mRNA_P-littoralis_Contig662.15.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig662.15.1
Unique Name	mRNA_P-littoralis_Contig662.15.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot
Match: A0A848YIS0_9HYPH (Methyltransferase domain-containing protein n=1 Tax=Hyphomicrobiales bacterium TaxID=1909294 RepID=A0A848YIS0_9HYPH)

HSP 1 Score: 278 bits (710), Expect = 1.230e-84
Identity = 140/279 (50.18%), Postives = 186/279 (66.67%), Query Frame = 2

Query:  371 SMKLYVKVDRIHAELRALGFGDDCALTVEDLTPFDNYHYLGTEGCDEAVAALGVTADSRVLEIGSGIGGPARYVANRTGCKMTALELLPDLNSTAASLTARCGGSLKGEVTHICGDVLDGAMKGLAFDGIISILCFLHIQDRARLFSECRAALLPAGTKPGDGGAGAPRRMYIEDFVLLREPTASQSADLKTKVLCPYLPTKEEYSAQLEAAGFGSIDITDVTAPWTTFTSERLAAFRDRREVHLGLHGESVTQGLEDFYTFVSQMFTEGVIGGVRIVA 1207
            +M+LY +V+RI  EL  LG  +D  L+VEDLTPFD YHY GT+  DEA   +G T  + +LEIGSGIGGPAR++A+ T CK+TA+EL PDL++ A  LT RCG  L   V H+CG+ LD  +    FD I+S L FLHI  RA LFS C ++L P G+            + IED++ L+EP+  Q+ DL+ KV CPY+P KE Y   L  AGF S++I D++A WT FT ERLAA+  RRE ++ ++GE +T GL DFY   + +F +GVIGGVRI+A
Sbjct:    9 TMRLYDQVERILNELHHLGIDEDAPLSVEDLTPFDQYHYHGTQAVDEAARLIGATPQTEILEIGSGIGGPARHMAHATNCKVTAVELQPDLSTLAEQLTERCG--LADRVEHVCGNALDKPLGDRTFDAIMSFLVFLHIPARAELFSVCHSSLRPGGS------------IVIEDYIKLKEPSDKQAEDLRVKVQCPYVPDKETYRQHLLDAGFVSVEIEDMSASWTAFTGERLAAYEARREHNVKVNGEDLTDGLHDFYATTAGLFADGVIGGVRILA 273

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BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot
Match: A0A7Y2BQB9_9HYPH (Class I SAM-dependent methyltransferase n=1 Tax=Hyphomicrobiales bacterium TaxID=1909294 RepID=A0A7Y2BQB9_9HYPH)

HSP 1 Score: 246 bits (627), Expect = 1.810e-72
Identity = 130/283 (45.94%), Postives = 168/283 (59.36%), Query Frame = 2

Query:  362 AESSMKLYVKVDRIHAELRALGFGDDCALTVEDLTPFDNYHYLGTEGCDEAVAALGVTADSRVLEIGSGIGGPARYVANRTGCKMTALELLPDLNSTAASLTARCGGSLKGEVTHICGDVLDGAMKGLAFDGIISILCFLHIQDRARLFSECRAALLPAGTKPGDGGAGAPRRMYIEDFVLLREPTASQSADLKTKVLCPYLPTKEEYSAQLEAAGFGSIDITDVTAPWTTFTSERLAAFRDRREVHLGLHGESVTQGLEDFYTFVSQMFTEGVIGGVRIVAT 1210
            A  SM LY +V+RI+++LRA+G  DD  L VE LTPFD YHY GT+  DEA+A  G+TA S VL++GSG+GGPARY+A  TGCK+TALEL  DLN  AA LT RCG  L G + H+C DVL       + D ++S L   HI D   LF+ C  AL P G            R+YIED   L E T  +   L+  +    + ++ +Y   L+ AGF  I  TD+T PWT F  ERL A+R  RE    +HG  V + L++FY  V  +F  G +GGVR+ AT
Sbjct:    5 AIKSMNLYSQVERIYSDLRAMGIADDAPLDVETLTPFDQYHYFGTDAVDEAIAMTGITAGSTVLDVGSGLGGPARYLAKATGCKVTALELQEDLNEVAAKLTDRCG--LSGNIDHVCADVLAWQAPAESHDQLMSYLALYHIDDPTTLFATCATALKPGG------------RIYIEDLYGLGEFTDEEQRHLRHMLYGQNMASRTQYILDLQNAGFTDIAFTDMTGPWTGFCRERLEAYRAGRERQEAVHGRQVVEALDEFYATVLGLFEGGNMGGVRVTAT 273

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BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot
Match: A0A848Y5D2_9HYPH (Class I SAM-dependent methyltransferase n=1 Tax=Hyphomicrobiales bacterium TaxID=1909294 RepID=A0A848Y5D2_9HYPH)

HSP 1 Score: 239 bits (609), Expect = 7.610e-70
Identity = 129/287 (44.95%), Postives = 172/287 (59.93%), Query Frame = 2

Query:  350 TPAAAESSMKLYVKVDRIHAELRALGFGDDCALTVEDLTPFDNYHYLGTEGCDEAVAALGVTADSRVLEIGSGIGGPARYVANRTGCKMTALELLPDLNSTAASLTARCGGSLKGEVTHICGDVLDGAMKGLAFDGIISILCFLHIQDRARLFSECRAALLPAGTKPGDGGAGAPRRMYIEDFVLLREPTASQSADLKTKVLCPYLPTKEEYSAQLEAAGFGSIDITDVTAPWTTFTSERLAAFRDRREVHLGLHGESVTQGLEDFYTFVSQMFTEGVIGGVRIVAT 1210
            TPA    SM LY +VDRIH +L A+G G D +LTV+ L+ FD +HY GT+  DEA+A  G+ A SRVL+IGSG+GGPARY+A  TGC +TA+EL  DLN+ A SLT RCG  L  +V H+  DVL   ++  ++D ++S LCF HI D   L S+   AL P G            R+Y+ED     E    + A L   +   YLP +E Y A L+ AGF  ID  D T  W  + +ER+AA+  RR   + +HGE++   L  FY  VS +F  G +GGVR++AT
Sbjct:    3 TPAI--KSMNLYSEVDRIHNDLAAIGIGPDDSLTVDVLSQFDQFHYFGTDAVDEAIAEAGINAKSRVLDIGSGLGGPARYLAEHTGCHVTAIELQFDLNALAESLTERCG--LSAKVEHVQADVLTHQIEPQSYDAMVSWLCFYHIADHQTLLSQVYKALKPGG------------RLYVEDLFRHGEFDEDEQAHLSQMLYAQYLPYRETYVADLQGAGFAEIDFNDRTKTWRPYVAERVAAWTARRGELVAVHGEAIVDSLAAFYHTVSLLFESGKLGGVRLLAT 273

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BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot
Match: A0A2E8YA89_9GAMM (Uncharacterized protein n=1 Tax=Thiotrichales bacterium TaxID=2026796 RepID=A0A2E8YA89_9GAMM)

HSP 1 Score: 238 bits (607), Expect = 1.440e-69
Identity = 124/278 (44.60%), Postives = 168/278 (60.43%), Query Frame = 2

Query:  374 MKLYVKVDRIHAELRALGFGDDCALTVEDLTPFDNYHYLGTEGCDEAVAALGVTADSRVLEIGSGIGGPARYVANRTGCKMTALELLPDLNSTAASLTARCGGSLKGEVTHICGDVLDGAMKGLAFDGIISILCFLHIQDRARLFSECRAALLPAGTKPGDGGAGAPRRMYIEDFVLLREPTASQSADLKTKVLCPYLPTKEEYSAQLEAAGFGSIDITDVTAPWTTFTSERLAAFRDRREVHLGLHGESVTQGLEDFYTFVSQMFTEGVIGGVRIVA 1207
            MKLYV V+RI+ ELR LG+ +  +L  EDL PFD YHY GT+  DE +   G+ A+SRVL+IGSG+GGPARY+A   GC +TA+E+ PD++ TA  LT RC   L G V H+C D L    +   +D I+S L FLHI DR RL + C  AL P+G             M++EDF  +   T  + + L   V C YLP+ EE+  Q EAAGF  ++  D T   T+F SER  AF + RE H+ +HG  +  GL+ F+T V+++F  G  G  R++A
Sbjct:    8 MKLYVSVERIYNELRELGYANGDSLNPEDLFPFDQYHYFGTDAVDEGIRQTGIKANSRVLDIGSGLGGPARYLAKTVGCSVTAVEIQPDVHETALDLTRRC--DLDGRVNHVCADFLGSDARD-DYDVIVSWLAFLHIPDRERLLARCLEALKPSGV------------MFVEDFHEIDTLTDRERSQLAADVYCEYLPSLEEFGTQCEAAGFTDVEPQDATNDATSFASERARAFMESRERHVRVHGVKIADGLQHFFTVVAELFNGGHFGLGRVLA 270

