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Homology
BLAST of mRNA_P-littoralis_Contig676.21.2 vs. uniprot
Match: A0A6H5J9C4_9PHAE (Protein kinase domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5J9C4_9PHAE) HSP 1 Score: 292 bits (748), Expect = 1.590e-83 Identity = 194/525 (36.95%), Postives = 283/525 (53.90%), Query Frame = 1
Query: 7 MAMDVVSLISFSYEIGSALIKRCQDAKQCHTEATRIAVRTSRVLGSLESAAGEFSDQEWFETSMKELKKALEDAHDLVGKCKKPRTLNQKVIAVRRANTLRDGLQRAEAELERVMEDLKIPMQSDIKRAVADIGQRVED-------------------------------------MIAGYDAEALMKAVQEVIRQELNA-PRG-------GVSTGDAIHSHFSRLAEAADVDDAPSAERKSGSKAGE---GFNLIHLLGSIPYDMLEEDEDGILGEGTFGIVVSGTFKGEEVAIKKAIGPVGDRIVLTSFRREAQIHFAMHHENIVRVLGFNVDDPQRPPCLVMELMDESLHQYIQTPAISPSVAERLDIVSGVVKGLHFLHKRKIVHCDVKSLNVLLDSDGTAKLSDFGLAVVNASVARSTNAPSHKQGGSIPWMAPEVFNGAKATCASDVFSVHVVMWEILEHRTADSRSVAIGEDLLRSGEAKLSLDGADS-TPILSQMQALLHRCGSLDSKQRPSMDDVA 1434
M +D++SL+S Y+ G A+I +C+ KQC +A R+A+RT VLG L SAA +F ETS+ EL+ L LV +CK+P + KV+ V R ++ L AEA+LERV DL++P+ +DIKR + +I V + G DA+ L A + +I++ +A RG G + G+ I ++ + + + +G + G ++H+ + ++ LEE+E LG GTFG+V++ + G +VA+KKA R L FR+EA++HFAM H+NIV V+ F+V D PPCLVME MDESL++ + ++F I+H KSLNVLLD++GTAKLSDFGLA V+++V + T H + GS WMAPEV KAT SD+FS+HVVMWE++ ++ A +GE LLR+ A+LSL+ A P++ +MQ LL RCGSL K RP+M VA
Sbjct: 1 MGVDIISLVSLIYQAGGAVIYQCKLVKQCPGQAARLAIRTQNVLGLLSSAAEQFEGNVALETSLLELRNVLLRVIQLVERCKQPARFSAKVLRVFRIKATKEALVGAEADLERVTRDLRLPLLTDIKRQLGEIKDHVVNDPQQDRAXXXXXXXXXXXXXXXXXXXXXXXXXXXTALKSQGRDADPLDCADEALIQKARDAIDRGMMARSTNGSTVGEVIRGEIAKSGVVSPLTETGGGNHGAGGGDADRTAGSLIVHVK-RVRFEALEEEEQ--LGLGTFGVVLAARYFGRDVAVKKARAACTSR-TLEDFRQEAELHFAMRHDNIVEVIAFSVGDAVHPPCLVMERMDESLYELLSLQL-----------------SINFPWALGIIHDVCKSLNVLLDAEGTAKLSDFGLAQVSSTVNKDTGGTYHSKVGSDFWMAPEVHVHRKATALSDIFSLHVVMWEVITNQKAGI-GPPVGELLLRAPNARLSLESASGPAPLIERMQDLLDRCGSLHDKNRPTMKLVA 503
BLAST of mRNA_P-littoralis_Contig676.21.2 vs. uniprot
Match: D7FQW6_ECTSI (Protein kinase domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FQW6_ECTSI) HSP 1 Score: 276 bits (705), Expect = 4.610e-83 Identity = 173/462 (37.45%), Postives = 247/462 (53.46%), Query Frame = 1
Query: 7 MAMDVVSLISFSYEIGSALIKRCQDAKQCHTEATRIAVRTSRVLGSLESAAGEFSDQEWFETSMKELKKALEDAHDLVGKCKKPRTLNQKVIAVRRANTLRDGLQRAEAELERVMEDLKIPMQSDIKRAVADIGQ---------------------------------------------RVEDMIAGYDAEALMKAVQEVIRQELNAPRGGVSTGDAIHSHFSRLAEAADVDDAPSAERKSGSKAGE---GFNLIHLLGSIPYDMLEEDEDGILGEGTFGIVVSGTFKGEEVAIKKAIGPVGDRIVLTSFRREAQIHFAMHHENIVRVLGFNVDDPQRPPCLVMELMDESLHQYIQTPAISPSVAERLDIVSGVVKGLHFLHKRKIVHCDVKSLNVLLDSDGTAKLSDFGLAVVNASVARSTNAPSHKQGGSIPWMAPEVFNGAKATCASDVFSVHVVMWE 1248
M +D++SL+S Y+ G A+I +C+ KQC +A R+A+RT VLG L SAA +F ETS+ EL+ L LV +CK+P + KV+ V R ++ L AEA+LERV DL++P+ +DIK + +I R D + D + KA + R + G + G+ I ++ + + + +G + G ++H+ + ++ LEE+E LG GTFG+V++ + G +VA+KKA R L FR+EA++HFAM H+NIV V+ F+V D PPCLVME MDESL++ + +S + L I+ V K LHFLH IVH D+KSLNVLLD+ GTAKLSDFGLA V+++V + T H + GS WMAPEV KAT SD+FS+HVVMWE
Sbjct: 1 MGVDIISLVSLIYQAGGAVIHQCKLVKQCPGQAARLAMRTQNVLGLLSSAAEQFEGNVALETSLLELRNVLLRVIQLVERCKQPARFSAKVLRVFRIKATKEALVGAEADLERVTRDLRLPLLTDIKCQLGEIKDHVVNDPQQDRAXXXXXXXXXXXXXXXXXXXXXXXXXXXTALKSQGRAADPLDCADEALIQKARDAIDRGMMARSTNGSTVGEVIRGEIAKSGVVSPLTETGGGNHGAGGGDADRTAGSLIVHVK-RVRFEALEEEEQ--LGLGTFGVVLAARYFGRDVAVKKARAACTSR-TLEDFRQEAELHFAMRHDNIVEVIAFSVGDAVHPPCLVMERMDESLYELLSLQ-LSINFPWALGIIHDVCKALHFLHAHNIVHRDIKSLNVLLDAGGTAKLSDFGLAQVSSTVNKDTGGTYHSKVGSDFWMAPEVHVHRKATALSDIFSLHVVMWE 457
BLAST of mRNA_P-littoralis_Contig676.21.2 vs. uniprot
Match: D8LDQ2_ECTSI (ATP binding protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LDQ2_ECTSI) HSP 1 Score: 179 bits (453), Expect = 4.310e-46 Identity = 111/299 (37.12%), Postives = 172/299 (57.53%), Query Frame = 1
Query: 634 LLGSIPYDMLEEDEDGILGEGTFGIVVSGTFKGEEVAIKKAIGPVGDRIVLTSFRREAQIHFAMHHENIVRVLGFNVDDPQRPPCLVMELMDESLHQYIQTPAISPSVAERLDIVSGVVKGLHFLHKRKIVHCDVKSLNVLLDSDGTAKLSDFGLAVVNAS-VARST--NAPSHKQGGSIPWMAPEVFNGAKATCASDVFSVHVVMWEILEHRTADSRSVAIGEDLLRSGEAKLSLDGA--DSTPILSQMQALLHRCGSLDSKQRPSMDDVAREVGQVVELADTASRPTAADDRAVLTT 1515
+ G++ + LEE D LG G+FG+V++G + G+ VAIK+A+ V FRREA HFA H+ IV+V+ F RPPCLVME MD +L ++ ++ L + + +GL +LH+ ++H D+KS N+LL + G AK+SDFGLA S + R T N ++ G+ WMAPE+ + +++ SDVFS+HVV+WEI+E+R + AIG+ L R+ AKL ++G + P ++ L+ CG L+ K RP + +V E + D+ R A++ + TT
Sbjct: 119 MKGNVVDEELEE-LDETLGCGSFGVVMAGRYYGKPVAIKRALSSVFSAEDRERFRREASTHFAQRHDRIVQVIAFRTGGGSRPPCLVMERMDRTLFHFLGISPAPLDLSGSLPYMIDICEGLKYLHQGGVLHRDIKSHNILLRNGG-AKVSDFGLATHGCSTMGRKTGNNQFIDEKAGTKFWMAPEILSWGESSFDSDVFSLHVVLWEIIENRQGGTGD-AIGDVLRRNRLAKLPIEGEGDERDPATMRLHKLIRTCGLLERKDRPKIGEVLAEATSIY---DSLPRSGGAEEPSAATT 411
BLAST of mRNA_P-littoralis_Contig676.21.2 vs. uniprot
Match: D8LL51_ECTSI (APEX nuclease (Apurinic/apyrimidinic endonuclease) 2 n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LL51_ECTSI) HSP 1 Score: 159 bits (402), Expect = 8.810e-41 Identity = 93/212 (43.87%), Postives = 142/212 (66.98%), Query Frame = 1
Query: 13 MDVVSLISFSYEIGSALIKRCQDAKQCHTEATRIAVRTSRVLGSLESAAGEFSDQEWFETSMKELKKALEDAHDLVGKCKKPRTLNQKVIAVRRANTLRDGLQRAEAELERVMEDLKIPMQSDIKRAVADIGQRVEDMIA---GYDAEALMKAVQEVIRQELNAPRGGVSTGDAIHSHFSRLAEAADVDDAPSAERKSGSKAGEGFNLIHLL 639
MD ++L+++++E+GS+L++RC+ KQCHTE+ RIAVRT+RVLG+L+ A+ EFS + FE S++ELK+ LE+A DLV +C+K R + K+ A+ AN+L+ GL R E +L+R DL+IPM +DI+RAV I +R + A G DAE L +AV++ IR+EL G + D I + S+L EA + A +A+++ S +G LL
Sbjct: 1 MDAITLVAYTFEVGSSLLERCELVKQCHTESGRIAVRTARVLGALQKASNEFSCRMEFEASLRELKRVLEEARDLVSRCQKARGVGAKIGALMGANSLKAGLVRVERDLDRAAADLQIPMLTDIRRAVQCINERESEATASPSGIDAEMLEQAVRDAIRKELCNTSQGRAVDDIIKDNLSKLYEA---EAAVAADQQGYSPPPDGAGGRPLL 209
BLAST of mRNA_P-littoralis_Contig676.21.2 vs. uniprot
Match: A0A6H5JAG2_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JAG2_9PHAE) HSP 1 Score: 153 bits (387), Expect = 7.710e-39 Identity = 86/185 (46.49%), Postives = 127/185 (68.65%), Query Frame = 1
