mRNA_P-littoralis_Contig750.25.3 (mRNA) Pylaiella littoralis U1_48

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

Overview
NamemRNA_P-littoralis_Contig750.25.3
Unique NamemRNA_P-littoralis_Contig750.25.3
TypemRNA
OrganismPylaiella littoralis U1_48 (Pylaiella littoralis U1_48 (Mung))
Homology
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BLAST of mRNA_P-littoralis_Contig750.25.3 vs. uniprot
Match: A0A6H5JTK0_9PHAE (Replication protein A subunit n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JTK0_9PHAE)

HSP 1 Score: 914 bits (2361), Expect = 0.000e+0
Identity = 475/681 (69.75%), Postives = 550/681 (80.76%), Query Frame = 1 
Query:   67 MANLMSQGAIVTIMGGATGANGYNPVVQVISLKKMTSGGSDRWRLVLSDGKHYAQSMLATQQNEMISNGDLQEMCIIKLTDYIVNVVQNKRLIILLKLEVSSGPTQKIGDPINIAEDSSAG-NPPMQQQPQQSNTGPYGGGAKPNAGQYGGG-DVKPKVSNNPYGP--KQTSNPYAGGGYGNNRSGGSNNSYGXXXX----------GATNNPYANRSGSGGGSNSGPVQRQSQDSMYVPISALNPYQNRWTIKARVTRKGDMRTWSNAKGEGRLFGIDLLDEQGSEIKGTFFKEDADKWFDVLQEGQVYSFSGGRIKVANKRYSSLNSEYEITFDSSCQINQINDDSRISSMTYSFVKLNEMEGMEPNKILDTIAVVKSFEDFAVINTKAGKELEKRNLTLVDDTCTEITLTLWGEAAKANGDRWEGNPVIAFKGLKLSDYNGRSLGSLNSSSLVNDPDVPEAAELQTWFAAAGGGSSFKSVSIRSGGGGN-DEMAKKDMSERYTLDSIREANLGHGEKSDWAVVKGTISFIKLDADKDPWYTACPSEGCNKKVSETMEGGWMCEKCNQTHAECTRRFILNMTISDQTGKQWVTAFNDQAVPLLDNKTADELQRMKDGGEDGEYEEVFAEACFKTYLMTLRIKADMVNDEMRVKYTVQRMTPIDIKTECNAMLDAISKYN 2064
            MANL+S+GAI  IMGGATGA GYNP VQV+SLKKMT+ G+DRWRLVLSDG+H+AQSMLATQQNEMIS+GDL+E+CII L+DYIVNVVQNKRLIILLKL+V+SGP  KIGDPIN +EDSSA   P +      +NTG YG  +KP         DVKPKV+NNPYG   KQ     AGGG         NN+Y XXXX          GA NNPYANR    G SNSGPVQRQSQDS Y+PISA+NPYQNRWTIKAR+T+KGDMR W+NA+G G LF +DLLDE GSEIKGTFFK+DADKWF +LQEGQVY+F+GG++KVANK++SS N+EYE+ FDSS QIN INDDSRISS TY+FVKLNEME ME NK+LD IAVVKS ED A   ++AGK+L+KRNL LVDDTCTEI LTLWG+ AKA+G RWEGNPV+AFKG+KLS+YNGRSL SLNSS+LVNDPDVPE A+L+ WF AAGGGSSFKSV++        DE+AKKD+S+RYTL SI + NLG+GEK DWAVVK TISFIKLD ++ PWYTACP EGCNKKV+ETMEG W CEKCNQTH EC RR++LNM ISD TGK WVTAFNDQAV LLDN+TADEL +MK+ G D E EE+F+EACFKTY+ TLR+K DM NDE R + T+QRM P+D+K EC A+LDAI+KYN
Sbjct:    1 MANLISRGAINQIMGGATGAAGYNPTVQVVSLKKMTNAGTDRWRLVLSDGQHFAQSMLATQQNEMISSGDLKELCIITLSDYIVNVVQNKRLIILLKLDVTSGPAPKIGDPINFSEDSSARVKPELGGGSNNNNTGHYGXXSKPXXXXXXXXRDVKPKVANNPYGASNKQXXXXXAGGG---------NNNYXXXXXXXXXXXXARGGAANNPYANR----GSSNSGPVQRQSQDSAYMPISAINPYQNRWTIKARITKKGDMRQWNNARGSGTLFSVDLLDEDGSEIKGTFFKQDADKWFQILQEGQVYAFTGGKVKVANKKFSSFNAEYELNFDSSTQINPINDDSRISSATYAFVKLNEMEAMEANKVLDVIAVVKSVEDHAQFVSRAGKQLDKRNLILVDDTCTEINLTLWGDMAKADGSRWEGNPVVAFKGVKLSEYNGRSLNSLNSSTLVNDPDVPETADLRAWFDAAGGGSSFKSVTVXXXXXXXXDEVAKKDISQRYTLQSITDGNLGNGEKPDWAVVKATISFIKLDGERLPWYTACPKEGCNKKVTETMEGAWQCEKCNQTHPECQRRYMLNMQISDNTGKAWVTAFNDQAVELLDNRTADELFQMKEEGNDAELEELFSEACFKTYMFTLRVKTDMYNDETRSRKTLQRMAPVDVKAECAALLDAIAKYN 668
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BLAST of mRNA_P-littoralis_Contig750.25.3 vs. uniprot
Match: D7FUU1_ECTSI (Replication protein A subunit n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FUU1_ECTSI)

HSP 1 Score: 623 bits (1606), Expect = 1.430e-212
Identity = 294/419 (70.17%), Postives = 350/419 (83.53%), Query Frame = 1 
Query:  811 MRTWSNAKGEGRLFGIDLLDEQGSEIKGTFFKEDADKWFDVLQEGQVYSFSGGRIKVANKRYSSLNSEYEITFDSSCQINQINDDSRISSMTYSFVKLNEMEGMEPNKILDTIAVVKSFEDFAVINTKAGKELEKRNLTLVDDTCTEITLTLWGEAAKANGDRWEGNPVIAFKGLKLSDYNGRSLGSLNSSSLVNDPDVPEAAELQTWFAAAGGGSSFKSVSIRSGGGGNDEM-AKKDMSERYTLDSIREANLGHGEKSDWAVVKGTISFIKLDADKDPWYTACPSEGCNKKVSETMEGGWMCEKCNQTHAECTRRFILNMTISDQTGKQWVTAFNDQAVPLLDNKTADELQRMKDGGEDGEYEEVFAEACFKTYLMTLRIKADMVNDEMRVKYTVQRMTPIDIKTECNAMLDAISKYN 2064
            MR W+NA+G G LF +DLLDE GSEIKGTFFK+DADKWF +LQEGQVY+F+GG++KVANK++SS N+EYE+TFDSS QIN INDDSRI S TY+FVKLNEME +E NK+LD IAVVKS ED A   ++AGK+L+KRNL LVDDTCTEI LTLWG+ AKA+G RWEGNPV+AFKG+KLSD++GRSL SLN+S+LVNDPDVPE A+L+ WF AAGGGSSFKSV+            AKKD+S+RYTL SI + NLG+GEK DWAVVK TISFIKLD ++ PWYTACP EGCNKKV+ETMEG W CEKCNQTH EC RR++L+M ISD TGK WVTAFNDQ V LLDN+TADEL +MK+ G D E EE+F+EACFKTY++TLR+K DM NDE R + T+QR+ P+D+K EC A+LDAI+KYN
Sbjct:    1 MRQWNNARGSGTLFSVDLLDEDGSEIKGTFFKQDADKWFQILQEGQVYAFTGGKVKVANKKFSSFNAEYELTFDSSTQINPINDDSRIGSATYAFVKLNEMEALEANKVLDVIAVVKSVEDHAQFVSRAGKQLDKRNLILVDDTCTEINLTLWGDMAKADGSRWEGNPVVAFKGVKLSDFSGRSLNSLNASTLVNDPDVPETADLRAWFDAAGGGSSFKSVTXXXXXXXXXXXXAKKDISQRYTLQSITDGNLGNGEKPDWAVVKATISFIKLDGERLPWYTACPKEGCNKKVTETMEGAWQCEKCNQTHPECQRRYMLSMQISDNTGKAWVTAFNDQGVELLDNRTADELFQMKEEGNDAELEELFSEACFKTYMLTLRVKTDMYNDETRSRKTLQRLAPVDVKAECAALLDAIAKYN 419
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BLAST of mRNA_P-littoralis_Contig750.25.3 vs. uniprot
Match: A0A7S3XQ94_HETAK (Replication protein A subunit n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XQ94_HETAK)

HSP 1 Score: 485 bits (1249), Expect = 6.840e-156
Identity = 287/669 (42.90%), Postives = 418/669 (62.48%), Query Frame = 1 
Query:   67 MANLMSQGAIVTIMGGATGANGYNPVVQVISLKKMTSGGSDRWRLVLSDGKHYAQSMLATQQNEMISNGDLQEMCIIKLTDYIVNVVQNKRLIILLKLEVSSGPTQKIGDPINIAEDSSAGNPPMQQQPQQSNTGPYGGGAKPNAGQYGGGDVKPKVSNNPYGPKQTSNPYAGGGYGNNRSGGSNNSYGXXXXGATNNPYANRSGSGGGSNSGPVQRQSQDSMYVPISALNPYQNRWTIKARVTRKGDMRTWSNAKGEGRLFGIDLLDEQGSEIKGTFFKEDADKWFDVLQEGQVYSFSGGRIKVANKRYSSLNSEYEITFDSSCQINQINDDSRISSMTYSFVKLNEMEGMEPNK-ILDTIAVVKSFEDFAVINTK--AGKELEKRNLTLVDDTCTEITLTLWGEAAKANGDRWEGNPVIAFKGLKLSDYNGRSLGSLNSSSLVNDPDVPEAAELQTWFAAAGGGSSFKSVSIRSGGGGNDEMAKKDMSERYTLDSIREA-NLGHGEKSDWAVVKGTISFIKLDADKDPWYTACPSEGCNKKVSETMEGGWMCEKCNQTHAECTRRFILNMTISDQTGKQWVTAFNDQAVPLLDNKTADELQRMKDGGEDGEYEEVFAEACFKTYLMTLRIKADMVNDEMRVKYTVQRMTPIDIKTECNAMLDAISKY 2061
            MANL S G+I  I+ G     G  P +QVI++KK+   G+DR+RL++SDG++YAQ MLATQ N ++S+ +LQE+CI+KLT+Y+VN VQ +R++I L +EV SGP  K+GDP N    SS G  P    P Q                Y  G               +SNPY GG         S+NS  XX    TN        +   +++GPV R++ ++ Y PI++LNPYQNRWTIKARVT++ D+R WSNA+GEG L  +DLLD +G+EI+ T FKED D+ ++ LQEG+V+SFSGGR+KVANK+Y+S+ ++YEITF S   +    D++ I    +SFV   ++  + P+  ++D IAVVKS  + + I +K   GKEL+KR+LTLVD +  E+ LT+WGE+A A   +WE +PV+AFKGL+ SDY G SL SLNS+ ++ +PD+PE   L  W+   GG +        +G GG+  + K  +  R  L  I++   +G GEK D+A VK  +S+++ D    PWYT+CP++ C KK++E  +  W CEKCN+ +  C  R++L+    + +G+ WV+AFND+A  +L NKTADELQ+++  G D  YE  FA A F+ ++  LRIK +  ND+ R+K ++ R+ P+D   E   +L+AI  +
Sbjct:    1 MANLTS-GSIQQIVNGEV--TGLTPTLQVINVKKVQGAGADRFRLIISDGQYYAQCMLATQLNHLVSSNELQELCIVKLTNYVVNNVQGRRIVIGLAVEVVSGPVPKVGDPQN----SSGG--PAPAMPAQXXXXXXXXXXXXXXXPYQQGSXXXXXXXXXXXXXXSSNPYGGG---------SSNSXXXXGNTNTNTXXXXXXXT---TSTGPVARENPNAQYQPIASLNPYQNRWTIKARVTKRSDIRRWSNARGEGHLASVDLLDAEGTEIRATMFKEDCDRLYERLQEGKVFSFSGGRLKVANKQYTSIKNDYEITFGSETVVEGPLDEAGIEQNKFSFV---DIAALSPDAGMVDLIAVVKSAGELSTIISKKQGGKELQKRDLTLVDRSGAEVRLTVWGESALAQA-QWEHSPVVAFKGLRASDYGGVSLSSLNSTVVMINPDLPEGHALHAWWTQQGGATQQTRSLSAAGPGGSRWVTK--VQNRAQLGVIKDIPGIGAGEKPDYAEVKAMLSYMRHD--NGPWYTSCPNDDCKKKMTEGFDQKWSCEKCNKQYDRCKHRYVLSTRFIEASGQDWVSAFNDEAEMIL-NKTADELQQLQSEGNDVAYEAAFAAANFQHFVAQLRIKQETYNDQARLKLSLIRLKPVDPVEESRMLLEAIDCF 639
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BLAST of mRNA_P-littoralis_Contig750.25.3 vs. uniprot
Match: A0A835Z8X4_9STRA (Replication protein A subunit n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z8X4_9STRA)

