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Homology
BLAST of mRNA_P-littoralis_Contig78.74.1 vs. uniprot
Match: D8LT05_ECTSI (Proteasome subunit alpha type n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LT05_ECTSI) HSP 1 Score: 483 bits (1242), Expect = 3.160e-165 Identity = 242/255 (94.90%), Postives = 250/255 (98.04%), Query Frame = 3
Query: 81 MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTALGVRCKDGVLLAVEKLLISKMIVAGSNRRVHGVSKHVGMAVAGLGADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELKRHELYVIEPSGVMYRYFGAAVGKGRQGAKTEMEKLKFEDMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEETEWKYQAVPQSQIKEAEEWAKASIESDEMDDGED 845
MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTA+GVRCKDGVLLAVEKLLISKM+VAGSNRRVHGVSKHVGMAVAGL ADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELK+HELYV+EPSGVMYRYFGAAVGKGRQ AKTEMEKLKF+DMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEE+ WKYQAVPQ+Q+KEAEEWAK SIESDEMDD ED
Sbjct: 1 MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTAMGVRCKDGVLLAVEKLLISKMLVAGSNRRVHGVSKHVGMAVAGLSADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELKKHELYVVEPSGVMYRYFGAAVGKGRQAAKTEMEKLKFDDMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEESGWKYQAVPQAQVKEAEEWAKESIESDEMDDDED 255
BLAST of mRNA_P-littoralis_Contig78.74.1 vs. uniprot
Match: A0A835ZEM3_9STRA (Proteasome subunit alpha type n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZEM3_9STRA) HSP 1 Score: 367 bits (942), Expect = 5.120e-120 Identity = 180/254 (70.87%), Postives = 215/254 (84.65%), Query Frame = 3
Query: 81 MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTALGVRCKDGVLLAVEKLLISKMIVAGSNRRVHGVSKHVGMAVAGLGADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELKRHELYVIEPSGVMYRYFGAAVGKGRQGAKTEMEKLKFEDMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEETEWKYQAVPQSQIKEAEEWAKASIESDEMDDGE 842
MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTA+G++CKDG+LLAVEKLL+SK++V G+N+RVH V+ +G+AV GL AD RQIV R RDE A Y E+YG + P +L +R++ YVHYFT+HGSLRPFGAS L+AGYD E K +L+++EPSGV YRYFG AVGKGRQGAKTE+EKLK +MTC+ AMK V KILHVLHDEAKDKPFE+EMSWVCEE+ +K+ + IK+AE+WAK SIE+DEMDD E
Sbjct: 1 MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTAIGIKCKDGILLAVEKLLLSKLLVPGTNKRVHHVTPRIGVAVTGLTADTRQIVNRARDEAANYKESYGDYISPKLLTERVSNYVHYFTMHGSLRPFGASTLIAGYDDETKEAQLHMVEPSGVSYRYFGCAVGKGRQGAKTEIEKLKVMEMTCRVAMKHVAKILHVLHDEAKDKPFEIEMSWVCEESGFKHAMIDTQLIKDAEKWAKESIEADEMDDDE 254
BLAST of mRNA_P-littoralis_Contig78.74.1 vs. uniprot
Match: A0A6V1PKB9_HETAK (Hypothetical protein n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A6V1PKB9_HETAK) HSP 1 Score: 342 bits (877), Expect = 3.270e-110 Identity = 169/255 (66.27%), Postives = 204/255 (80.00%), Query Frame = 3
Query: 81 MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTALGVRCKDGVLLAVEKLLISKMIVAGSNRRVHGVSKHVGMAVAGLGADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELKRHELYVIEPSGVMYRYFGAAVGKGRQGAKTEMEKLKFEDMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEETEWKYQAVPQSQIKEAEEWAKASIESDEMDDGED 845
MSSTGAGYDLS TTFSP+GK+FQ EYATKAVENSGTA+G+ C+DGV+LAVEK+L K++ AGS +RVH +S H G+A+ GL AD RQ+V R R+E+ + +NYG MPP +L DRLAQYVHYFTL G+LRPFG VL+A +D E R L++IEPSGV YRYFGAA GKGRQ AKTE+EKL E +TC+EA+K+V KI+H LHDE+KDKPFELEMSWVCEE+ + AVP+ I EAEEWAK +IE EMDD D
Sbjct: 1 MSSTGAGYDLSPTTFSPEGKLFQTEYATKAVENSGTAIGINCRDGVVLAVEKVLKDKLLKAGSAKRVHTLSNHAGLAMTGLVADGRQVVNRAREEIQSFKDNYGYDMPPDVLTDRLAQYVHYFTLSGALRPFGCQVLLAAHDEEAGRARLHMIEPSGVSYRYFGAAAGKGRQAAKTEIEKLNLETLTCREALKEVAKIIHTLHDESKDKPFELEMSWVCEESGNTHSAVPKELITEAEEWAKKAIEDAEMDDDSD 255
BLAST of mRNA_P-littoralis_Contig78.74.1 vs. uniprot
Match: A0A7S4E6P3_9STRA (Proteasome subunit alpha type n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A7S4E6P3_9STRA) HSP 1 Score: 342 bits (876), Expect = 4.940e-110 Identity = 163/260 (62.69%), Postives = 206/260 (79.23%), Query Frame = 3
Query: 81 MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTALGVRCKDGVLLAVEKLLISKMIVAGSNRRVHGVSKHVGMAVAGLGADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELKRHELYVIEPSGVMYRYFGAAVGKGRQGAKTEMEKLKFEDMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEETEWKYQAVPQSQIKEAEEWAKASIESDEMDDGED*QIVA 860
M+STGAGYDLS TTFSPDG+IFQVEYATKAVENSGT +G+RC DGV+L VEK+++SKM++ SNRRV V+ H G+A AG AD RQ+V R RDE Y + YG ++PPS+LA RLA+YVHYFT+HG+LRPFGAS ++A YD K HELYV+EP+GV RYFGAA+GKGRQ AK+E+EKL +TC+EA+K++ K++H HD+AKDKPF LE +W+CEETEWKY VPQ I EA+ WAK +ESD+ DD D ++ +
Sbjct: 1 MASTGAGYDLSPTTFSPDGRIFQVEYATKAVENSGTVVGIRCADGVVLGVEKVMLSKMLLPSSNRRVAAVAPHAGVAQAGSTADGRQVVARARDECDSYDDTYGIEIPPSVLAQRLAEYVHYFTIHGALRPFGASTMIAAYDARKKTHELYVLEPTGVCLRYFGAALGKGRQSAKSEIEKLDLTKLTCREALKEIAKMIHTTHDDAKDKPFILEFAWLCEETEWKYGLVPQDLIDEADAWAKKELESDDEDDDGDEEMAS 260
