mRNA_H-fluviatilis_contig1023.519.1 (mRNA) Heribaudiella fluviatilis SAG_13_90

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

Overview
NamemRNA_H-fluviatilis_contig1023.519.1
Unique NamemRNA_H-fluviatilis_contig1023.519.1
TypemRNA
OrganismHeribaudiella fluviatilis SAG_13_90 (Heribaudiella fluviatilis SAG_13_90)
Homology
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BLAST of mRNA_H-fluviatilis_contig1023.519.1 vs. uniprot
Match: D7FGS4_ECTSI (PBPe domain-containing protein n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FGS4_ECTSI)

HSP 1 Score: 411 bits (1056), Expect = 6.590e-122
Identity = 283/843 (33.57%), Postives = 436/843 (51.72%), Query Frame = 3 
Query:  591 SSSASVLGSFSNTYWHVPLLTVGAAAARSDGREVTTFEEERLG----GGYLLGVHPDIYPQMKALVRLILDMKPNKRSGRN--DLSERVSVLHTDDDYGNTASTAFAHAARTVS-----------MGATVDIGATTAIPVTAGADYSSILAELVNDNATIVVLLAEGYDGRVVRSIFEKARHVGLV-EGVQWYLPDAAAMDSVFQESPTYHNSALANEMRGTLGVRVCTDLTDKEAAAKLDNLTRLWEGLDRDLYPGAR--NVTADGQIDPLLAFAYDAVFVAAGAAGFIHDETTTDTVIGVSLDSCPFPTVGPWANGAVIRDAMYRFTLADTGGVTGSLRM-----TVGESQHYAAADGRNADTVDYCAVQLRTHSTMGARFVSSSALDGGELGEKYRGVLQDTHEHVLEQTVEASATASQCY----------NFSVVRPADLKPFLFY----DEEHGVIGVTPFFLEKLKKNMTNVSFHFLDGQHSYST--MRDMVADGTADMAAGYISILDTRLEDVSFTYPYYDLHIAFVYKPTKVKWAKFWRAIEPFTVELWLLLGGCTVVATCLLWLFEREESGHFANSGEKGRSYRQARVTTGMLSSAYATVCLLMGQLVHPPKTLEGHILTVGWTFLGFALAASYTAQLALVLLKE-DSTTDVSIDNMKGKTITPSQVALLNDTYAEKLYERDFLPLF-QTNGSAKDDLETPEPCFSDDQCLEMVNDDNNPVKVTLLDSPTAEYLLGNKFCELEMLADKMYPHHYGLMLAHDSTCTRMFTEPTLRIRQDNIIWPKVLEYSSDGGSC-------DVNTSSDRMGIEHASGILAVCGSLMTLSLVMW 2969
            SS AS+L + SN ++ +P++T  A+AAR++    T F     G    G YL GV PD++ +M+AL RLILDMK  +   R     +ERVS++++DD YG  A++AF  A R              M +++++  +  +    G DY   L+ LV D A+IVVLL+EGYDG  VRS+ E+A  VGL  E VQWYL  A+AMD +F  + +YH+S LA + RG LGVR C  +    + A L NLT  WE LD D YPGA    +T  G++DPLLA+AYDA FV A A   +  ++T     GV          G W +GA IR+A     +    GVTG +       TV      A +  R  +  ++CA+ L+ H+++GA F  ++ L   E      G L    +    Q  +   +    Y          +F V+      PF F     ++     G+    LE L   +   +++      S ST  +   V++GT DM A +++I + RL+ VSF+YP+    ++FVY+P  +    +W+  +PF  +LW+L+ G TVV   LLWLF+  ++  F + G    +  + R+++GM  S+Y T  LLMGQ+VH P T+E +ILT GW F  F L AS+TA+LA  L  E +      +D++K   +  +QVA+  +   +  YE + +  + +       D   P  C++ D+C E+V  DN  VKVTL+DS TA Y + +++C L++L++     H+GL+L  DS     F    L + ++  +   + E   D   C         +++S  + +   +G+  +    M  SLV+W
Sbjct:    3 SSQASLLETVSNDFFGLPMVTPSASAARAN----TYFSSGAYGLGGKGSYLFGVQPDVFSEMEALARLILDMKVERDLDRGWYRTTERVSMIYSDDTYGAVAASAFVRAVRRTEGMNIDSTAAGEMPSSIELAKSEPVNTILGTDYRPTLSALVEDRASIVVLLSEGYDGTFVRSVLEQALEVGLANEDVQWYLSGASAMDGIFSHNESYHDSQLAYDFRGMLGVRACPAIQGSGSEA-LANLTSRWEALDSDKYPGAGIGTLTPGGRLDPLLAYAYDAAFVLATAVAAV--QSTAADWGGVLEGFVTGKAAGLWQDGAFIREAALGTEIV---GVTGPVAFRESASTVTSGAGTAGSGWRRTNGTEFCALNLQAHASLGATF-EATMLWRPETFVDTNGTLATFEKISPNQKNQTFPSGGDVYPFDRPTLSRQHFEVITEEATVPFAFITRRENQTEEYTGIALDLLEVLSGRL-GFTYNISVANSSVSTDEVIGYVSNGTYDMVASWVTISERRLDTVSFSYPFMATGLSFVYRPEVLDKVNWWKMFQPFERQLWILITGTTVVMVALLWLFDGAKNEIFTD-GVPTATGSKRRLSSGMAMSSYVTGALLMGQMVHAPYTVESYILTSGWMFACFILGASFTAELASFLAAEKEEALSFGVDDLKNGAVPHTQVAVRQEDTLQAFYEEEIMGCYGEAECYGGGDQNVPVTCYTIDECFELV--DNETVKVTLVDSITAAYRVADEYCGLDILSETFNKGHFGLVLEKDSPYLGEFELAMLELEEEGTL-ADITEPYFDTSRCAYLEDYEGASSTSQNLKLVDLAGVFLILTMFMAASLVVW 829
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BLAST of mRNA_H-fluviatilis_contig1023.519.1 vs. uniprot
Match: D7FGS3_ECTSI (PBPe domain-containing protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FGS3_ECTSI)

HSP 1 Score: 401 bits (1031), Expect = 5.180e-117
Identity = 281/846 (33.22%), Postives = 430/846 (50.83%), Query Frame = 3 
Query:  588 GSSSASVLGSFSNTYWHVPLLTVGAAAARSDGREVTTFEEERLG----GGYLLGVHPDIYPQMKALVRLILDMKPNKRSGRN--DLSERVSVLHTDDDYGNTASTAFAHAARTVS-----------MGATVDIGATTAIPVTAGADYSSILAELVNDNATIVVLLAEGYDGRVVRSIFEKARHVGLV-EGVQWYLPDAAAMDSVFQESPTYHNSALANEMRGTLGVRVCTDLTDKEAAAKLDNLTRLWEGLDRDLYPGAR--NVTADGQIDPLLAFAYDAVFVAAGAAGFIHDETTTDTVIGVSLDSCPFPTVGPWANGAVIRDAMYRFTLADTGGVTGSLRM-----TVGESQHYAAADGRNADTVDYCAVQLRTHSTMGARFVSSSALDGGELGEKYRGVLQDTHEHVLEQTVEASATASQCY----------NFSVVRPADLKPFLFYDEEHGVIG-VTPFFLEKLKKNMTNVSFHFLDGQHSYSTMRD----MVADGTADMAAGYISILDTRLEDVSFTYPYYDLHIAFVYKPTKVKWAKFWRAIEPFTVELWLLLGGCTVVATCLLWLFEREESGHFANSGEKGRSYRQARVTTGMLSSAYATVCLLMGQLVHPPKTLEGHILTVGWTFLGFALAASYTAQLALVLLKE-DSTTDVSIDNMKGKTITPSQVALLNDTYAEKLYERDFLPLFQTNGSAK----DDLETPEPCFSDDQCLEMVNDDNNPVKVTLLDSPTAEYLLGNKFCELEMLADKMYPHHYGLMLAHDSTCTRMFTEPTLRIRQDNIIWPKVLEYSSDGGSC-------DVNTSSDRMGIEHASGILAVCGSLMTLSLVMW 2969
            G+  AS+L + SN ++ +P++T  A+AAR++    T F     G    G YL GV PD++ +M+AL RLILDMK  +   R     +ERVS+++ DD YG  A++AF  A R              M +++++  +  +    G DY   L+ LV D+A+IVV L+EGYDG  VRS+ E+A  VGL  E VQWYL   +AMD +F  + +YH+S LA + RG LGVR C  +    + A L NLT  W  LD D YPGA    +T  G++DPLLA+AYDAVFV A A   +   T TD   GV        + G W +GA IR+A     +    GVTG +        V      A +  R  +  ++CA+ L+ H+++GA F +++ L   E      G L         Q  +     S  Y          +F V+      PF          G  T   L+ L+     + F +     + S   D     V++GT DM A +++I + RL+ VSF+YP+    ++FVY+P  +    +W+  +PF   LW+L+ G TVV   LLWLF+  +       G    +  + R+++GM  S+Y T  LLMGQ+ H P T+E +ILT GW F  F L AS+TA+LA  L  E +      +D++K   +  +QVA+  +   +  YE + +  +   G+A+    +D   P  C++ ++C E+V  DN  VKVTL+DS TA Y + +++C L++L+D     H+GL+L  DS     F    L + ++  +   + E   D   C       D +++S  + +   +G+  +    +  SLV+W
Sbjct:   57 GTFGASLLETVSNDFFGLPMVTPSASAARAN----TYFSSGAYGLGGEGSYLFGVQPDVFSEMEALARLILDMKVERDLDRGWYRTTERVSMIYPDDTYGAVAASAFVRAVRGTEGINIDSNAAGEMPSSMELAKSEPVDPILGTDYRPTLSALVEDHASIVVFLSEGYDGAFVRSVLEQALEVGLANEDVQWYLSGPSAMDGIFSHNESYHDSQLAYDFRGMLGVRACPAIKGSGSEA-LANLTSRWAALDSDKYPGAGFGTLTPGGRLDPLLAYAYDAVFVLAAAVATVQ-STATDWG-GVLEGFVTGKSAGLWQDGAFIREAALGTEIV---GVTGPVAFRESTSAVTSGAGTAGSGWRRTNGTEFCALNLQAHASLGATF-ATTMLWKPETFVDSNGTLATFENISPYQKNQTFPAGSDVYPFDRPTLSRQHFKVITEEAAVPFAVITGRENQTGDYTGIALDLLEVLSGRLGFTYNISVANASISTDEVIGYVSNGTYDMVASWVTINERRLDTVSFSYPFMATGLSFVYRPEVLDKVNWWKMFQPFERPLWMLIIGTTVVMFALLWLFDGAKKNELFTDGVPTATGSKRRLSSGMAMSSYVTGALLMGQMAHEPYTVESYILTSGWMFACFILGASFTAELASFLAAEKEEALSFGVDDLKNGAVPHTQVAVRQEDGLQAFYEEEIMGCY---GAAECYGGEDENFPVTCYTIEECFELV--DNETVKVTLVDSVTAAYRVADEYCGLDILSDTFNKEHFGLVLEKDSPYLGEFELALLELEEEGTL-ADIAEPYFDTSRCAYLEDYEDASSTSQNLKLVDLAGVFLILTMFVAASLVVW 885
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BLAST of mRNA_H-fluviatilis_contig1023.519.1 vs. uniprot
Match: D7G1B0_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G1B0_ECTSI)