HSP 1 Score: 465 bits (1197), Expect = 4.250e-148
Identity = 267/671 (39.79%), Postives = 384/671 (57.23%), Query Frame = 1 
Query:   79 MSQGAIVTIMGGATGANGYNPVVQVISLKKMTS--GGSDRWRLVLSDGKHYAQSMLATQQNEMISNGDLQEMCIIKLTDYIVNVVQNKRLIILLKLEVSSGPTQKIGDPINIAEDSSAGNPPMQQQP-------QQSNTGPYGG-GAKPNAGQYGGGDVKPKVSNNPYGPKQTSNPYAGGGYGNNRSGGSNNSYGXXXXGATNNPYANRSGSGGGSNSGPVQRQSQDSMYVPISALNPYQNRWTIKARVTRKGDMRTWSNAKGEGRLFGIDLLDEQGSEIKGTFFKEDADKWFDVLQEGQVYSFSGGRIKVANKRYSSLNSEYEITFDSSCQINQINDDSRISSMTYSFVKLNEMEGMEPNKILDTIAVVKSFEDFAVINTKAGKELEKRNLTLVDDTCTEITLTLWGEAAKANGDRWEGNPVIAFKGLKLSDYNGRSLGSLNSSSLVNDPDVPEAAELQTWFAAAGGGSSFKSVSIRSGGGGNDEMAKKDMSERYTLDSIREANLGHGEKSDWAVVKGTISFIKLDADKDPWYTACPSEGCNKKVSETMEGGWMCEKCNQTHAECTRRFILNMTISDQTGKQWVTAFNDQAVPLLDNKTADELQRMKDGGEDGEYEEVFAEACFKTYLMTLRIKADMVNDEMRVKYTVQRMTPIDIKTECNAMLDAISKY 2061
            ++QGAI  I+  A+G +G+ P+VQV+S+KKMT+  G  +R+R+V+SDG+H+ QSML T QN++I++G + E C+I L ++I+N +  K ++I+L+  V SG   KIGDP                         + + T P     ++  + +                          GGYG+                           SGG S  GPVQR    + Y PIS LNPY NRWTIKARVT K ++R WSN +GEG L  +DLLDE G E++GTFFK+  DK+  +L+   VY+FSGGRIKVANK+YSSL ++YEITF+S   I ++ DD RI +M  +F ++ +++ +E N  +D +AVV+ F+D A+I TK  +E+EKRN+TLVDD+  E+  TLWG  AK   D   G+PV A                  SS++V  PD+ EA  L  W+    G                      D+++R  +  I+E  LG  EK D+A +K  ++FIK D++  PWYTACP+EGCNKKV E M+ GW CEKC++++  C RR+I ++ +SD TG+ W +AFND A P+L   +ADEL   K  G+D  +E+ F EAC+K Y++ +R+KA+MVNDE R+K T+    P+D   E  A++ AI  Y
Sbjct:    6 VTQGAIQRIIT-ASGQDGFLPIVQVLSIKKMTAAAGQGERYRVVVSDGQHHQQSMLTTSQNDLITSGQMVEGCLICLDEFILNQIGAKSIVIILRASVLSGAMPKIGDPTAFERADGXXXXXXXXXXXXXXXXTRATATAPLAALSSRWRSSRGRAXXXXXXXXXXXXXXXXXXXXXXXGGYGH---------------------------SGGAS--GPVQRHDSGASYTPISDLNPYMNRWTIKARVTAKSEIRRWSNQRGEGYLASVDLLDEFGGEVRGTFFKDAVDKYLPMLEVNSVYTFSGGRIKVANKQYSSLQNDYEITFNSDSVIEKVADDKRIKAMNLTFRRIADLKDVEVNATIDILAVVRDFQDMAMIMTKNNREVEKRNITLVDDSGAEVVCTLWGAHAKLPDDALRGSPVAAXXXXXXXXXXXXXXXXXXSSTVVLAPDLEEARALHNWWTRYAGXXXXXXXXXXXXXXXXPRSDPYDVAQRLGVAGIKEEQLGLKEKPDYASLKAYVAFIKHDSENGPWYTACPTEGCNKKVVEEMDQGWRCEKCSRSYPNCRRRYIASLAMSDHTGQTWFSAFNDVAQPMLAQHSADELFEWKTSGQDELFEDTFVEACWKQYVLRVRVKAEMVNDEQRIKSTIVDAEPVDPVKESAALIRAIKAY 646
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BLAST of mRNA_P-littoralis_Contig750.25.3 vs. uniprot
Match: A0A6U0TYW6_9STRA (Replication protein A subunit n=1 Tax=Pinguiococcus pyrenoidosus TaxID=172671 RepID=A0A6U0TYW6_9STRA)

HSP 1 Score: 462 bits (1190), Expect = 4.600e-147
Identity = 266/654 (40.67%), Postives = 393/654 (60.09%), Query Frame = 1 
Query:  139 PVVQVISLKKMTS--GGSDRWRLVLSDGKHYAQSMLATQQNEMISNGDLQEMCIIKLTDYIVNVVQNKRLIILLKLEVSSGPTQKIGDPINIAEDSSA---------GNPPMQQQPQQSNTGPYGGGAKPNAGQYGGGDVKPKVSNNPYGPKQTSNPYAGGGYGNNRSGGSNNSYGXXXXGATNNPYANRSGSGGGSNSGPVQRQSQDSMYVPISALNPYQNRWTIKARVTRKGDMRTWSNAKGEGRLFGIDLLDEQGSEIKGTFFKEDADKWFDVLQEGQVYSFSGGRIKVANKRYSSLNSEYEITFDSSCQINQINDDSRISSMTYSFVKLNEMEGMEPNKILDTIAVVKSF-EDFAVINTKAGKELEKRNLTLVDDTCTEITLTLWGEAAKANGDRWEGNPVIAFKGLKLSDYNGRSLGSLNSSSLVNDP-DVPEAAELQTWFAAAGGGSSFKSVSIRSGGGGNDEMAKKDMSERYTLDSIREANLGHGEKSDWAVVKGTISFIKLDADKDPWYTACPSEGCNKKVSETMEGGWMCEKCNQTHAECTRRFILNMTISDQTGKQWVTAFNDQAVPLLDNKTADELQRMKDGGEDGEYEEVFAEACFKTYLMTLRIKADMVNDEMRVKYTVQRMTPIDIKTECNAMLDAISKY 2061
            PV+QVI ++K+++  G S+R+R+VLSDG++Y  +MLATQQN ++++G L+   +++L  Y+VN VQ KR++IL+  +V     + +G P ++   +SA         G PP + QPQQ                                    SN   GGG                   A    Y   S S  G NS PV R   D   +PI+ALN Y ++WTIKARVT K  +R WSNA+GEG LF +DLLD QG EI+ TFFK+  D++  +LQEG+VY+FSGGR+K+A K Y+S+ ++YEITFD +  I   +D+  I  + Y+F K+ ++E + P   +D +AVVKS  E  ++++ K  KEL KR+L LVDD+ TEI +TLWG+ A+ +G +W  NPVIA KG+K+SDYNGRSL  L SS+   D  D PEA  L+ W++A  G     S+S +SGGGG    A   +++R  L +I++  LG   ++++  VKGT++ ++ + + DPWYTA P EG   KV+ET EG W CE+  +T+  C RRF+L++ ++D +G  WVTAFND A  LL  KTADE   M+  G++  Y+E F++  FK  +  LR+K + +NDE RVK ++  +  ++ K EC  +++ I+K+
Sbjct:   20 PVLQVIHIRKISNANGPSERFRIVLSDGENYNTAMLATQQNGVVNSGALKVHSLVRLGYYMVNEVQGKRILILINFDVVGEAERILGKPQDLHSGASADKFDKNAAAGAPPARPQPQQX--------XXXXXXXXXXXXXXXXXXXXXXXXXXXSNAMPGGG--------------EPARTAPKPEYGTYSSSMMG-NSAPVARVESDDRIMPIAALNLYNSKWTIKARVTSKSAIRRWSNARGEGHLFNVDLLDGQGGEIRATFFKDACDRFEPLLQEGRVYTFSGGRLKLAKKEYTSIKNDYEITFDRNADIRPSDDEGGIKRIKYNFTKIGDIEKVAPGATIDLVAVVKSCGECNSIMSQKLSKELFKRDLVLVDDSNTEIQMTLWGDRAREDGGQWMSNPVIAVKGVKVSDYNGRSLSLLQSSNFSTDTTDSPEAGRLRQWWSANQGNVQTTSISAKSGGGG---AAGTSVAQRQPLSTIKDEGLGTKGETEYLAVKGTVTLLQTNGNNDPWYTAAPEEGVLFKVTETTEGQWFCERNGKTYDTCKRRFVLSLVLTDYSGNTWVTAFNDPAELLLGGKTADECYEMRARGDEQGYKECFSKGQFKQCIFKLRVKTEQLNDEQRVKTSIVTIRDVNYKEECRQLIEEIAKF 647
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BLAST of mRNA_P-littoralis_Contig750.25.3 vs. uniprot
Match: W7T7F5_9STRA (Replication protein A subunit n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7T7F5_9STRA)

HSP 1 Score: 449 bits (1155), Expect = 1.720e-141
Identity = 266/663 (40.12%), Postives = 386/663 (58.22%), Query Frame = 1 
Query:  121 GANGYNPVVQVISLKKMTSG----GSDRWRLVLSDGKHYAQSMLATQQNEMISNGDLQEMCIIKLTDYIVNVVQNKRLIILLKLEVSSGPT-QKIGDPINIAEDSSAGNPPMQ-------QQPQQSNTGPYGGGAKPNAGQYGGGDVKPKVSNNPYGPKQTSNPYAGGGYGNNRSGGSNNSYGXXXXGATNNPYANRSGSGGG--SNSGPVQRQSQDSMYVPISALNPYQNRWTIKARVTRKGDMRTWSNAKGEGRLFGIDLLDEQGSEIKGTFFKEDADKWFDVLQEGQVYSFSGGRIKVANKRYSSLNSEYEITFDSSCQINQINDDSRISSMTYSFVKLNEMEGMEPNKILDTIAVVKSFEDFAVINTKA-GKELEKRNLTLVDDTCTEITLTLWGEAAKANGDRWEGNPVIAFKGLKLSDYNGRSLGSLNSSSLVNDPDVPEAAELQTWFAAAGGGSSFKSVSIRSGGGGNDEMAKKDMSERYTLDSIREANLGHGEKSDWAVVKGTISFIKLDADKDPWYTACPSEGCNKKVSETMEGGWMCEKCNQTHAECTRRFILNMTISDQTGKQWVTAFNDQAVPLLDNKTADELQRMKDGGEDGEYEEVFAEACFKTYLMTLRIKADMVNDEMRVKYTVQRMTPIDIKTECNAMLDAISKYN 2064
            G   ++PVVQV+  K++       G  R+RL++SDG HY Q+MLATQ N +I+ G + E  +I L ++I N VQ ++++I+L+  V S     ++GDP+   + ++ GN  MQ       QQPQQ+          P      G  V       PY P  +S            S GS+N+      GA   P  N  G+ GG  + SGPV R       +PI+ LNPY NRW IKARVT K D++ WSNAKGEG LF +DLLDE   EI+ TFFKE  +K++ +L++G VY+FSGG++K A ++YSS+ + YE TFD++ +I ++ DD +I S  YSF K+ E+E   PN  +D I VVK+F   + I TK  G+E+EKR LTL DDT TE+ LT+WGE A    ++WE +P++AFKG+K+SDYNGRSLG++  S +   PD+PEA  L  W+ +AG                         ++R  L  I+E  LG GEK D+  VK T+++IK  +D DPWY +C S  C +KV+E +   + CEKC +   EC  R+IL ++ +D +G  +++ F++ A  LL  ++A+EL   K       Y+  F EA F T+++ LR+KA+ VNDE RVK T+  + P+++  E   ++ AI  YN
Sbjct:   62 GQTKFSPVVQVMDFKQVQPNHGQPGQVRYRLIVSDGTHYQQAMLATQLNVLINEGQITEHGLICLEEFICNEVQGRKIVIILRCHVVSPSLGYRVGDPVEYGK-AAGGNGGMQGGQPVYGQQPQQA----------PALNTMAGASV-------PYKPAGSS------------SAGSSNA------GAY--PPYNSGGAAGGYRAPSGPVVRAGPPQSIIPINDLNPYINRWVIKARVTSKTDIKRWSNAKGEGTLFSVDLLDEFDGEIRATFFKEACEKFYPLLEQGHVYTFSGGKLKPAQRQYSSIRNNYETTFDTNSEIMEVMDDHKIQSAVYSFKKIGELEETPPNATIDVIGVVKAFSPLSTITTKKDGREVEKRELTLCDDTGTEVRLTVWGERASKQPEQWENHPIVAFKGVKVSDYNGRSLGTMPGSQVTVSPDLPEALHLHNWWHSAGATXXXXXXXXXX----XXXXXXXXFADRKVLSQIKEEQLGFGEKPDYMDVKATLTYIK--SDPDPWYRSCTSPDCKRKVTEQLNS-YFCEKCQREMPECAYRYILTVSGTDHSGSVYLSCFDEHANILL-GRSAEELNSFKASDMQARYDATFQEATFGTHILRLRVKAEQVNDEQRVKSTIMNIRPVNLVQEIRDLITAIKAYN 678
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BLAST of mRNA_P-littoralis_Contig750.25.3 vs. uniprot
Match: A0A7S2ULH8_9STRA (Replication protein A subunit n=1 Tax=Attheya septentrionalis TaxID=420275 RepID=A0A7S2ULH8_9STRA)

