mRNA_P-littoralis_Contig6.302.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig6.302.1
Unique Name	mRNA_P-littoralis_Contig6.302.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot
Match: D7FIK1_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FIK1_ECTSI)

HSP 1 Score: 382 bits (981), Expect = 1.130e-122
Identity = 221/279 (79.21%), Postives = 237/279 (84.95%), Query Frame = 2

Query:  323 YVILDYTVPGLGFVDDILKSFLTWVEDNPAQGAIAFAGVYIFTTVCFIPGSLLTLGAGLVFGRALGTGLGVVVGSLAVLVGATIGAILAFLLGRFVLQQQAQGLFNKFKVLTAVNRAIQSQGLKLVILLRLSPVVPFSAFNYVMGVTAVKFRDYALGCVGFIPGTVAFVFIGTTASGLLGDDGEXXXXXXXXXXXXXQLXXLIVGGIATVIAVVLVSIYSKRALNKVLEEDRIAHEDMEAGGEVNGSAATTRGEGVLMERPQQDGTRPSAIEHAVRMPV 1159
            YVILDYTVPGLGFV D L SFL WVEDNP  GA+AFA VY+FTTVCFIPGSLLTLGAGLVFGRALGTGLG++VGSLAVL GAT+G+ILAFLLGRFVLQ+QAQGLFNKFKVL AVNRAI+SQGLKLVILLRLSPVVPFSAFNYVMGVT V FRDYA+GCVGFIPGTVAFVFIGTTASGLLGDD E XXXXXXXXX   QL   IVGGIATVIAVVL+SIY+KRALNKVLEEDR+  E +E G E              ME+  QDG RP+ +EHAVRMPV
Sbjct:   57 YVILDYTVPGLGFVADTLTSFLEWVEDNPGLGALAFALVYVFTTVCFIPGSLLTLGAGLVFGRALGTGLGILVGSLAVLAGATVGSILAFLLGRFVLQEQAQGLFNKFKVLKAVNRAIKSQGLKLVILLRLSPVVPFSAFNYVMGVTDVFFRDYAIGCVGFIPGTVAFVFIGTTASGLLGDDSEEXXXXXXXXXGTVQLIVGIVGGIATVIAVVLISIYAKRALNKVLEEDRVEQEALEMGLESGNGGMNN------MEQSAQDGARPAVVEHAVRMPV 329

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BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot
Match: A0A7S2Y1P9_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2Y1P9_9STRA)

HSP 1 Score: 276 bits (707), Expect = 1.480e-82
Identity = 155/259 (59.85%), Postives = 197/259 (76.06%), Query Frame = 2

Query:  266 KKQKLIKAGLFLLLVIIVIYVILDYTVPGLGFVDDILKSFLTWVEDNPAQGAIAFAGVYIFTTVCFIPGSLLTLGAGLVFGRALGTGLGVVVGSLAVLVGATIGAILAFLLGRFVLQQQAQGLFNKFKVLTAVNRAIQSQGLKLVILLRLSPVVPFSAFNYVMGVTAVKFRDYALGCVGFIPGTVAFVFIGTTASGL---LGDDGEXXXXXXXXXXXXXQ-------LXXLIVGGIATVIAVVLVSIYSKRALNKVLEE 1012
            KK+K+ K  L L+LV ++IYVI+DY+VP LG V+ +L  FL WVEDNP +G  AFA VY+F TV FIPGSLLTLGAGLVFGRALG G GV +GS AV++GA+IGAI+AF+LGR+VLQ  AQ LFNKFK++ AV++AI+SQGLKL +LLRLSPVVPF+AFNY+MG+TA+  +DY +GC+G IPGTVA+VFIG++ASG+    G+D E                     L  +IVG IATVIAV L+S Y+K+ALN++L E
Sbjct:   20 KKEKIRKLCLGLVLVGLIIYVIVDYSVPSLGNVNIVLSDFLAWVEDNPIEGVFAFACVYMFCTVAFIPGSLLTLGAGLVFGRALGIGRGVALGSFAVILGASIGAIIAFILGRYVLQDTAQVLFNKFKIMRAVDKAIESQGLKLCLLLRLSPVVPFNAFNYIMGLTAISLKDYTIGCLGIIPGTVAYVFIGSSASGIGDMKGNDEEQNDNTKDADGEESSSDNDTVFLIVIIVGAIATVIAVFLISWYAKKALNRILNE 278

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BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot
Match: A0A7S3YEX9_HETAK (Hypothetical protein (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3YEX9_HETAK)

HSP 1 Score: 251 bits (640), Expect = 5.950e-73
Identity = 155/261 (59.39%), Postives = 190/261 (72.80%), Query Frame = 2

Query:  266 KKQKLIKAGLFLLLVIIVIYVILDYTVPGLGFVDDILKSFLTWVEDNPAQGAIAFAGVYIFTTVCFIPGSLLTLGAGLVFGRALGTGLGVVVGSLAVLVGATIGAILAFLLGRFVLQQQAQGLFNKFKVLTAVNRAIQSQGLKLVILLRLSPVVPFSAFNYVMGVTAVKFRDYALGCVGFIPGTVAFVFIGTTASGLLGD--DGEXXXXXXXXXXXXX---------QLXXLIVGGIATVIAVVLVSIYSKRALNKVLEED 1015
            +K KLIK GL  LLV I+IYV+LDYT+P LG V+ IL SFL WVE++P +G +AFA VY+ TTV FIPGS+LTLGAGLVFGRAL                      +AFLLGR+VLQ  AQ LFNKF VL AV++AI+++GL+LVILLRLSPV+PFSAFNYVMG+T V FR Y LGCVG +PGTVA+VFIGT+A+GLLGD  DG     XXXXXXXXX          +  L+VG  ATV+AVVL+++ S+RAL +VL ++
Sbjct:   44 RKNKLIKFGLLSLLVGIIIYVVLDYTLPSLGHVNRILTSFLLWVEEHPGEGVVAFASVYVLTTVLFIPGSILTLGAGLVFGRALXXXXXXXXXXXXXXXXXXXXXXIAFLLGRYVLQDSAQKLFNKFSVLKAVDKAIENEGLRLVILLRLSPVIPFSAFNYVMGLTRVMFRQYVLGCVGMLPGTVAYVFIGTSAAGLLGDADDGSQESEXXXXXXXXXXXXXXXRLVNIVVLVVGAAATVLAVVLITVASRRALRRVLMKE 304

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BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot
Match: A0A7S4JVV3_9STRA (Hypothetical protein n=1 Tax=Odontella aurita TaxID=265563 RepID=A0A7S4JVV3_9STRA)

HSP 1 Score: 209 bits (532), Expect = 6.270e-58
Identity = 115/273 (42.12%), Postives = 184/273 (67.40%), Query Frame = 2

Query:  266 KKQKLIKAGLFLLLVIIVIYVILDYTVPGLGFVDDILKSFLTWVEDNPAQGAIAFAGVYIFTTVCFIPGSLLTLGAGLVFGRALGTGLGVVVGSLAVLVGATIGAILAFLLGRFVLQQQAQGLFNKFKVLTAVNRAIQSQGLKLVILLRLSPVVPFSAFNYVMGVTAVKFRDYALGCVGFIPGTVAFVFIGTTASGL--LGDDGEXXXXXXXXXXXXXQLXXLIVGGIATVIAVVLVSIYSKRALNKVLEEDRIAHEDMEAGGEVNGSAATTR 1078
            ++ ++ K  L L+L+  +++VI+D T  G  ++ D +++FL W+E+NP +G   F GVY+  TV F+PG +LTLGAG VF  A GTGLG+ VG+++V VGA++G++LAFL+ R++L++ A GL  KF +  A+++A++ +GLK++ILLRLSPV+PF+A NYV GVTAV F+DY+L     +PGT+ +VF+G +A  L  +G   +              +  ++VG +  ++AV L S Y+K+ LNK+L+++  A+E + AGGE  G  +  R
Sbjct:   12 RRSRIKKLVLALVLIGFIVFVIIDSTTNG--YIKDGIQTFLRWIEENPIEGFFMFMGVYVLATVLFVPGLILTLGAGYVFSNAFGTGLGLFVGTISVFVGASLGSMLAFLISRYILREWAVGLTEKFPIFRAIDQALEEKGLKIIILLRLSPVIPFNALNYVCGVTAVSFKDYSLALFAMLPGTILYVFLGASAQSLATIGSSTDSKAL---------TISTVVVGVVLGIVAVALSSRYAKKELNKILDQEEEANERI-AGGEGEGGKSQDR 272

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BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot
Match: A0A6H5JID7_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JID7_9PHAE)

HSP 1 Score: 203 bits (517), Expect = 6.470e-55
Identity = 108/232 (46.55%), Postives = 158/232 (68.10%), Query Frame = 2

