mRNA_P-littoralis_Contig18.11.2 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig18.11.2
Unique NamemRNA_P-littoralis_Contig18.11.2
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig18.11.2 vs. uniprot
Match: F2UIZ4_SALR5 (Arginine kinase n=1 Tax=Salpingoeca rosetta (strain ATCC 50818 / BSB-021) TaxID=946362 RepID=F2UIZ4_SALR5)

HSP 1 Score: 518 bits (1333), Expect = 3.310e-174
Identity = 252/392 (64.29%), Postives = 295/392 (75.26%), Query Frame = 3 
Query:  444 ATKGMEDAAGPAFTVHGESSGKWSSD---LARIEELKTSHPDNLMAKHFDVDYFNTLSCDDKNGLLQCCRSGIANPDSKMGVYAMQTTDYERFRPFFSSVLADNHGVPSGAKHVNSWDLKAVDGVPTDGLLDLEKLGAPALSMRVRVGRNLNGFPLPGGMTHADRVQLEQKLCAAFDKLRAMPEYGGRYHSLTEGHPHKVGINEYERLVDEHIMFKDMSGDPYLAASGISGDWPSGRGCYVSEDRGFIIWVGEEDHLRIMCMEPRGTVLNEVFDRLQVVLKVVESFKGIEFAESPDYGVVTSCPTNLGTGMRASVHLALPKLTQGGSDDSRVKAVTKPLALSVRGIGGEHTPIGKDGTCDISPSKRLCITEAEIIMALYSGIRALMSEEQKA 1610
            A K  EDA         E     SSD   ++ +E+++   P+N MAKHFD  YF  L   +K  L+QCCRSG+ NPDS MG YAMQ  DY+RF+PFFS V+AD HGV   AKHVNSWDL  V+G+P  G LDL  LG PALSMRVRVGRNL  FPLPG MT  DRV LE+K+C AF+KL+AMPEYGG Y+SLT GHP K+   EY++LV +HIMFKDM+ DPYLA++GI+ DWP GRGCYVSEDRGF+IWVGEEDHLRIMCM+ +GTVLN+VFDRL+  L VV   +G+ FA SPDYGVVTSCPTNLGTGMRASVH+ LPKLT  G+D ++ K V KPL LSVRGIGGEHTPIG+ G CDISP  R CITEAEII ALY GI+ L  +E +A
Sbjct:   55 AAKEKEDAT--------EGGADLSSDEGVVSTVEKIRKEQPENRMAKHFDAGYFQGLGDAEKKALVQCCRSGLENPDSSMGCYAMQPADYDRFKPFFSKVIADYHGVAEDAKHVNSWDLSGVEGLPEGGKLDLAALGLPALSMRVRVGRNLADFPLPGAMTQEDRVSLEKKMCEAFEKLKAMPEYGGGYNSLTPGHPDKISDEEYKQLVADHIMFKDMAADPYLASAGIASDWPYGRGCYVSEDRGFVIWVGEEDHLRIMCMK-KGTVLNDVFDRLKTALDVVSGIEGLSFAMSPDYGVVTSCPTNLGTGMRASVHIGLPKLTADGTD-AKAKEVCKPLGLSVRGIGGEHTPIGEGGVCDISPRARFCITEAEIICALYKGIKLLKEKEDEA 436
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BLAST of mRNA_P-littoralis_Contig18.11.2 vs. uniprot
Match: A9VA11_MONBE (Predicted protein n=2 Tax=Monosiga brevicollis TaxID=81824 RepID=A9VA11_MONBE)

HSP 1 Score: 507 bits (1306), Expect = 1.930e-171
Identity = 242/348 (69.54%), Postives = 276/348 (79.31%), Query Frame = 3 
Query:  567 MAKHFDVDYFNTLSCDDKNGLLQCCRSGIANPDSKMGVYAMQTTDYERFRPFFSSVLADNHGVPSGAKHVNSWDLKAVDGVPTDGLLDLEKLGAPALSMRVRVGRNLNGFPLPGGMTHADRVQLEQKLCAAFDKLRAMPEYGGRYHSLTEGHPHKVGINEYERLVDEHIMFKDMSGDPYLAASGISGDWPSGRGCYVSEDRGFIIWVGEEDHLRIMCMEPRGTVLNEVFDRLQVVLKVVESFKGIEFAESPDYGVVTSCPTNLGTGMRASVHLALPKLTQGGSDDSRVKAVTKPLALSVRGIGGEHTPIGKDGTCDISPSKRLCITEAEIIMALYSGIRALMSEEQKA 1610
            MAKHFD DY+NTLS DDK  L++CC+SGI N DS MG YAMQ  DY+RF+PFFS VLAD H V   AKH N+WDL  V+G+P DG LDL  LG PALSMRVRVGRNL  FPLPG MT  DRV LE+K+C AFDKL+AMPEYGG Y+SLT  HP  +    Y++LV +HIMFKDM+ DPYLA++GI+ DWP GRGCYVSEDRGFIIWVGEEDHLRIMCM  +GTVLNEVFDRL+  L VV   +G+ FA SPDYGVVTSCPTNLGTGMRASVH+ LP LT  G+D ++ K V +PL LSVRGIGGEHTPIG+ G CDISPS R CITEA+II ALY+GI+ L  EE KA
Sbjct:    1 MAKHFDADYYNTLSDDDKKALIKCCQSGIDNGDSGMGCYAMQPADYDRFKPFFSKVLADYHKVSEDAKHTNNWDLSGVEGLPADGCLDLAALGLPALSMRVRVGRNLADFPLPGAMTKDDRVNLEKKMCEAFDKLKAMPEYGGGYNSLTPEHPDHISEEAYQQLVKDHIMFKDMAADPYLASAGIAADWPYGRGCYVSEDRGFIIWVGEEDHLRIMCMR-KGTVLNEVFDRLKTALDVVNDIEGLSFAMSPDYGVVTSCPTNLGTGMRASVHIGLPNLTADGTD-AKAKEVCRPLGLSVRGIGGEHTPIGEGGVCDISPSARFCITEAQIITALYTGIKLLKEEEDKA 346
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BLAST of mRNA_P-littoralis_Contig18.11.2 vs. uniprot
Match: A9V9A8_MONBE (Predicted protein n=1 Tax=Monosiga brevicollis TaxID=81824 RepID=A9V9A8_MONBE)

HSP 1 Score: 520 bits (1340), Expect = 9.170e-171
Identity = 248/363 (68.32%), Postives = 286/363 (78.79%), Query Frame = 3 
Query:  522 LARIEELKTSHPDNLMAKHFDVDYFNTLSCDDKNGLLQCCRSGIANPDSKMGVYAMQTTDYERFRPFFSSVLADNHGVPSGAKHVNSWDLKAVDGVPTDGLLDLEKLGAPALSMRVRVGRNLNGFPLPGGMTHADRVQLEQKLCAAFDKLRAMPEYGGRYHSLTEGHPHKVGINEYERLVDEHIMFKDMSGDPYLAASGISGDWPSGRGCYVSEDRGFIIWVGEEDHLRIMCMEPRGTVLNEVFDRLQVVLKVVESFKGIEFAESPDYGVVTSCPTNLGTGMRASVHLALPKLTQGGSDDSRVKAVTKPLALSVRGIGGEHTPIGKDGTCDISPSKRLCITEAEIIMALYSGIRALMSEEQKA 1610
            L +I  +K +HP N MAKHFDVDY+NTLS DDK  L++CC+SGI N DS MG YAMQ  DY+RF+PFFS VLAD H V   AKH N+WDL  V+G+P DG LDL  LG PALSMRVRVGRNL  FPLPG MT  DRV LE+K+C AFDKL+AMPEYGG Y+SLT  HP  +    Y++LV +HIMFKDM+ DPYLA++GI+ DWP GRGCYVSEDRGFIIWVGEEDHLRIMCM  +GTVLNEVFDRL+  L VV   +G+ FA SPDYGVVTSCPTNLGTGMRASVH+ LP LT  G+D ++ K V +PL LSVRGIGGEHTPIG+ G CDISPS R CITEA+II ALY+GI+ L  EE K+
Sbjct:  284 LEKIAAVKAAHPGNRMAKHFDVDYYNTLSDDDKKALIKCCQSGIDNGDSGMGCYAMQPADYDRFKPFFSKVLADYHKVGEDAKHTNNWDLSGVEGLPADGRLDLAALGLPALSMRVRVGRNLADFPLPGAMTKDDRVSLEKKMCEAFDKLKAMPEYGGGYNSLTPDHPDHISEEAYQQLVKDHIMFKDMAADPYLASAGIAADWPYGRGCYVSEDRGFIIWVGEEDHLRIMCMR-KGTVLNEVFDRLKTALDVVNGIEGLSFAMSPDYGVVTSCPTNLGTGMRASVHIGLPNLTADGTD-AKAKEVCRPLGLSVRGIGGEHTPIGEGGVCDISPSARFCITEAQIITALYTGIKLLKEEEDKS 644
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BLAST of mRNA_P-littoralis_Contig18.11.2 vs. uniprot
Match: A9UNP9_MONBE (Uncharacterized protein (Fragment) n=1 Tax=Monosiga brevicollis TaxID=81824 RepID=A9UNP9_MONBE)

HSP 1 Score: 516 bits (1330), Expect = 2.180e-169
Identity = 247/363 (68.04%), Postives = 286/363 (78.79%), Query Frame = 3 
Query:  522 LARIEELKTSHPDNLMAKHFDVDYFNTLSCDDKNGLLQCCRSGIANPDSKMGVYAMQTTDYERFRPFFSSVLADNHGVPSGAKHVNSWDLKAVDGVPTDGLLDLEKLGAPALSMRVRVGRNLNGFPLPGGMTHADRVQLEQKLCAAFDKLRAMPEYGGRYHSLTEGHPHKVGINEYERLVDEHIMFKDMSGDPYLAASGISGDWPSGRGCYVSEDRGFIIWVGEEDHLRIMCMEPRGTVLNEVFDRLQVVLKVVESFKGIEFAESPDYGVVTSCPTNLGTGMRASVHLALPKLTQGGSDDSRVKAVTKPLALSVRGIGGEHTPIGKDGTCDISPSKRLCITEAEIIMALYSGIRALMSEEQKA 1610
            + +I E++ SHP N MAKHFDVDY+ +LS DDK  L++CC+SGI N DS MG YAMQ  DY+RF+PFFS VLAD H V   AKH N+WDL  V+G+P DG LDL  LG PALSMRVRVGRNL  FPLPG MT  DRV LE+K+C AFDKL+AMPEYGG Y+SLT  HP  +    Y++LV +HIMFKDM+ DPYLA++GI+ DWP GRGCYVSEDRGFIIWVGEEDHLRIMCM  +GTVLNEVFDRL+  L VV   +G+ FA SPDYGVVTSCPTNLGTGMRASVH+ LP LT  G+D ++ K V +PL LSVRGIGGEHTPIG+ G CDISPS R CITEA+II ALY+GI+ L  EE KA
Sbjct:   31 VRKILEVRESHPGNRMAKHFDVDYYLSLSDDDKKALIKCCQSGIDNGDSGMGCYAMQPADYDRFKPFFSKVLADYHKVGEDAKHTNNWDLSGVEGLPADGRLDLAALGLPALSMRVRVGRNLADFPLPGAMTKDDRVNLEKKMCEAFDKLKAMPEYGGGYNSLTPDHPDHISEEAYQQLVKDHIMFKDMAADPYLASAGIAADWPYGRGCYVSEDRGFIIWVGEEDHLRIMCMR-KGTVLNEVFDRLKTALDVVNGIEGLSFAMSPDYGVVTSCPTNLGTGMRASVHIGLPNLTADGTD-AKAKEVCRPLGLSVRGIGGEHTPIGEGGVCDISPSARFCITEAQIITALYTGIKLLKEEEDKA 391
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BLAST of mRNA_P-littoralis_Contig18.11.2 vs. uniprot
Match: F2UA06_SALR5 (Arginine kinase n=1 Tax=Salpingoeca rosetta (strain ATCC 50818 / BSB-021) TaxID=946362 RepID=F2UA06_SALR5)