HSP 1 Score: 426 bits (1094), Expect = 5.660e-133
Identity = 259/688 (37.65%), Postives = 400/688 (58.14%), Query Frame = 1 
Query:   79 MSQGAIVTIMGGATGANGYNPVVQVISLKKMTSGG-SDRWRLVLSDGKHYAQSMLATQQNEMISNGDLQEMCIIKLTDYIVNVVQNKRLIILLKLEV-SSGPTQKIGDPINIAEDSSAGNPPMQQQPQQSNTGPYGGGAKPNAGQYGGGDVKPKVSNNPYGPKQTSNPYAGGGYGNNRSGGSNNSYGXXXXGATNNPYANRSGSGGGSNSG---------------PVQRQSQDSM---YVPISALNPYQNRWTIKARVTRKGDMRTWSNAKGEGRLFGIDLLDEQGSEIKGTFFKEDADKWFDVLQEGQVYSFSGGRIKVANKRYSSLNSEYEITFDSSCQINQINDDSRISSMTYSFVKLNEMEGMEPNKILDTIAVVKSFEDF-AVINTKAGKELEKRNLTLVDDTCTEITLTLWGEAAKANGDRWEGNPVIAFKGLKLSDYNGRSLGSLNSSSLVNDPDVPEAAELQTWFAAAGGGSSFKSVSIRSGGGGNDEMAKKDMSERYTLDSIREANLGHG-EKSDWAVVKGTISFIKLDADKDPWYTACPSEG--CNK--KVSETMEGGWMCEKCNQTHAECTRRFILNMTISDQTGKQWVTAFNDQAVPLLDNKTADELQRMKDGGEDGE-YEEVFAEACFKTYLMTLRIKADMVNDEMRVKYTVQRMTPIDIKTECNAMLDAISKY 2061
            ++ GA+ T+         Y PV+QVI +K +  GG S+R+R + SDG+++ Q MLATQ N ++ +G++QE  +I + +++ NVVQ + +II+LKLEV ++ P Q+ GDP +I +++           QQS+     GGA P A        +P   N P   + T+   +GG Y  N+S    N+YG              +GS GGS+                 P+ R S  +    Y PIS LN YQNRWTIK RVT K  +RTWSNAKG+G LF ID+LD   ++++ TFFKE  DK+F+ L+  +VY+F+GGR+K AN +Y++  S +EITFD + +I+  ND   I   T+ FV++ ++E +EP K +D +AVVKS  +  ++++ K+G+EL+K  L LVDD+  E+TLT+WGE A      +  +P++ FK  ++SD+ GRSL   +++S V +P +PE   ++ W+ + G  S+  + S+ S GG    +   D  ER T+ SI+  ++G   +K DW   KGT +FIK D D   WY AC + G  C    KV++T +G W C+KC  T+  C RRFI + TI+D T   WV+ FN+QA  LL   TAD++ +      D + Y+  F++A F  ++   +++ + +NDE RVK  +Q + P+D   E   +L AI+++
Sbjct:    3 LTHGAVRTLATADQADPSYQPVLQVIHVKAVGGGGASERFRAIFSDGQNFVQGMLATQLNPLVHSGEIQENSVIAVKEFMKNVVQGRTVIIVLKLEVITANPGQRFGDPKDIEKENI----------QQSS-----GGAAPAA--------QPMYGNRPTPVESTT---SGGMY--NQSTQPTNTYG--------------AGSKGGSSGAXXXXXXXXXXXXXXAPIVRSSNPASGDNYTPISQLNIYQNRWTIKGRVTSKSAIRTWSNAKGDGSLFSIDILDASATDVRATFFKEAVDKFFNTLEVDKVYTFTGGRLKTANIQYNTCKSGFEITFDQNAEIHLDNDTGEIQQQTFEFVQIAQLEQVEPGKYVDILAVVKSVGEVGSIVSKKSGQELKKCELVLVDDSAVEVTLTVWGEEATKAQALYGNSPIVGFKRSRVSDFGGRSL---SANSAVVNPRLPETERVRAWWQSVGSNSANPTRSLSSAGGKGGRLPAFD--ERKTVSSIKNEHMGQNTDKPDWVSFKGTFNFIKKDKDGGAWYPACANAGEPCKNRFKVTQTADGNWYCDKCQGTYPNCVRRFIFSATITDDTSTTWVSIFNEQAEVLLGGVTADDVYKNTHENHDQDAYDAFFSKATFTDWVFNCKVRQEFMNDEARVKTQIQSLHPMDYVQESRNLLQAIAQF 643
[Close]
BLAST of mRNA_P-littoralis_Contig750.25.3 vs. uniprot
Match: A0A7S0GBI1_9STRA (Replication protein A subunit n=1 Tax=Proboscia inermis TaxID=420281 RepID=A0A7S0GBI1_9STRA)

HSP 1 Score: 422 bits (1085), Expect = 5.590e-132
Identity = 253/669 (37.82%), Postives = 373/669 (55.75%), Query Frame = 1 
Query:  160 LKKMTSGGSDRWRLVLSDGKHYAQSMLATQQNEMISNGDLQEMCIIKLTDYIVNVVQNKRLIILLKLEV-SSGPTQKIGDPINIAEDSSAGNPPMQQQPQQSNTGPYGGGAKPNAGQYGGGDVKPKVSNNPYGPKQTSNPYAGGGYGNNRSGGSNNSYGXXXXGATNNPYA-NRSGSGGGSNSGPVQRQ---------------------SQDSMYVPISALNPYQNRWTIKARVTRKGDMRTWSNAKGEGRLFGIDLLDEQGSEIKGTFFKEDADKWFDVLQEGQVYSFSGGRIKVANKRYSSLNSEYEITFDSSCQINQINDDSRISSMTYSFVKLNEMEGMEPNKILDTIAVVKSFEDFA-VINTKAGKELEKRNLTLVDDTCTEITLTLWGEAAKANGDRWEGNPVIAFKGLKLSDYNGRSLGSLNSSSLVNDPDVPEAAELQTWFAAAGGGSS-FKSVSIRSGGGGNDEMAKKDMSERYTLDSIREANLGHGEKSDWAVVKGTISFIKLDADKDPWYTACPSEG--CNK--KVSETMEGGWMCEKCNQTHAECTRRFILNMTISDQTGKQWVTAFNDQAVPLL-DNKTADELQRM----KDGGEDGEYEEVFAEACFKTYLMTLRIKADMVNDEMRVKYTVQRMTPIDIKTECNAMLDAISKYN 2064
            +K++  G  +RWR+V+SDG+H+ Q MLATQ N  I++ ++QE  IIK+ D + N++ N+ ++I+L LEV +S P  KIG+P+++                   T P  GGA            KP   NN   P   S P A                        +NPY  +RS S                                 S+D+ + PIS LN YQNRWT+KARVT K D+RTWSNA+GEG LF  D+LD  G++I+ TFFKE  DK+  +LQ   VY+F+ GR+KVAN +Y++  S +E++FD + +++++ DD RI    Y F+ ++ +E  EPN  +D + VVK       V++ K G+EL K +LT+VD +  EI LT+WGE AK     +   P++AFK L++SDY GRSL S  +     +P +PE   LQ W+   G  SS  KS+S R GGG  D  A     +R TL +I+  N+G+GEK DW  VK T SF+K D +  PWYTAC +E   C +  KV++T +G W C++CN+T  +C RR+I + TI+D+T   WV+ F++QA+  L +  TAD +          G+   ++ +FA+A    +++  ++K +MV DE RVK T+  +TP+D   E   +L+AISK +
Sbjct:    1 VKRVGGGSQERWRVVISDGEHFIQGMLATQINHFITSNEIQENSIIKINDNMTNLINNRIIVIVLNLEVLNSTPGLKIGNPVDVG------------------TAPSVGGASVVTA------AKPLYGNNVSNPAAQSKPEA----------------------VNSNPYGQSRSPSXXXXXXXXXXXXXXXXXXXXXXXXXIVRSNMSLSEDN-HTPISQLNMYQNRWTVKARVTSKSDIRTWSNARGEGSLFSCDILDSSGTDIRCTFFKEAVDKFHPMLQMDHVYTFTNGRLKVANAQYNTCKSNFEVSFDQNAEVHEVADDGRILQQQYEFLPISAVEQTEPNSNIDLLVVVKEVHPIGTVMSKKTGQELFKCDLTVVDQSNVEINLTVWGEKAKTAEANFANQPIVAFKRLRVSDYGGRSLSSSGNGGETVNPRIPEVQPLQHWWNTQGRTSSTLKSLSTRGGGGRMDSFA-----DRKTLSAIKTDNMGYGEKPDWMSVKATFSFVKKDKEGGPWYTACVNEEEPCRQRVKVTQTTDGYWHCDRCNKTSEKCKRRYIFSATIADETSTSWVSLFDEQALQFLGEEHTADSVYDRYFSDSSNGDTEGFDGLFAKATSTDWIVKCKVKNEMVGDESRVKTTIYSLTPMDYVKESRDLLEAISKLS 617
[Close]
BLAST of mRNA_P-littoralis_Contig750.25.3 vs. uniprot
Match: A0A7S2V6G1_9STRA (Replication protein A subunit n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2V6G1_9STRA)

HSP 1 Score: 416 bits (1068), Expect = 6.730e-132
Identity = 207/447 (46.31%), Postives = 304/447 (68.01%), Query Frame = 1 
Query:  736 YVPISALNPYQNRWTIKARVTRKGDMRTWSNAKGEGRLFGIDLLDEQGSEIKGTFFKEDADKWFDVLQEGQVYSFSGGRIKVANKRYSSLNSEYEITFDSSCQINQINDDSRISSMTYSFVKLNEMEGMEPNKILDTIAVVKSFEDFAVI--NTKAGKELEKRNLTLVDDTCTEITLTLWGEAAKANGDRWEGNP-VIAFKGLKLSDYNGRSLGSLNSSSLVNDPDVPEAAELQTWFAAAGGGSSFKSVSIRSGGGGNDEMAKKDMSERYTLDSIREANLGHGEKSDWAVVKGTISFIKLDADKDPWYTACPS-EGCNKKVSETMEGGWMCEKCNQTHAECTRRFILNMTISDQTGKQWVTAFNDQAVPLLDNKTADELQRMKDGGEDGEYEEVFAEACFKTYLMTLRIKADMVNDEMRVKYTVQRMTPIDIKTECNAMLDAISKYN 2064
            Y PIS+LNPYQNRW IKARVT K  ++TWSN +GEG+L  I+LLD+QG+EI+GTFFK+  D W++ +++G+VYS SGGRIK+ANK+YS++ ++YEITFD+S  I Q++DDS I  +  S VK+ E+  + P   +D +AVVK+  + A I    + G++L+KR+L LVDD+  E+ LT+W E AK +G  W GNP ++  K +++SD+ G +L +  SS L  +PD+PEA  L +W+ +  GGS  +S S+ +GGGG  +  K D   R T+ +I++  LG  EK DW  +K T+ FIK D  K+PWY AC S   C KK SE + G W C+ C++T      R+I++  + D TG+ W +AFN+ A  +L  +TA+EL++M + G+D  YE+ F+EA FK Y++T R+K++ VNDE RVK T+ R+TP+D   E   +L  I+KY+
Sbjct:    3 YQPISSLNPYQNRWVIKARVTNKTPIKTWSNVRGEGKLASIELLDDQGTEIRGTFFKQQVDDWYNRIEQGKVYSISGGRIKIANKQYSNVKNDYEITFDNSTDIQQLDDDSSIEGLKLSIVKIQELSSLAPGANVDILAVVKNVGEMAEIVSQKQGGRQLQKRDLILVDDSGAEVKLTVWNEMAK-DGSMWVGNPTLVGAKNVRVSDFGGVTLSANQSSGLNINPDIPEAHSLHSWWMS--GGSEAQSTSLSTGGGGGRD--KPDQ--RKTIAAIKDEQLGFKEKPDWLSLKATVCFIKHD--KEPWYPACNSGNDCKKKASEDLTGVWRCDTCDKTFERPIYRYIMSTKLVDHTGQNWFSAFNETAETMLGGQTANELKQMLESGQDNNYEDAFSEANFKPYIVTCRVKSEQVNDETRVKSTLVRLTPVDFVEESKNLLGMIAKYD 440
[Close]
BLAST of mRNA_P-littoralis_Contig750.25.3 vs. uniprot
Match: A0A7S2VFV8_9STRA (Replication protein A subunit n=1 Tax=Skeletonema marinoi TaxID=267567 RepID=A0A7S2VFV8_9STRA)

