mRNA_P-littoralis_Contig18.117.1 (mRNA) Pylaiella littoralis U1_48

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

Overview


Name	mRNA_P-littoralis_Contig18.117.1
Unique Name	mRNA_P-littoralis_Contig18.117.1
Type	mRNA
Organism	Pylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))

Homology

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BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot
Match: D8LRQ6_ECTSI (Methyltransferase type 12 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LRQ6_ECTSI)

HSP 1 Score: 532 bits (1370), Expect = 1.890e-183
Identity = 257/274 (93.80%), Postives = 265/274 (96.72%), Query Frame = 1

Query:  379 MQECVDALTEKSKAGNEMVANLVQSLGSALVYPDAGNFDTNRKLWDNYAAEWEPSASWVQKMAQGSKTERLAVVGDEWSTRDDVMRVINDFILPNVTKESNVGEIGCGGGRVTVEVFHTAGQLTCFDISKNMLRRTRDAVGEDTCAGGGKVKFVLLSQPRLPENVSDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRFSAQDKYSVGGFYFMCPDMVRLMLNKAGLKVVREGEHDPSNSYYNRDYLVLVEKPL 1200
            MQECVD LTEKSKAGNEMV+NLVQSLGSALVYPDAGNFDTNRKLWDNYAAEWEP ASWVQKMAQGSKTERL VVGDEWSTRDDVMRVINDFILPNVT+ESNVGEIGCGGGRVTVEVF  AGQLTCFDISKNML+RTRDAVGE  CAGGGKV FVLLSQPRLPEN SDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRF+AQDKYSVGGFYFMCPDMVRLML+KAGL+VVREG+HDPSNSYYNRDYLVLV+KPL
Sbjct:    1 MQECVDTLTEKSKAGNEMVSNLVQSLGSALVYPDAGNFDTNRKLWDNYAAEWEPDASWVQKMAQGSKTERLEVVGDEWSTRDDVMRVINDFILPNVTEESNVGEIGCGGGRVTVEVFRKAGQLTCFDISKNMLKRTRDAVGEGVCAGGGKVIFVLLSQPRLPENASDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRFNAQDKYSVGGFYFMCPDMVRLMLDKAGLRVVREGDHDPSNSYYNRDYLVLVQKPL 274

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BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot
Match: A0A7S2SUS9_9STRA (Hypothetical protein n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2SUS9_9STRA)

HSP 1 Score: 288 bits (737), Expect = 6.190e-88
Identity = 134/265 (50.57%), Postives = 185/265 (69.81%), Query Frame = 1

Query:  412 SKAGNEMVANLVQSLGSALVYPDAGNFDTNRKLWDNYAAEWEPSASWVQKMA---QGSKTERLAVVGDEWSTRDDVMRVINDFILPNVTKESNVGEIGCGGGRVTVEVFHTAGQLTCFDISKNMLRRTRDAVGEDTCAGGGKVKFVLLSQPRLPENVSDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRFSAQDKYSVGGFYFMCPDMVRLMLNKAGLKVVREGEHDPSNSYYNRDYLVLVEKP 1197
            ++ G+ MV  L++SL  A+VYPDAGNFDTNRKLWD YA EW+P+  W+Q+M+   Q S  + + +VGDEW+    + RV+ DFIL  V     V E+G GGGRV   V    G L C DIS  ML+R RD +   T      + F+ L+QPR P+++  +  FV ++DV VHVDLH+ ++Y+ EI ++L PGGKAF+STAN ++ GGW+RF+ Q KY+VGGFYF+CPDMV  +++K GL+++R  + DPSN YY+RDYLVLV+KP
Sbjct:   20 AQEGSPMVLELLKSLNQAVVYPDAGNFDTNRKLWDLYAGEWDPAQPWLQQMSRDVQASLEQDIHIVGDEWAPPTHLDRVVQDFILTEVDSSCQVLEVGSGGGRVAARVAPHVGHLKCADISMEMLKRCRDTLQAHT-----NISFLHLTQPRFPDHLHGTFHFVYVFDVFVHVDLHLIHQYLSEIYKLLVPGGKAFISTANLMTSGGWERFARQSKYTVGGFYFLCPDMVNRLIDKNGLRILRHADEDPSNVYYSRDYLVLVQKP 279

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BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot
Match: A0A835Z8T5_9STRA (Methyltransferase type 12 n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z8T5_9STRA)

HSP 1 Score: 272 bits (696), Expect = 7.360e-82
Identity = 142/308 (46.10%), Postives = 192/308 (62.34%), Query Frame = 1

Query:  379 MQECVDALTEKSKAG-NEMVANLVQSLGSALVY-PDAGNFDTNRKLWDNYAAEWEPSASWVQKMAQGSKT--------------------------------ERLAVVGDEWSTRDDVMRVINDFILPNVTKESNVGEIGCGGGRVTVEVFHTAGQLTCFDISKNMLRRTRDAVGEDTCAGGGKVKFVLLSQPRLPENVSDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRFSAQDKYSVGGFYFMCPDMVRLMLNKAGLKVVREG--EHDPSNSYYNRDYLVLVEK 1194
            M++  + L E+++A  + M+ANL++SLG A+VY PDAGN DTNRKLWD YA+EW   ASWVQ MA+GS+                                      VG+EWST D++M+V+ +FILP +  +S   E+GCGGGRV V+V+     L C+DIS  ML R   A+     AG       LL+ P LP   +DS DF+  +DVLVHVDLH++ +Y+RE+ R L   G+AFLS A+  S  GW+RF+ Q K++VGGFYFMCP+MVR ++ KAGL++VREG  E    N YYNRD+L++VEK
Sbjct:    1 MEQAEEQLAERAQASASPMIANLIKSLGQAIVYYPDAGNLDTNRKLWDAYASEWSQDASWVQDMARGSRPGDGGPSATAAXXXXXXXXXXXXXXXXXXXXXXXXXXXVGEEWSTSDELMQVVREFILPYLNPDSRAAELGCGGGRVAVQVYPHVSNLDCYDISPQMLTRCAAAL---KAAGARNATLQLLTAPALPAAAADSYDFLYCFDVLVHVDLHVSWRYLREVRRCLTERGRAFLSFASVCSRLGWERFARQSKFTVGGFYFMCPEMVRFIVAKAGLRIVREGPPEGTTDNVYYNRDFLIVVEK 305

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BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot
Match: A0A7S2UUH0_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UUH0_9STRA)

HSP 1 Score: 251 bits (641), Expect = 1.730e-74
Identity = 125/267 (46.82%), Postives = 168/267 (62.92%), Query Frame = 1

Query:  430 MVANLVQSLGSALVYPDAGNFDTNRKLWDNYAAEWEPSASWVQKMAQ-----------GSKTERLAVVGDEWSTRDDVMRVINDFILPNVTKESNVGEIGCGGGRVTVEVFHTAGQLTCFDISKNMLRRTRDAVGEDTCAGGGKVKFVLLSQPRLPENVSDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRFSAQDKYSVGGFYFMCPDMVRLMLNKAGLKVVREGEHDPS-NSYYNRDYLVLVEK 1194
            M  +L+ SLGSALVYPD GNF TN+KLW+ YA EW PS  WV+ +A+            ++ + L  VG EWS   D+  ++  F+   + ++  V EIGCGGGR+  +V     ++ C+DISK M+ +   A+   +      V F +L +P   +N     DF+  +DV+VH+DLH+ NKY  EI R LK  GKAF+STAN  S GGW RFS Q KY+VGGFYF+CP+MVR +L+K GL+ V+EG  + S N Y NRDYLVLVEK
Sbjct:    1 MAMSLINSLGSALVYPDQGNFVTNKKLWNLYAQEWSPSEDWVKDIARPNNSSQDIGSSSNEVDELKFVGQEWSPDTDLEEILQQFVYDYIDEDKLVAEIGCGGGRLAAKVAPRVKKMDCYDISKEMISQAEKALSFLS-----NVDFHILEEPSFSKNCEKLYDFIYCFDVMVHMDLHLINKYFGEIGRALKDDGKAFISTANITSTGGWARFSKQRKYTVGGFYFLCPEMVRFLLHKNGLRPVKEGPIEESTNVYLNRDYLVLVEK 262