BLAST of mRNA_P-littoralis_Contig78.74.1 vs. uniprot
Match: K8YS01_NANGC (Proteasome subunit alpha type n=2 Tax=Nannochloropsis gaditana TaxID=72520 RepID=K8YS01_NANGC) HSP 1 Score: 332 bits (852), Expect = 2.060e-106 Identity = 162/255 (63.53%), Postives = 210/255 (82.35%), Query Frame = 3
Query: 81 MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTALGVRCKDGVLLAVEKLLISKMIVAGSNRRVHGVSKHVGMAVAGLGADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELKRHELYVIEPSGVMYRYFGAAVGKGRQGAKTEMEKLKFEDMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEETEWKYQAVPQSQIKEAEEWAKASIESDEMDDGED 845
MSSTGAGYD+S TTFSPDG++FQVEYA KAVENSGTA+G++CKDGV+LAVE L++SK++V+ SNRR + V H+ +AVAGL +D RQ+V R R+E Y +NYGS MPP++LADRLAQ+VHYFTL+ SLRPFGASVL+AG+D EL+VIEPSGV Y++FGAA+GKGRQGAKTE+EKLK + TC +A+K++ KILH LHDE+KDKPFELEM+WV +K Q VP+ + AE+WAK +IE+++MD+ ++
Sbjct: 1 MSSTGAGYDVSPTTFSPDGRLFQVEYAGKAVENSGTAIGLKCKDGVILAVENLMLSKLLVSNSNRRTYNVGSHISIAVAGLVSDGRQVVNRAREEAENYKDNYGSDMPPTILADRLAQFVHYFTLNYSLRPFGASVLIAGHDAFTDSIELHVIEPSGVAYKFFGAALGKGRQGAKTEIEKLKLTETTCDDAVKEMAKILHKLHDESKDKPFELEMAWVTAANGYKAQRVPRDIVAAAEKWAKEAIEAEDMDESDE 255
BLAST of mRNA_P-littoralis_Contig78.74.1 vs. uniprot
Match: K3W7I2_GLOUD (PROTEASOME_ALPHA_1 domain-containing protein n=1 Tax=Globisporangium ultimum (strain ATCC 200006 / CBS 805.95 / DAOM BR144) TaxID=431595 RepID=K3W7I2_GLOUD) HSP 1 Score: 330 bits (845), Expect = 1.930e-105 Identity = 158/252 (62.70%), Postives = 202/252 (80.16%), Query Frame = 3
Query: 81 MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTALGVRCKDGVLLAVEKLLISKMIVAGSNRRVHGVSKHVGMAVAGLGADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELKRHELYVIEPSGVMYRYFGAAVGKGRQGAKTEMEKLKFEDMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEETEWKYQAVPQSQIKEAEEWAKASIESDEMDD 836
MSSTGAGYDLSA TFSPDG+IFQVEYA KAVENSGTA+G++C DG+++ VEK L+SKM+VAG++RRV+ + +HVG+++AGL AD RQ+V R R+E Y +NYGS +PP +LADR+ QYVHY+TL+GS+RPFG S+++AGYD + K+ LY +EPSGV Y Y G A+GKG+Q AKTE+EK K DMTC+EAMK V KILH LHDE + PFELE+SW+ EET+W++ VP + E EWA SI+ DEMDD
Sbjct: 1 MSSTGAGYDLSAGTFSPDGRIFQVEYAKKAVENSGTAIGIKCTDGIIMGVEKTLLSKMLVAGTHRRVYAIDRHVGLSMAGLVADGRQLVNRAREEALSYKKNYGSAIPPHVLADRMGQYVHYYTLYGSIRPFGTSIMLAGYDADEKKPSLYCVEPSGVTYSYRGCAIGKGQQAAKTEIEKYKLFDMTCREAMKYVAKILHTLHDEVRH-PFELELSWISEETKWQHHLVPDNLRDEVNEWAIQSIKDDEMDD 251
BLAST of mRNA_P-littoralis_Contig78.74.1 vs. uniprot
Match: A0A1W0AAI8_9STRA (Proteasome subunit alpha type-3 n=2 Tax=Saprolegniaceae TaxID=4764 RepID=A0A1W0AAI8_9STRA) HSP 1 Score: 326 bits (836), Expect = 3.990e-104 Identity = 161/255 (63.14%), Postives = 206/255 (80.78%), Query Frame = 3
Query: 81 MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTALGVRCKDGVLLAVEKLLISKMIVAGSNRRVHGVSKHVGMAVAGLGADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELKRHELYVIEPSGVMYRYFGAAVGKGRQGAKTEMEKLKFEDMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEETEWKYQAVPQSQIKEAEEWAKASIESDEMDDGED 845
MSSTGAGYDLSA TFSPDG+IFQVEYA KAVE+SGTA+G+ C DGV++ VEK+L+SKM+V G++RR+H V +HVG+A+AGL AD RQ+V R R+E +GY +NYGS +PP +LADR++QYVHYFTL+GS+RPFG S+++AG DV+ + L VIEPSGV YR+ G A+GKG Q AKTE+EK K DMTC+EA+K + KIL+VLHDE K PFELE+SW+CEE++W++Q VP + A WA SIE DEM D +D
Sbjct: 1 MSSTGAGYDLSAGTFSPDGRIFQVEYAKKAVESSGTAIGIHCTDGVVMGVEKILLSKMLVPGTHRRIHAVDRHVGLAMAGLVADGRQLVNRAREEASGYKKNYGSAIPPQILADRMSQYVHYFTLYGSVRPFGTSIMLAGRDVDTGKCYLNVIEPSGVSYRFRGCAMGKGEQAAKTEIEKYKIFDMTCREAIKYIAKILNVLHDEVKH-PFELELSWLCEESKWQHQLVPDNIRDAANAWALQSIEEDEMADDDD 254
BLAST of mRNA_P-littoralis_Contig78.74.1 vs. uniprot
Match: A0A7S2DT08_9STRA (Hypothetical protein n=2 Tax=Dictyocha speculum TaxID=35687 RepID=A0A7S2DT08_9STRA) HSP 1 Score: 327 bits (839), Expect = 4.550e-104 Identity = 155/255 (60.78%), Postives = 205/255 (80.39%), Query Frame = 3
Query: 81 MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTALGVRCKDGVLLAVEKLLISKMIVAGSNRRVHGVSKHVGMAVAGLGADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELKRHELYVIEPSGVMYRYFGAAVGKGRQGAKTEMEKLKFEDMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEETEWKYQAVPQSQIKEAEEWAKASIESDEMDDGED 845
MSS+G+GYDLS TTFS +G+IFQVEYATKAVENSGTA+G+RC DGV+L VEK+L++K++ G+N+++ +SKH GMA AG G DARQ+V R R E Y++ YGS++PP +LA+R++QYVHYFTLHG+LRPFG +VA YD + H+LY+IEPSGV +R+FGAA+GKGR GAKTE+EKL MTC+EA+K+V KI+H+LHDE KDKPFELE+SW+C+E+EWK+ VP + E E+ A IE EM++ +D
Sbjct: 31 MSSSGSGYDLSPTTFSTEGRIFQVEYATKAVENSGTAIGIRCVDGVVLGVEKILMNKLLKPGANKQIATISKHAGMAYAGFGPDARQLVNRARSEAESYMDTYGSEIPPEVLAERMSQYVHYFTLHGALRPFGTGAIVAAYDPDRSLHQLYMIEPSGVNFRFFGAALGKGRMGAKTEIEKLDLGSMTCREALKEVAKIIHMLHDEGKDKPFELELSWLCKESEWKHVQVPAALKDEMEQAALKEIEDAEMEEDDD 285