HSP 1 Score: 520 bits (1338), Expect = 5.150e-169
Identity = 244/358 (68.16%), Postives = 286/358 (79.89%), Query Frame = 3 
Query:  528 RIEELKTSHPDNLMAKHFDVDYFNTLSCDDKNGLLQCCRSGIANPDSKMGVYAMQTTDYERFRPFFSSVLADNHGVPSGAKHVNSWDLKAVDGVPTDGLLDLEKLGAPALSMRVRVGRNLNGFPLPGGMTHADRVQLEQKLCAAFDKLRAMPEYGGRYHSLTEGHPHKVGINEYERLVDEHIMFKDMSGDPYLAASGISGDWPSGRGCYVSEDRGFIIWVGEEDHLRIMCMEPRGTVLNEVFDRLQVVLKVVESFKGIEFAESPDYGVVTSCPTNLGTGMRASVHLALPKLTQGGSDDSRVKAVTKPLALSVRGIGGEHTPIGKDGTCDISPSKRLCITEAEIIMALYSGIRALMSEE 1601
            +I +++ S+P+N MAKHFD+ YF  L  D + GL+QCCRSG+ NPDS MG YAMQ  DY+RF+PFFS V+AD HGV   AKHVNSWDL  V+G+P  G LDL  LG PALSMRVRVGRNL  FPLPG MT  DRV LE+K+C AF+KL+AMPEYGG Y+SLT GHP K+   EY++LV +HIMFKDM+ DPYLA++GI+ DWP GRGCYVSEDRGF+IWVGEEDHLRIMCM+ +GTVLN+VFDRL+  L VV   +G+ FA SPDYGVVTSCPTNLGTGMRASVH+ LPKLT  G+D ++ K V KPL LSVRGIGGEHTPIG+ G CDISP  R CITEAEII ALY GI+ L  +E
Sbjct:  111 KINQIRESNPENRMAKHFDIAYFMELDKDQQRGLVQCCRSGLENPDSSMGCYAMQPADYDRFKPFFSKVIADYHGVAEDAKHVNSWDLSGVEGLPEGGKLDLAALGLPALSMRVRVGRNLADFPLPGAMTQEDRVSLEKKMCEAFEKLKAMPEYGGGYNSLTPGHPDKISDEEYKQLVADHIMFKDMAADPYLASAGIASDWPYGRGCYVSEDRGFVIWVGEEDHLRIMCMK-KGTVLNDVFDRLKTALDVVSGIEGLSFAMSPDYGVVTSCPTNLGTGMRASVHIGLPKLTADGTD-AKAKEVCKPLGLSVRGIGGEHTPIGEGGVCDISPRARFCITEAEIICALYKGIKLLKEKE 466
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BLAST of mRNA_P-littoralis_Contig18.11.2 vs. uniprot
Match: A0A661GWD4_9GAMM (Uncharacterized protein n=1 Tax=Gammaproteobacteria bacterium TaxID=1913989 RepID=A0A661GWD4_9GAMM)

HSP 1 Score: 489 bits (1258), Expect = 6.170e-164
Identity = 239/365 (65.48%), Postives = 277/365 (75.89%), Query Frame = 3 
Query:  513 SSDLARIEELKTSHPDNLMAKHFDVDYFNTLSCDDKNGLLQCCRSGIANPDSKMGVYAMQTTDYERFRPFFSSVLADNHGVPSGAKHVNSWDLKAVDGVPTDGLLDLEKLGAPALSMRVRVGRNLNGFPLPGGMTHADRVQLEQKLCAAFDKLRAMPEYGGRYHSLTEGHPHKVGINEYERLVDEHIMFKDMSGDPYLAASGISGDWPSGRGCYVSEDRGFIIWVGEEDHLRIMCMEPRGTVLNEVFDRLQVVLKVVESFKGIEFAESPDYGVVTSCPTNLGTGMRASVHLALPKLTQGGSDDSRVKAVTKPLALSVRGIGGEHTPIGKDGTCDISPSKRLCITEAEIIMALYSGIRALMSEEQK 1607
            S+ +A+I+ LK   P N+    FD DYF TLS + K  LL+C  SGI NPDS+MG YA Q +DY+ F+PFFS VLA  H VP G +HVN W+LK V G+P DG+LDL +LG PALSMRVR GRNL  FPLPG MT  DR+ LEQK+ AAFDKL AMPEYGGRY+SLT G+P  +   +Y  LVDEHIMFK+M  D YL A+GI+ DWP GRGCYVS DRGF IWVGEEDHLRI+CM+ RGT+LNEVFDRL+    VVE  +G+EFA S DYGVVTSCPTNLGTGMRASVH+ LP LT  G+D SR  A+ +PL LSVRG+GGEHTPIG DGT DISPS R CITEAEI+ ALY GI  L +EE K
Sbjct:    3 SNIIAKIKALKADWPGNIALACFDPDYFATLSENHKARLLKCLNSGIENPDSEMGCYACQPSDYDDFKPFFSKVLARYHKVPEGVRHVNDWNLKGVAGLPADGVLDLARLGLPALSMRVRTGRNLRDFPLPGSMTREDRIHLEQKMMAAFDKLIAMPEYGGRYYSLTPGNPCSIDDTKYRELVDEHIMFKNMDNDRYLTAAGIAADWPHGRGCYVSADRGFTIWVGEEDHLRIICMQ-RGTILNEVFDRLKSAFAVVEGVEGLEFAYSVDYGVVTSCPTNLGTGMRASVHIPLPNLTADGTD-SRAVALARPLGLSVRGVGGEHTPIGADGTVDISPSARFCITEAEIVAALYRGIALLKAEEDK 365
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BLAST of mRNA_P-littoralis_Contig18.11.2 vs. uniprot
Match: A0A0G4FAP4_VITBC (Uncharacterized protein n=1 Tax=Vitrella brassicaformis (strain CCMP3155) TaxID=1169540 RepID=A0A0G4FAP4_VITBC)

HSP 1 Score: 479 bits (1233), Expect = 3.990e-159
Identity = 232/366 (63.39%), Postives = 269/366 (73.50%), Query Frame = 3 
Query:  507 KWSSDLARIEELKTSHPDNLMAKHFDVDYFNTLSCDDKNGLLQCCRSGIANPDSKMGVYAMQTTDYERFRPFFSSVLADNHGVPSGAKHVNSWDLKAVDGVPTDGLLDLEKLGAPALSMRVRVGRNLNGFPLPGGMTHADRVQLEQKLCAAFDKLRAMPEYGGRYHSLTEGHPHKVGINEYERLVDEHIMFKDMSGDPYLAASGISGDWPSGRGCYVSEDRGFIIWVGEEDHLRIMCMEPRGTVLNEVFDRLQVVLKVVESFKGIEFAESPDYGVVTSCPTNLGTGMRASVHLALPKLTQGGSDDSRVKAVTKPLALSVRGIGGEHTPIGKDGTCDISPSKRLCITEAEIIMALYSGIRALMSEEQ 1604
            ++   L R+  +K  +P+NLMAKHFD  YF+ LS   K  LL  C SGI N DS MG YAMQ  DY+RF+PFFS V+AD H VP G  H+N W L  V G+P  G LDL  LG P LSMRVRVGRNL  FPLPG MT  DR+ +E K+C AF KL AM +YGGRYHSLT GH   +   EY+ LV  H+MFK+M+ DPYLA +GIS DWP GRGCYVS D+GFIIWVGEEDHLRIMCM+  GT+LNEVFDRL+  L VVES  G++FA+SP +G VTSCPTNLGTGMRASVHL +P LT  G+D  + KAV KPL LSVRG+GGEHTPIG DGT DISPS R CI EAEII+ALY GI+ L   E+
Sbjct:   32 RYGDKLKRLMSIKVLYPNNLMAKHFDFGYFDGLSDSMKGSLLTVCNSGIENEDSGMGCYAMQPEDYDRFKPFFSKVIADYHRVPEGKVHINDWSLAGVRGIPAGGKLDLSLLGLPPLSMRVRVGRNLADFPLPGAMTKQDRLNMETKMCQAFAKLIAMSQYGGRYHSLTPGHKDHISDAEYQNLVKSHLMFKNMADDPYLATAGISSDWPHGRGCYVSADKGFIIWVGEEDHLRIMCMKT-GTLLNEVFDRLKAALDVVESIPGLQFAKSPTFGYVTSCPTNLGTGMRASVHLKVPNLTADGTD-KKAKAVCKPLGLSVRGMGGEHTPIGADGTVDISPSARFCIKEAEIIVALYKGIKLLKEREE 395
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BLAST of mRNA_P-littoralis_Contig18.11.2 vs. uniprot
Match: UPI001F5AA86C (phosphagen kinase n=1 Tax=Aliiroseovarius sp. N1Y82 TaxID=2925840 RepID=UPI001F5AA86C)

HSP 1 Score: 461 bits (1187), Expect = 2.600e-153
Identity = 225/367 (61.31%), Postives = 267/367 (72.75%), Query Frame = 3 
Query:  510 WSSDLARIEELKTSHPDNLMAKHFDVDYFNTLSCDDKNGLLQCCRSGIANPDSKMGVYAMQTTDYERFRPFFSSVLADNHGVPSGAKHVNSWDLKAVDGVPTDGLLDLEKLGAPALSMRVRVGRNLNGFPLPGGMTHADRVQLEQKLCAAFDKLRAMPEYGGRYHSLTEGHPHKVGINEYERLVDEHIMFKDMSGDPYLAASGISGDWPSGRGCYVSEDRGFIIWVGEEDHLRIMCMEPRGTVLNEVFDRLQVVLKVVESFKGIEFAESPDYGVVTSCPTNLGTGMRASVHLALPKLTQGGSDDSRVKAVTKPLALSVRGIGGEHTPIGKDGTCDISPSKRLCITEAEIIMALYSGIRALMSEEQKA 1610
            + S + RI  LK  +P N+  + FD  YF TLS  D+  L+ C RSG+ NPDS+MG YA Q  DY+ FR FF+ VLA  H V   A+H+N W L  V+G+P  G+LDL  LG PALSMRVRVGRNL  FPLPG MT  DRV LE ++  AFD L A P+YGG YHSLT GHP+++    Y+ LVD+HIMFKDMS D YL A+GI+ DWP GRGCYVS+DRGFIIWVGEEDHLRIMCME RGT+LN VF+RL+  L  V  F G+ FA SPD GVVTSCPTN GTGMRASVH+ LP+LT  G+D  + K + +PL LSVRG GGEHTPIG DGT DISPS R CITEAEII ALY G+  L ++E ++
Sbjct:    3 FESQMDRIAALKADNPQNIALQSFDPAYFVTLSEPDQARLMACLRSGVDNPDSEMGCYACQPADYDDFRSFFARVLARYHKVDEDARHLNDWSLDGVEGLPESGILDLAALGLPALSMRVRVGRNLADFPLPGAMTRDDRVTLETRMMTAFDALIADPDYGGAYHSLTPGHPNQIDQATYQALVDDHIMFKDMSNDRYLTAAGIAADWPFGRGCYVSQDRGFIIWVGEEDHLRIMCME-RGTILNRVFERLKTALDKVSGFDGLTFAMSPDIGVVTSCPTNAGTGMRASVHIPLPRLTADGTD-RKAKEICRPLGLSVRGAGGEHTPIGADGTVDISPSARFCITEAEIIAALYQGLAKLQTQEAQS 367
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BLAST of mRNA_P-littoralis_Contig18.11.2 vs. uniprot
Match: A0A849EEG0_9HYPH (Phosphagen kinase C-terminal domain-containing protein n=1 Tax=Anderseniella sp. TaxID=1872568 RepID=A0A849EEG0_9HYPH)