HSP 1 Score: 374 bits (961), Expect = 5.970e-112
Identity = 252/643 (39.19%), Postives = 339/643 (52.72%), Query Frame = 3 
Query:  609 LGSFSNTYWHVPLLTVGAAAARSDGREVTTFEEERLGGGYLLGVHPDIYPQMKALVRLILDMKPNKRS--GRNDLSERVSVLHTDDDYGNTASTAFAHAARTVSMGA---------------------TVDIGATTAIPVTAGADYSSILAELVNDNATIVVLLAEGYDGRVVRSIFEKARHVGLVEGVQWYLPDAAAMDSVFQESPTYHNSALANEMRGTLGVRVCTDLTDKEAAAKLDNLTRLWEGLDRDLYPGARNVTADGQIDPLLAFAYDAVFVAAGAAGFIHDETTTDTVIGVSLDSCPFPTVGPWANGAVIRDAMYRFTLADTG---GVTGSLRMTVGESQHYAAADGRNADTVDYCAVQLRTHSTMGARFVSSSALDGGELGEKYRGVLQDTHEHVLEQTVEASATAS-------QCYNFSVVRPADLKPFLFYDEEHGVI----GVTPFFLEKLKKNMTNVSFHFLDGQHSYSTMR--DMVADGTADMAAGYISILDTRLEDVSFTYPYYDLHIAFVYKPTKVKWAKFWRAIEPFTVELWLLLGGCTVVATCLLWLFEREESGHFANSGEKGRSYRQARVTTGMLSSAYATVCLLMGQLVHPPKTLEGHILTVGWTFLGFALAASYTAQLALVL 2420
            +GS SN Y  +PL++V   AAR++ R  T        GGYLL   P + PQM+ LVRLILDMK  + +  GR++ +ERV ++HT D +G  A+ AF  AA T+S+                       TV++  T  I  ++   + S LA LV++ A+I+VLLAEG+DG ++R++  +A   GL EGVQWYLP+ AA D VF  + TY +++LA +MRG LGVR CT  T K A    D LT               NV   G                               + G++LDSCPFP  G WA+GA++RD++    L+ +G   G TG L M+VGE       DGR+ADTV +CAV L+  +T GARF   S LDG  L  +     Q        QT  A A          Q  +  VV   D  PF+F D +   I    G+TP FL++L  ++   ++         +T    +MV +G+ADM   +I+I   R E VSFTYPY+DL IAFVY PT  +   FW+A  PF   LWL+L    VV   LLWLFE  ++  F+  G  GR +R   VT G+  S Y T  L+M QL H P+TLEG++LT+GW F  F LAASYTA+LA  L
Sbjct:    1 MGSLSNEYLDLPLMSVAGTAARAESRNETE-------GGYLLHTQPGVVPQMQVLVRLILDMKLARDAVDGRSETTERVWLVHTSDTFGTIATAAFNAAATTISVALPDTSDXXXXXXXXXXXXXXXXTVEVAGTVVIAASSETMFDSELATLVDNEASIIVLLAEGFDGAIIRTVLSQANEAGLTEGVQWYLPNVAAFDHVFDRNSTYRDASLAFDMRGALGVRACTPRTGKMAQ---DTLT-------------LANVNGSG-------------------------------LQGIALDSCPFPRNGSWADGALMRDSL----LSASGTLVGATGPLGMSVGEDD-----DGRDADTVTFCAVNLKPDATHGARFEVISTLDGATLESEDGEGFQAISPFQEAQTFPAGALTYPPDRPILQGRHMDVVMRRDAPPFVFVDGDGSSIDDFTGITPEFLKQLA-DVVGFTYSLRAPPEGTTTPETIEMVRNGSADMTGSWITITSERAEYVSFTYPYFDLGIAFVYLPTIDEGVNFWKAFAPFEASLWLMLLVSLVVTVFLLWLFEGAKNAQFSRGGW-GRRHRT--VTRGISRSVYVTSSLMMSQLTHKPETLEGYLLTLGWLFTSFVLAASYTAELASFL 576
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BLAST of mRNA_H-fluviatilis_contig1023.519.1 vs. uniprot
Match: A0A6H5JES6_9PHAE (PBPe domain-containing protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JES6_9PHAE)

HSP 1 Score: 212 bits (539), Expect = 1.460e-55
Identity = 176/508 (34.65%), Postives = 223/508 (43.90%), Query Frame = 3 
Query: 1431 GVSLDSCPFPTVGPWANGAVIRDAMYRFTLADTG---GVTGSLRMTVGESQHYAAADGRNADTVDYCAVQLRTHSTMGARFVSSSALDGGELGEKYRGVLQDTHEHVLEQTVEASATAS-------QCYNFSVVRPA--------DLKPFLFYDEEHGVI----GVTPFFLEKLKKNMTNVSFHFL---DGQHSYSTMRDMVADGTADMAAGYISILDTRLEDVSFTYPYYDLHIAFVYKPTKVKWAKFWRAIEPFTVELWLLLGGCTVVATCLLWLFEREESGHFANSGEKGR---------------------------SYRQARVTTGMLS-------SAYATVCLLMGQLVHPPKTLEGHILTVGWTFLGFALAASYTAQLALVLLKEDSTTDVSIDNMKGKTITPSQVALLNDTYAEKLYERDFLPLFQTNGSAKDDLETPEPCFSDDQCLEMVNDDNNPVKVTLLDSPTAEYLLGNKFCELEMLADKMYPHHYGLMLAHDST 2777
            G+ LDSCPFP  G WA+GA++RD++    L+ +G   G TG L M+VGE       DGR+ DTV +CAV L+  +T GARF   S LDG  L  +     Q        QT  A A          Q  +  V  P         D  PF+F D +   I    G+TP FLEKL  ++   ++      +G  +  T+ +MV +G+ADM   +I+I   R E VSFTYPY+DL IAFVY PT  +   FW+A  PF   LWL+L    VV   LLWLFE  ++  F+  G   R                           S R  R  TG+L        S Y T  L+M QL H P+TLEG++LT+GW F  F LAASYTA+LA  L      T V                                     NGSA                             TL DS TA+Y L N FC L  LA+ +YP    L L  D T
Sbjct:   18 GIVLDSCPFPRNGSWADGALMRDSL----LSASGTLVGATGPLGMSVGEDD-----DGRDVDTVTFCAVNLKPDATHGARFEVISTLDGATLDSEDGEGFQAISPFQEAQTFPAGALTYPPDRPILQGRHMDVRTPPGGGVVMRRDAPPFVFVDGDGSSIDDFTGITPEFLEKLA-DVVGFTYSLRAPPEGTTTPDTI-EMVRNGSADMTGSWITITSERAEYVSFTYPYFDLGIAFVYLPTIDEGVNFWKAFAPFEASLWLMLLVSLVVTVVLLWLFEGAKNDQFSRGGWGRRHRTVTRVRQGGDGWGTLMFRMLRIGHASSRGLRGRTGVLHAIAGISRSVYVTSSLMMSQLTHKPETLEGYLLTLGWLFTSFVLAASYTAELASFLTASKLETTV------------------------------------LNGSAL---------------------------TTLADSATADYQLQNDFCGLTTLAEVLYPQA-TLQLREDGT 450
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BLAST of mRNA_H-fluviatilis_contig1023.519.1 vs. uniprot
Match: A0A6H5J962_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5J962_9PHAE)