Query: 13 MDVVSLISFSYEIGSALIKRCQDAKQCHTEATRIAVRTSRVLGSLESAAGEFSDQEWFETSMKELKKALEDAHDLVGKCKKPRTLNQKVIAVRRANTLRDGLQRAEAELERVMEDLKIPMQSDIKRAVADIGQRVEDMIA---GYDAEALMKAVQEVIRQELNAPRGGVSTGDAIHSHFSRLAEA 558
MD ++L+++++E+GS+L++RC KQCHTE+ RIAVR +RVLG+L+ A+ FS + FE S++ELK+ LE+A DLV +C+ R + K+ A+ AN+L+ GL R E +L+RV DL+IPM +DI+RAV I +R D A G DAE L +AV++ IR+EL G + D I + S+L EA
Sbjct: 54 MDAITLVAYTFEVGSSLLERCGLVKQCHTESGRIAVRAARVLGALQRASDAFSCRMEFEASLRELKRVLEEARDLVSRCQMARGVGAKIGALMGANSLKAGLVRVEGDLDRVAADLQIPMLTDIRRAVQCINERESDAAASPSGIDAEMLEQAVRDAIRKELCNASQGRAVDDIIKDNLSKLYEA 238
BLAST of mRNA_P-littoralis_Contig676.21.2 vs. uniprot
Match: A0A2R8FE23_9VIRU (5'-nucleotidase/apyrase n=1 Tax=Brazilian cedratvirus IHUMI TaxID=2126980 RepID=A0A2R8FE23_9VIRU) HSP 1 Score: 126 bits (316), Expect = 9.420e-27 Identity = 85/255 (33.33%), Postives = 133/255 (52.16%), Query Frame = 1
Query: 682 ILGEGTFGIVVSGTFKGEEVAIKKAI--GPVGDRIVLTSFRREAQIHFAMHHENIVRVLGFNVDDPQRPPCLVMELMDE-SLHQYIQTPAISPSVAERLDIVSGVVKGLHFLHKRKIVHCDVKSLNVLLDSDGTAKLSDFGLAVVNASVARSTNAPSHKQGGSIPWMAPEVFNGAKATCASDVFSVHVVMWEILEHRTA--DSRSVAIGEDLLRSGEAKLSLDGADSTPILSQMQALLHRCGSLDSKQRPSMDDV 1431
I+GEG++G V GT+K +EVAIK+ + G V D VL R EA I + + H N+V++LG + + +VMEL+ + SL + +I R+ ++ G GL +LH IVH DVKS N+L+D K++DFG A + A T G+ W APE+ K +DV+S +VMWE+L T + ++G D+++ + DG ++ + RC S +K+RPSM+ +
Sbjct: 1159 IIGEGSYGTVSKGTYKSQEVAIKRFMVTGRVSDE-VLRKMRLEAAILYNLDHANVVKMLGLVIHER----LIVMELVKKGSLRNVLLDHSIKLPWNLRIFLLKGAAMGLKYLHDNDIVHRDVKSSNLLVDEYWNVKVADFGFATMIKEQATMTKC------GTPAWSAPEILLNKKYNEKADVYSFGIVMWEVLTRSTPYPNKNPFSLGVDVIKGERPSIPQDGD------ARFIEFMQRCWSEKAKERPSMEKI 1396
BLAST of mRNA_P-littoralis_Contig676.21.2 vs. uniprot
Match: D8UKY2_VOLCA (Protein kinase domain-containing protein n=1 Tax=Volvox carteri f. nagariensis TaxID=3068 RepID=D8UKY2_VOLCA) HSP 1 Score: 125 bits (315), Expect = 1.290e-26 Identity = 102/282 (36.17%), Postives = 141/282 (50.00%), Query Frame = 1
Query: 676 DGILGEGTFGIVVSGTFKGEEVAIK---------------------KAIGPVGDRIVLTSFRREAQIHFAMHHENIVRVLGFNVDDPQRPPCLVMELMDESLHQYIQTPAISPSVAERLDIVSGVVKGLHFLHKRKIVHCDVKSLNVLLDSDGTAKLSDFGLAVVNASVARSTNAPSHKQGGSIPWMAPEVFNGA--KATCASDVFSVHVVMWEIL--EHRTADSRSVAIGEDLLRSGEAKLSLD-GADSTPILSQMQALLHRCGSLDSKQRPSMDDVAREV 1443
DG+LG G FG V G+++G+ VAIK G V ++ + SFR+E I + H NIVRVLG P LVMELM LH I A ++ + L I + V +GL LH IVH D+K N+LLD++GTAK+SDFGLA + ST P GS+ +MAPE F+ A + + DV+S V++WE++ EH A +V+I + R ++ L D ++ ALLH C S RP M V E+
Sbjct: 1159 DGLLGAGAFGSVYRGSYRGQPVAIKVLHHLHFAAAAGRGGPXXXXXXXXGGVLEQKDVASFRQEIAILRMLAHPNIVRVLGGCAHAGH--PFLVMELMPRCLHNVIHGAA-GLALPDALRIATDVARGLAHLHPA-IVHRDLKPANILLDAEGTAKISDFGLARYHLKPYISTQQPD---AGSVAYMAPEGFDPAIGRLSAKCDVYSFGVLLWELITQEHPWAGESNVSI---IYRVAVHRMRLPVPTDPRVCPPRLAALLHACMSYVPSDRPDMRHVLGEL 1430
BLAST of mRNA_P-littoralis_Contig676.21.2 vs. uniprot
Match: A0A1G0INE3_9GAMM (Non-specific serine/threonine protein kinase n=1 Tax=Gammaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_45_9 TaxID=1798289 RepID=A0A1G0INE3_9GAMM) HSP 1 Score: 123 bits (309), Expect = 5.260e-26 Identity = 92/266 (34.59%), Postives = 135/266 (50.75%), Query Frame = 1
Query: 646 IPYDMLEEDEDGILGEGTFGIVVSGTFKGEEVAIKKAIGPVGDRIVLTSFRREAQIHFAMHHENIVRVLGFNVDDPQRPPCLVMELMDESLHQYIQTPAISPSVAERLDIVSGVVKGLHFLHKRKIVHCDVKSLNVLLDSDGTAKLSDFGLAVVNASVARSTNAPSHKQGGSIPWMAPEVFNGAKATCA--SDVFSVHVVMWEILEHRT---ADSRSVAIGEDLLRSGEAKLSLDGADSTPILSQMQALLHRCGSLDSKQRPSMDD 1428
IP L E+ ILGEG+FG+V ++ + VA+K+ F +EA+ H A+ H NIVR+ F V + +V+ELM SL + P A R I G+ GL +LH R IVH D+KSLNVLLD+ AKL+DFGL+ V A +T + G++ WMAPE+ + + SD+++V ++ WE+ T R V I ++SGE + G TP A++ RC + ++ RP D
Sbjct: 572 IPASQLTFTEERILGEGSFGVVRKARWQHQAVAVKQLKLKTLTHEAEQEFLQEAERHAALRHHNIVRL--FAVCCERGHYAMVIELMSMSLFDKLHNGEPFPWPA-RYSIALGIAMGLAYLHSRAIVHRDLKSLNVLLDTTNQAKLADFGLSTVKTETATTTTRTPTQPVGTLLWMAPELLTLRRPRYSPLSDIYAVGMIFWELASRHTPFEGVEREVVING--VKSGEREEMPAG---TP--PGFAAIITRCWAQRTEDRPQTAD 827
BLAST of mRNA_P-littoralis_Contig676.21.2 vs. uniprot
Match: A0A2D4C434_PYTIN (TKL protein kinase n=1 Tax=Pythium insidiosum TaxID=114742 RepID=A0A2D4C434_PYTIN) HSP 1 Score: 117 bits (292), Expect = 5.310e-26 Identity = 83/269 (30.86%), Postives = 132/269 (49.07%), Query Frame = 1
Query: 685 LGEGTFGIVVSGTFKGEEVAIKKAIGPVGDRIVLTSFRREAQIHFAMHHENIVRVLGFNVDDPQRPPCLVMELMDE-SLHQYIQTPAISPSVAERLDIVSGVVKGLHFLH--KRKIVHCDVKSLNVLLDSDGTAKLSDFGLAVVNASVARSTNAPSHKQGGSIPWMAPEVFNGAKATCASDVFSVHVVMWEILEHRTADSRSVAIGEDLLRSGEAKLSLDGADSTPILSQ-----MQALLHRCGSLDSKQRPSMDDVAREVGQVVELAD 1467
+G G FG V T++G+ VA+K V+ F RE I + H NI R++G ++ QR LV+EL++ SL +Q+P + + + R +G+ +LH + I+H D+KS N+L+DSD T K+SDFGLA V A + T G++ WMAPEV K T +DV+S +V+WEI R D +++ + + + D P + + L+ C ++RPS + + R V A+
Sbjct: 5 IGHGAFGEVYKATWRGQRVAVKLLTKQELSDDVIREFEREIDIMGLLGHPNICRLVGASLRPSQR--ALVLELVEHGSLWNLLQSPRVMLTTSLRAKFALETARGMTYLHTFEHPILHRDMKSPNLLVDSDYTIKISDFGLARVKAQIQTMTG-----YCGTVQWMAPEVLGCCKYTEKADVYSFGIVLWEIFSRRCP--------YDSMQAIQVAMGVLNHDLRPAVPRGCPPFFAYLMQLCWERAPERRPSFEAIVRMCESVYGCAE 258
BLAST of mRNA_P-littoralis_Contig676.21.2 vs. uniprot
Match: L8GMU4_ACACA (Guanylate cyclase n=1 Tax=Acanthamoeba castellanii str. Neff TaxID=1257118 RepID=L8GMU4_ACACA) HSP 1 Score: 122 bits (307), Expect = 1.310e-25 Identity = 94/277 (33.94%), Postives = 139/277 (50.18%), Query Frame = 1
Query: 664 EEDEDGILGEGTFGIVVSGTFKGEEVAIKKAIGPVGDRIVLTSFRREAQIHFAMHHENIVRVLGFNVDDPQRPPCLVMELMD-ESLHQYIQT---PAISPSVAERLDIVSGVVKGLHFLHKRKIVHCDVKSLNVLLDSDGTAKLSDFGLAVVNASVARSTNAPSHKQGGSIPWMAPEVFNGAKAT--CASDVFSVHVVMWEIL------EHRTADSRSVAIGEDLLRSGEAKLSLDGADSTPILSQMQALLHRCGSLDSKQRPSMDDVAREVGQVVE 1458
E D D LGEG+FG V G +KG EVA+K + + + +F E ++ A+ H N+V +G + P+ C++ME M SL+ + P I +++ L I KG+HFLH IVH D+KSLN+LLDS K+SDFGL + S + GSIPW APEV A +D+FS VV++EI+ EH +A + +V + D +R ++ D P L L+ C D+ RP+ +V + +VE