HSP 1 Score: 459 bits (1181), Expect = 2.140e-152
Identity = 226/357 (63.31%), Postives = 261/357 (73.11%), Query Frame = 3 
Query:  531 IEELKTSHPDNLMAKHFDVDYFNTLSCDDKNGLLQCCRSGIANPDSKMGVYAMQTTDYERFRPFFSSVLADNHGVPSGAKHVNSWDLKAVDGVPTDGLLDLEKLGAPALSMRVRVGRNLNGFPLPGGMTHADRVQLEQKLCAAFDKLRAMPEYGGRYHSLTEGHPHKVGINEYERLVDEHIMFKDMSGDPYLAASGISGDWPSGRGCYVSEDRGFIIWVGEEDHLRIMCMEPRGTVLNEVFDRLQVVLKVVESFKGIEFAESPDYGVVTSCPTNLGTGMRASVHLALPKLTQGGSDDSRVKAVTKPLALSVRGIGGEHTPIGKDGTCDISPSKRLCITEAEIIMALYSGIRALMSEE 1601
            I +LK  +P N+  + FD  YF TL    +N L+ C  SGI NP S+MG YA Q +DY+ FRPFF+  LA  H V   A+H N+W L+ V+ +P  G+LDL  +G PALSMRVRVGRNL  FPLPG MT  DRV LE ++  AF KL A P+YGG YHSLT G P+++    Y++LVD+HIMFKDMS D YL A+GI+ DWP GRGCYVS DRGFIIWVGEEDHLRIMCME RGT+LN VFDRL+V L VV   +G+EFA S DYGVVTSCPTNLGTGMRASVH+ LP LT  G+D  R K + KPL LSVRG GGEHTPIG DGT DISPS R CITEAEII ALY GI  L  EE
Sbjct:   10 IAKLKPENPANIALQSFDPVYFETLDAGSQNRLMACLNSGIENPTSEMGCYACQPSDYDDFRPFFAKALAAYHKVSEDAQHKNNWSLERVEDLPEGGVLDLAAIGLPALSMRVRVGRNLAEFPLPGSMTRNDRVLLETRMMGAFGKLIADPDYGGAYHSLTPGSPNEIDAAAYQKLVDDHIMFKDMSNDTYLTAAGIASDWPYGRGCYVSADRGFIIWVGEEDHLRIMCME-RGTILNRVFDRLKVALDVVAGIEGLEFAMSGDYGVVTSCPTNLGTGMRASVHIQLPNLTSDGTD-KRAKQIAKPLGLSVRGAGGEHTPIGADGTVDISPSARFCITEAEIIAALYKGISLLKKEE 364
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BLAST of mRNA_P-littoralis_Contig18.11.2 vs. uniprot
Match: A0A0G4GI65_VITBC (Uncharacterized protein n=1 Tax=Vitrella brassicaformis (strain CCMP3155) TaxID=1169540 RepID=A0A0G4GI65_VITBC)

HSP 1 Score: 478 bits (1229), Expect = 3.460e-152
Identity = 231/368 (62.77%), Postives = 277/368 (75.27%), Query Frame = 3 
Query:  507 KWSSDLARIEELKTSHPDNLMAKHFDVDYFNTLSCDDKNGLLQCCRSGIANPDSKMGVYAMQTTDYERFRPFFSSVLADNHGVPSGAKHVNSWDLKAVDGVPTDGLLDLEKLGAPALSMRVRVGRNLNGFPLPGGMTHADRVQLEQKLCAAFDKLRAMPEYGGRYHSLTEGHPHKVGINEYERLVDEHIMFKDMSGDPYLAASGISGDWPSGRGCYVSEDRGFIIWVGEEDHLRIMCMEPRGTVLNEVFDRLQVVLKVVESFKGIEFAESPDYGVVTSCPTNLGTGMRASVHLALPKLTQGGSDDSRVKAVTKPLALSVRGIGGEHTPIGKDGTCDISPSKRLCITEAEIIMALYSGIRALMSEEQKA 1610
            K+   + ++   K  + DN MAKHFD+ YF +L  D + GLL  C SGI NPDS MG YAMQ  DY+R++PFFS V+ D H V + A   N W L+ V+G+P  G LDL  LG PALSMRVRVGRNL  FPLPG MT  DR+ +E K+C AF KL  MPEYGGRY+SLT GH   +   EY++LV +HIMFKDM+ DPYLA++GI+ DWP GRG YVSEDRGFIIWVGEEDHLRIMCM+ +GTVLNEVFDRL+  L VVES +G++FA+SPDYG VTSCPTNLGTGMRASVH+ +P LT+ G++ ++ K+V KPL LSVRG+GGEHT IG DGT DISPS R  I EAEII+ALY GI+ L  EE KA
Sbjct:  154 KYGEKMRKLLAAKELYRDNRMAKHFDLQYFESLDEDMQRGLLHLCNSGIENPDSSMGCYAMQPADYDRYKPFFSKVICDYHKVDASATQTNEWSLEGVEGIPDGGKLDLSLLGLPALSMRVRVGRNLADFPLPGAMTKEDRLNMETKMCEAFAKLIGMPEYGGRYNSLTPGHKDNITDEEYKQLVADHIMFKDMANDPYLASAGIASDWPFGRGGYVSEDRGFIIWVGEEDHLRIMCMK-KGTVLNEVFDRLKAALDVVESIEGLQFAKSPDYGYVTSCPTNLGTGMRASVHIQIPNLTRDGTE-AKAKSVCKPLGLSVRGMGGEHTAIGADGTVDISPSGRFHIKEAEIIVALYKGIKLLKEEEDKA 519
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig18.11.2 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
F2UIZ4_SALR53.310e-17464.29Arginine kinase n=1 Tax=Salpingoeca rosetta (strai... [more]
A9VA11_MONBE1.930e-17169.54Predicted protein n=2 Tax=Monosiga brevicollis Tax... [more]
A9V9A8_MONBE9.170e-17168.32Predicted protein n=1 Tax=Monosiga brevicollis Tax... [more]
A9UNP9_MONBE2.180e-16968.04Uncharacterized protein (Fragment) n=1 Tax=Monosig... [more]
F2UA06_SALR55.150e-16968.16Arginine kinase n=1 Tax=Salpingoeca rosetta (strai... [more]
A0A661GWD4_9GAMM6.170e-16465.48Uncharacterized protein n=1 Tax=Gammaproteobacteri... [more]
A0A0G4FAP4_VITBC3.990e-15963.39Uncharacterized protein n=1 Tax=Vitrella brassicaf... [more]
UPI001F5AA86C2.600e-15361.31phosphagen kinase n=1 Tax=Aliiroseovarius sp. N1Y8... [more]
A0A849EEG0_9HYPH2.140e-15263.31Phosphagen kinase C-terminal domain-containing pro... [more]
A0A0G4GI65_VITBC3.460e-15262.77Uncharacterized protein n=1 Tax=Vitrella brassicaf... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig18contigP-littoralis_Contig18:66967..90223 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
Pylaiella littoralis U1_48 OGS1.02022-07-08
Properties
Property NameValue
Stop1
Start1
Seed ortholog81824.XP_001749377.1
Preferred nameF46H5.3
PFAMsATP-gua_Ptrans,ATP-gua_PtransN
Model size2452
Max annot lvl33154|Opisthokonta
KEGG rclassRC00002,RC00203
KEGG koko:K00933,ko:K00934
KEGG ReactionR00554,R01881
KEGG Pathwayko00330,ko01100,map00330,map01100
KEGG ModuleM00047
Hectar predicted targeting categorysignal peptide
GOsGO:0003674,GO:0003824,GO:0004054,GO:0006793,GO:0006796,GO:0008150,GO:0008152,GO:0009987,GO:0016301,GO:0016310,GO:0016740,GO:0016772,GO:0016775,GO:0019202,GO:0044237
Exons5
Evalue2.09e-176
EggNOG OGsCOG3869@1|root,KOG3581@2759|Eukaryota,38BGZ@33154|Opisthokonta
EC2.7.3.2,2.7.3.3
Descriptioncreatine kinase activity
Cds size1455
COG categoryC
BRITEko00000,ko00001,ko00002,ko01000,ko04147
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig18.11.2prot_P-littoralis_Contig18.11.2Pylaiella littoralis U1_48polypeptideP-littoralis_Contig18 67857..90065 -


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

Feature NameUnique NameSpeciesTypePosition
1680789860.9605017-UTR-P-littoralis_Contig18:66966..671461680789860.9605017-UTR-P-littoralis_Contig18:66966..67146Pylaiella littoralis U1_48UTRP-littoralis_Contig18 66967..67146 -
1680789860.9747539-UTR-P-littoralis_Contig18:67197..678561680789860.9747539-UTR-P-littoralis_Contig18:67197..67856Pylaiella littoralis U1_48UTRP-littoralis_Contig18 67198..67856 -
1680789861.0371404-UTR-P-littoralis_Contig18:90065..902231680789861.0371404-UTR-P-littoralis_Contig18:90065..90223Pylaiella littoralis U1_48UTRP-littoralis_Contig18 90066..90223 -


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

Feature NameUnique NameSpeciesTypePosition
1680789860.984485-CDS-P-littoralis_Contig18:67856..682221680789860.984485-CDS-P-littoralis_Contig18:67856..68222Pylaiella littoralis U1_48CDSP-littoralis_Contig18 67857..68222 -
1680789860.9968948-CDS-P-littoralis_Contig18:72496..733011680789860.9968948-CDS-P-littoralis_Contig18:72496..73301Pylaiella littoralis U1_48CDSP-littoralis_Contig18 72497..73301 -
1680789861.008103-CDS-P-littoralis_Contig18:74354..744381680789861.008103-CDS-P-littoralis_Contig18:74354..74438Pylaiella littoralis U1_48CDSP-littoralis_Contig18 74355..74438 -
1680789861.0244308-CDS-P-littoralis_Contig18:89865..900651680789861.0244308-CDS-P-littoralis_Contig18:89865..90065Pylaiella littoralis U1_48CDSP-littoralis_Contig18 89866..90065 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig18.11.2