HSP 1 Score: 167 bits (423), Expect = 6.040e-43
Identity = 104/249 (41.77%), Postives = 141/249 (56.63%), Query Frame = 3 
Query:  609 LGSFSNTYWHVPLLTVGAAAARSDGREVTTFEEERLGGGYLLGVHPDIYPQMKALVRLILDMK------PNKRSG---------RNDL-----SERVSVLHTDDDYGNTASTAFAHAARTVSMG-------------------ATVDIGATTAIPVTAGADYSSILAELVNDNATIVVLLAEGYDGRVVRSIFEKARHVGLVEGVQWYLPDAAAMDSVFQESPTYHNSALANEMRGTLGVRVCTDLTDK 1238
            +GS SN Y  +PL++V   AAR++ R  T        GGYLL   P + PQM+ALVRLILDMK        +R G         RN L     +ERV ++HT D +G  A+ AF +AA T+S+                    ATV++  T  I  ++ A + S LA LV++ A+I+VLLAE +DG +VR++  +A   GL EGVQWYLP+ AA D VF  + TY +++LA +MRG LGVR CT  T K
Sbjct:    1 MGSLSNEYLDLPLMSVAGTAARAESRNETE-------GGYLLHTQPGVVPQMQALVRLILDMKLARDAVDGRREGGGAEARERERNPLLLSETTERVWLVHTSDTFGTIATAAFNNAATTISVALPNTSDXXXXXXXIGEEERATVEVAGTVVIAASSEAMFDSELATLVDNEASIIVLLAEAFDGAIVRTVLSQANEAGLTEGVQWYLPNVAAFDHVFDRNSTYRDASLAFDMRGALGVRACTPRTGK 242
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BLAST of mRNA_H-fluviatilis_contig1023.519.1 vs. uniprot
Match: A0A820Y9C2_9BILA (Hypothetical protein n=8 Tax=Rotaria sp. Silwood1 TaxID=2762511 RepID=A0A820Y9C2_9BILA)

HSP 1 Score: 102 bits (255), Expect = 2.540e-18
Identity = 101/385 (26.23%), Postives = 170/385 (44.16%), Query Frame = 3 
Query: 1851 VIGVTPFFLEKLKKNMTNVSFHFL--DGQHSYSTMRDMVADGTADMAAGYISILDTRLEDVSFTYPYYDLHIAFVYKPTKVKWAKFWRAIEPFTVELWLLLGGCTVVATCLLWLFEREESGHFANSGEKGRSYRQARVTTGMLSSAYATVCLLMGQLV-----HPPKTLEGHILTVGWTFLGFALAASYTAQLALVLLKEDSTTDVS-IDNMKGKTITPSQVALLNDTYAEKLYERDFLPLFQTNGSAKD--DLETPEPCFSDDQCLEMVNDDNNPVKVTLLDSPTAEYLLGNKFCELEMLADKMYPHHYGLMLAHDSTCTRMFTEPTLRIRQDNIIWPKVLEYSSDGGSCDVNTS--SDRMGIEHASGILAVCGSLMTLSLVMW 2969
            +IG  P  +  L+  M  +  HF+      +Y  +   VA+   D+A G +++   R E V F+   +D  I  + + T          ++PF++ LWL L  CTV AT LL + ER+E     N   + RS         M+SSA  ++   +G ++        +T  G +L+VG   L   L A+YTA LA  L    S   +S ID++K   +  S++ +L D+  E  Y R+       +G  ++   L+T +  +S    L      NN + V++LD    EY   N +C L ++     P  YG+         +      L +R+  ++     ++       D+ +S  S  + IE  SG+    G +  LSLV++
Sbjct:  492 LIGYLPDLINILQTRMGFIP-HFIYPPANQTYGGLVQAVANSVCDVAIGDVTVTARRREIVDFSTSIFDNSIRIIVRQTTTVNLDLLSYLKPFSLNLWLTLLVCTVYATVLLCILERQE-----NEALQNRS---------MISSAAMSLWYSIGTIMGYGADFHAQTAAGRLLSVGLYLLSMVLVATYTANLASNLTISKSKGFISGIDDIKNGKVPFSRIGILVDSSQEDYYLREI------SGGIRNYYPLKTQDELYS--SLL------NNSIDVSILDIGAVEYFTNNIYCNLTLVGADFAPSSYGIAYPKQWLYGKDLDVIILSLRESGVLDDLKKKWFEKNVCQDLPSSYVSTSINIETMSGLFLTFGIISILSLVLF 847
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BLAST of mRNA_H-fluviatilis_contig1023.519.1 vs. uniprot
Match: A0A821MK32_9BILA (Hypothetical protein n=5 Tax=Rotaria sp. Silwood1 TaxID=2762511 RepID=A0A821MK32_9BILA)

HSP 1 Score: 94.0 bits (232), Expect = 1.320e-15
Identity = 90/381 (23.62%), Postives = 166/381 (43.57%), Query Frame = 3 
Query: 1854 IGVTPFFLEKLKKNMTNVSFHFLDGQHSYSTMRDMVADGTADMAAGYISILDTRLEDVSFTYPYYDLHIAFVYKPTKVKWAKFWRAIEPFTVELWLLLGGCTVVATCLLWLFEREESGHFANSGEKGRSYRQARVTTGMLSSAYATVCLLMGQLVHPPKTLEGHILTVGWTFLGFALAASYTAQLALVLLKEDSTTDVS-IDNMKGKTITPSQVALLNDTYAEKLYERDFLPLFQTNGSAKDDLETPEPCFSDDQCLEMVNDDNNPVKVTLLDSPTAEYLLGNKFCELEMLADKMYPHHYGLMLAHDSTCTRMFTEPTLRIRQ----DNI--IWPKVLEYSSDGGSCDVNTSSDRMGIEHASGILAVCG--SLMTLSLVMW 2969
            IG  P  ++ L+K M  ++   L    +YS++ +++ +G  D+  G +++   R E V F+   ++  +  V + T          ++PFT+ LWLL+ G T++   L+ L ER+++          +  +Q+ +    ++  Y+   L+        KT+ G +LT G   L   L ASYTA L   L    S   +S ID++K   I  +++ +L  T +E+ Y R+     +     K   E  +               NN + VT  D   AEY+  N +C   +L +      +G++        +      L +++    DN+   W  + +        D +T+S  +GIE   G+  + G   +++LSL  W
Sbjct:  497 IGYIPDLIDHLQKKMKFIANIELISNRTYSSLGELIENGVYDIIVGDVTVTAVRREKVGFSQAIFENSLRIVMRKTPDVQIDPLAFLKPFTLSLWLLILGTTIMTGILICLLERQKNQ---------KRQKQSIMNVCAMAMWYSFGNLIGFGADFDVKTVGGRLLTAGLYLLCLVLVASYTANLTSDLTVAKSKNVISGIDDIKSGKIPFNRIGILIGTASEEFYLREISSSSRNFYPLKSRKEMYDSLV------------NNLIDVTFNDVGVAEYMTNNIYCNATLLGEDFNKGVFGIITPKQWLYGQDLDVHILSLKESGDLDNLRRTWFHIKKCP------DSSTTSIAIGIESLIGLFIMFGVICILSLSLFAW 850
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BLAST of mRNA_H-fluviatilis_contig1023.519.1 vs. uniprot
Match: A0A821PDA5_9BILA (Hypothetical protein n=4 Tax=Rotaria sp. Silwood1 TaxID=2762511 RepID=A0A821PDA5_9BILA)

HSP 1 Score: 86.7 bits (213), Expect = 2.350e-13
Identity = 86/381 (22.57%), Postives = 161/381 (42.26%), Query Frame = 3 
Query: 1857 GVTPFFLEKLKKNMTNVSFHFLDGQHSYSTMRDMVADGTADMAAGYISILDTRLEDVSFTYPYYDLHIAFVYKPTKVKWAKFWRAIEPFTVELWLLLGGCTVVATCLLWLFEREESGHFANSGEKGRSYRQARVTTGMLSSAYATVCLLMGQLVHPPKTLEGHILTVGWTFLGFALAASYTAQLALVLLKEDSTTDVS-IDNMKGKTITPSQVALLNDTYAEKLY-------ERDFLPLFQTNGSAKDDLETPEPCFSDDQCLEMVNDDNNPVKVTLLDSPTAEYLLGNKFCELEMLADKMYPHHYGLMLAHDSTCTRMFTEPTLRIRQDNIIWPKVLEYSSDGGSCDVNTSSDRMGIEHASGILAVCG--SLMTLSLVMW 2969
            G  P  ++ L+K M  +    L    +Y+++  ++ +G  D+  G +++   R E V F+   ++  +  + + T          ++PFT+ LWLL+ G T++   L+ L ER++        EK R  +Q+ +    ++  Y    L+        +T  G +LT G   L   L ASYTA L   L    S   +S ID++K   I  +++ ++  T +E+ Y        R+F PL ++     D L                   NN + V   D+  AEYL  N +C   ++ +      +G++        +      L +++  ++      +       D + +S  +GIE   G+  + G   +++LSL  W
Sbjct:  497 GYIPDLIDHLQKKMGFIPNIELISNQTYASLGKLIENGMYDIIVGDVTVTSLRREKVGFSQAIFENSLRIIMRETPNTRFDPLAFLKPFTLSLWLLILGTTIMTGILICLLERQKD-------EKRR--KQSVMNVCAMAVWYTFGNLIGFGADFNVRTASGRLLTAGLYLLCLVLVASYTANLTSDLTIAKSKNVISGIDDIKNGKIPFNRIGIVIGTASEEFYLREISSGNRNFYPL-KSRKEMYDSLV------------------NNLIDVIFNDAGVAEYLTNNIYCNATLIGEDFDKGVFGIITPKQWLYGQDLDVHILSLKESGVLDDLRRTWFQVKKCPDSSVTSTAIGIESLLGLFVIFGVICILSLSLFAW 849
[Close]
BLAST of mRNA_H-fluviatilis_contig1023.519.1 vs. uniprot
Match: A0A815MSM0_9BILA (Hypothetical protein n=8 Tax=Rotaria sp. Silwood1 TaxID=2762511 RepID=A0A815MSM0_9BILA)

