mRNA_P-fluviatile_contig10.878.1 (mRNA) Porterinema fluviatile SAG_2381

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

Overview


Name	mRNA_P-fluviatile_contig10.878.1
Unique Name	mRNA_P-fluviatile_contig10.878.1
Type	mRNA
Organism	Porterinema fluviatile SAG_2381 (Porterinema fluviatile SAG_2381)

Homology

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BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot
Match: D7FIG6_ECTSI (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FIG6_ECTSI)

HSP 1 Score: 1404 bits (3634), Expect = 0.000e+0
Identity = 822/1118 (73.52%), Postives = 887/1118 (79.34%), Query Frame = 1

Query:   46 KEAGNKAFAAGDLEQAYKLYSSALEQCRADSSAEGTNLRATVLTNRAMVLFKQGKAEACVSDCTNALEVDPGRVKAYFRRAIAREQLGEDSDAXXXXXXXXXXXXXNKEAVRAARRIKDKVAQAAKLNTPIRQ-------------------------ALKALRAAADNVQKQPAGTGATIAAEDTEQSQMMLALGALLSSEPAAAVQLLNEGGVVALLGCMKAG-EDFPKTAKEALRALGAAAQHKAFGLVLLKTQGKEILSELADIL--------SAAGDSGGEGSPE-VSMGALTAAVHLLQWDQQVVIQGLSELKDVDRASVFEAGKDLSDAAVKVLARGLSMPDRQVFDATLEATVRWCATGADETYDPKDDAGLPAKDAYEKRQKLHRQRVRASLWLRDKALALLSSSSFLVSLYKALSSEEPVERRKASACLSRIGRVVAGVQASEKEREADSNAIKKAVKPLLSFQPGPGGG-VVDNSNADGEVLAAISSESRMQGAVRRVTTAAALANAEGPLGAWAMSLNGFLAEAMTLAASGDEVAQEAAAECFCSAASFDGGRALLGPVVESGVIFALMESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITASPNPATKQ-------------------KNDSQPGFGV-----KRAGTT-MNSLNGAGAIADSERAVEVLGFLVSKTKVKEELCYGSARCPKALIRLCRAAEHVSGTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDMTYEQYEQLKQLNNAHGQGPKEDETDMKDNVEFAKRRSHALAEAGCVVALKKIADDASPATRERIALCFRRLATEPLNRGIIVQQGGLALLINMASPPKASK--EDKSENGQHDEEKGKGCRLEARHAIAKTLVTTNPNLLTEAQTMGSVPPLIAMCRDHESLNLQQFEGLMALTNLASLDNVKSRIVAEKGISCFHYLQFSDHELVRRAATEALCNLLPHPKMVDHMKTVDTLKLWAAFSQLGMEDPPTAAAALGGLAMAVRDPEVAKSFMAEGVAGCEALVCALLSVEPDVPNANDLILRAAVATSSLAEEASFRPLLLLGGVADALSEALQTVRGTEGMVAARAAEACDDALK 3210
            KEAGNKAFA G+L+QAY+LYS+ALE+CR +SS EG NLRATVLTNRAMVLFKQGKAEACVSDCT ALE DPGRVKAYFRRA+ARE+L      XXXXXXXXXXXXXNKEAVRAARRIKDKVAQA++LNTPIRQ                         AL     A++    + A         D EQSQ MLALGALLSSEPAAAVQLL +GG+V L  CMKAG E FPKTAKEALRALGAAAQHKAFGLVLLKTQG E+LS+L DIL        S AG + GEG    +S GALTAAVHLLQWDQ+VV   L+ELKDVDR SV+EAG++L+ AAV+VLA GL+MPDR+VFD  LEA VRWCA G D+  DPKD AGLPAK+AYEKRQK+HRQRVRASLWLRDKALALLSSS  LVSLYKALSSEE VERRKASAC+SRIGR V  VQA+EKEREADSNAIK+AVKPLL FQP  GGG V D+S A                                                    ASGDEVAQEAAAECFCSAASFDGGRALLGPVVESG+IFALMESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITAS +P                       + D+ PG  +     KRAG   M+ L G  AIADSERAVEVL FLVSKTKVKEELCYGSARCPKAL RLCRAAE+VSGTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDMTYEQY+QLKQLN++HGQGPKEDETDMKD  + AKRRSHALAEAGCVV+LKKIA+DASPATRERIALCFRRLAT+  NRG+IVQQGGL+LLINMAS PKA+   ED  +  Q +EEKGKGCR+EARHAIAKTLVTTNP+LLTEAQ MGSVP LI MCRDHESLNLQQFEGLMALTNLASLDNVK+RIVAEKGISCF YLQFSDHELVRRAATEALCNLLPHPKM+DH++ VDTLKLWAAF+QLG EDPPTAAAALG LAMAVRDPEVAK+FMAE VAGCEALVC LLSVEPD+PNANDLILRAAVATS LAEEAS RPLLLLGGVADALSEAL  VRG +GM +ARAAEACDDALK
Sbjct:   18 KEAGNKAFATGNLQQAYELYSAALERCRGESSPEGINLRATVLTNRAMVLFKQGKAEACVSDCTRALEDDPGRVKAYFRRALAREKLXXXXXXXXXXXXXXXXXXXNKEAVRAARRIKDKVAQASRLNTPIRQXXXXXXXXXXXXXXPEGKSQPPQPLALATAAPASEASTPEQAAPSKV----DEEQSQAMLALGALLSSEPAAAVQLLKDGGMVQLTACMKAGGEGFPKTAKEALRALGAAAQHKAFGLVLLKTQGTEVLSDLGDILATEAERSASMAGAAVGEGEGSGLSAGALTAAVHLLQWDQRVVTDDLAELKDVDRGSVYEAGQELASAAVRVLAHGLTMPDREVFDTALEAAVRWCAAGPDDAQDPKDFAGLPAKEAYEKRQKVHRQRVRASLWLRDKALALLSSSPVLVSLYKALSSEEAVERRKASACISRIGRAVTAVQANEKEREADSNAIKEAVKPLLHFQPEAGGGSVADDSKA----------------------------------------------------ASGDEVAQEAAAECFCSAASFDGGRALLGPVVESGIIFALMESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITASNSPPPTXXXXXXXXXXXXXXXXXXXXQKDAAPGSKLGGPKSKRAGLGGMDGLKGGAAIADSERAVEVLSFLVSKTKVKEELCYGSARCPKALSRLCRAAENVSGTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDMTYEQYQQLKQLNDSHGQGPKEDETDMKDTADAAKRRSHALAEAGCVVSLKKIAEDASPATRERIALCFRRLATDSSNRGLIVQQGGLSLLINMASVPKAAGKGEDAKKEQQQEEEKGKGCRIEARHAIAKTLVTTNPSLLTEAQNMGSVPALITMCRDHESLNLQQFEGLMALTNLASLDNVKNRIVAEKGISCFQYLQFSDHELVRRAATEALCNLLPHPKMIDHLRLVDTLKLWAAFAQLGEEDPPTAAAALGCLAMAVRDPEVAKNFMAEEVAGCEALVCGLLSVEPDIPNANDLILRAAVATSYLAEEASIRPLLLLGGVADALSEALLVVRGKQGMASARAAEACDDALK 1079

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BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot
Match: A0A835ZHR7_9STRA (Protein unc-45 homolog B n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835ZHR7_9STRA)

HSP 1 Score: 535 bits (1377), Expect = 1.160e-166
Identity = 423/1111 (38.07%), Postives = 564/1111 (50.77%), Query Frame = 1

Query:   46 KEAGNKAFAAGDLEQAYKLYSSALE--QCRADSSAEGTNLRATVLTNRAMVLFKQGKAEACVSDCTNALEVDPGRVKAYFRRAIAREQLGEDSDAXXXXXXXXXXXXXNKEAVRAARRIKDKVAQAAKLNTPIRQALKALRAAADNVQKQPAGTGATIAAEDTEQSQMMLALGALLSSEPAAAVQLLNEGGVVALLG-CMKAGEDFPKTAKEALRALGAAAQHKAFGLVLLKTQGKEILSELADILSAAGDSGGEGSPEVSMGALTAAVHLLQWDQQVVIQGLSELKDV--------------------------------------------------------------DRASVFEAGKDLSDAAVKVLARGLSMPDRQVFDATLEATVRWCATGADETYDPKDDA-------------GLPAKDAYEKRQKLHRQRVRASLWLRDKALALLSSSSFLVSLYKALSSEEPV-ERRKASACLSRIGRVVAGVQASEKEREADSNAIKKAVKPLLSFQPGPGGGVVDNSNADGEVLAAISSESRMQGAVRRVTTAAALANAEGPLGAWAMSLNGFLAEAMTLAASGDEVAQEAAAECFCSAASFDGGRALLGPVVESGVIFALMESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITASPNPATKQKNDSQPGFGVKRAGTTMNSLNGAGAIADSERAVEVLGFLVSKTKVKEELCYGSARCPKALIRLCRAAEHVSGTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDMTYEQYEQLKQ----------------------LNNAHGQGPKEDETDMKDNVEFAKRRSHALAEAGCVVALKKIADDASPATRERIALCFRRLATEPLNRGIIVQQGGLALLINMASPPKASKEDKSENGQHDEEKGKGCRLEARHAIAKTLVTTNPNLLTEAQTMGSVPPLIAMCRDHESLNLQQFEGLMALTNLASLDN-VKSRIVAEKGISCFHYLQFSDHELVRRAATEALCNLLPHPKMVDHMKTVDTLKLWAAFSQLGMEDPPTAAAALGGLAMAVRDPEVAKSFMAEGVAGCEALVCALLSVEPDVPNANDLILRAAVATSSL 3072
            K AGN AFAA  L  A   Y++ L   +   D+ AE T L+A +L NRAM  +K G  +AC+ DC+ ALE++P R KA                 XXXXXXXXXX   NK+AV  A  +KD+VA+AA   TP+++A   L  A           GA+ A    ++++ + A+ A+ S +P+AA     EGG+ AL    M A  D  +    ALRAL    QH+  G  L+    +                                                                                                                       V + GK L+ +A    AR ++ P + V  A +EA  RWCA       +P+D A                       R + +R++   S   RDK LA    +S  + LY+ LS+E+   ERR+A A +SR+ R VAG  + +  +EAD  A+++A++PLL F    GGG V+              ESR+   +RRV  A A+A A+  +G WA+ ++  +AE MTLA++  EVAQE AAE  C+AASFD GR LLGPV+ESG++FALM+S+S AARSAAAS YAKLGM+S AL  DS+D+TKLLNVSLDLI A   P  K                              ERAVEVL FLV+KTKVKEEL +GSARC  +L RLC AA  ++G SP+AYGLA +F++L VS++E   E+ + K+++ EQYEQL++                      +  +HGQGP +D  D  D  E A RR+ AL  AG V AL+ IAD AS  T+  IA C+RR+  EP  RG +VQQGGL+ LINMA                          EARHA+AKTLVTTNPNLLTEAQ +G V PL+A+ R H + NLQQFE L+ALTNLAS  N V++R+ +E+G++   YL FSDHELVRRAATEA+ N+LPHP  + H+++ D  +LW AF+ +  ED  TA AA GG+AMA  D  VA + +    AG    +  LLS         D+  RAAVA ++L
Sbjct:   11 KAAGNAAFAANQLGDAVAAYTAGLRLAESSTDTQAEATALKAALLNNRAMAHWKAGNDQACLDDCSAALELEPRRAKAXXXXXXXXXXXXXXXXXXXXXXXXXXXDAKNKDAVAMAMAVKDRVARAAAAETPMKKAFTELSRA-----------GASAA----DRARALRAVAAIASDDPSAAAAARREGGLEALWAVAMDAAAD-AELQTAALRALSECVQHRVVGAPLVAALLEAXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPAAVEAMPSEGVVGDWGKSLNASAALAWARAVAAPSKTVRSAGMEALARWCA-------EPEDAAVXXXXXXXXXXXXXXXXXXXXXXRNEAYRRKQLRSWAARDKGLAAARLAS--LPLYRLLSTEDDAAERRRAGAAVSRVVRSVAGALSPDSRKEADKAALQEALQPLLKF----GGGEVEPG------------ESRIAAVMRRVALATAIAAADPDVGQWALRMDNCIAEVMTLASARGEVAQEIAAEAICAAASFDAGRPLLGPVLESGLVFALMDSQSAAARSAAASGYAKLGMVSQALKGDSNDITKLLNVSLDLIGADVPPTEK------------------------------ERAVEVLTFLVTKTKVKEELAFGSARCKASLERLCEAARAINGRSPMAYGLASIFATLAVSRDELKAEALRDKEISVEQYEQLQKRCDXXXXXXXXXXXXXXXXXXXIAESHGQGPTDDPLDA-DTAEAACRRAAALVAAGGVAALRTIADGASATTQLAIAQCYRRVCCEPSARGRVVQQGGLSALINMAG---------GGXXXXXXXXXXXXXXEARHALAKTLVTTNPNLLTEAQRLGCVAPLVALARAHGATNLQQFEALLALTNLASTGNAVRARVASERGVAALSYLMFSDHELVRRAATEAMVNMLPHPDALQHLRSKDGARLWLAFAGIADEDRATALAAAGGIAMACGDEGVAAALVE---AGAPQTLAELLSAGDA-----DIAHRAAVAAATL 1032