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BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot
Match: W7TSG7_9STRA (Deacetylase sulfotransferase n=2 Tax=Monodopsidaceae TaxID=425072 RepID=W7TSG7_9STRA)

HSP 1 Score: 233 bits (595), Expect = 3.610e-66
Identity = 135/315 (42.86%), Postives = 177/315 (56.19%), Query Frame = 1

Query:  415 KAGNEMVANLVQSLGSALVYPDAGNFDTNRKLWDNYAAEWE---------------PSAS--------WVQKMAQGS-KTER--------LAVVGDEWSTRDDVMRVINDFILPNVTKESNVGEIGCGGGRVTVEVFHTAGQLTCFDISKNMLRRTRDAVGEDTCAGGGKVKFVLL---SQPRLPE-------NVSDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRFSAQDKYSVGGFYFMCPDMVRLMLNKAGLKVVREGEHDPS-------------NSYYNRDYLVLVEK 1194
            + G  +V +++ SL  A+VY D GN +TNR+LW+ YA EW                PS+         WVQ+MA  + KT +        LA++G EWS+ +D+  V+ DFILP +T ES V E+G GGGRV   V     +LTC DIS+ ML   R A+     AG   ++F+L+   S P LP        ++    DFV  +DVLVHVD+H     +REI R+LK  GKAFLSTAN LSP GW RF+AQDKY+VGGFYF+ P++V  ML K G +VV+  E                 N YY RDYLV+VEK
Sbjct:   63 REGTSIVRSVINSLSGAMVYTDVGNVETNRRLWNRYAEEWHGNCARNGPYSGSARSPSSELPANKPNVWVQQMAANTAKTSKSTPYSLPALALIGQEWSSPEDLEEVVRDFILPYLTPESAVVEVGVGGGRVAALVLGKCMRLTCLDISERMLEAARTALAAHPAAGATVLEFILVGNDSNPSLPSQRVEYPVSLHGRCDFVYCFDVLVHVDVHTLYHTLREIRRLLKASGKAFLSTANILSPAGWRRFAAQDKYTVGGFYFVSPEIVHGMLAKVGFRVVQHSEIPEGFKELSDTHGLAKGNLYYGRDYLVVVEK 377

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BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot
Match: A0A6G0WRC8_9STRA (Methyltransf_25 domain-containing protein n=1 Tax=Aphanomyces euteiches TaxID=100861 RepID=A0A6G0WRC8_9STRA)

HSP 1 Score: 221 bits (563), Expect = 2.870e-63
Identity = 117/267 (43.82%), Postives = 171/267 (64.04%), Query Frame = 1

Query:  412 SKAGNEMVANLVQSLGSALVYPDAGNFDTNRKLWDNYAAEWEPSASWVQKMAQGSKTERLAVVGDEWSTRDDVMRVINDFILPNVT--KESNVGEIGCGGGRVTVEVFH--TAGQLTCFDISKNMLRRTRDAVGEDTCAGGGKVKFVLLSQPRLPENVSDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRFSAQDKYSVGGFYFMCPDMVRLMLNKAGLKVVREGEHDPSNSYYNRDYLVLVEKPL 1200
            SKA N+++  ++ SL SA+V PD GN + NR++WD YA +W P+A +VQ M+    +  LAV+GDEWST +D+  V++ ++ P +   +  +VGEIG GGGRV+  V    T  +  C DIS  ML   +  + ED       V+F  L  PR     + SLDFVI++DV+VH+DLH  ++ +++I R+LKPGG  FLSTAN L+P GW+RF  Q K+S+GGFYF+CP MV  ++ + G  +    +    N Y NRDYLV+++KP+
Sbjct:    3 SKARNDLILGVISSLSSAMVAPDIGNVEGNRRVWDAYAKDWSPTADFVQSMSP-QFSHPLAVLGDEWSTPEDLHAVLDAYVYPYLAAGESLHVGEIGSGGGRVSRIVARQPTVSKYVCMDISAEMLAHAKKTL-EDV----PHVEFKHL--PRAWP-AATSLDFVIVFDVMVHMDLHTIHQTLQQIHRLLKPGGHCFLSTANLLAPKGWERFEKQSKFSIGGFYFLCPQMVDFLVVQNGFTIALRSQPRGDNMYENRDYLVVIQKPV 260

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BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot
Match: A0A6A7GCB0_9CRUS (Methyltransferase type 12 (Fragment) n=1 Tax=Hirondellea gigas TaxID=1518452 RepID=A0A6A7GCB0_9CRUS)

HSP 1 Score: 222 bits (565), Expect = 4.360e-63
Identity = 113/274 (41.24%), Postives = 160/274 (58.39%), Query Frame = 1

Query:  421 GNEMVANLVQSLGSALVYPDAGNFDTNRKLWDNYAAEWEPSASWVQKMAQGS-----------KTERLAVVGDEWSTRDDVMRVINDFILPNVTKESNVGEIGCGGGRVTVEVFHTAGQLTCFDISKNMLRRTRDAVGEDTCAGGGKVKFVLL-----SQPRLPENVSDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRFSAQDKYSVGGFYFMCPDMVRLMLNKAGLKVVREGEHDPSNSYYNRDYLVLVEK 1194
            G   + NL+++LG+++VY ++ N   N+KLWD YA +W P+  WVQ+MA GS           K   +  +GDEWS R   + V++ FI+ N+ K  +V EIG GGGRV   V      L CFD+S  ML+       + T +    V+F LL     S P  P  ++ + DFV L+DVLVHVD+H    Y ++I ++LKP GKA + TAN  +P GW RF  Q K+SV GFYF+ PD+V L+L K+G +++     D  N Y +RDY V+V K
Sbjct:   24 GTSQIRNLLKNLGASVVYEES-NVVANKKLWDIYAKDWSPNKDWVQRMAHGSTESSSTPNIDGKKRGIECLGDEWSDRKSFLEVVDRFIVSNIKKSDSVLEIGSGGGRVASLVCPLVSSLHCFDVSSEMLK-----CAQKTLSKFNNVRFTLLESSTDSPPTFPIKLTSTFDFVYLFDVLVHVDIHTQFNYFQQIFQLLKPDGKALIHTANLCAPNGWKRFEKQKKFSVAGFYFVTPDLVDLLLAKSGFEIIERSSIDERNVYLSRDYFVVVRK 291

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BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot
Match: A0A485L136_9STRA (Aste57867_14601 protein n=1 Tax=Aphanomyces stellatus TaxID=120398 RepID=A0A485L136_9STRA)

HSP 1 Score: 221 bits (563), Expect = 4.440e-63
Identity = 111/266 (41.73%), Postives = 167/266 (62.78%), Query Frame = 1