BLAST of mRNA_P-littoralis_Contig78.74.1 vs. uniprot
Match: A0A7S2UY62_9STRA (Hypothetical protein n=2 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UY62_9STRA) HSP 1 Score: 326 bits (835), Expect = 1.470e-103 Identity = 158/259 (61.00%), Postives = 205/259 (79.15%), Query Frame = 3
Query: 75 NKMSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTALGVRCKDGVLLAVEKLLISKMIVAGSNRRVHGVSKHVGMAVAGLGADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVE--LKRHELYVIEPSGVMYRYFGAAVGKGRQGAKTEMEKLKFEDMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEETEWKYQAVPQSQIKEAEEWAKASIESDEMDDGED 845
+KMSSTGAGYD S TT+S DG+I+QVEYA+KAVEN GTALG+ CKDGV+L VEK L+SKM+V GSNRR+H V + G+A+AGL AD RQI+ R RDE Y ++Y +PP++L++RL+QYVHYFTLHGSLRPFGA+ L+A D + + L++IEPSG+ YRYFG AVGKGRQGAKTE+EKLK +D++C++ +K+ KILH LHD +KDKPF +E SW+C+ET WK+QAVP I EA++W K ++E +MDD D
Sbjct: 21 SKMSSTGAGYDFSPTTYSTDGRIYQVEYASKAVENRGTALGLNCKDGVVLVVEKPLVSKMLVPGSNRRIHNVGTNAGIALAGLLADGRQIINRARDECRSYKDSYDVAIPPNVLSERLSQYVHYFTLHGSLRPFGAAALIASVDPDNAAQGGALHMIEPSGISYRYFGCAVGKGRQGAKTEIEKLKLQDLSCRDGLKEAAKILHTLHDGSKDKPFIMEASWLCQETGWKHQAVPADLITEADQWGKKAVEDADMDDDSD 279
BLAST of mRNA_P-littoralis_Contig78.74.1 vs. uniprot
Match: A0A7S2BRB3_9STRA (Proteasome subunit alpha type n=1 Tax=Florenciella parvula TaxID=236787 RepID=A0A7S2BRB3_9STRA) HSP 1 Score: 325 bits (833), Expect = 1.470e-103 Identity = 151/251 (60.16%), Postives = 204/251 (81.27%), Query Frame = 3
Query: 81 MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTALGVRCKDGVLLAVEKLLISKMIVAGSNRRVHGVSKHVGMAVAGLGADARQIVYRGRDEVAGYIENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELKRHELYVIEPSGVMYRYFGAAVGKGRQGAKTEMEKLKFEDMTCKEAMKQVCKILHVLHDEAKDKPFELEMSWVCEETEWKYQAVPQSQIKEAEEWAKASIESDEMD 833
MSSTG+GYDLS TTFSP+G+IFQVEYATKAVENSGT++G+RC DGV++ VEK+L+SK++ G+N+++ +S+H GMA +G G D+RQ+V R R+E Y + YGS +PP++LA+R++QY+HYFTLHG+LRPFG +VA YD E K H+LY+IEPSGV +R++G A+GKGRQGAKTE+EKL +TC++A+K+V +I+H+LHDEAKDKPFELE+SW+C E+ WK+ VP + E EE AK IE EM+
Sbjct: 1 MSSTGSGYDLSPTTFSPEGRIFQVEYATKAVENSGTSMGIRCTDGVVMGVEKVLLSKLLKKGANKQIATISEHSGMAFSGFGPDSRQLVNRAREEAHSYDDTYGSAIPPNVLAERMSQYMHYFTLHGALRPFGTGAIVAAYDPERKEHQLYMIEPSGVNFRFYGCALGKGRQGAKTEIEKLDLNTLTCRQALKEVARIIHILHDEAKDKPFELELSWLCAESGWKHTYVPAALKTEVEEAAKKEIEDAEME 251
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Stop | 1 |
| Start | 1 |
| Seed ortholog | 2880.D8LT05 |
| Preferred name | PSMA3 |
| PFAMs | Proteasome,Proteasome_A_N |
| Model size | 2032 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K01537,ko:K02727,ko:K03868 |
| KEGG TC | 3.A.3.2 |
| KEGG Pathway | ko03050,ko03420,ko04066,ko04110,ko04111,ko04114,ko04120,ko04141,ko04310,ko04341,ko04350,ko04710,ko05200,ko05211,map03050,map03420,map04066,map04110,map04111,map04114,map04120,map04141,map04310,map04341,map04350,map04710,map05200,map05211 |
| KEGG Module | M00337,M00340,M00379,M00380,M00381,M00382,M00383,M00384,M00385,M00386,M00387,M00407,M00411 |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0000003,GO:0000502,GO:0002064,GO:0002065,GO:0002066,GO:0003006,GO:0003674,GO:0003676,GO:0003723,GO:0003729,GO:0005488,GO:0005515,GO:0005575,GO:0005576,GO:0005622,GO:0005623,GO:0005634,GO:0005654,GO:0005737,GO:0005773,GO:0005774,GO:0005829,GO:0005839,GO:0006464,GO:0006508,GO:0006511,GO:0006807,GO:0006950,GO:0007088,GO:0007276,GO:0007281,GO:0007292,GO:0007346,GO:0008150,GO:0008152,GO:0009056,GO:0009057,GO:0009266,GO:0009409,GO:0009628,GO:0009888,GO:0009896,GO:0009987,GO:0010035,GO:0010038,GO:0010498,GO:0010499,GO:0010564,GO:0010638,GO:0010965,GO:0012505,GO:0016020,GO:0016579,GO:0019222,GO:0019538,GO:0019773,GO:0019899,GO:0019941,GO:0019953,GO:0022412,GO:0022414,GO:0030071,GO:0030154,GO:0030162,GO:0030163,GO:0030707,GO:0030855,GO:0031090,GO:0031331,GO:0031597,GO:0031625,GO:0031974,GO:0031981,GO:0032270,GO:0032436,GO:0032501,GO:0032502,GO:0032504,GO:0032991,GO:0033043,GO:0033044,GO:0033045,GO:0033047,GO:0034515,GO:0036211,GO:0042175,GO:0042221,GO:0042802,GO:0043161,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043233,GO:0043412,GO:0043632,GO:0043687,GO:0044237,GO:0044238,GO:0044248,GO:0044257,GO:0044260,GO:0044265,GO:0044267,GO:0044389,GO:0044422,GO:0044424,GO:0044428,GO:0044437,GO:0044444,GO:0044445,GO:0044446,GO:0044464,GO:0044703,GO:0045202,GO:0045732,GO:0045787,GO:0045840,GO:0045842,GO:0045862,GO:0045931,GO:0046686,GO:0048046,GO:0048468,GO:0048477,GO:0048518,GO:0048522,GO:0048609,GO:0048856,GO:0048869,GO:0050789,GO:0050790,GO:0050794,GO:0050896,GO:0051128,GO:0051130,GO:0051171,GO:0051246,GO:0051247,GO:0051336,GO:0051603,GO:0051704,GO:0051726,GO:0051781,GO:0051783,GO:0051785,GO:0051983,GO:0051984,GO:0052547,GO:0052548,GO:0060255,GO:0060429,GO:0062033,GO:0065007,GO:0065009,GO:0070013,GO:0070646,GO:0070647,GO:0071704,GO:0080090,GO:0090068,GO:0097159,GO:0098588,GO:0098805,GO:1901363,GO:1901564,GO:1901565,GO:1901575,GO:1901800,GO:1901970,GO:1901987,GO:1901989,GO:1901990,GO:1901992,GO:1902099,GO:1902101,GO:1902494,GO:1903052,GO:1903364,GO:1905368,GO:1905369,GO:1905818,GO:1905820,GO:2001252 |