HSP 1 Score: 420 bits (1080), Expect = 4.230e-131
Identity = 254/671 (37.85%), Postives = 393/671 (58.57%), Query Frame = 1 
Query:   79 MSQGAIVTI--MGGATGANGYNPVVQVISLKKM--TSGGSDRWRLVLSDGKHYAQSMLATQQNEMISNGDLQEMCIIKLTDYIVNVVQN-KRLIILLKLEVSSGPTQKIGDPINIAEDSSAGNPPMQQQPQQSNTGPYGGGAKPNAGQYGGGDVKPKVSNNPYGPKQTSNPYAGGGYGNNRSGGSNNSYGXXXXGATNNPYANRSGSGGGSNSGPVQRQSQDSM-YVPISALNPYQNRWTIKARVTRKGDMRTWSNAKGEGRLFGIDLLDEQGSEIKGTFFKEDADKWFDVLQEGQVYSFSGGRIKVANKRYSSLNSEYEITFDSSCQINQINDDSRISSMTYSFVKLNEMEGMEPNKILDTIAVVKSFEDFAVI-NTKAGKELEKRNLTLVDDTCTEITLTLWGEAAKANGDRWEGNPVIAFKGLKLSDYNGRSLGSLNSSSLVNDPDVPEAAELQTWFAAAGGGSSFKSVSIRSGGGGNDEMAKKDMSERYTLDSIREANLGHGEKSDWAVVKGTISFIKLD--ADKDPWYTACPSEG--CNK--KVSETMEGGWMCEKCNQTHAECTRRFILNMTISDQTGKQWVTAFNDQAVPLLDNKTADELQRMKDGGEDGEYEEVFAEACFKTYLMTLRIKADMVNDEMRVKYTVQRMTPIDIKTECNAMLDAI 2052
            ++ GAI  +  M G++    + P VQ++ LKK+    G  DRW++VLSDG  +   M ATQ N  +++G++ +  II + +++VN + + ++++I+L+ E+   P  ++G+P++I +  + G+   Q QP    +G  GGGA+P  G+                 +   NPY GGG              XXXX   N+     SG G   +S PV R +  S  + PIS LN Y NRW I+A++T K ++RTWSNAKGEG LF + +LD  G+++K TFFKE  DK++++L+EG+VY+FSGGR+KVAN +Y++  S++EITFD + +I+ + DD+     +Y FVK+  +  MEP+  +D +AVVK   D AVI + K+GKE+ K  LT+ DD+  ++ LT+WG+ A     ++  +P++AFK  ++SDY GRSL     S  VN P +P+A +L+ W+A  G  +  +S+S   GG            +R T+ SI+E  LG+ EK DW   K TI+FIK D   D+  WYTAC + G  C    K ++T +G + C+KC QTH +C RRFI + T++D T   WV+ FN+QA  + +   ADEL      G+   Y+  FA+A    +++  ++K + V DE RVK ++  +TPID   E   +L A+
Sbjct:    3 LTDGAIQRMFSMSGSSDDPSFLPSVQILHLKKIPQNGGADDRWKVVLSDGNRFLSGMCATQLNIKVNSGEIAQFGIINVNEFLVNTLPSGQKIVIVLRCELVQNPGSRLGNPVDITKAGNVGS--AQAQP----SGGVGGGAQPMYGKV----------------ESAGNPYGGGGS-------------XXXXXXXNSGGMGMSGQG---SSNPVIRTNASSQSFTPISGLNMYSNRWVIRAKITNKSEIRTWSNAKGEGSLFSVVVLDSSGTDVKCTFFKEAVDKFYNLLEEGRVYTFSGGRLKVANMQYNTCKSQFEITFDQNSEIH-LQDDAEDIQESYDFVKIAALSEMEPSGFVDILAVVKHVADPAVIVSKKSGKEMTKCELTIQDDSGADVRLTVWGDLAANAQTKFANSPIVAFKRARISDYGGRSLSGSGCS--VN-PTIPQANQLRQWWADNGSNTQARSLSSAGGGA----RGADPFEQRKTVSSIKEEQLGYNEKPDWLSFKATITFIKKDKAGDEGAWYTACFNSGDPCKNMFKATQTSDGFFHCDKCQQTHEKCVRRFIFSGTVADDTSTSWVSVFNEQAESMFNGVKADELYEKIAEGDRDSYDSTFAKASCTEWIIKCKVKQEHVGDESRVKTSIVSLTPIDYAAESRNLLAAL 627
The following BLAST results are available for this feature:
BLAST of mRNA_P-littoralis_Contig750.25.3 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5JTK0_9PHAE0.000e+069.75Replication protein A subunit n=1 Tax=Ectocarpus s... [more]
D7FUU1_ECTSI1.430e-21270.17Replication protein A subunit n=1 Tax=Ectocarpus s... [more]
A0A7S3XQ94_HETAK6.840e-15642.90Replication protein A subunit n=1 Tax=Heterosigma ... [more]
A0A835Z8X4_9STRA4.250e-14839.79Replication protein A subunit n=1 Tax=Tribonema mi... [more]
A0A6U0TYW6_9STRA4.600e-14740.67Replication protein A subunit n=1 Tax=Pinguiococcu... [more]
W7T7F5_9STRA1.720e-14140.12Replication protein A subunit n=1 Tax=Nannochlorop... [more]
A0A7S2ULH8_9STRA5.660e-13337.65Replication protein A subunit n=1 Tax=Attheya sept... [more]
A0A7S0GBI1_9STRA5.590e-13237.82Replication protein A subunit n=1 Tax=Proboscia in... [more]
A0A7S2V6G1_9STRA6.730e-13246.31Replication protein A subunit n=1 Tax=Fibrocapsa j... [more]
A0A7S2VFV8_9STRA4.230e-13137.85Replication protein A subunit n=1 Tax=Skeletonema ... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-littoralis_Contig750contigP-littoralis_Contig750:63377..87895 +
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 ortholog2880.D7FUU1
Preferred nameRPA1
PFAMsREPA_OB_2,Rep-A_N,Rep_fac-A_C,tRNA_anti-codon
Model size3130
Max annot lvl2759|Eukaryota
KEGG koko:K07466
KEGG Pathwayko03030,ko03420,ko03430,ko03440,ko03460,map03030,map03420,map03430,map03440,map03460
KEGG ModuleM00288
Hectar predicted targeting categoryother localisation
GOsGO:0000003,GO:0000228,GO:0000278,GO:0000280,GO:0000722,GO:0000723,GO:0000724,GO:0000725,GO:0000781,GO:0000784,GO:0000785,GO:0000790,GO:0000793,GO:0000794,GO:0003674,GO:0003676,GO:0003677,GO:0003690,GO:0003697,GO:0003723,GO:0003729,GO:0005488,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005657,GO:0005662,GO:0005694,GO:0005737,GO:0005829,GO:0006139,GO:0006259,GO:0006260,GO:0006261,GO:0006265,GO:0006268,GO:0006278,GO:0006279,GO:0006281,GO:0006289,GO:0006302,GO:0006310,GO:0006312,GO:0006464,GO:0006725,GO:0006807,GO:0006950,GO:0006974,GO:0006996,GO:0007004,GO:0007049,GO:0007063,GO:0007088,GO:0007127,GO:0007131,GO:0007346,GO:0008104,GO:0008150,GO:0008152,GO:0009058,GO:0009059,GO:0009889,GO:0009891,GO:0009893,GO:0009987,GO:0010556,GO:0010557,GO:0010564,GO:0010604,GO:0010638,GO:0010639,GO:0010833,GO:0010948,GO:0016043,GO:0016567,GO:0018130,GO:0019219,GO:0019222,GO:0019438,GO:0019538,GO:0022402,GO:0022414,GO:0030491,GO:0030894,GO:0031323,GO:0031325,GO:0031326,GO:0031328,GO:0031974,GO:0031981,GO:0032200,GO:0032204,GO:0032206,GO:0032210,GO:0032212,GO:0032392,GO:0032446,GO:0032508,GO:0032879,GO:0032880,GO:0032991,GO:0032993,GO:0033036,GO:0033043,GO:0033044,GO:0033045,GO:0033046,GO:0033047,GO:0033048,GO:0033260,GO:0033554,GO:0034641,GO:0034645,GO:0034654,GO:0035825,GO:0035861,GO:0036211,GO:0042162,GO:0042592,GO:0043047,GO:0043170,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0043233,GO:0043412,GO:0043565,GO:0043596,GO:0043601,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044267,GO:0044271,GO:0044422,GO:0044424,GO:0044427,GO:0044428,GO:0044444,GO:0044446,GO:0044454,GO:0044464,GO:0044786,GO:0045184,GO:0045786,GO:0045839,GO:0045875,GO:0045930,GO:0045935,GO:0046483,GO:0048285,GO:0048518,GO:0048519,GO:0048522,GO:0048523,GO:0050789,GO:0050794,GO:0050896,GO:0051052,GO:0051054,GO:0051098,GO:0051101,GO:0051128,GO:0051129,GO:0051130,GO:0051171,GO:0051173,GO:0051179,GO:0051234,GO:0051276,GO:0051321,GO:0051716,GO:0051726,GO:0051783,GO:0051784,GO:0051983,GO:0051985,GO:0060249,GO:0060255,GO:0060341,GO:0061982,GO:0065007,GO:0065008,GO:0065009,GO:0070013,GO:0070034,GO:0070647,GO:0071103,GO:0071704,GO:0071840,GO:0071897,GO:0071922,GO:0071923,GO:0080090,GO:0090304,GO:0090734,GO:0097159,GO:0098687,GO:0098847,GO:0106111,GO:0106112,GO:0140013,GO:1901360,GO:1901362,GO:1901363,GO:1901564,GO:1901576,GO:1902969,GO:1903046,GO:1903047,GO:1903827,GO:1903828,GO:1904356,GO:1904358,GO:1905405,GO:1905412,GO:1905634,GO:2000112,GO:2000278,GO:2000573,GO:2001251,GO:2001252
Exons15
Evalue1.12e-218
EggNOG OGsCOG1599@1|root,KOG0851@2759|Eukaryota
Ec32 ortholog descriptionNucleic acid-binding, OB-fold
Ec32 orthologEc-06_001110.1
DescriptionDNA recombination
Cds size2001
COG categoryL
BRITEko00000,ko00001,ko00002,ko03000,ko03032,ko03400
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-littoralis_Contig750.25.3prot_P-littoralis_Contig750.25.3Pylaiella littoralis U1_48polypeptideP-littoralis_Contig750 63443..86832 +


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

Feature NameUnique NameSpeciesTypePosition
1680791554.3677988-UTR-P-littoralis_Contig750:63376..634421680791554.3677988-UTR-P-littoralis_Contig750:63376..63442Pylaiella littoralis U1_48UTRP-littoralis_Contig750 63377..63442 +
1680791554.573583-UTR-P-littoralis_Contig750:86832..878951680791554.573583-UTR-P-littoralis_Contig750:86832..87895Pylaiella littoralis U1_48UTRP-littoralis_Contig750 86833..87895 +


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

Feature NameUnique NameSpeciesTypePosition
1680791554.384602-CDS-P-littoralis_Contig750:63442..635261680791554.384602-CDS-P-littoralis_Contig750:63442..63526Pylaiella littoralis U1_48CDSP-littoralis_Contig750 63443..63526 +
1680791554.3952174-CDS-P-littoralis_Contig750:71129..713171680791554.3952174-CDS-P-littoralis_Contig750:71129..71317Pylaiella littoralis U1_48CDSP-littoralis_Contig750 71130..71317 +
1680791554.4053426-CDS-P-littoralis_Contig750:72707..727981680791554.4053426-CDS-P-littoralis_Contig750:72707..72798Pylaiella littoralis U1_48CDSP-littoralis_Contig750 72708..72798 +
1680791554.4159799-CDS-P-littoralis_Contig750:73487..736411680791554.4159799-CDS-P-littoralis_Contig750:73487..73641Pylaiella littoralis U1_48CDSP-littoralis_Contig750 73488..73641 +
1680791554.4315894-CDS-P-littoralis_Contig750:74161..743691680791554.4315894-CDS-P-littoralis_Contig750:74161..74369Pylaiella littoralis U1_48CDSP-littoralis_Contig750 74162..74369 +
1680791554.4433343-CDS-P-littoralis_Contig750:75202..753591680791554.4433343-CDS-P-littoralis_Contig750:75202..75359Pylaiella littoralis U1_48CDSP-littoralis_Contig750 75203..75359 +
1680791554.4540331-CDS-P-littoralis_Contig750:76142..762791680791554.4540331-CDS-P-littoralis_Contig750:76142..76279Pylaiella littoralis U1_48CDSP-littoralis_Contig750 76143..76279 +
1680791554.4714746-CDS-P-littoralis_Contig750:79299..794071680791554.4714746-CDS-P-littoralis_Contig750:79299..79407Pylaiella littoralis U1_48CDSP-littoralis_Contig750 79300..79407 +
1680791554.4832442-CDS-P-littoralis_Contig750:79883..800281680791554.4832442-CDS-P-littoralis_Contig750:79883..80028Pylaiella littoralis U1_48CDSP-littoralis_Contig750 79884..80028 +
1680791554.493006-CDS-P-littoralis_Contig750:80885..810511680791554.493006-CDS-P-littoralis_Contig750:80885..81051Pylaiella littoralis U1_48CDSP-littoralis_Contig750 80886..81051 +
1680791554.5100596-CDS-P-littoralis_Contig750:81369..814871680791554.5100596-CDS-P-littoralis_Contig750:81369..81487Pylaiella littoralis U1_48CDSP-littoralis_Contig750 81370..81487 +
1680791554.5240984-CDS-P-littoralis_Contig750:82010..820711680791554.5240984-CDS-P-littoralis_Contig750:82010..82071Pylaiella littoralis U1_48CDSP-littoralis_Contig750 82011..82071 +
1680791554.537562-CDS-P-littoralis_Contig750:82797..828681680791554.537562-CDS-P-littoralis_Contig750:82797..82868Pylaiella littoralis U1_48CDSP-littoralis_Contig750 82798..82868 +
1680791554.5497048-CDS-P-littoralis_Contig750:84471..846011680791554.5497048-CDS-P-littoralis_Contig750:84471..84601Pylaiella littoralis U1_48CDSP-littoralis_Contig750 84472..84601 +
1680791554.5621676-CDS-P-littoralis_Contig750:86649..868321680791554.5621676-CDS-P-littoralis_Contig750:86649..86832Pylaiella littoralis U1_48CDSP-littoralis_Contig750 86650..86832 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-littoralis_Contig750.25.3