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BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot
Match: A0A7S2XPP3_9STRA (Hypothetical protein n=1 Tax=Attheya septentrionalis TaxID=420275 RepID=A0A7S2XPP3_9STRA)

HSP 1 Score: 256 bits (654), Expect = 3.090e-70
Identity = 184/469 (39.23%), Postives = 268/469 (57.14%), Query Frame = 1

Query: 1588 AAECFCSAASFDGGRALLGPVVESGVIFALMESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITASPNP------ATKQKNDSQPGFGVKRAGTTMNSLNGAGAIADSERAVEVLGFLVSKTKVKEELCYG---SARCPK-ALIRLCR-AAEHVSGTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDMTYEQYEQLKQLNNAHGQGPKEDETDMKDNVEFAKRRSHALAEAGCVVALKKIADDASPATRERIALCFRRLATEPLNRGIIVQQGGLALLINMASPPKASKEDKSENGQHDEEKGKGCRLEARHAIAKTLVTTNPNLLTEAQTMGSVPPLIAMCRDHESLNLQQFEGLMALTNLASLDN-VKSRIVAEKGISCFHYLQFSDHELVRRAATEALCNLLPHPKMVDHMKTVDTLKLWAAFSQLGMEDPPTAAAALGGLAMAVRDPEVAKSFM 2958
            A+E   +AAS +  R L+ P++E+G +  LME+  +  RS AASA AKLG+   ALS++  ++  LL V+++L+  S +       A  +K    P    K + ++  S   A     +ER +EVL +L++KT++KEE+ +G   SA     AL RL   A+   SG S I+YGLA +F+ + VS E   KE+F GK++T +QYE+L+ L     +     +    D  E    R   +A      A+ K+  +AS  T E++     R+A E   RG++VQQG L+  +            K E G+   E GK     ARH++AK LV+ NP+LLT +Q MG V PLI + RD+ES +L QFE L+A+TNL S+D   K+RIVAE+GIS   Y  FSDHELVRRAATEA+ NL+P+ +M+ ++   + LKLW AF+     +   A AA G LAMA + P VA + +
Sbjct:   11 ASEVVSAAASTEKARPLILPLLETGALEILMENSDKEVRSGAASAIAKLGLADKALSNNEGEIIGLLQVAVELLEDSADSGGADTKALMEKASKAP----KESASSXXSATTA-----AERGIEVLSYLLTKTQIKEEIAFGFKASANSKHTALERLVELASASKSGESVISYGLATIFALMAVSTETLRKEAFIGKEITADQYEELQALGKTEEEKENAKQNQDIDPPEAVHERIRKMANCNVPRAMVKLMTNASEHTLEQVVTGMNRMAVEETARGVMVQQGCLSACL------------KVEQGESPSETGKKILNLARHSVAKMLVSMNPSLLTVSQRMGCVRPLIQLIRDNESSDLAQFEALLAITNLGSMDEETKNRIVAERGISVLGYGMFSDHELVRRAATEAMSNLVPNVEMMKYLADPEHLKLWVAFATEFDTNYECARAAAGCLAMATQAPAVATALV 458

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BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot
Match: A0A7S3JQE0_9STRA (Hypothetical protein n=1 Tax=Aureoumbra lagunensis TaxID=44058 RepID=A0A7S3JQE0_9STRA)

HSP 1 Score: 256 bits (655), Expect = 8.110e-67
Identity = 284/974 (29.16%), Postives = 456/974 (46.82%), Query Frame = 1

Query:   46 KEAGNKAFAAGDLEQAYKLYSSALEQCRADSSAEGTNLRATVLTNRAMVLFKQGKAEACVSDCTNALEVDPGRVKAYFRRAIAREQLGEDSD-AXXXXXXXXXXXXXNKEAVRAARRIKDKVAQAAK----LNTPIRQALKALRAAADN---VQKQPAGTGATIAAEDTEQSQMMLALGALLSSEPAAAVQLL-NEGGVVALLGCMKAGEDFPKTAKEALRALGAAAQHKA-FGLVLLKTQGKEILSELADILSAAGDSGGEGSPEVSMGALTAAVHLLQWDQQVVIQGLSELKDVDRASVFEAGKDLSDAAVKVLARGLSMPDRQVFDATLEATVRWCATGADETYDPKDDAGLPA-------KDAYEKRQ-KLHRQRVRASLWLRDKALALLSSSSFLVSLYKALSSEEPVERRKASACLSRIGRVVAG---VQASEKEREADSNAIKK-AVKPLLSFQPGPGGGVVDNSNADGEVLAAISSESRMQGAVRRVTTAAALANAEGPLGAWAMSLNGFLAEAMTLAA--SGDEVAQEAAAECFCSAASFDGGRALLGPVVESGVIFALM--ESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITASPNPATKQKNDSQPGFGVKRAGTTMNSLNGAGAIADSERAVEVLGFLVSKTKVKEELCYGSARCP--KALIRLC-RAAEHVSGTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDM--TYEQYEQLKQLNNAHGQGPKEDETDMKDNVEFAKRRSHALAEAGCVVALKKIADDASPA--TRERIALCFRRLATEPLNRGIIVQQGGLALLINMASPPKASKEDKSENGQHDEEKGKGCRLEARHAIAKTLVTTNPNLLTEAQTMGSVPPLIAMCRDHESLNLQQFEGLMALTNLASLDN-VKSRIVAEKGISCFHYLQFSDHELVRRAATEALCNLLPHPKMVDHMKTVDTLKLWAAFS 2865
            K+ GN+ F+ G  E+A ++Y+ AL +      A    L+ T+ TNRA    K  + E CVSDC  AL +D GRVKA +RRA A   +G+D + A             NKEA++ AR +K KV +  +      +PI +A + +   +DN             +I A D  ++  M   GA       AAV L+ NE   +A+L C        +        L  A   K  F L   K      L++L              S +V++ A+ A V     D+    +   E  D    ++ +  K     ++      L    ++  DA L+  VRW      E   P+ +  L         ++A +KRQ  + ++R  A   L + AL     + +L  ++  L ++    R KA A L+RI +  A    + A     E D +A    +V  LL      G   ++      +    IS E R +   ++    A+ + A G LGA A+    F +  + L    S D +A++ AAEC  +AA+   GRA L P+V +G + AL   ESK++  RSAAA+A A+LG+ ++AL + S +  +LL+ +L L    PN            + V+ A             A  +R +EVL  L + + VKEE+ +GS R     A+  LC +    + G  P AY L  +F++L V+  E  +  F+ +DM  T EQY++L ++     Q  +ED  +  + +           + G +++ + I  D  P+  TR ++A    +L+ +   RG+++QQG L   + + +     +E+K +  QH        R+ A HA A+ L+TT+P+ L +A    ++ PL+  C+    L++  FE  +ALTNL +L +  K R+   +GI+   YLQFSDH+L++RAATEAL N++P P  + H+K  D LKLW AF+
Sbjct:   10 KDEGNRLFSQGKYEEAIEVYNRALTE------AFDPQLKCTIFTNRAACAMKLNRWEECVSDCDVALRIDGGRVKALYRRAFALAAIGKDIERACFDAVKAAKLDPKNKEAIKLARELKAKVTKDMERRGAYESPIMRAARRILGQSDNDTMTLPDALKNATSIVATDGSEAITMWRCGAC-----GAAVNLIINEENELAILAC--------RFLASCCLTLSVAIDIKQLFPLAKCKH-----LNQLV-------------SQDVALLAVAARVA----DELTAHKDEEERND----NLVQLEKRFVAESICTALNPLKEKRQKWLDAALDVLVRWLGPII-ERLTPESEVKLKKLTTTKAKREAVQKRQIDIEKRRRNACARLAEFALTDDYDTIWL-GIWALLDAQNDNLRLKAHATLARILKATATPTPLGAEHGPYEFDKSAQNDMSVSDLLEKILDTGDDCIELKTKQADENLNISDELRFRR--KKAALVASFSLASGYLGAKALQ-RCFESPLVLLQVIESRDIMAEKLAAECLANAAACQEGRAFLAPLVAAGTLEALASDESKTKNTRSAAAAATARLGLAANALKAGSQETGRLLSAALALCKRGPNDD----------YSVEDA-------------AARDRGLEVLAALSADSNVKEEIAHGSGRLGTGSAIDILCTQVGSKIKGNDPSAYALISIFANLTVTNNELRQRHFRERDMDITPEQYDELMRVTK---QKAEEDADNDTEALASRXXXXXXXXDGGAIIS-QIILSDPPPSLQTRRKLAETLCQLSVDVELRGVLIQQGALRAAVALCNEENKEEEEKDDVLQH-------MRVHAGHACARMLITTDPHKLPDATAYSAIRPLLWTCKQVAILDIIHFEACLALTNLITLGHDAKRRVAQARGINTLEYLQFSDHKLIQRAATEALTNMVPDPDFLAHLKKKDKLKLWLAFA 899

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BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot
Match: B8CF19_THAPS (Uncharacterized protein n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B8CF19_THAPS)

HSP 1 Score: 256 bits (655), Expect = 2.810e-66
Identity = 195/530 (36.79%), Postives = 289/530 (54.53%), Query Frame = 1

Query: 1453 VRRVTTAAALANAEGPLGAWAM----SLNGFLAEAMTLAASGDEVAQEAAAECFCSAASFDGGRALLGPVVESGVIFALMESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITASPNPATKQKNDSQPGFGVKRAGTTMNSLNGAGAIADS---ERAVEVLGFLVSKTKVKEELCYG------SARCPKALIRLCR-AAEHVSGTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDMTYEQYEQLKQLNNAHGQGPKEDETDMK--DNVEFAKRRSHALAEAGCVVALKKIADDA-SPATRERIALCFRRLATEPLNRGIIVQQGGLALLINMASPPKASKEDKSENGQHDEEKGKGCRLEARHAIAKTLVTTNPNLLTEAQTMGSVPPLIAMCRDHESLNLQQFEGLMALTNLASL-DNVKSRIVAEKGISCFHYLQFSDHELVRRAATEALCNLLPHPKMVDHMKTVDTLKLWAAFSQLGMEDPPTAAAALGGLAMAVRDPEVAKSFMAEGVAGCEAL 2988
            ++R    A+L   +  +G WA+    S    L E   L +S D  A   A+E   +A+S +  R LL  +V+ G +  L+       RS AAS  AK+G+ S ALS D  +V  LL+++++L+    N       +S     VK    T++ +  +    +S   +R +EV+ +LVSKT VKE +  G            A+ RL   A    SG + +A+GLA +F+ L VS E   KE+F GKD+T EQY+QL+ L     +   E E   +  DN      R   +A A    AL K+ + + S AT+E++     R+A+E   RGI++QQG L+  + +    K S+ +K                +AR  IAK LVTTNP++LT +Q  GS+ PLI + +D+++L+L  FE L++LTNLA+  +  K+RIVA+KGI    Y  FSDHE+VR+AATE LCN++PHP+M+D+++  D LK+W AF+    E+   A AA+G LAMAV DP  AK     G+  CE L
Sbjct:  612 MKRGQLTASLLVGKPDVGTWALKYGWSNGNGLEELKQLISSNDPRAMSIASELVSAASSVESSRPLLASLVQEGTLDDLLTHSDADIRSGAASCAAKIGLASKALSEDEGEVLGLLDIAIELLFQEDNA------ESLGSSNVK----TLSKIPSSKPSTESTSMDRGIEVMTYLVSKTFVKERIANGYKPDGSPPNRETAIQRLVEIACAPKSGDAQMAFGLAGIFNLLSVSIETLQKEAFVGKDITKEQYDQLQSLGKTDEEKDVEAERGEREGDNPRAVSERIRKIANANVPRALVKLLEGSNSDATQEKLLEAMGRMASESSVRGIMIQQGCLSACLQLDKGDKPSETEKK------------IIRQARSCIAKLLVTTNPSILTVSQRSGSIGPLIKLVKDNDALDLMHFEALLSLTNLAAFGEETKNRIVAQKGIPAISYAMFSDHEMVRKAATECLCNMVPHPEMMDYLEKPDNLKIWVAFASDYEENFQCARAAVGCLAMAVPDPNFAK-----GLIQCEHL 1114

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BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot
Match: A0A7S4S430_9STRA (Hypothetical protein (Fragment) n=1 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A7S4S430_9STRA)

HSP 1 Score: 251 bits (641), Expect = 1.690e-64
Identity = 197/548 (35.95%), Postives = 291/548 (53.10%), Query Frame = 1