| Exons | 7 |
| Evalue | 3.37e-172 |
| EggNOG OGs | COG0638@1|root,KOG0184@2759|Eukaryota |
| Ec32 ortholog description | Proteasome, subunit alpha/beta |
| Ec32 ortholog | Ec-08_004350.1 |
| EC | 2.3.2.32,3.4.25.1,3.6.3.8 |
| Description | The proteasome is a multicatalytic proteinase complex which is characterized by its ability to cleave peptides with Arg, Phe, Tyr, Leu, and Glu adjacent to the leaving group at neutral or slightly basic pH |
| Cds size | 768 |
| COG category | O |
| BRITE | ko00000,ko00001,ko00002,ko01000,ko01002,ko03051,ko03400,ko04121 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791604.943197-UTR-P-littoralis_Contig78:327404..328588 | 1680791604.943197-UTR-P-littoralis_Contig78:327404..328588 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig78 327405..328588 - |
| 1680791605.070678-UTR-P-littoralis_Contig78:344429..344509 | 1680791605.070678-UTR-P-littoralis_Contig78:344429..344509 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig78 344430..344509 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791604.9631517-CDS-P-littoralis_Contig78:328588..328763 | 1680791604.9631517-CDS-P-littoralis_Contig78:328588..328763 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 328589..328763 - |
| 1680791604.9765434-CDS-P-littoralis_Contig78:336970..337047 | 1680791604.9765434-CDS-P-littoralis_Contig78:336970..337047 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 336971..337047 - |
| 1680791604.9910073-CDS-P-littoralis_Contig78:338647..338744 | 1680791604.9910073-CDS-P-littoralis_Contig78:338647..338744 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 338648..338744 - |
| 1680791605.0042017-CDS-P-littoralis_Contig78:339294..339519 | 1680791605.0042017-CDS-P-littoralis_Contig78:339294..339519 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 339295..339519 - |
| 1680791605.0176923-CDS-P-littoralis_Contig78:340684..340809 | 1680791605.0176923-CDS-P-littoralis_Contig78:340684..340809 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 340685..340809 - |
| 1680791605.033309-CDS-P-littoralis_Contig78:341619..341667 | 1680791605.033309-CDS-P-littoralis_Contig78:341619..341667 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 341620..341667 - |
| 1680791605.0471056-CDS-P-littoralis_Contig78:344408..344429 | 1680791605.0471056-CDS-P-littoralis_Contig78:344408..344429 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig78 344409..344429 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig78.74.1 >prot_P-littoralis_Contig78.74.1 ID=prot_P-littoralis_Contig78.74.1|Name=mRNA_P-littoralis_Contig78.74.1|organism=Pylaiella littoralis U1_48|type=polypeptide|length=256bp
MSSTGAGYDLSATTFSPDGKIFQVEYATKAVENSGTALGVRCKDGVLLAV
EKLLISKMIVAGSNRRVHGVSKHVGMAVAGLGADARQIVYRGRDEVAGYI
ENYGSQMPPSMLADRLAQYVHYFTLHGSLRPFGASVLVAGYDVELKRHEL
YVIEPSGVMYRYFGAAVGKGRQGAKTEMEKLKFEDMTCKEAMKQVCKILH
VLHDEAKDKPFELEMSWVCEETEWKYQAVPQSQIKEAEEWAKASIESDEM
DDGED* back to topmRNA from alignment at P-littoralis_Contig78:327405..344509- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig78.74.1 ID=mRNA_P-littoralis_Contig78.74.1|Name=mRNA_P-littoralis_Contig78.74.1|organism=Pylaiella littoralis U1_48|type=mRNA|length=17105bp|location=Sequence derived from alignment at P-littoralis_Contig78:327405..344509- (Pylaiella littoralis U1_48)
AGTCAAGCCTTGTTTATCTTGTGTCGCATCCGAAAACAGAGTGGCAACAG
GAGAAACAAGAGAGAGCTTGGCAGAACAAGATGAGCAGCACAGGAGCAGG
GGTAAGTGGAGCTTGTAGTTGAAATGGTGGACAGAGATACAACACGCCCA
CACCGCAGCAGCAGCAGCAGTAGCAACAACTATGCGTGTTACGACCACTT
CATGTGGTAAATGTAGCTTCTGCTACACTTCACACTTTGTTGTGTAGCAG
CCGCGCACGAGCAAGATATCAACAGCCAGTAAGTGTGCGCGCCGTGAACG
TGCAGTGCGGATCAATCCAAGGTGCACCCTGTCCCACCGCCGTCGTGATC
CACTACCCCCACCACCCGCTTTACAGCAGCAGTATCTCTCCTTTGTCGGC
TTCTGACGTTTGGCTGAAGGATGACTGTATGGAAAGAGTGCAGGTGTTGC
AGCAGTACCAGTGATGTGCGCCATATTGTTGGATCGTACTCCTGTACCTG
ATACATGCTTTATTATATTTCGTATCAGAGAATACGACAAGACAGCAGTC
AGGAAGTTGAGCGTCCTTCCAGTCGCTCTCTCCCCCCCTTCCTCTCTCTT
TCTTCCTCTCAACGTGGTCGTGCTCGTGTTGCGTAGTAGAATACGGTGGT