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BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot
Match: A0A520Y5J1_9ACTN (Methyltransferase domain-containing protein n=1 Tax=Acidimicrobiales bacterium TaxID=2201156 RepID=A0A520Y5J1_9ACTN)

HSP 1 Score: 234 bits (596), Expect = 5.570e-68
Identity = 123/279 (44.09%), Postives = 166/279 (59.50%), Query Frame = 2

Query:  371 SMKLYVKVDRIHAELRALGFGDDCALTVEDLTPFDNYHYLGTEGCDEAVAALGVTADSRVLEIGSGIGGPARYVANRTGCKMTALELLPDLNSTAASLTARCGGSLKGEVTHICGDVLDGAMKGLAFDGIISILCFLHIQDRARLFSECRAALLPAGTKPGDGGAGAPRRMYIEDFVLLREPTASQSADLKTKVLCPYLPTKEEYSAQLEAAGFGSIDITDVTAPWTTFTSERLAAFRDRREVHLGLHGESVTQGLEDFYTFVSQMFTEGVIGGVRIVA 1207
            SM LY  V+RI A+LRA GF     LTV+DLTP+D YHY GT+  D+A+A LG    + +L++GSG+GGPARY+A+R+G  +T LEL PDLN TAA+LT R G  L   VTH+ GDVL G      F G++S+LCFLHI DRA LF+ C  AL                R++I+D+    E T ++   L   V C YLP +  Y  Q+EAAG   + +TD T  W  F  +RL  FR+ R   +  + E+  + L+ FY  V  +F  G +GG+R+ A
Sbjct:    6 SMGLYRNVERIMADLRASGFDGTSPLTVDDLTPYDQYHYEGTDAVDDAIAFLGANPAAHILDVGSGLGGPARYIADRSGAAVTGLELQPDLNETAAALTVRAG--LSALVTHVNGDVLAGDAGTDQFTGLVSMLCFLHIPDRASLFANCANALQSGS------------RIFIDDYYERGELTTTEWEHLANTVYCTYLPDQATYVKQMEAAGLVDVQVTDKTNDWADFVGDRLGRFREARPELIARYDEATVESLDHFYATVVDLFGGGNLGGLRVTA 270

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BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot
Match: A0A7L4NYE8_9EURY (Methyltransferase domain-containing protein n=2 Tax=Methanobacteriaceae TaxID=2159 RepID=A0A7L4NYE8_9EURY)

HSP 1 Score: 232 bits (592), Expect = 2.330e-67
Identity = 120/278 (43.17%), Postives = 162/278 (58.27%), Query Frame = 2

Query:  374 MKLYVKVDRIHAELRALGFGDDCALTVEDLTPFDNYHYLGTEGCDEAVAALGVTADSRVLEIGSGIGGPARYVANRTGCKMTALELLPDLNSTAASLTARCGGSLKGEVTHICGDVLDGAMKGLAFDGIISILCFLHIQDRARLFSECRAALLPAGTKPGDGGAGAPRRMYIEDFVLLREPTASQSADLKTKVLCPYLPTKEEYSAQLEAAGFGSIDITDVTAPWTTFTSERLAAFRDRREVHLGLHGESVTQGLEDFYTFVSQMFTEGVIGGVRIVA 1207
            MKLY    RI+ EL A G   D AL V+DL+PFD YHY GT+  D+A+ +L +++++ +LEIGSGIGGPARY+A  TGC +TALEL P+LN  A  LT RCG  L   V H+CGD+L    +   FD ++S L FLHI DR  L ++C + L   G            +++I+D+    E    +   L   V C YLPTK+EY  QL  +GF  I I D T  W  F  ER   F    E  + +H + +   LEDF++ VS +F  G +GG+RI+A
Sbjct:    7 MKLYHNPKRIYNELEASGLNKDTALKVQDLSPFDQYHYFGTDSVDDAITSLNISSENTILEIGSGIGGPARYIAEETGCHVTALELQPELNDIAVDLTERCG--LSQLVNHVCGDILKFNQENTNFDYVVSWLTFLHIPDRNTLLNKCNSILKLGG------------KIFIDDYYKRNEFEEEELKVLANDVSCNYLPTKDEYKKQLIKSGFNEIKIIDKTYSWKNFVKERKERFIQNSESQIEIHNKEIVDDLEDFFSKVSWLFDHGNLGGLRIIA 270

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BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot
Match: A0A355ARF5_9GAMM (Methyltransf_25 domain-containing protein n=8 Tax=root TaxID=1 RepID=A0A355ARF5_9GAMM)

HSP 1 Score: 227 bits (578), Expect = 2.840e-65
Identity = 125/282 (44.33%), Postives = 166/282 (58.87%), Query Frame = 2

Query:  371 SMKLYVKVDRIHAELRALGFGDDCALTVEDLTPFDNYHYLGTEGCDEAVAALGVTADSRVLEIGSGIGGPARYVANRTGCKMTALELLPDLNSTAASLTARCGGSLKGEVTHICGDVLDGAMKGLAFDGIISILCFLHIQDRARLFSECRAALLPAGTKPGDGGAGAPRRMYIEDFVLLREPTASQSADLKTKVLCPYLPTKEEYSAQLEAAGFGSIDITDVTAPWTTFTSERLAAFRDRREVHLGLHGESVTQGLEDFYTFVSQMFTEGVIGGVRIVATLV 1216
            SMKLY  VDR+  ELR +G  D+  L+V++LTPFD  HY GT   D AV A G++A S VLEIGSG+GGPAR++A   G ++TALEL  D N  A++LTARCG  L  +VTH+CGD L     G  FD I+S L   HI +R RL   C   L   G             ++ ED     + T S+ ++L T++   YLP  E Y   LE AGF      +++  WT FT ER+AA+R ++  H+ +HGE+V   L+DFY  V + FT G +GG+R VA  V
Sbjct:   13 SMKLYHHVDRVLTELRQMGKEDEGPLSVDELTPFDQLHYQGTAAVDHAVRATGISATSSVLEIGSGLGGPARHIAAAVGARVTALELQSDQNLLASNLTARCG--LAEKVTHVCGDFLTCNWVGQHFDVIVSWLALYHIPERDRLLKRCHDLLDQGGY------------LHAEDLYARGQFTDSEQSELATELFANYLPDYENYRWDLERAGFELASCQEMSDEWTAFTRERMAAYRGQKARHIDVHGEAVFTSLDDFYDLVVRYFTAGKLGGIRFVARKV 280

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BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot
Match: A0A2D8KYI2_9GAMM (Methyltransf_25 domain-containing protein n=4 Tax=Gammaproteobacteria TaxID=1236 RepID=A0A2D8KYI2_9GAMM)

HSP 1 Score: 226 bits (575), Expect = 6.810e-65
Identity = 119/281 (42.35%), Postives = 167/281 (59.43%), Query Frame = 2

Query:  374 MKLYVKVDRIHAELRALGFGDDCALTVEDLTPFDNYHYLGTEGCDEAVAALGVTADSRVLEIGSGIGGPARYVANRTGCKMTALELLPDLNSTAASLTARCGGSLKGEVTHICGDVLDGAMKGLAFDGIISILCFLHIQDRARLFSECRAALLPAGTKPGDGGAGAPRRMYIEDFVLLREPTASQSADL--KTKVLCPYLPTKEEYSAQLEAAGFGSIDITDVTAPWTTFTSERLAAFRDRREVHLGLHGESVTQGLEDFYTFVSQMFTEGVIGGVRIVAT 1210
            MKLY +VDR+  EL+A+G GDD  + VE L  +D YH  GT+  DEA+  LG+TADS+VLEIGSGIGGP+RY+A+R GCK+TALE+ PD+++T  +LT RCG  L   V H CGD+LDG      +D I+S L FLHI DR  L+  C  +L P G            +M +E +      T S+   L     + C  +PT  +Y  +L  AGF +I +TD+T  W +F  +R   F+   E +  +HG+++  GL  FY  V  +F +G +GG+R   +
Sbjct:    9 MKLYQRVDRVFNELKAIGMGDDDPIPVEQLCNYDQYHXFGTDAIDEAIELLGITADSQVLEIGSGIGGPSRYLAHRQGCKVTALEIQPDVDATGRALTHRCG--LDDRVDHRCGDMLDGIGSTGMYDVIVSWLAFLHIPDRDTLYRRCFESLRPGG------------QMLVEXY--FERGTLSEREQLIXARDIWCDRVPTMTDYRMELSDAGFENIALTDMTTSWLSFVXDRFQXFQAASERNRVVHGDAIVDGLHGFYEAVVNLFKDGNLGGIRFTVS 273