Query:  374 LKSFLTWVEDNPAQGAIAFAGVYIFTTVCFIPGSLLTLGAGLVFGRALGTGLGVVVGSLAVLVGATIGAILAFLLGRFVLQQQAQGLFNKFKVLTAVNRAIQSQGLKLVILLRLSPVVPFSAFNYVMGVTAVKFRDYALGCVGFIPGTVAFVFIGTTASGLLGDDGEXXXXXXXXXXXXXQLXXLIVGGIATVIAVVLVSIYSKRALNKVLEEDRI-AHEDMEAGGEVNGSA 1066
            L++   W+EDNP  G + FA ++  +T+ F+PG LLT+GAG+ FGRALG G GV+ GS+AVL+GA +  ++AF LGR+VL +QAQ    ++++L+AVN AI+  G+K++ILLRLSP+VPFS FN++ G+T V  RDY LG VG +PGT+AFV+IG + +G + +                ++  LIVG +A V+A+V V+IY++RAL + L E  + A+ D E   E  GSA
Sbjct:   93 LETSFEWIEDNPKAGVVVFALLFCLSTLLFVPGLLLTIGAGVAFGRALGFGFGVLWGSVAVLLGAVVACVIAFYLGRYVLHEQAQSCAKRYRILSAVNTAIERNGVKVMILLRLSPLVPFSGFNFIAGLTKVSLRDYLLGTVGIVPGTLAFVYIGASTAGTMNEQEAMNSGEADRTECIIRMATLIVGAVAAVLAIVAVTIYARRALKQALVESELDANADKEEKAEHEGSA 324

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BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot
Match: A0A7S2A6Q3_TRICV (Hypothetical protein n=1 Tax=Trieres chinensis TaxID=1514140 RepID=A0A7S2A6Q3_TRICV)

HSP 1 Score: 193 bits (490), Expect = 1.630e-51
Identity = 109/268 (40.67%), Postives = 171/268 (63.81%), Query Frame = 2

Query:  227 GASDNDTAPEP----PTKKQKLIKAGLFLLLVIIVIYVILDYTVPGLGFVDDILKSFLTWVEDNPAQGAIAFAGVYIFTTVCFIPGSLLTLGAGLVFGRALGTGLGVVVGSLAVLVGATIGAILAFLLGRFVLQQQAQGLFNKFKVLTAVNRAIQSQGLKLVILLRLSPVVPFSAFNYVMGVTAVKFRDYALGCVGFIPGTVAFVFIGTTASGLLGDDGEXXXXXXXXXXXXXQLXXLIVGGIATVIAVVLVSIYSKRALNKVLEEDR 1018
            G  DND+ P+       K+  L K  + L+LV +++++I+D    G  FV   ++  L W+E+NP +G   F  VY   TV F+PGSLLTLG+G VF  + G G GV++ +LAV VGAT+GA++AF+LGR++L+   + L  K+ V  A+++A++ +GL+++ILLRLSP++PF+A NY+ GVT+V F+ YA      +PGT+ FVF+G +A  L+ D G               +  ++VG +  VIA+ L S Y+K+ LNK+LE+++
Sbjct:   23 GGDDNDSWPKEVKACTDKRALLNKIIVGLVLVGLIVFIIVDSVTHG--FVKGAIEGLLQWIEENPIRGLFVFMAVYFVATVLFVPGSLLTLGSGFVFAESFGLGFGVLLATLAVFVGATLGALVAFILGRYLLRDWVENLTKKYNVFRAIDKALEEKGLRIMILLRLSPIIPFNALNYICGVTSVSFKHYAWANFAILPGTILFVFLGASAGSLV-DSGNGGDTPVV------TIATIVVGVVFGVIAIALTSRYAKKELNKILEQEK 281

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BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot
Match: A0A7S2MII1_9STRA (Hypothetical protein n=1 Tax=Helicotheca tamesis TaxID=374047 RepID=A0A7S2MII1_9STRA)

HSP 1 Score: 188 bits (478), Expect = 4.270e-50
Identity = 102/247 (41.30%), Postives = 160/247 (64.78%), Query Frame = 2

Query:  266 KKQKLIKAGLFLLLVIIVIYVILDYTVPGLGFVDDILKSFLTWVEDNPAQGAIAFAGVYIFTTVCFIPGSLLTLGAGLVFGRALGTGLGVVVGSLAVLVGATIGAILAFLLGRFVLQQQAQGLFNKFKVLTAVNRAIQSQGLKLVILLRLSPVVPFSAFNYVMGVTAVKFRDYALGCVGFIPGTVAFVFIGTTASGLLGDDGEXXXXXXXXXXXXXQLXXLIVGGIATVIAVVLVSIYSKRALNKVL 1006
            +K +LIK  L LLLV  +IYVI+D+       +   ++SFL W+EDNP +G  AF GVY   T+ F PG +LTLGAG VF  ALG GLGVV+ + AV VGA+ G++ AFL+GR++L+    GL  K+ +  AV+ A++ +GL+++ILLRLSP++PF+A NY++GVT+V FRD+ +  +G +PGT+ +VF+G++A       G              ++  +++G +  ++ V + S Y+++ L  V+
Sbjct:   26 RKARLIKIALGLLLVGFIIYVIVDFATSK--HLRTAMESFLNWIEDNPTEGVFAFMGVYFVATILFAPGLILTLGAGFVFANALGLGLGVVLATTAVFVGASTGSMAAFLIGRYLLRDWVVGLTKKYAIFEAVDVALKEKGLRIMILLRLSPLIPFNALNYIVGVTSVSFRDFTIAMIGILPGTLLYVFLGSSA-------GSLTDSSSGGDNSAVRILTIVLGSVFGILGVCVTSYYARKELQNVI 263

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BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot
Match: A0A0G4EY60_VITBC (Uncharacterized protein n=1 Tax=Vitrella brassicaformis (strain CCMP3155) TaxID=1169540 RepID=A0A0G4EY60_VITBC)

HSP 1 Score: 188 bits (477), Expect = 1.380e-49
Identity = 123/278 (44.24%), Postives = 170/278 (61.15%), Query Frame = 2

Query:  284 KAGLFLLLVIIVIYVILDYTVPGLGFVDDILKSFLTWVEDNPAQGAIAFAGVYIFTTVCFIPGSLLTLGAGLVFGRALGTGLGVVVGSLAVLVGATIGAILAFLLGRFVLQQQAQGLFNKFKVLTAVNRAIQSQGLKLVILLRLSPVVPFSAFNYVMGVTAVKFRDYALGCVGFIPGTVAFVFIGTTASGLLGDDGEXXXXXXXXXXXXXQLXXLIVGGIATVIAVVLVSIYSKRALNKVLEEDRIAHEDMEAGGEVNGSAATTRGEGVLMERPQQDG 1117
            K  +FL+++ I++Y+I+D T      V + L  F  WV+DNPA G +A+  VY+  TV FIPGS+LTLGAG  F  A G G G+  G  AVLVGA +GA LAF  GRF+ +   QGL +KFKV+ A+++  ++QGLKL ILLRLSPVVPFSAFNY+MG T  ++RDYA+G +G IPGT  +V+IG   +      G+             Q   L VG +AT IAV +V+ ++++AL ++ E++  A E  +A G+          EGV    P  DG
Sbjct:   55 KLLVFLVIIAIIVYIIIDSTTGQR--VAEGLDIFKEWVQDNPATGILAYMAVYMVCTVAFIPGSILTLGAGFTFVCAFGNGPGMAAGIGAVLVGAFVGAQLAFFCGRFLFKSWVQGLTDKFKVMRAIDKVFETQGLKLNILLRLSPVVPFSAFNYIMGGTRTRYRDYAIGTLGIIPGTALYVYIGAIPAFAGACSGKAEGSGHWS-----QWVFLAVGLVATFIAVFIVTWFARKALREITEKE--AAEASKADGK----------EGVETPGPDLDG 313

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BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot
Match: W7TSR1_9STRA (SNARE associated Golgi protein n=2 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TSR1_9STRA)

HSP 1 Score: 186 bits (472), Expect = 5.870e-49
Identity = 110/261 (42.15%), Postives = 166/261 (63.60%), Query Frame = 2