>prot_P-littoralis_Contig750.25.3 ID=prot_P-littoralis_Contig750.25.3|Name=mRNA_P-littoralis_Contig750.25.3|organism=Pylaiella littoralis U1_48|type=polypeptide|length=667bp
MANLMSQGAIVTIMGGATGANGYNPVVQVISLKKMTSGGSDRWRLVLSDG
KHYAQSMLATQQNEMISNGDLQEMCIIKLTDYIVNVVQNKRLIILLKLEV
SSGPTQKIGDPINIAEDSSAGNPPMQQQPQQSNTGPYGGGAKPNAGQYGG
GDVKPKVSNNPYGPKQTSNPYAGGGYGNNRSGGSNNSYGRGGGGATNNPY
ANRSGSGGGSNSGPVQRQSQDSMYVPISALNPYQNRWTIKARVTRKGDMR
TWSNAKGEGRLFGIDLLDEQGSEIKGTFFKEDADKWFDVLQEGQVYSFSG
GRIKVANKRYSSLNSEYEITFDSSCQINQINDDSRISSMTYSFVKLNEME
GMEPNKILDTIAVVKSFEDFAVINTKAGKELEKRNLTLVDDTCTEITLTL
WGEAAKANGDRWEGNPVIAFKGLKLSDYNGRSLGSLNSSSLVNDPDVPEA
AELQTWFAAAGGGSSFKSVSIRSGGGGNDEMAKKDMSERYTLDSIREANL
GHGEKSDWAVVKGTISFIKLDADKDPWYTACPSEGCNKKVSETMEGGWMC
EKCNQTHAECTRRFILNMTISDQTGKQWVTAFNDQAVPLLDNKTADELQR
MKDGGEDGEYEEVFAEACFKTYLMTLRIKADMVNDEMRVKYTVQRMTPID
IKTECNAMLDAISKYN*
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mRNA from alignment at P-littoralis_Contig750:63377..87895+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-littoralis_Contig750.25.3 ID=mRNA_P-littoralis_Contig750.25.3|Name=mRNA_P-littoralis_Contig750.25.3|organism=Pylaiella littoralis U1_48|type=mRNA|length=24519bp|location=Sequence derived from alignment at P-littoralis_Contig750:63377..87895+ (Pylaiella littoralis U1_48)
TCCACCCCCAGATCCGTGGACGGACACAGCGAGGCGACACAGGGTTGGAG
GACGCACTTTCATACCATGGCGAACTTGATGAGCCAAGGCGCTATTGTAA
CCATCATGGGTGGCGCCACAGGCGCAAACGGCTATAATCCGGTGGTGCAG
GTAGGCTTGAGGAGAGCCAGAAGCAACTCCCATATTTTTGAGTTTGAAAT
CATCTCCACTTCTTCCCTATTAGAAACATATGCTGAACAACACCTGTCTG
TCTTGAGCAAACGCCCTGGTTCCTGTTTGGCCCTGAGGCGTGTAACCACG
ACGGCATTGTTTCGGAGAGGTCGTCACCCAGATGGACTTCGATGATTGTC
TTATTTGTGTATCGGTTGCGTGTACCGCCCCGTATGTTGCCCGCGTGACT
TTCGCTAAAACGCAATTTTGATTTCAGGGAAAAGCGGGAAAGTTGCCGAG
TTTGAAAGGCTCAAACTCGGACTCTAAAATCATAAAGTATGCTTCGAAGT
ACGAAGTAGTACAGCAGACTTCGCATGTACTCGAAGTAAGCATCAACAAT
GTATCTAGCGGATGGCACACCGCAGCAGTGGTGCACGCTTCAGTCTGACT
CTGCCTGTCTCTCTCTCCCCCCCTGCTCGCCCACGCTCCTTCCCGGTGAA
GGTGGTGAAGGGCCGTGTGCATCCTTGTTCTGTGGGGTTTACAATCGGAA
ATACAAGTGAAGTTGCCAATTTTGAATTTTGAAAAGAGAGGCGAACACAT
ATATGTGTTTTTTTTTTTTTGTTCTCACAAATACGAAGTGCAAGTTTACA
AAAAAAAACATCAAGTGTGGTTGTACAAGGGTTTCGGCGGCTGACGCCGC
CACGATCCTGACCGAATCCAAGATATATGTAGAGGCACTCGGAAGGCGCG
ATGGTGGGACATGGCCTGGTGAACATGTCGACGATACACGGGGTTGAAAA
TGGCACATACTACATACGTATATACATTTCTTTAGTTGTAAAGATGAAAG
AAAACGGAAAAAGGAAAGAGTGCCGGGCCGCTATAACGAAAAAACAAACA
ATCCCACGAAAGCAAAACGAAAAAACATACCCTCAGAGTTATCGTACGTA
CATAATCCACAGCAGTAAAGCCCGCAACCGACACATACGTACAACAGTAG
TATCTACCTGCTGCATGCAGTGTACGACTGCAGGGAAAAGGCAAGTCATG
TGGTAATTCCCGAGGGCTCAACACTCTAACCCCTTTCGTATTACAGCAGG
AAAGTAAAAAACGGCATTAAACATCGGCGAAGAAGGGAAAGGGGGAGGAG
TACGGATCACTGACGATTACAGCTGTGCGGGTTAAATGTCGGGAATTCGC
AAGTGGGTGGGTGGGGAGGTGGGAGGCAGTATTATTTAGTGAGCAAGACC
ATAAATCATCTGTAGGACAATTGTTACCGGGAGGTGGTACGTAGACCGCA
GGACTACGTCATATACTATATAATACATTTTGCTGCGGCTTCGAAGCCGG
TACCTACATTCCTTTTTCTGTTTTGTCTTTTTGATCGGCATTCCGTAGCC
CTACAGAACTGATGTTGTTGTTGTTGTTGATTCTCACATTAGCTCACTAC
CGCCGCAGTCTAGCCCGTGGTCACAAACGATGTGGACCGCCAGAGCCCAG
AGGGACACACACCAACGACCCAGCCGAACCCGAACCCGAATCCTAAACCA
CGCGGAGGACTGCTAGGACACATAATGTACAGCAGTAGTAGTATTTAGTA
AGCAGTAGTAAGTAGTAGTAGAGGTCTTGTGTGAGGAATGGGGGAGGGTT
CCCCTCAAGAGACCTCCTCTGCTACGACCGTACTCTGTACTGTATTATTT
GTTATATATGGGGTGGCCTTTTCACTACTTCGTGTTATAATACTACTACA
GCAGTAAACGCGGTTGGTTGCTGTTGCTGTTGTTGGTTTGATCTCAGGGC
CCCCCAACGGTTTACTGCTTGCTGTGTGTGAGGGTGGCTCTTGTCAAATT
TTTGACCGTATTCAAAATCAAAAACAAAATTGGATTTTGATTTTGATTCC
GTGTTGGGTCCGATCTGCTGCAGCTTGCGTTTGTCCAAAATCAAAAGCGG
ATGAAAAAACAACAACAGGGGTCATAGCAGGAGGTGTGTGATATGAGCAT
GCCGTGTCTCGATTCCAAGACAAGTGCGGGAGCTGTCGTGCCTCAGACGA
AGAGCACGATGGTGCCCCACGTCGCCCTGACTCAGGCGCGTTGGTAGTTC
TTTGTTTGGAATCGATAATCGAAAAAGTCGGCAAGAGATGAGTCAGTACG
TGTTGCACATCTGCCCTTTTTTGGAGGTAGCGGCTGCGTCAGCTACGCAA
ACAGCAGTTGAGCAACAAACTTCCTGCACACTTTTACACACTTGAGGCCT
GCTCTCCGGATTCTGGTCGGAATTCGTTCAAACAAAGTGATCTGTATTCT
GCGTGATACCAGCTTTCTCCGGAGCTAGCACATGTGTACAGCCGGGGTCT
ACACGTTGTGCTGTGGTCAGCTGAGCAAACATATGTAGTGTGCACCATGT
GCTCCCGGAATGCACAGCAAACACCTCTCTGTCTCATATTCTAGGTCTCT
TCGTTTTTGAGCCGCGTTTTTGATCTATTGGCGGGAAGGAAAGTGTTTTT
TACTTTCCTTCCCGTTTCGGAAGAACAAAACTGAAATCCAAAACGTGGTG
CGGGCGGATGAATTGTTGACCTATCAGTGACATATTCCGAGTTTGATTTT
TTATTTTTCATTCTTGAATGGGCCCAAAACGCCTTGACAAGAGCCACCCT
GAGGACGCTTCCGCAGAGAGTCCAGAGAGAGGCATCCCGCCGCGGTCTAC
TGCTGGACTACTGTAGTTCTACGTGAAAACGAATTGAATCCTGGAGTATC
ATATGATACAAGTATAATATGATATGCATGTATGTATGCATCACCGCGGG
ACCGCATTCAAATTTAACAACTTACAATTAATTGATAAATATGATATCCT
GGGCTTCCAAACCGAGCTGTAAAGAGGCAGGTGAGAGACAGGTGCTGGCT
TGTGAGCGGTATTTTAGAGGTCCCGTCCCCTTATAATATTTACTACTTTA
TACTACTTCGTGCTCTGTGTTCCATGATACACTCTGCTGCTGTTGGTTTT
TGATGAGGACCCCCAACGGTTTACTGTGAGAACGTTTCCGCAGGGAGAGC
AGAGATAGGTATGAAAAATCAATGCTCTGTGGGATCCTGGCATTATGTTT
ACTGCTGTTGTTGTGATTCAACCATATCAACCGCAAAGTGGTGGTTAGCT
GCGCTGATGATCTGGATCTGACGGCAGGGAGGGCTGGATATAAAATGTAT
ACGAAACGTGTCATATGTAGTACTTGTATATACGTACGAACGAGTATTAT
TATTATGTGTATCATACGCCATACGCTGTTATTGTTGTTGTTGTTGTTGA
GATGTTCACGCAAGATGCTGCGTGTACGGAAGAATAAAATCTGATCTATG
ATAAATAATAGGCGATTGAACTTGTTTTATTAGATCTATCTCTGAGTAGC
AATATGTATGTTCTACAGAGGAAGGGTGGATGATTTCGAATTCCCGTTTC
CCGCCGTGGTCTGTATATTATTAGACTATTGAATGAATGGATGTATCCAA
TATGATCCAATCCTACAGGGGAAGGGATGGATACATGCCGTAAAATGATC
CGAATTAGAGTCTCTCGGGACAGACTACCTAAGATCGGATGTGAACACCA
CACACACCACACAGACTTGTGGACGATGGTGATGATGAGATGTGATGCAG
AAGGCCTGCCTGACTACCACGCGGACAGGACATTTCACGGAGTGTGGGTC
GAACGTCGAAGTCAAAGAAAGCGTGGGTATTCAAAATGATGTGATGTTGA
TGATGTAAATAAATCCAGCAGTTCTGAATTTTCCAAAAGCCGAGAGATTC
TTAGTGCGCCCCCCAGTCTGGTCTGTCTGTTCCTGCTGTTGTTGTTGGCG
GATAATCTCCTCATGATGATGATGACATACTGATCCAATATGATGTGATC
CAAAATGAGAGTTTGGGTCGAAGTCAACGCCAACAAACAGCAGATCTGCG
CAGATAAAAAGATGAGAAGATAGATGTGATGATGATGATAATATCGTACT
CGTACAGCAAAAAAAAGTGGAGAGAGCAGTTGTTTGATGTGATATACGGA
GTATTGTTGTTGTTGTTGTTGATTCTCACATTGGCTCACTACCGCCGCAG
TCTAGCCCGTGGTCACAAACCAGGCACATATCGTGCTAGGAGGCAAAAAA
AAATATATATATATATGGACTATGATCACCCACAGTCAGATCAGACGTGG
TACCGTTGGGGTACCATTTGTGGTGGCCAGAATACCAAACAAATACAGAA
AAAATAACAGGCTCGAAAGAAAAACAAAAATTGGAAACAGTCCGACAAAC
AAAAAATAACCAAGACAGACCTCAACCATAACCATATACTTCGAAGTACT
TCGTATATCGAACCAGGGCCCAGGGCCATGACAGACCAAGGCAAAGGCAA
ATCAGGGCGATGGTCCAGTAACTATAAGATCAATAGACGAAAGACAAAAA
AATAAAATAAAAAAAGAAGAAGAAACAGGGAGGGCACAAAGACTGAGGGA
GTGCATTCGTACACAAACACAACAAACAGGCCGCCAAACAAAAAGGAAGC
AGGGGAACGAAATGGGAAAAATAGGCCGGAAGTACCGGAAGTCGGGGGGG
GGGGGGGGGTGATAAAAAATAAAATAAAAGGCATGCAATCAATCGCAAAC
GTGTCTTGCCACGAGGTCTGCCTGTTCACGCTTGCTCTCCTCAGTCCCAC
TCATTCCTCCTGCTACTGGCACCACCGTACCCAGATGTTTCTGCCCCACA
TCTTTGGCAGCAGCTACACCACCATTCCGCCCTACAGGTTTTCCACTCCG
GCCACCCCGTAGCTTGGCATTGGACTGCTTCTTCTTGTGCTGTGCAACTC
CAACCCCACCACCCCGCTGCCCTTGGGCCCCCCCGTACCCCTCCTCTCGT
TTGTCCCCGCCATCCGTTCTCCCTCTCTTGGCCAAGGCCTGCCCCTCAGC
CGCGTCCCTCTCCCTTTTCCGTCGACGTGTCTCTGATAAGTCTCCCTCTT
TCTTGAGCCACTCGTCCGTGAACCGCCGCGCACCCTCGTCGATCCTGTCG
TACCACTCGTCAGCTCTCTTGGCACTTGCCTCCCACCCCTCTTTTTTGTC
GACCACGATGTCGAACGCTTCGAGGTCCTCCTGCATTCGCCTCAGCCAGT
CAAACTCTTGTATATGATATGACAGGGGTAGATAAATGATCCAAAACGAT
CTCCGTCCTATGATGCAGGAAAGATAAACGACCCAATGTGATCAAAATTA
CCCAATATCATACTCGGAGTACTTCGAAGTATGATGGTACTGTAGTACAG
GAAAAGGAAAGACAAATGACTCGAAATGATCGAAATGCAAGGTTCCGCGG
TGGTCTAATTTCAAGTGATATGCAGGAGGAACGGAATAAACACCCAAAAT
GATTCATGGATGTCAAATGATCCAAATCAGAGGTCCGCCGTAGTCTGACT
TTAAGTGATTCCAAGGGATATGTGCATATGCGCAGATGAAAAGATGAGAA
TATGTGATGATGATATCGTACTCGTACAGCAAAAAAAGCGGAGAGAGCAG
TTGTCTGCTGTGATATACGGAGTATATGATATGACGGGGGTGGTAGATAC
ATGATCCGAAACGATCTCCGTCCTATGATGCAGGAAAGATAAACGACCCA
ATGTGATCAAAATTACCCAATATCATACTTCGAAGTATAACTTTTATGCA
GGGACGGAAAATTTAGAGGCATGGCCCAAAACGGGTTACCCGGTAGTTTT
GTGGCCATTATCGGGTACCCTTCTTTTCCGCCGATAGAAATGGTAATGGT
CTCAGGGAGCAATCCCATTGGCCAAACCGCGCCGCCACCCGGTCCTGGCC
AAATTTCTGCCAGGTATACCCGGTTTTGGCTACTTTAACCGCGGGAGCTA
CCCGATTTTCACATACACTACCGAAAGTGGCCCGACATAAACTCTATAAC
TAAGTTATATTTCATGCACACACACACACTTCTGCTGCTCAAGTTAATAA
TGTGCTTCGTATCGTATGCGTATGATCATGGACGATTATGCCAGTCTCGC
ACGCAATACCCCCACTGTACTACTCCTGTAGCACCACCACTACTGCTGCC
GACTGTCATAAGCGCGTGCGTGTGTGTGTGTGCGTCTACGTGCATGGATA
TGTGTGTGGTGTGTAACAGAGAGGAGATATATGACGGGATATGGCAGCAC
GACAATATGATACGAAGTACATTATGAACTACTGTACAGCAGCATGTGTA
AACAACTTAGTTATAGACTGTGTGTCGGGCCACTTTCGGGTAGTGCATGT
GAAAATCGGGTAGCTCCCGCGGGGAAAGTAGCCAAAACCGGGTATACCTG
GCAGAAATCTGGAATCTGGCTAGGACCGGGTGGCGGCGCGGTTTGGCCAA
TGGTATTGCTCCCTGAGACCATTTCCATCGGCGGAAAAGAATGGTACCCG
ATAATGGCCACAAAACCACCGGGTATACCCGTTTTTGGCCATTCCTCCAA
AATTTACTTCGAGTAGCCGTTTAACCAGACAAATCAAACACTACAACAAC
TGTGCCAAGGATGATGCAAACAGCACAACTATAGATTGTAAACACTCAAC
ACATGATGTAACGTGTCACACAAGACGACCACCAAATTGTCTTGTTGAGC
CTGGTACCCTCAGGGGCTGCCAAGGTACATTATCTGATTAGTTATATGTA
GAAACACTGGTGGATGTACCTTATTATTCGTGTTCGTTGCAATATCTACT
CCAGATCCTCGTCTAGGGAGAGGCGAACACATTAATGTGTTCGTAAGTTT
AAAAAAAAATGCATCGATGTGGTTCGCTCTCTCTAGAGGATCCAGCAAAG
CAGTTCTTTCAGCAGTACTTGTATGATGGTCGATTCAGGAACGGCGCTGC
CGTCGCACTGCTGCATCTATTATCGTGCGAAGACAGCGTTATCCGTCGCC
AACTTGCGACACACGTATGCGGCCGAAAGGTGCAAACACTGGCGCCCGTA
GCGGATGGGATGATAGCAGACGCACCCCTCAAGTAGACTCAACAGCAGTC
TTCATGTGCCCTTATCGGGACCAAAAGCTTACAAAAGTTTGCTGCTGCTG
TGCTGCTGTACAGCAGGAGCGCATGCGGTGGTAAGAATAGGAAGACCCCC
ACACGCTGTCTGTTGACGACAGCCACCCCACCTCCGCTGCATCCTAACGA