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BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot
Match: A0A6P8HIY7_ACTTE (phosphoethanolamine N-methyltransferase 1-like n=1 Tax=Actinia tenebrosa TaxID=6105 RepID=A0A6P8HIY7_ACTTE)

HSP 1 Score: 224 bits (570), Expect = 3.610e-64
Identity = 116/280 (41.43%), Postives = 163/280 (58.21%), Query Frame = 2

Query:  371 SMKLYVKVDRIHAELRALGFGDDCALTVEDLTPFDNYHYLGTEGCDEAVAALGVTADSRVLEIGSGIGGPARYVANRTGCKMTALELLPDLNSTAASLTARCGGSLKGEVTHICGDVLDGAMKGLAFDGIISILCFLHIQDRARLFSECRAALLPAGTKPGDGGAGAPRRMYIEDFVLLREPTASQSADLKTKVLCPYLPTKEEYSAQLEAAGFGSIDITDVTAPWTTFTSERLAAFRDRREVHLGLHGESVTQGLEDFYTFVSQMFTEGVIGGVRIVAT 1210
            +MKLY  V+RI+ +L  LG+     L +ED+  FD YHYLGT+     +  LG+ +  +VL+ GSG+GGPAR++  +T C++ A+EL  DLN TA  LT RCG  L  ++ H+ GD+L   M+  +FD ++S L  LHI+DR  LF+ C   + P G            +MY EDF  L +   + S  LK  +   YLPTK+EY  QLE AGF  I   DVT  WTTF S+R+  F   +E ++ + G++   GL  FYT V + F    +GG RI+AT
Sbjct:    9 TMKLYSDVERIYKQLEQLGYSRTDTLKLEDVNKFDEYHYLGTDAVMHCIKELGINSSHKVLDFGSGLGGPARFIVAKTNCELLAVELQADLNDTAVDLTKRCG--LDTKLKHLWGDILKLDMESGSFDFLVSWLVILHIEDRKSLFNNCAKLIKPGG------------KMYTEDFYKLSDYDDNFSRMLKEDLFIAYLPTKDEYVKQLEQAGFTDIQFVDVTEEWTTFVSKRVEDFHAGKESYVSVFGQATYDGLNHFYTAVDKSFKSKAVGGCRIIAT 274

[Close]

BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot
Match: A0A847FES9_9BACT (Methyltransferase domain-containing protein n=1 Tax=Elusimicrobia bacterium TaxID=2030800 RepID=A0A847FES9_9BACT)

HSP 1 Score: 218 bits (556), Expect = 3.920e-62
Identity = 113/278 (40.65%), Postives = 164/278 (58.99%), Query Frame = 2

Query:  374 MKLYVKVDRIHAELRALGFGDDCALTVEDLTPFDNYHYLGTEGCDEAVAALGVTADSRVLEIGSGIGGPARYVANRTGCKMTALELLPDLNSTAASLTARCGGSLKGEVTHICGDVLDGAMKGLAFDGIISILCFLHIQDRARLFSECRAALLPAGTKPGDGGAGAPRRMYIEDFVLLREPTASQSADLKTKVLCPYLPTKEEYSAQLEAAGFGSIDITDVTAPWTTFTSERLAAFRDRREVHLGLHGESVTQGLEDFYTFVSQMFTEGVIGGVRIVA 1207
            MKLY   +RI+ +LR+ G  +   L   D++ FD YHY GT+  DEA+  L + +  R++EIGSGIGG ARY+A +TGC +TA+E+ PDL++ A+ L++RC  SL G + H+C D+LD   +G  +D  +S L FLHI DR  L  +C + L P G            +++IED+    + T  ++  L+  V CPYLP  EEY  QL   GF  I+++D T  W  F  ER+  F + R+  + +HG      LEDFY  VS++F    +GG+RI A
Sbjct:   10 MKLYRHPERIYNDLRSAGLKESGLLKERDVSCFDQYHYFGTDALDEAIDLLKIDSKKRIIEIGSGIGGCARYLAEKTGCHLTAVEIQPDLDAIASYLSSRC--SLSGFIRHVCADILDFRKEGDGYDIAVSWLSFLHIPDRQALLKKCYSLLKPGG------------QIFIEDYYKRNKFTKEEADVLREDVYCPYLPASEEYKEQLAGNGFTDIEMSDKTECWKNFVKERMRQFGESRDRQVKVHGIDTVNDLEDFYKKVSRLFEGNNLGGLRISA 273

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig662.15.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A848YIS0_9HYPH	1.230e-84	50.18	Methyltransferase domain-containing protein n=1 Ta...	[more]
A0A7Y2BQB9_9HYPH	1.810e-72	45.94	Class I SAM-dependent methyltransferase n=1 Tax=Hy...	[more]
A0A848Y5D2_9HYPH	7.610e-70	44.95	Class I SAM-dependent methyltransferase n=1 Tax=Hy...	[more]
A0A2E8YA89_9GAMM	1.440e-69	44.60	Uncharacterized protein n=1 Tax=Thiotrichales bact...	[more]
A0A520Y5J1_9ACTN	5.570e-68	44.09	Methyltransferase domain-containing protein n=1 Ta...	[more]
A0A7L4NYE8_9EURY	2.330e-67	43.17	Methyltransferase domain-containing protein n=2 Ta...	[more]
A0A355ARF5_9GAMM	2.840e-65	44.33	Methyltransf_25 domain-containing protein n=8 Tax=...	[more]
A0A2D8KYI2_9GAMM	6.810e-65	42.35	Methyltransf_25 domain-containing protein n=4 Tax=...	[more]
A0A6P8HIY7_ACTTE	3.610e-64	41.43	phosphoethanolamine N-methyltransferase 1-like n=1...	[more]
A0A847FES9_9BACT	3.920e-62	40.65	Methyltransferase domain-containing protein n=1 Ta...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig662	contig	P-littoralis_Contig662:61232..79104 +

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	10224.XP_002739709.1
PFAMs	Methyltransf_11,Methyltransf_23
Model size	2163
Max annot lvl	33208\|Metazoa
Hectar predicted targeting category	other localisation
Exons	2
Evalue	1.57e-61
EggNOG OGs	COG0500@1\|root,KOG1269@2759\|Eukaryota,38CU5@33154\|Opisthokonta,3BQ5S@33208\|Metazoa
Description	Mycolic acid cyclopropane synthetase
Cds size	948
COG category	I

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1680791383.637845-UTR-P-littoralis_Contig662:61231..61472	1680791383.637845-UTR-P-littoralis_Contig662:61231..61472	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig662 61232..61472 +
1680791383.649441-UTR-P-littoralis_Contig662:77182..77215	1680791383.649441-UTR-P-littoralis_Contig662:77182..77215	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig662 77183..77215 +
1680791383.6722057-UTR-P-littoralis_Contig662:78163..79104	1680791383.6722057-UTR-P-littoralis_Contig662:78163..79104	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig662 78164..79104 +

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


Feature Name	Unique Name	Species	Type	Position
1680791383.65924-CDS-P-littoralis_Contig662:77215..78163	1680791383.65924-CDS-P-littoralis_Contig662:77215..78163	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig662 77216..78163 +