Sbjct: 664 ELDLDHKLGEGSFGEVYKGKWKGTEVAVKVMTPGLVTKEMKLNFHSEMRVMSALRHPNVVLFMGASSKPPRM--CIIMEYMALGSLYDVLHNDLVPCIPMTLS--LKIALRAAKGMHFLHSSGIVHRDLKSLNLLLDSKWNVKVSDFGLGKFKDQIKASD-----RHIGSIPWTAPEVLAEQPAVDYMLADIFSFGVVLFEIVTRRNPYEHLSAAAIAVGVLRDDMRP-TTQVDEDQLKEVPAL--YLGLMRNCWDTDASLRPTFLEVMTRLESLVE 928
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 | 0 |
| Start | 1 |
| Seed ortholog | 2880.D7FQW6 |
| Preferred name | RIPK1 |
| PFAMs | Death,Pkinase,Pkinase_Tyr,RHIM |
| Model size | 1602 |
| Max annot lvl | 2759|Eukaryota |
| KEGG ko | ko:K02861,ko:K04424 |
| KEGG Pathway | ko04010,ko04064,ko04210,ko04217,ko04620,ko04621,ko04622,ko04623,ko04668,ko05160,ko05169,map04010,map04064,map04210,map04217,map04620,map04621,map04622,map04623,map04668,map05160,map05169 |
| Hectar predicted targeting category | other localisation |
| GOs | GO:0000165,GO:0000187,GO:0001817,GO:0001819,GO:0001932,GO:0001934,GO:0001959,GO:0002218,GO:0002221,GO:0002224,GO:0002253,GO:0002376,GO:0002682,GO:0002684,GO:0002756,GO:0002757,GO:0002758,GO:0002761,GO:0002763,GO:0002764,GO:0003674,GO:0003824,GO:0004672,GO:0004674,GO:0005102,GO:0005123,GO:0005126,GO:0005488,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005737,GO:0005739,GO:0005768,GO:0005829,GO:0005886,GO:0006355,GO:0006357,GO:0006464,GO:0006468,GO:0006508,GO:0006793,GO:0006796,GO:0006807,GO:0006915,GO:0006919,GO:0006950,GO:0007154,GO:0007165,GO:0007166,GO:0007249,GO:0007254,GO:0007257,GO:0008150,GO:0008152,GO:0008219,GO:0009056,GO:0009057,GO:0009889,GO:0009891,GO:0009893,GO:0009966,GO:0009967,GO:0009968,GO:0009987,GO:0010008,GO:0010033,GO:0010468,GO:0010556,GO:0010557,GO:0010562,GO:0010604,GO:0010628,GO:0010646,GO:0010647,GO:0010648,GO:0010803,GO:0010939,GO:0010940,GO:0010941,GO:0010942,GO:0010950,GO:0010952,GO:0012501,GO:0012505,GO:0016020,GO:0016043,GO:0016301,GO:0016310,GO:0016579,GO:0016740,GO:0016772,GO:0016773,GO:0018105,GO:0018193,GO:0018209,GO:0019219,GO:0019220,GO:0019221,GO:0019222,GO:0019538,GO:0019899,GO:0019904,GO:0022607,GO:0022898,GO:0023014,GO:0023051,GO:0023052,GO:0023056,GO:0023057,GO:0030162,GO:0030163,GO:0031090,GO:0031098,GO:0031264,GO:0031323,GO:0031325,GO:0031326,GO:0031328,GO:0031347,GO:0031349,GO:0031399,GO:0031401,GO:0031410,GO:0031625,GO:0031982,GO:0032147,GO:0032239,GO:0032268,GO:0032270,GO:0032409,GO:0032412,GO:0032677,GO:0032680,GO:0032757,GO:0032760,GO:0032813,GO:0032872,GO:0032874,GO:0032879,GO:0032991,GO:0033209,GO:0033554,GO:0033674,GO:0034097,GO:0034138,GO:0034612,GO:0034762,GO:0034765,GO:0035556,GO:0035666,GO:0036211,GO:0036289,GO:0042221,GO:0042325,GO:0042327,GO:0042802,GO:0042981,GO:0043065,GO:0043066,GO:0043067,GO:0043068,GO:0043069,GO:0043085,GO:0043122,GO:0043123,GO:0043124,GO:0043170,GO:0043226,GO:0043227,GO:0043229,GO:0043231,GO:0043235,GO:0043269,GO:0043280,GO:0043281,GO:0043405,GO:0043406,GO:0043408,GO:0043410,GO:0043412,GO:0043506,GO:0043507,GO:0043549,GO:0043933,GO:0044070,GO:0044085,GO:0044093,GO:0044237,GO:0044238,GO:0044248,GO:0044257,GO:0044260,GO:0044265,GO:0044267,GO:0044389,GO:0044422,GO:0044424,GO:0044425,GO:0044433,GO:0044440,GO:0044444,GO:0044445,GO:0044446,GO:0044459,GO:0044464,GO:0044877,GO:0045088,GO:0045089,GO:0045121,GO:0045595,GO:0045597,GO:0045637,GO:0045639,GO:0045649,GO:0045651,GO:0045859,GO:0045860,GO:0045862,GO:0045893,GO:0045935,GO:0045937,GO:0045944,GO:0046328,GO:0046330,GO:0046777,GO:0048518,GO:0048519,GO:0048522,GO:0048523,GO:0048583,GO:0048584,GO:0048585,GO:0050776,GO:0050778,GO:0050789,GO:0050790,GO:0050793,GO:0050794,GO:0050896,GO:0051049,GO:0051090,GO:0051091,GO:0051092,GO:0051094,GO:0051171,GO:0051173,GO:0051174,GO:0051239,GO:0051240,GO:0051246,GO:0051247,GO:0051252,GO:0051254,GO:0051259,GO:0051260,GO:0051291,GO:0051336,GO:0051338,GO:0051345,GO:0051347,GO:0051403,GO:0051716,GO:0052547,GO:0052548,GO:0060255,GO:0060544,GO:0060545,GO:0060548,GO:0060759,GO:0065003,GO:0065007,GO:0065009,GO:0070227,GO:0070231,GO:0070265,GO:0070266,GO:0070302,GO:0070304,GO:0070513,GO:0070646,GO:0070647,GO:0070848,GO:0070887,GO:0070926,GO:0071310,GO:0071345,GO:0071356,GO:0071363,GO:0071550,GO:0071704,GO:0071840,GO:0071887,GO:0071900,GO:0071902,GO:0071944,GO:0080090,GO:0080134,GO:0080135,GO:0097190,GO:0097191,GO:0097300,GO:0097342,GO:0097343,GO:0097435,GO:0097527,GO:0097708,GO:0098588,GO:0098589,GO:0098796,GO:0098797,GO:0098805,GO:0098857,GO:0140096,GO:1900407,GO:1900409,GO:1901026,GO:1901031,GO:1901033,GO:1901099,GO:1901564,GO:1901565,GO:1901575,GO:1902041,GO:1902042,GO:1902105,GO:1902107,GO:1902494,GO:1902531,GO:1902532,GO:1902533,GO:1902680,GO:1902882,GO:1902884,GO:1903201,GO:1903205,GO:1903209,GO:1903506,GO:1903508,GO:1903555,GO:1903557,GO:1903706,GO:1903708,GO:1903959,GO:1905206,GO:1990000,GO:2000026,GO:2000112,GO:2000116,GO:2000377,GO:2000379,GO:2001023,GO:2001025,GO:2001038,GO:2001040,GO:2001056,GO:2001141,GO:2001233,GO:2001234,GO:2001235,GO:2001236,GO:2001237,GO:2001238,GO:2001239,GO:2001240 |
| Exons | 5 |
| Evalue | 7.15e-84 |
| EggNOG OGs | COG0515@1|root,KOG0192@2759|Eukaryota |
| EC | 2.7.11.1,2.7.11.25 |
| Description | protein kinase activity |
| Cds size | 1596 |
| COG category | KLT |
| BRITE | ko00000,ko00001,ko01000,ko01001 |
Relationships
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791405.9265952-CDS-P-littoralis_Contig676:75905..76259 | 1680791405.9265952-CDS-P-littoralis_Contig676:75905..76259 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig676 75906..76259 - |
| 1680791405.9384768-CDS-P-littoralis_Contig676:76425..76521 | 1680791405.9384768-CDS-P-littoralis_Contig676:76425..76521 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig676 76426..76521 - |
| 1680791405.9520288-CDS-P-littoralis_Contig676:79777..79936 | 1680791405.9520288-CDS-P-littoralis_Contig676:79777..79936 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig676 79778..79936 - |
