA
GCACCCCTCACAAGGTGTCTGATTGTCCACCCGTGTACACTCCAGACCCT
CGTCTGGAGAGAGGCGAACACATCGATGTATTTGTAAGTTGAGCCTGATA
CCCTCAGGGGGTTGCAACCGTAACGGTATTGTATGTCATTTGTTGAGTAG
TAGAAAACATGTAGTAGAGTATCATTCTCTGTGTTCGTTGCTAATCTCGC
TGGATCCTCATCTAGAGAGAGGCGAACACATTGATGTATTTGTAAGAAAA
CACACACACACACACACGCACACACACACACATCGATGGGTTCGCCTCTC
TCCAGACGAAGGTCTGGAGTAGATATTGCAGCGAACACAAAGAATGAGTG
AGGTACATCTACCAGTGTTTCTATAACTCATCGGATAATGTATACCGTTG
CAGCTCCCCTGAGGGTATCAGGCTCAACAAGACAATTTGGTGGTCGTCTT
GTGTGACACACGTTACATCACATGTGTTGAGTGTTAAACAATTAATTCTA
TATTTGTGCTGTTTGCATCATCCTTGGCATAGTAGTAGTTGTGGTGTTTG
ACCAATCAGAAAACTGAGTGCACCTTTTATCTCTCTCTCCTTTAATCTCT
CTCTGTACTTCGAAGTAGATTTTGTGTTCCTACATACAACACAGCAAAAT
GCTTTTAAGTCCGCTAAGATATGATACCTATCAATCTAACTGATACTCCT
GTGTCGTCTTATTTTCTACTTTCGTACCTTTCTTTCACCCTCTTGGCCTC
ACCACCTTGCTACTTCGTGCTTCTTACCCTTTGTGGCCCAGTTACCAGTA
CTGTATACTTGTAATGACACCTATCAATGTACTACTTCGTGCTTCTCACT
ATTTGTGGCCCGGTTACCAGTACATACCTTACGCTCCATCACGGGCACTA
TAATTGTGTAGACGAGTGCAACCTATACTCTGCGTTTGATAGCCTCACCA
AGTTTGACGTTCGAGTTGCCCGGGGCAGTTCGTTTGATGAATGAAGTTCC
ATAATACCTGGTACAGCAGTTATCAACTGAAGTTTGATGTTGTGTAACAC
GCCTGCCTCCAGCTCAACCCATTTGAAAATTCTTGAACATACCTGTTATT
GGTGGTTAGACGATCTGGATCAGACGATGCCAAATGTGCAGAGAGCGATA
TGTGCATGCAGTGTTGCTACAGCCTGCACACTCCTCCACACCCATCGGAG
ATGATTATCTACGATGTGTTTGTAAGTTTAAAAAATATACTTCGAAGTAT
AGTAATATCATATTCTCCCGGTGCTCAATCCATCCTAAAGGGGGGGGCTG
CGGGGGGGGTCTAAAATATAAATCGTTTCTGGTATGATATCAAGTACGTA
CTTCGTACATGCAATACGAGGTACGTTCGAAGTAGTAGTACGCAGAATGA
AACAATCAACGTATCATGTTGTAGTTATGTGGCTGTGGGATTCCGTGCCT
GGCTGGGGCAGATCGGTCCGCGGCGCCTGATACTTGCGATATCTACTCCG
GACCCTCGTCTGGCGAGGCAAACACATTATTATTGTGATGTGTTCGTCAG
TTAAAAAAAAGAAGTAGTAGGGCAGCCGTATGCACTCTATAAAAATTGTA
TCTGCTGTGCAATCAAAGGATGATGATGTTTACTGCTTGCTGCTTTCTAT
GCTCTTTGCTAGACGACGTTCATCTCAATATGGTGATATAACAAATCGTC
CACACCCTTCCTTGCAGGCAGCTTCAATACCCTGTCGTGACCTCGTACGA
TGTGGACATGTACGACATCGACTTGTTCGGTAAGAGGCCTGTAAAACCGC
AGTTTGAAATATACGAAGTAAATAAAGTGCCGTCGCCTACATACAATATT
