mRNA_P-fluviatile_contig10.877.1 (mRNA) Porterinema fluviatile SAG_2381

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

Overview
NamemRNA_P-fluviatile_contig10.877.1
Unique NamemRNA_P-fluviatile_contig10.877.1
TypemRNA
OrganismPorterinema fluviatile SAG_2381 (Porterinema fluviatile SAG_2381)
Homology
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BLAST of mRNA_P-fluviatile_contig10.877.1 vs. uniprot
Match: A0A6H5L6I9_9PHAE (Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2879 RepID=A0A6H5L6I9_9PHAE)

HSP 1 Score: 546 bits (1408), Expect = 1.790e-175
Identity = 287/350 (82.00%), Postives = 313/350 (89.43%), Query Frame = 1 
Query: 1114 SSLVLTKPETIVVVTGATGRVGSLAVRRLLELYPNVLVRAIVNDFAKGSRLLKEEKDKYGIKLEIVAAQLRGMRSAAKGVEGASAVVFCASGFAQNLSPIQRLANAVRLTINPSSVADVEGVRDVALALKDTKKIVSRSSKAAAQQAKTAAKEGL-----DEPQPLCPNGPRFVLLSSAAVTRPNWSPEEKALYPLAADVPIVKLNPLNILTVKAEGETELRKVGIPYTVVRPCGLNDDHPKGRPLLSVGDTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGFEKVPASAKSNNKGVIDQALSTLPTDEALENDPELLKSIRRFTYPVLTQLRPVPLAQMPQKEE 2148
            SS+ LTKPETIVVVTGATGRVGSLAVRRLLELYPNVLVRA+V D AKG RLLKEE DKYGIKLEIV+A+L GMRSAAK V GASAVVFCASGFAQNLSPI+RLANAVRLTINPSSVADVEGVRDVA ALK TKK+VS++SKA  Q+AK  A+EG      +EP+PL PN PRFVLLSSAAVTRPNWS E+KALYPL+ADVPIVKLNPLNILTVKA+GE ELR+VGIPY VVRPCGLNDDHP+GRP+ SVGDTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGFEKV +S K+NNKG IDQAL+ LPTDE+L  DPE+LK+ RR+TYPVLTQLRPVPL QM   +E
Sbjct:  515 SSITLTKPETIVVVTGATGRVGSLAVRRLLELYPNVLVRAVVTDMAKGKRLLKEEIDKYGIKLEIVSAELGGMRSAAKVVAGASAVVFCASGFAQNLSPIERLANAVRLTINPSSVADVEGVRDVATALKATKKLVSKASKAQ-QEAKGKAEEGGKAKEDEEPEPLYPNAPRFVLLSSAAVTRPNWSSEDKALYPLSADVPIVKLNPLNILTVKAQGEKELREVGIPYVVVRPCGLNDDHPRGRPIFSVGDTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGFEKVASSVKTNNKGNIDQALAGLPTDESLSKDPEMLKNFRRYTYPVLTQLRPVPLVQMSNNDE 863
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BLAST of mRNA_P-fluviatile_contig10.877.1 vs. uniprot
Match: A0A836CQH2_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CQH2_9STRA)

HSP 1 Score: 223 bits (568), Expect = 9.570e-61
Identity = 145/358 (40.50%), Postives = 190/358 (53.07%), Query Frame = 1 
Query: 1144 IVVVTGATGRVGSLAVRRLLELYPNVLVRAIVNDFAKGSRLLKEEKDKYGIKLEIVAAQLRGMRSAAKGVEGASAVVFCASGF------------AQNLSPIQRLANAVRLTINPSSVADVEGVRDVALALKDTKKIVSRSSKAAAQQAKTAAK-------EGLDEPQ------------PLCPNG--PRFVLLSSAAVTRPNWSPEEKALYPLAADVPIVKLNPLNILTVKAEGETELRKVGIPYTVVRPCGLNDDHPKGRPLLSVGDTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGFEKVPASAKSNNKGVIDQALSTLPTDEALENDPELLKSIRRFTYPVLTQLRPV 2118
            ++ V G +GRVG LAV+R+LE+YP   VRA+V D A+   +L EE      +LE+V A L         V+  SA+V+CA+ F            AQ   P+QR+ N      NP +  + + V   A AL       +  +     QA T A        +G   P                  G  PRFVLLSSAAVTRP WS  EK  +  AA +PIVKLNP  IL +K +GE  LR+  +PYT+VRPCGLND    GR ++S GD AAGRICR DVA+ L  CL  P AT KTFE+ +LPG  K P          +   + +LPTD  L + P+ L+++RR  Y +L+QLRPV
Sbjct:   44 LISVAGGSGRVGRLAVKRVLEMYPEARVRAVVRDAARAKDVLSEELTSQ--RLEVVKADLSTAAGITAAVKDCSAMVWCATSFSDASAHSFRKSWAQRSPPVQRIFNLAAFLFNPDNCLEAKAVPAAAAAL------AANGAPPYRLQAPTPAPXXXXXXXKGGTRPSLGXXXXXXXXXXXXXXEGVLPRFVLLSSAAVTRPAWSAAEKEEFKAAAQIPIVKLNPFKILDLKRKGEEALRRTAVPYTIVRPCGLNDKQAPGRLIVSAGDVAAGRICRADVAEGLAACLSEPLATAKTFEMFALPGLSKAP----------VGPPIGSLPTDAQLSS-PDALQAVRRGAYGLLSQLRPV 382
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BLAST of mRNA_P-fluviatile_contig10.877.1 vs. uniprot
Match: A0A7S3Y3H6_HETAK (Hypothetical protein (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3Y3H6_HETAK)

HSP 1 Score: 190 bits (483), Expect = 1.260e-49
Identity = 130/326 (39.88%), Postives = 162/326 (49.69%), Query Frame = 1 
Query: 1147 VVVTGATGRVGSLAVRRLLELYPN--VLVRAIVNDFAKGSRLLKEEKDKYGI-KLEIVAAQLRGMRSAAKGVEGASAVVFCASGFAQNLSPIQRLANAVRLTINPSSVADVEGVRDVALALKDTKKIVSRSSKAAAQQAKTAAKEGLDEPQPLCPNGPRFVLLSSAAVTRPNWSPEEKALYPLAADVPIVKLNPLNILTVKAEGETELRKVGIPYTVVRPCGLNDDHPKGRPLLSVGDTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGFEKVPASAKSNNKGVIDQALSTLPTDEALENDPELLKSIRRFTYPVLTQLRP 2115
            VVV GA GRVG   V+ LL   PN  V V A V D +K   +  E      + +++I    L   +  A   EGA A ++CASGF+   SPI R     ++   P    D+  +R++                     A  A KE       LCP  P+ VL SSA VTRP+W  ++K  YP AAD+PIV+LNPL IL VKA+GE  LR+ G  Y VVRPCGLND HP GRP+LS GD A GR  R D A +L   L  P A GKTFE  ++ G  K         +   DQ    LP  EA+     L       TY +L QL P
Sbjct:   45 VVVAGANGRVGRFVVQELLTR-PNATVSVTAAVRDPSKAKNIFTEILSPGQLERVKIKKCDLGNQKELAAACEGADAAIWCASGFSDQSSPINRALALFKVAFTPKESLDIAAIRNLG--------------------AIFAGKEN-----GLCPGAPQVVLCSSAGVTRPDWPEDKKLKYPGAADIPIVRLNPLGILGVKAQGEEALRRTGAAYAVVRPCGLNDQHPAGRPVLSQGDMAVGRTSRRDAASLLAAMLFEPGAAGKTFEAIAVAGLPKP--------RSYADQLGRLLPDGEAVPEAALLA------TYALLQQLVP 330
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BLAST of mRNA_P-fluviatile_contig10.877.1 vs. uniprot
Match: L1JNG1_GUITC (NAD(P)-bd_dom domain-containing protein n=1 Tax=Guillardia theta (strain CCMP2712) TaxID=905079 RepID=L1JNG1_GUITC)