CCAGCACACAATACCAGCCGCGATCTATACTACAGCAGTACTGACTGCGC
TTGATCCACTAGATTGCGGCACTTCGTCAATGCTATCGAGAGACGGCGGG
TTGGGAAACAAAGGAACCCCCGACTCCGCCTTGCAGCACCTATCGTACGA
CAAAGGCCAGTTGTTGCGGCTGTTTTTTCCGAATCCAGTTGTCCTCCTCG
ATTGCCGCAGGGCTGTAATCAGGCGCCATCGACAGATTACTTTGAAGTAT
GAGATACACCCGGCGAATTGGGTTTATTTTGCATCCCTGGTTGGTTTCGT
CGGCCCTGCCCCGCCAGCGCGCGTGTGCGCAGCAAATCTGCAAATTAACC
AATTATTGTCGCCGGTTGATTAAACGCAATGGCGAAACCTGCTCTCGTTT
CAGGTCATTAGCCTGAAGAAAATGACCTCGGGGGGCAGCGATCGATGGAG
GCTTGTGCTGTCCGACGGCAAGCACTACGCGCAGTCCATGCTGGCCACGC
AGCAGAACGAGATGATATCCAACGGAGATCTGCAGGAGATGTGCATCATC
AAGCTCACGGACTACATCGTTAACGTTGTGCAGAATAAGAGGTGAGGTGA
AGGGCAATCTCAGCTCGGCCCAGCTAAGCTTCGTGGGTGTTTTTGCCACT
TTGTTGGTCATTTCAGTACATTGTTTTTGTTGATTCTCACATTAGAGCTG
ACCACCAAAGTCTAGCCCTGTAGTCACAAGCTAGACACATATCGTGCTAG
GAGGAAAATAAAAAAATAAAAAAGGAAATGAGCCATGGTCACCCACAAAA
TCAGAGGAAGTACGTACCGTTGAGGTACCTTCTGTGATTGCCGAAGTGCG
TAAAATACAGAAGTACAGGGCTCGGAAAACAAAATTTGGAAACAAACAAA
ACCAAGACAACCAGAGCGCAGAGCCCAGCAAAGGTCATCACAGTCTGAGA
AAAAAATAGTAAAAAAATAAAAAGGTAAGCAAAGAACATGAGAGAGACGA
CGAAAGGTGAGAAGACGAAAGACAAAAGACGAAACGGGGGTACAAAAAGT
GAGGGAGGGCAAACAAAGAGGAAGCAGGAATAAAAAAAATTAGAAGAAAT
ACACGGAAAGCAGAGCCAAAACAGGGAGATCGGAAAGAGAAAAATGAAAA
GGCGTGCATTTAGTCGCAAAACATGGCTCGCCACGAGGTCTATCTGTCCA
CGCTTGCTCTCTTCGTATCACAAGCATTATTGTCTCCCGTTACCGGCACC
ACCGTACACAGCTGCTTCTGCCATGGGAATACATGGGACAGGTGTGGCTC
GTAAACATTTTGGGATTTTGTGCCAACTCGGCCAAGAGATGTGTCGGCCG
TGCGTTGGGTTTGGGTACCTGCTGCCGTAATCTGTTTTTTATGGGTACAA
ACGTTCACGCTGACGGACTATTCGAAGTGTATCAACGTTTTTCACAGCAA
AACGACGTGCGCATGAGGGTCTCTCGGCGGTGAACCCCGACCGAACGCTC
GCTGATTACTCAAATGTCCACACATCGGTTGGTTTTCAGCGGTATCGATT
CGATTTTCACGGAGACAAGATGTTTTCTCAGCAACCAACAGCGCCTTCTC
CGACCTCGCCGAGTAGTGCGTGGTGTGATGCTGATATCGTACGCATGCGA
AACGTGCAGCAGTCACACGATGTTAGGGGCAATTCCGTGTACTTCGTTCA
CAACGTAAATTATCAAAAAAGAAATAAGGACCTGATTAGTTTAACGGAGA
CTTCTCCTCACTCGTGCACTAAAAAAAAAACACTACTGTAGTATTTTGTG
TTTCATTAGGACACCCAGAAATTCCTTCCCTTGAGTGGTGCACCCTTCCT
ATTCTCGTGATATTTTTCTGTCTATCTTGTTGACTGTTTGGTCCTCTCAT
TCCGCCACCCGCTGTCGCCTCTTTCCACTATTTCTTGCCTGAATGACCGC
GTCACGTGATACATGCCATAAAACAACGCAGGTTGATCATCTTGCTCAAG
CTTGAGGTGTCGTCTGGGCCGACTCAGAAGATCGGAGACCCCATCAATAT
CGCGGAGGACTCTTCAGCGGGGGTGAGAGGACTGCAGATTGGGCCACAGG
ACAGATAAAGAGAAAGGATGACAGAGGCAAAGCGAAAGCGAGAGAGATTG
AGAGACAACGTAGACATAAATATAGATGGGGGGAGGGGAGACAGAAAGGT
TGATTGCTCGAAAAGCGCAGGGGTAAGCTTTGGTCTTTGCAGTATTGGTC
GTGGGCCAGGGGAGATGATGTGTGTGCCGTCGATTGTGCGGCAGTCACTT
GGCACCATCGAAGCTGAGTCCGTTGCCGTTCGCTGTAGATGGTGTGGCGC
TACATGGCATGAACGACACGTATTTCTGTTGAGCGACTTCGTGGCAAATT
CCCGCTCCAGAAGCGCAGGCTTTTTTGGCCTTCGTGCGCACGGGCACGGC
AGTAGCCTCGGCAAAGCCGATAGATGCCGGCAACAGGACGCGGCGTGGTG
CTTGCTGTATTGGAAAGCTCAGCCGGTTTGCGGTCTTCTTTCATCGGCCT
GTCTGGACAGAAGAACGTGGTGTACAAGCACATGCGATACAGGCAACAAT
AGTGTGTGCGTGGTATCAACAGCTCTGACATGATGCTTGTTTTCCAAGAT
TTCGGGCGAAGAGAACAAGAACAACGCCGCTACTGAAGGGCGATTCTGTG
TTTCATCGTAATTTGGAATTTTGCTCTTGCCCTTTGGTCCCTTTGCTGTG
GTACCTCGCAGAACCCCCCGATGCAGCAGCAGCCGCAGCAGAGCAACACC
GGACCCTACGGTGGGGGTGCCAAGCCCAACGCCGGGCAGTACGGGGGGGG
GGACGTGAAGCCAAAGGTGTCGAACAATCCCTACGGGCCGAAGCAGACCT
CTAACCCCTACGCAGGTGCGATGTGGTGCAACAGCCGGCCATCTTCTCTC
GCGACCGACTACTGCTGTGTGTCGTCGTTGTGCTTGTTGCATGATGCGGA
TCATTTGTTTATAGCTCAGTGTTGTTGTTTTGTAGACGATTGGGGGAAGA
AAGACGCAATGGTGGCATTTGTCCGACGGCGTCATGGCAATTTCTCGTTT
TGTGACGAAGCAATCACACACAAAGTCTTGTACGTGTCTGCGTGCATGTG
TGTGTGTGTGTCGTTAATGGCGTGGTGAGTATCGCCAGGCACTGGGAGAC
TACTTGCAATCAAGCATCGCACGAAGAGTATGCACGTGGAATGGAGTCGG
ATCTTCTTCTGAAACCCTAGCCTGCTGCAGAGTGAACAAGTACCATCGCT
TCCGTGCCCTCGCCGTTGTACGGCGCCGTTTCAAAACTCGGCCCGTTTCT
GTCCAACGTTGTAACTGCCTGTCAGGCAATGCGCGCGGCGGCGGAAACAA
CAACTACGGCGGGGGTGGGGGGGGGGGGGGGGGAGGCGGGGGTTACGGCA
ACAACAGGAGCGGCGGCAGCAACAACAGCTACGGCCGGGGCGGCGGCGGG
GCCACCAACAACCCGTACGCTAACCGTAGCGGCAGTGGTGGCGGTTCGAA
CAGCGGGCCGGTGCAAAGACAGAGCCAGGACAGCATGTACGTGCCTATCT
CGGCGCTTAATCCGTACCAGAACCGCTGGACGATCAAGGCCAGGTGAGGC
GTTTCGATGAGTTTATTTTTGGGTTGGTCTACATAGCGTCTGTGTGGTTT
TATCTTGCGTGTGGTGTTCGTTCTCATTTTTTTTTTCTGGAGCAAGCCAC
CGGACGGCGCTTGGGCGGTTCCGTCGGAACAAGCATTTGGCGCGCTTCTG
TTGCGCGGTACCGCGGAAGTGTTTTTTTAGATATCTTCGTGTGCGCTTTT
CTGGGGCGCGGTGTGTGGTCAGGTCGTCGACGAGAGATGACGTTACAGTA
CCGGGTGACACTACCAGGTACCTGGTGTGCGACAACAAATCGTTCGCCTG
CATAACTTACCCTGGTTTTCGTCGTTTCCGACTGGCATGATATCGGTTAC
TGTATGCGGTGGGAGCGGGGTATTCTCTTTCCACTGTCATCTTTGGGGGC
TGTACCTGTTACGGTCACCATAGTCGGAAATAGTGGCGCTTGGTTCTAAG
GTAGACTTCTGCTTCTGCTTCTGCTGCTGCTGCTGCTGCTACTGCTGCTC
TCACGCGCACCTACACAGTAGGAGATGAGAGACACACACAAGAGAGAGAC
AGAGAGAGATGCCAACACTGCTCCCCGCTGCGTGCTGTACTTCCAGCGTT
TGTTGATCTCATGGATCGTTTTGGTACGGCACCAGCAAATGCACAACGAG
CGGTTTTGGTTTTTGTTACAGCAGCAGTGCTTTTTTGCGAGAGCTTTGGC
CAGCAGATCTGGATTCCGTTGGCGCGGAGTTGGCCATTTCTTTGGCGGGA
GAAAATAAATTTGTTACGGTAGTGCTGCTTCGCCTCTGCTCTCCCTCTGA
CCTGTGCGCTACGGATGGTGTTCCAGGGTGACTCGGAAGGGGGACATGCG
CACCTGGAGCAACGCCAAGGGGGAAGGGCGACTGTTCGGTATCGACCTTC
TCGACGAGCAAGGCTCGGAGATCAAGGGAACTTTCTTCAAGGAGGACGCG
GACAAGTGGTTCGACGTGTTGCAGGAGGGACAGGTGCGGTGTGATGCCCA
TCGTTTCTATGTTGTTATTGCTTGTATCATCATGATGTTATCTATTATCA
CTATTGCCTGTTTTGTTGTTCTTTTTATTGCACAGCGGGTCTTTCGTGTC
ATTCGCAACCACGGTGAGAGAATAATTCGAAAGTATAGCAGTTTAATGAG
AGACGGAGATGCCATCTTATTATTATTATTTGCAAGGGGAGGCAGGATCG
GGATCAACCCACAATCCTCGCTCTGAAAACCAAAACCGCCACTTACACGT
GTGAGCGGACACTATTGCTACCTCTGCCTGTCGGTCAGCTTTGCTTCTGC
GGAAAGTAGCATTGCTGTCGTTTTGTAAACTGTTGTTTGATTATTTCCAA
ATGTTGTTGAGTACGGTGTACTACAATCATTGTTGCTATCGTTATCTCGC
ACATACGCCCGATTTCTCGGACGTGGAGTCCCCGGCGTAGGCTTGCCTTA
TCGATACGAAAGCTCATCTGTTGTTGTCAAGTCTGCTGTTTTTTCTCGTC
GTTAGCATCAGCATGCCCTTCTATAATGCACTGTTGTACCGAGTTCAATC
CGGAGGAATTGGCTTCTCTCCGGAGTTTGGAAGAACTCGATAGAGTTAGG
ATATTGTTTTTAATATCTGTCATTGGCCGCAACGGATATCCGTCACCACA
AAAATGAACCTACGGTCAGTAATATATATCTTACCATGTAACAGCGGCAA
CACGAAGAGAGACAACGAGGCCGACCAATTTCAGGACATATTTTTGTGTG
TATGGGTTTTTGACAGGTATACAGCTTCAGCGGGGGTCGCATCAAGGTCG
CCAACAAGAGGTATTCGTCGCTCAACTCAGAGTACGAGATCACCTTCGAC
AGCAGCTGCCAGATCAACCAGATCAACGACGACAGCCGCATCAGCAGCAT
GACGTGAGTCAACCGCCATAGCTTTCGATCGAACCGTGTGTGTTGATTCT
CACATTAGCTCACCACCATCGCAGTCTAGCCCGTGGTCACAAACCAGGCA
CATTTCGTGCTAAAAGGAAAATGAAAAAAAAAGAACAGAAATGGACTATA
ATCACCCACAGTCAAATCAGATGGTGTACCGTTGGGGTATCATCTGTAGT
GGCCAAAGTAAAAAAAAAATACAGAAAAAAATGCAGAAAAAAACGTGTTC
GAATGAAAACCAAGACAAACCTTAACCATATACCTCGAAGTACTTCGTAT
ACCGAACCAGAGCCCAGAGCCATGACAAACCAAGGCAAAGGCAAACCAGG
GCGCGTGGTCTAGGAAATATGATCAAAATACGACACAGGAGAGGCACAAA
GACTGAGGGAGTGTACTCGTACACAAACACAAAAACAGGCCGCCAAATAA
AGAGGAAGCAGGAGAACGAAAGGGAGAAGAGGAAAAATACACGGAGTGCA
GATAAAAGACCGAAAGTCGTGGGGGGGGGGGGGTGATAAGAAATGCAATG
AAAGGCATGCAATCGGTCGCAAACATGTCTCGCCACGAGGTCTGCTTGTT
CACGCTTGCTCTCCTCAGTCGCACTCATGCCTCGTGCTACTGGCACCACT
GCACCCAGTTGTTCCTGCCTCACATATTTGGCAGCAGCTACATCACCGCT
CCGTGATTTCCGCCCTACAGGTTTGCCAATCCGGCCACCTCGTAGCTTGG
CTTTGGGTTACTTCTTCTGCCGCGCAACTCCAACCCCACTAACCCTCTGC
CCTTGTGCCCCCTAGTACTCCTCCTCTCGTTTATCCCCGCCATCCGTTCT
TCCTCTCTTGGCCAAGGCCTGCCCCTCAGCCGCGTCCCTCTCCGTTTTCA
GTCGACTTGTCTCTGTCAAGTCTCCCTCTTTCTTGAGCCACTCGTGCGTG
AACCGCCGCGCACCCTCGTCGATCCTGTCGTACCATTCATCAGCTCTCTT
GGCACTTGCCTCCCACACCTCTTTCTTGTCGATAGCGATGTCGACCGCTT
CGAGGTCCTCCTGCATTCGCCTCAGTCAGGCAAACTCTTGTTCCCCCAAA
TACCTCGCACCCCCCTGCAATTCTCCCAAAAGAGCAATTTTCGGGAGTCT
ATCGTCGCGCGCAACGAATCCTACGAAGCACAGTCGCCGCTTGCGCACGG
TGGCCTCAATACTCTCGTCGCAACCCGCGGTGATCAGGGCTTTGGCGTAG
GAGAGGGGTCGGTCTGTTCTCTCCCTCTTTTTCCATCCGATGCAGCGAAG
GAGGAAGAAGTGGTGGGCTGACCGAAGCTTGCGGTACTCCGCTGGCTTCA
GGTTCCATGTAACACAACCGTAGAGTAGGGTCTCCACGACTTCGGCTTGG
AGGAGTCGTACTTTGAGTCGAAGAGGGGCCCCCGGACGGTCGTATATTGC
CTGGCTGTTGCGCCGGAAGCAGGCGTGCGCTCGCTGCGCTCGGTGGTTAA
TCTCGCCCTCAATACTACCGTCCTCACACATCTTACCCTGGAGATACACA
AAGTCTTTCTTCTGCTTGAAGACCATCCCGGCAGCGTCGATCGTGAACGA
GCACGCCTCCATCCCTCTCGCGAGCATACACATGGTCTCCGTCTTGGGTT
CTGACACCAACAGCCCAAACTGCCAGGCCACACGTACGATGATCGACATC
ATCTTCTCGAGGCTCCCAGATGATAGAGAGACAAAACATGCGTCGTCGGC
GTAGAGCATACTCCAGATGGACTTCACTGCCTCCACCAGTCGGGCGTTTC
TCCCCTTCCCGTTCATCACCTTCCTCTTGACCCTGGCCATGTCCGCCATC
ACCTCCGCGTCCTTGCTGATCTCGGCAAAGGCCACCATGAGCATCGCAGC
AAAGAAAAGGTTGAACAGCAGGGGTGCCAGATTGCATCCCTGTCGGAGTC
CCTGTCCCACATTGAACCAGTCGGAGCACCTCCCGTCGTCCATCCGTACG
CATGCTCTCATTCCGTCGTGTGTGTTGGACGGCGGCTGTCGCATAATATA
TTGAGAAAACCCAACTCGCATCAAAAAGCAACGGCAAGTACCGAGGGAGG
AGAGGTGTTGGGAATAAAAAAAATAACAAAAAATAAAAAGCTTGAGTGTG
ACCTTCCTCCTGTGTGACCCCGGCTGAACGTCAAGGATATCTACCGAGAG
GTGTACAGACAGGCGCCATAATAAATGGGACGGACACACACGCTTGTACC
GATTCCAAAGCTTGGTTTCCCCACGCGGAACCCCCTGTGCCGATCTTCAA
AGCTCGGTTTCTCCTCACCTGGAACCCCCTTTACCGATTTTCAAAGCTCG
GTTCCTCCTACTTGTACAGCAGAGAGAGTCATGTTGGTGGTGTGCTGACA
AGGGCGATCGATCGGGATTCAAATCATGGAACCATCTCGGACCGGGGGAA
GCGTATCACCCCCGTGCGATTATACCTGTCGCATCCTGCGGCGATCTCTC
TCGCATCCTTGCTTTTGTCAGTCTTTTGCAGATACTTTTGGCAGTAGCCT
TCGGAGGGTTTGAAAAAAATTAAGTTTGGTTGAAATTAGTGGGGGTTCGG
GGTTAGGGTTAGGGTTAGGGTTAGGGTTGCGTAACCCACCCTCTCTAATT
CCTACTTAACTTAATTTTCCTGCGAAAGCGGTCCGCTTTTGGCGCTCTGT
TGGCTGCCGCAGCTCCTCGGGATGATACTCCTTTGGGGTGTACCCCTGTT
GTTTCGTAGGTCTTGTATTGTTTTATGTTGATTGATCGTCAGTTTGTTTT
TTCTCCCATCATATCATATGGAGCATGATACAGCTGTGCCTGGTTTTGCA
ATCACGGGGCTAGATTTTCGGCGATGAGCCACTGTTGCCTCGAGAACGGC
CAACAACAACTCCGTGCTGCTGCTCCTGTGCGTTTGTGTGTGTGTTTGTG
CACTGTATGTAATGTGTGATGTGTGTCGTGTGTTGCGCGTGTCTTGGTGT
ATATGTCAACATGTCAACCGCAGGTACTCGTTCGTTAAGCTGAACGAGAT
GGAAGGGATGGAGCCGAACAAGATCCTGGACACCATAGCTGTGGTCAAGA