>prot_P-littoralis_Contig18.11.2 ID=prot_P-littoralis_Contig18.11.2|Name=mRNA_P-littoralis_Contig18.11.2|organism=Pylaiella littoralis U1_48|type=polypeptide|length=485bp
MEQGSGWLWLLWILLWKRSSGPMVNAFIPVIHHSSGPVLYAAARFAVHFT
ITPARRTAAAAAAAAGEAPVSAWKTNLRVLQENLMMMEPPGTAHCATKGM
EDAAGPAFTVHGESSGKWSSDLARIEELKTSHPDNLMAKHFDVDYFNTLS
CDDKNGLLQCCRSGIANPDSKMGVYAMQTTDYERFRPFFSSVLADNHGVP
SGAKHVNSWDLKAVDGVPTDGLLDLEKLGAPALSMRVRVGRNLNGFPLPG
GMTHADRVQLEQKLCAAFDKLRAMPEYGGRYHSLTEGHPHKVGINEYERL
VDEHIMFKDMSGDPYLAASGISGDWPSGRGCYVSEDRGFIIWVGEEDHLR
IMCMEPRGTVLNEVFDRLQVVLKVVESFKGIEFAESPDYGVVTSCPTNLG
TGMRASVHLALPKLTQGGSDDSRVKAVTKPLALSVRGIGGEHTPIGKDGT
CDISPSKRLCITEAEIIMALYSGIRALMSEEQKA*
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mRNA from alignment at P-littoralis_Contig18:66967..90223-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig18.11.2 ID=mRNA_P-littoralis_Contig18.11.2|Name=mRNA_P-littoralis_Contig18.11.2|organism=Pylaiella littoralis U1_48|type=mRNA|length=23257bp|location=Sequence derived from alignment at P-littoralis_Contig18:66967..90223- (Pylaiella littoralis U1_48)
CAACGGCTTATTGTACTCCAATACATACTTTTGCGCAAAAGTACTCCGGA
GTGTATGCTTGCTGTTTTGTCTTCCCACGTCCAAGAAGATACACTCGAGC
AAGGGTGGTGTGGTAAAGGGAGAGTGTACGCAGCACGGAACCAATATCAA
GAAAGCCCATGGAGCAAGGGAGCGGTTGGTTGTGGTTGTTGTGGATTTTG
TTGTGGAAGCGTTCCTCCGGGCCTATGGTGAATGCATTCATACCTGTCAT
TCACCATAGCTCCGGGCCTGTGCTCTATGCTGCCGCTCGATTTGCTGTGC
ACTTCACCATCACACCCGCCCGACGCACAGCAGCAGCAGCAGCAGCAGCA
GCAGGGGAGTTGGCGCAGCAAGCACGACTTACAGGTAACACATGCTGGTA
GGTCCTTGGGCCGATGGCGAACCGAGGCCTTCGTTGGCACCAAGGAAGTA
CTGTAGATCCAAAGCTCATGTTTTGTTCTATTATTGTCAGCAGCAGAAGC
ATTGCAGTGCCTACTACTCCATATTGTACAGCAGTACTGTATTGGCTGAT
ATAAATGGTAGTACTCTCTCTCTGTGCAAATCGTCCTTCGAAGTCACCAT
ATTCCCTTCTCGTACTCGTATCACTATCCAAGCTAAAAGCACAAAACACA
GGACTGCATCCTTTGCGCGTGCTCGTGCAGGACACAATTTGCGCATGTGC
GATGCCGCGTGACCTACTCTTCTACTTGTAAACCAGGTATGTACTTTTCA
ATATTTTACCTGGCATACAAAACTGTACCGTAAAAAGCAGCACTACTACT
GCTGAAGGCTGTTTGCATGTGCCCTGCTGCTGTACGCATTGGAGCTGACC
ATGTGGGCTTTTCGTACAATGCTGATGCCCGGAGTGCCCTATCGCGTGCC
CGACACCAAAAACTACGACATCATTGACTAAATGATCATAATCATAATAC
TTTCCAACTCTTTTGAATGCAAAAGAGAGCGAGTGCGGGCAAACGAGACG
GCAGCTGTCGCGTGAAAATGCAACAAAGATCGTAGTGCTGTATGAACAGC
AGCACTCGTACGTCCAGACGAAGACTGGAGGGATCTGGAAAAATGAAATG
GACGACAGCGCAAAGACATACTGGAGTACGAAGTAAAGCAACAGCAGTAC
AGTGAGTAGTTTGGAGACCGAGTGGTTGTTGCGGCTCAGCCGGCCATTAC
ATGCGGCACATTGTGGCAAAGTTAGTTCTCGTTCATGTGCGTGCTTGTTT
TGTCGTAACATATCATACAGTAGTCAGTTATTATGTCCCGTACCACACAC
ACACACCCCTCCCAGCTGTCAAGTGTCGTCGTCGTGGAAGATGATGTCTT
ATGATGTCACAGTCACGACTCTGTGACAGTCCTGTGGGGGATGACAGTGA
TAAAAAGGGTTCCGTGGCCTTTATTTTCAACTTTACATGAAACCCGGACA
CTTGTCCATAGTAGGCTCTGACTTTTTTGGTCTAGTCGATTATTCCCAGA
ATCTTTATAATCGTGGACGTGGGTTCGAAACCCATGACAAATACACATGT
GGTCGCGTGAGCGGAGCGAAAAAGTTAAGTGGTGGCCGTGCCGGCGGGGC
GGTTTTGGACTGGCCGCAAGAAGACCGACTTGTCTCCATATCCCCTCCCT
CACACCAAAAACTAATACTCCGAGTACGTATACTTAATATCATAAAATTT
TATTTATGAGCACGTTCCAAAGTATTTGCAGTGCAGTGCGAGACGCAAAA
CACGCATATTTTCGCGAGCGGTACGATGTTGGTTACGGTGCTGAACACGA
AATGGTCACATACTAAATGTCGCGCGCGAAGACGCCTGTTGTCGTTCGTG
CTCGTGCCGACAGCAGCAAGGACAAACAACTTTCTTCACGATCGCTTGGC
CGAGCATGCGTAAATATTAAATATTCTGGCAGATAAATAAAACCTCCGTA
TGATAGTAGTGCTGTATGATGTGTGGCGAAAGATATGCCAGGGTATCATG
CAGTGTGGAGCTAGGTCGACCAACCTGTGCGTGCATATTTAGCTTTCCTT
TCAGCGTGTTCTTTTGTGGTCTACCCCATACTCTGCCGCCAACTCTTGTG
TGTAAGTCTGCTGAGAAATCGCCAACCTTCCCGTCTCTTTGTTCCTCTCG
TAAAAACACCCAGACTACCACCTCAACTCTCTCAGGTTCTTTACCGGGAC
CGACCTGTTGAGATCACTCCCAAACTTGTCATACCTCTCCCTTTCTCCTA
CGGCGAATATGTCATCTACATGTACCACTAAAATCAAAACAAGTCGCCCA
TCCTCAATCAAACGAAACACGCAAGTATCTACCAGGCACTGCTCAAATCT
TAGCGCCAACAGACATCTCTTCAACATCCCATGCCACTGCCGGGGCGCCT
GCCTCAAGCCATACAGACTTTTACTTTTTTTCCATATTAACTCTCTCAGG
TTCTTTACCGGGACCGACCTGTTGAGATCACTCCCAAACTTGTCACACCT
CTCCCTTTCTCCTACGGCGAACATGTCATCCGCATGTACCACTAAAATCA
AAACAACTCGCCCATCCTCAATCAAACGAAACACGCATGTATCTGCCAGG
CACTGCTCAAATCTTAGCGCCAACAGACATCTCTTCAACATCCCATGCCA
CTGCCGGGACGCCTGCCTCAAGCCATACAGACTTTTACTTTTTTTCCGTA
TTCCAGACAGAGCACCACATCCCTTCGGCAATCGCATGTAAACATCTTCC
AACTCTGAACGCACAAAGGCCTGCTCGATATCGAAATGACTCGAATTGAG
ATTTAATTCGCATGCCCACGCAGCCAACATCCTCACAAACGAAACAGAAA
CGGTAGGCGTATTTCTCTCTCCAAAGTCTATTAACTCTCTCTGCATATCA
CCTCTCGATACCAACCTCGATTTGACCTTGGTCGGCCATCCAAACTCATC
TATCTTCCTATCAAACACCCACTTCCAGGGATGACATTGTCTACTGATTA
CTACGACGCGGGGAAAAATGTGCATGCACTCAACAAACCATGAATTTCCC
TCTCCATTGAGTCGCTCCAAAGGTGCTAGTGCTCGGACTCCATGGCCTCC
TTGTAGGTCTTCGGGACACTGAGATCATTCGCTTGGCATTGCGGAAGATC
GGGGGGTTGACGCGGGGGCTGCTGGTCACGAACAGCGGCGCCGATTTCCT
CTCTCGGGTCGCAAAGGCCGTTGCTAGGGCGAACAAAACCCCTGCTACCC
CTGATAGCTCCCGCGGGCAGTCTTCCCCCCGGCTCCCTGCATGCGACGAT
CCCCCCACCTCTTCGGCTGCCAGCGCTCTCCCTACCTCTCTGCGCTCCGA
CTCCACCACATCGCGGGTTTCCAGCATGGACAGCAGGTCGTCTCTACCCA
GGGATGACATCAGGCCCGTGCTATGCCCAGGCCCGTGCTATGCCCGATGT
GCGCCGAACCACGCTGCTGTGCTCTGGTGCGGCCTTGCAGGCGAGGGTCT
CACATCCCCTCACTATTTGTCCCCGGGCGAAGCTGCCGGATTGCAGTGGC
AGTCAGCGGGGGCATCTCCGCCCTGTCCGAAGAGGGCGGAGTCGCCGACT
CGAAGGAGGGCGAAGGCGAAGCCGGGGGAGGCAACGTAGGCGATGCCGCA
GGTAGTGATGGCCGCCTGGCCGAGAGGGGCAAAGCAGCAGACGGGGGTGC
GGAGAACGGCGTGGGCCCAGATACCTCTGGTGCAGGTGACGGCACTGGAG
ACGGCAGAGGCGCAGGCACGTAGCTGACCCAGACGGGAGCCGGCGCGGGA
GCCGGCGCGGACGTGGGTGCCGCGGGTGCAGCGGGGACATCCGAACTTCC
CCCCTCGCCGGCTGGCACTTGCGGTAACCACGCCACATTTTTGGTGTAAA
CGACACGGCCGGTCGAAGCACGAAGAACTTTGACGGTGCCGCTGGGGTGG
TTGTCGCCACTGTTGAGAAAGTAGCAGAGCGCAGCCTCGTTGTCGAGTTT
CGTGGGCCGCGACACGTCCATGTACCCGGGCTGCATGAACGGCAGGACAC
GGAAGGGCCCCGTCTCCCCCGTGAAAACCTCCTGCGGCGAACGGCAGCCC
TGGTTGGCCTTTGTCGCCGAAAGGTTGATGGCGGCGCACGCCCACTTCGC
CGACTCCATCCACAGCCGATCGCCGCGCTCATCAATGCCGGGGACGGAGG
AGGAGCTGATGCCAACCACCGCTCGGCGCTGCGACGAGCAGCCTTCGCGG
CCTTTTTGATGCGCGCCAGATGGCGCTCTCCACGACGCCGTTGTAATGCG
GTGTGCCCGGGGGCGTGAACTCGAGGGCGATGTTAATATCGTCGCACAAA
CGGCGGAAATCCGCCGACGTCCATTCGGTGCCCCCGTCGACGAGAAAAGA
GGCGATGCGGTCCAGCTGCTCGTTCTGGCCGACGTCCACGAGGAGCCTCT
TGGTGGCCGCCAACGCGTCGGATTTCCTGCGCAATCCATACACCTTCGCC
CGACGGGAGTTGCTGTCCACCGCGACGAAAATGTAAAGGTTGCCCTCGAT
CGACGACGCAAGCGGCCCGCAAAGTCGAGGTGAAAACGCCCCCCTCGCTT
GGCGGCACGCTTTCCCGCCCCCCGCAACACCACCACAGTGACCCCTTTTG
TCCGCATGCAGTCCGCACAGGGCTCCAGAACACCGGTGAGAGTGATCCCC
TTGTTTGCCCGTTTCTTTCAGGAGGGGTTCATGGGCATGGGCAAGGGAGC
GGTGGAAGCGATTGATGTCCACAGTTTTGTCAGTGGAACCAATCGGAAAG
GGTTTTTTTCCAGCACCAAGCGCAGCACCTCCAATATCAAAAGCATCACC
GCCGTATCGCTCATCAAACACCAAAGCCAAACGTTCAGCCTCATCTGCAT
GAATGAAAGGGGGGAACAAATCCAGAAAAGGCGTGCTGTCACGTCCATTC
ATCAGCTCTTCGTCTGTGAGCAAGCACACTCACATCACTCAAATCCATCC
CAGAAGTACCGACACACACCGAAGGTACGAGGCTGGCAGTGCCAGCGGGC