Query:  281 IKAGLFLLLVIIVIYVILDYTVPGLGFVDDILKSFLTWVEDNPAQGAIAFAGVYIFTTVCFIPGSLLTLGAGLVFGRALGTGLGVVVGSLAVLVGATIGAILAFLLGRFVLQQQAQGLFNKFKVLTAVNRAIQS-QGLKLVILLRLSPVVPFSAFNYVMGVTAVKFRDYALGCVGFIPGTVAFVFIGTTASGLLGDDGEXXXXXXXXXXXXXQLXXLIVGGIATVIAVVLVSIYSKRALNKVLEEDRIAH---EDMEAGGE 1051
            ++ G+ +L +++VI + +DY+  G   V  +L +FL WV  +P +GA+AFA VY  + V F+PG+ LTLG G +FG+ALG G G V  SLAV VGA+ GA+ AF LGR++L + AQ   N++ +L A++ ++   +GLK+V+LLRLSP+VPF+A NY+M VT+V  + Y LG VG +P  VA+ F+GTTA GL  + G              ++   +VG +A V AV ++S +++  L K+ +E   A     D+E GGE
Sbjct:   50 LQGGILVLWLVVVILIAVDYSPAGHRHVARVLSTFLEWVGRHPLRGAMAFAAVYALSVVFFVPGAALTLGGGFLFGQALGVGPGTVFASLAVFVGASAGAVAAFSLGRWLLHETAQSTLNRYTILRALDASLHGHRGLKIVLLLRLSPLVPFTALNYMMSVTSVSLKTYTLGLVGMVPAVVAYSFLGTTAGGLTREAGGESSVERGV-----KIAMYVVGAVALVAAVGVLSRFAREELRKIQDEGEGARGEGRDVEGGGE 305

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BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot
Match: A0A7S4W131_9STRA (Hypothetical protein n=1 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S4W131_9STRA)

HSP 1 Score: 184 bits (467), Expect = 2.300e-48
Identity = 109/279 (39.07%), Postives = 168/279 (60.22%), Query Frame = 2

Query:  257 PPTKKQK-LIKAGLFLLLVIIVIYVILDYTVPGLGFVDDILKSFLTWVEDNPAQGAIAFAGVYIFTTVCFIPGSLLTLGAGLVFGRALGTGLGVVVGSLAVLVGATIGAILAFLLGRFVLQQQAQGLFNKFKVLTAVNRAIQSQGLKLVILLRLSPVVPFSAFNYVMGVTAVKFRDYALGCVGFIPGTVAFVFIGTTASGLLGDDGEXXXXXXXXXXXXXQLXXLIVGGIATVIAVVLVSIYSKRALNKVLEEDRIAHEDMEAGGEV---NGSAATTRG 1081
            PPT ++  L K G  L+LV  +IYVI+D           I+  FL W+EDNPA G  AF GVYI  ++ FIPG +LTLGAG VF  ALG G+G+ + ++AV  GA  GA  +FL+GR++L+     L  K  +  A++ A++ +GL+++ILLR+SP+VPF+ FNYV GVT++  RDYA+G +G +PGT+ ++ +G++A  L+                  ++  +++G +  V+ V   + Y+K+ LNK+L + R  +      G+V   NG  A+T G
Sbjct:   19 PPTSRRAFLFKIGFGLILVGFIIYVIIDLATTKNTM--RIVADFLDWIEDNPAAGVFAFIGVYIIASIFFIPGLILTLGAGFVFANALGLGVGIFLATVAVFFGAFFGACASFLIGRYLLRDCVGKLTKKRVIFEAIDAALKDKGLRIMILLRVSPLVPFNVFNYVAGVTSISLRDYAIGMIGILPGTLLYILLGSSAGSLVDSSSSGNDSTV-------RIISIVLGIVFAVLGVYATTYYAKKELNKILSQRREVNAAASTEGDVDSSNGKGASTIG 288

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig6.302.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FIK1_ECTSI	1.130e-122	79.21	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]
A0A7S2Y1P9_9STRA	1.480e-82	59.85	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
A0A7S3YEX9_HETAK	5.950e-73	59.39	Hypothetical protein (Fragment) n=1 Tax=Heterosigm...	[more]
A0A7S4JVV3_9STRA	6.270e-58	42.12	Hypothetical protein n=1 Tax=Odontella aurita TaxI...	[more]
A0A6H5JID7_9PHAE	6.470e-55	46.55	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
A0A7S2A6Q3_TRICV	1.630e-51	40.67	Hypothetical protein n=1 Tax=Trieres chinensis Tax...	[more]
A0A7S2MII1_9STRA	4.270e-50	41.30	Hypothetical protein n=1 Tax=Helicotheca tamesis T...	[more]
A0A0G4EY60_VITBC	1.380e-49	44.24	Uncharacterized protein n=1 Tax=Vitrella brassicaf...	[more]
W7TSR1_9STRA	5.870e-49	42.15	SNARE associated Golgi protein n=2 Tax=Nannochloro...	[more]
A0A7S4W131_9STRA	2.300e-48	39.07	Hypothetical protein n=1 Tax=Ditylum brightwellii ...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig6	contig	P-littoralis_Contig6:1249068..1267294 +

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.D7FIK1
PFAMs	SNARE_assoc
Model size	2556
Max annot lvl	2759\|Eukaryota
KEGG rclass	RC00046
KEGG ko	ko:K00486
KEGG Reaction	R01960
KEGG Pathway	ko00380,ko01100,map00380,map01100
KEGG Module	M00038
Hectar predicted targeting category	signal anchor
Exons	5
Evalue	1.1e-130
EggNOG OGs	COG0398@1\|root,KOG3140@2759\|Eukaryota
EC	1.14.13.9
Description	canonical Wnt signaling pathway involved in osteoblast differentiation
Cds size	990
COG category	O
BRITE	ko00000,ko00001,ko00002,ko01000

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig6.302.1	prot_P-littoralis_Contig6.302.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig6 1249240..1253581 +

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


Feature Name	Unique Name	Species	Type	Position
1680791245.3175728-UTR-P-littoralis_Contig6:1249067..1249239	1680791245.3175728-UTR-P-littoralis_Contig6:1249067..1249239	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig6 1249068..1249239 +
1680791245.3969998-UTR-P-littoralis_Contig6:1253581..1254218	1680791245.3969998-UTR-P-littoralis_Contig6:1253581..1254218	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig6 1253582..1254218 +
1680791245.4067028-UTR-P-littoralis_Contig6:1266537..1267294	1680791245.4067028-UTR-P-littoralis_Contig6:1266537..1267294	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig6 1266538..1267294 +

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


Feature Name	Unique Name	Species	Type	Position
1680791245.3338237-CDS-P-littoralis_Contig6:1249239..1249410	1680791245.3338237-CDS-P-littoralis_Contig6:1249239..1249410	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig6 1249240..1249410 +
1680791245.3430946-CDS-P-littoralis_Contig6:1252014..1252230	1680791245.3430946-CDS-P-littoralis_Contig6:1252014..1252230	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig6 1252015..1252230 +
1680791245.363161-CDS-P-littoralis_Contig6:1252492..1252686	1680791245.363161-CDS-P-littoralis_Contig6:1252492..1252686	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig6 1252493..1252686 +
1680791245.3848665-CDS-P-littoralis_Contig6:1253172..1253581	1680791245.3848665-CDS-P-littoralis_Contig6:1253172..1253581	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig6 1253173..1253581 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig6:1249068..1267294+
coding sequence from alignment at P-littoralis_Contig6:1249068..1267294+

protein sequence of mRNA_P-littoralis_Contig6.302.1

>prot_P-littoralis_Contig6.302.1 ID=prot_P-littoralis_Contig6.302.1|Name=mRNA_P-littoralis_Contig6.302.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=330bp
MNDSMISSNREQHSIAVTGASDNDTAPEPPTKKQKLIKAGLFLLLVIIVI
YVILDYTVPGLGFVDDILKSFLTWVEDNPAQGAIAFAGVYIFTTVCFIPG
SLLTLGAGLVFGRALGTGLGVVVGSLAVLVGATIGAILAFLLGRFVLQQQ
AQGLFNKFKVLTAVNRAIQSQGLKLVILLRLSPVVPFSAFNYVMGVTAVK
FRDYALGCVGFIPGTVAFVFIGTTASGLLGDDGEEEETDDDGSNGTVQLI
VLIVGGIATVIAVVLVSIYSKRALNKVLEEDRIAHEDMEAGGEVNGSAAT
TRGEGVLMERPQQDGTRPSAIEHAVRMPV*