TTGTTTTTTACAAGTATTTCAAACCCAGGATGCGTGGGATTCCTAGATAA
AGTTGCCCACAGCAGGAATTCCCAGTCGAAATGGGCCTCGTACGCAACAA
ATGCCGGTAGCTCATCTTCTACTACTTCGCAGTGATGGAGATCGAAATCA
TTTTAGATCGATCGCATTTTTTTTGGCGATTTGGGGGTGGATTGAGATCG
AGAATATTGGGGCCGTTCTTTTGATGTTCGTTCAGGGAGGATGACAAGGC
ATTTCCCCCGGGGTTGTTTCTACATGATGAAAATGAGATGTTCAAAATAC
CCCGCAGGGATGATAACTACCCGTCTCTGGGCTTCCACCCCTAAATTTTC
AACAGTACGGTAGGAATCGATCTCGATCGAGTCAAGATCGAGTCAAGATC
GGCCACTTTTTCGACGATCGAAAAAACATCGAAATTCGTTTTTCTACTCC
AGATCTCAAAATATATGATTCACTGAACATTTGACATGCATGCGTACAAA
ATCCCCTCCGGAATGAAGTGAACTGGGACAAGGAAGGGGGTGATTCAAGA
GGAAGAAGAAAAGTTGCAGTGTATTTGAAAAGCTTGTGGTAATCGAAAGC
GGTTTATTCCGAGAAGGTCGATTTTTTCGATCGCTTTTCCCATTTCCGAT
CGAGCAGCGAACCCCCAAACGGCCGCATGATGTTTTTGCTCTTGGAACAG
AACACATTTGACAACATCAATCGGTGCTCGACCCTAGAACACAAATCGCA
ACCAAACCTTCACCTTTTGAGGCGTACGCTCTCGGGGTTCGAGCATCAAT
TTTCGATCGCAATTTTTGGTCGGTACTCCAGCCGGAAATCACGTGGAAAA
ACGATCAGGTCGCCAACCGAAAATTGCGATCGAAAATTGCAGCTCGGACC
ACTCCGCCAACGAAACCTCGCGACACACAGAGCCCACAACTATCATACTT
TGGTGTTCCCAGGGTCAGAACACGGGAGCGTATGATGCGCTCCAAAAGGT
TTGGTCGAGATTGGTGTCCTATGGGCAGAGCACCGATTGATGTCGTCACG
TGTGTTGTGTTCCAAAGGCAAAATATGTGGCCGTTTGGGGGTTCGCTGCT
CGACCGGAAATTAATAGGGAAAATCGATCGGGAAAACCAATCTTATCAAC
ACAGCAGTAATATGAGAAACGGTCTAGAAACGCGTTTGTTTGTTGTGGTA
GAAGACAGCTTCATAACAATGTGCAACGAGGAATATGTACCGGATGAGAA
CTGACGACAGCCGATTTTTATATTCACTGATTTGTTTGAAAAATAGCGAA
GGAGAACCGGACAACCACACGCCACTGGGTTCTTCACACCAGTAGGAAGA
AATTATGTGTGTTGACGTCCCATTTATTCCGGGCACCAGTCTATACCGTT
CGGTGTATAAAGGGGGTGCACCAGCCGGGGTCACACAGAAGGAAAGTCAC
ACATACATGGGGTCTTTTTTTTTCCCTCAAACTCACCTTCTGCGGTGGTG
GTTGTCTCTATTGCTTTTCAGCTTGTAGGTGGGTTCAAACGTCCGTAACC
GTCGTCGAATGTGTTTGTGTACTCGCGACATACTACTGCTGTGAGAAAAT
TCCGAGATCGTATGACTTCACGGGAATTCCATCTCACGTCCTCGGTGTCA
GAAGGCTTGGAGGTTTCGTGCAGACCCACCGGGGCGACCGTTGTAGGGAG
AGGCGTTAGGCAAGAAAAATTACGTCGGTTCTACACTTCTACGATATCAC
TGCATCGCACTCAGCGGCGACCAGGGCTTCTCTCGGACACACTGATGTTT
GAATAGGGAAGAAAAATGAAACCCAACATTTGTCATGGACTGTCTCGACA