GGGATACCATCACGCTCAGGTACTACACTGCTGGAGACAGCAGGCGGGAC
ACTTGCACTCTCAGATTGCGGTGCGGTGGGAGGGAATGCGGGTACAGCAG
GCAATGCAGTTTCAACGACTGCAGCAGGGTCATACGGAACTCTTGTGGCG
AACGCTACGGACGATCGCTCGTGCCTGGTGAAAAACAGACCATTCTGCAA
AGTATCACCGCGGTTATCGCTCACTACTCGCTGCTCGAGAGACACGGCAT
GAGTGGAGAATAAATTGAAGCTCAGTCCTGCTGCTACGGAAACGTCGGTC
AGCCTCATCCAGAAAGTCTCATGCTACCATCGTCCTTCTTTTGGTGAAAT
TTGAGGTTGATACTCCCGATCGCGTCTACAGGCACAAGACTACCAACACC
AACGAGAACGAACTTCCTGTTGTCAGGAATAGGCTGGAAATCAAGCATGT
GAAGAGAGCTATGTGTGAAGCTGTGTGTTGCTCCAGAATCCGCTACCCAC
TGCTCGCAACCCGGTAAAAGGCTCAAACCCGTACTCTGAATACTCAAAGC
TGATCCAAAACCACACTCAACACCAATTCTTCCGTGCGGCAAAACAGAGC
GAGACTTGCCTGACGGCAACAATTGTGCCATGCAGAGGTGAAAGTAGCCT
TGAGTAGATGAGGACGCGCCGGGCGAGAGGGAAGGGGACGACGCGGGGGT
GGTGCTGCTTTGGGGGTGCTGGTTCGACGGGAGCTGACATGGCTGCGGCT
GCTCATGCTGGCGTGGCTCTCCAAAATGCTACTGCTGCTGGTGATCGGAA
AAGCCCTTGCCGGCAGCGGGGGCAAATCTAGAGCTCTCTCCCCCGCCGTA
CCTGCCGCAGTAAACGCCTTCCTCGTCATGCGCAGAGGGATAGTTGGAGC
TGTACCGCCCACTGGCGTAGTGGGCGTCCTGAGCCCATCCACCGTGAAAA
TAGCCGTTTTGGTAAGCGTACTCATCATGTCCTCCGCCGTAGTCCCCTGA
GTCGTAGTAGACGTAGCCGTCGTTGTTGTAGGGGCCATGCTCTCCATGGC
AACTGTGGGCGACGAATGCCCGACCCTGATGCTGCTGGCCGGGGCGGGGA
GGCTGCACCGACGTTGGGGTGTCGTGTGCCGTCCCGTGTGCAAGACCTCT
CCATCGGTCTCTGCGGTCGCCGAAACGTCCACTCGGGCCACGCCCGCCAG
GGTGGCGCCCAAAATGTCCGCCGATCCCACGACCACGAACAGGCTGTTGT
TGTTGTTGTCGTTGTTGCTGAGGTGGTGCATTGCTCTAGCCACCAACACC
TCGACCGGTGTGGTGCTGCTGCCCTTGCGTCTCCTCCCAGCCGCCGTGGC
CTCGGCCGCTAGGCGGCCAGTGTCGACTGGGGTGCGGTAGATGCCCAAAT
CGCCCCCCACTGCCGTAACGGCTCCTTTGCCGCTGGTACAAGCAGTCCTC
GTTGCTGTGGGTGTCCAGTTGGTGAAAATCGCACCAGACTCCGGTTCCAT
TACGCCGATCCTGGGCGGCTCCTCCAGGGTCGTCCCCTTGTCCACCCCGG
CCCCCGCCACTCCGACTCGTCCCGGACATGGCGAGGGCGTGCCCGGCACC
GTCCCGCTCCCCCTCGCTCGCCGTGTTCGTTATCTCTCTTTCGGCTCTTC
TCACCATGTGCTCGACCTCGCTCAGAGACAACACCTTTTGGAACGAGAGG
AGAATACTCTTTTCAACGTTGAAACCGGAAGGAAGGCCACGGGCGATGTG
CTTGTTGTCCTCGGTAACGTCGACAGTTCTACCAAGGGAGACAAGGCGAA
GGCGAAGGGCCTCTGCTCGTACTATGTACTCTTGGCAAGTTTCATTCACG
CTCATCTTCAAGTCCCTCCAGTCATCATCAAGTCGAGAGCGTTCATGTTC
GCGCTTTTCCTCGTAGAATTCAAGGAAAGTCTTCCACCCTCTCTGCAGGC
TCTCACACGCCAAAATCAGCCGCAGGACTGGTTCGTACAGTATCTTCGAG
ATCAATATCTGCCACACGCGAAATGATTTCTCTACGGCCTCGTCGCCAAA
TTGTGCCTTCAATTCTGAAATGTTCACGCTTTTCTTTCCAACCTTGATCT
CATCTTCTCTCTCTGAAACACTGTACACGTCTTCTTCTTGAAAAACTGCA
AGCATCTTACTGGAAAACACTGTTCAAAGCGATAATTTTTCGAGAACCCC
CAACCCTAGGCTCTGTGCTCGCTAGAGAAGACGTATTGACACGGGACGTG
CCTGAACGGGGTGGTGAGCCCCGCTGAGTCGCACCAATGTTGACCGCTCT
CACAGTCTCCGCCGCTGTCGCTCGGGCGGCCTGGGCAAGGATGTGGGTGA
TGTCGTCGCCGTTTGCATCTCGAACTTCCGATACCGTACTCGAAGAGTTA
TCACGAATTCGTTTCTCGAGCTGCTCCTATACTCCCTTTTCGGCCTCTTC
CTCCATCGCTTCTCGGTATATTCTTTGTCCTCTTCTGTTAGATTGTCTAG
GCCTGATCGCCGGGTGGTGGTGTTGTAGGCCGCCGTGGGTGTATGCGGTG
TGAAGGTGGTGTGGAGCTCTGCGGCGCTGTTTCCGTGACGTACACTTTGC
ACAGATACCGTACCGCGATTGCACGAGTGTAACGAATATTCGGTGCGAGG
TGCAGTCTGCCCGTGTATGGGTGTTGTGTGGTGAGGTGTGAGAGCTGGGC
CGTGTGATTTGGTATGGGCTCTGTCCCGTGGCTCTGGCCCGTGTAATTGG
GAAAGGCTCTGGGCCTGTAGCTTGGAAAGGCGCTGGGCCTGAAGTTTGGG
GAGGCGCTGAGCCGCGGGGCTGGGCCGGAAGAGAGATTGATTAATCTCGC
ACAGGGGTGCACGCCAAAGAGGGCACACACCGGAGCATATCACGCACACA
TACCCGAAATACTCCGCACTCACGTCATACATTCCACGTCACCCCTTGAT
ACATTCCATAATATTTCCGGAATTGTACTGAAATCGGTACGTAACAATCA
CATGCTGCTGCGAGTAGTCTATATCCAACACCTAAAAACACGTAAACACC
TCCCGGCCATGGGAGTCCCAACATCCTGAACGGCGATTTCAGTAGAGGAC
ACCATGGAGAGACGACGTGTGTACAGATCTGTTGCTGGGGGGAAGTTATC
GAGGGCCGCAGCAGTAGCTGAAAAACTCCACGAACCGGACTGACACCAAA
CGTTTGATGCGGCTATGCTCGCCGCCACAGGCCCTAACCTCCTGAACTGC
GGTTCATCTAAGGTAACTAGTGGTATTAGCTACTGTTGACCCGCAGTCCA
GGAGATTTGGGTCTGTGGCGGCGAGCGCAGCAGTAGCGGCGAGCACAACA
GGGGAATATGTTTTTTGGTTTTAGTCGAGTTTGCTGCTTTTTTAGCCACT
ACTGTGGGCTTCGATATTCAAGCCCCTGCAGCAGATCTGAGCGTGCCAAT
ACACACATCGCTGCTGAAGAGTCCTCGACTGATATCGCCTTTCAGGCTGA
GACTCCTCCTGCGGGAAACCTTACTTGAGCCGAAGCCATATTGGCTGTTT
TGTACTTCGAGTATTGATTTCAGAGTGGTGATATTGTTTTCTTTGTTTTA
GAGGGGGACATTGGAGGTGTGATACACTCGTGATATGCATGTGAAAATAA
ACCTCTCTAGCACCGCTCTGTGCGATAATCAACGATTTTTTTCTTGCATA
ACACCTTCCTACTGGTGTAAGGTACCCAGTGTGTGATTACTGGGTGCTAC
ACTTTGCAAGTTTTCAGAATCGGTCAATTCAAAAACAGGTTGGCAGCGGA
CCCTTAAGAGTAGAGGGTGAACTAGTGAAGTGAGTGTTTGCGGGAGGAAG
AGGCCTGGCATGTCAAAGTCTAATCGTCGTAATCATGTGGTACGAATGAA
AAGCATAAGGTGGCGGTTGTCACCGAAGCAGCAGCGGTAGAACTGCTACT
CTGCTGCTGCTGCTGCTACTGCACAACAATAAAACTCAGACACAAAGAGC
AAGGCCACGAAAACCTTCTAACATGTAGTGTTTTGAAGATGACTGCTGTG
TTCCCACACGGCTACAATATACAACGGGAACTCAATTACAAAGAGAAAAA
TATCCACGGCTACGAACACTCATTCATTTTATATGGGAAGTGACTGCATG
CGCTGTACTATAGAGTGTTGCCCCGTCTCTTTTTTTTGGACCCGGGTACC
CGGGTAATGATTACCTCGGGTACCCGGGTAGACATTCACTGTTATCTGTC
GACTAATTCAACAGCGTCAAGGTGGAAAGTGCCACAGGGCATGAGTCGGG
TTCGTCTTTCGGCCCGTAACGAGTGTGTGTGTATGTGTGTTGTAATGTGT
AGTCCCATTTGTTCTGGGCAGCAGTCTTCACTTTTCGGTATGAAGTGGAT
GCACCAGCCGGGGTCACACAGACAATGTGGCCTTTGATATGGACTATACG
TCATGCGATCATCTCATGATCTCATGTCACGTGATCACGTGTTGTATCCA
TGCCATCATTCCTCATTGAATATCATTGGTTCGGGGCAATATTGTTTGGC
TAAACGGAAAGCCGAGCACAAGCTTGAAAAACAAAATTATGACATCGTCG
GCACAAACAAACGCTGCAGCGGGCCACGCGAAAGAAAATATGCCCACCCT
GTCACCGCTGCTTTCCCGGTGTGAAAAAACCTACGCGGTGCTGTTGAAAA
TCACCATGGGTAACCACTTTCCATCCAGTGCGTGCTGTGTGCTTTTTGGG
GGCGCAGTGCATCAAAAACACGGGTACCCAGGGTACCCGGTGCCGAATTA
CCCGCGGTTCCAAAATTGCTACCCGGACTCGATTGAGTAGTGCCGGACCC
GGGTACCCGACTCGGGTACCCGGGTAATTTTTAGACGGGGCAACACTACT
GTACTACCGAACGCACCGTAGGTGAATGCCCGAAATATACAGCAGCAGCA
GCAGCAGTGGGTATACTTGCAGATGGTACTTCACAACCGGGAGGAGCTGC
AGCAGCATTTATGTGTGCGGGTGCGAGGTAGGAGGGGAAGCCAGAGAGGA
ACGGAAACACGCTGCTAGCTGCTGCTGGTGCTGCTGCTGCTGCTGCGAAA
AGAGGCAAATAGACGAGTAGTTAGGCTGAATCTCATGGCACACCGGTTTT
GGGCCACAGGTTTTCAAACCTCGTTGAAAAAAAATTTGGTCCACCTTATG
GATACAGATTTTGGGCAAAACGAGGTTTGAAAACCTGTTGACGAAAATCG
GGGAGCCAGTCCCACCGGTTTTGGGCCCAAATCTCGTGTGTCTCCACGCA
CGAGATCTGGCCCACGAGATTTGAGTTTTGACGATTCTACCAACATAGCG
GGGTCGCACCGCATCGATCCCCGAGCTACTGCTGCTGTATTTATTCTTTG
TTCAGTTGTTGATGTTGTTGATTGCATTCGTGACAAGCGCACAGCACCAA
ACCCAAACCGCAACCAAACCCCACACCCGACCCGTGATGGAGGACGATGA
AAACAACAAGAGCATAGGTGTTCTCTCCGTGTCAGTGTCAGCGACCAACA
TCTATTATGTGGTGTGCGGTGCGCGGTGCGGCCTGTTCTCTGTTAAATCA
TGTCCCTGATACGAAACGCTTCTGGAGGACGCTGAAAACCAGGGCTGAAA
TCGACACGCTAGATTATCAAAAACGGTGTGTCCCATAAGACACACAGTCA
GCCTGTGGGCCCACCGATTTTGGCCCAACGAGATTTGAAAACCTGTGTCT
CAAAATCGGTGTGCCATAAGATTCAGCCTTACAAGTAGACTTCGAGGTGG
AATATTTTTGTTTCAGCTGCAGCAGCAGTATATGAGTACTCTTAGTTAGG
TATTATCGTGTTGAAAATACTGATGCCACCCTTCCGTGTTTTCCAAGGTC
GACAGCAATAAGAAGTTGCATGACAAGAGAAACAGCTGGCTCTTTCCTCC
TTATTTACATAATGAAGCTGAAACTGGGAGAAAAAATCCAGTCGGGCTGG
CTCTAATAGACACAACAAATCACACCGTGGACAATGTACACGATAGTAGT
CCATTGCTTCGACGAATAATAACGGGGAGAATCTATCGAAGCCCATTGCA