HSP 1 Score: 182 bits (462), Expect = 1.550e-46
Identity = 115/292 (39.38%), Postives = 160/292 (54.79%), Query Frame = 1 
Query: 1114 SSLVLTKPETIVVVTGATGRVGSLAVRRLL-------ELYPNVLVRAIVNDFAKGSRLLKEEKDKYGIKLEIVAAQLRGMRSAAKGVEGASAVVFCASGFAQNL--SPIQRLANAVRLTINPSSVADVEGVRDVALALKDTKKIVSRSSKAAAQQAKTAAKEGLDEPQPLCPNGPRFVLLSSAAVTRPNWSPEEKALYPLAADVPIVKLNPLNILTVKAEGETELRKVGIPYTVVRPCGLNDDHPKGRPLLSVGDTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGF 1962
            S++V  K   +V+V GATGRVG   V  LL       +  P + V+A+  D  K +R+L  +++     +E++   L    + A+  +G  AV++CA+GF+ +   S + +L    RL + P    D+ G+  +   L                       EG     P  P GPR V+ SSAAVTRP W+ E+K  Y  AAD+PIV+LNPL IL VK +GE  LR  G+ Y +VRPCGLND+ P GR + S GD A GRI REDVA +LV+ L   +A GKTFE  +LPG+
Sbjct:   49 STMVSDKDVPVVLVAGATGRVGRKVVNLLLSRSKDPDDKLPELKVKALARDTDKAARVLPSDEN-----VEVIKCDLGDASAVARCCKGVDAVIWCATGFSDSSDSSLLNKLLGVARLKLTPRQSIDIAGLSQIGKLL-----------------------EG-QASHPDLP-GPRVVMCSSAAVTRPTWNEEKKMRYEGAADIPIVRLNPLGILDVKRDGEQALRSSGVSYAIVRPCGLNDNWPSGRAVFSQGDIAVGRINREDVAQLLVQVLLEKDAQGKTFECVALPGY 310
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BLAST of mRNA_P-fluviatile_contig10.877.1 vs. uniprot
Match: A0A7S3QK24_9STRA (Hypothetical protein n=1 Tax=Chaetoceros debilis TaxID=122233 RepID=A0A7S3QK24_9STRA)

HSP 1 Score: 176 bits (446), Expect = 1.680e-44
Identity = 117/328 (35.67%), Postives = 168/328 (51.22%), Query Frame = 1 
Query: 1147 VVVTGATGRVGSLAVRRLLELYPNVLVRAIVNDFAKGSRLLKEEKDKYGIKLEIVAAQLRGMRSAAKGVEG--ASAVVFCASGFAQNLSP--IQRLANAVRLTINPSSVADVEGVRDVALALKDTKKIVSRSSKAAAQQAKTAAKEGLDEPQPLCPNGPRFVLLSSAAVTRPNWSPEEKALYPLAADVPIVKLNPLNILTVKAEGETELRKVGIPYTVVRPCGLNDDHPKG-RPLLSVGDTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGFEKVPASAKSNNKGVIDQALSTLPTDEALENDPELLKSIRRFTYPVLTQLRP 2115
            + VTGATGR G+L V+ LL+   +V+  A+V D +K    L  + D     L ++   L   +     +      A ++CA+GF+ N     I+++     + I P    D  G+  +A   +   K  + ++                         P+ ++LSSA VTRP+WS E+KA++  +AD+PIV+LNP NIL +KA+ E  LR+  +PYT+ RP GLND  P G RP+ S GD A GRI R DVA +LV CL TP+ATGKTFE  SL G+   P+         +  ALS L  D    +D  L  +    TY  + QL P
Sbjct:   54 IAVTGATGRTGALVVKELLDRGVDVV--ALVRDLSKAETSLPNDDDGS---LTVIQCDLGSEKDIISTITSNDCDAAIWCATGFSDNPQQTLIEKIQGIFGVAITPKQSIDAVGIPALAKCFQADDKDSNNTT-------------------------PKVIMLSSAGVTRPSWSEEKKAMFEGSADIPIVRLNPFNILNIKADSEERLRQSRVPYTIFRPTGLNDKWPAGARPIFSQGDVAVGRINRADVAKILVDCLSTPDATGKTFEAFSLQGYPPAPS---------VSTALSRLQKD----SDGPLSDATLSCTYSAMQQLLP 338
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BLAST of mRNA_P-fluviatile_contig10.877.1 vs. uniprot
Match: A0A0G4EAH5_VITBC (NAD(P)-bd_dom domain-containing protein n=1 Tax=Vitrella brassicaformis (strain CCMP3155) TaxID=1169540 RepID=A0A0G4EAH5_VITBC)

HSP 1 Score: 176 bits (445), Expect = 1.690e-44
Identity = 119/322 (36.96%), Postives = 158/322 (49.07%), Query Frame = 1 
Query: 1162 ATGRVGSLAVRRLLELY--PNVLVRAIVNDFAKGSRLLKEEKDKYGIKLEIVAAQLRGMRSAAKGVEGASAVVFCASGFAQNLSPIQRLANAVRLTINPSSVADVEGVRDVALALKDTKKIVSRSSKAAAQQAKTAAKEGLDEPQPLCPNGPRFVLLSSAAVTRPNWSPEEKALYPLAADVPIVKLNPLNILTVKAEGETELRKVGIPYTVVRPCGLNDDHPKGRPLLSVGDTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGFEKVPASAKSNNKGVIDQALSTLPTDEALENDPELLKSIRRFTYPVLTQLRPVP 2121
            ATGR G   V  L++ Y    V VR    D  K  ++  +  D+    +EIV   L    S  K   G   VV+ A+GF+Q  S + R+ + +R   +P +  +VEG++ +  ALK               Q +   KE  D                 AA+TRP W   EK  +    D+PIVKLNP NIL  K EGE  LRK G+PY +VRPCGLND H +GRP+L  GD A GRI R+D A+V+   L  PEATGKTFEV ++P ++K P + K   +G        L  D     D    K +    Y  L QL+P P
Sbjct:   47 ATGRTGKEVVANLIKRYRQDEVTVRVGARDVKKAEQMFSDVSDR----VEIVQCDLLNEGSINKATSGVDKVVWAATGFSQQQSLLDRVFSLIRFATSPKTTVEVEGIQKLVQALK---------------QQRDGRKEQDD-----------------AALTRPFWDEAEKEKFVEVTDIPIVKLNPFNILGTKLEGENVLRKSGVPYCIVRPCGLNDAHKRGRPVLVQGDVAIGRINRKDAAEVVCSVLECPEATGKTFEVFTIPLYKKSPQTFKKTLEG--------LKRDSPDWQDDVGSKVVSDELYEFLRQLQPNP 324
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BLAST of mRNA_P-fluviatile_contig10.877.1 vs. uniprot
Match: A0A7S2UX60_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UX60_9STRA)

HSP 1 Score: 173 bits (439), Expect = 7.270e-44
Identity = 123/341 (36.07%), Postives = 171/341 (50.15%), Query Frame = 1 
Query: 1135 PETIVVVTGATGRVGSLAVRRLLE--LYPNVLVRAIVNDFAKGSRLLKEEKDKYGI-KLEIVAAQLRGMRSAAKGVEGASAVVFCASGFAQNLSPIQRLANAVRLTINPSSVADVEGVRDVALALKDTKKIVSRSSKAAAQQAKTAAKEGLDEPQPLCPNGPRFVLLSSAAVTRPNWSPEEKALYPLAADVPIVKLNPLNILTVKAEGETELRKVGIPYTVVRPCGLNDDHPKGRPLLSVGDTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGFEKVPASAKSNNKGVIDQALSTLPTDEALENDPELLKSIRRFTYPVLTQLRPVPLAQMPQKEE 2148
            P+  ++V GATG++G L V  LL      +V V+A V +  K   + +E K +  I +LEI    L               V++CA+GF    SP+ ++   ++L   P +  D+ G++++                     AK    E +D      P+    V+ SSA VTRP+WS E+KA +  A+D+PIV+LNP  IL  K +GE  LR+ G  YT+ RP GLNDD P GRP +S GD A GRI R DVA +LV  L  P+AT KTFE  SLP F K P S         DQ LS L +D       E+ +     TY ++ Q  P    QM + +E
Sbjct:   20 PDRRILVCGATGKLGRLVVEELLTNPSTADVQVKAAVRNTGKAKEIFRESKFQSEISRLEIKKCDLGNESQLRSVCSDVDQVIWCATGFTDTSSPLDKVLGLLKLQFQPETSLDISGLKNLGSVF-----------------AKKKKGEDIDNSSATLPS---IVVCSSAGVTRPSWSDEKKARFIGASDIPIVRLNPFGILDNKLKGEEALRESGADYTIFRPGGLNDDWPSGRPFISQGDLAVGRINRADVASLLVAMLSEPKATKKTFEAISLPQFPK-PLS--------YDQQLSRLVSD-----GQEISEETLDCTYALMQQCTP---GQMLKPQE 323
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BLAST of mRNA_P-fluviatile_contig10.877.1 vs. uniprot
Match: A0A0G4GXT4_9ALVE (NAD(P)-bd_dom domain-containing protein n=1 Tax=Chromera velia CCMP2878 TaxID=1169474 RepID=A0A0G4GXT4_9ALVE)