Query:  412 SKAGNEMVANLVQSLGSALVYPDAGNFDTNRKLWDNYAAEWEPSASWVQKMAQGSKTERLAVVGDEWSTRDDVMRVINDFILPNVTKES--NVGEIGCGGGRVT--VEVFHTAGQLTCFDISKNMLRRTRDAVGEDTCAGGGKVKFVLLSQPRLPENVSDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRFSAQDKYSVGGFYFMCPDMVRLMLNKAGLKVVREGEHDPSNSYYNRDYLVLVEKP 1197
            +KA  +++ +++ SL SA+V PD GN + NR++WD YA +W P+A +V  M+    +  L V+GDEWST  D+  V++ F+ P +++ +  +VGEIG GGGRV   V       +  C DIS  ML   R      T A    + + LL Q   P+  + SLDFVI++DV+VH+DLH   + ++++ R+L+PGG  F STAN  +P GW RF  Q K+S+GGFYF CP ++  +L + G ++V+ G   P+N Y NRDYL++V+KP
Sbjct:    2 AKARKDLILDVISSLSSAMVAPDIGNIEGNRRVWDAYAKDWSPTADFVTSMSP-QFSHPLDVLGDEWSTPADLTHVLSTFVFPYLSQSTQVHVGEIGSGGGRVARLVASHPAVSRYVCMDISSEMLEHARK-----TLASVPHIDYCLLPQTS-PD--ASSLDFVIVFDVMVHMDLHTIYQTLQQVFRLLRPGGHCFFSTANLTAPDGWARFQKQAKFSIGGFYFTCPQLIDFVLAQCGFEIVQRGAPSPTNMYLNRDYLLVVQKP 258

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BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot
Match: F0XX81_AURAN (Uncharacterized protein n=1 Tax=Aureococcus anophagefferens TaxID=44056 RepID=F0XX81_AURAN)

HSP 1 Score: 221 bits (563), Expect = 6.830e-63
Identity = 120/274 (43.80%), Postives = 164/274 (59.85%), Query Frame = 1

Query:  421 GNEMVANLVQSLGSALVYPDAGNFDTNRKLWDNYAAEWEPSASWVQKMAQGSKTERLAV--VGDEWSTRDDVMRVINDFILPNVTKESNVGEIGCGGGRVTVEVFHTAGQLTCFDISKNMLRRTRDAVGEDTCAGGGKVKFVLL------------SQPRL-PENVSDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRFSAQDKYSVGGFYFMCPDMVRLMLNKAGLKVVREGEH-DPSNSYYNRDYLVLVEK 1194
            G EMV  +VQSL SAL+YP+AGN  TN KLWD YA+EW   A WV +MA  ++   +A+  VGDEW+ R    RV++++IL  VT E+   EIG GGGR+   V      L C D+S  ML R   A+      G     F L+            + PR  P  ++   DFV  +DV+VH+D H   + +R +  +L  GG+AF+STAN  +P G+ RF  Q KYSVGGF+F+ P+ VR++ +KAGL VVRE +  D SN+YYNRDYL ++ +
Sbjct:   16 GQEMVQQMVQSLSSALIYPEAGNVATNEKLWDVYASEWGKEAPWVVEMAATNRDGAVALDAVGDEWAPRAHTERVVDEWILSEVTPEARCCEIGSGGGRIAALVAPRVASLACCDVSAKMLARAEAALA----GGPAATSFHLVHGDAAPSDAGFGAGPRAYPPTMARGFDFVYCFDVMVHLDAHAMYRCLRRVESLLADGGRAFVSTANLKAPDGFARFEKQSKYSVGGFFFVTPETVRVLADKAGLAVVRELDAPDASNTYYNRDYLAILAR 285

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BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot
Match: A0A8J2SCW4_9STRA (Hypothetical protein n=3 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A8J2SCW4_9STRA)

HSP 1 Score: 224 bits (571), Expect = 1.470e-61
Identity = 125/298 (41.95%), Postives = 174/298 (58.39%), Query Frame = 1

Query:  400 LTEKSKAGNEMVANLVQSLGSALVYPDAGNFDTNRKLWDNYAAEWEPSASWVQKMAQGSKT--ERLAVVGDEWSTRDDVMRVINDFILPNVTKESNVGEIGCGGGRVTVEVFHTAGQLTCFDISKNMLRRTRDAVGEDTC---------AGGGKVKFVLLSQPRLPENVSDSLDFVILYDVLVHVDLHITNKYIREIARVLKPGGKAFLSTANFLSPGGWDRFSAQDKYSVGGFYFMCPDMVRLMLNKAGLKVVRE-GEHDPSNSYYNRDYLVLVEKPL*PRPGCLDLQCSSHTMRMA 1257
            L E +  G+EMV  +VQ L  AL+YPDAGN  TN KLWD YA+EW   A WV  MA  ++   E L  VGDEW+      RV++++IL  V+ +++  EIG GGGR+   V     +L CFD+S  ML   + A+              A G    F    +   P++   + DFV  +DV+VH+D H   + ++ I  +LK  GKAF+ST+N L+P G+ RF AQ+KYSVGGFYF+ P+ VR ++++AGL+VVRE    D SN+YYNRDYL L+  P+   P    +   S T+  A
Sbjct:    9 LREAAGRGHEMVQQMVQKLSGALIYPDAGNVQTNEKLWDVYASEWGAEAGWVAGMAASNREAKETLENVGDEWAPAAHTKRVVDEWILSEVSLKTHCCEIGSGGGRIGRMVAPRVSKLQCFDVSAKMLAAAKQALASQENVTFAQIHGDASGADAGFSDKPRHYAPQH-KHAYDFVYCFDVMVHMDAHAMFRCLKRIRALLKDEGKAFISTSNLLAPDGFRRFEAQEKYSVGGFYFVTPETVRCLVSRAGLRVVRELSAPDASNTYYNRDYLALLA-PVVEAPAIAPVVAVSPTVNTA 304

The following BLAST results are available for this feature:

BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot

BLAST of mRNA_P-littoralis_Contig18.117.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D8LRQ6_ECTSI	1.890e-183	93.80	Methyltransferase type 12 n=1 Tax=Ectocarpus silic...	[more]
A0A7S2SUS9_9STRA	6.190e-88	50.57	Hypothetical protein n=1 Tax=Rhizochromulina marin...	[more]
A0A835Z8T5_9STRA	7.360e-82	46.10	Methyltransferase type 12 n=1 Tax=Tribonema minus ...	[more]
A0A7S2UUH0_9STRA	1.730e-74	46.82	Hypothetical protein n=1 Tax=Fibrocapsa japonica T...	[more]
W7TSG7_9STRA	3.610e-66	42.86	Deacetylase sulfotransferase n=2 Tax=Monodopsidace...	[more]
A0A6G0WRC8_9STRA	2.870e-63	43.82	Methyltransf_25 domain-containing protein n=1 Tax=...	[more]
A0A6A7GCB0_9CRUS	4.360e-63	41.24	Methyltransferase type 12 (Fragment) n=1 Tax=Hiron...	[more]
A0A485L136_9STRA	4.440e-63	41.73	Aste57867_14601 protein n=1 Tax=Aphanomyces stella...	[more]
F0XX81_AURAN	6.830e-63	43.80	Uncharacterized protein n=1 Tax=Aureococcus anopha...	[more]
A0A8J2SCW4_9STRA	1.470e-61	41.95	Hypothetical protein n=3 Tax=Pelagomonas calceolat...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-littoralis_Contig18	contig	P-littoralis_Contig18:524222..538372 +

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.D8LRQ6
Model size	2206
Max annot lvl	2759\|Eukaryota
Hectar predicted targeting category	other localisation
Exons	10
Evalue	1.79e-190
EggNOG OGs	2CCND@1\|root,2S208@2759\|Eukaryota
Description	Methyltransferase domain
Cds size	1008
COG category	S

Relationships

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-littoralis_Contig18.117.1	prot_P-littoralis_Contig18.117.1	Pylaiella littoralis U1_48	polypeptide	P-littoralis_Contig18 525229..537369 +