TAATACATGGTGGAAACGATCTCTCGATAAATGTTGCCGGAAACAAAAAA
TTTGGATAACAGATATGCATTGTAGACCGTAGTAGAGGGGGTTCTATCAA
TCGATAGCCATTGCCGTCTACAATGGATAACGGAGTGGTTCTATTGATGG
CCATTGCCACGAACAATATATTATGGGGGATTTATCAATGGCCACTACCT
CAGACAAAAGATTTTAAAGAACACCTCCTTCATCCACCAACAGCAAGCAG
AAGTACTGTTGACATGTATGGATAATAAAGAATATACCAAAAAAATATGA
ACATGCATATTTGGTTCAAAAGTCATCCGTGTGGCTGCTGCTGCTGCCGC
CCACCATCCAAAATTAACACACATCTATCCGTACTGCTTCTCTGCGCGGC
CAGGGATCGCGACCCCCGTGGCACACCCACAGACAGTATTGTGGCCGACA
ACATCTATTGATAGACACGCGTCAAAACACATTGGGCACGACAATGGCTA
TTAATGGACGCAGATGAAGTCCCATTGTGTCTACCAATGGCCATTGATGT
GTGCAGGAGTATAGTCTACTGCAACACACGGTGTATATTGATCGAGAACT
TGCCCACTCCATTGTGACGGCAAAGACATATTGTACCCATTGTTCCCAAA
TCTATTGTTAACTCTAATGTAAACCGATAGACGGCGATGCCAATGCCTCG
TAGCCTACAAATGGCCATCGACGTCCAAATTTTAGGGGCTATTGCGGCGG
CAGTGTTCCATTACACCGTCTATTCTCCAGGGTATAATGCACATCGTATC
CACACACACTTGCTGTACTCCCCATACAAACTACCCTGAATACATGTTTC
GATAGACGTGGTGTTTTGCAATGCGTTTCGGGTTGCGTGTATCGATGGAC
ATTGTCATTCACAATATATTTGGCAAGACTTCCATCGATGGCCATTGCCG
TCAACAATTGACCATCCAATTTTTCCATCAATTTCCATTGCCGCAAATAA
TAGGTTAGGTACTCCGGGGTATCGATGTTGGTCGCGGGGAATAGCATGGA
AAAGGGTTCTATCGATAGGCATGTCCGAAGACAATGGATGTAGGAACCTA
TCAATCAATATCGGCGCCCATTGTAGTGGAAATAATAGCAGTAGCAATTG
GACATTGCCTATGGTCCAGGGTGTGACATATTCGGAGGCTGAAACTTAAC
AATATCTGCCGGGATATAACACTGCAATACTGCTGCTGTACTGCTGTGGT
GGTATGACGGCACACGCGAAGAAGCAAACATAAGACGCGGAAGTTCCGTA
AGATCGACCACGCGCTCCGCGCGCCCGGACCAGTGCAGCAGCAACAGTAT
GCCTGGCAGCGAGAGGACCCATGTATGCATACATATGTATTTGCGGTCGC
GAGGAAGGCCGGGAAGCCAGACCGAGGAAACGGAAGACGATACAGGAAGA
CAGCAGCCAAGAAACAGAACCAAGGTTTCGTTTGTATTGCGCCGTTGTTA
CGTCTGGCTAAATATGACATGACGAGCGCCAATTAAGACGCAAGTGCCGT
CAGACTGAAATAAGCAAAGTTACAAAGTTTGAGCGCGAGACGCGGAACGA
AACATCGACCACGCGCTCTGCGCGCGAACCAACGCATACAGCAGCAGCTG
GTATGCTGACAGCGAGAGCAGATAGTATGTATGTACGGCTTCTACGAGGG
AGGCGGTGAAGCCAGCGAGGAACGAAAACACGCTGCTGCTGCTGCTGCTG
CTGCGAAAGTGGCCAGCAAAAAAACGAGAAATTAGAGCGGATAGCTCTTG
TCGTTGTGTCGAAATACTGAAGCCACCCCCCACCGTGTTTTCCGAAACCT
ACAACAGTAAAAAGTACTTCGAAGTACGAAGTTACGAAGTGAAACAATAG
CTGGCTCTTTTCGACTCGTTTGAAAAGCCGTAATGTGGGAAAAAAAGTGG
CGGGCGGGCTGGCTCTTCTCGACGCTACTTTTGAACGAAGCTGAAGCTAA
AAAAAATGCTGGGAGAAATTCGTTTCCCAGGGTACATACTAGCCGGATAT
CGGCCACGCGCTCCGCGCGCCTAGACCAGTGCAGCAGCAGCAGCAGCAGC
TATGCCGGCAGCGAGAGGATCTGTATTTGGATGTATGGTCGCGAGGAAGG
CAGTGAAATCAGAGAGGAACGGAAAGAGGATGCTGCAGCAGCAAAATCGC
AGAAAAAAGTCGAAACCAGTCAGTTAGTAGGTAACACGATCCTGATCTTT
TTATCCATGGGCCTCCTTGTTTGCCAACGGGCCCTCCTCTCCGACGACAT
TGAGATCGTTCAATTTTGCGAAGATTGAAAAAAAAGAAGACTGCCCTTTT
TTCTCCCAATCTTCATCTTGTCATCCAGGGGGCTCCTTCATTGCCCACGG
GCCCCCTTTCCGCCGAGATCGAGATCAAGATTGATCACTTTTGCGAAGAT
TAACTCAAAATTTTAGATCGGCATTGATTTTGCCGCCGATCTCCAACACT
GATACGTAATATATTGCCGGACACGCGGGGCAACAGCTCTCTTAACAGAC
TGCCTGCGTTCAGGGGTTTCCTTGCGATGTGGGTTTTCCTCGATAAGCGA
ACGTGATGTTTATCTGGGGAGAAATCGAAGAAGAGCACATTATTCTTGTG
TTCTGTGGGGCCTTTCGCAGGACCGTTTTAGTGACTCAACCAAGCAACCG
AGCTGATATCGAAATGCGTGCAACAAGTGCAAGAACCCCATTCAAACTCT
CAACCTATTCGCCACAGTAGTAGCGTTCGTTTACTTCCGGCGACATGTGG
AGAAACGGAGCATATCTTGGGCTTCATGCCGATGCCGTCTGTAGTGGGAG
ACTCCTGCTTGGCCAGAAGTGCTGCCCATCTGCATCGGGCAAATATGCGT
AAATGTCGCCGGTAAAATCGGGAAAAACCGCCGTGAAGATATTCACTCTC
CGCGCGATCATTTTTTACGATGTATTTATTTTCCAAACAGAGGTAAAACG
TAGTTGCCTAGTCGTATCTAAATGATATGTTGGGCATTGTGCTGGTCGCC
CCGTCCGCTCAGCTGGCTGACCTCGAAGGTTTGTAACAGTCAGGCCGTGC
GTGTGGCTCTCAGTGAACATATATGTTTTCTCCCACCGTACCTATCGGTG
GGATTCGAGGTTTGCGTGAGTAGAATAAATCCGACCCGAAAAATCGACGA
GGGGAACGGATGGCTTCTTGCGATAAAATCCAAGGTAGCGCCGCAGAAGA
CGGGTGGAGGAAAAGGGAGGAATCAAAGGAACGTGTTGATCTTCCTCCTG
TGCAACCCGGCTGGTGCTTCCGACTAATATCGAAACGTGTAGATTGGCGT
TCAGAATAGATGGAAAGACAACACACAGGGGTCACTCAGACCGATTCCCA
ATCCTTTCACCTGAACCCCCCCACCTCTCCCTTGCGGTGCTTACCTTCAT
TTTCTAACCCTAAGGGGGTCCGACAGCCCAAGCGATCCACGGAATTTTCG
CTCTCTACTGCCAGGTCTCACTTCGATGGGTTTATGTTTCCCGAACTATA
GTAGCCGTAGAAGGGTGCGGTTTCGTTGCGGAGATTTCGACCGCTGCCAG
TGAAATCACACGACACAGCAACATGCGTAACGCCATCCGGCAAGATTTAA
AACGTGTTTCTCATGGAGTTGTTTCGAAGCTGGATAGCATATGATTTTAA
CGGTAAGACTAAGGTTTGTAAGGAATATTTCACGGGTTGGCCGGTTTCGT
TTTATTTGACAAGCTTTGGTCACAAGGTGTCTCTATTTTCTGCTCAACCA
CGCAGACAATCTCATGTAGAATGAATGATTGGCGCTGGGCGCTTCTGCTG
CTACGGATTCGGACTTTTCCTCAAATTTCATTTCGTCATCCCCGCCAGTT
CATCCGCCATTTGTTTCGACACGAACTTTGACAGCGATGCAATAGTTATT
TTCTGTATTGTTTTTTTCGAAAGGCCCGAATTCCTTACGACTGAAAAACG
TTTTTTGACCTTGTCACCTTTTTTCCCACTTCGCTGATTCATAAAGCCAA
ACTTTGTATGGAACCTCTGTCATGAAAAATTGGAGACAGCCCACCTGATT
TCCGTCTCAGGTGTACGTTCCTTTGTTTTTGTTAGTTTTTCTTCGGGAAA
TACTTTTCGAGTGCGTTCGTAGCGTATGGTAGGAATACCACCTTTTTACA
AAGATAACGACTCCTTCGGATCGTCGTTTTGCAGTAGATGCGCAGAAAGT
AGACGCAACTTGGAGTTGACTGCATCTTACGGAGAAAATGAAGCAAAATA
TTTGAAAATTATTACCAAGGTAGACGCGCATTGTGTGTGTGGTCGAGCGC
TGCCGCCGCTTCGTTTTGCCAGTTAGGGTGTTACCAACACCAAAGGCACA
TCAGCCAACGGGAAATCTTCAGGAGCAACCGCAGTCATCCTTCATATCCG
AGAGAGGGGGGGGGGTGCTCTCCTAGTACAAGTATATACCTCTGATAACG
TGTGTATATAGGATCTCTCACATATTCAGCTTTTCCCCTGCCCCCTTTTG
TGTCCCCTTGTCCGTTCTCTTCTCTTGTCTCCTGCTCTGTGTCTCCACGT
ACTGGGCTGCCAACAGAGAGTGAACGGGGAGGTAGAGCTCCGGTATCAGC
ATGGAAAACCAATCTAAGGGTACTGCAGGAAAACCTGATGATGATGGAGC
CGCCGGGGACGGCTCACTGGTGCGTAGCCTTTAAAAGTGGTCACTACCGC
GTCGGATCTTTCGAGAGATATGCATTATGAGTGTGGTGGAGTGCTGCTGC
TTCGCCTCGCAATTTTGCGATCTGTTGGACCGTTTTTGGGTCCTGCTTCG
TGACCACGGGCGTAGGATTCCAGAAATTAGCTGATGTGATAACAGTCCCC
GACGTCGAATGGAGGAAAAGCATATCATTTTTCGGATTTCACAAAAAACG
ATTCGATGCACTGCACAACCGTCCTCGAAATGAATTCCCTGAGCTTTTTC
GGTCTGCCGCGTGGCCCTCGGCCACAACTCGTAGTGCATTGGATCTGTGT
TGGTACGCTGTGCGCACGCACCCGACCGGCGGCATCTCCGTTTCTCACTG
TGCGAATATGATTCGATGAGCTTCACTCTCAAAAAGAAGGCATTAAAATG
CTGGGTGCTCGCCCGGTTCAACGCATTTCAATGCAGGAGTTCGATTTTTG
AAGCATGTGTATTCATCAGCCACCGTTGTAGCTGATATTTTTCCTTTTGT
TGTGGTCGGCCATGCTTAAGCTCCTACTGCACAAACAACGGGCTTGATAC
GTGGGTTCATACCTCGAAGTGTACAATCTCATCAAACTCTTGCTGCTGTT
CATCGGAGTCCAGTCTGTTTGTTTGGATTTCAACAAATCCTTCCCGCTAT
ACTTCGGAGTACATTTTATTTCTTTGGGAACGATAGTAGCGTCGTCACTA
CTGTTTTATTTTACCCCTATGATCACAGCGATGTTTGTTTTCACTTTTGT
CTGATGAGGACGACGACGCAGCTTCCCAAACCTCAACCCTCTAGATGTAG
CTCAGGGGTTACCACTGTGCATCGTATTGTTGCCATACACCAATGGGTCG
AGATAAGAGAGCAATCAGGACTACGAGCCTTTCGAACTGCGAGTGAACAC
AAAACAATGTCGCCTGCCTGTGATCGGGATGGTGAAAGTCCACGTAAGCT
GCTCGTTACGTATACTCTCCCGCTCTGTCATACCCGTTCACCCAAGTTCT
TTCCCTCCTCTCCCGCCATCAGTGCTACGAAGGGCATGGAAGACGCCGCC
GGGCCAGCCTTCACCGTACACGGGGAGAGCAGCGGCAAGTGGTCCTCTGA
TCTGGCACGAATCGAGGAGCTGAAAACGTCACACCCGGACAACCTCATGG
CCAAACACTTTGACGTTGACTACTTCAACACCCTCAGCTGCGACGACAAA
AATGGCCTCCTGCAGTGCTGCCGGAGCGGGATCGCCAACCCAGACTCCAA
AATGGGCGTGTACGCCATGCAAACAACGGATTATGAGAGGTTTCGACCTT
TCTTCTCATCCGTGCTTGCGGATAATCATGGTGTGCCCAGTGGTGCGAAA