AAGGCACAGCGACGGCGTATTGTTGAGTTATGACCTGGCAACAGCCCTCC
TCGCGAGGATCCTAAAACAACACACCGCCCTCTTCGCTCGAATCCTCGTG
AAGGAAACCAAAAACTATTAATCCATACAAATTCAGAAACAAACCGAAAA
TCAACCAAACAACCAAACATCTCTTTGTCCTCCCTAAACCAAAAACTATT
AATCCATACAAATTCAGTAATAAACCGAAAACCAACCAAACAACTAAACA
CCCCTCCAAACATGTTGTGTTGTGGTCACCTGGGACCCCGAATATCTAGC
GAACAAAACTAAAATAAAAAAAACCAAAGTCTTCCAAAGATTTGTAGAGA
CCCATAAAACATTCGTACAAAATTTCAGAGTCGAACTCGTAAAAAACGCG
TAAGAAAACGCGCTTTAGTGATATGAACTCCTATATACCACGAGTTACTT
GAATTTAGTATGAAATCGGGTCTTTTTGGGGACTTGAAAGCAATAATTAC
CCGTAGGCTAGTTTGTGTACGTGAGACGATGTTTTTTGTAAATACCTCCC
TTGGATCCCATGAAGGTCACCTATGTTGAAAAAAATAAAAATAAAACCAG
GGGTCGCGTTTTTTTGAGGTCCTGCGTTTGGGGCTATCTCCAATTACTTT
TTCTTGCGAGCTACTGTAACGAGGCACACCGACACACTCTGCATAGCCGT
CCTTCTCCTTCGAATCCTTGTTAAGTTTATACGACCGTCGCGAGCCACCA
ACACCCTGTGGCACAGCAAAGGTACGCTGGCCGACGACTCCTTGATACCC
ATCCGCGCGTGCTTGTTCGCTTTTGTTTGCCTTTTGGTTGCTTTTCCCGT
TGATGTGCCCAGATGTCTCGACGGAAACGTTCGAAGAGATCAAGGCGAAT
GGGAGCGCGGTCATCTGCTGTGAGTTCCCTCCTCGCAAATGCAACGAAAG
ATAGAGAGACTCTACATGCATCCAATCGCTTTTGCTGTGTTTTTCATATT
TTCTCGAGCTGAAAGCCGCCTTCGTGTCGCCTCCAGTGTGGAGCAGCATC
CGCAGCAAGCAGTCGCATTCATGACAGGTTCCGCGCGAGGTTTGTGGTAC
CCCTGCTTAGAAACGGGTTGGTTCGACCGGTTTGTTGTCCGACGCGCATG
ATAGCTTGATGCCGGCTCATTTCCGCATCTTTAAGAAACGTCCTTGGGTA
CTTCGCCGCGTCGGATGTGCATCTGGACCACACCAAAGCAAAGCGCCCGA
TCGGCACCACCCCCCGCTGTATCACTGCACAGACAGTTCCGCCGCCCTTT
TCATCCCTTTATTATATATACATCCCGTCGGCCACAGATTTTTCGGCTGG
AACTCAGGAGGATTGGCGCCCGGATGCCGATGACTTCCCTGCCGAAGCTC
TGGGAGAGCCTCTCGGAGATTGGGAAGGCGAGGTGTGGGCCGACGTCAAC
AACGAGGTGCACACGCGTGTGATCGGCTACAATATGCCACTGCTGTTGCG
AAGTGGTTTTACTTCATCCCCGTGTGTGGTGCACATTCCATTTCGCGATT
TCCGCGGGTCGAGTACAAACAGAGAAAAGACACACACACTGATGCATCAG
TGAAAATTAGGTGAATACTACGATAAAGCACTTGTCAAGCAAAGAAAGTG
TGAATGAAAACTCGGGTCGTTTCCGACGTGCGTCTGGATTTTTGTTTGAT
TTTTGTTACCCCACGCACGAATCCACCCACCCACCCACCCACCCACCACA
GGATGTTCGCGACGTGATGGTCGCCCGGCTGGACATGGCGGCGGCGAAAG
GCTGCGACGGTGTCGAGCCGGACAACGTGCAGGCGAGTCCACACGGCGCG
CGCCCACACACGTACACACACACACGACCGGCAACAACCGACAGACACGC