HSP 1 Score: 79.3 bits (194), Expect = 4.730e-11
Identity = 74/309 (23.95%), Postives = 135/309 (43.69%), Query Frame = 3 
Query: 1857 GVTPFFLEKLKKNMTNVSFHFLDGQHSYSTMRDMVADGTADMAAGYISILDTRLEDVSFTYPYYDLHIAFVYKPTKVKWAKFWRAIEPFTVELWLLLGGCTVVATCLLWLFEREESGHFANSGEKGRSYRQARVTTGMLSSAYATVCLLMGQLVHPPKTLEGHILTVGWTFLGFALAASYTAQLALVLLKEDSTTDVS-IDNMKGKTITPSQVALLNDTYAEKLY-------ERDFLPLFQTNGSAKDDLETPEPCFSDDQCLEMVNDDNNPVKVTLLDSPTAEYLLGNKFCELEMLADKMYPHHYGLM 2759
            G  P  ++ L+K M  +    L    +Y+++  ++ +G  D+  G +++   R E V F+   ++  +  + + T          ++PFT+ LWLL+ G T++   L+ L ER++        EK R  +Q+ +    ++  Y+   L+        +T  G +LT G   L   L ASYTA L   L    S   +S ID++K   I  +++ ++  T +E+ Y        R+F PL ++     D L                   NN + V   D+  AEYL  N +C   ++ +      +G++
Sbjct:  497 GYIPDLIDHLQKKMGFIPNIELISNQTYASLGKLIENGIYDIIVGDVTVTAVRREKVGFSQAIFENSLRIIMRETPNTRFDPLAFLKPFTLSLWLLILGTTIMTGILICLLERQKD-------EKRR--KQSVMNVCAMAVWYSFGNLIGFGADFNVRTASGRLLTAGLYLLCLVLVASYTANLTSDLTIAKSKNVISGIDDIKNGKIPFNRIGIVIGTASEEFYLREISSGNRNFYPL-KSRKEMYDSLV------------------NNLIDVIFNDAGVAEYLTNNIYCNATLIGEDFDKGVFGII 777
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BLAST of mRNA_H-fluviatilis_contig1023.519.1 vs. uniprot
Match: A0A6P8IYX9_ACTTE (glutamate receptor ionotropic, NMDA 1-like n=1 Tax=Actinia tenebrosa TaxID=6105 RepID=A0A6P8IYX9_ACTTE)

HSP 1 Score: 73.6 bits (179), Expect = 2.410e-9
Identity = 86/343 (25.07%), Postives = 144/343 (41.98%), Query Frame = 3 
Query: 1968 GTADMAAGYISILDTRLEDVSFTYPYYD--LHIAFVYKPTKVKWAKFWRAIEPFTVELWLLLGGCTVVATCLLWLFEREES-GHFANSGEKGRSYRQARV--TTGMLSSAYATVCLLMGQLVHPPKTLEGHILTVGWTFLGFALAASYTAQLALVLLKEDSTTDVS-IDNMK----GKTITPSQVALLNDTYAEKLYERDFLPLFQT------NGSAKDDLETPEPCFSDDQCLEMVNDDNNPVKVTLLDSPTAEYLLGN-KFCELEMLADKMYPHHYGLMLAHDSTCTRMFTEPTLRIRQDNIIWPKVLEYSSDGGSC----DVNTSSDRMGIEHASGILAV 2933
            G  D+A   ++I + R + V FT P+    ++I    +  +  W    R +EPFT+ELW+L+     +   LLWL +R+   GH+     KG+ Y++ +       L  ++ TV   + +    P+     ++TV + F    L  +YTA LA VL+ E     +S I + K     K  T   VA   DT  EK ++     ++          S K   E        +            +   + D PT  Y +G  K C+L++     +   +GL L  +ST T+ F++  + I+ + +   + L      GSC    D      RM I+   G  A+
Sbjct:  377 GEVDLAIADLTITNLRSQAVDFTQPFLHSGMNILVAVRINRTGWLL--RFLEPFTIELWVLIVVTINIIVILLWLIDRKSPCGHY----RKGKDYKERKKFHLIASLWFSWGTV-FHIDECEARPRCYSSRLITVVFAFAMLVLTNTYTANLAAVLVSEGEVLPLSGIQDPKLQNPPKGFTVGTVA---DTSLEKTFKGSKSAVYSQIWRNIKGNSVKTFAEGVRKVIEGE------------LTAFIGDEPTLMYHIGRQKSCDLKLAGKPFFHSGFGLALPKNSTLTKRFSK--VLIQYEQLDTSRKLSNRWLRGSCGAKEDGKAIFKRMAIDDVGGGYAI 695
The following BLAST results are available for this feature:
BLAST of mRNA_H-fluviatilis_contig1023.519.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 14
Match NameE-valueIdentityDescription
D7FGS4_ECTSI6.590e-12233.57PBPe domain-containing protein n=2 Tax=Ectocarpus ... [more]
D7FGS3_ECTSI5.180e-11733.22PBPe domain-containing protein n=1 Tax=Ectocarpus ... [more]
D7G1B0_ECTSI5.970e-11239.19Uncharacterized protein n=1 Tax=Ectocarpus silicul... [more]
A0A6H5JES6_9PHAE1.460e-5534.65PBPe domain-containing protein n=1 Tax=Ectocarpus ... [more]
A0A6H5J962_9PHAE6.040e-4341.77Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
A0A820Y9C2_9BILA2.540e-1826.23Hypothetical protein n=8 Tax=Rotaria sp. Silwood1 ... [more]
A0A821MK32_9BILA1.320e-1523.62Hypothetical protein n=5 Tax=Rotaria sp. Silwood1 ... [more]
A0A821PDA5_9BILA2.350e-1322.57Hypothetical protein n=4 Tax=Rotaria sp. Silwood1 ... [more]
A0A815MSM0_9BILA4.730e-1123.95Hypothetical protein n=8 Tax=Rotaria sp. Silwood1 ... [more]
A0A6P8IYX9_ACTTE2.410e-925.07glutamate receptor ionotropic, NMDA 1-like n=1 Tax... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
H-fluviatilis_contig1023contigH-fluviatilis_contig1023:8191..23741 -
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 Heribaudiella fluviatilis SAG_13_902021-02-24
Properties
Property NameValue
Taxonomic scopeEukaryota
Seed ortholog score415.2
Seed ortholog evalue8.6e-113
Seed eggNOG ortholog2880.D7FGS4
EggNOG free text desc.NMDA glutamate receptor activity
EggNOG OGsKOG4440@1,KOG4440@2759
COG Functional cat.U
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
Hectar predicted targeting categorysignal anchor
Exons20
Model size4042
Cds size3048
Stop1
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_H-fluviatilis_contig1023.519.1prot_H-fluviatilis_contig1023.519.1Heribaudiella fluviatilis SAG_13_90polypeptideH-fluviatilis_contig1023 9153..23709 -


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

Feature NameUnique NameSpeciesTypePosition
1622929059.5829358-UTR-H-fluviatilis_contig1023:8190..91521622929059.5829358-UTR-H-fluviatilis_contig1023:8190..9152Heribaudiella fluviatilis SAG_13_90UTRH-fluviatilis_contig1023 8191..9152 -
1691135167.2031977-UTR-H-fluviatilis_contig1023:8190..91521691135167.2031977-UTR-H-fluviatilis_contig1023:8190..9152Heribaudiella fluviatilis SAG_13_90UTRH-fluviatilis_contig1023 8191..9152 -
1622929060.3279908-UTR-H-fluviatilis_contig1023:23709..237411622929060.3279908-UTR-H-fluviatilis_contig1023:23709..23741Heribaudiella fluviatilis SAG_13_90UTRH-fluviatilis_contig1023 23710..23741 -
1691135167.4421756-UTR-H-fluviatilis_contig1023:23709..237411691135167.4421756-UTR-H-fluviatilis_contig1023:23709..23741Heribaudiella fluviatilis SAG_13_90UTRH-fluviatilis_contig1023 23710..23741 -