Query: 1417 AAISSESRMQGAVRRVTTAAALANAEGPLGAWAM----SLNGFLAEAMTLAASGDEVAQEAAAECFCSAASFDGGRALLGPVVESGV-----IFALMESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITASPNPAT--KQKNDSQPGFGVKRAGTTMNSLNGAGAIADSERAVEVLGFLVSKTKVKEELCYGSA-----RCPKA------LIRLCRAAEHVSGTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDMTYEQYEQLKQLNNAHGQGPKEDETD--MKDNVEFAKRRSHALAEAGCVVALKKIADDA-----------SPATRERIALCFRRLATEPLNRGIIVQQGGLALLINMASPPKASKEDKSENGQHDEEKGKGCRLEARHAIAKTLVTTNPNLLTEAQTMGSVPPLIAMCRDHESLNLQQFEGLMALTNLASLDN-VKSRIVAEKGISCFHYLQFSDHELVRRAATEALCNLLPHPKMVD-HMKTVDTLKLWAAFSQLGMEDPPTAAAALGGLAMAVRDPEVAK 2949
            A +S  +++Q  +R+    ++L   +  +G WA+    S    + E   L  S + +A   A+E   +AAS +  R  + P+V +G+     + AL+ES     RS AASA AKLG+ +  LS+D  +V  LL V+++L+  + +     K  N     F  K              +   ER +E+L +L SKT+VKEEL +G       + PKA      L RL   +   S +   +YGLA +FS L VS E   KE+F+GK++T EQY++L+ L     +   E +T   M+D+++    R   +A      A+ K+ ++            S  T E++ +   R+A E   RG +VQQG L+ L+ +    K +  DK                 ARH IAK L+TTNP+LLT AQ MGS+ PLI + RD +  +LQQFE L++LTNLAS D   K RIVAEKGI+   Y  +SDHE+VR AATEA+ N++ HP +++ H    + LK+W AF+    E+   A AA GGLAMA RDP+VA+
Sbjct:  595 ATLSITNKLQIQMRKGQLTSSLLLGKSSIGVWALKEGWSDGDAITEISALIRSQNNIAMSIASELVSAAASTEHARPFISPLVGNGIGSGSPLEALLESDIGDVRSGAASAMAKLGLANKELSNDEGEVMGLLQVAVELLNENDDEVMGDKDANKKAKQFLEKNKXXXXXXXXXXXTV---ERGIELLSYLASKTQVKEELTHGFRSSSILKAPKATSSQTALERLVELSCTSSPSLAASYGLATIFSLLAVSAETLRKEAFEGKEITAEQYDELQNLGKTEEEKEFESKTKSVMEDSLDAVNERIRKMASCNVPRAMVKLMENGGGSVSGXXGTTSEHTMEQLVMAMNRMALEESVRGTMVQQGCLSALLKVEEKEKPTDSDKK------------TLRNARHCIAKMLITTNPSLLTIAQRMGSIRPLIQLVRDDKVNDLQQFEALLSLTNLASADEETKGRIVAEKGIATLSYAMYSDHEMVRCAATEAMVNMVSHPTVLEEHFSDSEKLKVWLAFALDYEENFECARAASGGLAMASRDPKVAE 1127

[Close]

BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot
Match: K0RDV4_THAOC (Uncharacterized protein n=1 Tax=Thalassiosira oceanica TaxID=159749 RepID=K0RDV4_THAOC)

HSP 1 Score: 250 bits (639), Expect = 1.950e-64
Identity = 266/892 (29.82%), Postives = 414/892 (46.41%), Query Frame = 1

Query:  556 GALLSSEPAAAVQLLNEGGVVALLGCMKAGEDFPKTAKE------ALRALGAAAQHKAFGLVLLKTQGKE-----ILSELADILSAAGDSGGEGSPEVSMGALTAAVHLL-QWDQQVVIQGLS----ELKDVDRASVFEAGKDLSDAAVKVLAR----GLSMPDRQVFD---------ATLEATVRWCAT-------GADETYDPKDDAGLPAKDAYEKRQKLHR----------------QRVRASLWLRDKALALLSSSSFLVS---------LYKALSSEEPVERRKASACLSRIGRVVAGVQASEKEREADSNAIKKAVKPLLSFQPGPGGGVVDNSNA----------DGEVLAAISSESRMQGAVRRVTTAAALANAEGPLGAWAM----SLNGFLAEAMTLAASGDEVAQEAAAECFCSAASFDGGRALLGPVVESGVIFALMESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITASPNPATKQKNDSQPGFGVKRAGTTMNSLNGAGAIADSERAVEVLGFLVSKTKVKEELCYG------SARCPKALIRLCR-AAEHVSGTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDMTYEQYEQLKQLNNAHGQGPKEDETDMK------DNVEFAKRRSHALAEAGCVVALKKIADDA-SPATRERIALCFRRLATEPLNRGIIVQQGGLALLINMASPPKASKEDKSENGQHDEEKGKGCRLEARHAIAKTLVTTNPNLLTEAQTMGSVPPLIAMCRDHESLNLQQFEGLMALTNLASLDN-VKSRIVAEKGISCFHYLQFSDHELVRRAATEALCNLLPHPKMVDHMKTVDTLKLWAAFSQLGMEDPPTAAAALGGLAMAVRDPEVAKSFMA 2961
            G+L     ++A  +   GGV  L+G +  G   P  + E      AL  L A   H  F   +LK  G+E     IL+ + +  ++   +   GS +V++ A+   V L+  WD + V++  S    E   +DR + FE  + L +  +  + R      S   +   D         A L+    W A+        +D  Y P D    P+K    KR   HR                 + R + + R  A   +   S   S         L  A+S+E+   RR+      +IGR++   +        + + +KK   P L  +    G   D+             D E    I   + ++  ++R    A+L   +  +G W++    S    +AE   L AS   +A   A+E   SA+S +  R LL  +V  G +  L+       RS AAS  AK+G+ S ALSSD   V  LL+V+++L+    + +        PG     + T   S+         +R +EV+ +L SKT VKE++  G       +    AL RL   A E  SG + +A+G+A +F+ L VS E   KE+F GK++T EQY+QL+ L    G+  +E E D        D  +    R   LA A    A  K+ + A S AT++++     R+ATEP  RG+++QQG L   + +            + G+   E+ K     AR  +AK LVTTNP +LT +Q +GSV PL+ + +D+++L+L  FE L++LTNLA  D+  K+R+VA+KG+    Y  FSDHE VR+AATEA+CN++ + + +DH+   D L++W AFS     +   A AALGGLAMAV D   +K+ +A
Sbjct:  212 GSLAEDVSSSAEDIGRRGGVPLLVGVVHRG--IPDESDEVTCRIAALHILSACCSHDPF---ILKYAGRESLPPNILARVVEEEASQSVNAQGGSADVAVAAMALLVRLIVHWDHRQVVRTFSPKIYEDGTIDRTAKFE--EQLVEVDISTICRVAIAAFSWNTQSTSDCKNDGRAPRAALDLISAWTASDLDALDAASDACYAPSD----PSKKGSAKRATTHRINQDDIRSMKPRQVAAHKKREADFHRANAQRSMQHVSAFCSEDTGGLDAMLSCAVSTEDHRLRREIGL---QIGRMMTLFE--------EDDDVKKLAAPALGCRNWKVGKEDDSEEEGVSSLTIEELDEEKGEGIYDTNDLKTQMKRGQLTASLLAGKPDVGTWSLKHGWSDGSGVAELKELIASDFPIAMSIASEIVSSASSVESSRPLLATLVSEGTLDDLLIHPDADVRSGAASCAAKIGLASKALSSDDSQVMGLLDVAIELLELEVDASIA------PGANESSSKTESTSM---------DRGIEVMAYLASKTFVKEKIVNGYRPKGSPSERKTALARLVDIACEPNSGDTQMAFGIAGIFNLLAVSIETLRKEAFIGKEITKEQYDQLQSL----GKTEEEKEADAAKDDNEGDTPKAVTDRIQKLANANVPRAFVKLLEGATSSATQDKLLEAMGRMATEPSVRGLMIQQGCLTTCLQL------------DRGEKPNEEEKKLLRRARSCVAKLLVTTNPGILTVSQRLGSVGPLLKLVKDNDALDLMHFEALLSLTNLAGFDDETKNRVVAQKGVPILSYAMFSDHERVRQAATEAMCNMVGNQEFMDHLAKPDNLRVWVAFSLDYEVNFGCARAALGGLAMAVYDINFSKALVA 1050

[Close]

BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot
Match: B7FW35_PHATC (Predicted protein n=1 Tax=Phaeodactylum tricornutum (strain CCAP 1055/1) TaxID=556484 RepID=B7FW35_PHATC)

HSP 1 Score: 246 bits (627), Expect = 3.440e-63
Identity = 300/1021 (29.38%), Postives = 473/1021 (46.33%), Query Frame = 1

Query:   55 GNKAFAAGDLEQAYKLYSSALEQC-RADSSAEGTNLRATVLTNRAMVLFKQGKAEACVSDCTNALEV---------DPG---RVKAYFRRAIAREQLGEDS---------DAXXXXXXXXXXXXXNKEAVRAARRIKDKVAQAAKLNTPIRQALKALRAAADNVQKQPAGTGATIAAEDTEQSQMMLALGALLSSEPAAAVQLLNEGGVVALLG-CMKAGEDFPKTAKE-ALRALGAAAQHKAFGLVLLKTQGKEILSELADILSAAGDSGGEGSPEVSMGALTAAVHLLQWDQQVV---IQGLSE------LKDVDRASVFEAGKDLSDAAVKVLARGLSM----PDRQVFDATLEATVRWCATGADETYD----PKDDAGLPAKDAYE---KRQKLHRQRVRASLWLRDKALALLSS-SSFLVSLYKALSSEEPVERRKASACLSRIGRVVAGVQASEKEREADSNAIKKAVKPLLSFQ---PGPGGGVVDNSNADGEVLAAISSESRMQGAVRRVTTAAALANAEGPLGAWAMSLNGF---LAEAMTLAASGDEVAQEAAAECFCSAASFDGGRALLGPVVESGVIFALMESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITASPNPATKQKNDSQPGFGVKRAGTTMNSLNGAGAIADSERAVEVLGFLVSKTKVKEELCYG--SARCPK-ALIRLCRAAEHVS-GTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDMTYEQYEQLKQLNNAHGQGPKEDETDMKDNVEFAKRRSHALAEAGCVVALKKIADDASPATRERIALCFRRLATEPLNRGIIVQQGGLALLINMASPPKASKEDKSENGQHDEEKGKGCRLEARHAIAKTLVTTNPNLLTEAQTMGSVPPLIAMCRDHESLNLQQFEGLMALTNLASL-DNVKSRIVAEKGISCFHYLQFSDHELVRRAATEALCNLLPHPKMVDHMKTVDTLKLWAAF-SQLGMEDPPTAAAALGGLAMAVRDPEVA 2946
            GN +F  G+L  A   YS  +  C R    A G+ L+AT+L NRAM   KQ      V DCT+AL +         D     R K ++RRA A+  L   S         +A             N EA +    ++ +       +TP+ +A++AL+   D                      + L L  L       +++L   GGV  LL   +  GED        +L+ L  A    +F  + L  + + ++    DI+  A D+    +  VS  A+   + LL  D+  V   I G ++      LK V  A  +  G++ +   ++ +   LS      DR  F       +R    G+  T      PK    + A   ++    R++ + +++R + W  ++ +       +FLV+   A+S  + V RR+ +  L   GR++A ++        + + IK  V P LS        G  + +  + D E+    +  + ++  + R    A+L  ++  +GAW++ L+G+     E + L  S D+ A   A+E   SAA+ +  R L+  ++ SG +  L+ S  +  RS A SA AKLG+  S  S+D  ++  LL  + +L+    N     + +   GF          S     A    ERA+E++ +LV  T VKEEL  G  S   P  AL RL   A+  + G S  A+GLA +F  +  + E+  KE+F+GK++T EQY++++ +     +    +     D     + R   +A A    A+  + + +S  T E+  +C  R+A E   RG +VQQG L+  I +         +K E         K  RL ARH IAK L++TNP LLT AQ +GS+ PLI + RD++   LQ FE L+A+TNL+S  ++ +SRIV EKGIS FH+  FS++ LVRRAATEA+CNL+ +  M++ +     LKLW AF S    E+   A AA G LAMA +D  VA
Sbjct:   18 GNASFGKGNLTDAVFAYSQGVVACDRLAKPALGSALKATLLGNRAMCELKQMDLTPTVDDCTSALHLLSQQTTMHTDASTSLRSKLHYRRAKAQFLLSGISKPVDRNLAEEAAKDLLRVLQMDPTNVEANQLLVTVRSQHKSMQTSSTPVSKAVQALKDKNDVTH------------------HLKLLLNLLNEDVANVSMELGRVGGVSVLLEVAVSTGEDVDANQIALSLQTLSQAGSFPSFCRLYLTDRQRALM----DIVRTAPDA----TAIVSALAIYVRI-LLHADRDDVSKEITGKTDIEYETLLKTVSLALDWACGEEHNTIVIRAVLDLLSTWTAGTDRDSF-------IRTSLLGSSVTDPSLPVPKTQTEIRAMTPHQLADHRKREYDKKLRDTAWAFERGILFCQEMKTFLVT---AISCHDHVVRREMTVVL---GRLLAHIE--------EDDRIKSVVIPYLSDPRKTKHTGVTIEEVCDEDNELKKEENFPTNLELKMERALITASLLLSKKDVGAWSL-LSGWHNAADEILDLIQSRDDRAMCLASEVVSSAATVENARHLVSNLLTSGSLKTLLLSHDRDIRSGATSAIAKLGL--SDKSTDEGEIMGLLEAACELLEDEANETEIARENKCRGF---------KSF----AFTSVERAIEMITYLVVNTSVKEELAAGFRSRNAPHTALERLVNTADLPNAGDSLSAFGLATIFQHMAATNEQIRKEAFEGKEVTMEQYDEMQLMGKTQEEKEVIESQKDTDTQNACQERIRKMANANVPRAIVTLMEGSSEHTLEQSVICLTRMAGEQSIRGFLVQQGALSACIKV---------EKKEGPTETCVMKKVTRL-ARHCIAKILISTNPALLTSAQRLGSIRPLILLIRDNKGTELQHFEALIAVTNLSSAGEDAQSRIVTEKGISSFHFCMFSENVLVRRAATEAMCNLVQNQAMLNFLTETAHLKLWLAFASDYEEENYEGARAASGCLAMATQDEIVA 964