GTTTCGAGGACTTTGCGGTCATCAACACGAAGTGGGTCGAGCTTACGCCC
TCGACTTTGGCCATCTTTGCTGATTTCCGGGCGTCGCATCGTCCACCTTG
TATCTCCAGAATGAGGCAATCATGCCGTCTGACGAGTTTGTCACCGCGAC
TGCTCGTGCTCGTTATCTTTGTGATTCGAAGTTTTTGTGTGTAGAGGCGG
GCGGGCGCCCCCAATGTGCTATTCTCCCTTCGAGCCTCTCGTTGTCGGAA
TATTAATAGTCCCGAGGACTGCCGGCCGAACTAAACCCAACCACGCAAGA
GACGGGTAGGATTTTTGGATTTGTTTAGAACGAATGCGGCAGGAAGTAAA
ACTTAGAGTACTATTGAAACGTTTCGGATATAAGAAATCGCATCGAACGG
AACAATGCGTGTGGCGCTGCGTGCTGCGTTTTTTGTCGCATTTTTGTTCC
TCATCTGCCGTGTGTGTACACACACCGTGCCTGGCCCGACGCGTGTCTCG
TCGTCAGGGCTGGCAAGGAGTTGGAAAAGCGCAACCTTACTTTGGTGGAC
GATACGTGCACGGAGATCACCCTGACGCTGTGGGGTGAAGCCGCAAAGGC
GAACGGGGACCGATGGGAGGGCAACCCCGTTATTGCCTTCAAGGGTCTCA
AGGTATGCATGCGAGTTTGTTTGGGTTGCTGGGTGTCGATGGGGCACCGT
AGATGGATGATGCGTGGGGTGTCGGTGGGTGCCACGAGTCGAATTCTGAA
GTCAGGCATGACTAAGGGTCCCGAGTTATGAGGTGAGGTGAAGTGCTACA
CATGGCCACAGTGTTTGGGTGTCCTTTTTGTATCATACTTGTTATGCAGA
CGAACGCTGGCCTGCTCTCGGGTTTTTGTGGGTGATTGCACCTGTTGTTT
TTATTTTGAGGTGCTTTACGATGTGTACGCTCCTATCAAATGACGGTGGA
CTGGGAAACAAGGCATCCCCGTCTCCGCCTTGGAGCACCCATCATCTGGA
AAGGCCAGTTGTGTGGCTGTTCTTGCCGAAACCGGCTCTCCTGCTCGGTT
GCCACAGGGCTGTCATTTAGCCGCCATCGACAAATATTTAGCCGCCATCG
ACAAACCTATCATCTAACTCGGCGGTTTGGGTTCATTGAGCACCCCTGTG
TTCACCGACATGCCCGGTGGAGGAGTTCCGCTAACCTCGTATCGTCTTAC
TCCTCTGCAGAGTGTTGACAACCGAAATCCTCGGGTGCCCGACCCTCGAA
TGCCAACTCTAGACACGTAATCGGAGATGTCGGTGTATTCAATCAAATGA
TATGTTGTTTGTTATTTGTTCTCATCATACGAAAAGTTGTTTTTCGATTG
ATATCGGGATCATTTAATCCAGCTCGCCCCCCCCCTTCCCTCGTTCAGCG
CCGAGTGTGGAGTCAATGGCATGGCCTTAAGATGGTACCCCCCGCCCCCC
CACCGACTCCAACTACGATTTCGATTCCAATTCCGATTCTGATCTCGACC
CCATCTCAGTTGTCGGACTACAACGGGCGATCGCTCGGCTCGCTCAACTC
GTCGTCGCTGGTCAACGACCCCGACGTTCCTGAAGCGGCCGAGCTTCAGA
CCTGGTTTGCTGCCGCCGGCGGCGGGTCTAGCTTCAAGAGCGTGTCCATC
AGGTCCGGGGGGGGAGGCAACGACGGTGAGAGACAGAGGGAGAGATGGAA
TGGTGGAGGGCGGGGAGAGAAAGGAGATAGATGTTCAGTACATTTGGGAG
GAAGACGCGTGGATGGATGAGATATTAGATGGCTGGGTGGTGGCCCGCTG
AAACAACAGACGGACGGACGGTCGGACAGACAGACAGACAGACCACCACA
GCCGCTGCTAGAGTGTAGAAAAGGATTTGCTGTTGGATCACGTGAACAAC
ACGCCCTCGTTGATTTACGTGTGTCCGTGTAACCTCCTTGCGGTACTTTG
TGTGCGTCGGCCGGTGTGAACACCACGAAACCGTTATATGCAGAGATGGC
CAAGAAGGACATGTCTGAGAGGTACACCTTAGACAGCATCCGCGAGGCCA
ACCTAGGGCACGGTGAAAAGTCCGATTGGGCCGTGGTCAAGGGGACCATC
TCCTTCATCAAGTGAGAACGGCGGCAGCAGCTGACAACAGTAAAGTATGC
TGTGTCGCACGCCGCTGAGGGCTGAAGACACCCAGTAGTCCGCAGGAACT
TTGCCCGATCATGTGTTTTTGTTGACGGTTGCTCGTAGACATGAACAAAC
AAGTCTTGCGGGTTTCGAGTGATGAAATAAGTAAATAAATTGCGGGTCGC
ATCTGGCGAACCGAGAGCACCTTCGGTATGAGATACGCAACGGAAGCGTT
TCGGGGTTCCGACAGCAGTGTGTGGACGCTATTTTGTATGTTGCCGTGCA
AGTCCTCGGTGGGGGGGCATGGTGTCCGATGTTGTTGCTGTCATACCATG
TACCTTTTTTTATTCTCTGGGTGGTGTGTTGCCCGCAGCAGCACGATCGG
TGCAACTTCTGCCCCATATCCGCGGCTAGGATACTTTCGCTGTTTGTGCG
GATTGTTTTCCGGCCGACCTTTGCACTCCACGACCGGCCAACTACCCCCC
TGATTCATTTCCCTTTTTTTCCCGTTTTGGTCAGGCTGGATGCAGACAAG
GATCCGTGGTACACTGCCTGCCCATCTGAGGGTTGCAACAAGAAGGTGGG
ACCGGCGCAACGTCGTCCGGGCGGCTTCCACGAGTACCCTTGACTGCGTG
CATGCGCACGTGTGCGCGTTGTTGTTGAATGATGATTCTCGCAGTAGCTC
AGCACCAAAGTCTAGCCCGTGGTCACAAACCAGACACGTATCGTGCTACT
ACTGTGTGACAGGAGGAAAGTAAAAAGGGAAAAGGAAATACACGATGGTC
ACCCGATTAGAAATCAGAGATGATATCGTAGTGTGTGTGTGGTGTCATCT
CATCCTTTCTGAACGTCCGCCCGCACCTTGAGGTGTATGTTGGGCGCACC
AGCCGGAGTTTCCAAGGAGAAACGTCAACAGAAGAGTTTTTTTTGTTCTT
TCGTTCACGACCTTCCTTCCTTCCTTTATATGCGGTGCTTGCCTTCATTT
TGTATCGCGAGAAGTATCCGGCCGTGCCTTCCCCCTCGTCAACTTTTTTC
GAGTCTTGTTTTTTCGTCAGAAACTTTTGTGTTAGAAAAATTCACTTTCA
TTGTCGGGGGTCCTTCCTCTGCATGACACGGCTGCAAGGAAGTTCCAACG
AGTTTTCGTGCCGTTCGCGCAGCAAGTCGTAACAGCAGCACCCGGTAGAG
AAAATTGTTTTTCGGTCGTGCATGTTTCGTGCTCTGCTTTTGAAACATCA
AGCACCAGCGTATGTTACTGGCGGGTACGGCACGGTGCGCCTTTTTGCTC
GTTGAACCGACCTTTCTTAAGGTGTCGGAGACGATGGAAGGCGGCTGGAT
GTGCGAGAAGTGCAACCAGACTCACGCGGAGTGCACGAGAAGGTGAGATG
ACATCAGACACACTTGACTGGATGGGTTGGACATAATTTTTTTCCGGTGA
CTGCCGAGATCTTGGTTGAACTCGAACCGGTCCGGACAAGGCCCCCTATA
CCGCCTCCGCCCCCCGATTGTTGTTCGCGTAGCACCGGTGTGTTCTTAGT
ATGCCCTGACCGGCTCAGTGCGTTGCATCGCACCGCTATCGATCCTCGTG
CTCGATACCCGTGGGTGGCACGGTTGTCAGCCTGAGCGTGGATATTTCGC
TCGATGCGTTTGTCTCGTGTCGTAGCACTCTCAATGTGGAAACTGTGTGA
TCAATGCATAATCCCCTTTTTCGCCACTTCTGTGACAGTTATCACCACCT
TGGCTCTTAACTCTGCACCGCTGCCTCAGGATTCACGCAAATCGACACCT
CGTTTGCGGCAAGTGTCCCCTTCCCGAGCTCCTGCTCGCTTGCTCTACTA
GACCCATACCAACGCAACACTAGGCCAACGAAACACTGCTGTAATTCACA
ATATCACATGGATATCACATGGACACTGATGCTGTTGTCGCCAAGCCGGC
GTGTGTTTCGATGCTCACGGTACAAACGATTGGGTCGATGATGGCTCTTG
TGCTGTTTTGTATGGGTGTTTTCTTTTTTCGTTTTTTCTGCTGGTGTTCA
CAACGCTCGTGGTGACGTTTGTGAGGATGACATGCTGCTGGCGGTGCTGT
TGCCATGACAGCTGCTGCTGCTGCTGCTGCTGCTGCTGATGGTGATCATG
ATCATGACGACGACTTCGCCAGTCTCTTCGTTCATCCAACACTGCCCTGT
ATACTCGTAGAGTGTTTTCGATTCGTTTTCTTGAACATCCGGAAGATAGA
TGATCCAGCTCGCGCCCCAAGACTGGACCGGGAAGAAGTCGCATGTTTTC
CTATCGCCCAGCCGTAAAATATTCGGCTTCTTTTTTTTCAGACCGGAAGC
ACGCGCGCGTGGTTGCGTTTGGCGGCGTTTTATAACACGAGCCACGTGTG
CTCTCACCGTCTGACAAACAAACCGATCTTATTGCGGGTGGACAGGAGGA
GTACATGCGAGGCCTTGTGGCCGAATCTTTGGCGCAGAGGTGTCCCGTCG
ATCCTCTGGGTCGATCCTCTGGACGTTGGCGTAGTTTCTTTCCTGTTGTC
AATGAGGGGGTACCATACCACGAAAAATATATTGTGCTGCAGCTGTCAAT
ATACATGTGTTTTGTGCACGCGCGTGAGACACAGTGATCAAAATATGCCG
CTGAAGTCTTTTTCCTTAGCATGGTCATCTCGCTCGATGCGACCGCCTCC
TCCCCCTCCGTGTTGAATCGTTTTCCTCACGTATCGTGTATATATTTTGT
ATGGACATACGTGTGTTATACAAACATGTGTGTATCAATACTGTACAGAG
TATGTTGCATGAACCAGCGTCATTACGCGGACGGTGTTAGTAGTTTATCC
TGAGGATGGCGAACTCACACTCAGTGTTGATACATGTATTTCATAAACTC
CTCTCTCTCGCACACCACGTATCGTGCTGACATGCATGTGAAAACGCGCG
TTGAGTATGATACGATATTATATGATGCGGCATATTTTCGCTCAGGTTTA
TCCTCAACATGACCATCTCGGACCAGACCGGCAAGCAGTGGGTGACGGCG
TTCAACGACCAAGCCGTGCCTCTGCTCGACAACAAGACCGCCGACGAGCT
CCAGAGGATGAAGGATGGGGGAGAGGTGAGGAGGAGATAATGCATGTCAT
TTTTGATGTCCCTCGTTGCGTGCACTCCTGCCGGTCGTAGTGCTCGTATG
ATGGGTCCGTTCAGGTCATGAAAATTGCGTGCGATGTGATTGGCGGAGAC
AGCAACGAACCGCGACAAGTTGACGTTGTACAAAGCAGAGCGGGAGAGGA
AAAATGCGTTTTATGCACAGCAACCACGCTTGGCAAGCAAGCGTAAAGGC
GATGCGTGGGTGGCCTTCCGCACAGAGTGTCCTCCATGCCCGGTGAAAAT
CAGACCTTCTACATACGGTACTGCGTGTAGTTGCCACACAAACTTACGCG
GAAGACAACGATCGCCCACTAGTACCTCGTGCTGGAGCGAATGCCCACGA
AACTTTCGTGTGGGCTCAGTCATTGCTTCCCGCGCGCCTCCATGTCAACC
AAAGCCGTGCGCTATCAAAGGATCCTGCAGCCGTCCTTTCCATGAGCGAG
GGAAGCCCCCAGGGCAGAAAACACAGACAAGATCGAAACATCGTTCGTGC
GTTCACTCTTTGTGCGGCGACGGGATCAGACGCATCTGCCACACATCCGC
AAAAAACGGGCGCATGCACACACTACATACACGAATAACACCGTCCACGC
GCGCGATCTCCCTCACCCTGACCCGTATGAAAGTGTTAGGCGTCTATAAA
AAAACCAGTTGATAGTCGGAAATCAACTCCTGTGCCAGCAGCGTCGGCGC
CGTATGGCCCGGCTGTGCCCCCCTTCATGCTAACCCAGCGACCACAACAA
GGTGTACCCTACATCCACCCCGAAGAACGCCGGAGGTTCTTTGTAGTCGG
TTTCCTTCATAAACGGCACAATGGAGGAAAGAGCATCAGACCCATAGAGC
CCGAAACGTGTTTGTAAATATCATACGTACGCCTGAGTAAGCTACACATG
TTCCGGGTTGCGGGTTTCTGGCGTACCTGCGTGCTGTCCCGCTGGAGAAA
TCCTCAAAAGATCCCATTGGTTTTAGCCAGGGTGGCCGGGGTCGTCATTC
CGCCTTTATTCTTGATTTCCTCTTGAGAACCTCGAACGCATGGACCCACC
CCCTGAGCTCGTCCTTGTTAGGTTGTTTAGGCTTTTTGTAACGTCGGGTG
CATACCTTGAGTTCATAGATGATATCTTGGACGTCTGTGCTGGGGACGCT
CTTGTGTGGTGATTTCGGACATCCACGAGCATGGCTTCGTACCCTGCTCG
TACACCTTCCGAAATCACCACAGAAGAGCGTCCCCAGCGCAGACGTCCAA
GATATCATCGATGAACTCAAGGTATGCACCCGACGTTACAACAAGCCTAA
GCAACCTAACAAGGACGAACTCAGGGGGTGGGTCCGTGCGTTCGAGGTTC
AAGAACAAAGGTAGAATGACGGTCACGGCCACCGTGGGTAAAACCATTGG
AATCATCAAGGATTTCTCCTACGGGACAGCGCGCAGGTACGCCAAAACTC
CACAACCCTGAGAACGTGTACAGCAGCACTAGAGAAGGGTAGCTTTACGA
AGGCGTATTCACTACTTCGAAGTATTTACAAATACGTTTCGGGTTTTTGT
GCTCTGTGCGGGTCTAACCGCTCTTTCCTCCATTGTGCCGACTACAAATA
ACCTCCGGCGTTCTTCGGGCTGTGTGTTGTGTACACCTTGCATGAGGACG
TCCGAAAAGTACTGGGGACAGAAAGACCGTGTGGTCGTTTCTGATTCCCT
TATTAGATGCGGAAAAAACAAAACAACAGTTCGCAGCAGAAAATCCCTTA
GGAAGTATCAACCAAACCAGGAAGCAACCTGGTGTGATGCCAGTACGAGA
GAAAGGGAAGGAAGCCCTCCGAATGAAATTATGCAAATACCATAGCGGCT
ATCGCAGGTGCATATGTTGCGTAAAACATGTGGTTTTCTTGTCGACCGTC
TTGGGTTGCCTTCGTAGCTTTGCGCTGTATAAAGACGGAAGACGGATGCA
TCGATAATTTTCTCCTATCAACACACTCTCAGTCAGACCAATCGCGGTTA
TGTATGAAATGTACGAACAACAGGACGGCGAATACGAAGAAGTTTTCGCG
GAGGCGTGTTTCAAGACGTACCTCATGACCCTCCGCATCAAGGCCGACAT
GGTCAATGACGAGATGCGGGTCAAGTACACGGTGCAGAGAATGACGCCGA
TCGACATCAAGACGGAGTGCAACGCCATGTTGGACGCAATTTCCAAGTAC
AATTAAACGATTTAAATTGCATGTACATCATGTTCTGAAGTACTTCAAGT
ATGTATTAAGAGAATCGAGGCGTGGTGAATGATACTTCGAGTAGGATATA
GTAGGAGGTGTAAGGGGCGTAGTGTTGGTGAACAGAGACTCCGTGTTCGG
GATGGGTGGGTTGAGGTTGGGATTCGGTTGAGTTGAGTTGAGTTGGTTAT
AGGGGAAAACAGCTTTTTCGCGGTAGCAGCAGCAGCAGCGGCAAAACTGT
CGGTAGAGCAGCATAACTTCTTATTTTCACACAGGGTTTGATTTTGGTCC
AATCTCGCCGCCGCAGCAGCAGCAGCAGCGTCTGGTGTCTCGTGTTCAAA
CATGCGGTGCAAGAGCGCGCATTGTGGGGTATGGGCTTGGAGCTGCAGCG
ACCAGGCCACTACCCAGCAGGGTCACACCGTAGGGGCACTCTTGTCGAAG
AAGTTTGGGGGGCTAGGGTTTGGGTTCGGGGTGTTGGTGCAATTTGAGGG
CATGGGCGCCGCGGCGGCCTCAGGAAGATGGGAGTTGCTCGTCGAGCTGC
CCGGCAACCGGTGTTGGTTGCTTCCGTCCTTAATAGTAAACCCCGAACAC
ATTGATTGTACCGGTGAGACGGTTTTGTCTCCACATCCGTCGCTCGTGGT
TGGTTTGGGCGAAAGATTGAAGTTATCGGCCGGGCATCGATGGCATTGCA
CTAAAGACGAAAAGTTGCAGCTTCCCGGCGTCGTTGTACTTGTATGCTAA
AGGGGGAGTCAGTAGCAGAATCGAGCGGTGCCTTTGTTCTCGCCGTGCCG
TTGTTCCCTCGCTTGTAGTTTTTGCTTTGTTTGGATTTCTGCTTCTTCGT
ATCATATGATACAGCAGTCGAAATAAACAGTCCCTCTTGTTGTATCGTCG
TATTCTAATGACTCTGTGCCGATGTATCATCAAAATGGATTTGATACTTG
ATACAACGTGCGGTTTGATATATCTCTATTATTTATTTTCACGCACGCGC
TTCGTTTGACGAGGAGAGCTGTGTCATGATGACAAGTACGTCCGGTCCTC
TAAAAGGGTATTTATCGTG
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Coding sequence (CDS) from alignment at P-littoralis_Contig750:63377..87895+