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

Feature NameUnique NameSpeciesTypePosition
1622929059.59746-CDS-H-fluviatilis_contig1023:9152..91711622929059.59746-CDS-H-fluviatilis_contig1023:9152..9171Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 9153..9171 -
1691135167.2230742-CDS-H-fluviatilis_contig1023:9152..91711691135167.2230742-CDS-H-fluviatilis_contig1023:9152..9171Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 9153..9171 -
1622929059.608862-CDS-H-fluviatilis_contig1023:9505..97681622929059.608862-CDS-H-fluviatilis_contig1023:9505..9768Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 9506..9768 -
1691135167.2339373-CDS-H-fluviatilis_contig1023:9505..97681691135167.2339373-CDS-H-fluviatilis_contig1023:9505..9768Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 9506..9768 -
1622929059.621004-CDS-H-fluviatilis_contig1023:10229..102831622929059.621004-CDS-H-fluviatilis_contig1023:10229..10283Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 10230..10283 -
1691135167.241811-CDS-H-fluviatilis_contig1023:10229..102831691135167.241811-CDS-H-fluviatilis_contig1023:10229..10283Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 10230..10283 -
1622929059.6340673-CDS-H-fluviatilis_contig1023:10791..109081622929059.6340673-CDS-H-fluviatilis_contig1023:10791..10908Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 10792..10908 -
1691135167.249974-CDS-H-fluviatilis_contig1023:10791..109081691135167.249974-CDS-H-fluviatilis_contig1023:10791..10908Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 10792..10908 -
1622929059.6475472-CDS-H-fluviatilis_contig1023:12219..122841622929059.6475472-CDS-H-fluviatilis_contig1023:12219..12284Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 12220..12284 -
1691135167.2654953-CDS-H-fluviatilis_contig1023:12219..122841691135167.2654953-CDS-H-fluviatilis_contig1023:12219..12284Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 12220..12284 -
1622929059.6576886-CDS-H-fluviatilis_contig1023:13266..133391622929059.6576886-CDS-H-fluviatilis_contig1023:13266..13339Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 13267..13339 -
1691135167.273651-CDS-H-fluviatilis_contig1023:13266..133391691135167.273651-CDS-H-fluviatilis_contig1023:13266..13339Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 13267..13339 -
1622929059.6706362-CDS-H-fluviatilis_contig1023:14094..141421622929059.6706362-CDS-H-fluviatilis_contig1023:14094..14142Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 14095..14142 -
1691135167.2814958-CDS-H-fluviatilis_contig1023:14094..141421691135167.2814958-CDS-H-fluviatilis_contig1023:14094..14142Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 14095..14142 -
1622929060.1211627-CDS-H-fluviatilis_contig1023:14379..145561622929060.1211627-CDS-H-fluviatilis_contig1023:14379..14556Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 14380..14556 -
1691135167.289732-CDS-H-fluviatilis_contig1023:14379..145561691135167.289732-CDS-H-fluviatilis_contig1023:14379..14556Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 14380..14556 -
1622929060.1369805-CDS-H-fluviatilis_contig1023:15130..152981622929060.1369805-CDS-H-fluviatilis_contig1023:15130..15298Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 15131..15298 -
1691135167.2979233-CDS-H-fluviatilis_contig1023:15130..152981691135167.2979233-CDS-H-fluviatilis_contig1023:15130..15298Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 15131..15298 -
1622929060.1539063-CDS-H-fluviatilis_contig1023:16010..162261622929060.1539063-CDS-H-fluviatilis_contig1023:16010..16226Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 16011..16226 -
1691135167.3056893-CDS-H-fluviatilis_contig1023:16010..162261691135167.3056893-CDS-H-fluviatilis_contig1023:16010..16226Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 16011..16226 -
1622929060.1703637-CDS-H-fluviatilis_contig1023:16604..166881622929060.1703637-CDS-H-fluviatilis_contig1023:16604..16688Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 16605..16688 -
1691135167.3135386-CDS-H-fluviatilis_contig1023:16604..166881691135167.3135386-CDS-H-fluviatilis_contig1023:16604..16688Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 16605..16688 -
1622929060.1900625-CDS-H-fluviatilis_contig1023:17343..174151622929060.1900625-CDS-H-fluviatilis_contig1023:17343..17415Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 17344..17415 -
1691135167.3231268-CDS-H-fluviatilis_contig1023:17343..174151691135167.3231268-CDS-H-fluviatilis_contig1023:17343..17415Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 17344..17415 -
1622929060.2034209-CDS-H-fluviatilis_contig1023:18106..182621622929060.2034209-CDS-H-fluviatilis_contig1023:18106..18262Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 18107..18262 -
1691135167.3327515-CDS-H-fluviatilis_contig1023:18106..182621691135167.3327515-CDS-H-fluviatilis_contig1023:18106..18262Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 18107..18262 -
1622929060.219236-CDS-H-fluviatilis_contig1023:18439..185601622929060.219236-CDS-H-fluviatilis_contig1023:18439..18560Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 18440..18560 -
1691135167.3449774-CDS-H-fluviatilis_contig1023:18439..185601691135167.3449774-CDS-H-fluviatilis_contig1023:18439..18560Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 18440..18560 -
1622929060.234232-CDS-H-fluviatilis_contig1023:19931..201451622929060.234232-CDS-H-fluviatilis_contig1023:19931..20145Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 19932..20145 -
1691135167.3543699-CDS-H-fluviatilis_contig1023:19931..201451691135167.3543699-CDS-H-fluviatilis_contig1023:19931..20145Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 19932..20145 -
1622929060.2524147-CDS-H-fluviatilis_contig1023:20707..208641622929060.2524147-CDS-H-fluviatilis_contig1023:20707..20864Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 20708..20864 -
1691135167.3652172-CDS-H-fluviatilis_contig1023:20707..208641691135167.3652172-CDS-H-fluviatilis_contig1023:20707..20864Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 20708..20864 -
1622929060.271159-CDS-H-fluviatilis_contig1023:21153..212861622929060.271159-CDS-H-fluviatilis_contig1023:21153..21286Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 21154..21286 -
1691135167.395103-CDS-H-fluviatilis_contig1023:21153..212861691135167.395103-CDS-H-fluviatilis_contig1023:21153..21286Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 21154..21286 -
1622929060.288044-CDS-H-fluviatilis_contig1023:22102..222281622929060.288044-CDS-H-fluviatilis_contig1023:22102..22228Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 22103..22228 -
1691135167.4091015-CDS-H-fluviatilis_contig1023:22102..222281691135167.4091015-CDS-H-fluviatilis_contig1023:22102..22228Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 22103..22228 -
1622929060.300231-CDS-H-fluviatilis_contig1023:22475..227201622929060.300231-CDS-H-fluviatilis_contig1023:22475..22720Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 22476..22720 -
1691135167.4194174-CDS-H-fluviatilis_contig1023:22475..227201691135167.4194174-CDS-H-fluviatilis_contig1023:22475..22720Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 22476..22720 -
1622929060.3142111-CDS-H-fluviatilis_contig1023:23169..237091622929060.3142111-CDS-H-fluviatilis_contig1023:23169..23709Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 23170..23709 -
1691135167.4303534-CDS-H-fluviatilis_contig1023:23169..237091691135167.4303534-CDS-H-fluviatilis_contig1023:23169..23709Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig1023 23170..23709 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_H-fluviatilis_contig1023.519.1