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig662.15.1	prot_P-littoralis_Contig662.15.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig662 77216..78163 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig662:61232..79104+
coding sequence from alignment at P-littoralis_Contig662:61232..79104+

protein sequence of mRNA_P-littoralis_Contig662.15.1

>prot_P-littoralis_Contig662.15.1 ID=prot_P-littoralis_Contig662.15.1|Name=mRNA_P-littoralis_Contig662.15.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=316bp
MTNDVAVGEVMETTTATQQPQTQGKTPAAAESSMKLYVKVDRIHAELRAL
GFGDDCALTVEDLTPFDNYHYLGTEGCDEAVAALGVTADSRVLEIGSGIG
GPARYVANRTGCKMTALELLPDLNSTAASLTARCGGSLKGEVTHICGDVL
DGAMKGLAFDGIISILCFLHIQDRARLFSECRAALLPAGTKPGDGGAGAP
RRMYIEDFVLLREPTASQSADLKTKVLCPYLPTKEEYSAQLEAAGFGSID
ITDVTAPWTTFTSERLAAFRDRREVHLGLHGESVTQGLEDFYTFVSQMFT
EGVIGGVRIVATLVE*

mRNA from alignment at P-littoralis_Contig662:61232..79104+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig662.15.1 ID=mRNA_P-littoralis_Contig662.15.1|Name=mRNA_P-littoralis_Contig662.15.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=17873bp|location=Sequence derived from alignment at P-littoralis_Contig662:61232..79104+ (Pylaiella littoralis U1_48)
GCGGCACGGATGTCGAGTGAGGTAAATACTGCTGTGGGACATCGAGCGAG
CATCGGCGCATCTTTGCTGTTGTGCCTCTCCTGATCATTTTTGTCTTTTT
CAGACGGACGTATATACGTCAAGTACAGAAGGAGGGAAAGGTGTGGGCGG
TAAAAGAAGAGCAAAATACTGGTAAATAAAAAGCTCGTGTGTGACCTTTC
GTCTGCGTGACCCGGCTGGTGCATCCACTTCGTACCGAAAGGTGAGCTGG
GAACATACTTTGTACCAGATGCTGACGCGATGTCTTTGATAAGAACCAAG
GCATCAGTGCACCGATACCGGTATGATACTTTGTCCTTGTACTCGTACAC
GTGCGTGTCCTGAGCTGCTCTGTTGAGGGTGTGATGAATCTTTGCTAAAC
TTTTTTTACAGCAGTAGCAGTAACAGCCGGTACAAATCGAGACCGAAGAG
TTTCACAGCGACCGCAAGCGGAATCGAGGGCCAGGAGTTTTGCGCCCGAT
GACCTTTCACCGTGCCTGTGACTGAAGACCACAAGCACAAAAGGGCGAAC
GGCGATCAGTAGTCGCGTTGAAAACAACGCACACACATCATACCTCATCC
CACTGGACATCTAACTCCTGCGTATATACGTAGGCGTGATGTGTAAACCC
CTACCCAAAGGACACTCTGTGCCTGGCTTTAGGAGGACCGTGACAGGTCT
AAAGCCCTCTCACCTCTTTCTCTCTCTGAGAAGATGAGGGCTTCCGCACT
CCAGCTACGGAGAGTCCTGAAGGCTGCTGCTTACCGGAACCCGGCGGCTG
CTTACCGCCGTTGTTGTACACAAATAGCCTCAAATGAGCGCGGGTTTTTG
TGTGTGAGTAATGTAGGTACAGCAGTAGGAGTGTTACGTGTTATGAGATA
TGGCATGGCATAGAGTTACGCCGCATCTCGGGAACCAAAAACAAAAAAGA
ACCCGAGGACCGGTCTTCACTTTCCTTGGGGATGCAGCAGCTGTGCTGCA
CTGCTATCATACAAACATCTTGCCGTGCCGCTGTCTAGAGCAACTGCTGC
TGCTGCACAGTGCCTGCTTTGCCGTGGTCTGACCCGGATCATCTTTAACG
CGATTAACCAGGTATGTACAAGGGTTCATCGTGCTGTGTTGTCCGTTTGT
TTGCTGCGGAGGCCTGTACGCCTCTGCGCTCTGGCGACTAAGTCCGTTGC
TGATGTAACACAACTTGACTTCCCCAACCAAAACGGTGACACATACATGA
CGAATTGTGCCAATTCAATTTCCCCTAGACACTGCTGCCAGCACGCAAAC
ATAAAAGCAGTATTGTGTACGTCATCAACATGCACGGCCCCAAGGATAGT
ACTCGTGTGTGTGTGTTGTCTGTGCTGTAGGTGTTGTCCCATCCGTCTTA
CATGACCGCACATCTGCCGGGCACACGGCCGTAGGAACGTGGGAGATGGT
GGGTGGCCGCTGCGTCGGTTGCAACGTCCACGTACAACGCATACCTGGTA
CTTCAGTATTTTGTAGTACGGTCGCCCCGGTGCAGTGCTTTACAGCAAAG
TGCAGTGGTTGCAGTGAGTATTCTTGTTACCGACTAGTGTTGTCATCCCA
TATTCTCTGGCACACTAGTCTGCACCCTGCGGTTCAAACTACAGGTTAGG
CCCATCGACGGGGTCACACAGGAGGAAGGTCACCGTAGGAGGAGTTACCC
CCACCTTCCTTCTGCGGTACATGCGTGAGATTTTTTCTCGCGAGCAGGGA
TCCGCGGTCCCTACCCTCGTCGGCGAAGCCGAATCTGCTTTTACTGACAG
CATACAATAGCCGCTTTCAAAGTAGCAAAGGAACACATTCACCAGGAATC
GAACCCCCGTTCCTCTGCATCTAGTGGTTAACGAGGGGACCACTAGTGCA
CCGGGGCGACCGACTAGTACTGTATGGTGGATGGATCGCAGGTTGGGTTC
TCTCTGGAAGAGTTTTCTTTCGACTCTACAGCAGTAATAAAAAATAACAG
CCCTTCCTTGTGTGACTTTCGTTCTGTTTGACCCCCTGTGGCTGGTGCAC
CCACTTCATACGGAAAGGTGTAGACCGTTGCCCACAATAAATGGGATGAA
GACATACACAGCAGTATGGTACAGACTCACAGGAAGATTCTCTTTCCGCC
TTCTCTCTGCTTGGTGTGTACTTCGTACGGTATGTGTTTGAGTGTTTTAA
TTTTCTTGTGTGTCTACTTGTGTGTCGTGTAGAAGGTGGTCGGCTGTGTG
TTTGTCACTGGTTTGTCATAGTGACGTCTATTCCGGACGCCAGTCTGCTC
TGTGCGAGACCTACGTCAAACGTTAGGCGTACTTCGTAACTTTTAGGGCG
GACGAGCGACATCCAGTACGAAGAGATGGATACTGACAGTACATACCAGT
AGACAAGAAGGCTGTTGATACAGCAGTATGTAACGTTTGTCTACTGTAGG
CAAAACAACCTCCAAAATTATCTTGTTGAGCCTGGTCTTGTATACAGGAC
AAGGTAGTTGCAACCATTCGGAGTACACAGGTTGTGGCGACCCACCCAAA
ATAGGTGCCTCCGTAAAGAACCCCCCCTCAGATTTTCCATGGGTCGTCTC
GGTAACGGCTTTTCAGGTTGGGACAATTTACCGCATTACCGTACTCAGCC
GCCACGGGGTAATTCGCGATAGTTTTTGCGTTTTAGCACGGTAATCGACT
GCCACGGCAATTGGTATCGCTGTACATACAAGTACTCAACGACCACGGTA
ATTGACCACCACTGTAATTTGTCACGGTCATCAGCCACCGCGGTAATTCA
CGGTAATTTTTCCACGGTAGGTGACCTCCACGGTAATGTTCACCAGGGAA
ATCAGCCGCCACGGTGATTTACCACCTGTGAGTGTTGTATTAAAAGCAAT
TTAGCGTAGACGAAAAAAATAGGGAAAACGACTCAACAGGGTATACCCTG
GTCATTTAGCGACACAGCAGGGTACATACTTTCTCACGAGCTGAAATGAG
CCATGCTCATTGGCCAAAGATCTAAAATACCCCGTTGTGACGCAATATCG
GCCGGGTATACCTTGCTGAGGCTACTTTTCTCGAAAAGTGTACCCTGATT
TTTGGGAAGTACCCTATCGAGGCGGGAAATGAGACCCTTCGACCGTCCGT
TTCTCTCGCACTTCTCCCGCAGGAAATTGCTTTCCGCAATTTCCGATCCC
GCCGAAGGACACCAACCGCGACCAACGCGACCGACCTGCCGCCAACTGAT
CCAACCATGGACATAGACTCTTTCCGTTCTAAACATACAATGGCTGACAA
TACCTGCCAGCCAGAGCCAGAGCACTGAGAGCACTGTTCTACAGAACCGA
GGGACGCGGCCCCAAGAGACGTCATATAACACGTCATGTATGTATGCCAC
AGACTATGAATAATAACGAGATACGAGAACACGCTCTTCCTTCTTGCTGA
CCTGACCGACTGCTGTCCGGGGTCCCTCTACAGTATTACACTATGCACTC
TATGAAGGGCCTTTTTGTAGAGGTAGAGACAACACACACAACAACAGACA