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


Feature Name	Unique Name	Species	Type	Position
1680789865.0072064-UTR-P-littoralis_Contig18:524221..524404	1680789865.0072064-UTR-P-littoralis_Contig18:524221..524404	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig18 524222..524404 +
1680789865.0207558-UTR-P-littoralis_Contig18:525216..525228	1680789865.0207558-UTR-P-littoralis_Contig18:525216..525228	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig18 525217..525228 +
1680789865.1334538-UTR-P-littoralis_Contig18:537369..538372	1680789865.1334538-UTR-P-littoralis_Contig18:537369..538372	Pylaiella littoralis U1_48	UTR	P-littoralis_Contig18 537370..538372 +

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


Feature Name	Unique Name	Species	Type	Position
1680789865.0298777-CDS-P-littoralis_Contig18:525228..525417	1680789865.0298777-CDS-P-littoralis_Contig18:525228..525417	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig18 525229..525417 +
1680789865.0407498-CDS-P-littoralis_Contig18:532406..532570	1680789865.0407498-CDS-P-littoralis_Contig18:532406..532570	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig18 532407..532570 +
1680789865.0499434-CDS-P-littoralis_Contig18:532968..533077	1680789865.0499434-CDS-P-littoralis_Contig18:532968..533077	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig18 532969..533077 +
1680789865.0586383-CDS-P-littoralis_Contig18:533555..533621	1680789865.0586383-CDS-P-littoralis_Contig18:533555..533621	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig18 533556..533621 +
1680789865.0699635-CDS-P-littoralis_Contig18:534066..534171	1680789865.0699635-CDS-P-littoralis_Contig18:534066..534171	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig18 534067..534171 +
1680789865.0852222-CDS-P-littoralis_Contig18:534766..534956	1680789865.0852222-CDS-P-littoralis_Contig18:534766..534956	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig18 534767..534956 +
1680789865.096301-CDS-P-littoralis_Contig18:535553..535607	1680789865.096301-CDS-P-littoralis_Contig18:535553..535607	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig18 535554..535607 +
1680789865.1089606-CDS-P-littoralis_Contig18:536046..536143	1680789865.1089606-CDS-P-littoralis_Contig18:536046..536143	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig18 536047..536143 +
1680789865.1192608-CDS-P-littoralis_Contig18:537335..537369	1680789865.1192608-CDS-P-littoralis_Contig18:537335..537369	Pylaiella littoralis U1_48	CDS	P-littoralis_Contig18 537336..537369 +

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-littoralis_Contig18:524222..538372+
coding sequence from alignment at P-littoralis_Contig18:524222..538372+

protein sequence of mRNA_P-littoralis_Contig18.117.1

>prot_P-littoralis_Contig18.117.1 ID=prot_P-littoralis_Contig18.117.1|Name=mRNA_P-littoralis_Contig18.117.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=336bp
MSGGDGVSTSTALAAAAGSPAGSTETTPPVPPSAAEPAAAGGAAEVAGEG
QASQETFRTQAMQECVDALTEKSKAGNEMVANLVQSLGSALVYPDAGNFD
TNRKLWDNYAAEWEPSASWVQKMAQGSKTERLAVVGDEWSTRDDVMRVIN
DFILPNVTKESNVGEIGCGGGRVTVEVFHTAGQLTCFDISKNMLRRTRDA
VGEDTCAGGGKVKFVLLSQPRLPENVSDSLDFVILYDVLVHVDLHITNKY
IREIARVLKPGGKAFLSTANFLSPGGWDRFSAQDKYSVGGFYFMCPDMVR
LMLNKAGLKVVREGEHDPSNSYYNRDYLVLVEKPL*