| 1680791405.9632332-CDS-P-littoralis_Contig676:80144..80340 | 1680791405.9632332-CDS-P-littoralis_Contig676:80144..80340 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig676 80145..80340 - |
| 1680791405.9746737-CDS-P-littoralis_Contig676:99318..100109 | 1680791405.9746737-CDS-P-littoralis_Contig676:99318..100109 | Pylaiella littoralis U1_48 | CDS | P-littoralis_Contig676 99319..100109 - |
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1680791405.9843209-UTR-P-littoralis_Contig676:100109..100115 | 1680791405.9843209-UTR-P-littoralis_Contig676:100109..100115 | Pylaiella littoralis U1_48 | UTR | P-littoralis_Contig676 100110..100115 - |
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-littoralis_Contig676.21.2 >prot_P-littoralis_Contig676.21.2 ID=prot_P-littoralis_Contig676.21.2|Name=mRNA_P-littoralis_Contig676.21.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=532bp
MAMDVVSLISFSYEIGSALIKRCQDAKQCHTEATRIAVRTSRVLGSLESA
AGEFSDQEWFETSMKELKKALEDAHDLVGKCKKPRTLNQKVIAVRRANTL
RDGLQRAEAELERVMEDLKIPMQSDIKRAVADIGQRVEDMIAGYDAEALM
KAVQEVIRQELNAPRGGVSTGDAIHSHFSRLAEAADVDDAPSAERKSGSK
AGEGFNLIHLLGSIPYDMLEEDEDGILGEGTFGIVVSGTFKGEEVAIKKA
IGPVGDRIVLTSFRREAQIHFAMHHENIVRVLGFNVDDPQRPPCLVMELM
DESLHQYIQTPAISPSVAERLDIVSGVVKGLHFLHKRKIVHCDVKSLNVL
LDSDGTAKLSDFGLAVVNASVARSTNAPSHKQGGSIPWMAPEVFNGAKAT
CASDVFSVHVVMWEILEHRTADSRSVAIGEDLLRSGEAKLSLDGADSTPI
LSQMQALLHRCGSLDSKQRPSMDDVAREVGQVVELADTASRPTAADDRAV
LTTLLGTCGGLQLSKGGSWQPDKELSAWDGVT back to topmRNA from alignment at P-littoralis_Contig676:75906..100115- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-littoralis_Contig676.21.2 ID=mRNA_P-littoralis_Contig676.21.2|Name=mRNA_P-littoralis_Contig676.21.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=24210bp|location=Sequence derived from alignment at P-littoralis_Contig676:75906..100115- (Pylaiella littoralis U1_48)
AAAGCTATGGCAATGGATGTGGTGAGCCTGATTTCATTTTCGTACGAAAT
CGGGTCTGCGCTGATCAAGCGTTGCCAGGATGCAAAGCAATGCCACACTG
AGGCAACCCGCATCGCTGTTCGCACAAGCCGCGTTCTGGGCTCATTGGAG
AGTGCAGCCGGCGAGTTCTCGGATCAAGAGTGGTTTGAGACGAGCATGAA
AGAGCTGAAGAAGGCGCTCGAGGATGCGCATGATCTCGTTGGCAAATGCA
AAAAGCCACGGACACTTAACCAAAAAGTGATCGCTGTAAGGAGGGCGAAT
ACTCTGAGAGATGGCCTTCAGAGAGCAGAAGCCGAGCTTGAGCGCGTTAT
GGAGGACCTAAAAATTCCTATGCAAAGCGACATCAAGAGGGCAGTGGCAG
ATATCGGCCAAAGAGTCGAGGATATGATTGCTGGGTACGATGCGGAGGCA
CTGATGAAAGCAGTTCAAGAAGTAATCCGGCAGGAGCTGAACGCTCCGAG
AGGGGGGGTATCGACGGGCGACGCCATCCATTCTCACTTCTCAAGGCTCG
CTGAAGCCGCCGATGTAGACGATGCCCCAAGTGCAGAGCGAAAGTCAGGA
AGCAAGGCGGGGGAGGGGTTCAACCTCATTCATTTACTTGGCAGCATACC
CTACGACATGCTTGAAGAGGACGAGGATGGCATCCTCGGGGAGGGAACAT
TCGGTATCGTGGTCTCTGGGACGTTCAAGGGCGAGGAGGTGGCGATCAAG
AAGGCAATAGGGCCGGTTGGCGACAGGATTGTGCTGACGTCTTTCAGGTG
TGTCTTTGCGCAGCGACAGAGACAGGCAATACCGGTACAGAAGTACCTGC
AGTGTAGCAGCAACAACACAGCAGCAGGGCAGTTTCCGCCAACTTTTTTT
TAAATACGAAGTACTTTGAAGTACGAAGTATACGGTATGATACAAGCACA
GACAGATAGATAGTTCGAAGTGGTCGCGGCCGTGCCAATGATGCAGCAGT
TGTTGTGGTGATATTTCTCCACACCTGTCTCCACAGGAGGCAAGCTGAAG
CTCTTTCTTTCTACGCGGCTCTTCTTGTTCCCCAACGGTGCAACGACCCA
ACCCAACCCAACCTACTCCAACCCTTACCCTTACCCTCACCCAAACGGAA
GAGGATAGCTACTGTAGGTTGACAACCCGCGCTGCGCGTGCGCTGAGACA
AAATAGGAAGTTGTGCGCTGCGCGCGCCGTATATAGGGGGTACGACGATC
GTAGGGAGCGTCAGAGATCACACATGATCCCACAGACGTTTCCACGGAAT
TTTATCACGACCGATTCCGTAACCCCTACTCCAAAGGGCGGGTGCAATCT
CGCCGCTGCCCGCTGTTCCACCAGATCTTGAGATACGCATATCGCATCAT
ATGACAATCATGCTCATAACACCGGTCGCCCCGGTGGTTCAGTTGGTAAT
CTTCGCAACCTGTTGACATACGCGCTTGAGTTCGAATCCCTGTTGAGTAA
CACGACCTGTGGCTTTTTCTCACATCGCGCGTGAAAGTTAGAAGCGATCA
ATTCGTGAGTAAACATATTGCGATCGTACCATCGACGAGAACAAGGGACT
GCTGTGCCCCTTTCTCGCGATAAAAGCTCAACCATAAAGGCAAGCACCGC
AGAGGGAAGTGGAGAAAAAAAAAAAAACTCCTGTGTTGACTTCCCCCTGT
GTGACCCCGGTTGGAGCGTCTACCTACCCGAAAGGTGTAGAGTGGCGTCC
AATTAAAGGGATGACAACACACACACACTACGTGCTTTATTCTACCAGTG
TTGGAAATCGAAGTCGATTCTTTCGATCGCGATTTTTCGGGGATTCGTAT
AAATTGAGATTGAGATTTTTGTTAGAGGAATGGCGAAAAACGGGTATACC
CGGTGGTTTTGTGCCCATTGTCGGGTGCCCTTCTTTTCCGGAAATGGACT
CAGGGAGCAATCCCATTGGCCAAACCGCGCCGCCACCCGGTCCTGGCCTA
ATTTCTTCCAGGCATTCCCGGTTTTGGCGGGAGCTACCCGATCATCACAT
ACGCTACCGAAAGTGGCCCGACACACACTCGATAAATAACTTACTCCGGA
GTATATTTCATGTTTACACTGTTGCTTGTAGTTGATAATAACATAAACAA
TTTCGGAAGTGGTTTCGTTTGCTCATACGGAGTACTCCGAGTATATATTT
TTGGCCCATACTTCGAAGTATTTTTTTGCTCGTGTTTCTGGAAAATATCA
GGGGGTTCCTCGGTACCGGTTTTTGACATTGATAACAACTACCGCAGTAA
TCAGCCACGACAGTACTGCACAGTATTTTTTGGACTGTAATCGGCCATCT
CGGTATATTTACCACGGGATTCAGCCTCCGCGGTACTGCACAGTATTTTT
TCAACGCTTATCGGTCATCGCGGTACATCCACCGCGGTATTCATCCACCA
CGGCAGTTGTTCGGTATTATTCTCGGCCACCTCGGTATTACCCATACGTT
TTTTTTTTAATATTTGTTTTTAGTTGTGCGTGTTGCTCCTGCGCGTAGTG
TAGCAACGGGAGTACGTCCGTTCACAGAACAACCAAACGCACCACACACA
CGCAGCCATTCGCAGCCTGAAGACGGCGACCGAAAGCAAGAGCTACGCCC
AGCGATGCCCACTACTGAAGTTAATAACCAGACCAAACCCACCCGTGAAA
TAGCCCTCTCCCTCTTCCAAAGTACTGTACGTTATTCTCCTTTTGTACGT
TTTCACTCCATCACAACGACATTACAAATACACCGCAAAGGCTTCTGCCT
GATTATAACAGCTTGATAATACGGTAAGAAGTATACTTCGAAGTACTTCG
TAAAAAATAACAACAATTCAACAAACATGAATCGATACGCACCACGCAAA
AGTACAGATTGGTAGTTCTAAGATAACAGCCGTTCGCCGTTGTCGCCTGC
ACTTGAGCTACTTTCTTTTCTGCTTACCCTCGGTATGGTGTGTTCTGGGT
TAATGGTGGGAATGTTCCGTACACGATTACTGACTGTGAGCCACCGTCTT
TGATTTATTATTATTATACTCAAGTTCCATATTTTTTATCGAGTACCAGA
GCACGAAATAGTATTTTTTATTTCAACAAAAAAAACATATACCAGGAAGA
AAACGAAAAGCGTGCACAGGATGGAGTCTCAAACCCGCAAGGTGCAGGTA
TCCAGTTAAATTGCAACCGCTGACGTATTTGGAAGTACTTACAGTCGAGG
TCCCGGTTTACCGGCCCCCTGTTTACCGGTTTGCCCACTTACCGGCCCTT
TTTTTTCTTGACACGCCCGCACCCCGGTTTACCGATTATGTGCCGGTATA
CCGGGGTCCTCCCTTTTTTCATGCTTGCGGAGCCCCTTTTGCTGCTGCTG
CACACTCCCACACACACTGCTGCATACAACACAACACAACACAGCACTCC
GGTTGCTGTGAGTAGCAGCCAACACCTGCCTACACACCATGTCGTGTGCG
GCAGGAGAATTATGCCACCTTAGTGACAGGAATATCACCCCAGAACTCTC
CTGCTGTCGTCGTTTTTTGGACCGCTAGAAAAGTACGCAGAGTCTTGTGG
CATCAGTGGAGCAGCGTATCATCTTCGTAAGGCGAAAATGGATTTCATTC
AAGCAATGTCCTCCAAACCAGCCGTGCAGGCAGACATTAGAACCATGTTT
TCGGTGTCATGATTGGTACAGTGTAGCAATACAGCACAGCGCAGTACACC
AGCAGTAACTGTAGCAGTACCACAGCCAAGTGCAGTACGGTTGTAGAGAA
CGGCAGCTGTACAGGGTAGAGTACAGTAGTGGTGCTACAAATGATGAGTT