CAACGATTAAACAGATGAGGGTCTTTCCCTGCCGATTGCATGGATGGGTG
GTCGATAGGGACGCGGTGTGTGTGAGTAGGGCACACACGACAAGCTGTTA
GGAGTAAAAAAGCAGCAAAGCTTGATCCATCTCCGGTATACAACTGCTAT
TATACTACTGCTGCACACTACTGCTGCTGTGTCCTTTTGGAGCGGGGTGA
GAATAAGGGAAATAAGGCCCCAGACCGAACATGCCACACCAGTAGTCTAA
TCCCGTATTATGACGAGGTCGTTTCAGACGAGATGCAAAAAAAAATAATA
CACACGCACGCGCACACACACCGCGTCCCCATCGACCACCCATCCATGCA
ATCGGCAGGGAAAGATCTTCATCTGTTTAATCGTTGTGTCTGTTGTGGTG
TGTGTTGTCTCTACCTCTACAAAAAGGCCCTTCATAGAGTGCATAGTGTA
ATACTGTAGAGGGACCCCGGACAGCAGTCGGTCAGGTCAGCAAGAAGGAA
GAGCGTGTTCTCGTATCTCGTTATTATTTATAGTCTGTGGCATACATACA
TGACGTGTTATATGACGTCTCTTGGGGCCGCGTCCCTCGGTTCTGTAGAA
CAGTGCTCTCAGTGCTCTGGCTCTGGCTGGCAGGTATTGTCAGCCATTGT
ATGTTTAGAACGGAAAGAGTCTTATGTCCATGGTTGGATCAGTTGGCGGC
AGGTCGGTCGCGTTGGTCGCGGTTGGTGTCCTTCGGCGGGATCGGAAATT
GCGGAAAGCAATTTCCTGCGGGAGAAGTGCGGGAGAAACGGACGGTCGAA
GGGTCTCATTTTCCGCCTCGATAGGGTACTTCCCAAAAATCAGGGTACAC
TTTTCGAGAAAAGTAGCCTCAGCAGGGTATACCCGGCCGATATTGCGTCA
CAACGGGGTATTTTAGATCTTTGGCCAATGAGCATGGCTCATTTCAGCTC
GTGAGAAAGTATGTACCCTGCTGTGTCGCTAAATGACCAGGGTATACCCG
TTGAGTCGTTTTCCCAAAAAAAAATATATGAAAATGAACGGCCCGAGATG
CAATCACCATGAAAACATACTACTACTCGCCAGATCAAAGGCAGAGCAGC
CCAAGGCAACCATCAAAAGTAAGTTCTGAGCCCCACAATGTCAACAACTA
TACTACGAGTACTTGCTTCATCACCACACCCACCCGCGATGTCGACTACC
GGGGTTCACTCCTCACCAAACCAAAGCCGGGAAACAGCCCGCCGCAGTAG
TCTCAGAACTAACGCTTTTGTAATACAGTACGGCACTATTATCGCTAAAG
GTCAAGTCTAGGCTCACGACAAAAAAAAGTACTCCAAGTACTATCTTTAC
GGAGTAAAAGGTTTATTTTGAGCAGTACATCTACATCAGTATCAGTGCGA
AGGAGTGGCTTGCGCAGCCATCGGGTAGAAGGTCAACCGTTTACCCGAGT
GAGGACAGCACCTCTTGAGGGTCCTGGGACCACAGATTGTTGAGAGGCTC
GGAACTGAACAACAGCGAATGGGTCCTGACAATCACACACTGGGTACCTC
ACACCAGTAAAGAGACCTGTGGTAGAGAGACCTCTGGAAAGAGGAACACT
GGCTGCAGTCGCACACATCGGCGGCAGGGGCTTCTCTTTACATGCATATC
ACATGTCTACTTCTAATCTCCCACATAAATATCAAGATACATTTTGCATC
GAATCTAAAATCAAGTCAAAATAGCTTATTTGGCTTAACCTCTCACCTGG
TCAGTTGCGCGAGTAGGTATTCACAGTTATTTGATCAGTAGAGGATACCA
CCGAGCAGCTACGTGTGCGTCGGCACCTTCAGACATTCTGCCGGGGCGTA
GATATCGAACCCTGAAGCAGCTAATGCTGTAGTCCCGAAGGTAAGGAGGT
TGGGGTCTGTGGCGGCGGGCACAGCAGTGACAAACCTTTGGTGTCGGTCC
ATTTCGGCCGCAGTTTGCAGACTTTTTGAGCCACTGCCGCAGCAGCCTTC
GATATCTCAACCCCAGCAGCATGTCTGAACGTGCCGACACAAACGTTGTG
ATTTTTTTTTTTTCGCAAAGACATGTACTCAATGTGTTCGCCTCTCTCTA
GACGAGGGTCTGGACTAGATTAGCGACGAACACACAGTAGGTTGTTTTTC
AACATCTTCAGCTTGTCAGAAAAAAGAAAAAAATGAGCAGGGTGTCACGG
GTCGGGCTCAGCAGCTGGAGAGAGGCGAGAACATGAAAATACGATGTGTG
AGTAGGAAAAGAAATGTCGAAAAAATACATCAACGTGTTCATCACGTGTT
CACTTCTCTCCAGGCGAAGATCTGGATTGCATTTTGTTGGCAACGAACAC
AAATACCTTCCGACCCTTCCCACTCTTTACGGTTGCCCCCCCCCCCCCAC
CCATTTATTGGACGAAAAGCATGGAAACTTGAGTTTTTTCCCGGGGATAT
CTTACTGCACCCCCGCCCCGCCAAGAAGCTCCCCCCCCCAAGACACGATT
TCCCCCGTGGTAATTTTTTCCTTCATTGCGTTCCCCGTGCGGTAATGATT
TTCAAGGCGTTTTTTTTTGCGAGATTGGCATCAATGCGAATGAAAGGCGT
CGGCTCTTCAGCCCCAAACAAGCCACTTTTATTCGGCACCCCCACGAGGG
TGTGTACCATTCGCGGTTGCAACCATTTTTGCAGCCATTCCTTAATGGCG
TTAGCCTCCGGAGTACTGCTGTAGAGCGTTCGGCGGTTTCTTACGGGAAG
GCTGGTTTCCGATCGATTTTCCCTGTTTCCGATCGAGCAGCGAACCCCCA
AACAAATGGCCATGGGTGTTGCTATTGAAACACAACACGTGACAACATCA
ATCGGTGCTCGTTCCCTAGGGCACCAATCGCTACCAAACCTTGTTGGGGC
GTACGCTCCTGTGTTCTGAGCCTGAGCACCCCAAAAGTGTTCTAGTTGTG
GGCTATGTGTACCGCGAGGTTTCGTTGAGGGGGCGGTCCGGGCTACTTGA
CTTGTACAATTTTTGATCGCAGTTCTCAGTCGGTGCTCCAGCCGGAAATA
ACGAAATCATAGTCAAAAACGGTTAGGTAGCCAACGGACAATTGCGACCG
ACATTAATTGTAGCTTGGACCACGGTCAACGACACCTTGCGATACACATA
TGTAACCAACAAGTAACACACTTGGTGTGCACAAGCTTAGAGCACATGAG
CGTACGCCCCGAAAAGTTTGGTCGCGAGCCTAGCATCAGTTCATGCTGTC
ACGTGTTGTGTTCCACAAGAAACTATTCATGCTCGATCGGAAATGGAGGA
AAAATCGACCGGAAATAAAAAAAGAACAGCCTTTTGAGGAGAAGCTGTCT
TTGAAACAACCATTATTGCTTTTGGTCTCGGGGATACTTTCCCCTCCGGA
TTAATGTTGAAGAAAAAAAAATCGAAGTCTCCCCCCGAGACACAATTTCT
TTCCGCGAGGATTGTTTTCCGACAACCACCCCCTCCCCCCCCCTCCCGCC
GGGGGTACAACGGAGTCGATATCAGCACATGAACCTCTCTCTCTACGACA
TGACTCATCAGATCTTGCATCGTGTTGCAGCTCCCTGGAGGTTGTCAGGC
AGGTACAGCAAGACGATTTTGGGGTCATCTTGTAGACACGATACTGCTGC
ACATAAACAGCAGTATATGTGTGCTGTGAGCTTGTCATGCGTGGTGATGG
TTTTGGTCAGCACGGGAGCACATGGAGAGTCGTGATGTTCCAAAGTGAGG
TGGTTCGTTCTTATCATGTTTCTGGAGGTACTACGTATCTATTTGCGTGT
AGTTTGTAGTGGACCACATAATGCATCTTCGGAGAGCACAGCAGAATGCT
TGTTTTTTCATTCATGTCTCATACTTGGAAGGTGTGTCTTAATGGTACCG
GTAATTCTCGTCCCGGTGTCGGCGAATTCTGGCGAGGGAGGGATCGATGG
GGTAGCCTTCTCTGCAAAAAAGCATGGCAACCAGGCTCCGATTGGAGTGT
GTGCTGATATTGCCACAACCGCAGCAGGGGATCGACGGATACCCTCGAAC
GCACATGAGTTTCGGTTTCGAAGATGTTCTGGGTAGGGCGCACAAATTTT
TTTTGTATTCGCGCGGACCCCGGAGGAAAGGTAACACAGCAGTAGGTATT
TTTTTTGTTGCTACTACCGCCGTTCTTCTGCGGTGTTTGCCTTCAGTTCC
ATCGCTAGAAAGGCTCGACATTCCCGTTCCCTCGCCGACTTTTTCTAGTT
AGATTTTTTATATTCTCACGAAATATTCTCCCGCGGCTTTTACCACAGGA
TTTACGTGAGAAAACCCCAACCGGGGGCGGAACTCACGACCCAGGTGTGA
GGGGTTTTCGAGGGTACCCGTTGATCCACCGGGACGACTGGCTCAAGTTA
TTTTTTTCATTATATTTGACGCATCGATAACAGCAGTACATACCGGCCCG
CTCATGAAAATCACTTTTTTTTAGCGAGCCTCATTTTCTCATTGTCTCAT
CTGATGTGAGCTACCTGGTACAGCCTCTTTCTCATATTAATCACCATTTC
TTCACGAGAACACCACTAGTATTGCTACATACCAGGTACATATACAAGTG
TGAGAGCAGCGATGATAAAATTATACAAGTACCTACTTGCTTCTTCTAAT
CCAGTCTTCCCTTCTAATTTCTACGAAATTTGTTTTCCAGCCCAGCTATT
TCTTGTTGTGTTTCTCGCGCCCGACATTTCTCACAAGGATTTGCTCTCCG
CTCTTTCCGTGGTCGTAAACGCGAACTTTCGTTGCCAGTACCCCCCGTTA