ACGGCCGGGTACAGAAGCGTGTACTTCGAAGTACCTGTTTTATCTGTAGT
TCTTGATGTATATCATAAAGACCAACTTGTTGCTTGTACAGGTATCTGCT
ACATGCGCGAATGAATGAAAGAAAAGGCAAGTGAGTGTGCTTCAACGGAA
CGACCGGCAGGGGTGGTGATGTGGCAAGAAGGATTGTTTCAATACTTCCT
CCTCCAGAACGTCTTGTTTTCCTTTGGGTGCTCTAAACTGCTTGTCTGCT
TGCTGCAGGTCCTTCCGGCATTTATTTTCCTGCCTGTCTTTTAAACCTTC
AGCTGCGCGATTTACGGCACACGCCGTGTCCTGTCTACTCGCACTGGTCT
CTTGATTGAGCGCTTCTTGGGCTGCAACTATTCGCATATTGAATTTTCCG
TTGCGTGCGGATGCGTGATAGGTGTACCTCGAGGCTCTTTGGGGCACTGA
TACGGGAGTGAACGTAACGGCAGAGCAACAATTGGACTACAACATTTTTT
TGGCCACGGAGGTATGTGTTGAACATAGCAAACAATAAATAGCATGTGTT
TTCGTTTTTTGTTTGTATCGCTGATGGTGTGTCTCACTTCGTAATTCAAA
GTCTTTTTCTGTTTTTCCCACGCAATATTTTCTCTACGCTTTTCAAGTTT
GAGCTCTCTTTCCTCTATCTACGCTTGGGTGGGTGGGGGAACTCGCTTGC
TGTGGTTGTTTACATTGGGTTATAACCTGCTTAGTTCGCTGTTCTTGGCG
TTTCGGTTGTGATACGGTTTTGTCGATGATGGTGATGAGTTTCAGTATCG
TACCGCAATGAAAGCAGTGCTCTCTTTATTTTCCCTTCCCCGGATGGCGT
CACCTTTCAGTTGACAGCTGTTTCTCCCCAATACCCAACGCACTTGTATC
CCTTTTGGCTTTTTTGCTCTTGATTTTCTTTCTTGTCAAAAGGTCTGTTT
CGCCGTGGTCAATAAATGCGCCGCTTTTACGCTTCTATTTGTTTTCACGA
CGGAGAAGTTGACAGGACGCACGAGAACCACAGCAGCGTCGCTGGACTTG
ATCATGCTTCGTCGTGTCGGTCTTTTCCATTTTTGCGGCTAAAACAAACA
CCACCGTGACAACATCCAACCCTCCACACCACACCGCAGGCGCACAACCG
CAACCTGTCCATCGCACTCAAGAACGACCTGGATCATCTCGCCGATCTCG
AGCCTTACTTTGACTTTGCCATCAATGAATGTGAGATACAAGAACAAGAG
TCGGTTGATGCGTCAAAGGTTGTCCCTTCGTAAGGTACCTCGACCACGTT
GCGCAGGTGTTCCATCCGATGTGGCGTATGATGGGTAATCCCTAAGAATC
GGCGTGCATGGACCGCTTGTGCGTCCCTGACATATTGAGGCGGAGGGGTG
CCGTAGAGAGGTATATTCGACAGTGATTATCCTTTCCGTGAGCGTGAGGC
ACCATTGGGTGCTTGTTTCAAAATGTTTTGTTTGTGTTCTGCATGCTTTT
CCCCTTGCCTGTGGTGCCTTGCATGTTGTGCCCTTGAAACGTTTTTCGGG
GCCGCTGTCTGCCCTTGCCCCGTGTCCCTCCTTCCTCTCCCCCGTCCTCC
TACCAATTGAGCAGCTTGCGACGAATACGACGAGTGCGAGGTGAGTCGAG
GGAGCGACTGAGTGCGGGGTCGGTGTACGAAGGGAATCCATCGGTCCCAA
GCACACGAGCACGCCCAGTCAAGCTGCATCTCGGCAGACAGACTCCCCGC
CATTAGCAAATGTTCAGCATCTAGCAAATACACATCAGTATTTTACAGTG
CTCCGCACCATTTCGCCGTGCACTTGCTCTTCATACAGTCTGCTTTCTCC