[Close]

BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot
Match: A0A8J2X189_9STRA (Hypothetical protein n=1 Tax=Pelagomonas calceolata TaxID=35677 RepID=A0A8J2X189_9STRA)

HSP 1 Score: 241 bits (616), Expect = 7.940e-62
Identity = 182/530 (34.34%), Postives = 277/530 (52.26%), Query Frame = 1

Query: 1567 DEVAQEAAAECFCSAASFDGGRALLGPVVESGVIFALM-ESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITASPNPATKQKNDSQPGFGVKRAGTTMNSLNGAGAIADSERAVEVLGFLVSKTKVKEELCYGSARCPKALIRLCRAAEHVSGTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDMTY--EQYEQLKQLNNAHGQGPKEDETDMKDNVEFAKRRSHALAEAGCVVALKKIAD-DASPATRERIALCFRRLATEPLNRGIIVQQGGLALLINMASPPKASKEDKSENGQHDEEKGKGCRLEARHAIAKTLVTTNPNLLTEAQTMGSVPPLIAMCRDHESLNLQQFEGLMALTNLASLD-NVKSRIVAEKGISCFHYLQFSDHELVRRAATEALCNLLPHPKMVDHMKTVDTLKLWAAFSQLGME-DPPTAAAALGGLAMAVRDPEVAKSFMAEGVAGCEALVCALLSVEPDVPNANDLILRAAVATSSLAEEASFRPLLLLGGVADALSEA 3138
            DE  +    E   + AS + GR+ L P+V++G +  LM E ++ ++RSAAASA AKLG+ + AL + S +  KLL+ +  L+    +PA K                              +RAVEVL  L   ++ KEE+ +GS R   +L  +C  A+   G+ P AYGLA + ++L V+ +E  +  F+ K+M    +QY++  ++        K+ E    D  + AK R+  L     VVA+  +A  + S  T  ++A     LAT+   RG ++QQGG    +N+A+           N ++D+     CRL A HA  K L+TT+P  LT+ Q + ++ PL+  CR  ++ +L  FE L+ALTNL SL    + R+  EKGI    YLQFSDH  V+RAATEALCN++P   M+ H+   D +KLW A    G+E D   A+AA+G LAMA  D +VA++  +    G  AL+  L S +P       L+ RAA   ++  E++  R LL    +  A+ +A
Sbjct:  536 DEQGEILGCEALAACASSESGRSALAPLVQAGELERLMREGRTTSSRSAAASAVAKLGLAAKALKAGSHETGKLLDAAAQLLK-DEDPAAK------------------------------DRAVEVLAGLSGSSRAKEEIAHGSGRSAASLGSICDVAKQTKGSDPRAYGLALILANLTVTNDELRRRHFREKEMDISPDQYDEFMRITKQ-----KDPEDADNDTPDLAKARARKLCINDGVVAIATLASSNPSSETASKLADALCALATDVDMRGTLIQQGGFRSAVNLAN-----------NDKNDDR----CRLSAAHAAGKVLITTDPRKLTDDQQLCAIRPLLWACRHVKATDLAVFEQLLALTNLLSLGATARRRVAVEKGIHALEYLQFSDHPEVKRAATEALCNMVPDRSMIKHLSRSDKMKLWLALCHDGVENDARLASAAVGCLAMACSDVDVARAVASNN--GAAALIAVLGSADPS------LVHRAAYCLTACLEDSKARALLASSDMKSAVEKA 1006

[Close]

BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot
Match: A0A1E7F5J3_9STRA (ARM repeat-containing protein n=1 Tax=Fragilariopsis cylindrus CCMP1102 TaxID=635003 RepID=A0A1E7F5J3_9STRA)

HSP 1 Score: 230 bits (586), Expect = 5.970e-58
Identity = 280/1081 (25.90%), Postives = 461/1081 (42.65%), Query Frame = 1

Query:   46 KEAGNKAFAAGDLEQAYKLYSSALEQCRADSSAEGTNLRATVLTNRAMVLFKQGKAEACVSDCTNALEV--DPG---------------------RVKAYFRRAIAREQLGED--SDAXXXXXXXXXXXXXNKEAVRAARRIKDKVAQAAKLN----TPIRQALKALRAAADNVQKQPAGTGATIAAEDTEQSQMMLALGALLSSEPAAAVQLLNEGGVVALLGCMKAGE--------------DFPKTAKEALRALGAAAQHKAFGLVLLKTQGKEILSELADILSAAGDSGGEGSPE-VSMGALTAAV----HLLQWDQQVVIQGLSELKDVDRASVFEAGKDLSDAAVKVLARGLSMPDRQVFDATLEATVRWCA-------TGADETYDPKDDAGLPA----------KDAYEKRQKLHRQRVRASLWLRDKALALLSSSSFLVSLYKALSSEEPVERRKASACLSRIGRVVAGVQASEKEREADSNAIKKAVKPLLSF----------------------------------QPGPGGGVVDNSNADGEVLAAISSESRMQGAVRRVTTAAALANAEGPLGAWAMSLN--GFLAEAMTLAASGDEVAQEAAAECFCSAASFDGGRALLGPVVESGVIFALMESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSLDLITASPNPATKQKNDSQPGFGVKRAGTTMNSLNGAGAIADSERAVEVLGFLVSKTKVKEELCYGSARCPK----ALIRLCRAAEHV-SGTSPIAYGLAFLFSSLCVSKEEEVKESFKGKDMTYEQYEQLKQLNNAHGQGPKEDETDMKD-NVEFAKRRSHALAEAGCVVALKKIADDASPATRERIALCFRRLATEPLNRGIIVQQGGLALLINMASPPKASKEDKSENGQHDEEKGKGCRLEARHAIAKTLVTTNPNLLTEAQTMGSVPPLIAMCRDHESLNLQQFEGLMALTNLASL-DNVKSRIVAEKGISCFHYLQFSDHELVRRAATEALCNLLPHPKMVDHMKTVDTLKLWAAFSQ--LGMEDPPTAAAALGGLAMAVRDPEVAKSFM 2958
            K  GN+AF   +L+ A + YS  L             L+AT+L+NRA    KQ K   C  DCT++L++  D G                     R KA F +A    +  ED  + A             NKEA +    I+ + A  AK N    TP+ + L+        ++K+          +D     + + +G L S   ++++     GGV  +LG +                  D  K  K AL+ L  A  +  F  + LK    EI ++L+D++  A D+  +   E  ++GA T  +    HL + D +  I+G       D   ++E         ++ +       +  +  A ++    W A         A  T     D  +P           K+  E +Q+L++++ R   W  +++     ++     L  ++  E+   RR+ +A L++    +           AD + +K+   P+  +                                               A  E++        ++   +R   A A   A   +G W+M             + AS D  A    AE   SAAS    R ++   + +  +  L+    +  R+AAASA AKLG+      +   ++  LL  +  ++        +   DS      K A   M S    GA +  ER +EVL +L++KT VKEE+ +G    P+    AL  L + +E+  SG +  A+G+A +F  +  +     KE+F GK++T EQY++++++     +   E + ++KD N +    R   +  AG   AL ++ + +S  + E+I L   R+A     RG ++QQG L+ LI +             N  +  +  K      RH +AK LVT NP LLT AQ+MGS+ PLI + R+ +S +LQ+FE L++LTNL S+ D+ K+++ AEKGIS   Y  FSDH LV++AATE LCN++ +   +  ++ VD L+LW A +      E+   A AA G LAMA  DP +AKS +
Sbjct:   15 KTKGNQAFQKSELDTAVQAYSQGLVLVDRIVVTSSPLLKATILSNRAACYLKQAKLRECQEDCTSSLKLLDDQGSNYNKEDADAYRPLRSKLLYRRAKALFLKANMPHKKEEDDLNLAAKDLLVLLSFDSSNKEATKLLHTIRAQHAAEAKTNNVSNTPMAKTLR-------EIEKK----------DDKLLHNIKVLMGLLTSDILSSSMDFGRRGGVDLMLGIINTRHSNDNDXXXXXXXXXDVNKVRKIALQCLSCAGSYPPFCRMFLKEP--EIQTKLSDLIVEACDNDYDNIDEQTAIGAFTIYIRLILHLDRDDPEEDIKG-------DTFLIYEP-------LIRSIISAFQSKNVGIIRAVVDVLSSWTAGKNREMVIRASLTDGMISDLPVPLTKYEMHLLKPKNLSEYKQRLYKKKTRDEAWAFERSTLFCRNNGLQSLLDFSIDCEDSNLRREITAVLAKALTAL-----------ADDDKMKEVASPIFGYIKKXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXAKPEIVT-------LETMKKRAELATAFLMANSSVGGWSMGAGWPNCSENINEMIASNDVNALRIVAELLSSAASVKETRPMVAIYLNNDNVKTLVIHGDRNVRTAAASAVAKLGLAED--HTQDFEIVGLLEAACFML----EDGEENIKDSDNSIFTKVA---MIS----GAKSSVERGIEVLAYLITKTIVKEEVAHGFRATPESKYSALELLVKISENAGSGANVSAFGIASIFQLMAATPLVLRKEAFAGKEITMEQYDEIQRMKKTQEEKEIEVDDELKDDNEDQCAERIVKMTNAGAPRALIQLTEGSSDQSLEQIVLALNRIANVQSVRGTMIQQGVLSALIKL-----------ERNEVNPSDIRKNIIRSVRHCMAKLLVTINPGLLTSAQSMGSIKPLIQLVREIDSTDLQKFEALLSLTNLVSMGDSTKNKVAAEKGISSLKYAMFSDHPLVKKAATECLCNMVGNEDFMKMLQDVDELRLWLALASDYEDEENHECARAAAGCLAMATGDPAIAKSLI 1020

The following BLAST results are available for this feature:

BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot

BLAST of mRNA_P-fluviatile_contig10.878.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
D7FIG6_ECTSI	0.000e+0	73.52	Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2...	[more]
A0A835ZHR7_9STRA	1.160e-166	38.07	Protein unc-45 homolog B n=1 Tax=Tribonema minus T...	[more]
A0A7S2XPP3_9STRA	3.090e-70	39.23	Hypothetical protein n=1 Tax=Attheya septentrional...	[more]
A0A7S3JQE0_9STRA	8.110e-67	29.16	Hypothetical protein n=1 Tax=Aureoumbra lagunensis...	[more]
B8CF19_THAPS	2.810e-66	36.79	Uncharacterized protein n=1 Tax=Thalassiosira pseu...	[more]
A0A7S4S430_9STRA	1.690e-64	35.95	Hypothetical protein (Fragment) n=1 Tax=Ditylum br...	[more]
K0RDV4_THAOC	1.950e-64	29.82	Uncharacterized protein n=1 Tax=Thalassiosira ocea...	[more]
B7FW35_PHATC	3.440e-63	29.38	Predicted protein n=1 Tax=Phaeodactylum tricornutu...	[more]
A0A8J2X189_9STRA	7.940e-62	34.34	Hypothetical protein n=1 Tax=Pelagomonas calceolat...	[more]
A0A1E7F5J3_9STRA	5.970e-58	25.90	ARM repeat-containing protein n=1 Tax=Fragilariops...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-fluviatile_contig10	contig	P-fluviatile_contig10:3204516..3219816 -

Analyses

This mRNA is derived from or has results from the following analyses


Analysis Name	Date Performed
Diamond blastx: OGS1.0 vs UniRef90	2022-09-19
OGS1.0 of Porterinema fluviatile SAG_2381	2021-02-24

Properties


Property Name	Value
Taxonomic scope	Eukaryota
Seed ortholog score	1415.2
Seed ortholog evalue	0.0
Seed eggNOG ortholog	2880.D7FIG6
KEGG ko	ko:K19870,ko:K21991
EggNOG free text desc.	protein binding, bridging
EggNOG OGs	KOG4151@1,KOG4151@2759,KOG4234@1,KOG4234@2759
COG Functional cat.	S
Best tax level	Eukaryota
Best eggNOG OG	NA\|NA\|NA
BRITE	ko00000,ko03036,ko03110
Hectar predicted targeting category	other localisation
Ec32 ortholog description	Tetratricopeptide-like helical domain
Ec32 ortholog	Ec-28_000200.1
Exons	22
Model size	3857
Cds size	3315
Stop	1
Start	1

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1622815407.6697206-UTR-P-fluviatile_contig10:3204515..3205057	1622815407.6697206-UTR-P-fluviatile_contig10:3204515..3205057	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3204516..3205057 -
1693561772.927003-UTR-P-fluviatile_contig10:3204515..3205057	1693561772.927003-UTR-P-fluviatile_contig10:3204515..3205057	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3204516..3205057 -