CGTGTGTTCCATTGAATGGTTGGGTCCGGTGATGAACACTGTACTGTAAT
GAGAAGCACTAGCACTTCGTGTTCTCGGACGTAAGTGTTCCAATGAAGTA
CATTCATTCCTGCTTGTGCACTTCAAGCATTGCTGTCGAAACTGACCTGC
TGCCTTCGATATACAGTGTGGGTACTGTACAGCGATCACACACTCGTCTA
AACTACTACTACTGTAGGTGCTGGCTACCAGGACAGCAGGAGAAACAGAC
AGGCCATACTGTATCTAAGTCTGTGGAGATACACCTGCTCTTCCTACGCT
CGTGGGGGCGTCTTCCCCAGTATACCGGCATGTATTGGAAAACAGGTACC
TGTTTACCGGTACATGCCGGTATACTGGTTTACCGGTTTGCCCTGTTTAC
CGGCCCTTTTTTTTCTTGCCACGAGGGGCCGGTAAACTGGGACGTCGACT
GTACCCATATACTATCATGTGCGTGTTTCTATTGCATGCCACCAGTAACG
GCGTTCACAACAGTATAGTAATCGGTAGTTTTTGTTTTTCGCGGTAAACC
GTACCGTGGTATCAAGAAATCGCGGGAATTCCAATATTTGCACGTTAACG
GTTTGATTGGTACTGGTAAAATATGTTGTTCTCGGTTACGATTTGGATGG
TAACGGTATCGCGTAATTTGGGTGGTAAGAGTTTGGATGGTAACGGAAAT
TCCTTACTATGTCGGTATCGTTACCAAATACCAACTACCACGGAATTACC
GTGATAAATTACCCCGGTAAAACTATCGAGGAACCCCCTGAAAAATATAG
CCGGCACCGGTTTTTAAAATATGAGCAAGTGTCAGACGGGAGCGTTTGCT
CATATGATATTATTTCGGGTCTGGGAGCGTTAGAATATGAGCAACCTGGT
TTCCGCTCGTTTGCTCACATTGTTGAGCGGGAACACACAATCTTCTCCTT
ACTCGAAGTATTCAGGTTTCAGGTACCAGATACGGAGCACTTCGAAGTAT
ATACTTGGGCTCACACAGGACCCATTGGGCTAGTAGGGATGCTGATGGTT
TATCGTACGCCACAACCTCAAATCGTGCTTTTGTGCCTTGTGCTCCTGGC
TCGCAAGAGGCCTCTAATTTTATGTTTAACACCGCGCGCTGTGGGCGGTG
GTGCCCACGAAACAACAACCAACGCAAGCAACGGAACAGGTAACAGCAGA
ACACCGAACTCTTTTTCTGTCCACCAGACACCACCGCCTGGACACACCGC
AACAAGCAGCAGTAGTATTGTGGTAGTGGTGTGCATGAGATGGCAACCAA
CACAATCGCAGACGGGTGTGTGTGTGGGATGCGAGGTCGGGATGTTTGTT
CATTGGATTGATGCTGCTGCTGCTGCTGTTGCTTGCTCTGCCCTGATGAT
CTCGTGATGTTGATGATGCAGCATTTTGTTTTATTTTTTCCATTTTTTCT
CATCATCCACTTCCTCCTCAGAAAACACACGTAACACACGATGCATACAC
ATCCGTACCATGCAAACACACAGCAGACACACAACATCACAACTACAACA
TACACCCGCCTCATATGCTAGTTCACCTCCAGCACACACACAATGACTGT
TGTGCAGCAGCCGGAGGAGGAGCAGAGAAGTGTGAAAGGTGTGCATGAAC
TTGAACTCTGTACCCTCTACGCGTATTTTGTACGAAGTACTTCGATGATA
TCATACACATCTACTTCTTCCGAAAAATAAACAGAACGCACACACACTTC
ACAGCAAACCGCACAAGCATGAGACAACACTTTGGCTGTGCTTGAGATAC
GAGCACACCACCGGCACGCACTGACTGTGAGGTGGTCGTGTGTCTGTGTG
TGTGCTGTTGTTGGTTCTGTGTGCGCGTGTGATCTCGGCCGGATGGATGC
CTCCCTTTGCTCTCTGTCGCTTTTTTTGTCTCCATTATCCATGTTCGTAC
AGCAGGAGGACCGCAGGAGCTTCACCACAGACCGAACGACCACAGAGATT
CCTTTTTTCTTCTCCGTGTATAGCGCCAGGACAAAATATGCGGCGAATCT
GTACGCCAATAACCATGTCGCAGGTGGCCACGTCATTTCTAGTCGCGTCG
CTTAAAAAATATGAGCAAACGCGCTGTGTTTTTTTTAAATATTTGTGTGA
GCAAATAATGTGTGTGTTGTGTGTTGTCACCCTAAGGCTGGGTCTTAACC
GGAAATCAAATTCATAATTAGAATTCAAAGCGAATATTAGAGCTGGAAGA
TCCACCCCAATTGTGGTTTTGATTCGAAGGTGTCTTAACCAAAATTGCCG
AAATCGAAATCGGAGTTGAATAACGGAGCATCCTCGGGACTTGAACAGCC
CTTTGGTCCCTACAAACAAAAGCTGTGGACGTGGCGATAGCAACACCAAG
AGCAATCCGATCGCATATATATGCGGGGCAGCATGGATGGTGTGTGTGCA
TGCATGCTGGTGAAAAGTGGCTTGCACGGAAGACCAGCTTGGAGAGCCAA
CGACTGGGTTCCCTCCTCCTCGTGTCGCGAAAAATCGCAACCCCATCCAT
GCGTCTCACACCTCGTCTCACAACTCACCCCTTGCTGCTGCTGCTGTTGT
TGGTCCTGCAGAGCATACTAATACACATGTGTGTTCGTACGTACGTGTTG
CTCCGCTCCGATACAAACAGTAAGTATATCTGTGAGACAGCAGAAGAACC
TGCCCAAGACCATCGAGTAGACCAGAAATGAGCAATATCTCAATTTTATG
TGTTCCGTTTCAACTGTGAATTCAATTAAATGCGAAACCATTTGTTTGAA
TTCATAATTAGGATTCGGAATATATATGTTAGATGGGAAGAGCCGTCTCT
GTGCTGCAGGGCGGAAGCTGACTCCTCCTCATTTCACCCAATCACAGGAT
GTGTTCTTTGGATTTTCCAGCTCTAATATTAGCTTTGAATTCTAATTATG
AATTTGATTTCCGGTTAAGACCCAGCCTAAGGCTGGGTCTTGAAATATCC
CAGTTTCGAATCTAAATCGGAAAAAAAGAATGAAAGATCCAGACAACACA
TGATGTGATAAGCTGAAATGACCTCCCGCCTCGCAGCAGACCTCGGATCT
TCCCGTCTTTTGTAAGTGTTCCGATCCCGAACTTGGGATTCAACTAAATG
ATTTTGCATTTAATTGAATCCCAAGTTGGCGAAAAGGAACACGTTTTGTG
CGTACCTGTGGTCTGCTCGAGGGCTCAAAAAGCAGACCAACACGCGAAAC
GAGCTCAAGTATGTTATGCGCGGGATTGTAAAGGAAGAAAAGAAAAAGAG
CCAAAAATGAAACACACAGACAGCAAGACTGCCGAACACCACCAGATCCA
AGGTGAGACTACGCTCTCCAACGTCGGACTAGACGACGCCGCCGGTAAAA
AAAAAACAGCACAACAGCAGCAGTAAGTAAACCCTCCGCTCAACAACAGC
ATTATTAATCATTTCGCACACTCCCCGCGCCCGCCGCTGCTGCATCAACA
GCAGCAGCAGGACTAGCAACAATGTGGGATGTCAACACGAAGGCTGTTCA
ATGAGGTTGAGCTGACCGCTGAGTACTGGTTGTTGTGGGATTTGATTTCG
ATTTCTGCAGTTTCCGGATAAGACATTTTACTTGGGCAAACGAAATCAGA
TGTGGCCTGGATCCTTCAGTCTTTTTCCCAGATTTGGATTCGAAGCTCGA
ATTTGATTTTGTGACAAGATCCAGCCTAATTGGACGCCACTGTACACCTC
TCGGGTAGTAGGTAAACGCTCCAACCGGGGTTACACTGTAGGAAGTCAAC
ACAGACAGGACTTTTTTTTTTTTATGCTCCACTTCCCACTGCGGTACTTG
CCTTAATTTTTTCTCACGAGAAATGGTACAGCGATCCCTTTCCCTCGCCG
ACACTTCGAATTTTGTTAAGGCGGTTTCTTGTTGGGCCGGATTTTATATT
CATTTTTTGATGGATTCCGTTTTTTTGAAAATCAGGCTTCTGACAGGCTT
GGAAAACATGAAAAAACGAACAATATTTTCCGAACAAAATTCTCCAAAGA
GATTTTGATCGGATTTTGTTCGGAAAATCCGACAATTTGCTCGAGCAGTT
CGAAAAATGTCGTTCGGAAAATATTTGGCTGGTATTAAATAAAAGTGTGT
GTTTATTTCTCTCTTTTGTGTCGGCAGAGCAAACGATATACTCCGTACTT
CGTATCATCACAACAGAGCAGCAGCAGAGAGGGAGAACTGCTGCTACTAC
TTTCTGTGTTGTTGCAGCTGCTGCTCCTGCTGCTGCTGCTGCTACTACTG
TACGGCTTTATTACTGCTGTCAAATATGTGCCTACCATCTTTCTGTGTAC
GCTTGCCTTGTCATCATTCATTCCATCGTGTTTATCAGCAACCAAAGCCA
ACCGTATGTAGCAGCATCATCAGAACAGCAGCAGCAGGAGTAGGAGTATC
GAAGCTCCTTTCCTCTGAGTGAGACCGGTATATATCTCCGCGCGTAACTC
CCCAATGAACGAAGCCACGGCAATGACAAACCCATCTCCCGTGAGCTGTG
CGTATGGCCCCCCTCGTGTGGTGATCGTTTTGGTGAGGATCACACTAGCA
TGTTCGCGAAATGGGCTTGCTCGTAGTGGCGGTGGCATGTTGTGTTGTAG
AAAAGAGCCCGAACTTTTGTTTCTTCTTTTATATCTACTGCTGTACAATT
TCTATACATAAGAGTATAAATAATTCTGCTGTACAGCAGACCGGCTGATA
GATCTTTCTCCATTGGTTTTGCATTAGTTGGCCATGAGCAAACAAACATA
CGTTGCGAATGTGCAGATGTATCCCCAACCCAAGCGATCACGACAAGAGG
GGGATCATATACACAGCTCACGGAAGATGCCTTCGTCATTGCCGTGTCTT
CATTCGTTCGAAAGTTGTGAGCGGCGATGCAAACAGGTCTCACAGCGCAA
AGAAACCATGCGGTCCTTCGATGCAGATATATACTCCGGAGCCGATTCTT
CAACCAACCACGTAAAAAAAGGATCACCGAAAGTACGAACAGGTGCCCCA
CCTACAAGAACAGCGGATCGGCAGCCGTTGACCGGGAAAAGTTCGTTCGG
ATTCTATTAAAAAATGACACAAAAATCCGGCCCTACAAGAAACCGCCTTA
CTCACGAATTAATCGCTTTCCACCCTCACGCATGACATGAGAAACATTCG
AGCAAATAATCTCCCTGTGACCTAAAATATGAGCAAAATTTGTTTTTTCG
AAATTCCCAAATGTACTTCGTATCTTTTTGTGCCGCCATATCCCTTCAAA
TATTTCCTCTCTGTCAAACGCAACACACACATCCATGATGCACGCAGACG
CACACACACGCGCGCACGCGCTTATGACAGTCAGCAGTAGTAGTGGTGGT
GCAACAGGAGTAGTACAGTAGGGGTACTGTGTGTAAGACTGGCATCGTCT
ATGATCGTACGCATAATGACGGGATATGGCAGCACAATATGATACGAAGT
ACATTATTACCAACAACAGCATAGCAGCAGCGTAAACCTGAAATAAAACG
TAGTTCTAGAGTCTGCGTAGGGCCACTTTCGGGTAGTGTATGCGAAAATC