mRNA from alignment at P-littoralis_Contig18:524222..538372+

Legend: UTRpolypeptideCDS

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

>mRNA_P-littoralis_Contig18.117.1 ID=mRNA_P-littoralis_Contig18.117.1|Name=mRNA_P-littoralis_Contig18.117.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=14151bp|location=Sequence derived from alignment at P-littoralis_Contig18:524222..538372+ (Pylaiella littoralis U1_48)
CTACCATTGAGCCAAGCCTCCGACAAGAGGGTATTCGATATACCTTTTTT
ATGGTATACCCTTGGCCTACCTGCCAACATGGCAGCCTGGCAGCCATTTG
TGTAGAGCCAGCAGCTGTGACAGAGAAAGAGAGACGTTGGACGAATCATC
CACACTTGGTTGTTTAGTACACCTGTGTAAGAGGTGAGATCCTTCGCCTG
ACGATGGCACGTAGCATATAGTAGCACGGAGCAGGTATTGTCTAGATATG
ATCTCCAACGATATGTGCCAAGTCACCGCCTCTTGACATGATCTCTACTC
TGCAAAAGCGAACACAGCAGTCATTGCTCCAGCCTCAAGTTGTACTCGAT
CGCACAACACACAACAGGATGAATGATACGTGGCAGTGGGCTGCTACGCA
GATACGCAGCCAATTGCGCATCTGACAAGACTGTGCCAAGTAATATATAA
GCTGCCGTCGACGCGTTCGAGATCGTCATGTGATGAACTCCCACATGTTC
GTGTGGTATTATTTCATAATACTATTATTTCATGATACATGCTCGTATAA
TATGACCGGTACCTGGTTGTATGTATGATCTGCGCGAACGTGTTGAATCC
CGTCTGGCACAACACCACTGCTGTGGCAGACGGTGATGGCCAATTGGTAC
AAGTATGGTACGCTTGGATGCCTAGTGCCCTTGTGTTATCGAAAACCACT
CTGTAAGCAATTCGCTGCTGCTGTGCATACATAGTCCGGATATTATCTGT
GTCAGCAGTTCAAATTTTCAAATGAAATCTTCATCAAGAAAAAAATAGAG
CAGGGGACCTCGACTATAACAGCAGCAGTAAAGCTGTACAGCGGTACACC
CGTATACGACTTGCGAAGCCCTGAAATTAGAGTTGCTTTGCAGGTTAGAC
TTCATAGCTGCCGTACTCGTAACCGTATCAGGTTGTCCTGTAAGCCGTGA
CCAGCTGCAATACCTGTCTTGTCTCCTATTTTTTCGTTTCGACAGGTGAG
GCCAGTTATGTCTGGTGGAGATGGCGTCTCGACATCGACAGCCCTAGCTG
CTGCGGCCGGAAGTCCTGCAGGGTCGACCGAGACAACGCCGCCCGTTCCG
CCCTCGGCAGCAGAACCAGCAGCAGCAGGAGGAGCTGCAGAGGTCGCGGG
AGAGGGGCAAGCAAGCCAGGAGACGTTTCGCACGCAAGCCATGCAGGTCG
GCGTTCTCGACGTATGATACGGTACAGCTGTTGTATACTTCGAAGTGTTG
TTTGCGAAAGTGTCATACGGGTACATATGATACGGCGTACTGTATAATAT
CATTTTCGGGGTACAAGCACTTGTTGCGCGGAAAGAAAGAAAATTGAGAT
CTGCTGTTGCTGTTGTTGTTGTTGTTGTTGTCTTCACATTAAAAACCATT
CCGATCTCTCCTCAGTACCTTCTAATGCCCGTACTCCACCGATCAGGTAG
AATTTCCGTGGTCACAGGCTGCTTGCCCCAGAAGAGGTATATAGTACTCG
GGAGATCCCCTCAGTCCACCAAATAAAGGCACCACAAGGGGACTCCGGCA
AAAACAAAAACGGACCCCTAGAAATCACGCAACGCTGTACAAAAATAGAA
CAAGATACTGTACAAGAAAACAAGAAAAGGGAGCCCGGTCCAAAGCCAAG
TCACAAAATGAAATAAAAAGAAATAAAAAGTCAAAGAGAAAATAAAAAGT
CACAAAGGAGTGACAAAAAGACAAAATACAAAATGTACCGAATTCAGTTG
GCAAGGTGTCGATAAATATGGACATCGGGCGTGCTACTCTCTTCAACGGC
CCAGTGACAGTTTCAGGCAGCGCAAGTACGCAGGCGTGAAGGGGGCAAAA
AGGCAGAAGGGCAGAAAAAAAAAACAGAGAACACAAAAAGAAACTTCGAA
GGACGTGGTAGCTCAGTCCACGGTAACTCAACAAACAGGGGGGGGCGCAC
TGATGCAGTGGGGAAACGGATGAGAAGGGTTAGTGCTATCACAGCAGTGT
CAATCAATCTGGTGCATATGCCGTGCTACTCTTTCCATCAATTCCCTCTT
GCTCTCCTCTGCCGCCGTCGTCTCATCCTTTCGGGTCTTTCTACGCTTGC
TTCCTCGAGCTTCCCCCTCCCCCTTCTCCTCCTCCTCCTCCTCCTCGGTT
TTCTCCTTGCTTGTTGTGCTGAGTTATCTCTCCGTTCGCTTTCTTCCTGC
ACGTTTTCTGCTTGCCTCCTTCTCCTCCTTGTGCCAAGCGGTCATAAACC
GCGCAGTCCCCTTCACCACCCCCGCGTACCACGGCACTCCATTCTTCTCC
TTCGCGGCCGTGGTCCACAGGGCAGTGTCGATTCCGAACGTGAGGCGCCT
GTCGCCCGTCGAACCCTCTGTGGCTCCGAAAGCTTTGAAATCGTCCTCCA
GCGATTTCACCCAGTTTTGCGCCGGCCGGCCTCTGCCTGGGTCCTCACCC
CCCACGAGTTTCCCAAACATCAGTCGCTTCGGGAGCCGCCCATCGTCTTG
TCTTGCCAGGGCTCCCGCGAACAGAAGTCGTCTTTGCCGGATGATCGCCT
CAACACATTAGCTCCCGGTCTTCTCGAGCGCTTTGGCGTATGACAGCTGT
TGGTAGGTGCCTTGTACGCGGCGGTATCCGATTACTCGCAGTAAGAGCCG
GTGATGCGTTGTCCGCAGCAACGCGTAGTGGTCGGCGCGTGGTGCCCAGG
TCATACACCCATAGAGCAACGCCTCCATCGCCTCCGCTTTCAGTAGTGGG
ACCTTGAGTCTCCATGGTACTGACTGCCGGTCGAAGAGTTCACGGGAGAA
CTTCTTGAGGCAGCCCCACGCGGCTCGGCTTCGGCGGTTGATCTCGTGCG
TGAGTTCTCCATCCGCGGTTACAAGGCCGCCCAAATACCGAAACTCGGTC
ACTTGTGCGTACTTCTGACCCGCTGCTACGATGGAAAGTTTGGGCGGAGG
AGAAGGTATAGGCTCCCCCGGTTTTCGCGGTTTCCCCGGCACTCGCATCA
GCATCGTCTTCGTCTTCTTCTCTGAGCGGCAAACACCTCCACGATGATGG
TCATCATTCTAGCTAGGCCTTCGGGTGATCTCGACACGAAGCCTGCGTCG
TCGGCGTACAACATCCCCCATACCGCCCTCCGAACGTACTCTAGGGGGGT
TTCCGTCCTCCTGCCCTCCCCCTCTTCGTCCAAGTGCACCAAATCCCTCA
GGATGACATCATCCTAGCTGAAACGCTCCAGTATCGCCTCGAGTGCTGCT
GCAAAGGAGATGTTGAACAGCAGTGGTGACAGTACGCATCCTTGTCGCAG
CCCCTTGGTGACTTCGAACCAGTCCGAGAATGACCCGTCATCCATGCGGC
TTCGGGCTAGCATGCCATCGTGAAACTGGCGGATAACTGTGATCATCTCA
TCCGGTACGCCGGCTCGGGATAGTACCTTCCACAGCAGTTCTCGGTCGAC
CGAGTCGTAGGCCTTCTGGAGGTCGACGAGGCACATGTACAGCGGTAGTC
TCCTTTGCCGTCCCAGTTCTTGGAGTCGGCGTACTACGAATAGCATGTCG
ATGGTAGATCGCTGTGGTCGGAAGCCGCTCTGCTCCTCCGGTAGTATCCC
TTGGGCTTCGCAGTATTCGCTGAGGCGGTTGGCCACAATCTTTAGCATCA
CCTTTCCAGGGTGGGAGACAAGAGAGATCTCCCTGTAGTTGTTGCAGTTG
GACGTATCGGCCTTCTTGTGGAGCACTTTGATGTTCGCATCTTTCCACTC
CTGCGGGACTTCTCCCCCATTCCACACGCTGACGAGGATATCGTGGAAAC
TTTGGATGACGATGGGTTCAGTATCTCCATGAAGGCCGTCAATCTTCAGG
AGCTATACAGGAAGGGAATCGTCGCCCGGTGCCTTCCAGTTTTGCATCCC
CCACGGTGCCCGTTTCGTCTCTGAAAGCGTTGGTGCTGAGCCGAGTGGGA
CCTGATGATCATCTGTTGGTTCTGCTGCCGGTCTTTGCCTCACCTCCTCA
ATGATCCCTGGTTGAAGTGTGGGAGACTTCGCGTTGAGCAGGCCGCTGAA
GAACCTTTTCCAGCGTTGTGCGATTTCACTTTGGCTCAACAGAACACCGT
TCTCGTCCTGGATGAACTGCTGTCCCCCCGATGGCCTTCCATCAAGCCCC
ACGGATCCCTTGAGGTGTTTGTACAGGCCTCTCATGTCACGCTCTTTGTA
AAGCCTTTCCAGTTTCGACACGTATCTCTCCAGGTGGGCATTGATGCCCG
CGTCTATCGCTTCTTGCACTCCCTTACAGGCGGTTCGGAGAGATTTCCAT
CTTGCTGGGGTGCGTTGGGCTTGAAAAAGTCGGCGTGCCACCCGCCTTTC
GGCAAGGGCCGTCTCCACCACCTTCCTCGCTTCCAGGTTTTCACACCATT
CCGGCCATCGGGTACCCGTTCTTCGGCCGGCAGTATGGTCTGCGCTGCTT