>prot_H-fluviatilis_contig1023.519.1 ID=prot_H-fluviatilis_contig1023.519.1|Name=mRNA_H-fluviatilis_contig1023.519.1|organism=Heribaudiella fluviatilis SAG_13_90|type=polypeptide|length=1016bp
MYCRHQCEHVTPRTCLDVSGSPVRGCVPLSTFKDDPCPVGLQVRDAASPR
PSLLSTVNKQRNTLDTMHRLLIMRSLYAIFVVAVAAVFVSLPRALADVNL
VVLLPADGGGLETESKRYFPLSPALESVAHLAVEHINRDGSLLAPGSDVA
LSVLRPRGGALEAVADVCAELKSNNNSAVAVISVLGSSSASVLGSFSNTY
WHVPLLTVGAAAARSDGREVTTFEEERLGGGYLLGVHPDIYPQMKALVRL
ILDMKPNKRSGRNDLSERVSVLHTDDDYGNTASTAFAHAARTVSMGATVD
IGATTAIPVTAGADYSSILAELVNDNATIVVLLAEGYDGRVVRSIFEKAR
HVGLVEGVQWYLPDAAAMDSVFQESPTYHNSALANEMRGTLGVRVCTDLT
DKEAAAKLDNLTRLWEGLDRDLYPGARNVTADGQIDPLLAFAYDAVFVAA
GAAGFIHDETTTDTVIGVSLDSCPFPTVGPWANGAVIRDAMYRFTLADTG
GVTGSLRMTVGESQHYAAADGRNADTVDYCAVQLRTHSTMGARFVSSSAL
DGGELGEKYRGVLQDTHEHVLEQTVEASATASQCYNFSVVRPADLKPFLF
YDEEHGVIGVTPFFLEKLKKNMTNVSFHFLDGQHSYSTMRDMVADGTADM
AAGYISILDTRLEDVSFTYPYYDLHIAFVYKPTKVKWAKFWRAIEPFTVE
LWLLLGGCTVVATCLLWLFEREESGHFANSGEKGRSYRQARVTTGMLSSA
YATVCLLMGQLVHPPKTLEGHILTVGWTFLGFALAASYTAQLALVLLKED
STTDVSIDNMKGKTITPSQVALLNDTYAEKLYERDFLPLFQTNGSAKDDL
ETPEPCFSDDQCLEMVNDDNNPVKVTLLDSPTAEYLLGNKFCELEMLADK
MYPHHYGLMLAHDSTCTRMFTEPTLRIRQDNIIWPKVLEYSSDGGSCDVN
TSSDRMGIEHASGILAVCGSLMTLSLVMWCMTRPRRLPLAKSFSTNRIME
SVGPVRTTSRSKVAT*
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mRNA from alignment at H-fluviatilis_contig1023:8191..23741-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_H-fluviatilis_contig1023.519.1 ID=mRNA_H-fluviatilis_contig1023.519.1|Name=mRNA_H-fluviatilis_contig1023.519.1|organism=Heribaudiella fluviatilis SAG_13_90|type=mRNA|length=15551bp|location=Sequence derived from alignment at H-fluviatilis_contig1023:8191..23741- (Heribaudiella fluviatilis SAG_13_90)
TCTTTCATCTGATTACGCTAGCAGTAAGATGCATGTATTGTCGTCACCAA
TGCGAGCACGTGACGCCAAGAACTTGCCTCGACGTATCGGGAAGCCCAGT
TCGAGGATGTGTACCATTAAGCACGTTCAAAGACGATCCCTGCCCGGTGG
GACTACAAGTGCGAGACGCAGCATCGCCACGTCCATCACTCCTGAGCACT
GTCAACAAACAGCGCAACACACTGGACACGATGCATCGTTTGCTCATCAT
GCGGAGTCTATATGCGATCTTTGTAGTCGCCGTCGCTGCTGTCTTCGTTT
CACTCCCCCGAGCTTTGGCCGATGTCAACCTCGTGGTGTTGTTGCCAGCC
GACGGCGGTGGGCTGGAAACGGAGTCGAAACGGTATTTCCCTCTTTCACC
AGCGCTTGAATCAGTGGCACATCTGGCCGTGGAGCACATCAACCGTGACG
GTTCGCTTTTGGCACCTGGCAGTGATGTGGCGCTCTCTGTTCTTCGGCCG
AGGGGCGGGGCGTTGGAGGCGGTGGCGGACGTGTGCGCTGAGCTGAAAAG
CAACAATAATTCCGCTGTCGCGGTGAGTGGTGAGAGTGTATGCGCTGGTG
ATGGACATGAACCGTTTCCGTTCGGCTTTTCTTGGCGGTGGAATTGCAGC
GCATTTGTGCAGTCGTAGCCGGAAACCCGTACCACATCGCAGAGACTACA
GGGAGAGAAACTGCTACCAAAAGTTCAACTGTCTTCTGAAAGGTATCAGA
ATGACTTTTTCTTACAGCACATTGCGGTGTGATCTCATGCGCGAGGACGT
ACGCATCGCACGCGATCTCACGACGTTCGGTTTCACCTCTCCACCGGACA
GTTTGTTGGTTGTACAATAAAGACGTGCATTCCGCGTCGTGTTGCTCATC
TTCAGAATTCACACACCGCATCCGTACGGCAGCCGTGCAGATGTAGGGCG
CTGCGCTCAGTTTTTGCTGCTTTCACACGAAGCTAACCCGCCTCTACTCT
TGACTGGCGGTTTTAACTTAGGTTATCAGCGTTCTCGGTTCCTCCAGCGC
CTCCGTTCTGGGATCGTTCTCGAACACGTATTGGCATGTGCCGTTGCTGA
CGGTCGGGGCGGCAGCTGCTCGGTCGGACGGACGAGAAGTAACTACCTTT
GAGGAAGAGAGATTAGGAGGAGGATACCTGTTGGGGGTGCATCCTGACAT
TTATCCGCAGATGAAGGCCCTGGTGAGGCTGATACTGGACATGAAACCAA
ACAAACGGAGCGGAAGGTAAGCGCCATTGAACCATTCCAACGGCTTGACT
ACGGGCTTCAGATTCGTTGATCATACTCGATAAAAATACTGAATACTCGA
CCATGATGTTCGCTGCAAGCTCCGCGGGACAATGGCGGGGTCTAAATGTT
AAGGTGGGAGTGTGCGCTAGCTATAGCGCACCACCTGCCTGGTCTTACGC
CCTCATAAAGCCCCTTTTCCCCTTGAACCATGCCCCTCCTTGTTCGCGAA
ATGTTTTTTGCAGGAATGATTTGTCCGAGAGGGTTAGCGTATTGCACACC
GACGACGACTACGGAAACACGGCCTCAACGGCGTTCGCGCATGCCGCCAG
GACTGTCTCGATGGGGGCAACAGTAGACATTGGAGCCACGTAAGCGTCCT
TTGTCTCCTCGGTATTGATGCTTCAAAGGAACGAGGTCTGAAATATTCAC
GTGAAAATCTTAAGATCGGACACGTCCGTAAAAGAAATCTTACGAACGAT
ACAGCAATAAACTAACTCACTGAGGTACGCGTGTACGACCGAGAGAGTGA
AATATGTTTGGCTTTGCTCCTCGGATCAAGCTCGCTGCACACAGCAGTCG
CGCGTGCGCTTGCCGCCTTCCCGCCTCAAATTGTCCACAGAGCCTTCCTG
TGAATTTCTTGGTACAATTTTCGTCTCGCGGTAGCTCTAATATTCGTCAC
TCCCTCTACGTACATGTCCGCAAACCTATCGCATGGACGTGGTACGCTAT
CGTACCTCACAGCTTCAAAACAAAAAGTAGCAGGGTCCAGCTGTCTGGTA
GGATCAAAAATGTGAGGCCGCACGAAAAACTTGTTAATCCGGCTTGAGGA
TAATTTAGATTGATTTTATACTGTAATAGCGATTGCGATACACGTACCCC
ACCTGCCTTCCTTCTGCGAAAGCAGCACGCAACCGTCCCCATCCGTAACT
TAGCCCCTTGCCGCCTCGTCCAGCTCGTAGGTCGCACTGGTCCACAAAAT
TGAGACGAAAAGCTGACTTACATCCCGGAAACTTTCCGTCTCAGAAGTCA
AGTACAACGTTGTCCATCGGTCAGCGGTGGCTCATTTCACCAATATCTTC
AGGGCATCTTTTGCCGCCGTTCTACACTGCTGGCGACTCCACCCTTGTCC
GCTGGCCACCCTCCAGCCCTCGCTTACATCACCGCCGATTTTCCCCTCAA
ATCAGAACCGCGATACCGGTGACGGCTGGGGCAGACTACTCTTCGATTCT
TGCGGAGCTCGTCAACGATAATGCCACGATTGTCGTGCTTCTCGCGGAGG
GCTACGACGGTCGGGTTGTTCGATCGATTTTCGAAAAGGTCGGTGTTCAC
ATGTAGCATGATTCCTTACGGTAGGCTCTCGTCCGATCATTCTGTCCTCT
CATACTGGCAGGAGGCACAGATGGATAATCTCTTCGTGGGGTCAGCACTT
TCCCCCTTCATTTCGGAACCTTATGCAAAGTTGTCGAAAGGCTTCGGATA
ACTTCAGCGGGCTGCCATATACTTTGTCGCTTATGCGACTTTCCTTCCGC
TGGTTTGGCCCAACTATTACCAGGAAAGTGCACCAATGCAGGTTTGACAA
CGGCTACGTTCCGGCAAAATTTGCCAGGCTCGTCATGTGGGCTTGGTCGA
AGGAGTTCAGTGGTATCTCCCTGACGCAGCAGCCATGGACAGCGTCTTCC
AAGAGAGCCCGACATATCACAACTCTGCGTTGGCGAATGAAATGCGCGGC
ACTCTTGGCGTAAGAGTCTGCACAGATTTGACAGGCGCGTGACATCGTAC
CGTAGCAGTAACATGAATCAGACTATTCGGGTTGTCAGCTGTAGCTGGTT