CCCGTAACATCACGTGTTGTGTGCCGCCTGTTCCGTATTTACCCGGCGGT
GCTGAATATCAATAGTAAGTTCTTAACTGCCGTTACATAAATCACAACCA
ACCATACTACACCACACCTCCTCCCGGCCGGTTGACGTTGCAAACATCAG
GGGTTCACTGGCCTGGCACTTGTACTTGCAGCCATGATCTCGTTGCATGT
TTTTTCATGGACTCCTTGTGGCTCTGCTCTGGTCTTTCGAGCGCCCGAAA
TTAATCAACGTGGACAATCTCAAGGTTGCCGATGTATGCATCTAAGAGCG
GCATGCCTGTGATCGCCACCAAGAGACTACGGTGGCCGGCAGAATTACGG
TACCACTGCTGCTGCTGAAGTGCATCCCGCCGAGGGGTACTTCACAAGAA
GACCGAGGGGGGGGGGGGAGCACGGGGAGTGAACAAACGCCTTGCGCGCA
TGGTAATCCCCTCCCACATGTTGAAAAATTTCGGCTGACAGGTAGGCGCA
TGTAATGCTGTTGATGCATCATTCAGACGGCAGCGGGCTGTGTCTTGTTG
TTACCATGTTCAACCCCCATGGTAAATACCAAAAATTCGGCCTCAAGAGT
CCAGGGTCGGCACGTGCCAGCCGCACGCATGCACCATGTTATGGAACACG
TTGAGAAATTGTTCGTGCTGAAGCGGATCCCCCCGGGAGTAACTAAAAAT
GGTTCCCCCCCACTCACTCTTTTTTTCCCAGCTCTTTGACGAACATGGGG
GGAGAGGGTACTCAGCGGAAATTGCGTTGTATCTCTTTGGTTCTCATCAT
CACTGGGAGCTCGCGAAGTTATTGAAGTGCTTGCGAAACTCACAAATCTG
CGCGTTTATGAAATGTTTCGAAGTGCATTTTTTGACTCATAAGTTTAGCT
CCGTCAAGTCCGCGAGGTCTATAACCGAAATCAGGGGTGTGTGTGTGTCC
GTGTTGTTGTCACTTCAAATACCGTTCCGATCTTTGCTTTGAGACTGCTG
GCTCATCCGATCGGGGGCGCTTTCCGCGGTCACAGGGTACCTAGGAAGAG
CGAGGAATTCTCAGCTGTCTAGTGAAGGTACACAGAGACTCCGCCATAAG
GAAACGGACCCCGAAACATCCCACTACGCTTCGTAAAAGTCAGGTGCCAA
GTGCTGAAGTCAGACATCAAGAGGTAACACTTCCCTATCGAACCAGCGAA
TGAGATAAGAAAAACGTAAAGAAGCGACGAAAGCAAGAAACGAACGAAGC
TACTCATACTTGGAATCGCCGCAGTTAGTCTGGACGCGGCAAAAGAAGAG
GGGGCGGAATGAGACGGGGCTGTCATTAGTAGTAGTTGTAATCGTGGAAG
AGTGAGTGCTATCACAGCAGTCAGACCATCTGGTGCATGCCGTACTACTC
GTTCCATCTCTTCCTCCTTGCTCTCCCGTGCCGACGTTGTCAAAATACTA
CTGAAGTATGATACTTTCTGCGCTTGCTCCCTCGAGATCACCCTTCCACT
CCCTTCTCCTCCTGTGGGTTGTCTCCTCGATTGTACTGGAGGATTTTTCC
TTGTCTCGTCTTCCCGCTCGTTTTCTGCTCGCCTCCTTCTCGTACTCGTG
CCAGGCGGTCGTAAACCTCCCAGCCCCCTTCTTCTACCCTGTGCACCACG
GTACGCCGTTCTTCGCTGCCTTTTGTCCACAGGGCGGTGCCGATTCCAAT
CAGTAGTCGGCTGCCGTCCGTCGAACCGTGCGTGGCTTCAAATGCTTTGA
AATCGTCCTCCAACGACTCTTGTCAGTGCACGTAGCGTCGGCCCTGGTCC
TCGCCCCCCTTCAGGACTTCCTAACACCTGCCGCTCAGGGAGTCGCCCGT
CGTATTGTAGTGTGGCCGGAGCTTTTGCGAATAGAGGTGGCTTGTGCTTG
ATTGTCGCTTCCACAGATTGGGTCCCGGTCTTCCTCAGCACTTCAGGCAT
ACGATAGCGGTCGGTTGATGCCTCGTATGCGGCGGTATCCAATGACCCCA
GCAGGAGCCGGTGGTGTGTTGTCTGCAACAAGGCGTAGCGATCGCCGCGT
GGTTCCCGAGTCGTACATTCATGTAGCAAAGCCTCCATCGCCTCCGCATT
TATCACTGGCACCTCGAGTCTCCAAGGTGGTGCTGGTGGCGGGTCGAAAC
GTTTTCGAGATAACTTGAGGCCCTGAGGAGTAGTTCATATACTTGTCGGA
GTAAGATAACTCAAATCAATCTTGAGGAGATCGTGGCTGTGAGCCAAACT
ACCTCGAGACCGCGTGAGTCGCAGCGATTGGCCAAGCCACCCGGACACAG
CTGCCACCTCTCGTATCTCCGAGGCGGAGCACGCGTGCACGTTGAACACG
GTGAGACGACGACTAAACCTCCGTGCATGATGGGATATAACTCAGACGCC
GTTCGTCATGGCGGCGCGACAGCAACGGAAATACGTGTTCGTATGTAGTA
AACAACAGGCTGTTCAGAGACAGGCGCGAGTAGGACGCCGTTGGTCTTAT
CTCTTGTGAACGAAAACGAGAGAGAGAGGCAGGAGGCTCTTTACGTCTTG
CGGTACTGCTAGCATTGTGCACAGCGAGGTTAAACCAAGGTACCGCTGTC
GTAGCGTTGCGTGACAGCAGCAACGAAAGTCACGGTAGGGAGACCGTCAA
GGGACGTAAACATGGCTTGCGCTATTGGTCAGGTTTGTGGTGTGAAGGAT
GACGAGAACGAAGGATGACGAGAACGAAGGATGAAAGGGTGCTGCTCTAG
GTCCTATTTTGTTGTTTTTTATTACTTAGAAACACACGCTCATTTTTTCG
CTACACATGGGTTAGGCAAATTTAAATCTAGTGAGTCTATTTGAATATCT
GTTCAAACTCAAATACATGACATAAATCTGCAGATTTCGTACTCTATAGT
GTTACCACCTCCGTTCTGTATTTTTCAAAACTCTGAGCCTCGACTTTTTT
CTCATTAAGAATTTTCTTTGAGAAGGCCGGCACTGCTTACACTCATTCTA
ACGTACCGTATGTATTCTATACTGTTTCAGTTACTTAAACTGTAGCGGGG
ATGGGCGCGTGAAAAGCGACGCGCGAGCAAGGCAGATAAATCAATAGTAG
CACCCTGCACGAGAACATGTTGCACAAACACATACGCGTTGCATTCGCTT
CGAAGCGGGAGGATAACGGTGTATTGTAGAGGCAGACAGCAGTCAGTTGG
CGTGTGTGCGTGCGGGTCGATAGTGCTGTGAGGGGACGATACGTGCGGCA
GGGACGTGTGGTCCATGCACGTCGCGTGGGATCTTGAGGCTGTTTTTTGT
GTTTTCTACGGTTCACCGGACTTTGCGTTTGATTTTAGACCCCCTGGCCA
GATTGGACTATGAGTACCTCCTCAAAACGGTCCTGTCGACCACAACAGGA
GACAGAACCAACCAGCACTCGGCCCCTGGGACACCAATAGCAATCAAACC
TTTCGGAGTGCGCTCGGCCCCTGGGACATCAATAGCAATCAAACCTGTTG
GAGTGTGCGCTCCAGTGTTCTGAGGTTGGCCACAGCAATTTTGGTGGCTG
TGGGCTTCGGCTGTCGAGATATCGCCGGCGTTGTGTGCGCGGTGGAAATA
TCGGGTGAAACAGAACACCCGCATGAATTGTGAGATCGTATCACACCACC
GATTCTGATTTCGAATCGACTGCAGACGAAAACGCGCAAAAACTCCGTAT
CGCAGATGCGGCCACTTCTGAAGCTCCGGACTTTCGGGGATCTTGAACGT
TTAGGGTCATGAGGGAGAAGTTTCTTCATGGGGTACCGACTTGAAAGAAG
AAAATAAAGTCTGAGGGTTGAGGGTTCACCGAGACGACCGTTATTTACTC
GGCGTTTCGGAAAATCTGCGGAATTTTGCTTGTTACTGGTTATTTTGACA
CCGAAGTCACACCAGATGGCAACCCCCCTGTGCGCCTTAAGGAGCTACCG
TTCAACTGACTTGAAAAAAGAAAAATAGAGCCTAGGGGCCAAGGATTCAC
CGAAACAACCGTTATTCTTCGGCGTTTCGGAAATTCGACGAAATTTCGCA
TATTTTTGGTTGTTGCAATTCCACTGTGCCCCTTTTGGGGCTACCGTGCC
TTGAGTGTTTTGAAAAGATCTAACCGAGACCGTGCCAAATCGCGTCGTCC
GTTTTTAGATTGGTGTCACAGTCGTGGAGTTAAAATCCGACGTGGTCGAG
CGACCCAGGTCAGATCTTCTTCTATCTGAACGTAATTGGTTGCCCAACAT
TCCTACGCTCATCCGACAAAATTAAATCAACGACATTCACCCGTCGCTTC
GGGCTACCTGTTGCTGCTGTCTGGACGCCTTCAACGCACCAATTCATCAG
CAGTTCATCAGTAGCCCGTATCAGTTTCTGTGGCTCTTCGTTCTTGTTAG
GGGTTGGCGAAGGAGTCTACACAACAGCAAGTCTTTTGTGCTGCCTGAAA
CTAGGTCTCCCGGTTGAGAAGCGATCCGAGGCAATCGTAGAGCGGGGAGA
TAGCTGCTGCGAATTAACCATCTATGTCGTTCTTTTCTCTGGCCAGTGTC
GTGGTCGCCCCGATGGTCTAGCAGTGAGGATGCAGGTTCGATTCTCTCTA
AGTGTTTTCTTGCAACCTTTCAGAAGTGGAAAGCGATTCATCTAAACAGA
GGGAAGGGACTGCTGAACCCGACTCGCATTAGAAACCAAGGGCAAGTACC
GCAGGAGGAAAGGTGTGGGCAATAAACAATAAACGAACAGCTCGTGTGTG