mRNA from alignment at P-littoralis_Contig6:1249068..1267294+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig6.302.1 ID=mRNA_P-littoralis_Contig6.302.1|Name=mRNA_P-littoralis_Contig6.302.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=18227bp|location=Sequence derived from alignment at P-littoralis_Contig6:1249068..1267294+ (Pylaiella littoralis U1_48)
CCCTTTTTCTCCCCACCGACCGAAAAAGAAGAAAGAGAAACAAGCCCGCT
TGCAACGCTACAGCTGTCCTCCTAAGCCCAAAGAAGCCCAGCAGCTCAGC
ACAAATAGCAGCAGCAACAGCAACAGCCCCAGTAGTAGCAGCTACAACAA
GAGCTACGAACAGAAGCAACAGATGAACGACTCCATGATATCGTCGAACA
GGGAACAGCACTCCATCGCTGTGACGGGCGCCAGCGACAACGACACCGCC
CCAGAGCCGCCTACGAAGAAGCAGAAGCTCATCAAAGCTGGTCTGTTCTT
GCTGCTTGTGATCATAGTGATCTACGTCATCCTAGATTACACGGTGAGAG
GTCCACGTCCATCTCTTATGAACCAGCACCAGTCCTCTCGTCTATTATAG
ACTGCTGCACCTGGTATGTTAGGATATAAATTTTGTTTTACAGCACTCCC
CCTGGTTTGTACAGCCACGTCGTACTCGTATATACTCCGTACCTGGTATA
CAGCAGTATCACGTACGGAGTACCAGGTACCAGATATGGCACTTCGTATA
TACTGGTACGGAGGTATATACGAAGTGATTTTTCAGCCCTTCTGCCGTTT
GCCCTTTCACGTTCGCGTGCTTGCGCTGCCTGAAACTGTCAGCTCGAAAC
TGTTGCTGGGCTGGTAAAGAGATTAGCACGCCCGACGTCCATTTTTATCG
ACACCTTGGCAACTAAGTTTCGGCCTCCTTGTCACTTTTGTCGCCTTTTT
TACTCTTTATTTCATGTTGTGACTTGGCTCTGGATCAGGCTTCCTTTTCT
GCGTTTCCTGTTGTATTTTTGTATAGCGTTGTGTGATATTTCGGGGGTCC
GTTTTGTTTTGCCTGAGTTTCCTTGTCGTGCCTTTGGTGGATTGAGGGAA
TCTCCCGCGTACAATATACATACATACCTAGTTTGGGGCAAGCAGCCTGT
GACCACGGAAATCGTCCCTGATCGGTGGAGTACGGACATTAACAGGTATT
GAGGAGAGGTCGGAATAGTTTTTAATGTGAAGATAACAAAACAACAACAA
CAAACAACACTAGTGGATCGAGGGGCTAGGTTTTTTGTTTTGTCGTATAC
CAGGTGTATGATACTGCATCTGATACATACTCAAATACGTTCCCGAGCCC
GGGGTTGGTTGCCTGAAGGTTGCTGCTGCTTGCTGCTGCGTGTGTGAGAC
GCAAGTAAGTACCACGTATGAATATTTTGATGTGCGACGGCAGACAACAA
AGATAAAGTAGTAGCAGTGAACACAGCACAGCTATCATAGCTGAGCACAG
CTAGCTGGACTCTTGATAACAAAGTTGTGGTGGGAGAGACACAAGCAAGC
AAGTACTCCTAAAGACACCATCTACTCAAGCAACCAAAGTGTGTTTGCGT
GTATCGCTGCCCTCTCTCGCTTTCTCACTAGAAAAGCAGCAGCAGCAGTA
GTCGAACCTGCCCCTCTGCCCCCCACACACAGCAGCCTTGCTTCGTCACC
ATCAGCCGCACTAGATACTACTTGTGCCAAACTCCCTCCCTCTCCGGCCC
TCTCCGGCTAGTGTGTTGTTGTGTGTGCGTGTGCGTGTATTGGGTGGTGT
GAGATGTGCGTGTTGTGTGTCTCTCACTCACTGCTGCTGCCGTTGGTGGT
GTGATGGATGAGTGGTGAGATGTGTACACACAACACACAAGACCCACAAC
GAAGAAGATCCTTGGTAAAAAATAAATGCCTCCAGTATTTGTTTCGGGTT
GGAGGGGACGGGTAAGGGCGATCAAATACAGACAAATCCACAGGGATCTC
GGCGAACTCAGCACGCAATGGGCGGAGACAAGTTGAAGGTAGGTCGTGCT
AATTTTGCTCTGTCCCCCACACTTTTATCGTTCGGGAAGTGGTTGGGTAT
TGGGTGAGTGATGAGTCAAAAGGAGGGTATTTCAAATCCGTGCGTACGAT
CGAACGAACGAACGAACGAACGAACGAAGGGACAGCCATCGCAAAAACCC
TCACCCCCGGCACACATTTCGTTTTTTTTGCGCGCATATGTATGAAGGCG
AGGAAAAAAAAAGATGACAAAAATAAGTTGTTTTTTTTCTGAGTAGAAAA
GAAAGGAAGAAAAAAAACAAACCCGCGATTTTCTTTTTTCTCACAACACC
AGAGCCTGCCTTCGGCCTGTTGAATTGTTTCGGCGAAGACTCGTTTTCAG
TGTATCGCATCCAAGTCCTTGGAACGTACTTCTATTTACAAATGTGCCGT
TTACAACTTTTGAAATAACCCGTCTTTCATCGAGTTTCGTGAGCAACGAG
GAGTAACGCGGATGCTGCTGTAGCGACCCTGAATGCTTCCAGCACACAGC
CTCCGAAAATCAGAGCAGACGTGGGTACTTGCGACCACTATTTCAGCAAA
ACGCGCTCATGACTGATCCCAACCATCGATTCAGTGCCGTAGATACCCAC
GTATGCCCGTTTTCTCAAGTGCTGCGTGCTGGAATATATCAAAATAAATA
CGGCCGCATACAAAATGAAGAACGAACCACTGGTGAAGCAGAGCAAGGTC
TCGAGTTTGCATCCTGTCTAATGATCCCGTATGCCGAAAAGAGAGTGTGC
CCTGATGTCCAGGGGTTTCAGCATGTACCGGACACTTTGGTTGTGGTGGT
CCTTGTGTGCTACTAGGTGTATTGGCCGCTTTCGCTGCTCTATCTCCGAC
GGCCAGGACAAAGGGTTCCACATAGTTTTGCACTAGGCACATTATTGGAA
CTGCGCTCGAACCTAGTATCATACCCAATGAGTATTGTCCGATGTTGTCC
GACAGGAGAGTCCGAAATACTCTGTGCGTGTGGAAATACCCCTCAATCAG
CGGTAGGCACCTAGCTCTGTCACACGAAGTAAGGACGCGGCAAAAATAAC
GCCTGTGCCTCCCGTTTCACTCTGCTTTGCTGCCTTCGTCCGCCCAGGTT
CCTGGACTGGGCTTCGTCGACGATATCCTCAAGTCCTTCCTCACGTGGGT
CGAAGACAACCCCGCACAGGGCGCGATAGCCTTCGCCGGTGTGTACATCT
TCACCACCGTGTGCTTCATCCCCGGGTCGCTGCTCACGCTAGGCGCAGGG
CTGGTGTTTGGCCGCGCACTGGGGACTGGCCTGGGCGTGGTGGTCGGGTC
TCTGGCAGTGCTGGTGAGCAGTTGTTTTTCTGAAGCCTCCTGCCTTATAT
TTTTATCTTCACGACAGAATTGCGCCTTTAGGTATTCGTTGTCACTTGCC
TTTTATACCATCAGGTATATCTCACCCCACGTAGGCATCACCTTCCGCCG
TGTTTCACATGTATGGTAGCCCTCTGCGTTTGCGCCGCCTTCTGTTGTCC
TCAATAGTGCTCTATTTCGAAGAACTTTTCACACCAACACCCACACTCAC
CCACAAACACACAAAAAATGCGCAGGTCGGTGCCACGATCGGGGCCATCT
TGGCGTTCCTGCTGGGCCGCTTCGTGCTCCAGCAGCAGGCCCAGGGGCTG
TTTAACAAGTTCAAGGTGCTCACGGCTGTCAACAGGGCCATCCAGTCGCA
AGGCTTGAAGCTCGTGATTCTCCTCCGGCTCTCTCCCGTCGTGCCGTTCA
GCGCCTTCAACTACGTCATGTGAGAATATGCGTCATGTTTACTGCTGTAT
TTGTGGCGCACGGGTATTGCACTGTCCCGAAATACGAACCATCACTGGGA
TTCCTATCCTCTAGCAAAGGGCTAATTTTTTTGCAGGCTAAGGTTTTGCC
CAAAGTCCTGATAGTTTGGGCGTCCCTGCGTGGGAGGTCAACGGGTGGAA
GAGGGGGTAGGGTGACCGTGGCGATGAAAATGATTTCGTCGAACAGGAAG
ACGAGAACTTCTTGATGGTGTGTGTGGTACATACATACGCTAGCCGCGTA
GAGTATGAGTAGGTGAGAGGGAGAGAGAGAGAGAGAGAGAGGCAGACAGA
CAGATAGACAGACAGTTGGGCAGAGAGAGACGGAGGAACTGATCAGCCCT
CCCCCCCGCCCAAAACTGTACTAGTACAAGGCAGGACGTTCGATTCTCAC
CCGCCCTCTCGCCCCCTCCACCCGTCCGCGTCCACGCTCCTCTTGCTCTT
TTCAGGGGTGTCACGGCGGTGAAGTTCCGGGACTACGCCCTCGGCTGCGT
GGGCTTCATTCCCGGTACGGTAGCGTTCGTCTTCATCGGCACCACGGCGT
CGGGCCTTTTGGGAGACGACGGGGAGGAGGAAGAGACGGACGACGACGGC
AGCAACGGCACGGTACAGCTCATCGTGCTCATCGTGGGGGGCATCGCCAC