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

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-fluviatile_contig10.878.1	prot_P-fluviatile_contig10.878.1	Porterinema fluviatile SAG_2381	polypeptide	P-fluviatile_contig10 3205058..3219816 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-fluviatile_contig10:3204516..3219816-
coding sequence from alignment at P-fluviatile_contig10:3204516..3219816-

protein sequence of mRNA_P-fluviatile_contig10.878.1

>prot_P-fluviatile_contig10.878.1 ID=prot_P-fluviatile_contig10.878.1|Name=mRNA_P-fluviatile_contig10.878.1|organism=Porterinema fluviatile SAG_2381|type=polypeptide|length=1105bp
MNNPPPPPPGGAAAGKEAGNKAFAAGDLEQAYKLYSSALEQCRADSSAEG
TNLRATVLTNRAMVLFKQGKAEACVSDCTNALEVDPGRVKAYFRRAIARE
QLGEDSDALRDVKRALELDPGNKEAVRAARRIKDKVAQAAKLNTPIRQAL
KALRAAADNVQKQPAGTGATIAAEDTEQSQMMLALGALLSSEPAAAVQLL
NEGGVVALLGCMKAGEDFPKTAKEALRALGAAAQHKAFGLVLLKTQGKEI
LSELADILSAAGDSGGEGSPEVSMGALTAAVHLLQWDQQVVIQGLSELKD
VDRASVFEAGKDLSDAAVKVLARGLSMPDRQVFDATLEATVRWCATGADE
TYDPKDDAGLPAKDAYEKRQKLHRQRVRASLWLRDKALALLSSSSFLVSL
YKALSSEEPVERRKASACLSRIGRVVAGVQASEKEREADSNAIKKAVKPL
LSFQPGPGGGVVDNSNADGEVLAAISSESRMQGAVRRVTTAAALANAEGP
LGAWAMSLNGFLAEAMTLAASGDEVAQEAAAECFCSAASFDGGRALLGPV
VESGVIFALMESKSQAARSAAASAYAKLGMISSALSSDSDDVTKLLNVSL
DLITASPNPATKQKNDSQPGFGVKRAGTTMNSLNGAGAIADSERAVEVLG
FLVSKTKVKEELCYGSARCPKALIRLCRAAEHVSGTSPIAYGLAFLFSSL
CVSKEEEVKESFKGKDMTYEQYEQLKQLNNAHGQGPKEDETDMKDNVEFA
KRRSHALAEAGCVVALKKIADDASPATRERIALCFRRLATEPLNRGIIVQ
QGGLALLINMASPPKASKEDKSENGQHDEEKGKGCRLEARHAIAKTLVTT
NPNLLTEAQTMGSVPPLIAMCRDHESLNLQQFEGLMALTNLASLDNVKSR
IVAEKGISCFHYLQFSDHELVRRAATEALCNLLPHPKMVDHMKTVDTLKL
WAAFSQLGMEDPPTAAAALGGLAMAVRDPEVAKSFMAEGVAGCEALVCAL
LSVEPDVPNANDLILRAAVATSSLAEEASFRPLLLLGGVADALSEALQTV
RGTEGMVAARAAEACDDALKLLKQELKEVQAMQKAHKTQELAPASDQTDV
LELD*