ACCTTCTTCTTGTGTGATCCCGGCTGAAGCATCCACATCATCCCGAAAGG
TATAGACTGATGCCCAGAATTAAATTGGATGACACACCGAGAGTACAACA
GCTGGACCGTTTGATCACTTTGCACCCGCGGCTGAAGAAAACGTTGATGT
GAACAAAATACAATGCACGACGCAGGAATGATCGGATAAGTCACGAAGCC
CCGTCGAGAATGTCTCGTGCGAGTCTCGGGTATTTATCTTCTTTGTGGGC
TACCAACAGCCGCTGAAAGGTTGTTGTGGTAATCCTTCTCTGAAGATCTG
GTTCAGTAGGGAAGGTGCGGGGGTTTGATCTTTGAAGATGTTTTCCAGAA
AGTCGATCGTCCCGTGTACCTTTGTTCGTATGCGCGCCTGAAATAGGCAA
AAGATACCTTGTAAGGGTGTCCAAAGTATTGGCACGCGAACATCTGCTGC
TGGGGTCGAGGTGTCGGGGGTGGGCATTGGCTCAGACAGCAGTCCAGCAA
TCGTCCGCATCTCAGGCCGAAACAGAATACCTTCCACCGTTGTACTCGCA
GTCGTCGGCCGCCATCTGCTGACTGTGGGTCATGCGAGGCAGCCAGTGGC
ATAAACTACTAGTGACATGGGCTACCGCTGTAGACCAGCTGTCCAGGGCA
TCAAGACCTACGATGACTAGTGTGCAGAGGCAGTAGAAGATGCTTCGTTT
CGGGCTGAGATGCGGACGGTTTTTCTGGAGTGCTGTACCACATGTCTTCG
ATCACTCACACCCGGCCCCACTGGAAGATCTGAGGGTGCCAGCATACCCG
AGGCCGCTGCATGGCATCTTTTGCTTGTTTTAGGCGCGCATCCAGGTAAT
ACGTGCACGGGAGGGTCAAGTTTGAGCGTCAGCTCGTGCTCGCTGTTTTG
TCTTGTATTTCGAGAAGAGGGGAAGCTTGTCACATTGTATTTACATTAGG
CAAAATTCAACGGAGTTCAGAACATCACGCGTGTCACGAGAACGCCCCGA
CGACCGTCTGGCTGGCTCCCAACCCTCCTCTGCCGGTTTGATGGGCCGAT
GGAGTGGTGTCACGGCGCCGTTTCGGCCGAGGCGCCCAGATTAGGAATGG
CTGTTCGCACATGCAAAGTAAAGAACCTTCTGGATAGAGTGGGCCCTTAA
ACGGGCATCACACAAAAGGTGTGCTCCTCTTGCTTGGAGTAGAGACACAC
CTGTGAGTGATGTGGCGAATCAAGAGGCGCACAAGAGGCCTCCGTTCAAT
CACTCCCAGGCGGCTCCGTGACGTCAAATCATTTTTGAAAGATTCCCTCA
TCCCCGCGCGATTCAAATCCTGGAACTTAGCATGCTGCCGGTGCACGGCT
TGAATTGACCTCTCTGACCCGCGACGTCTTCGTTACACCCAGCTCCCCGC
TTTAAATTCAAGTATCATACTATTAGATATCGAATATACCCTCATCGCTA
CGCATCATCGGTAAAGCCAAACACAATACCATCTCGTTGCAGCACTCAGG
TTCTCTGCGCGTTGCAGCATTCCAGGTTCTCTGCGAGCATTTGGGCATGC
GTCTACCTGAATCTTGTTGGCAGTCAAGCACTGATACGTTTTTGCTGTGC
AAGAGCTGGTCTGGTGTTTGGAAGCTGCGGTGATGCCGGTGAAGGCGGTG
CACGAGCGGTTGTGTTGATCTCTTCACGTGTGTATTGCATCTCTCCCTCT
CTTCGGTGCTGTGACCGGAGAAGTGAAGATCGTGTTCGTGCCGGAGTATG
TATCAAGTAAGCGGGGGCACCTGAAGTGCCGATACAACGATGGCAGCATT
GGACACCGAATAAATACATACATCCAAACATCATTACATACACACCTTCG
TACATACGTACGTACAGGTACTTAGATCCACATGTTCACAAATACGATGT
TCGTGTCTGCGTACTTTTGCCCCATGGATACCAATCTCTCTCCCTCCTTT
CTTTCTGGCGAGAAGAATTTATGAGTGTGGGAACTACACAGCAGAACCCA
AGGAAAGACCGATTTTTCAGCAATCACGGATGGATTCGATGCTCTCTGTG
CACCCAAAATTTCCGAGAAAAAACGAGCGCTTGTGTTTTTGATGGTGCTC
TAACGTTTGGAAGATATTGTTGTTACAACGTGTTTTTTCGCCATGACCCT
CGGTGCGTGAAGCTGCAGGACATACACAGACACCATAAACCTCCAAAATT
AAATAAAGGCACCCCTGTCTCCATTTTTTTTTATGTTTTTTTATTCGCAC
ATACACTCACACCTGCACATCGACAAGTCGGTATAAATTGGAAGCAGTTC
GACAAGGAACTTACATTTCGCTTCGCTCGTGGCCTGCTTCTCAATAAAAT
GGTTTTTCGAGCGGCGCTAAGGTGGCCACGATTGCAAGAGATGAGACAGG
GCCCACAGACTCACTGGAGTCTTGAAGGACCTCAGGGGGACACATGGGGG
TCGGATGGTAGGGTAGTGAAGGAGAGGACGATATACCTCTAGGGTGCGTG
TCATCACTCGTTCGCATGTTGTGAATCATGACCCCGATGAGTCATCACAG
ACGACGCGGTGATGATCTTGCAGATGGTTCATCAGTTACCAAAGGACTTC
CGCGATCTACAAAAGTACGTGCTTACCTGTAGTGTACCCTGAGTGCAACA
TCAGTCAACAAGGAGATTTTCTACATGACTGTAGGATAGCACTTCGATCA
ACTGCTTGTACGCTGACCTTTCGTTACAGCAGTACTGTACTTCCATGTAC
CCGTTTGGCTGATATTTACAAAGTACCGCAATAATATGTATGAAAAGAAA
CACGATGTTTCCCCTGAAGCGCAAAAATTACGCCCATCTGCTTGTTTGCA
GTTCGTCCATACACCCGTATCTTCGATCCCTCAGATGACGAATGATGTAG
CCGTCGGTGAAGTTATGGAAACGACAACAGCGACGCAACAACCGCAGACA
CAGGGGAAAACGCCGGCCGCGGCGGAGTCGTCCATGAAGCTGTACGTCAA
GGTAGACCGCATCCACGCCGAGCTGCGAGCTCTGGGCTTCGGCGATGATT
GCGCCCTCACGGTGGAAGATCTGACGCCGTTCGACAACTACCACTACCTG
GGGACGGAGGGTTGCGACGAAGCTGTTGCGGCCCTCGGGGTAACGGCTGA
CTCTCGCGTCCTTGAGATCGGATCGGGCATCGGCGGACCCGCACGCTACG
TAGCCAACCGCACCGGCTGCAAGATGACGGCGTTAGAACTTCTCCCTGAC
CTAAACTCCACGGCGGCAAGCCTGACTGCCCGCTGCGGCGGCAGTCTCAA
GGGCGAGGTCACCCACATCTGCGGCGACGTGCTAGACGGCGCGATGAAAG
GCCTAGCCTTTGACGGAATAATCTCGATTCTGTGCTTCCTGCACATCCAG
GATCGCGCCCGCCTGTTTTCGGAGTGCCGAGCCGCCCTGCTTCCTGCCGG
AACGAAGCCCGGAGATGGTGGAGCTGGAGCACCGCGGCGGATGTACATCG
AAGACTTTGTGCTTTTGCGCGAGCCCACCGCTTCCCAGTCGGCCGACCTA
AAGACAAAGGTTCTCTGCCCGTACCTGCCTACGAAGGAGGAGTACAGCGC
CCAACTAGAGGCCGCTGGTTTCGGTTCTATCGACATCACGGATGTCACCG
CCCCCTGGACTACGTTTACGAGCGAGCGCCTCGCAGCGTTTCGGGACCGG
CGCGAGGTTCATCTGGGGCTGCACGGAGAAAGCGTGACTCAAGGGTTGGA
GGACTTCTACACGTTCGTGTCCCAAATGTTCACGGAGGGGGTTATTGGCG
GCGTGCGGATTGTCGCGACGTTGGTGGAGTAGGGGAAAAGCGGATTTCGG
CGCGAAACGTGCCATGTAGTACAACACGTGCGTGCGTACCACAGCAGCAG
GTTCTGCTGCGGGAAGATCAAAATTGTTGGCCTGGGGTAGTGAAATCGGT
TTGTGAAGGGCAGGTATTTAGCTTGTCAGAGGACAGCGGGACCATCCTTG
TTGTATGGTTGTACATGTTTGAGCTTGGGCGCTTAGATGAAATTCAAAAG
CCCAATCCGTGGAGGCCGATACTATTCTTTTTATCTCCTTCGACATGAGC
GGTGCAGTAGACAAATCTATTGCAGCACCTAGCTCTGGGTCGTCAGTCAT
GTCTTATGTTTTGAGACGTGGGATATGACACAATCGCAAACTGTATCCAT
GGAGCCAGTATCTTGCGATATACGAGAAAGACAAGTACCACTTGTAGAGG
AGGTTTCGTGAGTTGTGTGTAGCCTGAGTAGCTGCACACCTTACTGTGTA
AGCTAGCAGTATGGTGATATCGTAACTGTAGCACGATATGAAGTCGCGAA
TTCGGCTGATTCCGACTGAATCGGTACCGGATTAAAATGTTCGAACTACT
TCCTATACCACGTTATCCTTTTCGTCTCTACCTGACTGCGCTTGGCTCCT
TCACCACCCCAGTGGGGGGCGGAGGTTTGAGCTCGTTGTTTCGTCAGGCT
TCCTTCGCTAAATCGAGTCCGGTCATATCTTGACCGCTTCGGGGCGCCGA
ACCGATTCATGCTGCCTGGTATAATTTATCGGGGGGAAAGGCGTTGGGCT
CTGGAGAAATATGTTGGTATATTCGCTGTGTGCATCTTTTTGGATATTGC
ACAAGAGGCTCTCTAGGCGGAGTTGTCAAAGCATTGCGAGACACAAGAAT
ATTACTATACGAAAGAGAACCACATGATAGACTCGGAGCGTAAAGGGCAT
AGACTCCAGTGGCATCTTTTCGC