HSP 1 Score: 172 bits (435), Expect = 3.670e-43
Identity = 128/341 (37.54%), Postives = 176/341 (51.61%), Query Frame = 1 
Query: 1111 ASSLVLTKPETIVVVTGATGRVGSLAVRRLLELYPNVLVRAIVNDFAKGSRLLKEEKDKYGIKL----EIVAAQLRGMRSAAKGVEGASAVVFCASGFAQNLSPIQRLANAVRLTINPSSVADVEGVRDVALALKDTKKIVSRSSKAAAQQAKTAAKEGLDEPQPLCPNGPRFVLLSSAAVTRPNWSPEEKALYPLAADVPIVKLNPLNILTVKAEGETELRKVGIPYTVVRPCGLNDDHPKGRPLLSVGDTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGFEKVPASAKSNNKGVIDQALSTLPTDEALENDPELLKSIRRFTYPVLTQLRPVP 2121
            ASS   + P+  V+V GA GRVG   V  L++    VL  A V +   G   L+     +G  L    +IV   L    S  +  + A AV+FCASG + +   +    +AVR      +V    GV++         K+ S ++   A+   + AK+G    +    + PR V LSSAAVTRP+WS EEK ++   A++PIVKLNP +IL  K EGE  +R  G+PY VVR CGLND+ P GRP++  GD + GRICR DVA+VLV CL    A+ KTFEV S P   K        N G+   AL  +  D     D    +++    Y +L QL+  P
Sbjct:   24 ASSAAPSSPQK-VLVAGAAGRVGRRVVENLVKRGTGVL--AAVRNVDSGKETLESL---FGGSLPPEVQIVPCDLTSANSMQEACKDADAVIFCASGLSPSTGTV---GSAVR------AVKSFFGVKE---------KVDSAAAGVLARALLSGAKKG----EVAGSSTPRLVHLSSAAVTRPSWSEEEKEVFKEVAEIPIVKLNPFDILGDKLEGEESVRSSGVPYCVVRACGLNDNQPPGRPVVVTGDVSVGRICRSDVAEVLVSCLFEQAASQKTFEVFSRPELPK--------NSGIFRSALERVKPDSKDWRDAVGSRAVSPELYSLLQQLQGPP 328
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BLAST of mRNA_P-fluviatile_contig10.877.1 vs. uniprot
Match: L1JRK4_GUITC (NAD(P)-bd_dom domain-containing protein n=1 Tax=Guillardia theta (strain CCMP2712) TaxID=905079 RepID=L1JRK4_GUITC)

HSP 1 Score: 169 bits (428), Expect = 7.480e-43
Identity = 106/269 (39.41%), Postives = 144/269 (53.53%), Query Frame = 1 
Query: 1147 VVVTGATGRVGSLAVRRLLELYPNVLVRAIVNDFAKGSRLLKEEKDKYGIKLEIVAAQLRGMRSAAKGVEGASAVVFCASGFAQNLSPI-QRLANAVRLTINPS--SVADVEGVRDVALALKDTKKIVSRSSKAAAQQAKTAAKEGLDEPQPLCPNGPRFVLLSSAAVTRPNWSPEEKALYPLAADVPIVKLNPLNILTVKAEGETELRKVGIPYTVVRPCGLNDDHPKGRPLLSVGDTAAGRICREDVADVLVRCLGTPEATGKTFEV 1944
            ++V GATGRVG     ++L  YP   VRA   +  K S++L +    Y  ++E+V   L          +G S  V+CASGFA     I  RL   V++ +        D+ G   +A  LKD    +    +      +    +G++E  P      R VLLSSAAVTRP WS E+K  YP AA + IV+LNPLNIL  K +GE +L+  G+PYT++R CG+N  HP G   L  GDTA GRI  +D+A  L   LG P+A GKT E+
Sbjct:   18 ILVAGATGRVGRYVCEQVLLRYPGSQVRATFRNETKASQVLSKLTKDYPSRIELVQCDLNKRSDVRTITQGVSQAVWCASGFAPPRGGIFSRLLYLVKIKMQQKLRRALDIRGPAMMAEMLKDQPPPLIAKGEGTVTVERKEQGDGVEETLP------RLVLLSSAAVTRPGWSDEQKEKYPEAAGIAIVRLNPLNILGSKLKGEEKLKATGVPYTILRSCGINSTHPDGTFQLQTGDTAVGRINPKDLAISLATTLGIPQAAGKTVEI 280
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BLAST of mRNA_P-fluviatile_contig10.877.1 vs. uniprot
Match: A0A7S0IMZ7_9EUKA (Hypothetical protein n=1 Tax=Calcidiscus leptoporus TaxID=127549 RepID=A0A7S0IMZ7_9EUKA)

HSP 1 Score: 163 bits (413), Expect = 1.630e-40
Identity = 130/352 (36.93%), Postives = 177/352 (50.28%), Query Frame = 1 
Query: 1108 PASSLVL---TKPETIVVVTGATGRVGSLAVRRLLELYPNVLVRAIVNDFAKGSRLLKEEKDKYGIKLEIVAAQLRGMRSAAKGVEGASAVVFCASGF---------AQNLSPI-QRLANAVRLTINPSSVADVEGVRDVALALKDTKKIVSRSSKAAAQQAKTAAKEGLDEPQPLCPNGPRFVLLSSAAVTRPNWSPEEKALYPLAADVPIVKLNPLNILTVKAEGETELRKVGIPYTVVRPCGLNDDHPKGRPLLSVGDTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGFEKVPASAKSNNKGVIDQALSTLPTDEALEN-DPELLKSIRRFTYPVLTQLRPVP 2121
            PAS + L    +P  +V+VTGA G+ G L V  LL  +P V VRA   + +K   +L     +Y +++EI  A L  +  A+  + G S+VV+CAS F         A    P+ Q+L  A  +   P    D+ G  D           V+  S  +A     A  + +          P+FVLLSSAAV+R  WS   +  +  AA++PIVKLNP +IL  K  GE  LR  G PY +VRPC LN+D P+GR +LS GD A GRI R D+A++LV  L   +A GKTFE  +L    K P          I  ALS LP D +  +  P++       TY +L QL P P
Sbjct:   20 PASGVTLLPGVRPGDVVLVTGAGGKTGRLVVAELLRAFPGVKVRACGTE-SKLRDVLSNVLKEYSMQVEICNADLACVDYASL-MRGVSSVVWCASSFGGEAARAETASTAPPLLQQLFAAFDVGTEP---IDIGGQTDXXXXXXXXXXAVAAKSFVSASTLLRADVQRMT---------PKFVLLSSAAVSRLQWSASTRRQFEDAAEIPIVKLNPDDILDTKFAGEQSLRASGAPYCIVRPCSLNEDQPQGRVVLSAGDVATGRISRLDLAELLVAVLDETDALGKTFEAFALSELPKRP----------ISSALSVLPADTSAGSATPDVA------TYNLLKQLAPGP 341
The following BLAST results are available for this feature:
BLAST of mRNA_P-fluviatile_contig10.877.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
A0A6H5L6I9_9PHAE1.790e-17582.00Uncharacterized protein n=2 Tax=Ectocarpus TaxID=2... [more]
A0A836CQH2_9STRA9.570e-6140.50Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
A0A7S3Y3H6_HETAK1.260e-4939.88Hypothetical protein (Fragment) n=1 Tax=Heterosigm... [more]
L1JNG1_GUITC1.550e-4639.38NAD(P)-bd_dom domain-containing protein n=1 Tax=Gu... [more]
A0A7S3QK24_9STRA1.680e-4435.67Hypothetical protein n=1 Tax=Chaetoceros debilis T... [more]
A0A0G4EAH5_VITBC1.690e-4436.96NAD(P)-bd_dom domain-containing protein n=1 Tax=Vi... [more]
A0A7S2UX60_9STRA7.270e-4436.07Hypothetical protein n=1 Tax=Fibrocapsa japonica T... [more]
A0A0G4GXT4_9ALVE3.670e-4337.54NAD(P)-bd_dom domain-containing protein n=1 Tax=Ch... [more]
L1JRK4_GUITC7.480e-4339.41NAD(P)-bd_dom domain-containing protein n=1 Tax=Gu... [more]
A0A7S0IMZ7_9EUKA1.630e-4036.93Hypothetical protein n=1 Tax=Calcidiscus leptoporu... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-fluviatile_contig10contigP-fluviatile_contig10:3190154..3201537 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Diamond blastx: OGS1.0 vs UniRef902022-09-19
OGS1.0 of Porterinema fluviatile SAG_23812021-02-24
Properties
Property NameValue
Taxonomic scopeEukaryota
Seed ortholog score542.7
Seed ortholog evalue2.5e-151
Seed eggNOG ortholog2880.D7FIH3
KEGG koko:K06237
KEGG Pathwayko04151,ko04510,ko04512,ko04926,ko04933,ko04974,ko05146,ko05165,ko05200,ko05222,map04151,map04510,map04512,map04926,map04933,map04974,map05146,map05165,map05200,map05222
EggNOG free text desc.divinyl chlorophyllide a 8-vinyl-reductase activity
EggNOG OGsCOG0702@1,COG5640@1,KOG1203@2759,KOG3627@2759
COG Functional cat.GM
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
BRITEko00000,ko00001,ko00536,ko04147,ko04516
Hectar predicted targeting categoryother localisation
Ec32 ortholog descriptionNAD(P)-binding domain
Ec32 orthologEc-28_000270.1
Exons14
Model size3386
Cds size2103
Stop1
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-fluviatile_contig10.877.1prot_P-fluviatile_contig10.877.1Porterinema fluviatile SAG_2381polypeptideP-fluviatile_contig10 3191389..3201489 -