CACGTTAACAGCTGGGACCTGAAAGCTGTGGACGGCGTGCCTACCGATGG
CCTGCTTGACCTAGAAAAGCTAGGCGCACCCGCGCTCTCAATGCGCGTTC
GCGTTGGGCGCAATTTGAATGGCTTCCCTCTCCCAGGGGGGATGACCCAT
GCCGATCGCGTGCAGCTAGAGCAAAAGCTTTGCGCCGCGTTCGACAAGCT
GCGGGCAATGCCCGAGTACGGCGGTCGTTACCACTCTCTCACCGAGGGCC
ACCCTCACAAGGTCGGGATCAACGAGTACGAAAGGCTTGTGGACGAGCAC
ATCATGTTCAAAGACATGTCCGGCGACCCTTACCTCGCGGCTTCGGGCAT
ATCCGGGGATTGGCCCAGCGGTAGGGGCTGCTACGTGTCGGAGGACCGTG
GGTTCATTATCTGGGTTGGGGAGGAGGATCACCTGAGAATCATGTGCATG
GAGCCGCGTGGCACGGTTCTGAACGAGGTGAGTTGTGTTGAGCCCTTTAA
TCCTCACCTATAAATTGCTTTGGGGCTACCTCGATGAGAGCATTCGCACG
ACATGTGTGTCACTGTTGAATATTTGTCACGTATGGGGCAGGCGCATGTA
TCGATGAGAGCATGAGCACGACATGTGTGTTCCTGCATCATATTTCACGT
ATGGAGCAGGCGCATGTGTCGCTTTGTGCGCCGGTTGAGTCAAAGAAGCG
ATGGATAATGATAACCCTACCACCTCATTTCCTAGAACGTGAACAACGCG
CAGCCCTGGTGGAGGCCCCACCATCCATATCGTACCCGTTATATATCGAG
CAACCCCTAGAGCCCCTGTAGATCTGTTTTGAGTTCCGGGTACCCCAAAC
AACCACCAAGGTTCGCCAGGTATACGGCAAAATACCGAAAGCCCAAACCC
AAAATCATCCATCAGACCAATTCCGACAGATCTCCCACGCAAACGTTGTT
CCGAATCATTTCATGTTGTCCCAAATCATCTAGATCTGCAGATGTCAAAT
TTCGAGGGCTCCGCGCACAAAGGTCGGGGCGGAAAAGAGTGGTCGGGACG
GTACGGGAACGGTACGAAACGGGAAATCGTGCGATATTCTATTCCTGCCC
GAGATTTGCCGACCTTTCCATTTGCTGGTTGATGTTTCAGCATCTTCCCT
ACCGCCCCAACATGAACTACTCCCGGCCCATTCGCTTCCCGCTACGCCAC
CGACTCTGGCACTTTTTCTCCCGCCCCACATCCCACTGTCTTTCCCCTCG
TTTCCTATCCCATGCCCGATTGATTGTAGAATCCCTTTTACCGTCCAAAT
TCTCACACGGATGTTTCCATCCCAATGGTTGTGTGTCGTTCCCAGTCTTT
CCCATGGTACATATGACTGTATTCGTGTATTGGATGCAAAGAAATTGAGT
GTAAAATGTGAATCAAACACAGTGTGTGTTGTCATCCCACCTACTCCGGG
CGCCAGTCTACACCTTTCGGCGTATGTGGGCGCACCAGCCGGGGTCACGA
CAGACAGGGGAAAGGTCAACAAAGGAATTTGATGTATTTTATTCTCTCCG
CCTTCGCTTCTGCAGTGCTTGCATCAATTTTTATCGCTCGAAGGGTTCAG
CCGTCCCTTTCCCTCCTTGAATTTTTCAAGTTGGTTTTGTGTGCTGGCGA
AAAATTCGCTCTCCACTCCTAGGATTTACACACACGCACGCACGCACACG
CACACGCACACGCACGCTCACACTGGAAACACAACGCACGGAAGGCGCGT
ATAAGTTGTGGATGATGCGGGTAGCGACTCTGGTTCCTCGCCCGTAGTGG
CAGCCCCACCCCAATTACCGCCTGTGTTGGTGATCCCATTCTGGTATATG
ATGGTGTAAAGTATCGCCCTACGAAGGCTTGAAACTGTCATATGATAAAT
TCTTTCCGAGTACATGTTTTTGCGTCTCCCATACATTTGTTGTACATATT
GTATTGCTTATGATGCACACGTCATAATAGTTTTGGTGCTTTACCGTATT
CTCTTCTTGATTGACGTCCTTAAACATGTGGATTACTGCTGCTGCAGTCG
TCGATATAACCCTGGATTAATGAGTCACGTATGGCATAAGATTCGCTCAG
TCAGTAGTTGTGCTGAAAGTCACGGACCGAATTCTGTGCCTCCCGACGTG
TATTCCGATTTGTTTCCCGACTGACTGTTTCCCGAGAGACTTCGCGACCG
TTCCCGTCCCACCAAGAAGTATTGCGTTCCCATCCCATCTCGCCAATCTA
CTATGATTTCCCGGCCGTTCCCGTCCCACCAAGTATTGCGTTCCCATTCC
ATCTCGCCAATCTACTGCCTTCCCGCCTTCCCGTCACGTTCCCATCCTGC
GGTACGGAAGCGTTTCCCGGTACCGTCCCTCGGGGACATCCCAAAAACAA
TTCCTGTCTACGGCGGGCTAAAGTCAGCGTTCCCGTAGAGCGTGGTACCT
GCCCTGCAATTTGCCACCCCGCAGTTACCTTCTCTAAAAATAACGTCGAA
ACTATAAGCCCTCGTGAGGAAATGTTCCAACGAAACTCACGACACGCCTT
TCGTCATTAGGCGTCTCTCCCAAAGCATGAAAGTATTGAAAATGGCCACA
TTCTTTATATTTTCTTTATCCAAATAAAAAAATATCCTTGTTATCTACGA
GCCCATCGAACGCGCTCACTCACACATTGTCACGCTGCTGAATATATTAG
GATTACCGTTGCAAACTACACGCAAGAAATTGTTTTCCATCAAAATAGGG
TAGAGATATCCATATGCAACTGTCAGCGATGATGACGATATTCTAATATT
TTTTCAACTGTTCGTATTGAGAAACGTTTTTTGAGCGCCGTCAGGTGTAT
CTTCGTTGTCTATCTGCTTCGAATTCTACCAACCACGTAAGTCGTGATAA
ATGGCACGTGTAAGTGTATGTGTGTGTAATAAAAAGCAAATGTCACAGGG
TACTTTCATTTGATTGGCGGAGGATTTCGGTGTTTGTGCGTGTGCCCGAG
GTAACTACGTGTTGCAGCACTACGACACTAGGTTCAGCATAGATTGTCAA
GATCAAGTGCCTGAACTGATGAGAGAAATAGCACCAACCCATTGCAGCTG
GGTTCACCGCAACCAGTGCCATATTCGCACAGCTACGAGTCTTGCGGTTA
ACGTTGTTGTTTTCTTTCAAAACTCAGAAGAGGCTTTTGTTTGTTCGAAC
AACGTCCAACATTAATGCACACGGCTCAAGGCAGTAATGTGAGAAGCTGC
TACACGCTTGACCCACACACCCTGCTTCCCAACGCTGACCATTTCCCTTT
TTACAAACCCTCAAAAATGCCTCGATACATCCGAGCAAATTCCTCTCAAA
CATCATGTTCAAACTTTTGATTGGCTCAAAAATCTGCGGAAAAACGTAAG
TCTCGACAACGGGCTACCGAGACACGTCAAACCCTTCCTTCATTGCACAC
ATATGGGATACAATCTGAACGTGTTCGGAAACTTAAAAGAAACTTCACCA
TAACTTCGGGAGGGGTGTTGACGCTAGGGTTGTTTGGAAGTAGTCCTGCG
GTGAGGCCATATCGCTGCTGCCTATGCAGAGAGGCCGCTGCTACTCGACA
ACACTTCCCCAGCGAGATAACTGCTGCTGCCCACAGCTACCGCCCGGAGT
CATGCCACTACAGTACTGCGCCGTCTACCCCTGCCCCCCCCCGCTCCCTC
GTGACCCTGCTCAAACCCCTAACAACGACGAGCGCATTTGGTATGGAATC
AGCCACCGGCGTTCTGGTCGTCGGTCCCTTGTGTATCATCTCGTCGGCCG
TACGCTCAGCGTAAGAGGAACGGATGGTGTCTTTTACGCACGGGCTAAAA
CAGCGGTGGCCAGGGTAGAACATTTTACCACTTCGTAGCGGTCGGGCAAT
TAGCGGAGACTTAGTTTAACTTGTTCCGCCTCACTTATCGGAAAACCCAC
AGCACGCAGGGTAGTCTCGACTTGTTCGACTTGGGCAAATAAAATCTTGG
GATCCTCGTCTCTGCTCCTATCAACGTTCTCAAGCTGCGTGATAAGCAGG
TGGCTTTTCGCGGGGCGGAGGGGTAGTCCCCACTCCTTCATCTTCCCCTG
CGCTCCAACCGCCAGTGACAAGCATGCAAGCGATCCTCAAACGGGGAACC
AGCTTTCGCCTTTCAAGCAATTCCCCATGCCCAATGGGCAGTTTTTGTAC
AGCTGCAGCTTTCCTTTGTGCTCCCGCAGTCTCTGCAGCACGCTTTACCG
ACCCCAGATCAGCCATCACTGCCGCCTCCTCCTCCTGCGATGAAGTCAAA
CCTTTACCCCACGCTTTACACTCCCCTTTCGCTGACGAACTTCTTCCTCG
CTGTACAAAGCGTCGCTGAAAAAAAACAAATGTGGAAGCTCACGTTTCGA
ACACAAAACAGCAACGCGCGACTCGCACACAGCCCAAACGCCTCAGCACT
TGTGCCACTAACAAAGTTACGTTGTCACGTGTTTGGTGCGCCGGTTGCCG
TAATAAAAAACACCGATGGAATAAGGTTGACCCCAGAACCTTATTTATTT
GGGGGTGAACAACGCGCAGCCCTGGCGGGCCCCGAGTAGTCCATGCGATA
GTCAAAATAAAAGTAGCTACGTAACCCCCAGAGATCAGTATCGAGTCCCG
GCTACTCCAAACATGCATGGCTGGTCCGCTGATTCAGGAACGATGAAACT
GAAGCAAGATTTTGGTCTCAAACGTGCTTCTTCTCCCGTGTCATGTCTCA
GGTGTTCGACCGGCTCCAAGTGGTGCTCAAAGTGGTGGAGAGTTTTAAAG
GTATCGAGTTCGCCGAATCGCCTGACTACGGCGTCGTCACGAGTTGTCCT
ACCAATCTCGGAACAGGAATGCGTGCCAGCGTTCACCTGGCCTTACCAAA
ACTCACCCAAGGCGGTTCGGATGACAGCAGAGTCAAGGCGGTCACCAAGC
CTCTCGCGCTTTCGGTGCGAGGGATAGGGGGCGAGCACACGCCCATAGGA
AAGGATGGAACCTGTGACATTTCGCCGTCCAAGCGCCTCTGCATCACCGA
AGCGGAGATTATTATGGCGCTGTACAGTGGGATTCGTGCATTGATGAGCG
AGGAGCAAAAGGCTTGAGCCACACACACCGAGAGACAGTTCAGTAACTCG
TTGATTGCTGGTTTGTCTTCGGAACAACGATTGTTGGTCGCTTTGCTCTG
TACAGTACAGGAATATCCTGGTGAGCCATACCCTAACTCATCCGACGGTG
GTAATGCTAATCCAAAGCGAATCTACCTGTAGCGAGGGAGCGCTGAAGGG
TCTCCAGTGGGTCCGTTTGCAGCAGAAGGTTCCAAAGGGATCGGAAGGTC
AAGGAGGGGCGGTGGCTAACCTTTGTGGAGTGGACGAGCACTTTGAAGCA
CGTAGAGGGCGCTGTACTGAGTTCGGCACAAAGATTTTCGGAGAGTGAGA
AACCAGTTGGAGGACGGGAGACGAGGCTAGCCGGGAAACAGAAAATTGAA
GTAGATATTTCAGCGCGACCTTCACAGAGGCCCAGCACTTTGAAACACGC
AGAGGGCGTGATACATTTTGTCGCGCACAGACTAGATAACACGCGACACA
GTGGACGGAGTACGGTACAGAGGATTTTCGACAGTAGGGGGATCATTTGT
CGAACTGGGTTCCACGGTCAGAAGGTGTTACGAGCAAGGTGGGTCAGGCT
TTTATCGGCTCTCGAACTGAAATTACCGTGAATTGAAATTACCCTTACCT
TCTTAAATTCGCTGTATGGGATACAAGCAGTACGTGTGTACTCTGTGCGC
CTAACTAACAGCAGTGAACCTCGTCAGATCTACACCACCGCCTACTCATG
TAGAGGCGTTTGCCACACCTCTCGCACGAGAAGGCTTCCCTGTACATTTT
GCACCACCAACGGGTTCAAAACTTGCTGCATAAGAAATTCGCTATTTTTT
AAGGGGGTTCCGTTATCCCCCTTATCGGTTCGTGAGACTGTCACCTTTCC
TAACATA
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Coding sequence (CDS) from alignment at P-littoralis_Contig18:66967..90223-