CGAGGATAGCTCCGGCAAAATCCCTTGCGGCCTCCTGGGGGTAAGCTACG
TGGTCTGGTTGTGCTTCGAGGTTGTGTCGGAACCTATCGATCACTTGACG
TCTGCACTGCTCGTTCTTCAAGTGGTGTCGGCTGAACTGCTTCTATTTCG
GGGCGGTCCTGACAGGGCGGTTGTAGGCGAACCGGCCTCCGAGGTCGACA
GTGGCAACGACCATGTTGTGGTCGGAGTCCGCCTTCACCGGCAGTGCAGG
TTGCGGGTGTACTATGACATTTCGCACTCTACCACGGTGTGTCTGCCGCG
TAATATGTAGTCTATACGCTTGAGGTGGCTCTCGTTGTTTTTACCGACCC
CGTTGTAGGTGTGCGAAACTCCGCCTTTGCGTGTCCTGAAGAAGGAATTG
GTGAGTGCGAGCTTGTTGGTTTCCGCAAATCTCAGCAGCAGTCTGCCGTT
ATCATTCAGTTCATCTCGTCCACATGCCCCCATTACGTCTTCCTGTGACC
TCTCACCATCGATCTTCCTCCCGGTTCGGGCATTGGCGTCCATCAGGACA
TACGCGCACTCCTTTGTCGGGATGCGCTCTACCATTCGGTCGAGGTTATC
CCAGAATGCCTGTTTGGTCTCTTGCGTTACTGGGGTCCGTTGGTGCATAC
GCCGATATGAAGTTGACAGCTGCGCTCTGGCCTTCCATCTCAAACTGCAT
TGCCATAAGGCGCTCATCAACGAACTCGGTAGTGTATGTGGAAATGTTGC
AGATGGACTCTCTCATGGCTTTCCACACCCCGTGTTGCCCACCTTTCTCG
GATCCACAGCAGAAGACTTTGAACCCTGCTGCTGTAAATCATGTTCTCCC
TGCCCGCCTCGTTTCCTGCATGCCAACAAAGTCAGCTCCTATTCTCTCCG
CTTCATACAGGACGCTATGGTCGTGGCCCAGTCCATCGGCCCCCCTTTAC
AGCCAGAGTCCGCACGTTGTAGGTTACAACCCTGCCAAGTGCCCTCTTCT
GCCTCGCCCGGTGCGCGCGTGCTGCTTCCCTTGCAAGCCTGCGTACACTC
CGGCCCCTCCTCCTCCTTTTCCGACTTCTCTTTTTTGTTTTCTCCGTATA
GCGTTGTGGACTCTCGGGCTATACTTGCGTGTAGCCCGGTGCTCGTCTTT
GATCACGGGCAGGTTCAACCGTCCTACTCCGTCCGACTCTACTCCTTCCT
CGCGTGGTTTGTGGTTACTCCCGCCGTGGTTGGCCTCTCTATTCCAATCT
AGGCTGCACCCACTGCGCTTTCCGCTGCTGCTGTATAGCTCCGGGGTCCA
TTTCGGAGCCTCTGGGTTGAGCCCCATATACCTAACTAAAGTATAAGCAG
CTGCCCAAGTTCGACTGATGTGAGGTGCTGCCCTGATCTTACGATCACGG
TAGTTCCCACCAATCAAACTCGGGGTCCCCGTCTACACGGCGCTTGTGGC
CGTGTCTCCGTCGTGGTTGGGTGGTATTTGCGTGGGTAGGGCCACTGACG
GACCTCGGCCTACCCCAGCGGGGGGGCAGGCCAAGGGGGGGAAAAAACAC
TGTACAAATGTTTTTTTTACACATGGCACATGAGGTCGGTGGTGAAGCAC
CCCTACCGCTGCCATCTTGTCTTGTTCTTGTTGTCAATGCTCTCGGCGTT
ATAATTTCCCTGCTTCTGCATCTCTCTCGAGCTCAGGCGGGCATACGCCA
TCCTAGTGCCGCGGTCAGTTAGAGCTGCATTCCAAGGGAATATTGCACAC
ATAGGACAGATCTGAACCTGTCCAGGTCACCTAGAACTAGAACAGTCACA
GAACGTGGTGTTCTGTGGTGCGCAGGTGACCTGTGCGCCACAGAACATCT
GATGCTCTGTGGCGCACAGGTCACCTGTTACATTTTTAATTTTTTTAACT
GATGTTCTGTGGGGCAGGTCACCGGTGACATTTTTCATCAGTGATGTTCT
GTGGCGTACAGGTGACCTGTTGCATTTTCCCAACTGATGTTCTGTGCGCG
CAGGCCACCTGTTACATTTTCCAAACTAATGTTCTGTGGCACAGGTCACC
TGTGACATTTTTGCACCTGGTGTTCTGTGGATGTTCTGTGGTAGAGGCAG
GTGACCTGTGCCCCACAGATCATTCTTGTTTGAGAGATGAATTTGAGATT
CTGTTCTATTCATATGGCAGTAAAAGTGGAAAAGAGCCCAGCCCTTATTC
CAACTCTGGCAGCTCTCCGGCCTGCACACACAGCACACCCAGCTCTTCAG
CACACGCCACCACATATACCACCAAAGGGGGTGGCGTAGGTTCGACTGTG
TCAACTCCGTCACACATAAACATATCAAGATAATAACGTACACTAATATG
ACCATACTTGTTTCTTGACCTTTCAATCCGTTTGCTTATTTTTTTGCAGA
TCGGGGAGAAAGTCTGTCGCATATCATGGCGTGTGATACTTATGTTTACC
CTGCGATGTTCACTTCAAAAGCAGCCTATTTACACTTAGTCGAACGGGAC
GTACTGGCAGTTCACCTGTCTGTGCGCACAGACATCAGATCGCAACTCTC
TACTACTAACTACGAAGTACCAGGTACGAGGTAACTTTGCAATGTACACA
TGTGCACTACAGCAGTCTACTTCGTATTTTTTCCCCGATTGATCTGTCCA
TTGTTCTGTGCAGCACTGTTCTGTGGCGCACAGGTGACCTGTGCCACATA
ATATGTGATGTTCTGGGGCGCACAGGTGACCTGTTACATTTTTCCAACTA
ATGTTCTGTAGCAGACAGGTGACCTGTGTGCCACAGAACATCTGATGTGC
TGTGGCACAGGTGACCTGTGCCGCAGAACATCACATATGTGCTGTGGCAC
AGGTGACCTGTGCCACAGAACATCACATATGTTCTGTGGTACAGGTGACC
TGTGCCACAGAACATCAGGTGTTCTGTGGCGCGCAAGTGACCTTTTACAT
TTTCCCAAGTGGTGTTCTGTGCCCATAGGTGACTTGTTACATTTTTCCCA
AGTGATGTTCTGTAGCACAGGTCACCTGTGCCACAGGGCATCAGATGTTC
TGTGGCGCACAGGTCACCTGTTACATTTTTCCAACTGGTGTTCTGTGCCC
ACAGGTGACCTGTTACATTTTCCCAACCCATGTTCTGTGGCGGACAGGTG
ACCTAGAACACGTTCTGTCCTATGTGTGAAATATTGCACAGGATATGACT
ATGATAGTCGACGAACACGACCCCGCCCCTATCCACCACTTCTTTTCTCT
TTGAGACAAATCTCAAGCGTCGGTAGGCAAGCGCAGAACAGGATGCCCAG
AAATCAGCAAGTTGTTAAGGACGAGGGAAATGGCCCCATGATTCCCAGTC
GCTCGGGCTCAAAAGAGATGCTTGACCCGCAGTCTTGCGTGGCAGCCTTC
GTTTCGTTCGGTTTCTGTCTCTTTTGCCCATACCGTTCACACCAAGCCAC
AGATCGCATCGTCATGCCTCGCGCATTTCCATCCCACCTCAATAAAAGAC
GTCTCGTCAACACACCGTCTTGAGACACGTTGTTGCCCTCCACTTCTAAT
TGTTTTCGGACGAAACAACTAAAACAGCTGTCAAAGCACCACCCTCCCAA
CTTGCGTGGGAATACCGTACACTATGACGAGGGTCGTGGTCGGTAAGCAT
TTTTCGAGGTCGATTTTTCCCGGTGTGCCGCGTAACGACTCTTGTCTCTT
GCCCGTCGCCATCGAAAATCGCCAAACGTGCACAGGAGTGCGTTGATGCT
CTGACGGAAAAGTCCAAGGCGGGCAACGAGATGGTGGCCAACTTGGTGCA
AAGCCTCGGATCCGCTCTGGTGTACCCGGACGCCGGCAATTTCGACACCA
ACCGCAAGCTCTGGGACAATTACGCTGCGGAGTGGGAGCCGAGCGCCAGG
TGCTTCTCTTTCAAAAGTGTGTGCAACAGTTGTATTCAAGACTGGTATTG
CTCAGTTCATTGCCTGCCGTCCCACCCCGAGAAATGGAAACAGTTCATTG
AACACACAACTCTAACGTGGAATATTAAAATCGCACAATGTGATGAGCAT
CTTCCGCTCGTCCACACAAGTGTTTGACCTGCCCCCGTGTCCACCCCCCC
CACTCAAGCGTGTTTTAACTTCTTTGGGTTAGGTTATCTTGGCCCTTTAC
ATCGTGCGCAGATCGGGTGTGCTGGGTAACGTTGGTTGTAGCGTAAATAA
CCGAATTGTGGACAATCTTGCAGCCAACATCTTACCACCCCCTACCCCCC
CCCCCCCTGACTTTCGCGGTGCCTCCATGCTTTTGCGTATCGGGCAGCTG
GGTGCAGAAAATGGCGCAAGGGTCCAAAACGGAGCGACTAGCGGTGGTCG
GCGATGAATGGTCCACACGGGACGATGTGATGAGAGTCATCAACGACTTC
ATCCTGGTGAGGGTTTTCGCTTGGCTGCCGATGCCGTTGACTTGTACCTT
CCCTGCAGATGGCGGAAGCTCTCACGATTCATCAGTTCGAAATGACTTCC
TGACTGCTGCTCTACACCTACCGTAGGGGAACGATTTGCCTTTCTTGGTG
AAGGCGCCGTGTCGCACGTACGTGTTGGTGGTGCCTGCTCACGCCCGCCG
AACGACCTCACTGAAACAACATGCATGTTTTCGGCTGCTGCGCATTCACG
ACGTATGTGTTTTCCACCTACCATTAACCAGCTACCGTCAATGCGTAGCG
GCCAACGCGGCTCTGTTGTAGGTCGTGTTGGGCTCACTCTTTACTGCACC
TTCTGCACTATCGAGAAGCGCATTCTGTGCTATTTTCCTTCCCTACAACG
AAGGGCTTACATTCATAGGTGCTCCCCCTTTTGTGCCGCTTTTTGTTATC