GGCAATTTCATGCTGGTTAACCTGCAATGTATATACGAATGATATGTCTG
CCCTCACAAACCAAAATTGAACCTAAAATACCAGGTGTTATCCTTCATTT
GACGCACACCGTCTTGTCATGCACAGTTTCTTGCACACATCCCCCGATAT
ACTCTGTCTGCGTTTGTTCCACGTGCTGTGTTCTTCATGTTGTACTTCGT
TTTCATGTTTGTGTTTCGTGTTCGTGTTTCGTGTTCGTGTGAACGTGCTC
TATGGGATCGTGCTTGGCGTGCTGGCAGGGTTACGTAGCGACGTTCATCG
CGGCCGGCAAAGCTGTCTTCCACGCAGAGTAAGTGAGCGTGGTGCATGCC
GTGCTACACGGAGTTCGAGAAGTGCGCTGACACTTTCACCGTTTGAGATG
TTTGGCGCGCGGTCTAACCCGTAGCTCCGAGCTACAAGGTATCGTGAGCA
GGACCGCCGGGGCACCTTTAGAACAAAATTTATATAGCAGTCGTGCATAC
TTCGAAGTATATAGATACAACAAGAGCAGAGCAGCGATATTTTGTGTTAC
CATGCTTTGCTATGCCTTTTCCGGCCGTTTAAGTTTTAAGGTGTCGGGTC
AGGACTCTTTTGCCCTGGCCTGTATTCGCCCCCCTCCCCTCCGTTCCCCA
CCACGCACCCACGGCCATCGGCCGTAATATGTGCATCCGTATCCTATCTT
CCCCGCGTCCCGGCGTCTTCTTTCTCTGGGTGCGGGGCATCGTCGACTGA
GCTAAAAAATGATGATGGTTTTACCCATACAGTAGTAGTTGCGGCGCGCA
GAGAAGAACCGTCAAACCTGGAGTCGAGGCTCACTTCTGTCTCGTGTTTT
GTCTCCAACCCTGAGCAGCCTCTTTTCCACACTATAGGAGTATAAAAAAG
TGGGACCTTTTCAGAGTGACGCCAAATTCTGAGTTGTGTTCTTCGCCCCG
ACTTCGTAACTTTCGGACTATTTTTCGCGACAATCTCAGCCTCTTCGTAC
CAGTCAACATTTTTTTTTCATTGAATTGCGGGCCTCAACTCGTAACGGTG
ATGCAGGTATGAGAGGGAAGATATTTCCTTTTGCGCGGCTTCAAACGACC
TGGGCTTGTCTTCGCTTCTCAAGGTGCGCGTAACGTTAATTGCGATATCG
GGTGGTGTTTGAACTTTTGCATGTTCTCCCCATCCCTTGCGCATGGATGC
GTTTCTGTCCCCCTCTCCCACGAACGACCCCTGTAAACGCTCTCGGCCAG
GAGAAGCGCGGGGTTCTTATTTGTTCGAAGAGAGACAAACGCGTCAACAG
ACTCGGTTTTTTCGCCCCGTGTCTCGCCTTGCACCTGACTTTTGCTTTCG
CACGTCAAATTTATGTGGAATAACCGTAGTCTATTCGTTTTCGGGAGAAA
AGTCGAGAAACAATTAATTGACCCCGCAACCCCCCCCCCCCCCCCCCCGC
TCACACGCACACGCACACGCACACGATTGAATTTATCGTGCATTTTGTTG
TGTGCACGTACCGATCGTAACGCAGTCGTACGATCTTGGGCCGGCGAGAT
GCAGCTGCCAAGACCCGTCCACCAACTATCTGTGCGACATGCTTCTCGAA
GAGGGCACCTCAGGTTTGTAACGCACAGCCGTATAGCCGCGCTGTCGTAG
ATTGGTTGGCTCTACCTGCGCCGATGGGAAATTCCCACGGCTTTCTTGCG
GAAAAGCCCTGCCCCCCCCCGCCCCCCCCCCCGCGCCCCTGAAGGGTAAA
TGTGTTCGTCTGCTATACGCGTATGGTCATAGTAAATACGCAGACCAAGG
CGCCTTGTGGTATGATATTTTGTTTACAAAACATATTTGGCGGCTACGTA