mRNA from alignment at P-fluviatile_contig10:3204516..3219816-

Legend: polypeptideCDSUTR

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

>mRNA_P-fluviatile_contig10.878.1 ID=mRNA_P-fluviatile_contig10.878.1|Name=mRNA_P-fluviatile_contig10.878.1|organism=Porterinema fluviatile SAG_2381|type=mRNA|length=15301bp|location=Sequence derived from alignment at P-fluviatile_contig10:3204516..3219816- (Porterinema fluviatile SAG_2381)
ATGAACAATCCACCTCCTCCACCTCCGGGTGGTGCAGCAGCAGGGAAGGA
GGCAGGAAACAAGGCCTTCGCAGCGGGCGATCTGGAGCAAGCGTACAAGG
TTCGACCTAACAGCTGGGAGTGTTGGAAACTGGAACAATCGGTCCGCACC
GCCTGTTATGGCGGTATGTGCAGCTACCTTGTGCTCTATGACGCGCGTTT
CTACGCAAAGTGGTGTTCATGTTTGTTGATTTAGCATTTTTGCGCGGCCG
TCTCCCTGCAGGCTCGCTCAAGTGCCCATCAACGAGCGTTAGCGATGCAC
TCCATACACGGCCATGGCAATGACCCACCCCGCCGTTCCGCACCCCCCAA
CCCCACAACCCGCGCAGCTTCCTTCATTTTGAGGTTCGAACCGCCAACTT
ATCAGTGGCAAATTGAGATACTTTGCAATTTCTTGCAACAGTGAGATCCC
TTTCGTGCCGCATCCTCGCTGTTACTACTGCTGCTGTTGCTGCTGCTGCT
GCTGCTGCTGTCACAGGATTTTACATTCTCCTTCTGATTCACGCCTGTCC
GCCGTCTTGTGCTTGCCGTCGTACCAGCTTTACTCCTCCGCGTTGGAGCA
ATGCCGCGCAGATTCGTCAGCCGAAGGGACTAACCTCAGGGCTACTGTTT
TAACCAATCGCGCGATGGTACTCTTCAAGCAAGGGAAGGTGAGCTCCGCT
GCTGGAACTCGAGGGTTCCTCTTCATCTAGTTTTCTGAGAAGGGGGCCCT
TTGCAGAGAGTTTCAACACTTTGCCACAGGGCGGGTGATGCATGCGCCAA
TTCCTCGTGCGCAACCGTGTGCTTGTAATCGACGGCGGAGCAGTGGAATT
GATGGAACTGGCCCGGGATTTGGACTCTTCTCTACGCGGATGCTCTGCCA
CGAGAACCAAGGGATTTTTTCTGAACATTTGTGCAGACTTCGGCTGGATG
ACATCGCCAGCCCTTACCCGACTGCTGCTTTCTTGAAAAACATTCATGTG
CGTACAATCACACACATGCAGTATCCGTACCCGCCGGTTCCGCAACACCC
TCAGATCCTGGTGGTGCCCACCCGAAATCGTTCATTCTGCGCTGTTCGCT
GTGCAGGCGGAGGCGTGCGTGTCGGACTGCACCAATGCGCTGGAGGTTGA
TCCTGGACGGGTCAAGGCATACTTCAGGAGAGCGATCGCCCGAGAGCAGC
TTGGAGAAGATAGTGATGCACTCAGAGATGTCAAGAGGGCGCTGGAGGTG
TGCATGCATCCACTGATAGTGCTCGCTACGGATGAGCAGGAGTTCTCTGT
GTGATAAAAACAATGAAGTTGGGGATGCTTGCGTCGCTGTTTCATCGCCG
AATCACACGGCACTCGTTTTTCTTATTGGCCCACTACGCTGCTTCACCGT
ATCGATCGAGCGGTACCTGTGTCTTTGCGCTTTTCGCGACCGCGAAGCTG
ATATCAGGTATCACCTTAATTGAATGCGTAAGAACAGTCTTTTCATCAAG
CAATCCACTTCGTGTCGTTCCATTTTCTTCCGCCTCTTGCGCCATGCATG
CGTCCTGCGCCAACTCTTCTTCCGCCGCGTTGCCCTGTTTTTACGATATT
TGTCGTTGATTGCTGGGAAGCTGGACCCCGGCAACAAAGAGGCCGTGCGG
GCGGCGAGGAGGATAAAGGACAAGGTCGCGCAGGCCGCCAAGCTTAACAC
ACCTATCCGGCAGGTAATGAAGGCTTACGGCCGCCGCGTGCCCCTTTGCA
CTGCTCTTTCTGGACATCTTCGCGCCATGTTTGGCAACATGTTGCAGACA
TTGTTTGGTTTTGGGTAGGGTTTGATGACGAGACAACATGTTGCAGACAT
TGTTTGGTTTTGGGTAGGGTTTGATGACGAGACAGCGTAAGTGTCCGAGA
ATGGACGCGCGATGTTCTATCGTGAGAGCATGAAACGTTGTGTCCGGTTC
CCTTCGACGGCAACAGTTTGGTGTGTTCCGCTACATGCCCGTTGCCGGTA
TTGTGGAAAAGGTGACGGATGTTTTGAGTTTCGACGCAATTTCATGACGC
AACGAACGTGGGCGTGTGGCAAAACGTCGCGGCCGATGTCTCTGGAAACA
GGCTCTCAAGGCCTTGCGTGCGGCGGCCGACAACGTGCAGAAACAGCCTG
CTGGGACGGGCGCGACGATCGCCGCAGAGGACACGGAGCAAAGTCAGATG
ATGCTGGCACTGGGCGCTCTGTTGTCGAGCGAGCCGGCGGCTGCCGTGCA
GGTGCGGCTCACTTCGATGAAGATAGCGGGTCGGTCGCTGTTAGTCGTCC
TCCATCAGCAGTGCCGTGTCAATACGGCTCGGGTCTGTTTGTACGCCTCT
TTGGCCGACGGAACTCACGAACACCACGATGTCGCCCGCCTACTGTATTG
CTTACTCGCGCGCAATAAGAGCCATGGCTACCGTAGCAAAAGGGGGTCAT
AGGTCGCTCTCTGCGTTCGCCGTATTTCACCTGACACCTTCAGGCGCAGC
GTTTTTCGACCTTTCTGACGGGTGTAGTTTAGCCTTTGAGCGCACCCCTT
TCTTTGTCGCCCAGGATTTCTTGCCTCCCGCTACTTTGGGGCACGACTCC
CACGTTCAGCAGTAGTGCACATTCAGATGGAGCAAACGTTGCGTGCGACT
GGCAAACCACTTGTTTGCACCGGTCGTGTATCGCTCTGGCCCACCTGGTT
GGCGGGGAGGAACGGTGGTGCTGCCCTCTGTCATTGCGTGGTGTTTTCCA
TCGAAAACGTTCGTTGCCAACAAACTGCGCCGATTGCGTTCCTCCAAGAT
TGCTCCACGGTTGCCATGAGGTCGGGGTTGCTCCTTCGCCTTGGAGGCAG
GGAACAAGTAGAATTTGGCGTCAGGAATGTGCTGACATCTGGCAAAATCA
GTACATGAAAGTTGCCCATATTTTTCGTAGAACGGACCCTCTCTCTCCCC
CCTGTGGCCGTTAACCCGCTTTTGCCGCAGCTCCTGAACGAGGGTGGCGT
AGTTGCGCTGTTAGGGTGCATGAAAGCTGGCGAAGACTTCCCAAAAACTG
CGAAGGAGGCGCTGAGAGCTCTCGGAGCAGCAGCGCAGCACAAGGCATTC
GGGTTGGTGCTGCTGAAGACCCAAGGGAAGGTGAGAAGCCGCCGCCTTGC
TGCAGCGAAGCCATCAACTGTTAGTCCAACGCGCAAAGAGGAATGGAATG
TCTACAGGTTCAGAAATTCGACATCAGACGCCAACAAGCTTAGGCAGCTC
TTTTGAAATTGTCCAATGACTGGCTGAGTGCCCTTGAGAGACTGCTGTGC
CTCAATTTTTGAGGGCAACGTTGTTCCTTGCGCTTGTGCATGCTCCACTC
AAGGAAGATAGCAATTTTCAATTTTCCCAGTCTTGTACTTTCACCCGTGT
ATTGAGCGCGGAAACCCCTGTCAGAACCATCCTTCGAGGGTTGTTCATGC
GGTAGGAACTGCCACGTTTGGCTTGTTGAGGACGAGGAAAATTGTGTTGT
GCACCTCACTTCCCGTGGACCAAATGTTCGCCTTTGGTGTTGCCCTACGA
AACAGGAAATTCTCTCGGAGCTAGCGGACATCTTATCGGCGGCCGGAGAT
TCCGGGGGGGAGGGCAGCCCCGAAGTGTCGATGGGGGCACTGACGGCCGC
CGTTCATCTGCTGCAGTGGGACCAGCAAGTGGTGAGGGCCGCAAAGTGAT
GGGAGCCTGGCGTACGCGTGATACATGTCTCTGGAGCTGGAGTAGACCTT
CAGATATGCCTCTCTCCTTTAGGCCGACAACCTGGTCAAGGTTGGGGAGG
GAAGACACAATGGAAGACGGTATCCCGACGTGATCGTCCTCCATCTGTGT
CTACCTCATCGAGAACCATCCTCGGCAATCAGACTCGGTGGCGGTGTTGA
GGTCGATCGCGCGAGCGTACCCACACATGTGCTTCCAGCAGCATTCTGTT
CGGGCGAACAGGGTATCCACACGGGTGCGGCCGGTAACCACCCAAACGGG
TGATCCGATGTTTGTTTTACATATGGACGTGCTCGATTAGTGTGCCACCT
CAATCTCAAGATGCCCATTTTTTTTATAATGCGCTGAAGTAATCGTTGGT
TGTTCCGTCGGAATCGATCACTCCTGGGTTTGCGTCTGTCAGGTGATCCA
GGGCCTCTCGGAGCTCAAGGATGTCGACCGCGCATCGGTGTTTGAGGCGG
GGAAGGACCTCTCAGACGCCGCAGTCAAGGTGCTGGCGCGTGGCCTCTCC
ATGCCAGACCGCCAGGTATGTGCTGCTGCCCTCGAGCCTGCCTCTGTTGA
TGCAACCAAGTCGGCTGTTGCTCCTGGTTGCTGGCGTCCGTCTTGGTTCA
AAGCCAGCCGCCACTGCCTTAGGCGAGGGAAGGTGCTTGCACCCATAACC
GAGGTCGCCGTTTTGCTACTTGTTCCACGAGGAATCCCGACGCGGAGCAC
GGAAATGTCAAGAAGCAGCTACGTAGCCAATAAAGTTCCGAATCGGCTTG
ACTGACCGCAGCTAAAAACTATCATCTTGCTGTGGTGTCTGCTTCCCTCC
CAAAGGTTTTCGACGCGACTTTAGAAGCCACGGTTAGATGGTGTGCTACA
GGAGCGGACGAAACATACGACCCCAAGGACGATGCGGGCTTGCCAGGTGA
AACAAGCTTGTATCAAACGCGGCCACCTTGGAGTGTGTCTCCCGCGCAAG
GCCCACCTGTTCCGTTTTCGCACATTCCGTTTCGAGACAGTATGTTATGT
ATTTCTGTGATACCCCCCCCCCTTCCGCCGCAATAGTTGGGCACCGATCT
TGTCTGCACTTCGGTGATTTTACTATTTCGCTGTCCCAAGATATATTTTG
TCCATTTCTTCGGTCGAAAGCATGTCCTTATACTCATGCCTAGTGCTTTG
CACTTGGTAAATGGCGTGCGACGGAGACAACGGAAGTACGCGATGACGAT
GCGGCCATCATTATTGCTGGGACCAGGAGGCACATCCTTTGCTCGCTCCA
CATTGCGAGCCTTATTTGCGCTGTGTCGTGCTTGCGGCGTATCTCCTGCT
GCAAAACACGCCAAAGGTTTTTGCCACTCGGTGGAGATGCAAAGTTTGTG
GTCGTTGCTACGTCTTTCGCGCCTGACGTTGCCACTGCACCTGCTGTGCT
ATCAATGCTTTCAGCAAAAGATGCGTACGAGAAGCGGCAAAAGCTGCACC
GACAGAGGGTGAGGGCTAGCCTGTGGCTCCGAGACAAGGCCTTGGCGCTG
CTTTCGTCATCTTCTTTCCTTGTTAGGTAACGGGCCTCGAACGAGTATCT
CTGTGTCGGTGCGTCAAAGCATCCGATGTTTTTTTGGTAATGCGCGGCGG
CTTTGATACGTGTTTAGGGTCGAGAGGCGTTGGCGATCTTAACTTTGAAG
GTTTTAAGTCTTGGATGTGGAGTCCGTCCCGTGGCTCCGGTCGTTCCTCC
TAGATTCCCTCTGCCACTGCTTGCTGTTGTTCATTTGGTGACGCCACCGT
CGCTGCTGCGGTCGCTTACGGCACTGCTGCTGCTGCCGTTGCTGGTGGCG
GCATGTCGGCCTACCTTGCCTCTCCCGCCGACACGCTCATCATCGACCGA
CGTGCGAAGTCTCTACAAAGCTCTTAGTAGCGAGGAGCCCGTGGAGAGGA
GGAAGGCCTCGGCGTGCCTGAGCCGCATCGGCAGAGTGGTGGCCGGAGTG
CAGGCGAGCGAGAAGGAGAGGGAGGCTGACTCCAACGCCATTAAGAAGGC
CGTGAAGCCGCTGTTGAGCTTCCAGCCGGGGCCAGGAGGCGGTGTCGTGG
ACAACTCAAACGGTACGCGCGTGCCAGACTCGAATGAGCCTTCAGTGCTC
AATCGGGGCGAGAAGAAAAGCTCACAGCTGTCTCCGTCTTCGGGATGTAC
TCAGTATGCGTCCACACAGTTGGCCGGCATGTTTATCTCTTAGGAAAAAA
GAAAATCTGAATCTGTAGACTTCACCCGTGCAATATTCAGCAGCGTTTCC
GACACAAAAGTTGAAGGACGTATTTTCCCAGTTGTGTGTATAGAGTTGGC
TTGCGCGTTCGCCTCCTTCGATTGCGAAACTCGCAGGGTTGAGAGGGGCA
TTTGTCGGGCGGACGAAGGAGATTGCTGGGTTTTTTTTGTACAACCCATC
CCGGCATTATGCGTTTCGGTGTGAGTCTCGTTAAAGAAGCGAGTCTGTCG
TCCTCGCTACAGCTCTGAGAAGCGAGCCCGTCGTCCTCACTTTTGCCATC
ACCTGAAGGACGTCGTGGATCTGCGCGCTTGCGCAGCTGTGTTGACCATG
CCTACCCTTCAGTTTGCTGTCATTCATTCTTCCAGATAGCCCATCGTCAT
CTTTTCGCGATCAAACCATTGATGCGAAAACCATCCGTGCACTACCATCC
CCGCTTCGCTGGAACCATTTGGATCAACAATTCAGCGGACGGAGAGGTGC
TCGCTGCGATATCGAGCGAGTCTCGGATGCAGGGGGCCGTGAGGAGGGTA
ACCACCGCCGCGGCCCTTGCTAATGCGGAAGGACCACTAGGAGCGTGGGC
CATGAGCCTAAACGGCTTTCTCGCAGAAGTGGGTTATGTGGCGGTCATGA
TCGAAGCACAAACAGATTCAGAGAGCACCTCTATGGCGAGAAGACATCCG
AGCGAGCGTCATCTTCGCGCTGTTTGCTACGTGTCTCGCGGGCGTGCCCT
GGCATGGTTTGAAGTGACTTGGCTTGTGTGCCTTGATCAGATTCGCGCTT
TCCGTCGGTTTGGACAAGAAATGCCCTGAATCCTCCTTGATTAGAGCAAC
CCGTTTGTGTTTCTGTGGGAACACATATGTACGTTTCCATGCGTTGTGAC
ACCATCATCTGGTGCTAGACAAGCGTCAGTTTCGGACAACGAACGTTGCT
AAGGTCGCTAATTTCGTTCTGGCGGCAACGATGGGGCGCAAGGCAAACCC
TGGAGAACGCCGATACAATCGTCATGAACGAACCGAGCACCTCAAGGCCT
TCCCTGACATATTTCGACGCGTTTCATGCAGTCAACCCTAAGCGGAGCGA
TAGATATACTTCTTAGCCGCTCATTGACCTTTATATCACCCAGGCGATGA
CTCTGGCGGCGTCAGGCGACGAAGTGGCGCAAGAGGCGGCGGCCGAGTGT
TTCTGCTCTGCGGCGTCTTTCGACGGGGGTCGAGCTCTCCTCGGCCCCGT
GGTGGAGAGCGGCGTGATCTTCGCGCTCATGGAAAGCAAGAGTCAGGCAG
CCAGATCTGCCGCTGCGAGGTGAGCTTAGATGAACTTCGAACCAATTTTC
CTTCGTGCTTCGACTTGCATGTATGATAAGGCTACTTACTTGGGCCTCTG
CCCCAAAGTCACCAGTATCAGGGATTTCCAGGTATCTTGCAGCAGTCAAA
AACGGTAGCAGCAAGTCCACTTGTGCGTATTTTGATCTACAGGAGTGATC