>mRNA_P-littoralis_Contig750.25.3 ID=mRNA_P-littoralis_Contig750.25.3|Name=mRNA_P-littoralis_Contig750.25.3|organism=Pylaiella littoralis U1_48|type=CDS|length=2001bp|location=Sequence derived from alignment at P-littoralis_Contig750:63377..87895+ (Pylaiella littoralis U1_48)
ATGGCGAACTTGATGAGCCAAGGCGCTATTGTAACCATCATGGGTGGCGC
CACAGGCGCAAACGGCTATAATCCGGTGGTGCAGGTCATTAGCCTGAAGA
AAATGACCTCGGGGGGCAGCGATCGATGGAGGCTTGTGCTGTCCGACGGC
AAGCACTACGCGCAGTCCATGCTGGCCACGCAGCAGAACGAGATGATATC
CAACGGAGATCTGCAGGAGATGTGCATCATCAAGCTCACGGACTACATCG
TTAACGTTGTGCAGAATAAGAGGTTGATCATCTTGCTCAAGCTTGAGGTG
TCGTCTGGGCCGACTCAGAAGATCGGAGACCCCATCAATATCGCGGAGGA
CTCTTCAGCGGGGAACCCCCCGATGCAGCAGCAGCCGCAGCAGAGCAACA
CCGGACCCTACGGTGGGGGTGCCAAGCCCAACGCCGGGCAGTACGGGGGG
GGGGACGTGAAGCCAAAGGTGTCGAACAATCCCTACGGGCCGAAGCAGAC
CTCTAACCCCTACGCAGGCGGGGGTTACGGCAACAACAGGAGCGGCGGCA
GCAACAACAGCTACGGCCGGGGCGGCGGCGGGGCCACCAACAACCCGTAC
GCTAACCGTAGCGGCAGTGGTGGCGGTTCGAACAGCGGGCCGGTGCAAAG
ACAGAGCCAGGACAGCATGTACGTGCCTATCTCGGCGCTTAATCCGTACC
AGAACCGCTGGACGATCAAGGCCAGGGTGACTCGGAAGGGGGACATGCGC
ACCTGGAGCAACGCCAAGGGGGAAGGGCGACTGTTCGGTATCGACCTTCT
CGACGAGCAAGGCTCGGAGATCAAGGGAACTTTCTTCAAGGAGGACGCGG
ACAAGTGGTTCGACGTGTTGCAGGAGGGACAGGTATACAGCTTCAGCGGG
GGTCGCATCAAGGTCGCCAACAAGAGGTATTCGTCGCTCAACTCAGAGTA
CGAGATCACCTTCGACAGCAGCTGCCAGATCAACCAGATCAACGACGACA
GCCGCATCAGCAGCATGACGTACTCGTTCGTTAAGCTGAACGAGATGGAA
GGGATGGAGCCGAACAAGATCCTGGACACCATAGCTGTGGTCAAGAGTTT
CGAGGACTTTGCGGTCATCAACACGAAGGCTGGCAAGGAGTTGGAAAAGC
GCAACCTTACTTTGGTGGACGATACGTGCACGGAGATCACCCTGACGCTG
TGGGGTGAAGCCGCAAAGGCGAACGGGGACCGATGGGAGGGCAACCCCGT
TATTGCCTTCAAGGGTCTCAAGTTGTCGGACTACAACGGGCGATCGCTCG
GCTCGCTCAACTCGTCGTCGCTGGTCAACGACCCCGACGTTCCTGAAGCG
GCCGAGCTTCAGACCTGGTTTGCTGCCGCCGGCGGCGGGTCTAGCTTCAA
GAGCGTGTCCATCAGGTCCGGGGGGGGAGGCAACGACGAGATGGCCAAGA
AGGACATGTCTGAGAGGTACACCTTAGACAGCATCCGCGAGGCCAACCTA
GGGCACGGTGAAAAGTCCGATTGGGCCGTGGTCAAGGGGACCATCTCCTT
CATCAAGCTGGATGCAGACAAGGATCCGTGGTACACTGCCTGCCCATCTG
AGGGTTGCAACAAGAAGGTGTCGGAGACGATGGAAGGCGGCTGGATGTGC
GAGAAGTGCAACCAGACTCACGCGGAGTGCACGAGAAGGTTTATCCTCAA
CATGACCATCTCGGACCAGACCGGCAAGCAGTGGGTGACGGCGTTCAACG
ACCAAGCCGTGCCTCTGCTCGACAACAAGACCGCCGACGAGCTCCAGAGG
ATGAAGGATGGGGGAGAGGACGGCGAATACGAAGAAGTTTTCGCGGAGGC
GTGTTTCAAGACGTACCTCATGACCCTCCGCATCAAGGCCGACATGGTCA
ATGACGAGATGCGGGTCAAGTACACGGTGCAGAGAATGACGCCGATCGAC
ATCAAGACGGAGTGCAACGCCATGTTGGACGCAATTTCCAAGTACAATTA
A
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