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

Feature NameUnique NameSpeciesTypePosition
1622815407.3237271-UTR-P-fluviatile_contig10:3190153..31913881622815407.3237271-UTR-P-fluviatile_contig10:3190153..3191388Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 3190154..3191388 -
1693561769.5211115-UTR-P-fluviatile_contig10:3190153..31913881693561769.5211115-UTR-P-fluviatile_contig10:3190153..3191388Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 3190154..3191388 -
1622815407.5631788-UTR-P-fluviatile_contig10:3201489..32015371622815407.5631788-UTR-P-fluviatile_contig10:3201489..3201537Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 3201490..3201537 -
1693561772.9135642-UTR-P-fluviatile_contig10:3201489..32015371693561772.9135642-UTR-P-fluviatile_contig10:3201489..3201537Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 3201490..3201537 -


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

Feature NameUnique NameSpeciesTypePosition
1622815407.3972979-CDS-P-fluviatile_contig10:3191388..31915711622815407.3972979-CDS-P-fluviatile_contig10:3191388..3191571Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3191389..3191571 -
1693561772.7792368-CDS-P-fluviatile_contig10:3191388..31915711693561772.7792368-CDS-P-fluviatile_contig10:3191388..3191571Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3191389..3191571 -
1622815407.4142966-CDS-P-fluviatile_contig10:3192252..31923461622815407.4142966-CDS-P-fluviatile_contig10:3192252..3192346Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3192253..3192346 -
1693561772.7994-CDS-P-fluviatile_contig10:3192252..31923461693561772.7994-CDS-P-fluviatile_contig10:3192252..3192346Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3192253..3192346 -
1622815407.4262745-CDS-P-fluviatile_contig10:3192946..31930531622815407.4262745-CDS-P-fluviatile_contig10:3192946..3193053Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3192947..3193053 -
1693561772.8106642-CDS-P-fluviatile_contig10:3192946..31930531693561772.8106642-CDS-P-fluviatile_contig10:3192946..3193053Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3192947..3193053 -
1622815407.4375184-CDS-P-fluviatile_contig10:3193471..31935521622815407.4375184-CDS-P-fluviatile_contig10:3193471..3193552Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3193472..3193552 -
1693561772.819117-CDS-P-fluviatile_contig10:3193471..31935521693561772.819117-CDS-P-fluviatile_contig10:3193471..3193552Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3193472..3193552 -
1622815407.450021-CDS-P-fluviatile_contig10:3194750..31948231622815407.450021-CDS-P-fluviatile_contig10:3194750..3194823Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3194751..3194823 -
1693561772.826983-CDS-P-fluviatile_contig10:3194750..31948231693561772.826983-CDS-P-fluviatile_contig10:3194750..3194823Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3194751..3194823 -
1622815407.4621267-CDS-P-fluviatile_contig10:3195349..31955441622815407.4621267-CDS-P-fluviatile_contig10:3195349..3195544Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3195350..3195544 -
1693561772.8343534-CDS-P-fluviatile_contig10:3195349..31955441693561772.8343534-CDS-P-fluviatile_contig10:3195349..3195544Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3195350..3195544 -
1622815407.476244-CDS-P-fluviatile_contig10:3195951..31960641622815407.476244-CDS-P-fluviatile_contig10:3195951..3196064Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3195952..3196064 -
1693561772.8419914-CDS-P-fluviatile_contig10:3195951..31960641693561772.8419914-CDS-P-fluviatile_contig10:3195951..3196064Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3195952..3196064 -
1622815407.4881709-CDS-P-fluviatile_contig10:3196303..31964591622815407.4881709-CDS-P-fluviatile_contig10:3196303..3196459Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3196304..3196459 -
1693561772.8495674-CDS-P-fluviatile_contig10:3196303..31964591693561772.8495674-CDS-P-fluviatile_contig10:3196303..3196459Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3196304..3196459 -
1622815407.5014577-CDS-P-fluviatile_contig10:3197091..31972711622815407.5014577-CDS-P-fluviatile_contig10:3197091..3197271Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3197092..3197271 -
1693561772.8586814-CDS-P-fluviatile_contig10:3197091..31972711693561772.8586814-CDS-P-fluviatile_contig10:3197091..3197271Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3197092..3197271 -
1622815407.5115979-CDS-P-fluviatile_contig10:3197791..31982381622815407.5115979-CDS-P-fluviatile_contig10:3197791..3198238Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3197792..3198238 -
1693561772.8682008-CDS-P-fluviatile_contig10:3197791..31982381693561772.8682008-CDS-P-fluviatile_contig10:3197791..3198238Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3197792..3198238 -
1622815407.5206885-CDS-P-fluviatile_contig10:3199355..31994691622815407.5206885-CDS-P-fluviatile_contig10:3199355..3199469Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3199356..3199469 -
1693561772.876838-CDS-P-fluviatile_contig10:3199355..31994691693561772.876838-CDS-P-fluviatile_contig10:3199355..3199469Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3199356..3199469 -
1622815407.5303688-CDS-P-fluviatile_contig10:3199974..32001061622815407.5303688-CDS-P-fluviatile_contig10:3199974..3200106Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3199975..3200106 -
1693561772.8855827-CDS-P-fluviatile_contig10:3199974..32001061693561772.8855827-CDS-P-fluviatile_contig10:3199974..3200106Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3199975..3200106 -
1622815407.5408292-CDS-P-fluviatile_contig10:3200511..32007031622815407.5408292-CDS-P-fluviatile_contig10:3200511..3200703Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3200512..3200703 -
1693561772.8945115-CDS-P-fluviatile_contig10:3200511..32007031693561772.8945115-CDS-P-fluviatile_contig10:3200511..3200703Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3200512..3200703 -
1622815407.550965-CDS-P-fluviatile_contig10:3201453..32014891622815407.550965-CDS-P-fluviatile_contig10:3201453..3201489Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3201454..3201489 -
1693561772.9041212-CDS-P-fluviatile_contig10:3201453..32014891693561772.9041212-CDS-P-fluviatile_contig10:3201453..3201489Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 3201454..3201489 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-fluviatile_contig10.877.1