TTCCCTCCCGAAGGTCGGATGACTGAAACCTGGAACATGATTGTTCGGTA
TCGGTGTCGCCGATTCACACTGCCCCAAATGCCAACTTCTCGCAGCAACT
TCAGGAGCGTCAGTGGGTTGCGTCTGGTCGTCTTGACATCGTGTTCTTGG
TCATCCCATTTAGGCGCAGGAAACACAGGAAACGACGGCCCTGGTTCACG
CTGTGCGACCGCCCGCATAGTTCTCCACAAGGAACGTGACCCTTCCCTAA
GTGCGCTTACGCTGGCCCTGTCTGACACATTCCCCTGCAATGTCCCTCTG
GCAGTGCCTACGCCAAGCTCGGGATGATTTCGAGCGCCCTTTCGAGCGAC
TCAGATGACGTTACCAAGCTCCTCAACGTCTCGCTCGACCTCATCACCGC
GTCTCCAAACCCTGCTACCAAGCAGAAAAACGATAGTCAGCCGGGGTTCG
GCGTTAAAAGGGCCGGAACCACGATGAACAGTTTGAACGGGGCGGGGGCG
ATCGCGGACAGCGAGCGCGCCGTAGAGGTCCTGGGTTTCCTTGTCTCCAA
GACCAAGGTGCGGCGCGGGCAGCAGCTTCCTGAAGCGCGTGATGATACAT
GCGATGATCCAAAATGAAGCCCATGCCGCTGTTTCTCAAACGCTGTGATT
TTTGTCACAGGGTCGGATGTGTTGTCATTGTGGACCGGCGACTCCGAATT
CCCTCCCCTTAAGGAGCCTGGGCAATTGCCAAGCTCTTCAGCTACTCTTC
CGTCAGGGTGGCATGCCAGAACAAGCTTGATCGCAGGCCTCGTTCTATGC
CCATGGGCTTTGGTGGTAGGCACACTGAAGGATTTTGTGCACAACGTGAA
GTTGCATGGGATGCTAATCAAGGCCGAGCGTGAGGAGCCGCGGCCTGCAG
GTTGCAGTGGCCTCGGTTATTCTGGTGTTTTAGCAGTGAGGTACATGGAG
ATACTGTCACCTCTTTTCATCCCACTGTATCTCCGCGGAAAGGCCAACGA
CATAGCTCGCTGTATCCGTGAACATGTTCGGCTCTTCATCGCCCTGTGCT
CCCTCTCGGCACACTTCGAGTCCGAGTTCCGCAACATTCTTCTGCTTTTG
CCACATCCTGTGCCCTTTCGCCCGCTTTCAGGTGAAGGAAGAACTCTGCT
ACGGGTCTGCCAGGTGCCCCAAGGCGCTGATCCGGCTCTGCAGGGCCGCC
GAGCACGTCAGCGGGACGAGCCCCATCGCCTACGGACTCGCATTCCTCTT
TTCCTCGGTACGCGCGGGGTGTCGCCTTCGCCCATCCCACCATGGCGGAC
CTGAGGGTCGCGGTGGGCCTGGGTGTCCTGTTTTATCCTAGTGTCATGTT
TTTAACTACGAAGATCGCGTCTGACGCGTCAATCGTTTTTTTTTTTATGC
GAATGCTTTTTATCTGTTTCATCGCCTTCCAAGTGCATGGGCTCTTAGTG
GCGCTCTTGCTGCTTTGCTGAAGAAGAAAAATGTGTCGCGCACTGCACAC
CTGATTTGGGGCGTACTCGGATTACCGGCCGAGCCGTTGTAGGCCCTGCT
TTCTCCGGGGATGAAGGCACTTCCTTCCCCTTGAATAAAAATCGTGCCTT
CTGTTTCGCTGTTGAAGAGCCATTGTAGGCCCTGCTTTCTCCGGGAATGA
AGGCACTTCCTGCCCCGTGAATGAAAATCGTGACTTCTGTTTCGCTGTTG
CATCTCGACCATGCAGCTGTGCGTGAGCAAGGAGGAGGAGGTGAAAGAGT
CGTTCAAGGGGAAGGACATGACCTACGAGCAGTACGAGCAGCTGAAGCAG
CTCAACAATGCACACGGGCAGGGTCCTAAGGAGGACGAGACCGACATGAA
GGATAACGTCGAGTTCGCAAAGCGAAGGTGAGGGACCCTGTCTGCACACG
CTCATTAGGAATCCCGTGCTTGTTTTCTGCGGAGTGGGGTTTACGGAGGA
TGTTGAAGTACTCACCGAGAATTTATCCCCCCCCCGTATTTCACATCCCC
TCCCGCTGGCTCTCACCTCGGTGTTTGCCATCGGGATTGGGTTTTCGTCG
CTTGGCAACGACGTTGTAAAACAAGCCAATTCACTTCGTGAACTCGGCAA
CCAGGTTACCGTCTTTTTTTTCCTCTGTTTTTTTTGGCGGTAACCATAAT
GGTGGTCGAGAAGATCGTGTTGTGCGGGGTGGAGAACCCTCGCTCCGCGC
AAGGGGGATGATCGCACCACGTTGTGTTAAAATGATCAAGCACCCTCGAG
GCAGTTACACAGTGCTTACAACTGTCTCTGGAAGTGAAAGCACCAGAAAA
TAAATTAAGCCATACGCAGCTGTCATCCGTATGCAAGGAAGTAAGCACAA
GATGCCGAACACCCTTAGCAGGATGCAGCGCACCCTTCATGCGACTCGCC
GAATACCTCACGGCGCTTCGCGCTTGGTGGTGTGAGAGTCTGGTCCGGTG
AGAACCCGGCGTGCTCCGTCCCGGCTTTGTAGGGATGCGAGGTCAATGGT
CTAACGACTACGGCATGCACGACTATGAGTACACCCCCGTACACAAGTAC
AGGTTCTTTGCGCTGGTGGCCACTAATCCTCGCAAGCCTTCGCTTTCAAG
ACTTCCCGAGCGAGGTGTTTGTTGTTCCCTCGAAACGTGCATATGTGCAC
CAGCGTTAAACGTCGAGATTTCCAAGCGTACGAAGATCGTGCGACTTAAG
TTGCTCCCTCGTAGAATGCACCGTTTTACCCGTGGCCCTGTATAGGAGGT
TAAGAGACGGATGATGAGCAACGACCGTGCACATAAGGCGTATGACCGGC
GTGCAGTTGGTCCGCTCTTTCCCCTTCGCAAAGCGTTGAGCGTTTGTGGC
GCATGCGTTGGCCCTCCCTAACCTGGCAATACTATCGTTGTATCATCCTC
GCTGTCGATCTTTTCGCTGTAGATCCCACGCCCTGGCCGAGGCAGGGTGC
GTGGTTGCTCTTAAGAAAATCGCGGACGATGCTAGTCCGGCAACGAGGGA
GCGCATCGCCCTTTGCTTCCGCAGGCTGGCCACGGAGCCCTTGAATCGAG
GCATCATTGTGCAGCAGGGGGGGTTGGTGAGGAAGCGATAGGTCCTTCTC
GTCACTGTCTCTGCTGTTTAGTTGGCGATGCAGGTGCCGAGCGGTTCTTG
CTGTCATGCAGCAAACACGTAGCGGCGAGAGGGGAGGGCGTGTGAGTAGG
TGTGGTGCAACGATACTCCGGGTCTTAAGCCCGGTTGCACAAGCAACGCT
TGGGGCCCCCTAGTCAAAACGATCGCTTTGTTGCGCTTTGCGTTGATTGT
CTCCTATTGTGACGTCCATCTTGACCACGTCTGTCGTTCGCTTGTCACGG
CTACAGCTCAAAGTCACAAGGTGTCCCCATTCGTCATGGGATTTGGATTT
TACCCTGACTGAAATTGTTTATACGCCATGGCTGGATGGTGAGCCGTTGG
GTGCGACTCAGTCCTCTTTGTAGTGAAATTTAACCGTTACATCGCCACGA
CCGCTTTGCCAGGCCCTGCTGATCAACATGGCATCGCCGCCAAAAGCCAG
CAAGGAAGACAAATCGGAAAATGGCCAGCATGACGAGGAAAAGGGCAAGG
GTTGCCGGCTAGAGGCCAGGCACGCCATCGCGAAGACACTAGTCACAACA
AACCCCAACCTCCTCACGGAGGCGCAGACTATGGGGTGAGTCCGGTTCTC
CCCAAATCCATTACCCCTCTTTGAAGCCCTGTGTATCTGAACATCAGTGG
CTACGATGTGAGAGAATTGTTCAAAAGCCCCACATTAAGAGGGTCGAATC
GGCCTGTTACAAAACCGCAAGTCAATATATCTTGCCACTTCGATTTGAGA
AAAAGCCTGACTAAGCGAGTCCAGCACGGCTTGTCGAGCTCTTTCTTCAA
TCGTAGCCACTAATGTATTCGACTTGTGGTCTATAGAGTTGACGCGCACG
AGTATCAATGTTTGCCACTGAAAGTGGCAAGCTAAAGAAGCGCCGTGCGG
TAGACCAAGGATGAGTGCCCGGGAGGCGGTATCTGTGATGGAGTTGGCAA
CCTGGGTCACCAAGGCAGGGTTCAGGTTCAACGCGGTAGGCGGCCAGCAA
AACGTGCACCTGGTTCACCTTTCATCAACTCGACCATTTTTTCCCTCGAT
GTATTGATCGTCCTTGCTCCCGCCCCTCTCTCTACCTCTAGGTCGGTACC
CCCCTTGATCGCCATGTGCAGGGATCACGAGTCTCTCAATCTACAGCAGT
TCGAGGGCCTCATGGCGCTCACCAATCTGGCCAGCCTGGACAACGTGAAA
AGTCGTATCGTGGCTGAAAAGGGGATTTCGTGCTTCCACTATCTGCAGGT
ACCTCAGCAGTAAAGTTGGCGCCCCAATCTGCCTCTGCGCGTCGTTGATG
ACCTGTGTGTACCAACTGCAAGTTTTGCGATGTCGTTCGTGCTCTTGATA
GACGATAGCATTTAGATTTTGCACCTTTGTTCTTGTCTGAGGGTGACAAT
TTTTAGTCAGGCCGCTAGATACGATACGTGACGGGACGGATTTTCCAGTG
ATGTCATGCAAGTTGGTGTGGCAAGCGGATATCTGGAGAAGTGTCTCTGA
GGCGAAAAGCAAAGGAATCTCAACGAAAGTTGTCACGTCCTCCGCACAAA
GAACGACAGAGGAATTTGGGGGTCTGTGTGGCTGCCTTCCAAGCCGTCCG
TGATCGCGTACCTTAAGCCGTACAAAAAAATGCACAGCCATACTGGCTGC
GTACCGTTGTAGCCGGTGAGCATTGTTTTGTTGGGATTCAGGTATGCGAT
CAAGGACGGCTTGAAGCGCAGCCTCAGAGTCCCCCACATTTCGCAGACAT
CCTTGCGTTTCGTTCCGGGGACACTTGTCCTCCAACCTGCTCGCCACCGC
CTGCGCGCTCAACATCACACGACCACGACAGGACCGCGCACCACTGACAC
AGAACAGCGCAACGACACTTGACAAATATTGGGTGACCCCCCAATCCTTT
GATTTCCGCTCCTCAGTTCTCTGACCACGAGTTGGTTCGAAGAGCCGCTA
CTGAGGCATTGTGCAACCTCCTGCCGCACCCCAAGATGGTCGATCACATG
AAGACTGTCGACACTCTCAAACTCTGGGCGGCATTTTCTCAGTTGGGGAT
GGAAGACCCGCCTACGGCTGCGGCAGCGCTCGGGGGCCTTGCGATGGCAG
TACGAGATCCCGAGGTGAGACCTAGTGCAGTTTCGTTCCAAGGAAATCCT
TTCTAACCCAGGGAGGGACTCTGCGCGTGTGCACTCATGCTTATTCTTCA
AGATCACAGCAGTAACCCTCGCTACGCATCTTGAGAGCGAAGATTGAACG
ATTGTCATGTTGCGTCGTATTTCGGAGTCAAAACACATTGCAGTAGTCTT
GTACCATCGCAGTTCATGCGCGTCGGCGACAGTTTGCATGCACTCGTGAC
CTCAAGTCGAAACCGCCATCAAGCCTCGGACATTTTTCTTCGGTCGCTGC
TTGTGTGCTGATCGCAGGTGGCCAAAAGCTTCATGGCAGAAGGAGTCGCC
GGCTGCGAAGCTCTCGTGTGCGCGCTCCTTTCCGTGGAACCGGACGTTCC
GAACGCCAACGATCTCATCCTGAGAGCAGCCGTCGCGACTTCCTCTCTTG
CGGAGGAAGCCAGCTTTCGGTGAGGGAGGGGCACTTGTTAAGGGGACGTC
AGCCGATGACGATGATTTGCTGTATCACGGACGTGAGGCTGGCCCGACCT
GATTGTCATTCAACAATGCTTTGCCCCGGCCATATGTGTCCTTCCACGCG
GCCGCTGTCTAGTGATACTCTCATGTTGGACTGCGGGGTTTGTAGACCAA
GGCAAGTACGCTCGTTACGCCTTACCTTCTGCCAGATTCGAAAGCGTGAT
CTTTGCCGCGCTCCCTTCGCTTGGTTTACCGCTCCACTCGCTGCTCTAGG
GCTGTGGGTGCGTAAGATTTTAACCCCAGTGGACGAGAGACGTCCTCCGC
CTTTGTAGGCTACGTACGGAAGCACGGACAGCAAAAAAAAGGTGCAAATG
GCAAACCAAGAAATGAAAGTGGTGGTCACAAGAATGTTTGGTGTGGCCCG
GAGAAAAGCAGTGTGCGAGTATTGTCGCCGCACATGCGCATCATTTACGC
CACCTACACATGTTTGCCTCTCCTCAAATGAAACACGATGGCATTTCTGT
TGATACAACAGTACACCCATCTCTGGCGGGTGCCCACACAAGGTCTGTGC
GGTTACGGATTTCAGCCCTGATTTCCATGTCAGTCGAGGACAAGCTACAA
TCACGACGAGTATAGTATGTCACGTCTGGATCGCTAATATTGAGGCTAGT
ATTTGGTAAAATGGAGGCAGTACTGAACGCCTTCAATGTCCACTACATGG
GCCGGAGCCGAACAGTTTACCCAGCCCAGGTTGTGTTACCCAGCCCAGGT
TGTGTCCGACAAAGTGCAGCTTTTTCGAATGCAGTCTCCGGTACGTCGTG
CACAGGTGCCTTTTATACAAAACCCGATTCAAGACATTGAGACCCGCCGC
TGCGAGCCGGCCTCTGAACTTAGACCTGATCGGCGGGCATTTGAACCTCT
GCTGTTTCTGCAGCCTTCGAAGTGCTTATGCGAGCTTTTTGGCGAATCCG
ACCGTGCCAACATACACGTCGTTTGTGCACGGTGGCGCCTAATGACGTCG
CAGTTCATGCCGGGAATCCGCAAGCAGGAATGACGTGTTATTTAAATTTG
CTTCAAGAAGGTCGACCGACAATGAAACTTTGTCGAACCGAAATGCGGGT
GGTGGTCAGCTCTCTTCTCCCTTACATCGAAATAATGACCTTGTTCTGCA
TCGGATAAACGCTGGAGCCTCGAGTCTTGGCACAGTCGGCAAGCGTGTGC
AGCCTGGTAGGTCAATCCCTGAGCTCACGCGTAGCTTCACAATTCTTCGA
ACAATCGTTTCCCACCCTTCATTAAGGATGACTCCGGCGACACGACACAT
CTTGTCAAACGCATGAGGCACGCAGCACCACCGCTACCGCTCATTAGGAC
AGAATGTTACCGTTTGTCTCCTTGCTTGTCGACCAGGCCTCTGCTACTGC
TTGGAGGGGTGGCCGACGCCCTGAGCGAGGCGCTGCAAACGGTGCGAGGT
ACCGAAGGCATGGTGGCCGCGAGGGCTGCGGAGGCATGCGATGACGCACT
CAAGTTGCTTAAGCAGGAGCTGAAGGAAGTTCAGGCGATGCAGAAAGCGC
ATAAAACTCAAGAGCTGGCGCCTGCTTCAGATCAGACCGATGTTTTGGAG
CTCGATTGATTGTGGGTTGAACTTGATCTTGGTAATGGTTTTAATAGATT
GAACGAACTTGGTATCGGTAGTGGTACTTCTTCCAAAGCGAGCAGACGCA
TATTTTTCGGCTGCACTTCGCGAGTCGCGGCATCACTTCATTTACTCACT
TGATGCCGTCAAGTAAGATTCAGCAAAAGTGTTTTGGCACACTCGTGTTC
ACCGGTTTGTCCGTCTCTAGCCTCCTACGCCTCAGTGGGATAGGTGCGGA
GATTCCCGTGTTCGAGCAATGGCAGTCTGTCATGGCGTTTCCCCTCCGCC
CCATGCCAACGTTCATGAATATTTGGTGCCGCTTAATACTCTGAATGACA
AGGGAGAATTGAATGAGCAGGGATGGATGAGGCTGCGGGTTCAGAGAATG
GGCTGCGTAGTTAGAAGGGTTCAGAAAATTGAAGGGGAAAAGGTCTTGGT
AATGTTGTCGGAGAGCTACGGATTACAATTTTGGTTGCGCACAGCTGCAG
CTGCTTCGAAGCCGTTCCGAACGTCGACCGGCCAATTTCTGTCGTCGCGT
G