CGTGCTTGTTTCGAGGGACAAAGTGGGAGGAGGGTTACCCACCTTCCGGA
CAAGTCTCTAGTCCTGAGAGAACGGTGCGAAGGAGGCAAGAGTGTACCAG
GTAGCCATTTCTTCTCGCACCGGCCGCTTGGTTCTATGCAGTTGGGACGC
TTGCTTTTTTTTTCGCGCTGGTCGGCATGTGTTTGAAGTTGGCCGCGTAC
CTACTGCTCAAAGAGGTTTATCCTACTGCGTAACGCTGTCGCATTTTGCC
AAGTTCGTATGTTTGCTTTCCGCGTGCAATGAAGGGCTGCAATCTCGCAA
TACCCCCCCCCTCCCCCCTCCCCCCATCTCGATGTTGTAGATTGAATTCA
GGTCGCTGAGATCGTGGTGACCGCCTGCACACAGCTCACTGATTATGTTT
CGAAGAGGCACTCCCGCCCTTGCCTATCTGTTCTGCCCACCTACACATGT
CCGTTCCTATTAAACGTGCTGTACGCAGGTTATACGTCCTCGTCCTCGTC
CTCGTCCTCGACTTCATCCGTGTCCTCATCATCACACACGTTATCGCCGT
CTTCCTCGTGGGCAGCGCTTGCCGGAGCTACCGCGGCGGCCGTCTTTGGC
GCGGTTTTGGTTTGAGGATACGGCGGTAAAAGAAGACCATTCGCATCCTT
CCTTTTTGTATGTTCGTTCGGCGTTTGCTTGCCACGTTTATTCCAACTGC
GTGCGGATCGACCGTTGCGCTGGACTCCAAAGAGCGTTCGTTTTGGCAAC
GACCGGCCTAGACATGAAGCTCTCTTTTTTTGGAATTAGCAGTTCGACAA
CGGAAGACACCAACCCATTGATGTGTACTTGGAAATGGCCTGCGTGTGTC
TGTGATAACCAGGTCTCGTACGAGCACGGTTGAAAAGCGGGGTTCGATGA
ATTCACAAGAAGAAGGGCTGCAAGAGCCCCCCTAAACGTAAATTCGCTTG
CCTCTCTCCATCCGTGGTCTCCTTCCATTGCCTTGTCTGCACGGTACCGC
AGTGTGTGGAAAACTTGAGGTTTGGCTTTTTATGCAAGACTTGCATACAT
GCTTCGTGAAGAGTGGCAAGAGATATTTTGAACGATTGTCTTTCTGGCCG
TCTTGTATTTCGTAACTTTGTGTGCTGTGCGCGTTTGCTGGTGCGGGGGA
TGTATCGATTACAGGTGGAAGTACATCTAAATGTAGGTGGCGTGGTCTCC
GGTCGCGAGAACGCAGCAGGTAAAAGACTGGCTCGACGGGCCTACTCGTG
TACCAACTATATTGGCTGTTTTGCAAGTGTGTTGTCATCCCATATTCTCT
GGCACACTAGTCTGCACCCTGCGGTTCAAACTACAGGCTAGGCCCATCGA
CGGGGTCACACAGGAGGAGTTACTCCCACCTTCCTTCTGCGGTACATGCG
TGAGATTTTTTCTCGCGAGCAGGGATCCGCGGTCCCTACCGTCGTCGGCG
AAGCCGAATCTGCTTTTACTAACAGCATAGCCGCTTTCAAAGTAGCAAAG
GAACACATTCACCGGGAATCGAACCCCCGTTCCTCTGCATCTAGTGGTTA
ACGAGGAGACCACTAGTCCAAGTACCTCTGTTTGGCTTGTTTGTGGCGAA
GCAGGAGTTTGTCCGACAGTTTTTTTTTTTTACTTTTGGTTGAATGTTTG
AAAAAAATCCCGGTTTGAAAAAAATCGCGATATCATCGCTTTTGTTCCAT
TTTTCATTCCGGAACGGCGACGGTTCGGATATTTTTGCAACAAATACGCA
AGCGTTAGGTATATCTTGCACCTTGAAGTTTCATTTCTAATAACCCTTGT
GCAGCATGCACAACAGTTCCTTGTTTGGGTCGTGTACGAGTACATCGTCG