>prot_P-fluviatile_contig10.877.1 ID=prot_P-fluviatile_contig10.877.1|Name=mRNA_P-fluviatile_contig10.877.1|organism=Porterinema fluviatile SAG_2381|type=polypeptide|length=701bp
MSAGRADDVKKKPTKAAEQSAGGGGTGLWDWGFKSTPSKTVEKSKPTFSA
TDEAAEIEAVKLKAAAEIEAEQAQAKEKKTGKAAAVMDAARKAADAEADE
IAEVKRRAAAEIEAEQEAAKTKKQEEEAKLAEEIAERVRRNKRAEELAAM
ARSGKPKKAPSPASKKPDPKAGPAEAEPFKAGGRSTVDGPVTLEPAVVAA
AASPPAKKRGGQGVGGWDWGFKPASTTTATAKPAAAPAEVELEKPKPKVA
QETQEKQAAAAKEETAAATGAAKGEAETKEAQATATRAAREKRAEELSAK
ARGDEPKPKKAAAAKEGKASANAGAKDVETKDVSKKKTTNEATKKGGSTR
NADPASSLVLTKPETIVVVTGATGRVGSLAVRRLLELYPNVLVRAIVNDF
AKGSRLLKEEKDKYGIKLEIVAAQLRGMRSAAKGVEGASAVVFCASGFAQ
NLSPIQRLANAVRLTINPSSVADVEGVRDVALALKDTKKIVSRSSKAAAQ
QAKTAAKEGLDEPQPLCPNGPRFVLLSSAAVTRPNWSPEEKALYPLAADV
PIVKLNPLNILTVKAEGETELRKVGIPYTVVRPCGLNDDHPKGRPLLSVG
DTAAGRICREDVADVLVRCLGTPEATGKTFEVQSLPGFEKVPASAKSNNK
GVIDQALSTLPTDEALENDPELLKSIRRFTYPVLTQLRPVPLAQMPQKEE
*
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mRNA from alignment at P-fluviatile_contig10:3190154..3201537-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-fluviatile_contig10.877.1 ID=mRNA_P-fluviatile_contig10.877.1|Name=mRNA_P-fluviatile_contig10.877.1|organism=Porterinema fluviatile SAG_2381|type=mRNA|length=11384bp|location=Sequence derived from alignment at P-fluviatile_contig10:3190154..3201537- (Porterinema fluviatile SAG_2381)
TTCTTACCCGCATTCACTCAGGGGAAACAGGGACGCGATGAGTGGGCGAT
GTCCGCGGGGAGGGCGGATGACGTGAAAAAGAAGGTATGGAAAAGTACTT
GGCAGCGTTACCACCGTCAGCCAGACTCGTTTGCCGGCAGGCCGCTCCAA
GTTGCGGAAAGTTTGTGCGGGATATGCTTTCAAGTAGTATTAATAGCACT
TCGCGTGCCGCTCACTCTACGACACGAAAAGCGGCACTTAGATCGTGGGT
TTTGCCGAAGAGCCTGTGTGTGGCGAAATCCCGACAAACGCCCGTGTTTC
GTGACCAAATCGTGTTTGATATTGGCTCGAGTGCACATTCTGCGGCCGCA
CTTGCTCTCTCAGCTCCCTTTCAAGCAGAGGAAACAATGCCCCGCTTTGT
TCAAATTGTTTCTCCCACCCCGAGCACTCTACTCTTGCTCTGCGTTGTGC
GTTTTCTGTCGCTAGTCAATGGCCCACACGAATGGTGCAATGCTATGTCG
AGTGGCTTCGCCGGTGGCACGAGCTACAGCGTTTGTGGACTTAGCCGTAA
ATATGGCTTTGGCATGTTTTTCTTCTACATTATCCCCCTAAAGTTGCACA
AATATTCACGGCCTTCCTCCTCTCTTCTTCAAGGCTTTTCTCCTTTCATT
TACCGCATAAATTCCCGAAAGTCAAGACGCTAGACGATGAGGTCGTTAGT
CTTCATCTACCATTCTTTTTGAGACGATATCGACACTATCGCCCGGCGAT
AACACGTAACGGTCGTTACCTCGGGAAGTATGGTTGGCTTACAGACGATC
TGCCCACCGACGTTTATTCGCCTTGTTCACGAAGCCAACGAAAGCTGCAG
AGCAGAGCGCAGGTGGTGGCGGTACGGGATTATGGGACTGGGGCTTCAAG
TCCACGCCTAGCAAGACGGTCGAAAAATCAAAGCCCACTTTCTCCGCCAC
CGACGAAGCCGCTGAAATCGAAGCTGTCAAGCTCAAGGCTGCCGCCGAAA
TTGAGGCGGAACAGGCGCAGGCGAAGGTACAGCACGTTCCTTTTCTACAA
GATCCAGCGTGCCTCTCGGGCGCTGAAGCTACCAAAACTTGGCTCAGCAC
CATTGTTCAATACTCAAGAGTTGGGTCGATTGCCAGTTCGGCTTAGACTT
CCCTGGCAGTCGATTCTGTTAATAATCGTCATTTTAAAGGCCACGATCCA
AAAAGGGCACATCGCCTGAGCTACGCTATGCTCCGCTGCCGCCTTGAGTT
CCACTGCTTGGGCGTTTTGCTTTTGCAACGGTATTCGCTCCCCACCTCTG
CATCGGCCGTGCATGGACATTGACATTTGCGCGAGTACGTCCGCTACATC
AACGTGTTTCTTTTTTAGCCTCTCCATCCCATCTTCCAGTGTGCCGTTCG
TATCTCACACAATAAATCCTTCCCCCACCAGGAGAAGAAGACGGGAAAGG
CCGCCGCAGTCATGGATGCTGCGAGGAAAGCGGCGGACGCAGAAGCCGAC
GAAATCGCCGAGGTCAAGCGGCGGGCTGCGGCCGAAATCGAGGCCGAGCA
GGAGGCAGCGAAGGTGAGGTAAAAGCCACGCGTGGAGAGAGGTGTTAGGA
GGATTCCTCGAACGTGCCTGCTCAACATATATTACGCCAGGAGAACGAGT
CAACAATAGCCGTAAAACGTGGGCATTCCGCTGGCGAGGACGGGCAAGCT
TGGCTGATCTGCACAGGGGAAGCTTTGTAGGGGCGGAGAGACCTACGATG
GCGTACAGAAGCTCGAAGCGTGTGCGAGAAGGCTTGTCGAAGGAGTAGAG
TTTTGGGGACTATGAAGGACCGGCAACAAACATGTCTCGCCTGGTGATGG
TCTGCACTTCTCCGCTCTTGTGAAAGCTTGTGCTACCATTTCGGCTCGGC
CGATTCTACTGTCAAGTTAGTCATACCACTGCTTATTCGTACAGTATTGC
GGATGGCCAGTAGGTCTGGTGCTCCCGCTTTGCAACTTGTGGATCATGTT
TCAGGTTGGCATTTGTCTCGAACTTTCCCGTTCTTCACCATCGTGTGCAC
TTTCGGCACGCCCACCAGACGAAAAAGCAAGAGGAGGAAGCCAAGCTCGC
AGAGGAGATAGCTGAGAGGGTCAGGCGGAACAAGCGCGCCGAGGAGTTGG
CCGCCATGGCCAGAAGCGGAAAGCCGAAGAAGGTGATGCAGTACATACGA
TTGACAATCTTGAACGCATGGGAGGGGAAGGTTGCGTTGACCGAGGCATC
TCGAAGGAAGGGGAACAGAGTGATGCGCCTCGCCGTGGTTTGGAACAACA
CGACAGACGAGGACGATCGCCGCCCTCGGAATTGCCGACGACTCTTTCTC
TCTCTTGTGGTTGTTGTTGATGGTGTTCCATCGCTGGAATTTATTGCCGT
CAATCGTGATACGCCGGCAATATCGAAAGTGGTTCGATGTGGTGCTTTAG
TGCTTGGCTTGAACGCCGCGGAGATTGATTCGCAAGAGCAACCACCACCA
AGCGGCACACACCCTGCAATGCAGAGGACAGCCTCCTACAGGCAACCCGT
GCCGCGCACATGAATGAAAATAAAACTGAGTTTGCTTACGAGTCGAGCCC
TCCCTCAAATGTCCTCTGTGGACCATCTTTGAGACCCCGACGATGACCTG
TCTGCAAAAATGCCGCTTGCAATTGGCCTCGTGGCAATGTATTTTGGGAG
GCAACCAGTGTTAATCTTCCACCGCTTGACTCCGCTCGCTCATGTCGTGT
TTGCGCTTGAATGCCATGGAGAGCGTACCCAGACCTCGGATTCATTCCTC
GAAAACCTGCTGGCGATGCTTGAACACACGTGCAAAGTGGATTCTGTTTC
TTCGCGTTGCACAAAATATTTTCCATTCCCTCATGCGGTATTGACACCCT
ACAAGTCACTCGCTTGTTGGCCGTTTTCACCGGCGAGCGGTACGGCATGC