CGTCATCGCGGTGGTGTTGGTCAGCATCTACTCCAAGCGCGCCCTGAACA
AGGTGCTCGAGGAGGACAGAATCGCGCACGAGGACATGGAGGCGGGTGGG
GAAGTTAACGGCAGCGCCGCTACCACCCGCGGAGAGGGTGTGTTGATGGA
GCGACCTCAGCAGGACGGGACTCGGCCGTCCGCGATAGAGCACGCGGTTC
GCATGCCGGTTTAAATTGTTTCAAACATTTTTTTTATGTGTCTATTGCAG
AAGTAGGCAAAGTACACAGTTCGTACGCGGGAGTCCTGTTGGGTAGTGGG
TACGAGGGGGGGCTGGCCTCGGCCGTGGAAACCCGGCGGTGAAGATATCA
CTGCGTTTTACCGAACGGGGCCTGGATAGCTCCCGCCGATGCATCACGAT
GCCAGCCAGAGTTCAATTTTATTTTCGTCCTTATCCTCAAGTCTGGCCGA
TGGGTTCTTCTCTCTGTCCTGTCTACTTTGCTTCTGCTTGGGCTAATTTC
GTGGTTTTCAGTTTTGTCTTGTTTTTCCTTGATCAAAGTTTTGTGCATTA
CTCGCGCAAGGCATCGGAGAGTATCGTAACGAGCGTCTTGTATGACTATT
GGCGTCGACGAAGGGAGAAAACTGGCGCGCCTTGTTGCGCCTGGCGATGT
CGAGTGAAAATAGAGATGAGGTATGGTACATGACATTTTTAAGAAAGGAG
CTATGCTTTTTATGCTCTGTGTTTTGCCTTGTGACAGTGTATCGTTACAG
AATGCCATGTGCTATTCATGACATTTGTCATCAGTCATGTTTTTCGTTGT
ATTTTTTGTGAAAATCGGGATGTTCGCGCGGTTGAAGTTAGTTCTGGGAA
GGCACGGAAACCAGAGTACAAGTAGATAAGGGTCACTTCGGAAAAATTCC
AGAATTTAGTAAGTCGGGTACATCGAGTCGCTCGGACTTTTGGGGATTTA
GCGCATTGGGTACATCGAGTCATGGGACAGAGTTGGATGCCTTGGAGTTT
ACTCTTCTTGTACTTGATTTTCGTTGCGTGTGAGTTTGGTTTCCGAGTGG
AGTCGCGGGCATTGATCGTGAGCAGTCTAGAAGTGTCGTCGCTGTTGTTG
GCGCGACGTCGTTTGTGCCGCGATTATCTCCTCGTGCCCTTAGCGATAGC
AGATTAGCTCTCACTCGTGTTTGGAATAACGTTTTTTTAGCCGAGTTGTG
AATAGGTACCTGCACAGTACCGTTTGTTTCTGCTGGCCCCTCATGCCCCT
TCAGGGCTTTCATGGGTACGAGTGTACATACAGCAGTAGATGCAGTGATA
ATGGTATTTAAAACAACAGTGATGATGAGAATGATGATGATGATGACGGT
GATGCTGGTGATATTGCCATGTGATTGAATAATCAACGCATGGCAGGTCA
TTTAGACGTTGATCTACATGGACATGTGCACCAGAAAATTCACAAGTGTC
TGGCCTGCCTGGGTCGATCGACTTTGATGACACCAGCCATATATTTATAA
AAAGAAACAGACGAAAATACCCGGGTTGTTGTTTGCCTAGTATTGGCCGA
TAGAACGTGCGTCCAAATGTCTACGGGGTCTGACTACAAAATACCGCGTG
AGAAAACGAACTTCACAGCAGTTTCTACCTGCTGGTTGGTTGGGCTGTAT
AAAATCGGCTCTTTTTGGCACTTTGACGCTATAATAAGCCAAAACTACGT
CAGTTAGTAGGTTTGAAGGAACAGAAAAAAATATGAACACCCCCGGTAGG
CCCCGCACACAAGTGTAGACACCATCTGCTTTCGAAAATTGAGCAGAGAT
GACGAAGCTCATCGGGGGCCAGAACACATACATGTATTGTCATCGTCTCT
ATGATAGCCTTGAACAAAAGTCCAGGAAGAATGTCACCATCATGATGGAC
GTCTTCTGCAATTGACCCGCGGTCAGTTTGATACCATGTGTGAGGTGATT
GGGTATACTGTATGAGAAAAATATACTGCGTTTTCTCGGGATTGTTTTAC
AATTTTTTGGGTTTCAACCTGCAGTAGCACCGCTTTTGCTGTACACGCGC
GAACAAAGTTAAGTGGAATGGACCGCGAAAGAGCAAGGAAGGGTAGAAGG
GAAACAAAAACTGCGAGCGGTGGGAACCCAGAAGCTGGGGTGCGCCCAAC
GGTTTCAAAAATACCGGGAATAGAGAGTCGTCCGCAGAGTGTAGAGACAT
GTGTACAAAAGTTATCCACGAAGTAGATTGGGGAAGAACTCTCTTTAGTA
GACCCTTCAGAGAGACCTTTTCTAAGCCAGAGGCTTTGTTTCAATGATTT
TAATCGGACTATATGCGCGTGGGGATCGGTTGCAATCTTCCCTCGGTTCC
GGGAACTTTGCACTTTGGTGGTAGAGTGGGAAAAGGGCGTTTCTGTCAAG
AGAAAATATTCCGTGGGCGCCCATCCCAAGGAAGACGGCTGCCTCCGTGA
AGCCGCACTGGAAAAAATGGGAACTCTTAGTAGATGGCGCCGCCCCACAC
GAGAAAAGTCGGTTAAAGTTCATATTCGGGTTAGTCTTGTGGCGGGCAAC
GATACCTCGAGGCAAACAAGCGGAGCGCGATTTTAAAAATGAAACGCGCC
CTGGGGTGAAAAGTCCCTGGGGCGTTTTTCCGAGAACACCAATGGATCAT
ATCCACAGCCACCCCTATTATGCACACACCGTGACACAATACACCTCTCG
CTGCCACGATGACGTCGGACCTGCATGTACAGCGCGTTCGCGAGAGGGAA
TTCTGAAGCAGAGAAGGAGAAGAAGGACAAAAATACAGAAGTTGGGGGAA
GCTCGCACCCTGTGTCAGGTAAAGTGCGCTGCGACTGAAGACCCACTTCT
TACTCGACCGAAAGAAGGACCGTCTTTATCCTGATCGAGTAGACCGCTTA
ATTTCTGGAACGGCCGCATCGACATTATCAATAAATACCTTTTGACATTG
AACGCGTAAACCGCTGCTGCTGCTATAGACATCGCCGAACTTCCCGCGGG
ATATGAGCGATACATCCTCTCCACACCACCAACCAACGCGCACTTCTCAG
TTCAATTATGAGGGGGTTCTCTCGCCCCCCGAAAGACTCGGACTTTTTCA
CTCTTCTTCTATCACTGCTGCTGTGGATACCACACCACCCGCCATTTCCG
CAACGACAGCAATAACGACGCGAACAGCAGCATCTCAGCAATATTGGTTA
TGAATATTGCCGTCGAATCTACCGCGCAGAAACTCATGGGGTCGACCTCG
GGGGGGGGGCGGACGACGAGTCTTTTGCAAAAAATATCTTTCCGCTGAGC
CTTTCTTTGATCTGTGCATGGATGGGCTTTTGGTACTGGGAGAGGAAATA
AATGATGCTTCAAGGTGTTTCGCGAAAAAGGACAGAACATATTATAATTC
AGTGCGCGATTTCATGAAATGAGACCCTCTCTCGTCGAGAGTGCATTCTT
CTTCAATAAGAAGATTATTTGACATTTTTTCAACGGCAAAGACCACCCAT
TCTGCAGCTATATCCACCACCGCCTGCTACATCCACCTCTCACTCAATGC
ATTGCTACGCGTCGTATGATAACTGCGTCAATAATTGTGGGATACTTTGC
TGTCGAGATCCCAAGGGGCCATCAGTGGTCAGGCGGCTCCGAAGGGGAGG
GCGCCGGTGCTGGCGTTGCTGCCCCGGCGCTCAAGCGTGGCAACCAGCAG
CGGCCACAACAAGATGCACGTGGGGGCTTTCGAACGTCTTTATCATCAGT
TTTTTATAAGCTCCAGGTTCAAACTGCACGGTACCACCAGTGAAGCTGTG
CCGCCGACGGGGTCAATGCCCATCAGGACATAAATCTGGTGGGAAGTGCA
AGTGCAGGAGGAGTGATGCTGTGGTCATCCGCCGGTAGGCGCTGCAGGTT
GACGTCGTCAAAAAGTAGTGTGTGAAGGGAGCACATAAAATAATACCTGG
AGCAGGAAATGATGCTGGTAAGAGCTTTACACGGGTGGCCAGAGGGGTAT
AGGTTGGGAGGTACGTTAGCCAACCTTAGGTTGGGAGGAGGTTGCGGCAC
CGATACCTCCAGTTGGCCAACCTCCCCCTCCTCCCAACCTTCCCGGAGCC
CCAGGTTGGCTACGAGTTAGTCGAACTCGGGATCACTAGAGGGTCGGATG
CATCACTATTGATTACCAAATAGCAGGTGGTTTTTGAGAGTCTATTCTTT
GTTTTTTATTTGTTATTCTCTTAAATCTTGTGCAAAAAATGTTCTGTTTT
CTTTTTTTGATTTTTATATCGTTTTGGCTAAATCGGTATAACAGAGTATT
CTCTTAAACGGTAGCTCACTTTGAGAGAATATTCTCTTATACCGTAGCCA
AAACTGAAGGTCGTGAAACAGGGACTCTCACGTCCCAGCTAGACTAGTAA
TGCCTAAAATGGTCATGAAGAGAGCGTATCATTAATGTTACATTGCGCAG
CTAGCGTCAGAGCACCTTCGGTTCGCTCCACACGCCGCTTCATCTGTCGG
ATGGCGAGCACTTCAAGACCGAAGTACGTGGTACACTGCTGTACCTTTGT
AGTGCGACACACTAGTGCGCGTGGATACTGTACACATATCTATACATATT
TCGTTTTGTCAGTGATAGGTTTGCCGCATACTCGCACCTCTTCTAGAGAA