CGGTAGCTTCCGTGGGGAAGGTAGCCAACACCGGTTATACCTGGCAGAAA
TTAGGCCTGGACCTGGTGGCGGCGCGGTTTGGCCATTCCTCATTTAACAC
GGTGACGAGAAAAATGGGAACGAACTTTGAAATGAGAACGAAGCGAAAGC
GTTTTTTCTCATTCAGATTCGAAGTTAGTATTCTATGAAGGCACCTGGCG
GAGGAGCGATGGAGGGGGGGGGGGGGGGGGGATTTTTGAATTTCTTCACC
CAGGAGGGGGAGGGGGGGCATGGTGCACCCCGAAAATGGAGGTGGCGGCG
GCGGGGGGAGCGGGGGGGGGTTGTGACGCCACACATCTCGGTTCGCAAAA
GCCAGACAATAGTTAGGGGTCGAAGGTGCCTTCGAGGTCTTCTATTTGTC
GAGTTGAAACACAAAATATTGTATCACTTCGTTCTCATTTCAAAGTTCGT
TCCCATTTTTCTCGTCACGGTGTTATTTATTTTCTAAAGCCCGGTTCAAA
GATTTTTTCTCCCCTTTTTTTTTGCCGAAACCCCTTTTTCCTTTTTCTCG
TTGTTTGAAGGAGGTGAGAGAAAGGGGTTTAACAAAAAGGGAAAAGAAGG
TTTCGGGGAAATAAAAACAACTACTGTGAACCGACCTTTACCCTCGTACA
ACGCCAAAAAATCACAGGTTGAGATAAAAAAAATGTCCTCAAAAATAAAA
CAAAAAAACGATAGAGGTCCGCTGTTGCCCAGAGCCCGACAGTCCCGCCG
TTCAAGCGCGATACTTTTTTGGACACTTGATACGGTTTGATCAATGATAA
AAAACTAGCCGTAAACGGGGCACAAAAAGGAGCGTTCGAGAGTACGCGTG
CGGGATTAGTCTTGTGGGCGGTATACACATCGTGAACACCCGTTACCGTG
CTATGGCGCAGCCAGCTTTCTCTCGAGAGCCCGATACGGCGGTATTCAAC
ACCGGCGATCACGAAGCTTTCATCAAATCACTTGCTGCAGAGGTTGAAAC
ACTATGTTTTTTCTCTTTCTTTTTTGGGGACACAATGTCCCCAACTTCCG
CTTTAGCCGTTCAGGGGTTAAGCCGTTCTTCCGATCCTTATTCTGGGATG
ATATATAGGCGTCATTGCGGGTTTTTTTGTTTGAACACGGAATGTTTGAA
TGCATTCACGAGCCTCGAGGGTATAACACCCATGTTTGTTTATGGTTGCC
AATATGTATCTGGCCATCAACAGTTAAAGTTTGTCAACTTTTTCAGATCA
AGATCTACCGTATTTCACTTGCCTAATCTTTTTTTTTTTATGGGTAAATA
TGTTGTCCAAAACGTCGTCAAACTTTCCAAATCGGCCCAAACTAGACCAC
ACCTGTAACAGTTGGCCCAACATCTGACCATCTCAGCAGTTGTCGATATC
TTGTTGAAAGTGGCGAGATTACGATACACCTCCACCCGACAGCAAGCATC
AACAGCCACTTACGTCATGGAATCTGAACGCAGCGAGCTGGTGATAGGCT
TCGTGCAACCCTAGAGTCACCGCTGTTCCAACACCTTTGCTGCTGGTATG
TGGCGGAAGCTCGCCAGGCATGCAAAAATATATCATTTGAATAGAGGCTA
TTCAAAAGGTAGGTATGTGTGCGCTGTCGTGCGTGTGACACCTCAGACAC
ACACAGCAGCAGCCGCAGCATTGTTGAAGGCGAGATATCAAAATACCATA
GCAGCAGCAGTTTCTCGCTCCCTACACCACCAGCATGATGGAAACCTTAA
CCTTGTTGGCTACCATATCCATTCTTCATCGCTATCCGTCAGCAGGACTT
TGGGGCTCATGGCAATCAACAGAGAACAGCATCGCTCGCTGTGCTGCGTA
TCGAACAATTGCTTTTAAATCATTTTCCGCGGTATCAACATTGTGGGCTC
CATTACGAATTATGGAGTATATAAATGAGGAAAATCGGTTGTTTGTACTC
CAGTTGGGCAGGTCGGACCCAGGAGCGATGCTTCTCCTCTCGGCCGATTG
AACGGATGCACGGCCATCTCAACATCCTGTTGACACAGAGCAGTGACTAG
AGGTGACAGCCGTAAAGGTTTGACCTTGAGAGATGAGTGGTGTAGGGAGA
GAGAAAGTGACTGCGATGTTCTGATGTTCAACTAATCTTCAACTGCTGCT
GCTGCTGTGCCAGACCCACACGCACGTTTGGGCCCTTGGCCCGCGAACTC
CCGACAAACATCAAGGGATAAAAGAAGAAAAGAGACCAACATTTCGCCGC
ATTTGGAAGATATCTACGAAACAAGGTGTTGTTATACTTCGTATTTTTCT
CCATGAACAGCGGGACGAGATGTCTTCGAAAAGTGGACACCTGGCTCCTC
AAATTTGTTTGACATTTATTTGAGCAAACTCTTACTTTTGACGGCCAGAA
ATGGCGGCCATAAACAGAGGTGTAATAAGTGTCTTCCCGAGGTTTTGATC
CTCAAATTCTCAATCGCATGGCAGGCATCGAGATCGACATCGAGATCGAC
TAAAGATCGGCCACTTTTTTTCGGTGGCGGAAAAAATATCTGAAAACATC
GCCTTTTTTTTTCGGATAGATCTCAAAAACGGAAATCGGTACGGATTCTC
AGATAAGCAGTTCACGAGCACGGTGAAGTGTAACTTCGGTGTCGAACTGC
TCCGAATTCATACCGACTCGGTCGTGAATGTGTAGGTGTGAGTGAACGTG
CGAGTAAAAAAAAAAAATGAGACAGAGGTGCCTTTATTTAATCTCCAAGG
TGAATGTGCCTGCCTGTCTATCTTGTCTGTCTGTCTGTCTGTGTCTTGTC
TGTCTGTCCGAGATATTGTCCATATTTGGCAACACTATGGCACCAATTCA
GCACAGGTCGTTACGACCAAGTGCTCAAACTGATAGAGTGAATAGCAAAT
AGCATCTACCCAGTGCTGCTGGGTTCACCGCAGCCCGTGTCCGATGCGCA
CAGCCATGATATGTTGTCGGACGAGCGTGACAATCGGTGTCCCTCTTTCG
TGAAAATTGAACAGAGGCGTTTTGTGTTCGTTGTTCTGGCGGAACACCAG
CTGTCCTGCGGCATTGCAGCAACGGCATACGCCACCAAACAGCAACGCAC
ACGGCCTAACACACTTATTTGAGAAGCGGCCCTACAACGCACACTGCTTC
TCAACCCCGATCCACTACTGTAGTACTGACAAGCAGTCCGCGAGCGCAGC
GAAGTGTAACAACTTCGGTGTCGAACGGCTTCGAATATGTATTGAGGAAC
AGGCCACGAGCGAAGCGAAGTGTGAGTTCCTTGTTGAACTGCTTCGAATT
CATACCGACTTGTCGTGATGTGCAGGTGTTCGGGTATGTGCGAATGTTGT
TGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTG
TTGTCTTCACATAAACAACCATTAACAAGGTATTCACCAGATTGAGAGCA
AACTGTCTAATTGAGAACGAGATTTAGACAGTGCTTTAACTTGATCAATA
CGTTCCATTTTTATTTTTGCTTTACACGCATGTTTCAGGTGAACATTGAC
ACGCCGAAACGCCGCTTGAACCTTTCAGAAGTATGGATGGGAAAAAAAAA
AAAATCGAAAAAAAATGAAAATCACGTTTTTCACGCACCGGAGATTAACG
CCCGAAACACTTTCGATCGTGAATCGCCTTTTTCGGAAAATATGGATTTT
CCATTTGCGGAAGAGTGACGGGTCCGATCCAGGCAAAATATATATCAGAT
TGATCCTATCGGCAACCGCTCTTCAAGCCGCTTCTCGGTATGTTTTGTGG
AATACCCACCGAGATATGGCATTTCGCAATTTTACGACAACATCGCCTCT
CACTCTCAATGAGATAGTTTGCTCTCAATCTGGCGAATACTCTGTTCATT
CCGATCTCTCCTCAGTACCTTCCAATGTCCGTACTCCACCGATCAGGTAC
GATTTCCGTGGTCACAGGCTGCTTGCCCCAAAAGAGGTATATAGTACTCG
GGAGATCCCCTCAGTCCACCAAATATAGGCACGACAAGGAGACTGCGGCA
AAAACAAAAACGGACCCCGAGAAATCACACAACCTGTATAAAAATAGAAG
ATACAATAAAACAAGAAAAGGAAGCCTGGTCCAGAGCCAAGTCACAAAAT
GAAATAAAAATAAATAAAAAGTCAAACATAAAATAAAAAGTCAGTCACAG
AGGAGTGACAAAAAAGACAAAAAGACAAAAAGGCACCGAATTCAGTTGCC
AAGGTGTCGATAAAAATGGACATCGGGCGTAGTACTCTCTCCACCGGCCC
AGTAACGGTTTCAGGCAGCGCAAGTTCGAATATATAAATAAAATCAAATC
GGAGACAGGGGTGCCTTTATTTAAATGTTGAGGTTTTGGTGTCTTGTCCG
AGATAATGGCCACAATTTGCAGCACCTTGACACCAGTCTGGGTTCACGGC
AGCCCGTGTCCTGTGCGCACAGCTATCTTGTCGAGGCGCGTTATTGTTGG
GGTCCCTTTTTTTTAAAAGAGACCCCAACAATAACGAATGATGAGAGGAG
TTTTGTGTTCGTTGTGCTGGCGCACACGCACACCACCACCAGCTGTTCTG
CAGCAGCAGCACTGTTGCTGTGAAGCAGCAGGCATATCATACGCCACCAA
ACAGCAGCGCACACTGCTTAACGCAGTTATTTGAGAAGCGGCCCTCCAAC
GCACACTGCTTCTCAACCCCGATCCAGTTGTACCGACTTGGTCGTCATGT
GCAGGTGTGAGCGTGGGTACGAATAGAAACAAAACGAAACAATGAGAGAA
GGGAGTGCCTTTATTTTTTATTCGTACCAACGTACCTGGTATGGAGTATG
GCGCGGCGAAGCGAGTACGTTCGAGCACGTGACTGTCATGCTCATCACCA
CCACACCACCACCAGCTGCGGCTGCAGCAGCAGCAGAAGCACTCTCCACG
GAAGGATCGGTGACAACGAGTGATGCTCCTTTACCCACGTGATTGTTGAC
ACCACCGACATCGGTGCCTCCTTCTATTTCTACCTGTCCACTAGTGTGGA
TATCGTTTCGCGCAGTGAAACGATACGATATAGGGGGGAAATGAGACGAT
AAACGATACGATTAACGAAAAAGTCGCGACTCGCGCAGCGAGCGGCGAGC
ACAGCGAGCGGACGCGCGAAATTTGGTGCATTTTCGCCTCATTTCCCATC
AAAACCGCCTTGAAATTGGCGGAGCCGAGCGTCCTTCCCGCGTGCTTCAA
TTCTTGCACACTGCACGCAACAATATTACTTCCTCTGTGTCTCATAATAT
AAACTCGATTGGGTTGTCTCAAAATATTAGCTCGACTCGTGTAGGTTCGT
TTTCTGGATGATGTCCGACCATATGTGACCCACAATGTGTCTTCCGCATA
CAGCTTGTGCACGATTTTCGTGAGAAAAACATTGTGCGGTCGATGATGGT
ATGGTTTCACCCACGGAATACATGATGCGAGACACTACCCCCTTGGGTAC
CAGTCAGATACTATGAGGAAATTGAGGTCACTCTTTTCTTGCCGTCCAGG
GGGAAGAAAATTAATATTGTTATTTTTTTTTTTTCCGACTATCATCGTCG