GGAAGCGGCAAGTGGGTGAATTCAAGCATCTCCCCAAAAAATACGAAGGG
TCTGCCTGCGAAGTATCAGCGCACGACGCGCGACGCGACCTCTGGCTTGA
AGTCTTCGGGCTTGCTCGGTGTATTCGTCACTAGTTTGCCGAAGTTTTCG
TGGAACCCATGGGCGCCGTTCTTTCCGGTATCACGCGCCGGTGACCATCC
AAAACGGCTTGTTGAGAATACAAACAAGCGCACTTGGGGATGCTGCAAAT
ACCCCGTACTGTCGCGCAAAACATTTACCCCCTCAAACGAGATTGTTGCG
CGCAGGAAACAGTATAGGAACCACGTCACTAGTTGGCGGGCACTCACAGA
CCACTCGCTGCCAGGGGCAGTACGACTCATCTGGTCCTGGGACAGAGACG
CTTTCACTACCACAAAAAGCACGCCCAATGACGGCAACACACGAAACGTT
CTCGCTTCCGAAAAACGCTTGTGCCTCTCCGAACAATCCTCTAAAGACAA
AGAGGCAGCCGCAAAGTTGGACAACCTGACCAGGCTCTGGGAGGGGCTTG
ACCGAGACCTATACCCAGGAGCGCGAAACGTCACAGCGGACGGTCAGATT
GACCCGCTCTTGGCATTCGCGTATGATGCCGTGTTCGTGGCGGCTGGTGC
TGCGGGATTTATCCATGATGAAACCACGACGGATACAGTGATCGGGGTTT
CGCTCGATAGGTAAGACGTGTACGTGTGGTTTACAGGGATTGCCTGGAGA
CGTAAAACATGAAAGAGCACGAAAACATTTTTTCTACAAAATGTCAGAGC
CGAATCCGACCTTCACATTAGCCCTGAAGTTCGTCAAAGAGCGAACTGCT
GCAGTACTAGAGTGTGCTGGGCAGAGGAGCGTCGTACCGTTATTCGCTTA
AAACTCAAGCACTTCGCGTTCTGATTCCCCACACAGCAATTCGGGGGATG
CAACTCGTTTGCATCTCATTCTTCTCCTTTCAAGCGCAACAGGTTGAAAC
GACGACCCCACTTGCTCATACTCTGCGTCACTGCCACTTTCTACCGCAAG
AAAACGCTCCTGCCGTAAGACATGACAAGCAAACGAAAATTGTTTCGCGA
AAGGCGAAACTACGTGTAACAGAGCAGGCGCTAGCAGTCATTTATAGCCA
CATCCTGGCTGACGATCCGCCTGCTTCAATTTCCTCCATGTAAGAGGTTT
CGGCGAAGCTGTAAAACTCGAAAACAAGATGGAGGGCAAATTCTGGACAA
GGCTGAAAAGAGCTTGAAATCTTGTAAAAATTTGCAACCGAATGCAAGTG
GTCGAGAGCGACACTTGCGCACTTCCTTCCGTATCCGTGAAAAAAGCTAT
GGCATGCGAACGCCTCTTCTGCTACTTGAGTATTTTCCCTCCATCTTACG
ATTCATTTTTACGTCCCCTCGTTCAGATCATTCGCCCCCTGCTTGTGTCC
ATGTTACCCTTGTTCTGACAAGCAGCTTTCTTCAACATTTTTCACTACTT
TGCTGTTGCGTTACTTGTAAATGTAGTAGGGAAAAGAACGAGGAACAATT
GGGGGGTAGGGTGAGATGGCGTATGATTAGATTGCTGTTCTGGCGTCCAG
GGAAGGTAGATGACTTTTTGCCCACAATTTTTTGTTTGTTGCTTCGACAT
CAGCATTACATTGTTTCTGAACGGCAAAATTGCCTCTGCCCAATTGACCG
CACGTATGTTTTGTACGCCAAGAAGATTAATCCAGTCCCGTTGGTGGACG
GCAGAGCAAAAGCAATTCACTTCCTGATTTGCGGTGGTGCGGGTGTTATT
CCCTGCCTTTTTGTTTAGTCTGTTTTCGTCAGCTTAACAGCTTTTGTTGT
GGCGACTCCAGTGGTCAAATCATGTCTGCACAATTACAGGCTGTCGAAAA
TATGAATGCCATGTGTACTTTCTGTCAAACTTTACTCTAAAGCTGAGCGG
GGGAACAGTATATTCGGTTCTTCCCGGGCGGGTGCTGTACATCTCCGAGG
ATTCGCTAAATTCTTACGTCATCTGGTTGCTCGTTCTATTTTCTTGCCGT
TTCGCCTCTCGTGACCCTTTTCAATACTCAGCTGCCCATTCCCTACCGTG
GGACCATGGGCGAACGGCGCGGTCATACGCGACGCCATGTACAGGTTCAC
CCTTGCAGACACCGGCGGTGTTACGGGATCGCTGCGTATGACAGTTGGGG
AGGTGAGAGTACTCTTTCATTGACAAAGATTCATTTCACCGGCATGAGAG
GTATCAGACTACTTGTGTAGATACATCGGAGGTTAACCAAATGAGAGCTA
GATGTTTGGTTCCTGTACTTTGGCCGCGGGTGTAATTTCGATCCTGATGC
TGTCCCCGCTTTCTCTGCATTGCCAACAGTCCCAGCATTACGCTGCCGCC
GATGGGCGGAACGCTGATACGGTCGACTACTGCGCTGTACAACTGAGAAC
GCATTCAACGATGGGGGCTCGATTCGTATCAAGTAGCGCGCTGGACGGGG
GCGAGCTCGGCGAAAAATATAGGGGGGTGCTTCAGGTGAACGAGCCGACT
CCAAATTTCGCCTTTTCTCGACGCGGTGGCGATCACGGCAATCGATAGGC
TTATTGGGGCGTTCGATTTTTGTGCCGGCGACGTCACCACACAGGCCGCG
CAATGCCAAGTAACGATCCGTGCCGTGAAGTGCACAGTCCCGTGGTGTTG
CGTCATGTTACGTCATCCACTTTTCCAATTAAGAGAGGTTGCTTGCTCGT
GTCTGCCGTCGCCGTGCAAGCATGACGGCTAGCCTCGGATATAGATAGCT
CTTGCGTTCGCATTTTGGTGTGCGAGAAACATCTAGGCCCTTCCGGCGTG
GATGAGATTCAAGTGTGGCGAGTAAAGGTGTGCTTGCGCTCGAGTAAGCT
CATGTGAGCCGCTCGACCAGTAGCTTGAATGGTCGACCATGACCATGAAA
GTATTCATGCTTCGCTTCAAGGTAGGTACATTCGCCCCTGTATCGGTCGG
GCGGAGAGTAGCAAGGCTTGGCGCCTTGTGCAGGCATAACTTGCAAAAGC
GTCAGCGGAACGCGGGTCACCTCGCCCTCGTATTAGATGTTCGCGCGAAG
TATTGGTCATATCAAGATCTGTCGAGTATGGACCAGAACCAGCGTGCCCC
TCCACCCCTACACACATCGCCGTCCCCGCTGACGCTCGTTGTCCTTTGGC
TTTTGCTTCTCACTGCACCGTTGCAGGACACACACGAACATGTATTGGAG
CAGACGGTTGAGGCAAGCGCGACGGCAAGCCAGTGCTACAACTTTTCTGT
AAGCCAGCATTGTAGCTTTTCGCCGGATTATTTGCCACGTGATTTTTACC
AAATCCTGCCGACCCGTGCACTCCGCGCAGCGTGCCGTGCTTCGACATCG
ATTTGGTGTTTCCTGACGAAATTATGAAAGACCTATTGTCTTTTAACGGC
ACGCTCGGACTGAGTTGCCCTCGGCCACTGCGGTACTTCCGTCCCCGGTC
TTGCCGACGGCCGACGTGTGCCTTAGAAATTTGGCCGCCGGATAAATAAG
AGCCATACAGAGTGGCGTGGAGCAGGAGCGGAATTTGAAAGACGGTGAAG
ATGATCCAAGCACGGCCTCGTGTACCCCCAGCTTTGCAACAAGCTCTTCA
TCGAAAGCTTAAACCCTTACGTAGCCACGACACGCAAGGACTCGTTACAC
CAAAAAGCCGCCTTATCTCTCGCCATAATCTTTTCTGTGGCAGATCGTTC
TCGAGAAGGGATCCTCCTCGAGACGTACCGTTTCATTTTCGAGCAGTCTA
CGGAACGTACCGTCGAGATCGCAGGGCTTGTGGCCCAGCTGGTCTGCTGA
GTCGGACAGAATATGCCCTCCATCCAAATTCCCCCAACGTAAAAACGGGG
AATAAAATCTGTATCGCCCCCCGTTCCCCGCTTCCGTCAACTGGTTCGAG
TAGGTGGTGAGGCCGGCGGACCTCAAACCGTTCCTGTTCTACGACGAGGA
GCACGGTGTCATAGGTGTAACTCCCTTCTTCCTGGAGGTACGGTACGACC
ATGACCAGTTTCGATACAGAACTTTGCCGCCGCTCAGATAATGTCTAATA
AAAGTCGGGATTTGTCTGACATATCAGAAGGGCAAGTTAACCTGCTGCTA
AAATTTTCATTTCACTTGCGACAGCCATAATCGAGTTTGCTGCGTTCCCG
GAGACCATTGGGTGTTGCTCTTCCATGAAAAAGATGGGCGCACGCTGCCC
GCGCTGCAAGTGTGTCGCAGACGTCGCGTTCCTCGACAGACGGTGGCTGT
GACCTTCGCTATAGGCTTCACAGCGTCCACGCTTTTGAACAGACGAAAAA
AATCACAACCGTACCCTCCTCTCCGACTCGGTCCAACAACAGCTGCCACG
TCTGTTTTCGCGCAGAAACTCAAAAAAAATATGACAAACGTCAGCTTTCA
CTTCTTGGACGGACAACATAGTTACAGCACTATGAGGGATATGGTTGCGG
ACGGGACCGCGGACATGGCAGCCGGCTATATATCAATATTGGATACGCGC
CTTGAGGATGTATCGTTCACGTATCCGTACTACGACCTGCACATAGCCTT
CGTCTACAAGCCGACGAAGGTTAAATGGGCGGTGAGTCTCCGCCTCGCCG
CATTGATTTAGGTTCTGAGCTCGCGATCGACACTCGTTGTCCGTCCTCTA
GTGCGATTTCATCGTTAACATGTTGTTTCCGCTTTTCCACTATCGCGTTA