Coding sequence (CDS) from alignment at P-littoralis_Contig662:61232..79104+

>mRNA_P-littoralis_Contig662.15.1 ID=mRNA_P-littoralis_Contig662.15.1|Name=mRNA_P-littoralis_Contig662.15.1|organism=Pylaiella littoralis U1_48|type=CDS|length=948bp|location=Sequence derived from alignment at P-littoralis_Contig662:61232..79104+ (Pylaiella littoralis U1_48)
ATGACGAATGATGTAGCCGTCGGTGAAGTTATGGAAACGACAACAGCGAC
GCAACAACCGCAGACACAGGGGAAAACGCCGGCCGCGGCGGAGTCGTCCA
TGAAGCTGTACGTCAAGGTAGACCGCATCCACGCCGAGCTGCGAGCTCTG
GGCTTCGGCGATGATTGCGCCCTCACGGTGGAAGATCTGACGCCGTTCGA
CAACTACCACTACCTGGGGACGGAGGGTTGCGACGAAGCTGTTGCGGCCC
TCGGGGTAACGGCTGACTCTCGCGTCCTTGAGATCGGATCGGGCATCGGC
GGACCCGCACGCTACGTAGCCAACCGCACCGGCTGCAAGATGACGGCGTT
AGAACTTCTCCCTGACCTAAACTCCACGGCGGCAAGCCTGACTGCCCGCT
GCGGCGGCAGTCTCAAGGGCGAGGTCACCCACATCTGCGGCGACGTGCTA
GACGGCGCGATGAAAGGCCTAGCCTTTGACGGAATAATCTCGATTCTGTG
CTTCCTGCACATCCAGGATCGCGCCCGCCTGTTTTCGGAGTGCCGAGCCG
CCCTGCTTCCTGCCGGAACGAAGCCCGGAGATGGTGGAGCTGGAGCACCG
CGGCGGATGTACATCGAAGACTTTGTGCTTTTGCGCGAGCCCACCGCTTC
CCAGTCGGCCGACCTAAAGACAAAGGTTCTCTGCCCGTACCTGCCTACGA
AGGAGGAGTACAGCGCCCAACTAGAGGCCGCTGGTTTCGGTTCTATCGAC
ATCACGGATGTCACCGCCCCCTGGACTACGTTTACGAGCGAGCGCCTCGC
AGCGTTTCGGGACCGGCGCGAGGTTCATCTGGGGCTGCACGGAGAAAGCG
TGACTCAAGGGTTGGAGGACTTCTACACGTTCGTGTCCCAAATGTTCACG
GAGGGGGTTATTGGCGGCGTGCGGATTGTCGCGACGTTGGTGGAGTAG