AACCCTCAGCTACCTGTAAAACCGCTTTCTGTATAATTTCTCTACGCTCT
TCCTTGTCAACCGGTGGAAAAGCAAAAAAAAACGTTTGGGCATTTTTGAG
GCTCGAAAACAGCACAAAAAAAAAACAAAAAGAAAAAAAATACCCAGCTA
CTGTACGTACCACTCCGTACTAGGTGTTTTTTCGAAAGAAAGGAAGAAGT
TCCATAGGGAATCGAACTCACGTACGTTGGAATGTGATATCAAGTACGAC
AGTCTGAAATCGTATACTCTGTGTAGGTACTCGAGCGAGCTTATGTTACA
GTTTGGGAAAGAGGAAGATACTTCGTACCTGGTAGTTCACAAAAAAAATT
AACATGTGCAACCCACATACTGTAATGTTGCGAGTAAACGCCCCGGGGGG
CGCTATCCCTTACCGAGGGGAAAAAGGCGCCCCGGGGGCGTTCACAGTGA
TACAGGGCGTTTTCTGTGAAACGTTTTCGAGTGCCAGCGAACCCCGGGGC
GATAAGAACTACGAAATATATAAATAAAACGTCTCTGGCCCTCCGGGGCG
ATACGAAAAAAACAAATTCTCCCTCCACACACACATAGAAACACAGCAAG
CAGCAGTAAAAGCACATCCGCAGGTATCGGTAGCGCTGAACACAGAAGAT
ACGATGAAACCACCCACCTACCTGTTGTAGTAGTACCGGAACACACCGTA
CACGGTAACATCCGTTGCCTGCTTTGAATTGCTCCGGAAACAGCCCGATT
TATTCTCTCCCTATCACATGCCAGCTTTAGCCAGCTTCGCCCCCCGGGGC
GTTTACCCCATAAATAAATGCGGAGGGGGGGGGGCGCTTACTCGCAACAT
TACGTAATTGAGAACTGGCATATGGAACTGAGAACTGGGGCATATGGCAG
ACCCCTATACGACAGCAGACAGAACATAGAGCAGCAAGTACGAGCGCAAA
ATAAAATTATATCATAGGAGGAATGTAGCATGTAGCCCCTGGTTACTGGT
ACAGAGGGCTGAGTACTGATGCTCGTAGAAAACGCGGCATCTATTACGCT
GAAAAAGCTTGAGCACAACATCGCCAAGCACGAAGACCGTTAACAAATGC
TCTGCACCGTGGACACTAAACACCTTCATGAGGACACTTCACGCTACACC
TTCCTACACCACCAAAAACATGGCTAGACAAAAGCTGCACAGTTGCTGCT
TCATAAGACACCAAATCAACGCTCCTTTTGGCCCAGTTCTTTGTGCGAAA
CCCCGGTCTCCCACGCCACCCCGCGTGCGAACCGTTGAGAAAAAAAAGCG
CATATTCGATATCGATTAACTTGTATCGTCCCCGAGGCGGTTGTGCTTTT
TGGTCACGACGCCGCCGGCCATGGACAAGTGTTGTTTGCTGTTCAGCCGT
GTGCTGTAGTGCTGCTATGCTGAGTACTGAGAGCTAAGAGCATAAATAAG
TTATTCCCCCCGCCGGGGAGGGGGTCCCGTGGGAGGACGTTCTACATCGT
CGTTAATCGTTTTAATCGTTTATCGTATCGTTTATCATTTTATCGAATGT
TTTACGATACGATACGGTATATCGTTTGAGGCGAAACGATATCCAACACA
ACTTTCTACCCCGGGGCGTGTTGTTGTGTAGTGTACTGGTCTGAAGCGTG
GTTGTGAGCTACCAACACAATACTGTGCATCAATAGAGAGAAAAGAGGAG
AGAAAGGATGAAAAATCAACTGAACAAAGTGACTTACGGGTTCAAACCTA
CCGGCTGAGTTGGGGCTCGAACCTACCGGCTAGTTTGTCACCTGCACCTG
ATACTGTTGGCGTGGCTGGCTAGTAGTGCAGTGGATATGTGTAAAAACCA
ACATATACTACCCTGTTCGAGACTGCAATATGCTTGCGGTATTGCAACAT
GTTTCTGTGCGGTAATTGGGACTTTCAAAGTTTTTGGGCAACTATAACCG
CGGTCTCGATACATGGCGGGATTTGCGTTATTTTCGCGGTAATTTGTTCC
GCAGGAATGAGACAATTGTCTCGTTCCGGTTTCTATTGTTTGGGAATGGG
ATAATTGTTTTGTTGCGTTAAATGATTGTTTCGGAATGGGACAATTTAAA
AACGCGGTAACGCCAAAAGTCCCGTTACCGCGGTAAATACCGCGCGGTAA
ATACCGCGGTAAAACTACCGCGGGAGAATTACCGAGACGCCCCTCGCAAA
TTTGCAGGGGTCGTCTCGATAATTTACCGCGCATTCGCACATGGTATTGG
AAAACAAGAAGTGGACCATCCGATACTCCGTAATGTTCACTTTCTTGTGA
TGGATTTGCCGTTGTTCACCCCTTCTTCGCAACTCGTTTGGTGGATTCGC
CGAATTACCACGCTACTGCGGTGAATTATCGAGACGAATTTGTGAGTTCC
TCTGACCGACTCTCATGGTCGGTATATTTAAGCCTTTTACGTCGGAAACT
CTTTTTTTCGGCCTCGAACGGTTGGCCAGACCAAATGGGGGGTGTTATCT
TCTGGAAAGTCAGGATAAAAAAATCAAAGGGGGTCGTGAATACTTTGCAA
TCCGAGAAAAGGTGGGTGGGTGTGTTCGGAAGACTTACAGTAGGTAATGG
ATGATAACATCCCGCCGACATTGTTGGGAGATCGGAAGGTCTCTTCAGGA
AAGAAGCATAGCAATCAGTCGCCGTCTGGCAGGGCCAGGTTCTGGTGATG
ATGTGTAGTTTGTGCATTGTGCCTCTCCTCTTGTTCTCCCAATTTGTTTG
CTATCATAGTAGTAGTAGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTT
GTTATATTTTTTTTCTCTTTGATGTGTATGATTGTCACATTATTGGCTCA
CCACCAGAGAAAGTACAGCCCATGGTCACAAATCAGGCACTCGTGCATAT
TTATCTATCTCGTGTTTGAGGGAAAATGGTACTTCAAGAAATACGAAAAA
CAAACAACACGTGTTACACGATGGCTCGGATGATTACTCAAAAGGCGAAA
AAATTGAGAGTGAGCAGCTAGGACATGACGGGCACTTTACATGAAATTTG
TTCGGCGTTCCCTTGCATCTCATCATGGATATCTGGGAACAGTTTGTATT
CGTGACGGAGACTGGTTCGTGAAAATCTCCGTGGAATTTCAAAGTCCTCC
TGACGGCGCTTGAGCATGAAATCTAGCATATCCTGGACTGAAAATCCGCC
GACCATGAGAGTCGGCGTCAGGTATTCGGCAAAGAGCTGTCAGATTAGAT
TTGTGATCAGGTTATTGAGTTTGGAACGTACAAAATCGCATTAGTCCAAT
ATTTGAGTTCGCAAACACTCTTCTAAAATCAGATTCAGCCCGTCCATGGT
ACCCATAAAAAAACAAAATATAATTGTAGGTATCCTGCCAAAGCTGAAAA
CATTGTAAACCACAAGTCCATCTACCATGCAACACCTCGTGTCCAACCGT
TCAGACGTCCTCGCTCACCCCTGCTTGAGGCTCAGGTTCCCAATAGGCCT
CCGTTTGTCGCTGACGTCGCAAGATTTTGTTACGTGGAACAATCGAATCT
TTATGCGGGAAGGGCGCCAACCACCGCTCCTGGTCGTTACAAACGTCAAA
ATTTCTTCGAAAATGGGCAGATATTATGGATTTCAACCTACAGATTATAG
TCCATTATCTTGGAATTGTCCTAGGAGGAACAAGTGGTGCTCGAACTGGT
CGTTGACGAAGCGAAATTGTTTCTTGTATTCTTGCAAGCACGTTGTTAAA
ACTCGTTTTTTTTGCAACAGCTGCAAAATGGCGAGTCTTCATAGCCCATG
AACAGCAGAGTCTTTTCTCATCTCTCTATTCACACCTCTCTCCCCTTCAT
CTATCACTCCATCGACCGTACAATGTTAATAGTTGATCACTTCATGCTTG
TTTTTCGCCCGAGGGTCATCGCTGCACACCCTTTTGTGTCTCTTTGAGTC
GTTGCGAGGGAGTATTCGCTGGTGTAGCCTCCTGCGGCCAAACGACATAT
GATAAGAGCGGCGAGATAAATTTCTGTTGTCTGCTGTGTGCACCTCTTGA
AATGTACATAAATGCACCTGCTTACCACACGTGATAAGAAGAAGGCACTG
CCTGGCCTCCTATGAGTTGGCCGGTATCACGAGGATTCATTAAATAGATG
TTAGGATTCAGGTAGAAAATCTTCCATGAACTGCTGTAGAAATACGTGAG
AAATACGTGTGATTCTTGGCATGTTTAGTTTTGTACGAAATTCATGTCTC
GTTACTTGTACAACATAGTCAGACATCAGTGTCCGAGTTCGCATGGAACA
TGGACAACACGAAAAATTACAAGACATCGTTCGTTGGTGTGACGTTGTGT
GAAGTGTGTGTTGATAAACTTGACTGTCATTGTTGCAGCCAGACGAAGCC
CTTTGACTGCAACAAAAACTAGAGAGTTGCAATTGAAGCTGTGCGAAAGT
CGAGCCCTTCGTAACCCACCACGTATGTATGTAGGCGTCTTTCTACGTCA
CGAGGCCACCCGGTGCCGCAGAGCGAGCCACAGATTCTCCTCTTGTACAC
TTTTTTGCACACTCCCTTTTGACTTGGATATCTAATTCAGATATGGTTGA
TTCGCGCTATCTACTAGCGTGGTGAACGTCCCCTTCGGCAGCCGTAAACG
CAACTAGGGCAAGGAGGCAATCGGCTTGACTGTAAATATTGTGCACCCCC
TCGCCCTACATCTGACCTTTGGAAGGCGTGAAGCCCAGATTCACTTCGCG
ATGCATCACGAGAACATTGTACGCGTCCTGGGGTTCAACGTGGACGACCC
ACAGCGTCCACCGTGCCTGGTCATGGAGCTCATGGACGAATCGCTGCATC
AGTACATTCAGACGCCGGCAATCTCGCCTTCTGTGGCAGAGCGCCTGGAC
ATCGTCAGCGGCGTTGTCAAGGTGCGTACGCATGTGCCGCGCTCTACGCG
AACGTCGACTGCAATTTGTTCCTTGCAGGACAAGTCTTGTGCAGCGATGT
GCTCGGCCGCTCGTCAAAAAAACGCCTTTTTTCCCACCGACTTAACGAAA
GTAGAAGAGGTGGCGCGCAAAGCGAATGTGTACACTTGCCAGTTGCTGCT
ATTTCATCTTTTGTACTTCGTTTCCTCAGGGTCTTCATTTCCTGCACAAG
CGTAAGATCGTCCACTGCGATGTCAAGAGCTTAAACGTGCTTTTGGACAG
CGATGGAACCGCCAAGCTCTCCGATTTCGGCCTCGCTGTTGTCAACGCTT
CTGTGGCGAGAAGCACCAATGCGCCTTCACACAAGCAGGTGGGCATACCA
CGAACCTTTTGAGACAGACGGAGCTATTGAACGTGTTTCCACATATCATT
GATGTTGATTTCTTGGGTTTGTAATAGATTGTTGTTGCTCTCGCACTGAA
CACAGCAGATGCTTTTCTCTCCTTCCATTTTATTTTTCTCTCCAGTTTTC
CTCCTTACCTACCCTCCCGACTACTTCTGTTTCTTGTTTTCCTTCGTGAT
CATTTCGACTTCGTCGTTCGTCTATCTCCATGTTGCGCCTTTTTTTTTTT