GTGGGCACCGTCTTCCCCTGTCCCTTTGCTGCAGCCGAATGTTACGAAGG
AGAGCAACGTCGGCGAAATCGGTTGCGGGGGTGGGCGAGTGACTGTAGAG
GTGCGTGCGAAATGAAATGCGTTGCCTGTTATGCGCAGACCCGCTTGGTG
TGAATGTCGTATGTACGAGTAGTGAGTGTCCAGGTGCAGGGCTGAGGTGT
CAGGAATGGGTGGGGACAGGTGGCATATGGAACGTACGTTTTTACCCAGG
ATGTCTTTTTTTTTTGCAAGGCTGTTCGATACGAGGTCGCGGTGGCATAT
CGTGCGGGCTACGCGTAAGGTTGGGCGGCGTCTTGTCTGCGTCATCGACA
CTCGACACTGTTACCGATCTTCTGTGGCAGACCCGCCCCGAACAGCGAAC
AGCTTTGCGATATCAGGTTTTGTACCCACCCGTAGCGTTCATCCCCGCTG
TCCGGCCTCGAAACACATCGGCACCGACACCGTTTGCTCACGTGCTGCCC
CCCCCCCCCCGCTGGTGGCTCCGCCACTCCGCTGGCTTGCACCAGGTGTT
CCACACGGCAGGACAACTCACCTGCTTCGACATTTCCAAAAACATGTTGA
GGCGGACGAGAGATGCTGTTGGAGAGGACACTTGCGCTGGAGGGGGAAAG
GTAATGTCTGCGCATCCCTCCTTTGTACATCGATTATATTTTACTCAAAA
CTTGCGAACGGCCACCATCCGGATGGTGACCGTATTCTCTCATCATCGGG
GAGTAATTTTGATAGAACTTGGCAACCTCGACACCGCCAAGCGTTTCGCC
CTCCAGGCAAAATTTCACTGCTGTCTTGGGATAGAATTGTGGGTCCTGAT
AAAGCACCACCTTAACGGCTAAAAGAAATGGATTGCACCGAGAAGCCTTC
GCCTGAATCAAAATAATCGATGCATGGACACACACGTCCTTTTGTGACAA
CTGTGGGTCCCGCTGGAACAACATTCGACATCTATTGCGAGCACACCGTC
AAGGCATCACGCCCGGGCCCCGTGTATCGTCACATGAGACAGAACGTGGC
CCGGAGAGACTGAGAAACTGGTAAAGAGATAGAGCACCAAATACTGGCGA
CGTGACGTGTGTCCGGTGCGAATATAACGATTATGCCCACACGTGCCCAG
CCCGGCCCACATTTCGTCCCTATCCACGGGTTGCACTTAATAATGATATG
TCTGGTTTTACTCTTGATGCGTGTCGCTCCACTCCCCCGACGCAGGTTAA
GTTTGTACTGTTGAGTCAGCCCCGCTTGCCGGAGAACGTGTCGGACTCGC
TAGATTTTGTCATCCTGTACGATGTTCTTGTTCACGTGGACCTGCACATC
ACCAACAAGTACATCCGCGAGATCGCACGGGTGTTAAAACCCGGAGGCAA
GGCTTTCTTGTCCACGGCGAACTTTCTCAGCCCAGGTACCAACTTCAATT
ATCTCTGCAGATGATCATGTTCACAATAGGATATGTAAGTTTGAGTTTTA
GTTCCATGTCTCGCTCGCGCTTCCGCCTCAATTGTTTGTATTTTCCTGGG
CTGTCCCGTAGCAAGGCATCACGATACCCCCCCCCCCCCTCTTGCCAAAA
AGGAGCTTGGATGTGCTTGTTGTAAGGGATGTCTGTTTCGTGGCCTTTAG
TGTCGCTTGCAACCTGCTGTGATGAAAATCGTGATCGGGTTAATGGACTG
CGCTCTTGCGAGGACAACGCCGAACGTGTCTTCCATTCGTCCCGAACGAT
CAGGTGCTTCGCCGAAAACGAGGCACCTTTACTTCGTCGAAGCACACCGT
GCCGAAGAAAAGTGGGAGAGCCGTGGGGTAATCAGGCTCGTGTTTCTCCA
TCTCAAGAGCGGGCTCTCTACAGCCAGGCGCTAGACACCACACTTTTTTT
AGTTTAGACTGCTGATGTTGGTCCGCTCCATGGGTGCGTTTTGATGTGAA
AGTCCCTGGATGCATCTTTTCTTTGAGATCACTCCCTCTTTGTCTTCGGG
TGTTTTTCCTCTCGTCGCCCGTTGTTGATCAGGCGGCTGGGACCGGTTCA
GCGCGCAGGACAAGTACAGTGTCGGCGGCTTCTACTGTGAGTGAATCGGA
CTGTTGCTGTCGTTGTGCTGTACTGTACTGTCGCTCATGGGCAACTTGCG
AGGCCTGAAACTTTGCAGTCCTTGCGACAAAGGATTGTGGGCTCTCAGAC
CTACATTACGCTCGCCTTGCGATGTGCTGGTTGGTTCTGCTGCTGGCGAG
CGATGGTTGATCACCTTCGGCTTATTTCACGCCCGCACAATGCCATTCCG
AGCGCGGCAACTTGACGAGAGGGAGAATCAAACCCGCCACCGTGGCCGGT
TAAAGTTCCACGGGTCTCCTCCCTTTCTATGCGGCGTGGGCCTGATCACA
CTCTTGACACCGCATGGACTTGGATCGTCTGCCTCATCAATGCCCGTCCT
CAGCTGCATCACTACGATTTTCACCTTGTTGCGCTCCCGTTGCCGCTTGC
CTTGCCTTGCTTTTCTGGGTGGAAGTCATGTGCCCCGACATGGTGCGACT
GATGCTTAATAAGGCGGGGCTCAAAGTAGTCAGGGAGGGAGAGCACGACC
CGTCGAATTCGTACTACAACAGGCGAGCGCAGAGGGTCAGGCGTTGCAAG
GATGCATTTTCGCGTGTGTGGGTGTGTCTTTGTGTGTTGCAGGTACTTTG
GCGGGAAGACGTGAAATGTCCGCATGATGTGTGGCGGGTCTCCCTGTTCA
GCTCCACAATGTCGGGGAGGGCGCCACTGCCAAAGAGGGATGGCGTTGTC
GAGGGCATTCTGTGTGTTTTGTTTTGAAACGGTCCGCTTGTTACTGTACG
TGAAGCACAAAGTTGTGTCACCTCTACCCTTGACCTTGAACTAGAAAGAT
CCGGATGTAATTGGCTGTGAACACTCAGCGGTGCGATTAAACCATTTGTC
TTGCTTCTAACCCTCGCTTAAGATTAAGACATACATCCCCTGCGGTTAAC
AGGCTTACACGAGAAGCACGTGCTTTTCGTCTCATGTATGATATCATATC
TGGCTACAACATCGTGAGAGGAGCGGCAACAAATAATACGCGGTGATGAT
GTTGCAAAGCCTGATTGGGGATTTCGGGACTGCTGTCATCACTGCCATGG
AAACCCTCCCCGTTGTCGAAGGACCAAGATTGGAAACCTGATATCAACTT
CAATGTGACTTGCGCTACCTTTATTGTGCCCGCGAAGGGATTCCGCGCGG
GAAGTATTCCTTCAAGCCTCCACTCCAAGGGTCGAGGGATATTCCAAGCG
CAGCTCCGTGTGACCTTAGTCAATCATTTGCAGGGCTTGAGCCGGATTCA
ATATGTCGATTCAAAATTCCTAATGCAAGATAATGAATCTATTGTCCAAC
TCCGCTCCTCTGCGATATTCTCCGAACGGGATGACGATCTGTTTCGCTCT
GCGAGATTCCCAGAGTGTAGGAGTCCGCTCCACGAGACGATCAGAAGTAC
GATCTGCTCCGTGATTTCAGTATCCAAATCCGTCCGCGCAGAGTGAGTTG
AAGGCGCATCATATCATGTCTTTACTTCTTGGTAACTACAACAACAGCAG
GTTTCACCCAGCCCAAATGTACGCCGCTTTGGCCAACTCTCTCAAGTGCG
AAGATATACCTCTTCACGATTTTAATCGTGCACTGCTGTCTGGACCGATC
AAGTTGGAAGTGAAACCCCACCAGCGGGAAAAAATGATACAAGTGTCACG
CGCCCGCCTCTTGACGACAGACAGCCTTCCCTTATTTGCTGGTCGCCCGT
TTTTGCGTTTGCAGGGACTACCTCGTGCTGGTAGAGAAGCCGTTGTGACC
ACGCCCCGGTTGTTTGGATCTCCAGTGCTCTAGTCACACGATGCGCATGG
CCGGTTTGGCTGCAGCGCCGAGCAGACGATGGCCTGGCGGGTGCAGGGGG
GGTGGAAACGTTGCGCGTATGATTTGTGTGCATAGATCGCGCGTTCTGCA
CGACCGAAGCACCGTGCGACGTGCCGTTCATTTTTCCTCCCCCGCGTTTC
AGCCTCCTTCAAGGTACTGTAGATGGTTGTGGAAGGCGCATATATATGGC
ATGGTTCAGCATTTGTTTGTCTTTCTCCCGTGTGTAGTCTCGAGACCCTT
GTGTGTGAATTGCGTGCTTCATTTTTTGTTTTGAAGGCTCATAACGTGCT
TTGTCAGAACAAACGGCGGGGGGTAAAGAGCTCTGTGATCTAGGTCTAGG
CCTTAGACTGTCCTCAACACTTCCAAAAGACGAGGGAATATATTTAAGTC
CCTCACAGAGAAGAGTTGGGGTGACAGAAAATCTGAACAGAGCGACCGAC
AGCGAGCCGCTTTTGGGGGGTAGGGCGGGCGATGCCGGTGATGCATCCTC
ATCGTAGTACATGGCAACGGTAGATCGCTGACCTGAGCGACCGGCAGCGA
GTAGCTTTTGGGAGCCACGGAGGGTGAAGCCGGCGGTGCGCCCTCATCGT
AGTACATGACAACGACGGTAGATCGCAGCCCGGGTGCCGGACTCGGCACT
TGCAACGTTATCGGTGAAGGTGGTTCCAGGGAACGGTTCCCGGCCGGACA
CTTGACACGAGGAAGTAAAAATTAACCAGCAAGCGGAAGATCGACGAAAA
ACTCTTGTACATGTCTCTACACTAGTCATGAGCATGGTTGATATTCTTGA
GCCAAAGAGTGTTTGTTGAGCGAGTATGACACAACTTTATTTGTTACAGG
AATTCAGAGGTATTCACGAAAGAACACATTTGGGTCGGCATGTCGGTGCA
ACACTGTACATAAACCGGCGCCAAGATACCCGTTCTAAACACAAGAACTG
C