CTGCAACACGGGACCAAGGATGCACCAGGCTGCTAGAAAAAAAAAACACC
CTCTCACCCACTGAATACCCCTCCCATCCCTTGCACCCAACGCCCAACAC
CCACAACCCTACATCATCCCACCAACATATGAACCCACGAAGTAACAAGC
GCTTCTTATGTATATCGCACGCGCTGCAAAGCAACGTAAGCGAAGAAAAT
CAATGCAACCCTCTCCGCCTGTCGACCTTAATACAGCCTCTGCTGCAACC
GTTACAGATAGTCTCGAATACACGTCTGCTTGGTTGCCCTCGACCCGTGT
GCACTCATCCAAGCTAGCTTAGCCTTACGGAGGTGATAACCCGTTTCTGA
CATGCCGCACTGCTCGACAATATCCTCGAGAGAACAAAAGTGTTCTGCTA
CCTGCGCGTACGGCGGCGGCGCCGGGGCGCTGCCGCCGAGGACTGTCCCG
CTTCCCCTAGCTCAATCTCGTCGACGTCGTCGTCCGAATTCATCTCTACT
ACGTGCTCATCACAAAGGTCTTGGACCATGTCTGCTACGATCGCCTCGGA
TACCTCCTCGTTCTCCTCTACGGACAGCCACCTATCCACCGCCTTCATGG
TAGCAGCACTCGGCTTCGCTCCCGGAGCCAGCTGTAAGCCAGCGAGTGCC
TCTTTGATGTCGTCATCGACATCTCCGTCCTTCGTTCCGACACTCATGCG
CGAAACCAAGCCCTCCAGATCGTCGACTCCGCCATCGTTGCCGGTGACCT
GGGTGCGGCCAACCTCCGCCTCGATGTCCGCGTGCATTGCTGCTGAGAGA
ATGTCTGCCTTCTTCCAGCACCTGCGGTGCGGGCGGCGAACAAAAAAAAA
GAAGAGAGCCACTCAAATTTTCATTGTATTTTTCGCATCATGTGAAGAGA
CACTCCTTTTATGTTGGCGTTACGACGACACCAAGGTACTTTTATCTATC
AGCAACTTCAACGAAAATAAGTACGTAAAAAAACGTCCAAAGCGAAAAAA
ACAACGAAACACAACTCAACGTATTTACGCACCTCCTGATCGTCTCCGTT
GAAACACGCTCCCATGCGTCGTGGCAGAGCTCGGCGGCGTCCAGCAGGTG
AGGCACGGATCCCTCCGCCAGCCCGCGGCAGCCGCTGACCACCTTGCGTC
GTTTCGCTTCCGCTCGGAGTTGGGCTGCCTCGTTCATCGTGTCGACGCGG
ATGCGGAGCAGCAAGCTCCTGAAGATCTTCTTCAGAGCTGCGATGATCCC
GGCATCGCAGGGCTGGTGTTTCGCGGTGCAGTTCGGCGGCAGCTCCAGGA
TCGTCACCTGCCCGCGGGGGTCGACGAGGTTCGCGTGGCTGCTGTGGTTG
TCCATGATGACGAGGACGGGCTTGCTGGTGACAGAACGAACCCACGGAAG
AAGCACCTCCTTCCACCACTCTCCAAAGACTCGCGCGTCAGACCACGCGT
TGGACTGACTGAAGTACCTGAGGGGCGATTTCCTGAGCCTGAAGCACCGG
GGGTTCTTGGCGTGGCCGATCATAGCCAGCGGCAACTTCCTGCCGCTGGC
ATCGGCCGCCACGTACAGCGTGATGCGCTCCTTGAATCCCATGCCCTTCA
CTCCCCGCACCGTGCTCTTGTTCTCCCCTGGTGCGGTGTAGGAGCTGCGG
GGCAGCATCCTGTACTGGAGCGCAGTCTCGTCGCAGTTGATGATGTTCTC
CGGGTCGTACTTCGCAATCATCTCTCGGAGCTTGCGGAGTTCGTCGGCGA
TGGTTGCATCGTCGACGCTCCCCGCTTGGCCATGCAGCTTCTTCGACCGG
AGGTTGTGGCGGCTGACGAACTTCTTCGCCCACCCCTCTGAAGCGTTGAA
GCCGTCGAGTCGTCGGCGTTCCGCAGCTGTAGATGCCTTTGCCGTGAGAG
AATTCTTCGTCTTGCGCCCGAAGGTCTGAATGGAGAAACGATCCACAGGC
AGGCCGTTAGCCCGGGCCTGCGTGATTAGGTTCATCACCTCCTTTTCCAC
CTGCCGATACGGAGAAATGAACGTCAGGATGGATAAAACGAATTCAAGTT
AGATGCTTCCATACACACGGTGTGGCAACGACAGCCAAAGTTTCTGAAAC
GGTGGCGTCATAAATCAGTACACTGAACGTAGCAGGAGGAACAAGCGCTA
GTGGACATCAAGTGTTTGCCACAAAATATTATTTTCGACACGCACAACCA
CACAACTCCCGCCACCAAACTACTCCTGTTTCCGACACACCACAAATCAT
CGTAAACATTTCCTGCGGTCGAAGGGTCTCATGCGTCTAGCAAACCGCGG
ACAATACTCGCTGCTGTTGGGCCGCGCCCACATGACGCATCTGGGATGGG
GACTATAATATTGCCGAATACAACAGAGGGCGCATGCGTTATCGACTGCT
GTAGTACCGCCGCCGTGCCAATTATGTACAATGTCTTCATCGATCTTCAT
CTCTTCAAACAAAACACAAAACACACACTGACGCGCGCAAAATAAAAAAC
GCGCACTACATTTAATTAAAACACCTTACAGTAGTAGTAGTAGAAACGGA
GGGCGCTTGAGTAAACAGGCTGGAGTAAACACACATAAAAAAAAAACACA
CACACACACACACACACAAGACACACACAGAGACGCGAAAAAAAAATACT
GCTGTACTTCTACTGTAAAAAGACCACACCTTTGGAAAATCTCCTCCCTT
GGCAGACTTCGCGCCCGCCTTGCCGCCCGCTGAAGCTTCCTTGAGCTTCT
TCTCGTTAGCCTTCCAATCGTACAGGGTGCTCTCGCCTACCCCCAACTTA
GCCGCGGCTGCCGTGATAGTCATCGTCTTCAGAAGCTCGGGGCTTTCACC
TTCTCCTCCACCGACACCCGCTTGCGTTTCGCTGAGCCGCCGGGCTTCTT
CGCGACATGCTGGCCAAGTTTCACGCCACTACTTGCACCCGCGGGGCTCT
TGCCTCTGCCCCCGGGGAGTCGCGCTTCTCTGTCTGCGCCCCAGCAGTCC
CCGCACCTGCCTGCGCCCCAGCAGTCCCCGCGCCGGAAGTTTCGCGCTCG
CGGGAGGTAGCGCAGGCGTGGCAAATGCGATGCATCTCGCTGGTGCCGCG
CGGGTCCGGCAAACCACAGTTGCCATGGAGGTACTGCCCGCAGACACCTC
TGCATTGGTGATTTGTGAACTGCGGCGGGCCTGGCGTGTGATCGGGGACG
TTACAGCGACTACCCGCTGCGCAGGGCATGGTGTCGGCAGCTGCTGTGTG
TGTGGTCTATGTGTTGATGGCTATGTGACGTGGCCTCCAGAAGCTCGATT
TAAGAGAAAATCTCAGAAATATGCTACATTTTCTCTTAAATCGATTTTGG
GCGTGCCAAGCCGTTTTACTCTCTTAAATCGGTACTTTCTCTTAAACATT
TTCCGTTAAACCGTAGCCGCTACTGTACTGTACATACAAAAACTGCTTTG
AACTTCGCATCTCCCACCTCCTACTGTAAATGTTTTGTATCACTCCCAAG
GCAAGAGAGAGGAATACTGCTATTTTGCTATTTTACATACCTCGGAGATG
CACAGCAGGTACTCGTACGATGTGTCTACTCGAGTACCGCGCGTAAGGAA
AAGTAGTGTAATATTCTTCGACGCAGAGGCCGGAGGCTGGTGACGTTGGC
ATTCCGCCGCAAAACCAGGCAAACAGCGAACGGCCGAGTTAATGTACCGT
TGTACCGTTGTCCTGATCGATCCGATTAGCAAAACTCGCCACTTTTCTCA
CACCCACCGCACACCGTACACAACACACGAATCACATCTCCCCCCCCTTT
TTCTCCCCACCGACCGAAAAAGAAGAAAGAGAAACAAGCCCGCTTGCAAC
GCTACAGCTGTCCTCCTAAGCCCAAAGACCAGCAGCTCAGCACAAATAGC
AGCAGCAACAGCAACAGCCCCAGTAGTAGCAGCTACAACAAGAGCTACGA
ACAGAAGCAACAGATGAACGACTCCATGATATCGTCGAACAGGGAACAGC
ACTCCATCGCTGTGACGGGCGCCAGCGACAACGACACCGCCCCAGAGCCG
CCTACGAAGAAGCAGAAGCTCATCAAAGCTGGTCTGTTCTTGCTGCTTGT
GATCATAGTGATCTACGTCATCCTAGATTACACGGTGAGAGGTCCACGTC
CATCTCTTATGAACCAGCACCAGTCCTCTCGTCTATTATAGACTGCTGCA
CCGGTATCGTTTGGATATAAATTTTGTTTTACAGCACTCCCCCTGGTTTG
TACAGCCACGTCGTACTCGTATATACTCCGTACCTGGTGTACAGCAGTAT
CACGTACGGAGTACCAGGTACCAGATATGGCACTTCGTATATACTGGTAC
GGAGGTATATACGAAGTGATTTTTCAGCCCTTCTGCCGTTTGCCCTTTCA
CGTTCGCGTGCTTGCGCTGCCTGAAACTGTCAGCTCGAAACTGTTGCTGG
GCCGGTAAAGAGATTAGCACGCCCGACGTCCATTTTTATCGACACCTTGG
CAACTAAGTTTCGGCCTCCTTGTCACTTTTGTCGCCTTTTTTACTCTTTA
TTTCGTGTTGTGACTTGGCTCTGGATCAGGCTTCCTTTTCTGCGTTTCCT
GTTGTATTTTTGTATAGCGTTGTGTGATATTTCGGGGTCCGTTTTGTTTT