ACAGCAGTGCTCCGAACGGCTTCGTGCTGTTCCTGCAGCACTGGTGGTCG
ACTCTCGCACTCCGCGAGAGCTCTTCACAACACGAAACGAGCGCTGGTGC
ACAGCAGCAGTATATACAGCGCAGAGTTAAATCTGCTGCATCAAGCGCTG
CGCCACCAGCAGCTGCAAGTGTCCAGCGTGTGCTGGGTGTCGCATCGCTC
AGTGACACAAGCGCCCATTTCTCATGGGCTCTTCATCTGCCTCAACGAGA
GTAAGCCTCAAGATCAAACTCAGCATGAAAATCAAAAGCTTCCACCCCGA
GAGACCAAGCCTCAGCCTGACGAGACCACAGCAATCATCTGCCGTCTGGA
AACGTTAACGTTTTGCTCTGCTTGCCTTCACTGCTGTTAGTTGTAGAACG
ATACCTCCAGCTTCACTTGTGTGAAAGCTGTTTCTCGTAGGCCGTACGAG
CAATACCCCTGCCCTCTTCGACTCACTCTGAGTCATGCCGAACGCTAGTC
GTGTTGAGGCCAACACGCTTGACACAGCAGCCGTCACGAAAAAAAAAATG
CACTGGCATGTGTACTCACTTTTGGGGAATTGGCTGTGCTTGTAAAAAAA
AAGCTGGAAAAGAGCTGTGTGGACGAGGACTGAAATCACGGCCAGTTTCA
GCTTTTGTACGGTTTGCATGACTGTTGGATGGTTTTTCTTTCACTCTAAA
CAATTACGGTATTCGCGCCACTGTCGTTGAACCTGATGGTGCAACTAGTC
AACCTGTTTATCGGATGAATATTTCGGGAGATCGTTTAGATTTCGGATAA
GTATCATGCCATAACGGCGGTGCGTCTCGCATCATGTCGAAAGTCGAGGA
ATGACTTCGAGCTGCCTGCGTTGCCAGGCCACCGCAAATGTCGATCCACA
CTGCGGTTGAGAACTTATGGAGGCTTCCCTGACGAGGATTCGCACGTCTA
CCAATAACAGTAGGGTACCCTCGACGAGGCTTCGTGACTCCTCCGATCGA
TTCTGTTGTAAGTACTTGGTGCATCTTGAGGCAAGAGCTAAGGAAAAACC
TTCAGCTAAGTAATTTTTAAAGGAGTTAATAATATACTGTTGTAGAATCC
TTGAACCATTAAATGATCTCCTTCCAGGTTACCAACTACGTATCTGCATG
GATATGATCTACACCACACATACGCATCCATTTACAAATAACTTGGAAAT
TAACAGCATGGTTTTTTGACAACCAGAAGGAGAGCATTTTCTGGTACTTG
ACTCAGCAGTCTTTGTCAGACCCATCGGCATTTTGTGTCAGTCGCGGCTC
ACAAAGCCCTGCGGATTTGCACCCTGCGACTTCTCAGTGGAGGTCGTGAG
GCTGAGTTTGAACTGCTGTATCGTAAACACTTTTGACGTTTTGAGTTCAG
TCAAGAAGTCTATCCGACCAAATTTTGATTTCAGTAGCGGCCCGAGCCAG
TTCCCCACGCGCAACCACAGCTCCCAAAACCGATGCAAAGAGTGCCTCAT
TCCCAGGCAGCAACAGCATGCAGACAGACACGACAGATGTAGGTGACTTC
GTGAAGTCGGAGCACCTGATTGGAGCATGAAAAATGGGGGTGAAAATATG
CAGATCTGGAAAAGCCCCCCTTATTCCGACGAAGCCTAACACCATGGGTA
CAGTCCCAAACCAAGAACGGAATTGACTTAGATTCAGCTGTGCCCATGCC
GTGTTTGTGCAAAATGCCGATGGCGTGGGCTCACATAATGCAGGGTAAAC
TTTCACGATTCTGGCAGCGGTGGTTTAGGATTGGCACCCAAAAACACCGC
AATGGCATACACAAAGTTTACTAAAAGAGGCTTCTCAGGCTCGCAGACTT
CTGTGACCGTCGAAAGGATCGAATAAATCCCTCATTTTTCAAAGTCGGTT
GGTACCCGATGACGGAACGATCTCTCTATGGATATGAAACTCTACGAATG
TTCTGTTTAGTGCGCATGCTTTCCACTGCTGTCAGGTAGGCCATAGGTGT
CGAGCACCTCTCTTGACGCTGTCCTCTTGTTTTAACCGCCGCGCTCGACT
GCTGCTGCTGCTGCTGCTGCTACCTTGTTGGTTGTTCGCAAACCGTGGGC
GTGTAACTGGACACATGGATAACTGGACACATGGATGGGCAATCGAAAAA
TGTGGATGGGGTTGGACGGGTTTAACTTGACTTGACCACCAGTACGACCT
GTCGGCGACAACCTTCTCGCCAGATGGAAAAATATTCCAGGTAAGGGAGA
GAGATAGAGGGAAGAGATATTGGGGGGGGGGGTGGTGGGGGTGTGGAAAG
AGCGAAATGGTCCCGCGTTTGCGTGTGCGTTTACTCCGTGTACTCCGTAT
GGCAGTCTACGGTAGCAGTACTAGAAAGGAAAAGCTGGTGCTGTGCTCAA
GTTGTTGGCGCTCGTGCATTTCCTCAGCACGGCAAATTAGTTGAAGGAAG
CAGTACTCTACAGGGGAAAACTGATCCTACTCAAGTTGTTCGTACAAGTC
TCACGTGCGGAGTAGAGCCGCGAATGGTCCGTGTGCACCTGTACGGGTGA
ACGGCAGCGTACACAGGGACGGTGTTGGTGCACGGTGCGGCAGCAGTGCG
GTGCGGGAACTCTGTTCGCGCGAGAGTCTCATCTAGCTGACTGCAGTGAA
TACGCGGAGCGTTCGACGACGTTTACACCAGAGTGTACGGGTACGGCACG
AGAACAAGCCGCTGCTACTGCATATTGTAGTGGGACGGGAAGAGTTGACT
CAACGAGAACGAAAAGCATTCCAGTACGGCGGTGCATGGTGGTACGGTAA
GCACAGAGAAAATACGGTAAACACAGAGAAAGTACACAGAAAATACGGTA
CACACAGGAGAAAATCCCCACTCGACGCGTGTATGAACAAAGCTGCTGGG
TGTGCTATCATGGCTCGCAACTTGCGCGTGTACGGTATGATGGGCGCGTT
CGACGGGATGCCGTTTCTAGCGCGCGACGGTGATCGACGACCGTGACGAA
CTCCTATCGTCTGGCCTTTTTGGCGACAACAAAATGAAATGTTGCAACAG
GTGGAGTACGCGACGAAGGCGGTGGAGAACTCGGGCACCGCTCTGGGGGT
GCGCTGCAAGGATGGAGTGCTCCTCGCCGTGGAGAAGCTCCTCATCTCCA
AGATGATCGTGGCGGGATCCAACCGGTGAGCGCATCACATCAATGCATCA
ATGCAGGACACCTGGTGAAAGTCGTTCGACGCCGAAAGCAACGGAGGCTC
AATTTTTCCGCGGGGAAATTGTAACATTTGGGCAACAACAACATCATCGA
CAAATGTCAAAACAACGAGAATAACAAGAACGAAACGCTAACCACATGTG
TTGGTCCCTACAGGAAAATCGCGTTTTTATTTTTTTTATGCACTCAAAAT
GTAAGTTTGGAATCACAACCCCAGACGATCCCCCGCATGGTATTCTGTAC
AACACCTCAACAGCTCCTGGCACAGTGCCGATCCCTAATTCTGCACCCGC
GGAATAGGATACCTGATCTGTTTCCCACAGCATGGCAAAGCACCAGGGTT
GTGGGTGGCTTGTAGCAGCTGAACCTTAGTGCCAAAGTTCGTGTAGGTGT
GGTTCCAGGCTAACACGCCTACAGAGATATGGTCATACATATGTACAGCA
GTCATATAATGGAAGAATCACACATACAGCAGTAGGTACGAAGCGTGCAG
CAGTCTACATACACGTACAAACAGCATTGTATCATATATGGAATAAAATA
GGGGAACAGAGGGGATTTTTGGCCCGATTCGATTGTGTTGCACTCCTCGT
TTTCTACTGCTGTCGTGCCGATCCCTAATTCGGCACCCATCCGAGTCCAT
CTACCCATGTGACTGCCCACACTGCCAGAGTATGGCTTCATTTGGTTCAG
TACAGCACCTGAACCTTTGGCGCAAATATGCCCCTATGCTAGCATGTGCT
TTCACGGGTGCAACTGCCACGCTGGTGGCGTGACCTCGCAACATTCACTG
GCAGCACGACGAGTGTCACCCCTACCGTCAATCTTAGCGCCCGCAAAATA
CTCATAGGCCAAGACTTTGGCTCTCTCTAGCCCTTCCGCGTGTTTCGCGC
TGGACTCTGCTCTCAGCGCACAGCTTTGTGTTGGTGAATGGTTTGGTCTC
CCTGTACGAAGTGGCGGCCTAGACGGGGGGGGCTGAAAAGTTCAAAATTC
CCGTCAGAGTAGAACGCCTCGCACTTTGAAGACATTTTTTTTGTCACTTC
TTTGGGGACCAACACATGTGTAACACCGACGCAAACCGGACACACACACA
CACAAAACACATGCATGCACGCCCGTATCCTGCTGTACAGACGTGTACAC
GGGGTTTCCAAGCACGTGGGCATGGCCGTCGCGGGCCTCGGGGCCGACGC