Coding sequence (CDS) from alignment at P-littoralis_Contig18:524222..538372+

>mRNA_P-littoralis_Contig18.117.1 ID=mRNA_P-littoralis_Contig18.117.1|Name=mRNA_P-littoralis_Contig18.117.1|organism=Pylaiella littoralis U1_48|type=CDS|length=1008bp|location=Sequence derived from alignment at P-littoralis_Contig18:524222..538372+ (Pylaiella littoralis U1_48)
ATGTCTGGTGGAGATGGCGTCTCGACATCGACAGCCCTAGCTGCTGCGGC
CGGAAGTCCTGCAGGGTCGACCGAGACAACGCCGCCCGTTCCGCCCTCGG
CAGCAGAACCAGCAGCAGCAGGAGGAGCTGCAGAGGTCGCGGGAGAGGGG
CAAGCAAGCCAGGAGACGTTTCGCACGCAAGCCATGCAGGAGTGCGTTGA
TGCTCTGACGGAAAAGTCCAAGGCGGGCAACGAGATGGTGGCCAACTTGG
TGCAAAGCCTCGGATCCGCTCTGGTGTACCCGGACGCCGGCAATTTCGAC
ACCAACCGCAAGCTCTGGGACAATTACGCTGCGGAGTGGGAGCCGAGCGC
CAGCTGGGTGCAGAAAATGGCGCAAGGGTCCAAAACGGAGCGACTAGCGG
TGGTCGGCGATGAATGGTCCACACGGGACGATGTGATGAGAGTCATCAAC
GACTTCATCCTGCCGAATGTTACGAAGGAGAGCAACGTCGGCGAAATCGG
TTGCGGGGGTGGGCGAGTGACTGTAGAGGTGTTCCACACGGCAGGACAAC
TCACCTGCTTCGACATTTCCAAAAACATGTTGAGGCGGACGAGAGATGCT
GTTGGAGAGGACACTTGCGCTGGAGGGGGAAAGGTTAAGTTTGTACTGTT
GAGTCAGCCCCGCTTGCCGGAGAACGTGTCGGACTCGCTAGATTTTGTCA
TCCTGTACGATGTTCTTGTTCACGTGGACCTGCACATCACCAACAAGTAC
ATCCGCGAGATCGCACGGGTGTTAAAACCCGGAGGCAAGGCTTTCTTGTC
CACGGCGAACTTTCTCAGCCCAGGCGGCTGGGACCGGTTCAGCGCGCAGG
ACAAGTACAGTGTCGGCGGCTTCTACTTCATGTGCCCCGACATGGTGCGA
CTGATGCTTAATAAGGCGGGGCTCAAAGTAGTCAGGGAGGGAGAGCACGA
CCCGTCGAATTCGTACTACAACAGGGACTACCTCGTGCTGGTAGAGAAGC
CGTTGTGA