>mRNA_P-littoralis_Contig18.11.2 ID=mRNA_P-littoralis_Contig18.11.2|Name=mRNA_P-littoralis_Contig18.11.2|organism=Pylaiella littoralis U1_48|type=CDS|length=1455bp|location=Sequence derived from alignment at P-littoralis_Contig18:66967..90223- (Pylaiella littoralis U1_48)
ATGGAGCAAGGGAGCGGTTGGTTGTGGTTGTTGTGGATTTTGTTGTGGAA
GCGTTCCTCCGGGCCTATGGTGAATGCATTCATACCTGTCATTCACCATA
GCTCCGGGCCTGTGCTCTATGCTGCCGCTCGATTTGCTGTGCACTTCACC
ATCACACCCGCCCGACGCACAGCAGCAGCAGCAGCAGCAGCAGCAGGGGA
AGCTCCGGTATCAGCATGGAAAACCAATCTAAGGGTACTGCAGGAAAACC
TGATGATGATGGAGCCGCCGGGGACGGCTCACTGTGCTACGAAGGGCATG
GAAGACGCCGCCGGGCCAGCCTTCACCGTACACGGGGAGAGCAGCGGCAA
GTGGTCCTCTGATCTGGCACGAATCGAGGAGCTGAAAACGTCACACCCGG
ACAACCTCATGGCCAAACACTTTGACGTTGACTACTTCAACACCCTCAGC
TGCGACGACAAAAATGGCCTCCTGCAGTGCTGCCGGAGCGGGATCGCCAA
CCCAGACTCCAAAATGGGCGTGTACGCCATGCAAACAACGGATTATGAGA
GGTTTCGACCTTTCTTCTCATCCGTGCTTGCGGATAATCATGGTGTGCCC
AGTGGTGCGAAACACGTTAACAGCTGGGACCTGAAAGCTGTGGACGGCGT
GCCTACCGATGGCCTGCTTGACCTAGAAAAGCTAGGCGCACCCGCGCTCT
CAATGCGCGTTCGCGTTGGGCGCAATTTGAATGGCTTCCCTCTCCCAGGG
GGGATGACCCATGCCGATCGCGTGCAGCTAGAGCAAAAGCTTTGCGCCGC
GTTCGACAAGCTGCGGGCAATGCCCGAGTACGGCGGTCGTTACCACTCTC
TCACCGAGGGCCACCCTCACAAGGTCGGGATCAACGAGTACGAAAGGCTT
GTGGACGAGCACATCATGTTCAAAGACATGTCCGGCGACCCTTACCTCGC
GGCTTCGGGCATATCCGGGGATTGGCCCAGCGGTAGGGGCTGCTACGTGT
CGGAGGACCGTGGGTTCATTATCTGGGTTGGGGAGGAGGATCACCTGAGA
ATCATGTGCATGGAGCCGCGTGGCACGGTTCTGAACGAGGTGTTCGACCG
GCTCCAAGTGGTGCTCAAAGTGGTGGAGAGTTTTAAAGGTATCGAGTTCG
CCGAATCGCCTGACTACGGCGTCGTCACGAGTTGTCCTACCAATCTCGGA
ACAGGAATGCGTGCCAGCGTTCACCTGGCCTTACCAAAACTCACCCAAGG
CGGTTCGGATGACAGCAGAGTCAAGGCGGTCACCAAGCCTCTCGCGCTTT
CGGTGCGAGGGATAGGGGGCGAGCACACGCCCATAGGAAAGGATGGAACC
TGTGACATTTCGCCGTCCAAGCGCCTCTGCATCACCGAAGCGGAGATTAT
TATGGCGCTGTACAGTGGGATTCGTGCATTGATGAGCGAGGAGCAAAAGG
CTTGA
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