CCGGCAGATCGTTTACCGCGGGCGCGATGAGGTCGCCGGGTACATCGAGA
ACTACGGGTCCCAGATGCCGCCGTCCATGCTCGCGGACCGGCTGGCCCAG
TACGTGCACTACTTCACGCTGCACGGCTCCCTGCGGCCGTTTGGGGCTTC
GGTTCTCGTCGCGGGGTGAGTTGAGTGTGTGTTTGGAGGGTGTTCGAGTT
GAGCCAGACATATGTATTTTTTTTGCGAGAAAGCAAGGAAGCCAGCGAGC
CAGCGACAGCTCCGAGAAGGGGGCTCTTGTTGTTGTTGTTGTTGTTGTTG
GTGGTGGTGGTGACGGGGGTGGGGTGTTGGTGTTAGGTATGGCAGTAGTC
GTGATGGTGGTGTCGGTGTTATTGTTGTTGGTGTTGATGTTGTATGCGGC
TGTTGTCTGATCGTTGTCGTTGTTAACAATAAGTGTATAAATAAGCGCTC
CTTGTTTCGCGGCTCATAGCAAAGAGTCGAAGCAGCAGCCCGTCGTTACA
GCAGAGAGCCCTAGAGCTTGACATACCGGTGTGATAACGAGACTGTTCGT
CACGCCTTGTTTTTATGTTTGTGCTTTTTCCGTTTGCGTTGCCGTCACCG
TTGCCGTCACCGTGACCGTTGTTCGTTGACAGCACGAACAACGTGGAGCC
GAATTTGAGCGTTTTATTGGCTTCCTGTTGTGTATTTCGTGTCTTTTGTG
TGTTTTCGTTGCCAGTTACGACGTGGAGCTGAAGCGGCACGAGCTTTACG
TGATCGAGCCGTCGGGAGTGATGTACCGCTACTTCGGAGCGGCTGTCGGA
AAGGGGCGCCAGGTATGCACACATTTTACACTTGTACAAGTAAACGAAAC
AGAACTTCCACGCTTGCAATTCCACGTGTACTTCGAAGTATCATACGTAC
CATGATATTCTTCGACGTGCTTTTTTGAAATACATTTCCACACTCGTTGT
TGCATACTTCGAGAAGTACTTCGTGTTATTTTATCGACACTGCTCCCGTT
TCCAAATAAGGTTCGACCTCGATACTGTACTACTATAGGGTCTCCACCAG
AACACGTCTCTCAATATACGCTTTTGGGTTTACGCTTTTCCTCAAGTGAC
AGTTGAAATTTACACTTTTCATGATCGGGCCGCTTGTAGCTCTTGGCAGT
TGGCGGCCACCATAAAGAGTCGTTTTATGTCGTCGTTGGAAAATACAAAC
ACATATGGTACGAAGTATCAAAGAGTCGTTCGTTTGTGTTCTGTTGGAGT
CTTTTCTCTACTTGACGGAGATACGCATGTCATAGCTGTATTATTGTTGT
CTAATGCTTCGTATGATACTACTTGGACACGAGGGGTGAGACACAGGAAA
CAACATACTACTACGTGCACTAGGCCGTAGCAGCGGTTCTGCTTCACCCC
GCGAAAGTCGAGGCCATAGCGCATCGTCACCCACGCACAAACAAACAGCA
GCAGTATAGCAGCATGTATGTATGTGTTGTTGTGTGTGTTGTGTTTTGAC
CGCGGAGGAATCACATTTTGTAGCATGAGCAATGAGTAGCAGAGAAGCAG
AACCGCACCAGACGGAGCAGCGGCGAGCGATTCCAACCCACCCTGCGCAA
GCCGAGGCGTGGCGCAGCATTACACAGCTAGCTATCTGTACAGACAGGCA
GGTAGATGCATGTCTCTGTGACCGCCGCTGCGGGTGGGTGGTGGTGGCGC
TGGTGCTGGTGCTCACAGCTGCTGCCGTGTCATCATCGTGTGGGAAACAC
CAAGAAGACAGGAAGAAATCCCCACCAAGCTATGTGCACAGCAGACTCAC
ATACCACGTCTGTGCTAGGGGTGTACCCTTGCTGGCATACATACTTGGAC
AAGTGGCTACCTTGGGTGAAAGGTTGCTGCGGTATGCCCGTCGTATATTG
TCTTTGCCCGTGGTGTGCTACACTACAGCAGCAGCACCAGCAGCAGTGGG
AGCATCGTTGTGTGCTTCCTTTTTTTTCTAGCAGCTAGCTGTGCATCGTG
CGTGCATACGGCAGCAATACATACTTCAAGTATTTCACATCATCTCTCTT
GTTCCCGCTGGTTCATACCAACCAGGAAGATCCGAACGAACGGAAAGGTC
AAAACAGCAAAAACGTAAAAAAAGCACACCTTTCCCGAGAAAAAAGTACG
CGGTTCCTTGGAGCAAAAATACGTTTTAAAATTGCGGCGTAATTGGAAAG
ACTTGAATTTGAGCAAAAACGTTTTTAAAAGCGTAATTTTTTTCTGGTGG
ATACCCTAGACTATGGAGTTATTTAGACTCAAGAGTAAATTCCTCACAAT
AGATTGGGAGCGTTTTTCAAATACGATCAGTAGGGTTCACACGGTGAACG
ACAAACAGACGACTGCCGCCCCTTTTTTCATGTACGATTTTTTTTTTCTT
ACTGGGACTCAGGGAGCAAAGACGGAGATGGAGAAGTTGAAATTCGAGGA
CATGACTTGCAAGGAGGCCATGAAGCAAGTCTGCAAGATGTGAGTGCTAG
ACCGTGTGCACTGCCGTTCTGGTGTGTAGAGGTACGGCGTGGGGTGCGGG
AATTAGTGAAGCACACGCTGCCTAGAGAAAGAAGGAGCTCTAGTTTTCGA
CCAACAGCCCTTCATGCACGAATGATTTGCACCTCGTCCTCTAGAGAGAT
CGGAATTTCCTCTCGCCTGTGTTGTCGAGGTGATGCTGTTTTTGTGTGTT
TCTTGTTTCGCTTTGGATCTTCTATGTTCTCGCCTTTTTTCTCTCTCACC
GACGGTCTCGACGGGCGTCTTTTCTCGCGGACAGCGACTAAAGAGTATCT
TTGTGGCGTGTGCGTCTGTCTTCCCTGACTGGCGTAGAAGATTTCGGGTA
CAGTACATGTCAGGGTGTACTGTGTCTTGTCATCATCTCCAGCTCCTCGC
GGGACGGAGTGCCCTGTAGATATGCCTTCATGTGACGACAGAACTTGTTT
GTCCTGCCTTTGTGGATCCACACGGGAAAGGCGAACGTCTGTTACATTAC
AGAACTTGTTTGCTTTGCCTTTGATGAAGGTACTGTGTAGAGGCGAACGT
CTGTTACATCACACAGCAGTGAACATTAAACTTCGTGTATACAGCAGTGA
AAAAAACAACACAACTCGAAGACGTGAGATGATTCGGTAAGAGTTACCAT
GAAAAATAGGTCGCACCGAAGGAGGGGCTCGAACCTTCGACCACGAGATT
AAGAGTCTCGCGCTCTACCGACTGAGCTACTCCGGCTTGTGACAGGTGGA
TGCCAACGGGAAACCACTAGCGCCTTTTCATGGAATAATTTTGTCCTGCT
GTCTCATGGGATAGCGTGGAGATCAAAGGGTTGTGTGACTGCTGCCAAGA
AACGGGCGCATTGAAGGAGGGGCTCGAATCCTCGACCACGAGGTTGCGCT
CTACAGACTGTGGTAGATGCCCATCTATAAACATAGTACGTACGTTCTCG
CTGAGACAAGGTGGGGACTAAGGGCGTGTCGTAAAAAAAAAAAGAGGTGT
GGAACATGGAACGTGGAACGTGGAACCTAGATTCCTCGTTCCCTGTTCCA
CGCGTTGTGTCTTGGGAAAAAAAAACTATTTCGAAATGAAGAACGTGGAA
CGGGTTGCAAGCGAAAAGCCTGAGGGTCGCTGCTGTGGTGCAAGTACAGA
AGAAGTACGTAAAATAGCAGTACAACAACAGCAGCAGGGAGTACCGTGGC
TGTTGAGAGTTATTCAACACCACGCACACGCACGCACGAATCCGCCCATC
TCCCATCTCTCGCCCACAGAGCATACACAGACAGACACAAACATACACAC
AGCACACACAGCATAGCACACAATGGTGTGAGAGACGGTTACATGTCGGC
CGACCGCAGTCGTCCGCGGGCCCGTTTGGCCAAAAAGCGGATGAACAAAC
AGACGGAGAGGTGTGAGATGCGTTGAACATTTTTGCTCTGCTGCTCTACT
TGATGCTGCAGTGCGGTGACTTTGTTCATCCGAGTGAGAGGGCTTATTAT
ATATTACGGTTAATTATACGCGTGGCGCTAAATTAGGCGGGGTAGTATGG
TTGTGGGGGGAGCTGGCTGTGCATTTGTGTATTTGTGTGTTTGCTTTGTG
TGTGTGTGGTATGGGTTTTGTGGTCAGATAGCGACCTTCACGTCGACGCT
GGCCGGGAGTGTCGTCCCCAGCCCGCCTGAACGTAGACGAGTACCGAGCT
TGGCAAAGATGGATAGAAGGGAGGAAAATTGCAGCTCGAAAGAAACGGAA
CAATAGGGAGAAAGCTGCCGGAAACTTGTTGCCCCGCAGTAGCCCTAGCC
CGTCCCACACAGGCTTTTGAACAATTTTAAGGAACGGAGACCTTCCAATT
ATTTTGGAGGAGGGAACGAGGAATGAGGAACCCCGGTGGCCGAAATTCTT