CTGGGGCTGACATTTCCTTTTTGGGCCTTATAGTTATCGGCATTTTCAGT
TTTCATATCAAATCGATTCTAAAATATCTGCATTTTTTGGTTTTCGGTCA
CGACCCCAAGATATCTCTTGGTTTGGAGGTGTCTACGCCTTGTGTTCTCA
TCTGTGGGGGTAGCATTTTTTCCTTTGTTCTGGCGTCGTTTTTCCTCCTA
GCACGGTGGCCCCGGTGGTTCAGTTGGTTATCCACGCGACCTTCTGACAT
TCATGCGTGAGTTCGAATCCCAGTGCAGTGACACGGTCTGGGTCTTCTTC
TCACATTGCGCGTGAAAGTGGAAAGCGATCAATTCGTGAGTAAACAAAAT
TCGATCGTACCATCGACGAGGGAAAGGGATTGCTGTCCCCTTTCTCGCGA
TAAAAGCTCAACCAAAAAGGCAAGCACCGCAGAGGGAAGTGGAGAAAAAA
AAAAAAACTCCTGCGTTGACTTCCCCCTGTGTGACCCCGGTTGGAGCGTC
TACCTACCCGAAAGGTGCAGAGTGGCGTCCAATTAAAGGGATGCCAACAC
ACACACACGGTATGTGCCAAGTGTGTGACCGCAGGCGAAACGATAGCGGT
GATCTAACGTTATTAATCAAGAACAGAGGGTGGCCTTGTTTCAGGTCCGA
GTTGGATGATGGTGTGTTTGATTTGCAGCCATCCCGACTTTCGTACCAAC
CACTACCTCCAGCAAACGCCGCTTGACACAGACGACATGTGAGTTTGAGG
CAAGAACACTAGCGCCACTCTTGGCCAGCTTTCAGGTAATCGTCTAGGAT
GTCTTCTAGTTTCAACTAGTATTTTCTTGTTCCTGTGGATATGGAGTACG
CCATGTGTTGAAAGGGCCCCTGGTGTTCCCTTAGGCGGCTTACTGTATTA
TCCTGTATACTTTATTGCTCTCGCGGTGGGGCGATCGGTACCATGAAGTA
TTTAGCTCAATGCCCACGGTCGTGTTTCGCCTCAAGGGTTGTTTCCTACT
CCGGAGTAATTGTTTTCTGTGGACAACGTCGTCTCCAGGCGATCAGCTCT
AGTTTCCACTGTATAGATTAGTGAGAATGCTCCATCACTAATCTGACGGG
TTTTTCCCGCGCGTGGCTTGAACGCGCAAAGGCTTTGGTATACTTCATTG
GCTGTGTTGCGCACTCGTGGCTAGTGTTTCAGATAATACACCGATAACCG
TGGAGACAGCGATTCTCGTCAAAACACTTGTGACTTTCATAACCATCAAT
ATTTTGGAGTCTAATCTTCGCCTTCCAAAAGTTCCGTACCCTGTGGTGCG
ATGATGTGTCGTTCTTCCATTTTCCCCTGCCCTTGTTTCATGTATCGCGG
TGGAATTGTTTTGCCGCTATGGCAACTGCTGTTTTGGACAAAACCACCGA
CTTGCGCCATGAAACCTGAACGTGAAGATCTGGTAAAGTGCTCCGGGAGA
CCCTAGAGTTACTGCTGTACAAGATCAGTCTGGAGTGGAAACGTGCCAGA
CATACAAAAATATCTACAGAGTTTTTTTAGTATTCGGTGCCTTTGATTGT
CTGAGGTCAGGTGTGAGCGTGTAATTCATTGGCGGCCGTTCATCTAGACG
TTTAAGCGAGGTCAGACTACACGACAGTCACGTTCTCGTTCCCTTCGCCA
CCTTTCGACGCGGAACCCTGCTGGCTGTCACTTCCATCCCCTGCTCGCAT
TCGGTGGGTCGTTGAGTTGCAGGTGGGGTCATTCGATCGACGGCAAAGTA
GCATTGCTGTTTGTCGGACCTGTTCTACTCCTGATGTACGAACATTACCA
GGCGGCAGAACAAGTGTCTGTCCATGAATAACAGCAGCCACCCTTTAATA
AATTCAAGCGCGCGTGCTACGGCCAGAACTTGGCTGGTGGTATTGCCTGC
CCAAGCTGCACGATATGCAAGTGCTCAACATACAGTGGCCAGGAGGGGGA
GAGATCCGTCGGACGTGTGCGACACTCTTTCTCACCGGGAACACTTCCAG
CAATAAGGGGATCATTCTTCGGACAAACAAAATAGGCTACGTCCGAGGGG
AAGGGAAACCTCCGGCGGGAGGCGCTAAAACACAGTTCGTCCTACCTCTG
CGCCCGCTGGGCACACACCCGCTACCTGTCGACCCCTCGCTGACTGAACC
GCCGATGTCGGGAAGAGAGGGCTGCAGTGTTGTTGCTCAACGTACAGTAG
AGGGAGTTGGTTGAGACTGTTGTCCGGCGCTACTGTTGAGCTTCCTCGTT
TTTGTCTTCTGATACTTGCGGGGTTTCCATTCGTATGTTATTATAGGGCT
TGATTTACGTGCCGTACCATACTTGTGGAGTTTACTCCGGTTTCAAAACC
TATTGCTGCTTTGCATTTCTGCTGGCCACATTCTTGCGATGGTCTACTGC
TGAGAGTCACTGTTGCTCTGATATTATGTATTTCGAAATATCATCTTCCG
TAATTTTTGTTGAGACGGATGCACTCGACGCGATGATCCAAAGAGAGAAG
ACAACATCGACTACAAGGACATCAATAGCAGCTACCGACATCACCATCGT
TGTTGCATCCACTCGAGCATTTGAGAAGCTGTAGCGCAAGGCGATAAAAC
GATATCATGACCTGAGCGCGTGGAAGTCGACGCTGCGTACATTTATGTTT
TATGTCGCAGCGGTTGGATTTGTTGACAAGCGCCTTTGGAATAACCATCA
TCTCGCCGCCTTGGACGGGATCTTCCAGCACTACAAGGTTAGGGGAATGT
CCACCGAAAATGCCCTTCAGAGGGCCGGAACCGTGCGATCAAAGAACCAT
CAGCCGCATTCCCAAATCAGTTTTCTCCATGAAACGTGAAATAAATTGCT
CATGGGTAAATGTTGGAAATGTATGGTTTCGACGATTTTATCGTCATTGT
AATCGACATAACTGCACACTCACGATCTGTATGTGCCACCAGTCACGTCT
GCATTTTCTTTCTCTTGGTATCCCTTATTTGCCTTGCTACGCAGGGCGGG
TCCATCCCTTGGATGGCGCCTGAGGTCTTCAACGGAGCAAAGGCCACCTG
CGCGTCAGACGTCTTCAGCGTGCATGTTGTCATGTGGGAGGTGCGTTGAC
CGAGTCCATACGTGGTGTTGTTTGAATATTTGGGTTGTTTTTGATTTTGA
TATTAGTTGTTTTCCCAGCAGGGCGGCTCTAGTTATTTTCGCACATGAAG
CTGATTCAAGCACTACGGTGACCTCCGGCTGTGTCTTCTCCGCTGTCTCT
TTACAGATCTTAGAGCACCGAACGGCCGACTCGCGTTCTGTTGCAATCGG
GGAAGATCTCTTGCGGTCTGGAGAGGCGAAACTCTCTCTTGATGGCGCTG
ACTCCACCCCAATACTTTCCCAGATGCAAGCCCTTTTGCATCGATGTGGG
TCTCTCGACAGCAAGCAGCGACCAAGCATGGACGATGTCGCCCGTGAGGT
CGGTCAGGTTGTCGAACTGGCCGACACCGCATCTCGCCCCACAGCGGCGG
ATGATCGCGCTGTGCTGACGACTCTCCTAGGAACGTGTGGGGGGCTCCAG
CTAAGCAAGGGGGGGTCGTGGCAACCAGACAAGGAGCTGTCTGCGTGGGA
TGGTGTTACC back to topCoding sequence (CDS) from alignment at P-littoralis_Contig676:75906..100115- >mRNA_P-littoralis_Contig676.21.2 ID=mRNA_P-littoralis_Contig676.21.2|Name=mRNA_P-littoralis_Contig676.21.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1596bp|location=Sequence derived from alignment at P-littoralis_Contig676:75906..100115- (Pylaiella littoralis U1_48)
ATGGCAATGGATGTGGTGAGCCTGATTTCATTTTCGTACGAAATCGGGTC
TGCGCTGATCAAGCGTTGCCAGGATGCAAAGCAATGCCACACTGAGGCAA
CCCGCATCGCTGTTCGCACAAGCCGCGTTCTGGGCTCATTGGAGAGTGCA
GCCGGCGAGTTCTCGGATCAAGAGTGGTTTGAGACGAGCATGAAAGAGCT
GAAGAAGGCGCTCGAGGATGCGCATGATCTCGTTGGCAAATGCAAAAAGC
CACGGACACTTAACCAAAAAGTGATCGCTGTAAGGAGGGCGAATACTCTG
AGAGATGGCCTTCAGAGAGCAGAAGCCGAGCTTGAGCGCGTTATGGAGGA
CCTAAAAATTCCTATGCAAAGCGACATCAAGAGGGCAGTGGCAGATATCG
GCCAAAGAGTCGAGGATATGATTGCTGGGTACGATGCGGAGGCACTGATG
AAAGCAGTTCAAGAAGTAATCCGGCAGGAGCTGAACGCTCCGAGAGGGGG
GGTATCGACGGGCGACGCCATCCATTCTCACTTCTCAAGGCTCGCTGAAG
CCGCCGATGTAGACGATGCCCCAAGTGCAGAGCGAAAGTCAGGAAGCAAG
GCGGGGGAGGGGTTCAACCTCATTCATTTACTTGGCAGCATACCCTACGA
CATGCTTGAAGAGGACGAGGATGGCATCCTCGGGGAGGGAACATTCGGTA
TCGTGGTCTCTGGGACGTTCAAGGGCGAGGAGGTGGCGATCAAGAAGGCA
ATAGGGCCGGTTGGCGACAGGATTGTGCTGACGTCTTTCAGGCGTGAAGC
CCAGATTCACTTCGCGATGCATCACGAGAACATTGTACGCGTCCTGGGGT
TCAACGTGGACGACCCACAGCGTCCACCGTGCCTGGTCATGGAGCTCATG
GACGAATCGCTGCATCAGTACATTCAGACGCCGGCAATCTCGCCTTCTGT
GGCAGAGCGCCTGGACATCGTCAGCGGCGTTGTCAAGGGTCTTCATTTCC
TGCACAAGCGTAAGATCGTCCACTGCGATGTCAAGAGCTTAAACGTGCTT
TTGGACAGCGATGGAACCGCCAAGCTCTCCGATTTCGGCCTCGCTGTTGT
CAACGCTTCTGTGGCGAGAAGCACCAATGCGCCTTCACACAAGCAGGGCG
GGTCCATCCCTTGGATGGCGCCTGAGGTCTTCAACGGAGCAAAGGCCACC
TGCGCGTCAGACGTCTTCAGCGTGCATGTTGTCATGTGGGAGATCTTAGA
GCACCGAACGGCCGACTCGCGTTCTGTTGCAATCGGGGAAGATCTCTTGC
GGTCTGGAGAGGCGAAACTCTCTCTTGATGGCGCTGACTCCACCCCAATA
CTTTCCCAGATGCAAGCCCTTTTGCATCGATGTGGGTCTCTCGACAGCAA
GCAGCGACCAAGCATGGACGATGTCGCCCGTGAGGTCGGTCAGGTTGTCG
AACTGGCCGACACCGCATCTCGCCCCACAGCGGCGGATGATCGCGCTGTG
CTGACGACTCTCCTAGGAACGTGTGGGGGGCTCCAGCTAAGCAAGGGGGG
GTCGTGGCAACCAGACAAGGAGCTGTCTGCGTGGGATGGTGTTACC back to top
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