GCCTGAGTTTCCTTGTCGTGCCTTTGGTGGATTGAGGGAATCTCCGGCGT
ACAATATACATACATACCTAGTTTGGGGCAAGCAGCCTGTGACCACGGAA
ATCGTCCCTGATCGGTGGAGTACGGACATTAACAGGTATTGAGGAGAGGT
CGGAATAGTTTTTAATGTGAAGATAACAAAACAACAACAACAAACAACAC
TAGTGGATCGAGGGGCTAGGTTTTTTGTTTTGTCGTATACCAGGTGTATG
ATACTGCATCTGATACATACTCAAATACGTTCCCGAGCCCGGGGTTGGTT
GCCTGAAGGTTGCTGCTGCTTGCTGCTGCGTGTGTGAGACGCAAGTAAGT
ACCACGTATGAGTATTTTGATGTGCGACGGCAGACAACAAAGATAAAGTA
GTAGCAGTGAACACAGCACAGCTATCATAGCTGAGCACAGCTAGCTGGAC
TCTTGATAACAAAGTTGTGGTGGGAGAGACACAAGCAAGCAAGTACTCCT
AAAGACACCATCTACTCAAGCAACCAAAGTGTGTTTGCGTGTATCGCTGC
CCTCTCTCGCTTTCTCACTAGAAAAGCAGCAGCAGCAGTAGTCGAACCTG
CCCCTCTGCCCCCACACACAGCAGCCTTGCTTCGTCACCATCAGCCGCAC
TAGATACTACTTGTGCCAAACTCCCTCCCTCTCCGGCCCTCTCCGGCTAG
TGTGTTGTTGTGTGTGCGTGTGCGTGTATTGGGTGGTGTGAGATGTGCGT
GTTGTGTGTCTCTCACTCACTGCTGCTGCCGTTGGTGGTGTGATGGATGA
GTGGTGAGATGTGTACACACAACACACAAGACCCACAACGAAGAAGATCC
TTGGTAAAAAATAAATGCCTCCAGTATTTGTTTCGGGTTGGAGGGGACGG
GTAAGGGCGATCAAATACAGACAAATCCACAGGGATCTCGGCGAACTCAG
CACGCAATGGGCGGAGACAAGTTGAAGGTAGGTCGTGCTAATTTTGCTCT
GTCCTCCACACTTTTATCATTCGGGAAGTGGTTGGGTATTGGGTGAGTGA
TGAGTCAAAAGGAGGGTATTTCAAATCCGTGCGTACGATCGAACGAACGA
ACGAACGAACGAACGAAGGGACAGCCATCGCAAAAACCCTCACCCCCGGC
ACACATTTCGTTTTTTTTGCGCGCATATGTATGAAGGCGAGGAAAAAAAA
AGATGACAAAAATAAGTCGTTTTTTTTCTGAGTAGAAAAGAAAGGAAGAA
AAAAAACAAACCCGCGATTTTCTTTTTTCTCACAACACCAGAGCCTGCCT
TCGGCCTGTTGAATTGTTTCGGCGAAGACTCGTTTTCAGTGTATCGCATC
CAAGTCCTTGGAACGTACTTCTATTTACAAATGTGCCGTTTACAACTTTT
GAAATAACCCGTCTTTCATCGAGTTTCGTGAGCAACGAGGAGTAACGCGG
ATGCTGCTGTAGCGACCCTGAATGCTTCCAGCACACAGCCTCCGAAAATC
AGAGCAGACGTGGGTACTTGCGACCACTATTTCAGCAAAACGCGCTCATG
ACTGATCCCAACCATCGATTCAGTGCCGTAGATACCCACGTATGCCCGTT
TTCTCAAGTGCTGCGTGCTGGAATATATCAAAATAAATACGGCCGCATAC
AAAATGAAGAACGAACCACTGGTGAAGCAGAGCAAGGTCTCGAGTTTGCA
TCCTGTCTAATGATCCCGTATGCCGAAAAGAGAGTGTGCCCTGATGTCCA
GGGGTTTCAGCATGTACCGGACACTTTGGTTGTGGTGGTCCTTGTGTGCT
ACTAGGTGTATTGGCCGCTTTCGCTGCTCTATCTCCGACGGCCAGGACAA
AGGGTTCCACATAGTTTTGCACTAGGCACATTATTGGAACTGCGCTCGAA
CCTAGTATCATACCCAATGAGTATTGTCCGATGTTGTCCGACAGGAGAGT
CCGAAATACTCTGTGCGTGTGGAAATACCCCTCAATCAGCGGTAGGCACC
TAGCTCTGTCACACGAAGTAAGGACGCGGCAAAAATAACGCCTGTGCCTC
CCGTTTCACTCTGCTTTGCTGCCTTCGTCCGCCCAGGTTCCTGGACTGGG
CTTCGTCGACGATATCCTCAAGTCCTTCCTCACGTGGGTCGAAGACAACC
CCGCACAGGGCGCGATAGCCTTCGCCGGTGTGTACATCTTCACCACCGTG
TGCTTCATCCCCGGGTCGCTGCTCACGCTAGGCGCAGGGCTGGTGTTTGG
CCGCGCACTGGGGACTGGCCTGGGCGTGGTGGTCGGGTCTCTGGCAGTGC
TGGTGAGCAGTTGTTTTCTGAAGCCTCCTGCCTTATATTTTTATCTTCAC
GACAGAATTGCGCCTTTAGGTATTCGTTGTCACTTGCCTTTATACCATCA
GGTATATCTCACCCCACGTAGGCATCACCTTCCGCCGTGTTTCACATGTA
TGGTAGCCCTCTGCGTTTGCGCCGCCTTCTGTTGTCCTCAATAGTGCTCT
ATTTCGAAGAACTTTTCACACCAACACCCACACTCACCCACAAACACACA
AAAAATGCGCAGGTCGGTGCCACGATCGGGGCCATCTTGGCGTTCCTGCT
GGGCCGCTTCGTGCTCCAGCAGCAGGCCCAGGGGCTGTTTAACAAGTTCA
AGGTGCTCACGGCTGTCAACAGGGCCATCCAGTCGCAAGGCTTGAAGCTC
GTGATTCTCCTCCGGCTCTCTCCCGTCGTGCCGTTCAGCGCCTTCAACTA
CGTCATGTGAGAATATGCGTCATGTTTACTGCTGTATTTGTGGCGCACGG
GTATTGCACTGTCCCGAAATACGAACCATCACTGGGATTCCTATCCTCTA
GCAAAGGGCTAATTTTTTTGCAGGCTAAGGTTTTGCCCAAAGTCCTGATA
GTTTGGGCGTCCCTGCGTGGGAGGTCAACGGGTGGAAGAGGGGGTAGGGT
GACCGTGGCGATGAAAATGATTTCGTCGAACAGGAAGACGAGAACTTCTT
GATGGTGTGTGTGGTACATACATACGCTAGCCGCGTAGAGTATGAGTAGG
TGAGAGGGAGAGAGAGAGAGAGAGAGGCAGACAGACAGATAGACAGACAG
TTGGGCAGAGAGAGACGGAGGAACTGATCAGCCCCCCCGCCCAAAACTGT
ACTAGTACAAGGCAGGACGTTCGATTCTCACCCGCCCTCTCGCCCCCTCC
ACCCGTCCGCGTCCACGCTCCTCTTGCTCTTTTCAGGGGTGTCACGGCGG
TGAAGTTCCGGGACTACGCCCTCGGCTGCGTGGGCTTCATTCCCGGTACG
GTAGCGTTCGTCTTCATCGGCACCACGGCGTCGGGCCTTTTGGGAGACGA
CGGGGAGGAGGAAGAGACGGACGACAACGGCAGCAACGGCACGGTACAGC
TCATCGTGCTCATCGTGGGGGGCATCGCCACCGTCATCGCGGTGGTGTTG
GTCAGCATCTACTCCAAGCGCGCCCTGAACAAGGTGCTCGAGGAGGACAG
AATCGCGCACGAGGACATGGAGGCGGGTGGGGAAGTTAACGGCAGCGCCG
CTACCACCCGCGGAGAGGGTGTGTTGATGGAGCGACCTCAGCAGGACGGG
ACTCGGCCGTCCGCGATAAAGCACGCGGTTCGCATGCCGGTTTAAATTGT
TTCAAACATTTTTTTTATGTGTCTATTGCAGAAGTAGGCAAAGTACACAG
TTCGTACGCGGGAGTCCTGTTGGGTAGTGGGTACTCTGTGTTTTGCCTTC
TGACAGTGTATCGTTACAGAATGCCATGTGCTATTCATGACATTTGTCAT
CAGTCATGTTTTTCGTTGTATTTTTTGTGAAAATCGGGATGTTCGCGCGG
TTGAAGTTAGTTCTGGGAAGGCACGGAAACCAGAGTACAAGCAGAGTAGG
GTCACTTCGGAAAAATTCCAGAATTTAGTAAGTCGGGTACATCGAGTCGC
TCGGACTTTTGGGGATTTAGCGCATTGGGTACATCGAGTCATGGGGCAGA
GTTGGATGCCTTGGAGTTTACTCTTCTTGTACTTGATTTTCGTTGCGTGT
GAGTTTGGTTTCCGAGTGGAGTCGCGGGCATTGATCGTGAGCAGTCTAGA
AGTGTCGTCGCTGTTGTTGGCGCGACGTCGTTTGTGCCGCGATTATCTCC
TCGTGCCCTTAGCGATAGCAGATTAGCTCTCGCTCGTGTTTGGAATAACG
TTTTTTTAGCCGAGTTGTGAATAGGTACCTGCACAGTACCGTTTGTTTCT
GCTGGCCCCTCATGCCCCTTCAGGGCTTTCATGGGTACGAGTGTACATAC
AGTAGATGCAGTGATAATGGTATTTAAAACAACAGTGATGATGAGAATGA
TGATGAGAATGATGATGGTGATGCTGGTGATATTGCCATGTGATCGAATA
ATTCACGCATGGCAGGTCATTTAGACGTTGATCTACATAGACATGTGCAC
CAGAAAATTCACAAGTGTCTGGCCTGCCTGGGTCGATCGACTTTGATGAC
ACCAGCCATATATTTATAAAAAAAAACAGACGCAAATACCTGGGTTGTTG
TTTGCGTAGGTAGTATTGGCCGATAGAACGTGCGTCCAAATGTCTACGGG
ATCTGACTACAAAATACAAAATACCGC