GAACGAGATCTGAGACAGCTGCATTCAGGGCGACGCAGTGTTTCACTTTC
ACCCGCTGTGTTGCGTGCGCCTCGGAATGAGTTGTTCGGAACACCCTGCT
GTTCCCTCCTCGCAGCAGTTCGCAAGACACACAGAGGTTAGCGGTGTTGA
AGAAGGGTTGGTGGAACTCAATCATTCCTCCGTCGACCGTTACAAAATGG
AAGTAAGGTCCTTCCGAAGATCATGATGGAGTGCTGCTCAGCAGCGATGG
AGACGAAATTCACCCCTTTAGCACAACATATGCGCGGGCTGACAGCAAGA
GTCCTCAAGACCTTGATTTGCCGTGCTGCCTACTCTTGGCCATGGGCAGG
CCCCGTCCCCCGCATCCAAGAAGCCCGACCCAAAAGCAGGGCCGGCTGAA
GCCGAGCCTTTCAAGGCTGGCGGGCGTAGCACGGTTGATGGGCCTGTTAC
GCTCGAGCCGGCAGTGGTTGCCGCTGCCGCCAGCCCACCTGCGAAGAAGC
GCGGCGGACAAGGTGTGGGAGGTTGGGACTGGGGCTTCAAACCCGCGTCC
ACGACGACTGCCACGGCGAAGCCTGCTGCCGCTCCCGCGGAAGTAGAGTT
GGAGAAACCCAAGCCTAAGGTAGCGCAAGAAACGCAGGAAAAGCAGGCAG
CAGCTGCCAAGGAAGAAACGGCGGCTGCTACTGGGGCAGCAAAGGGAGAG
GCGGAAACGAAGGAAGCGCAGGCGACTGCTACTCGAGCTGCACGGGAAAA
GCGCGCTGAGGAGCTCTCCGCAAAAGCCAGAGGTGACGAGCCAAAGGTGG
GCCATACACTACCAGAAAGATCCCCCCAGGTAATCCCACCCCAAAGTAAC
AGCAAGGGGCTCTGGGCTCGCGTCGTGTTGCGTGCAAGCGATACATCTGT
AGCCTATCATATGTACACATCGTTCTAGCAAGGGCTGGTCGGTGCAAAGC
GGGGGCAGTAGTGCCACTTTTGAAGCGGAAACGAGTGTTTTCGCTGACCG
CACGCATGGTACCTTTCGCTGGATCATATCGATGACATCCTACCGAAGTA
TAGCTGTTTTTCAGCTTAAGTATCGACCAGGGGCTCAGCGTAGGAGTATG
ACGACCTGCTCGCAAGCCAGTGTATCAACATGCCTACTTTGTAGCGTTGG
AGCAAATGTATTCGACACAGAGTACAGCTTTGAACTACCTACTATCCGGA
AGGTGGGCGGGCCCGAGGGGACAATCAGAATCTGGCTCAAGCACCACCGG
TTTCGTTCTTCTGGACTTGCTTTCCTGATTCGGCTGGTCCCCTCTTTTGC
CTGCAAACACATGCAGCCTAAGAAGGCGGCGGCGGCCAAGGAAGGGAAGG
CTTCCGCAAACGCTGGGGCTAAAGACGTCGAGACGAAAGACGTCTCAAAG
AAAAAAACAACAAACGAGGCGACCAAGAAGGGCGGAAGTACGCGCAATGC
GGACCCTGCAAGCAGCCTCGTTCTGACCAAGCCAGAGACAATCGTGGTAT
GTAGCACCGCAAGCGGGAGTAGAGGTACTCCGATTGTGTCCGGTTTCCAA
ATCGTTGCACCACTCGAAATGTAGGTAGAGAAATACACCGAGGATTTTCC
TGATTTGAGGTTCTGGGTCACTTTTCTTCTTGGTAAGTTGTGAATGTTGT
GGATGAAGGCTTTTGTCGTTGTCTCGTCGCCTATCGTGAAGACCCGCTGC
TTTTTTCAGGTACTGTGCGACGGATGTGTCTTTGCTCTGCGGATACGAAA
GCTGTACTTTTTCCTCGCCCCCACAAAGAGTCGCCCCCAACCCCCCTCAA
CTATGGACCAAGTCAACGCCAATTTCGCGATTGAAGAGCCGTCAATCATC
CTTTGTGTAACGGGGGATGACCTAGTGACACGGGGTAGACACGCAGGCTT
GGACCGTGCCGTTGCAGGAGAAGCCTGCAATCGGAAACTCATAAGTTCGC
TTTGCAAGCACTTTTACTTCCGGTCCTGGGTGCGCGCCTCTCCGACCATG
ACACACCAGCGCTTCAGCTGACCTCTGCTCGTGGTTCATTGAAGTTTATT
TTACGTTATGGTTAGCGTATAGTGCACCTGTCTTGGGTTCTCTCACTGCG
TCGATTGCTCTCAATACGGACCAAACAGGTGGTCACTGGCGCGACTGGTC
GTGTTGGCTCGCTGGCGGTCCGTCGCCTTCTGGAGCTCTACCCGAATGTG
CTGGTGAGGGCCATCGTCAACGATTTCGCCAAGGGTTCCAGGTTGCTGAA
AGAGGAAAAGGACAAGTACGGGATCAAGCTCGAGGTAAGCGAGCTATTCA
AAAGTGCCAGCCAGGCAGCAGGTAGGCTTGCTTTGCCGGCATATGTAGAA
GCTTGTCGATGTCGTTTGGCGGAAACACGCGTTTCTGCTTTTTTCATCGA
GCACTCACGGCGGCGACACTGCGAATGACCGGTGAAAGCTGCAATTTATT
TCCTGTGTCGTGTTCCACATACTTCTTGCCGTTGCCATCGATAAAGTCTC
CTGCTCTTGCTTCAACGTGTCAGATTGTGGCTGCCCAGCTTCGTGGGATG
CGCTCGGCGGCAAAGGGGGTTGAAGGAGCGTCTGCCGTTGTATTCTGCGC
GTCCGGTTTCGCGCAGAACCTGTCTCCTATCCAGAGGTATATGTTTCGCT
TTCAAGTTTCCTCTGCTGGTGCCACTGCTGTCGTTGTCTCTGATGCCGCT
TTGGTAGCATTTTCACGAGTAGTTCACCCGGAGGAGGGTTCTTTGTGAGG
ACCAAGGTACAGCAGCCGGGTGTGGCAGTTTAATCTTCTGCCGGGGGCAA
GCTAGTTTTCTCCGTTAAAATGTAGAGAGAGGAGATGTCCCAGAAGAGGG
AAGTGAGAGGGCGGCAGTGTCGAGCGGATTTTCTAGTAGCACCGGAGTCG
AGACGATAACTATCTGTATGTGTACATATTAGTAACACTCTCTACACCTG
TCAACGAATGTACGGCACAAGTCATCGCTTCGGCACCGACTGTTGCATAC
TTCCTTATACTGACGACGGCGGCGAAATGACAACAACCCGCAGGCTGGCC
AACGCGGTACGGCTGACAATCAACCCCAGTTCAGTCGCAGACGTCGAAGG
GGTGCGCGACGTGGCCTTAGCCCTGAAAGACACCAAGAAGATCGTGTCAA
GAAGTAGCAAGGCGGCAGCTCAGCAAGCGAAAACGGCCGCTAAGGAGGGA
CTGGACGAACCCCAGCCTCTTTGTCCAAACGGCCCGAGGTGAGAATTGGA
TCGGGGTCTAGAAGACCTATGTCCTGGTGGAACTTCGCTGGGAGCGCTCG
TTTGTTCCTGGCGATTTTTGTGTTTTTATATAATCGATGCTCAATTGATC
AGGATTTGTGTCTTGAGGGTTTGTAACCAGGCTTTATGGGTCCATTTTGC
AAGCAGCAAAGGTTATTTGCTGAAGCTCTGGAGCGAGGAAACAGCGGAGG
CGCTTCGGTCTTGTTAACTCTAAGCGTATACATTGTAAAGTGCCAAGTGT
GCTCCATGTCCGTGCTGCTGTTTTCGGAGCCATATCTCCCTCAGAATAAT
TGGGGGCTTTACGCGTCGCGGCATCTGTCGCGCTCATGGCCTGCCTATTT
CAAGACTGGATTCCGCATGTTATGTTTGGGCGATCCATGGATCTTGCGCG
CCGCCAGCCATATTCTGGCCCGCTGCTGCCGCGCTTCATCTGCCTCTGTG
CCACCACCTTCATCGCCACAGCCAAAAGGCCCTCCCATCATCGCTATCGT
GGCCTTGCGATCAGGTTTGTGCTGCTATCTTCTGCTGCCGTGACTCGCCC
AAATTGGAGTCCCGAGGAGAAAGCGCTGTACCCGTTGGTAAGTCTTCTCT
GAGCGCCTGGTCCCAGAGTCGAAAGGTTGATTGACCTTGTCGTTGTATCG
CTGCGACTCAGACCGGTGCGGCGGCCTTGAGCTTCAGAGCGAACGGTGTC
CTTACGCTCCTGCCGTTCAGCTTGCTGTTCAAGAGAGTGTGTGTGTGTGT
GTTTTCATCCCTTAATTGGCAACAATCCCTTCGAGCAAGGCGAGACGTGC
ACTACACTTTGCAGTGTATTTAGAGGAGCGAACTTGTTCAGTATATTTTT
CTGACCAACTAGAACCAGCTGGGGTCACACAGGAGGGGGTAAACACGGGA
GCTTTTTCCTTCTTTTTCTTCTTTTTCTTTTTTGCCCCACCTTCCTCCTG
CGGGGCTTGCCTTCATTTTCCTCGCGAGAGGGTTCAGCCGTCCCTCTCCC
TCGTCGACAGTGAAGTCGAATTTTGTCTACTCACGAAGCTTTTCAGCTTT