TGTTTCTGAGTGTATCGTGAGAGGTCTCTGTCGTGGATTATTTCGAGGGG
TGGGTGTGGGATGAGGAGCGCGCGCGTCCAGATGTTTAGACTGTGCCGTC
ATAGAGTAACGTGTGTTGGTGTCGATCGGTGATGATACGGATCCATCCTG
GGCAAATGCGTGTCAAGCAATGTTTTGTTGCCAAACAGGCAGTTGATGTT
CCATCGGCGTCTTGCTCCCGATGGCTGCGTGTCTTCGTGTGTTTGTGGGG
GTGGCTTGGCGCGGCTTTTGGCGCGAGTAACAAGTATGGTGAAGACAAAA
AAAATCAGCAAGTTTGTTGAGTTGTGTGTTTCGTTCCTCCAAGATTTTGG
AACACCGGGCAAGCTGAGAGTATGGACGGCCGGGCCATTTCCGTTAGGAA
AGCCAATCCGTTAGGAAGCACGTGAAATGAAATCTCTGGCTTTACAGAAA
GACGG

Coding sequence (CDS) from alignment at P-littoralis_Contig149:185587..203341+

>mRNA_P-littoralis_Contig149.51.4 ID=mRNA_P-littoralis_Contig149.51.4|Name=mRNA_P-littoralis_Contig149.51.4|organism=Pylaiella littoralis U1_48|type=CDS|length=1074bp|location=Sequence derived from alignment at P-littoralis_Contig149:185587..203341+ (Pylaiella littoralis U1_48)
ATGCGACAAGAGCCCGCAGGATATTTTATCATCTCGTCGTTGATCATGCG
GACCGCGTACATCCGGAGGAGCTGCTGGATTATCGCCAGCATGGGGCTGA
GCAGGGGAGGAGCAGTTTCCCTAACAGCAGATACAGCCGACAGAGACCAA
CGCCACCTGGAGATCGATGAGATATGGCAACCAGAGACCAACGCCACCTG
GCAATGGCAGCTTCAATACCCTGTCGTGACCTCGTACGATGTGGACATGT
ACGACATCGACTTGTTCGATGTCTCGACGGAAACGTTCGAAGAGATCAAG
GCGAATGGGAGCGCGGTCATCTGCTATTTTTCGGCTGGAACTCAGGAGGA
TTGGCGCCCGGATGCCGATGACTTCCCTGCCGAAGCTCTGGGAGAGCCTC
TCGGAGATTGGGAAGGCGAGGTGTGGGCCGACGTCAACAACGAGGATGTT
CGCGACGTGATGGTCGCCCGGCTGGACATGGCGGCGGCGAAAGGCTGCGA
CGGTGTCGAGCCGGACAACGTGCAGGTGTACCTCGAGGCTCTTTGGGGCA
CTGATACGGGAGTGAACGTAACGGCAGAGCAACAATTGGACTACAACATT
TTTTTGGCCACGGAGGCGCACAACCGCAACCTGTCCATCGCACTCAAGAA
CGACCTGGATCATCTCGCCGATCTCGAGCCTTACTTTGACTTTGCCATCA
ATGAATCTTGCGACGAATACGACGAGTGCGAGGGTTACGTAGCGACGTTC
ATCGCGGCCGGCAAAGCTGTCTTCCACGCAGAGTATGAGAGGGAAGATAT
TTCCTTTTGCGCGGCTTCAAACGACCTGGGCTTGTCTTCGCTTCTCAAGT
CGTACGATCTTGGGCCGGCGAGATGCAGCTGCCAAGACCCGTCCACCAAC
TATCTGTGCGACATGCTTCTCGAAGAGGGCACCTCAGGTTATACGTCCTC
GTCCTCGTCCTCGTCCTCGACTTCATCCGTGTCCTCATCATCACACACGT
TATCGCCGTCTTCCTCGTGGGCAGCGCTTGCCGGAGCTACCGCGGCGGCC
GTCTTTGGCGCGGTTTTGGTTTGA