Coding sequence (CDS) from alignment at P-fluviatile_contig10:3204516..3219816-

>mRNA_P-fluviatile_contig10.878.1 ID=mRNA_P-fluviatile_contig10.878.1|Name=mRNA_P-fluviatile_contig10.878.1|organism=Porterinema fluviatile SAG_2381|type=CDS|length=6630bp|location=Sequence derived from alignment at P-fluviatile_contig10:3204516..3219816- (Porterinema fluviatile SAG_2381)
ATGAACAATCCACCTCCTCCACCTCCGGGTGGTGCAGCAGCAGGGAAGGA
GGCAGGAAACAAGGCCTTCGCAGCGGGCGATCTGGAGCAAGCGTACAAGA
TGAACAATCCACCTCCTCCACCTCCGGGTGGTGCAGCAGCAGGGAAGGAG
GCAGGAAACAAGGCCTTCGCAGCGGGCGATCTGGAGCAAGCGTACAAGCT
TTACTCCTCCGCGTTGGAGCAATGCCGCGCAGATTCGTCAGCCGAAGGGA
CTAACCTCAGGGCTACTGTTTTAACCAATCGCGCGATGGTACTCTTCAAG
CAAGGGAAGCTTTACTCCTCCGCGTTGGAGCAATGCCGCGCAGATTCGTC
AGCCGAAGGGACTAACCTCAGGGCTACTGTTTTAACCAATCGCGCGATGG
TACTCTTCAAGCAAGGGAAGGCGGAGGCGTGCGTGTCGGACTGCACCAAT
GCGCTGGAGGTTGATCCTGGACGGGTCAAGGCATACTTCAGGAGAGCGAT
CGCCCGAGAGCAGCTTGGAGAAGATAGTGATGCACTCAGAGATGTCAAGA
GGGCGCTGGAGGCGGAGGCGTGCGTGTCGGACTGCACCAATGCGCTGGAG
GTTGATCCTGGACGGGTCAAGGCATACTTCAGGAGAGCGATCGCCCGAGA
GCAGCTTGGAGAAGATAGTGATGCACTCAGAGATGTCAAGAGGGCGCTGG
AGCTGGACCCCGGCAACAAAGAGGCCGTGCGGGCGGCGAGGAGGATAAAG
GACAAGGTCGCGCAGGCCGCCAAGCTTAACACACCTATCCGGCAGCTGGA
CCCCGGCAACAAAGAGGCCGTGCGGGCGGCGAGGAGGATAAAGGACAAGG
TCGCGCAGGCCGCCAAGCTTAACACACCTATCCGGCAGGCTCTCAAGGCC
TTGCGTGCGGCGGCCGACAACGTGCAGAAACAGCCTGCTGGGACGGGCGC
GACGATCGCCGCAGAGGACACGGAGCAAAGTCAGATGATGCTGGCACTGG
GCGCTCTGTTGTCGAGCGAGCCGGCGGCTGCCGTGCAGGCTCTCAAGGCC
TTGCGTGCGGCGGCCGACAACGTGCAGAAACAGCCTGCTGGGACGGGCGC
GACGATCGCCGCAGAGGACACGGAGCAAAGTCAGATGATGCTGGCACTGG
GCGCTCTGTTGTCGAGCGAGCCGGCGGCTGCCGTGCAGCTCCTGAACGAG
GGTGGCGTAGTTGCGCTGTTAGGGTGCATGAAAGCTGGCGAAGACTTCCC
AAAAACTGCGAAGGAGGCGCTGAGAGCTCTCGGAGCAGCAGCGCAGCACA
AGGCATTCGGGTTGGTGCTGCTGAAGACCCAAGGGAAGCTCCTGAACGAG
GGTGGCGTAGTTGCGCTGTTAGGGTGCATGAAAGCTGGCGAAGACTTCCC
AAAAACTGCGAAGGAGGCGCTGAGAGCTCTCGGAGCAGCAGCGCAGCACA
AGGCATTCGGGTTGGTGCTGCTGAAGACCCAAGGGAAGGAAATTCTCTCG
GAGCTAGCGGACATCTTATCGGCGGCCGGAGATTCCGGGGGGGAGGGCAG
CCCCGAAGTGTCGATGGGGGCACTGACGGCCGCCGTTCATCTGCTGCAGT
GGGACCAGCAAGTGGAAATTCTCTCGGAGCTAGCGGACATCTTATCGGCG
GCCGGAGATTCCGGGGGGGAGGGCAGCCCCGAAGTGTCGATGGGGGCACT
GACGGCCGCCGTTCATCTGCTGCAGTGGGACCAGCAAGTGGTGATCCAGG
GCCTCTCGGAGCTCAAGGATGTCGACCGCGCATCGGTGTTTGAGGCGGGG
AAGGACCTCTCAGACGCCGCAGTCAAGGTGCTGGCGCGTGGCCTCTCCAT
GCCAGACCGCCAGGTGATCCAGGGCCTCTCGGAGCTCAAGGATGTCGACC
GCGCATCGGTGTTTGAGGCGGGGAAGGACCTCTCAGACGCCGCAGTCAAG
GTGCTGGCGCGTGGCCTCTCCATGCCAGACCGCCAGGTTTTCGACGCGAC
TTTAGAAGCCACGGTTAGATGGTGTGCTACAGGAGCGGACGAAACATACG
ACCCCAAGGACGATGCGGGCTTGCCAGGTTTTCGACGCGACTTTAGAAGC
CACGGTTAGATGGTGTGCTACAGGAGCGGACGAAACATACGACCCCAAGG
ACGATGCGGGCTTGCCAGCAAAAGATGCGTACGAGAAGCGGCAAAAGCTG
CACCGACAGAGGGTGAGGGCTAGCCTGTGGCTCCGAGACAAGGCCTTGGC
GCTGCTTTCGTCATCTTCTTTCCTTGTTAGCAAAAGATGCGTACGAGAAG
CGGCAAAAGCTGCACCGACAGAGGGTGAGGGCTAGCCTGTGGCTCCGAGA
CAAGGCCTTGGCGCTGCTTTCGTCATCTTCTTTCCTTGTTAGTCTCTACA
AAGCTCTTAGTAGCGAGGAGCCCGTGGAGAGGAGGAAGGCCTCGGCGTGC
CTGAGCCGCATCGGCAGAGTGGTGGCCGGAGTGCAGGCGAGCGAGAAGGA
GAGGGAGGCTGACTCCAACGCCATTAAGAAGGCCGTGAAGCCGCTGTTGA
GCTTCCAGCCGGGGCCAGGAGGCGGTGTCGTGGACAACTCAAACGTCTCT
ACAAAGCTCTTAGTAGCGAGGAGCCCGTGGAGAGGAGGAAGGCCTCGGCG
TGCCTGAGCCGCATCGGCAGAGTGGTGGCCGGAGTGCAGGCGAGCGAGAA
GGAGAGGGAGGCTGACTCCAACGCCATTAAGAAGGCCGTGAAGCCGCTGT
TGAGCTTCCAGCCGGGGCCAGGAGGCGGTGTCGTGGACAACTCAAACGCG
GACGGAGAGGTGCTCGCTGCGATATCGAGCGAGTCTCGGATGCAGGGGGC
CGTGAGGAGGGTAACCACCGCCGCGGCCCTTGCTAATGCGGAAGGACCAC
TAGGAGCGTGGGCCATGAGCCTAAACGGCTTTCTCGCAGAACGGACGGAG
AGGTGCTCGCTGCGATATCGAGCGAGTCTCGGATGCAGGGGGCCGTGAGG
AGGGTAACCACCGCCGCGGCCCTTGCTAATGCGGAAGGACCACTAGGAGC
GTGGGCCATGAGCCTAAACGGCTTTCTCGCAGAAGCGATGACTCTGGCGG
CGTCAGGCGACGAAGTGGCGCAAGAGGCGGCGGCCGAGTGTTTCTGCTCT
GCGGCGTCTTTCGACGGGGGTCGAGCTCTCCTCGGCCCCGTGGTGGAGAG
CGGCGTGATCTTCGCGCTCATGGAAAGCAAGAGTCAGGCAGCCAGATCTG
CCGCTGCGAGGCGATGACTCTGGCGGCGTCAGGCGACGAAGTGGCGCAAG
AGGCGGCGGCCGAGTGTTTCTGCTCTGCGGCGTCTTTCGACGGGGGTCGA
GCTCTCCTCGGCCCCGTGGTGGAGAGCGGCGTGATCTTCGCGCTCATGGA
AAGCAAGAGTCAGGCAGCCAGATCTGCCGCTGCGAGTGCCTACGCCAAGC
TCGGGATGATTTCGAGCGCCCTTTCGAGCGACTCAGATGACGTTACCAAG
CTCCTCAACGTCTCGCTCGACCTCATCACCGCGTCTCCAAACCCTGCTAC
CAAGCAGAAAAACGATAGTCAGCCGGGGTTCGGCGTTAAAAGGGCCGGAA
CCACGATGAACAGTTTGAACGGGGCGGGGGCGATCGCGGACAGCGAGCGC
GCCGTAGAGGTCCTGGGTTTCCTTGTCTCCAAGACCAAGTGCCTACGCCA
AGCTCGGGATGATTTCGAGCGCCCTTTCGAGCGACTCAGATGACGTTACC
AAGCTCCTCAACGTCTCGCTCGACCTCATCACCGCGTCTCCAAACCCTGC
TACCAAGCAGAAAAACGATAGTCAGCCGGGGTTCGGCGTTAAAAGGGCCG
GAACCACGATGAACAGTTTGAACGGGGCGGGGGCGATCGCGGACAGCGAG
CGCGCCGTAGAGGTCCTGGGTTTCCTTGTCTCCAAGACCAAGGTGAAGGA
AGAACTCTGCTACGGGTCTGCCAGGTGCCCCAAGGCGCTGATCCGGCTCT
GCAGGGCCGCCGAGCACGTCAGCGGGACGAGCCCCATCGCCTACGGACTC
GCATTCCTCTTTTCCTCGGTGAAGGAAGAACTCTGCTACGGGTCTGCCAG
GTGCCCCAAGGCGCTGATCCGGCTCTGCAGGGCCGCCGAGCACGTCAGCG
GGACGAGCCCCATCGCCTACGGACTCGCATTCCTCTTTTCCTCGCTGTGC
GTGAGCAAGGAGGAGGAGGTGAAAGAGTCGTTCAAGGGGAAGGACATGAC
CTACGAGCAGTACGAGCAGCTGAAGCAGCTCAACAATGCACACGGGCAGG
GTCCTAAGGAGGACGAGACCGACATGAAGGATAACGTCGAGTTCGCAAAG
CGAAGCTGTGCGTGAGCAAGGAGGAGGAGGTGAAAGAGTCGTTCAAGGGG
AAGGACATGACCTACGAGCAGTACGAGCAGCTGAAGCAGCTCAACAATGC
ACACGGGCAGGGTCCTAAGGAGGACGAGACCGACATGAAGGATAACGTCG
AGTTCGCAAAGCGAAGATCCCACGCCCTGGCCGAGGCAGGGTGCGTGGTT
GCTCTTAAGAAAATCGCGGACGATGCTAGTCCGGCAACGAGGGAGCGCAT
CGCCCTTTGCTTCCGCAGGCTGGCCACGGAGCCCTTGAATCGAGGCATCA
TTGTGCAGCAGGGGGGGTTGATCCCACGCCCTGGCCGAGGCAGGGTGCGT
GGTTGCTCTTAAGAAAATCGCGGACGATGCTAGTCCGGCAACGAGGGAGC
GCATCGCCCTTTGCTTCCGCAGGCTGGCCACGGAGCCCTTGAATCGAGGC
ATCATTGTGCAGCAGGGGGGGTTGGCCCTGCTGATCAACATGGCATCGCC
GCCAAAAGCCAGCAAGGAAGACAAATCGGAAAATGGCCAGCATGACGAGG
AAAAGGGCAAGGGTTGCCGGCTAGAGGCCAGGCACGCCATCGCGAAGACA
CTAGTCACAACAAACCCCAACCTCCTCACGGAGGCGCAGACTATGGGGCC
CTGCTGATCAACATGGCATCGCCGCCAAAAGCCAGCAAGGAAGACAAATC
GGAAAATGGCCAGCATGACGAGGAAAAGGGCAAGGGTTGCCGGCTAGAGG
CCAGGCACGCCATCGCGAAGACACTAGTCACAACAAACCCCAACCTCCTC
ACGGAGGCGCAGACTATGGGGTCGGTACCCCCCTTGATCGCCATGTGCAG
GGATCACGAGTCTCTCAATCTACAGCAGTTCGAGGGCCTCATGGCGCTCA
CCAATCTGGCCAGCCTGGACAACGTGAAAAGTCGTATCGTGGCTGAAAAG
GGGATTTCGTGCTTCCACTATCTGCAGGTCGGTACCCCCCTTGATCGCCA
TGTGCAGGGATCACGAGTCTCTCAATCTACAGCAGTTCGAGGGCCTCATG
GCGCTCACCAATCTGGCCAGCCTGGACAACGTGAAAAGTCGTATCGTGGC
TGAAAAGGGGATTTCGTGCTTCCACTATCTGCAGTTCTCTGACCACGAGT
TGGTTCGAAGAGCCGCTACTGAGGCATTGTGCAACCTCCTGCCGCACCCC
AAGATGGTCGATCACATGAAGACTGTCGACACTCTCAAACTCTGGGCGGC
ATTTTCTCAGTTGGGGATGGAAGACCCGCCTACGGCTGCGGCAGCGCTCG
GGGGCCTTGCGATGGCAGTACGAGATCCCGAGTTCTCTGACCACGAGTTG
GTTCGAAGAGCCGCTACTGAGGCATTGTGCAACCTCCTGCCGCACCCCAA
GATGGTCGATCACATGAAGACTGTCGACACTCTCAAACTCTGGGCGGCAT
TTTCTCAGTTGGGGATGGAAGACCCGCCTACGGCTGCGGCAGCGCTCGGG
GGCCTTGCGATGGCAGTACGAGATCCCGAGGTGGCCAAAAGCTTCATGGC
AGAAGGAGTCGCCGGCTGCGAAGCTCTCGTGTGCGCGCTCCTTTCCGTGG
AACCGGACGTTCCGAACGCCAACGATCTCATCCTGAGAGCAGCCGTCGCG
ACTTCCTCTCTTGCGGAGGAAGCCAGCTTTCGGTGGCCAAAAGCTTCATG
GCAGAAGGAGTCGCCGGCTGCGAAGCTCTCGTGTGCGCGCTCCTTTCCGT
GGAACCGGACGTTCCGAACGCCAACGATCTCATCCTGAGAGCAGCCGTCG
CGACTTCCTCTCTTGCGGAGGAAGCCAGCTTTCGGCCTCTGCTACTGCTT
GGAGGGGTGGCCGACGCCCTGAGCGAGGCGCTGCAAACGGTGCGAGGTAC
CGAAGGCATGGTGGCCGCGAGGGCTGCGGAGGCATGCGATGACGCACTCA
AGTTGCTTAAGCAGGAGCTGAAGGAAGTTCAGGCGATGCAGAAAGCGCAT
AAAACTCAAGAGCTGGCGCCTGCTTCAGATCAGACCGATGTTTTGGAGCT
CGATTGAGCCTCTGCTACTGCTTGGAGGGGTGGCCGACGCCCTGAGCGAG
GCGCTGCAAACGGTGCGAGGTACCGAAGGCATGGTGGCCGCGAGGGCTGC
GGAGGCATGCGATGACGCACTCAAGTTGCTTAAGCAGGAGCTGAAGGAAG
TTCAGGCGATGCAGAAAGCGCATAAAACTCAAGAGCTGGCGCCTGCTTCA
GATCAGACCGATGTTTTGGAGCTCGATTGA