TTCCCGCTTTCCACTACTAAAAGGTACAAAGTGAGAAACACTTCGTTCGG
ATTCGAAGCCGTGACATGGTCGCTAGCAGTTTTACGGTGATTCCACTAGC
CCACCGGGGCGACCGGCACAATGCAATTCCGAATGAACATACCTCTGCTT
CACCATATGCCTTTCAGCTGGCATCCACCGCCTTCACACAAACAGGTCGT
GTTGTATCTACCAGTCATCGTTTACTTAGCCCCTTTTGCATGGTACCGCG
TAAGCAAGGTTCCAACCCACGCCCGATCTTCTCATGTTCCTTTCGGATTT
TCCGGCTTCGCTGACCCCTTTCATGCGCGGTCACCTAGTGCAAACCTCGA
AGGAGCCAAGGGCGTCTCTGTCCGAGAACCATGAATCATGGCGGGCAGCT
GCCTCTCCATAACCCTGGGTTCATGGCTGGGGGTCTGATGCTATAAACCG
CTGCTTGCTCAGGGAGTGTGCCCTGCCGCCACAGTGTTTTGGCATTTCCA
TCTCGGTGATATCTTAATTCTGCAGAGCACCAACGTACAGTTCTTGCATC
CTTGAACTTGAACTCTGCAGCTGAATGTTGTTCTCTTTCGTGTTATTGCA
GTACATGGTTGCTTTAAAATGCTAGTTTCATTGATCTCACGCTTGGGAAC
AAAACCCGCCAGTATGATCGGGTACTCGGGAATGGCGAAACAGCAGTGCC
TTTCGTCAACCATCCCGCATTGCGTGTGATCACAGGCGGCTGATGTCCCG
ATCGTGAAGCTGAATCCTCTCAACATTTTGACGGTCAAAGCCGAGGGCGA
GACGGAGCTACGGAAGGTCAGCCAATCTTAAGCTAACATGTACCACTTTT
TCACCCTCTGAAGGTCGTGCTGCTTGCCTGCTTGCCTCCGCCTGCACCTT
TCCGCTCATTGATTTCGAAGATCGGCTGCGCACCAAACAAATGTCTGATT
TTGCTTATCGTCCCGACCGTTGAGGTGCTGCAGTCATGCTCGCAGTTCTG
TCGAGCGGTATGGTTCAATTCGACACCCGTAGAGAAGCTCTGCGTCAGCT
AAGTATCTCTCGCCATGCCTCTGACTCCTCGACATAACCATCGAACTCGC
CGTGATCCTGACTACTTGTACTTGAACAGCCTGATGTGAATGTCATTCAT
GCACACATCACGCCAGTCCAAGGAGATGAAACCTAAGCAAGTCTCCTTCA
CCCTCCCTACAATTTCATTGCGCTATTGGGCCAGGTTGGTATCCCCTACA
CTGTAGTGCGCCCCTGCGGTCTGAACGACGACCACCCGAAGGGGAGGCCG
TTGCTGTCTGTCGGTGATACCGCGGCAGGGAGGATATGCAGGTAAGGTGA
AAATTGGCGCGAGCCCTGTTTCTCTTGCTGCTTTGATGGCTTTGGTCCGA
TGCCCACCGTTACCTTTGGTGTGCGTCTTTCCAGATATGAAGCTCGAAGC
ACACTCGCCTCGAGAGAGAGCTAAGAAAGGTAAAGATTAGGCGTCAGCGA
CACGCAAAATACAAATACACGCGCATGACGTGTTGACGTTGCCTAGGTGT
ACACGTTCAGTGATTGGTTTCGGACTTACTCATCCCCCCGGATATTCTCC
CGGGTTTTGCCCATTCTCCACGCCAGCACGTGAAGCAGGTGGATGGTGGA
TGTGTTGAGGACGAGCTGCGTAGTGTGATATTGATGCGATCAAATGTGAG
GCAAGGACAGTATTGAGCGGCACGTAATTGCAGCAGTGCACTGTTCGCGC
CGGTGATATCGCTTACATGCACAGACCTTCATTGGTAGGTCGTTACCTTT
TGCCGCCGCTGTTCGCTAAAACGTAGCCGCGGAATCACCTCATTTCTGAG
CGCCAGGATGTCACGCACTTAATATGACTGGAATCCAATCAACTGCATTT
CATGTCGCCTGAAACGGCTGAATCAAAAATCGATCGACAAGGGAGGATGT
GGCGGACGTGCTCGTTCGATGCTTGGGCACTCCTGAGGCTACTGGCAAAA
CTTTCGAGGTGCAATCCCTGCCTGGCTTTGAGAAGGTGAGAGGCTGCTAG
GTGATCACGCTAGTTATGTACAACACATCAAGCCGTTCACGTTAATGGGT
TCTAAGTGGGCAGTTTCGAGAAGCAACGCATACCTTTGAGTCCACGACCC
GGGTTTGAAATGCCTACAGACCTGTATTGTAAACGTCCCTCAAGGTGCAC
ACTTCTTTGCCTTGCGCAGAGGTCGGCGAGCTACGGCTTAGTTTGATTTT
CAGCAAGTTTTCATCACAGATTCGGAGACGACACATCGATGGCCATCAAA
AGCCCATTGTGCGGCTTAGCATTGCAGCATTGCATTTGTTGCGGCACTTA
TGTGAAAGCTCCTAAGGTCGATCCAAACGTGAACTACCACTATTTACGGC
GATGTTGTGCTGGTAGGTAGCGACCATGACCATGCATGTAACCAGTTTCA
AGGCTTGGCATGGTCAGGCTGACGAGCAGACACGTGCCCGGCAACTCACT
GCGCACACACTCATCAACCAGTGAGGGTTGTTCAGACGCAAAGAGGTGAT
ACCCGCGCCACGCTGACAATGCGGGGTGACCTTAACAACGATGCACTGCT
GATTGTGTATGTGAGTGAGATGACCGACCCTGTGTGGAGAACAATGTGCC
GGTAGATGAAGCCCCATTGTTGCGCCTCTTCATTTCATCCCGGCTCTTGT
TTGTTGCCCTATTCAGGTTCCCGCATCTGCGAAGTCCAATAACAAGGGCG
TCATAGACCAAGCCTTGTCGACACTCCCTACAGATGAGGCTCTGGAAAAT
GACCCCGAATTGCTCAAGAGTATCCGGCGCTTCACCTACCCCGTGCTAAC
GCAGCTCCGCCCGGTACCTTTAGCGCAAATGCCTCAGAAGGAGGAGTGAA
ATGCCGTGGTGGTTTGAGTCTTAACCATTTTTTTTTTAGCCTGTGCTAAG
GTTGCTTGTCTACTAAGTCACTTGGTGGGACCATCGAACCTATGATGTGA
TGCACGGGTAGGTCTACCGGACCTCCTGCAGAAGGTTGAATCAGCATGGT
GATTGGCGAAACATTCTTCCTACAACTAGCCAAAGACACTCTATTGCATG
CTTGATTGTGTTGAGGCCAAGTTGAGAAGTAGAATCTATGCCGAGATCGT
GATCCGCCGTGTTTTGAAAAGATCTTTGGCGGTGTAGGCCTGCCCCGCAT
TCGCCACGAATTGCTCTTCATTGCGTGCGGTGAGGCAAATTTTGGACAAA
GTTGACTAATATCCGTGACGGCAATTAGATGAACGATAAACACTGGAAGA
TGTAAAATAGCTCCTGACGAAAGACGAGCAAGGAAGCCTTCATGTTGACT
CTTTTGGACTGGCGACGTGATCATAGTAGGGAATAGTCCTGAGATTGCAT
TCACAGAGTGATAAGGGTCCCACTCTTGTGGTCGGATTAGTCGCCACGCG
AGATATGGCTATTTGACGATTGGAAACAGGGCAAGAACGACCAGAGTCAC
CAGCGCACAGGTTTTCTTGCTGGACGCGAACTTGTCGAACGCAATTTTGA
TGTTGTACTCGAAGTACCTGATAACAAACCTACTTGGTGTCTCTGTTCGT
AGCGATTAAGTTCAGTATTGAGCGCTTATTTGCAGTATTGTTGTTCGTTG
TTGCGACGCCAACGCAGCCACGACGACGTCATTGAGTCAGGCACGACCTT
TCGCACGCCGGATTACGGTAAATGGTGTGTTCGGCTTTGACGGAAGGTGT
TGCTCCAGATTATTCGGATGGCACAAAACTTCAGTTGCTGTTGTTGAGCT
TACGGCTTACGCGATGCAGTTTGATGCCCACAAACCAACGGGGGACTGCC
GGAGAGTACGTCGTACGACTTGTTGCCTTCATTCGTAAGCCGTAAGAACG
AGAGGCGAGACATTTCAAAGATTTATCGATTGTTCGGTCGAAGAGGTTTG
AGTCCAATGGATGACTCAGCAGATTCGAGAACGTAGAGCCTTCGGGCGTG
CTGAAGCGATATGATTTTTCAAGATGTGAATTTTTGGGCTTGTGAGGGAT
GAAGTCAGAGAGAGGCGGTATTTCCAAAGCGCCCGTTGTTAAGCTGAAAT
AAATTTGTTCGAACTACAAACCAGTCTACAACGG
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Coding sequence (CDS) from alignment at P-fluviatile_contig10:3190154..3201537-