TCCAGGAACGCTTTTTGCTGAGGTTGGTCAATCAGAGAATTTTTCTAAGA
GAGCTTTTCTAGGTTCCACGTTCCACGTTCCACGTTCCACGCCTCGTTTT
TTTTTGTAAGACGCCCTAAGCGAAATCATCGAACATAAGTGTGGACGCGG
GCGAGGATGTGATGTGAACTGTTCCCTCGAGAGACGAAAAGCACCGAAGG
AGGGGCTCGAACCCTCGACCACGAGATTAAGAGTCTCGCGCTCTACCGAC
TGAGCTACTCCGGCTGGCTGTATGATCATTCGTGATAGAAAAATGGAACT
GTATTCTTCGAATAATGAGGTTTCCGCTGTCTCATGGGATATATGGTGGG
AATGAAAGGGTTTGGTGATTTCTGCCAAGAAACGGACGCATTGAAGAAGG
GGCCCGAATCCTCGACACAAAGACATCGCGCTCTACAGACTGAGCCCGCT
TGCTCACAGGTGGCAGAGGCCCTCTTAAAATGGAAATAGTGTAAATCACG
AAGGAATAGCTTCTCGCTTGGGCTGTCTCGCTTATAAGGGGATATCGTTG
AGATTCTGTGCAGGTGATAAATGGGTTGTAGACTGGGTGGGAGGATACAG
CAAAATGAGGAAATTATTTCCGACTTGTCCAATAGAGGAGCAAAACGCAC
ACCGAAGGAGGGGCTCGAACCCTCGACCACGAGATTAAGAGTCTCGCGCT
CTACCGACTGAGCTACTCCGGCTCGGACGCGAGGCATAGATTAGATCATG
AGACAGTGTGTGTCATCAGGAAAGAATTAGGTTCCGGCTGTCTGTCCCTA
TGGCGTGTGGAGATCGAAGGGATCGATGATTATTGCCATGAAAAGAGCGC
ACTGAAGGAGGAGCTTGAACCCTCGACACGAGCACGAGATTTCTCGCGCT
CTGCCGATTGATATACTCTGGCTTACGTTGGGGCATGCCCGTCTCGAATA
AAAGTAGTGTGGGATAACGGAAGAAACATGTGCCGCCACATGGTGGGTAA
AGTTGAGATTTTTACCAGGTTCATAAAATAGGGTGGACATGGTGGAGACG
AAGCGAGGGGACACAATTAAAATTACGACAAAACTGTTTTGGGGGACAGT
AAGTAAATACAAAACCATCCTGTCATGGAGCGAAACGCACCGAAGGAGGA
GCTCGAACCCTCGACCACGAGATTAAGAGTCTCGCGCTCTACTGTACCGT
CTAAGCTACTCCGGCTTGGATGTATTTCCTGGCACAGGCCATGAGCGAAT
GTGTGCAATCACGGAAGAATAATATTCTCCGTTCCCTCGCTGCCTAGGTA
AGGTCTGCTGTAAGCATGGCCCAAAGCGAATTGGGGGGGTCTTTCTGGCG
GGTGTAAGGCCGGACTCACCCTCAAGGAGTGATGCCTTCTTGCTGCTGCG
CTGTAGTCGAACGCCACGGGCGTGGCGGTAGAGTTGGGTCGCAGTTGGTG
TGCCAGGTGCAAATGTGCGGATTCGCGGGCCTTTTGGTTACAGCGGCAGT
ACAGCAATGTACATCACAAACATTTGTGCGCGGAGGCAGGCGACACCACA
GGTGAAATGACGGTACGATCTAGGATGCGCAGAGGGATTGTGCCGTCCAG
TGATGGAGGTGACCTAAGGCAACGCCGGCAGTGAAGAAGCATTACGAGAG
CATGGTGCTGGTGATGTGGCCTTGGGCAACGCCAACAGCAACGTGGACCC
AGACAAGGAGGACATCTTTAGGACGACATCATCACCAGCGTCGCAAGGAC
GGCATGGAGACACCATCCTCGACAACATCTGATGATACGTTTGTGTTTTT
GTGTTTTTTCTTTTTCTGTCTTCTCCGATTGCCGGGGCTACTTGGACGTT
GCAGGCAGCACTCCAGACAGCAACTAACTGCTGTAGTCTTGCAGCTACCT
ACTGGCTGCTTGTACAGCAGGTTATTAGTTGTAAGTGGGGCGGGAGGAGA
CTGAACACGATGTTGTAGTCAAATGAACGACGCTGGAAGTACGTTTGATA
TTAGTAGTTTGATGTTGGTACTGCTGTGACTGCTGTAGTTCAGTGATGCA
CACCGCGTAGGAAGGTGTATCTTCTTCGGTCTTTTCTTGGTACCGGTATT
CCCTTGTAGTTTCTTTCTGTTTTTTGGATCTTCCTAGGGCTCAGCACTTT
TTGTGACCACGGGCTAGATTTTGGCGATGAGCTAATGTGAGAATCAACAA
CAATCAACGGTAAGAACCCCGCTGTCTATCTCAATGGGGTAGACATTGAA
GGGATCGGTGACTGTTGCCAAGAAAGAACGCACTGAAGGAGGAGGTTGAA
TCCTCAACCACGAGATTCTCGCGCTCTACCGACTGGTACTGTATCGCCGG
CTTGCTGTGGGGCACACCTGTCTCGAATAACTTCTAGGCGATTTATTGAT
CAAACAATATTAATCAATAATTTTCTTTTTTCGTTTAGCCGGTCTCTTCA
GGACGGGGACAGAAACAAAAAATTCCTGAACCCCATCAGGTTGGGAGTTG
AGCAGCATTCCGGCTGCACTCAGATACGGGCAAGAGGGCAAACAAACACC
GCTCACTCCTGCTGTGTGTGATCAAGGGGTGTGAGGGTGCCCAAGACTCT
TGTCAACATAATAAATTCCCGGCATGTCAAAACCTGAAAATCAGTAGTGT
GTAGTATCAGCAGTATACACTTCGCAATATCATATTTTTCTGGAGTGCAA
CACCACCACCAGCAGTACAGTATAGCAGCACTCCTCCTACTACAAGTTCT
GCTGCCGCTGCTGTACAACAATACATCACATGCCATATGATACTTCCTTC
CTTGTCGGTATTACACAACAAGCAGGAGCAGTAGTAGAATAATCATACTT
CCTCTATGTATCATGCGTACACACTGCTGTAGAGATGATGGTAAATTATT
ATCTTGCTTGGTCAACCCAGCGATAACAGCAGCAGCAGTAGATACATTCT
GTAATCATATATCTCATGCGACACATGGAAGAGCAGCAGTGATGATTACG
ATGCATTTATTTGTCGCGCCAGAAGAACCGCGATTGGTTGCTAGAATACT
GCTACTACTGCGGCTGCTGCTGCTGCTGCTACCGCTACCAGTACCAATGA
TGTGCCTACCTGTACCTATGTGCGAGAAGGAATGGCCGGCCTTCAGGCCG
GCCGCAGACCACGGGGGCCCTACCCAAAAGTGTATTTAGCAGGCCGGGAG
CTACAGCGGGAAACGAGTAACTCCTTAGCAGTAAATCTTTTTCCTTATTA
TCTTGTTTTGAGGGGACTGGATACTTTAAGCGCTATTGATGGGTATAACG
CGTTCCACGACGCCTGAGAGCTAGCCGCGGCATCTCGACCAGCGGGTACC
CCTTCTGTACTCTCCAGGGACGTAACCAGCCGGCTGTTAGCCCTCGTCAG
GGGCCCTGGCTGTATATCTGTGAGGTGCTGATGTTTACATTTTCTCTTGG
TTTCGTGACTGCTGTACATTTATTTGAGCTACATTTTCCCCTTTCTTTTT
TTTCTCGGGGGAACATCGTTTGGTTCTGATACGGAACCCGGGCTGTTCGT
GTGCCAAGACACAAAATACCCTGGTCCCAGAAGGGTTAACGGAAGAAATA
ACTTCCGCTGTCACGTGGGGAATAACGTCGAGATTATATGCAGGTAGATG
AAATGTGTAGATGGCGTAGATGTAGCCAGGACACAAGTAAAAACGAAACC
GTCCTGACGAGGAGTAGAACGCAGCGAAGGAGGGGCTCGAATCCTCGACC
ACGAGATTAAGAGTCTCGCGCTCTACCAACTGAGCTACTCCGGCTTGAAT
GCTGCGCACGTCTCAGGCTGTGAGACACTATCTGCAATCAGGAAAGAATA
ATAATCCCGCTGTCTATCTCAATGGGATAGACATAAAAAGGATCGGTGAC
TATTGCCAAGAAAAGAGCGCACTGAAGGAGGAGCCTGAACCCTCGACCAC
GAGATTCTCGCGTTCCACCGACTGATATGCGATGTTCTCGTGTCGAGGAT
TCGAGCCCCTCCTTCAATGCGTCCGTTTCCTGGCAGCAATCACCAAACCC
TTTCATTCCCACCATATATCCAATGAGACAGCGGAAACCTGATTATTCGA
AGACTACAAGAGCATTTGTTTCACAAATGAGTAGCATGTAGCCAGCCGGA
GTAGCTCAGTCGGTAGAGCGCGAGACTCTTAATCTCGTGGTCGAGGGTTC
GAGCCCCTCCTTCGGTGCATTTCACTCCTCGACAGAGTGGTTTCGTACAA
AACAGTTTTGTCGTGAAGTCAACTGCTGTGTCCTCGCCACACCTACACCA
TCTTCATATTTTATCTACGTGCACACAATCTCGACGTTATCTCCACGTGA
GAGCGGAACCTATTTCTTCCGTTAAACAAACTTACCCCGGAGTACTATTT
TCGAAACAGGCATGCCCCACAGCAAGCCGGGGACTGAGCAACCCGCTTGC