Coding sequence (CDS) from alignment at P-littoralis_Contig6:1249068..1267294+

>mRNA_P-littoralis_Contig6.302.1 ID=mRNA_P-littoralis_Contig6.302.1|Name=mRNA_P-littoralis_Contig6.302.1|organism=Pylaiella littoralis U1_48|type=CDS|length=990bp|location=Sequence derived from alignment at P-littoralis_Contig6:1249068..1267294+ (Pylaiella littoralis U1_48)
ATGAACGACTCCATGATATCGTCGAACAGGGAACAGCACTCCATCGCTGT
GACGGGCGCCAGCGACAACGACACCGCCCCAGAGCCGCCTACGAAGAAGC
AGAAGCTCATCAAAGCTGGTCTGTTCTTGCTGCTTGTGATCATAGTGATC
TACGTCATCCTAGATTACACGGTTCCTGGACTGGGCTTCGTCGACGATAT
CCTCAAGTCCTTCCTCACGTGGGTCGAAGACAACCCCGCACAGGGCGCGA
TAGCCTTCGCCGGTGTGTACATCTTCACCACCGTGTGCTTCATCCCCGGG
TCGCTGCTCACGCTAGGCGCAGGGCTGGTGTTTGGCCGCGCACTGGGGAC
TGGCCTGGGCGTGGTGGTCGGGTCTCTGGCAGTGCTGGTCGGTGCCACGA
TCGGGGCCATCTTGGCGTTCCTGCTGGGCCGCTTCGTGCTCCAGCAGCAG
GCCCAGGGGCTGTTTAACAAGTTCAAGGTGCTCACGGCTGTCAACAGGGC
CATCCAGTCGCAAGGCTTGAAGCTCGTGATTCTCCTCCGGCTCTCTCCCG
TCGTGCCGTTCAGCGCCTTCAACTACGTCATGGGTGTCACGGCGGTGAAG
TTCCGGGACTACGCCCTCGGCTGCGTGGGCTTCATTCCCGGTACGGTAGC
GTTCGTCTTCATCGGCACCACGGCGTCGGGCCTTTTGGGAGACGACGGGG
AGGAGGAAGAGACGGACGACGACGGCAGCAACGGCACGGTACAGCTCATC
GTGCTCATCGTGGGGGGCATCGCCACCGTCATCGCGGTGGTGTTGGTCAG
CATCTACTCCAAGCGCGCCCTGAACAAGGTGCTCGAGGAGGACAGAATCG
CGCACGAGGACATGGAGGCGGGTGGGGAAGTTAACGGCAGCGCCGCTACC
ACCCGCGGAGAGGGTGTGTTGATGGAGCGACCTCAGCAGGACGGGACTCG
GCCGTCCGCGATAGAGCACGCGGTTCGCATGCCGGTTTAA