>mRNA_P-fluviatile_contig10.877.1 ID=mRNA_P-fluviatile_contig10.877.1|Name=mRNA_P-fluviatile_contig10.877.1|organism=Porterinema fluviatile SAG_2381|type=CDS|length=4206bp|location=Sequence derived from alignment at P-fluviatile_contig10:3190154..3201537- (Porterinema fluviatile SAG_2381)
ATGTCCGCGGGGAGGGCGGATGACGTGAAAAAGAAGATGTCCGCGGGGAG
GGCGGATGACGTGAAAAAGAAGCCAACGAAAGCTGCAGAGCAGAGCGCAG
GTGGTGGCGGTACGGGATTATGGGACTGGGGCTTCAAGTCCACGCCTAGC
AAGACGGTCGAAAAATCAAAGCCCACTTTCTCCGCCACCGACGAAGCCGC
TGAAATCGAAGCTGTCAAGCTCAAGGCTGCCGCCGAAATTGAGGCGGAAC
AGGCGCAGGCGAAGCCAACGAAAGCTGCAGAGCAGAGCGCAGGTGGTGGC
GGTACGGGATTATGGGACTGGGGCTTCAAGTCCACGCCTAGCAAGACGGT
CGAAAAATCAAAGCCCACTTTCTCCGCCACCGACGAAGCCGCTGAAATCG
AAGCTGTCAAGCTCAAGGCTGCCGCCGAAATTGAGGCGGAACAGGCGCAG
GCGAAGGAGAAGAAGACGGGAAAGGCCGCCGCAGTCATGGATGCTGCGAG
GAAAGCGGCGGACGCAGAAGCCGACGAAATCGCCGAGGTCAAGCGGCGGG
CTGCGGCCGAAATCGAGGCCGAGCAGGAGGCAGCGAAGGAGAAGAAGACG
GGAAAGGCCGCCGCAGTCATGGATGCTGCGAGGAAAGCGGCGGACGCAGA
AGCCGACGAAATCGCCGAGGTCAAGCGGCGGGCTGCGGCCGAAATCGAGG
CCGAGCAGGAGGCAGCGAAGACGAAAAAGCAAGAGGAGGAAGCCAAGCTC
GCAGAGGAGATAGCTGAGAGGGTCAGGCGGAACAAGCGCGCCGAGGAGTT
GGCCGCCATGGCCAGAAGCGGAAAGCCGAAGAAGACGAAAAAGCAAGAGG
AGGAAGCCAAGCTCGCAGAGGAGATAGCTGAGAGGGTCAGGCGGAACAAG
CGCGCCGAGGAGTTGGCCGCCATGGCCAGAAGCGGAAAGCCGAAGAAGGC
CCCGTCCCCCGCATCCAAGAAGCCCGACCCAAAAGCAGGGCCGGCTGAAG
CCGAGCCTTTCAAGGCTGGCGGGCGTAGCACGGTTGATGGGCCTGTTACG
CTCGAGCCGGCAGTGGTTGCCGCTGCCGCCAGCCCACCTGCGAAGAAGCG
CGGCGGACAAGGTGTGGGAGGTTGGGACTGGGGCTTCAAACCCGCGTCCA
CGACGACTGCCACGGCGAAGCCTGCTGCCGCTCCCGCGGAAGTAGAGTTG
GAGAAACCCAAGCCTAAGGTAGCGCAAGAAACGCAGGAAAAGCAGGCAGC
AGCTGCCAAGGAAGAAACGGCGGCTGCTACTGGGGCAGCAAAGGGAGAGG
CGGAAACGAAGGAAGCGCAGGCGACTGCTACTCGAGCTGCACGGGAAAAG
CGCGCTGAGGAGCTCTCCGCAAAAGCCAGAGGTGACGAGCCAAAGGCCCC
GTCCCCCGCATCCAAGAAGCCCGACCCAAAAGCAGGGCCGGCTGAAGCCG
AGCCTTTCAAGGCTGGCGGGCGTAGCACGGTTGATGGGCCTGTTACGCTC
GAGCCGGCAGTGGTTGCCGCTGCCGCCAGCCCACCTGCGAAGAAGCGCGG
CGGACAAGGTGTGGGAGGTTGGGACTGGGGCTTCAAACCCGCGTCCACGA
CGACTGCCACGGCGAAGCCTGCTGCCGCTCCCGCGGAAGTAGAGTTGGAG
AAACCCAAGCCTAAGGTAGCGCAAGAAACGCAGGAAAAGCAGGCAGCAGC
TGCCAAGGAAGAAACGGCGGCTGCTACTGGGGCAGCAAAGGGAGAGGCGG
AAACGAAGGAAGCGCAGGCGACTGCTACTCGAGCTGCACGGGAAAAGCGC
GCTGAGGAGCTCTCCGCAAAAGCCAGAGGTGACGAGCCAAAGCCTAAGAA
GGCGGCGGCGGCCAAGGAAGGGAAGGCTTCCGCAAACGCTGGGGCTAAAG
ACGTCGAGACGAAAGACGTCTCAAAGAAAAAAACAACAAACGAGGCGACC
AAGAAGGGCGGAAGTACGCGCAATGCGGACCCTGCAAGCAGCCTCGTTCT
GACCAAGCCAGAGACAATCGTGCCTAAGAAGGCGGCGGCGGCCAAGGAAG
GGAAGGCTTCCGCAAACGCTGGGGCTAAAGACGTCGAGACGAAAGACGTC
TCAAAGAAAAAAACAACAAACGAGGCGACCAAGAAGGGCGGAAGTACGCG
CAATGCGGACCCTGCAAGCAGCCTCGTTCTGACCAAGCCAGAGACAATCG
TGGTGGTCACTGGCGCGACTGGTCGTGTTGGCTCGCTGGCGGTCCGTCGC
CTTCTGGAGCTCTACCCGAATGTGCTGGTGAGGGCCATCGTCAACGATTT
CGCCAAGGGTTCCAGGTTGCTGAAAGAGGAAAAGGACAAGTACGGGATCA
AGCTCGAGGTGGTCACTGGCGCGACTGGTCGTGTTGGCTCGCTGGCGGTC
CGTCGCCTTCTGGAGCTCTACCCGAATGTGCTGGTGAGGGCCATCGTCAA
CGATTTCGCCAAGGGTTCCAGGTTGCTGAAAGAGGAAAAGGACAAGTACG
GGATCAAGCTCGAGATTGTGGCTGCCCAGCTTCGTGGGATGCGCTCGGCG
GCAAAGGGGGTTGAAGGAGCGTCTGCCGTTGTATTCTGCGCGTCCGGTTT
CGCGCAGAACCTGTCTCCTATCCAGAGATTGTGGCTGCCCAGCTTCGTGG
GATGCGCTCGGCGGCAAAGGGGGTTGAAGGAGCGTCTGCCGTTGTATTCT
GCGCGTCCGGTTTCGCGCAGAACCTGTCTCCTATCCAGAGGCTGGCCAAC
GCGGTACGGCTGACAATCAACCCCAGTTCAGTCGCAGACGTCGAAGGGGT
GCGCGACGTGGCCTTAGCCCTGAAAGACACCAAGAAGATCGTGTCAAGAA
GTAGCAAGGCGGCAGCTCAGCAAGCGAAAACGGCCGCTAAGGAGGGACTG
GACGAACCCCAGCCTCTTTGTCCAAACGGCCCGAGGCTGGCCAACGCGGT
ACGGCTGACAATCAACCCCAGTTCAGTCGCAGACGTCGAAGGGGTGCGCG
ACGTGGCCTTAGCCCTGAAAGACACCAAGAAGATCGTGTCAAGAAGTAGC
AAGGCGGCAGCTCAGCAAGCGAAAACGGCCGCTAAGGAGGGACTGGACGA
ACCCCAGCCTCTTTGTCCAAACGGCCCGAGGTTTGTGCTGCTATCTTCTG
CTGCCGTGACTCGCCCAAATTGGAGTCCCGAGGAGAAAGCGCTGTACCCG
TTGGTTTGTGCTGCTATCTTCTGCTGCCGTGACTCGCCCAAATTGGAGTC
CCGAGGAGAAAGCGCTGTACCCGTTGGCGGCTGATGTCCCGATCGTGAAG
CTGAATCCTCTCAACATTTTGACGGTCAAAGCCGAGGGCGAGACGGAGCT
ACGGAAGGCGGCTGATGTCCCGATCGTGAAGCTGAATCCTCTCAACATTT
TGACGGTCAAAGCCGAGGGCGAGACGGAGCTACGGAAGGTTGGTATCCCC
TACACTGTAGTGCGCCCCTGCGGTCTGAACGACGACCACCCGAAGGGGAG
GCCGTTGCTGTCTGTCGGTGATACCGCGGCAGGGAGGATATGCAGGTTGG
TATCCCCTACACTGTAGTGCGCCCCTGCGGTCTGAACGACGACCACCCGA
AGGGGAGGCCGTTGCTGTCTGTCGGTGATACCGCGGCAGGGAGGATATGC
AGGGAGGATGTGGCGGACGTGCTCGTTCGATGCTTGGGCACTCCTGAGGC
TACTGGCAAAACTTTCGAGGTGCAATCCCTGCCTGGCTTTGAGAAGGGAG
GATGTGGCGGACGTGCTCGTTCGATGCTTGGGCACTCCTGAGGCTACTGG
CAAAACTTTCGAGGTGCAATCCCTGCCTGGCTTTGAGAAGGTTCCCGCAT
CTGCGAAGTCCAATAACAAGGGCGTCATAGACCAAGCCTTGTCGACACTC
CCTACAGATGAGGCTCTGGAAAATGACCCCGAATTGCTCAAGAGTATCCG
GCGCTTCACCTACCCCGTGCTAACGCAGCTCCGCCCGGTACCTTTAGCGC
AAATGCCTCAGAAGGAGGAGTGAGTTCCCGCATCTGCGAAGTCCAATAAC
AAGGGCGTCATAGACCAAGCCTTGTCGACACTCCCTACAGATGAGGCTCT
GGAAAATGACCCCGAATTGCTCAAGAGTATCCGGCGCTTCACCTACCCCG
TGCTAACGCAGCTCCGCCCGGTACCTTTAGCGCAAATGCCTCAGAAGGAG
GAGTGA
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