TCACAGGTGGCAGAGGCCCTCAGGATAAAAAGTTTGTTTAACGGAAGAAA
TAAGTTCCGCTGTAACGTGGGGGATAACGTCGAGATTTTGTGCAGAAATA
AAATATGTAGATGGTGTAAATGTAGCAGGGCCATAGTCAAATTCAATACT
TCGAAGTACGTTTTTTCCTGTTTTAACACTTCTGGGACCAGGGTGTTTCG
TTCCTTTTCACACGAGTAGCCCGGGTTCCAAATCAGAACCATACGATGTT
CCCCCGAGAAAAAAAAATATGGCTCAAATGTCCCTTTCCAATGAACAGCA
GTCACGAAACCAAGAGAAAATGTACACAACCGCACCGGAAAGATATACAG
GCAGGGCCCCTGACGGGGGCTCACAGCGGGCTGTTTACCTCCCTGGAGAG
TACAGAAGGGATACCCGGTGGTCGAGATGCCGCGGCTAGCTCTCAGGCGT
CGTGCAACGTGTTCAAACCGTCAATAGCGCTTCAAGTATCCAGTCCCCTC
AAAACAAGATAATAAGGAAAAAGAGTTACTGCTAAGGAGTTTCTCGTTTC
CCGCTGTAGCTCCCGGCCTGGTAAACGTACTTTGGCGTAGGGGCCCCGTG
GCTTGCGGCCGGCCTGAAGGCCTGTCCTTCCTTCTCGCACATAGGCACAT
CATTGGTACTGGTAGCGGCAGCAGCAGCAGCAGCCGCAGTAGTATTCTAG
CAACCAATCGCATGTACCTACATATCTACATACATGCTGCTGCTGCTGTT
GTCGCTGGGTTTTGACCAAACAAGATACTTCGAAGTAATAAATAAGATAC
CATGATGTATCATACATAGAGGTATGATATGACTCTCTACTACTATACTG
CTCTTCTTGCTTGTTGTGTCATACCAACAAGGGAGGAGGTATCATATGGC
ATGTGATGTACTGCTGAACAGCAGTGGCAGTAGTAGCAGTAGTTGTAGGA
GTAGTGCTGCTATATAATGCTGGTGGTGGTGTTGCACTCCAGAAAAATAT
GATACACTGCGAAGTGTATATTATACTGTATCAGACGAGATAATTTCAGA
TTTCGACATGCCGGGGATTTATTATGTTGACTGAGTCTTGCTGGGCACCC
TCACACCCCTTGACGACACACACAGCAGCAGTTGTGAGCGGTGTTTGTCC
TCTTCTTGCCCGTATCTGAGTTCAGCCGGAATGCTGCTCAACTCCCAACG
TGATGGGGTTCGGGAATTTTTCGTTTCTGTCCCCGTCCCGAAGAGACTGG
ATTGTATAAAAAAATATAATATTACGATTAATTTTTTTGATGCATTTATC
ACCTCAGAAGTTCCAGAAGGGTTAAAAGAGCGAGCAAGTAGACGCAAAAG
CGTTCCACCGAGGAAGAAATCGCGCACCGAAGGAGGGGCTCGAACCCTCG
ACCACGAGATTAAGAGTCTCGCGCTCTACCGACTGAGCTACTCCGGCCTA
GTGTTGGTCCCCTCGGAAAATACCCATCCTCTGGCACAAGTCGTTCATTT
TTTCTTATTTTTCATGAGCACGGAACGTTGTGGGCGTATGATGCTGCGGG
GAGGCAGAGCTGTTTTTTTCAGTGAAGACAACGACCTACTTTTTCCAGGA
ATATGCGGAGGATTGTCATACATACGACAAACCCAGGCCTTCTTGACGAT
CCGTTGCGTGATGATCTACTGTCCCTTATTTTGTGGAAACCCCGGGAGCT
TTGCGAAACGCCGCACGCCGATGCACGGGGCACAACAAGCAACTCATCAC
AAGCTACACCCCCCGCCCTACCCCACCCCACCCATCCTCCTTCCAACTGA
CTATTCCCCCCCTCCCTCCCGACCATATTTGCATGTTTCGATTCAGCCTG
CACGTGCTTCACGACGAGGCAAAGGACAAGCCGTTCGAGCTGGAGATGTC
GTGGGTGTGCGAGGAGACGGAGTGGAAGTATCAGGCGGTGCCACAATCGC
AGATCAAGGAGGCGGAGGAGTGGGCCAAGGCGTCCATCGAATCGGACGAG
ATGGATGACGGGGAGGACTAACAGATTGTAGCATTCGGGGGGGTGGAGCA
CGGCATTTCTTTTTTCGGAGGAGGCGGATTAACACAGCGTTTCCTTCGCC
TGCGTTGCTTTTTTTTCACGTGGCGCTCTACCGACTGACAACGCCGTGCC
CTTCGTTGAGCGTGGTTTGTTTTGAGAAGCTGGAAGTGTCATGCCAGTTT
CGTGGGTCAGGCACGTGTGTGTTTATTTCGTTTGCTGTACGTAGTCACAG
CAGCGTGATGCGTGCCTCTCTCGGCGGCCGTAAAAAAAATTACTGTAGCC
GATGTGAATGACACTGTCTGTCAGCGAACGTGCCTGTCGGCGAATGAGCG
GATCGGTGATGGAGCCACAGAATAGATGGTGCTCTCGAGGAGGAAGGGGG
GGAAGAGGAGGATTTTTTATGAGATCGGCAGCAAGATCACGTGTCGCGGC
CGTCATCCCGCTCCGTAGACGTTGACTCACTTCGCCAGCGTTTGCGGGTC
TAGCAGTAGATGGCAAAGACAGAAACCACACAAAACTAAAAACTACGTTG
GCAATAGGACGCCGCCGTTTGCCGAAACACCAGCGGCATGAATCCCAGGC
TGATAACAATGGCAAACCACCGGAACAGGCACGCAGCCATGGTAAATCAT
TATGATGACAATGGCAAACCACCAAAAACAGGAACGCCGCCATGGGAAAC
CCGGGGATGAGAAGAGGTTTGCTTGCCAGCAACGTACGCATCCTACTTCT
ATTTGAAAAGTGAAAAGAGCAATTGGCCAACACCGGGATGGTTTTGTCAT
TTTTATCACCCGGGATATGCACGGTGGTATGGTGCAAGGAGACCCGACGA
TACATCAGGCCCTGCACCGTCACGTCCACGTGCACTGGCTGCACACGGCA
GTCAGTCGAGCGACCGGACCCTCGAACGCCAGAGTCACACACAAAATTCA
CCCCAGCGGTAGCGACGTGTCACATCAGGATGAAAGTTCCCGACTACATC
TACGCCCACGTGACGGTGCGAACGTCGTCTGAGGAATCCATAGGGAAGCT
CTCTTCTCAGAATGCCTTTGGCGCTCACGGGAGGAGGTGCAACTTGTGTT
CCAGTGAGCAAAATCTTTGCGCGGTAAATTAGATCTGGTAGAGCAACACT
CAAACTCGACGGAACGGGCACAGATTTCCTAGATTGTTCCTCGACCCCTC
CTGCG back to topCoding sequence (CDS) from alignment at P-littoralis_Contig78:327405..344509- >mRNA_P-littoralis_Contig78.74.1 ID=mRNA_P-littoralis_Contig78.74.1|Name=mRNA_P-littoralis_Contig78.74.1|organism=Pylaiella littoralis U1_48|type=CDS|length=768bp|location=Sequence derived from alignment at P-littoralis_Contig78:327405..344509- (Pylaiella littoralis U1_48)
ATGAGCAGCACAGGAGCAGGGTACGACCTGTCGGCGACAACCTTCTCGCC
AGATGGAAAAATATTCCAGGTGGAGTACGCGACGAAGGCGGTGGAGAACT
CGGGCACCGCTCTGGGGGTGCGCTGCAAGGATGGAGTGCTCCTCGCCGTG
GAGAAGCTCCTCATCTCCAAGATGATCGTGGCGGGATCCAACCGACGTGT
ACACGGGGTTTCCAAGCACGTGGGCATGGCCGTCGCGGGCCTCGGGGCCG
ACGCCCGGCAGATCGTTTACCGCGGGCGCGATGAGGTCGCCGGGTACATC
GAGAACTACGGGTCCCAGATGCCGCCGTCCATGCTCGCGGACCGGCTGGC
CCAGTACGTGCACTACTTCACGCTGCACGGCTCCCTGCGGCCGTTTGGGG
CTTCGGTTCTCGTCGCGGGTTACGACGTGGAGCTGAAGCGGCACGAGCTT
TACGTGATCGAGCCGTCGGGAGTGATGTACCGCTACTTCGGAGCGGCTGT
CGGAAAGGGGCGCCAGGGAGCAAAGACGGAGATGGAGAAGTTGAAATTCG
AGGACATGACTTGCAAGGAGGCCATGAAGCAAGTCTGCAAGATCCTGCAC
GTGCTTCACGACGAGGCAAAGGACAAGCCGTTCGAGCTGGAGATGTCGTG
GGTGTGCGAGGAGACGGAGTGGAAGTATCAGGCGGTGCCACAATCGCAGA
TCAAGGAGGCGGAGGAGTGGGCCAAGGCGTCCATCGAATCGGACGAGATG
GATGACGGGGAGGACTAA back to top
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