GTGACCAGACATCGCGTCACGTGGTCTTTTTTCTCGTGTGAAACACCTTG
TGGTTGCCATGATGTCGCGGGAGTGAGAAACTCGGCTGTTTCTTCGTTCC
TTCTGGTTTGCCCTGATGTTGAGTTTTAAATGCTAGGATATAGGAGGTGG
CACTCGCTCGCTTGCTCTGTAGCGTTCTCCCGTGTGCATTAAAGAGCTTA
AATCACCGACACCGAAGACACGCGTTATTTCTCGCCGCTTGCCTCTACCT
TCTGGGAAAGCGGCATACCTTTGGTGTCGCTTCGTGCCACTGTTGCGGCA
GTGAAAAGCTCCTACGTTGAACGTTGAAGTTTTTGACCGCGGTCAAATCT
CCGGAGAGTCACTGTGTCAATTTTGGTTCGTACACTCCAATTGTCGACCT
TTGAGCTAAAACACACACTTGGACATAAACATGAAGAGCATAACCGCGGC
GCGACGCGGGTAGATGGCACGTGGATGAGAGACGAAGCAGGGTACCTGCT
CTCCCCATGTCCGTTCTCTTAACGCTCCCCTATCGCGCCCACCTGCCCCC
GTTTGTGAATATATGTCGATGTCATGCGTACACTTTTGTCCAGAAATTTT
GGAGAGCGATTGAGCCATTCACAGTGGAGCTCTGGCTTTTGCTAGGTGGT
TGCACGGTTGTGGCGACATGTCTACTGTGGTTGTTTGAGCGGGAGGAAAG
TGGGCACTTCGCGAATAGCGGCGAGAAGGGAAGATCCTATCGGCAGGCAC
GGGTCACAACGGTGCGCTATTGCGTTTCTACGTAGCCCGAACACCCTGCA
AGTCAGTACGCCGGAATGCGTTTATTTGCGCGACCGCATGTGTTGGGATG
ACGGTCGCTGATCACGGCAGCTCACTGCAAATCTGGCGGTACATCAGCGG
AAACACTGCAATGCTCAACATTTGGGTTGTGATGATCCACCGATCGAAAA
TGGGAATATTTTGGAAGGCCAGGCTACGCCGCGCTCTCATAGATGATTAA
TCGCACAGGCTTGCAGGCAGACAAGCGAGACTGTCAGACTTCCTTGCAGT
CATGATATTTGTCATGGTCACACAACGTTGCTATCGCCTTGTCGACATGA
ATTCGAGCTCAAAACGTCTACTGCACACCGGTCTACACTGCTCGACCTTG
TGCAAGAAGCCGGATTTGCAGTCGCGAGCAACGATATCCCCAGGTCAACT
CGCAATATCGCCCCTTGTAGTCATGAACTGATGAGTGTTCGCGTCGTTCC
TCCTCAAAAACATTTCCATCTCACCGGGTGCATGTTCTACTTCAATTCCG
TTCGCATCCGGTTTCGACGTCTTGCGCGGAAAAAGGGCATGCTTAGTTCA
GCCTACGCGACGGTATGCCTTTTGATGGGACAGCTTGTCCATCCGCCGAA
GACCTTAGAAGGGCACATACTGACCGTGGGATGGACATTCTTAGGCTTTG
CGCTGGCTGCTTCATATACGGCCCAGCTGGCGTTGGTTCTCCTCAAGGAG
GACAGCACGACGGTAAGCCATCAACGCCGAAACAGAGCGTGATCGCAAAA
GTCATGCATTTTCGGTACGCAGCCCCTTCACTTGATGAAATGCAGAATTC
AAGAAGCACTTGCAAGGCTTGTAGCGCATGCTCCAGGTTTTTGCGCATGG
GGACTCTATCTGATCACATGACGCCATTCGTCCGCCCTTATCCCTTCGTC
ATTCATGTAACCTTTCTTGCCGTCTCCGGTTTTGGTTGTTGCGCTTCAGG
ACGTTTCGATCGACAACATGAAAGGAAAAACAATCACCCCTAGTCAGGTG
AGCTGGCGGTCAATTTCCGGTCGGAGCTATCGCCGCCTACCCTTCCGTTT
TCAACCTTTGTCGGCTAAAAGACTCATTTCGGGCAGTTTACATGTTGAGG
TCCCTGAATTAAATGCCTGACTGACGATTGACACCTTTAGTGTTCGCATT
ACATTTGAACGTCAATCTACCATAGCTAACGGTTGCGTAATTTGGTAGCT
GGTTCCAATTAGAGAGTTTACGGGCGATCCCAGACGGATGCTCACCCCGA
ACTTCTGTCTGAGCGCAACGTTACCAGCCAGACGTGTAATCGCGACGGCA
TAGCTTTTTTTTTTAGGTGGGGCACTCGTGATTGTGGCTTCTTCGCGTTG
GCGTGCTTCCTCGAAACGCCGCTCTAGAACCCTCGGCCGTCAAAACGCTC
GATCATGATCCTGGTTGACGGTCTGTACATTGTTGGCATCGGTTAATCCT
CAACCGAACAAGGCGGGGCGGGGGGAGCTAGGGGTGGCGACCTCTTAACG
ACACCCACTGCCCGGGTCAAGTTACGTCCGCCGACAGTCGCCGCGTGCTG
TTCCTGTTGTGTTGCAAGGCTGCCCCAACTGGGCGACAACTCGCCTACTT
TTAAAGTTGTGATGACGTACCCGACAGGGGGCCTCCATGAGCTGCGATAG
CACAAGTGCAGTTGCGCTTGCATGCTTGACGGACAGAACGCGCTTCGTGC
AACAGCGATCCTTTCATATATTCAACGTTTCCGTGATTGATCGACCGTGC
AGGTTGCTCTACTGAACGACACCTATGCGGAAAAGTTGTACGAGAGGGAT
TTCCTTCCGTTATTCCAAACGAACGGTGAGTTCTGGGATTGTATGTCCAC
GTTCGCGTGTGTGTACGAGAAACTACGAAAGACGTCGTTGGAGCTTGTCG
ACCTGATCACAATTAGGACGGTGCAAACACAGCTCGTAGGCTTCAGTAGA
TGACAGACCCATGACAAAACTCGGCTAAGTGACCATGGCGATCTTTACCG
TTGCTGACGAGCGATACCTTGCCCAACTGATTTGTAGCTTTCCGCTCAAC
AGTATCCGCCACAGTTTGATTCGATCGCCGAACCTTCCCGGCATGAAGCA
AGTATCGTGCGCAAAGCGACAACTTCTAGCACCGAAGATTACCATCTTCG
TTAACTATGCGCCGATGCCCAAGGTTTCCAGGGGAAACATGATCGGGGTG
CGATAGACATAAGGGGTGTGACAAGCTGATGATTGGTGTCGTGTTCCGCG
CTCCGTCATCAAGATGGCGCGTTGCGCATGAATATTTCGGGAGTGTCGCG
TCGTCTTGAAACTGCAGCAGGATTGAAGCCCGGAATTACTTGTTCGATAT
GGCCTCGAGAAAGAAGCCTTGCTGACGACAAAACTGTTGCGACGTACCCA
TTCGCGGGACGCGGCAGTTGTCGAGAATTGCCGGCTTGGCTGTGACGCAG
ATCGCCAATTTTGGAGTCGTCCGTCCGTGTATTCCCAGCGATGTTGTCGG
ATGTAAAACAGGTGATTTCGACTTTGCTTTTGCGCCAGTGTCATCTGCAA
GGACCCTAGACGGCGTCTTTTTTAAGTGTCAAGTGATTTTCTGGTCTCGC
GACATGTTCCATAAATGCTAACAGTGGCCTTCGTGGGAAACGCTCGCCCG
CCGATTTCACATCCTCCTCGGAGAAACGGTGAGGGTGACAAATCATGTCG
CAGATTGCTAGATCTCACCCAAACAATCGTAAACTTCCCAATGCGTACTC
TGACTGCGCCCATCTCCCCCGTCCTGCCCCGTCGAATGTGCTCCCTTTGT
TCTCAAGGGAGTGCTAAGGATGACCTAGAAACTCCTGAGCCTTGCTTCTC
CGACGACCAGTGCTTGGAAATGGTGAGCGCTTCCAGATTATGTTCGAACG
CAATATCAACGGCTGAAACCAGCAGCTAGCGCGTTGGCTGATGTTTCTTA
TGTTCAGGGTGTCCCACAGTTAAGTTAGCGCGCTGGCTGATGGTTCAGCG
GTCAATATCGTGAAATAGATGTTCAACAACCCCTGGATGTGGTACATTTT
GTCTGTGGTCTAGTGGGTACTATATCAATTGACGTCGTCGAGGCCGTGGG
TTCGAATCTCGCTAGCAAGCGTGGCCTGTTTTCCGGATATGAGTCAGAAG
TCAAGCCCGATAAATTGTGCGAAACCATCGTCCCTTCCCGCTCAAGGGAC
TGAGCCACTCGAAAGGAGGGAAAGTGTGATATTAACCTACCTGACACCTG
GACAGCTGGCAGGTTTTGTCTGCGGGCTATACCATAATTATTGCGTTCTG
GCAAAAATCAGCCCCGAGGGTTCGGGCCGAGCTGTAAGTCTCGTAAAGCA
CCTGTCGCTTTCATCAAGGGCTTTCATGCCGGCAATGAACGCTGCTTCCG
TGAGGTGTGAATACTCTTCGTCGTACCGACATGTGTGTCACCGCGCTCTC
ATTCGGACGTCTGTAGTGGTGTCTTACTACAAATTTGCCGCGAGTTTCTT
ATTCCATATAAAATTGGTAGACGGTGGGATTCCAACATAAGATCACTTGG
AACGTGCCATTGACCGCTAAAGCATGAGTCGACGCCGGTTTGTGGTTCAG
CGGCCTTGATACGTTCTAAATAACGACGTAACTGCACAGCGGTGCGTCAC
CGCACGATACGCGGTGCCGTGAGCAGCAATGCAACGAACGTAGATAAATA
TATCTCATTGCGAACGTTATGACGAGACGTACTGCCTGTCTCCGTTACCA
CAATTGGCCATAGTACCAAAACCGCGCCGTCGGAGCAAACGCTCAAGCTA
CATTTTTCCTTTCTGGACATCAAACCTTACTTAACGGCGGCGATTACCCG
CCCGTGTGAAAACTTGCATCCGGAAACCGTCTTCCACTTGCCAGTGATGG
AAGCTAGTTTGCTGCACGGAAGGGCACGCAACTCGACCGTAGAAATCATT
CATTTGACTTTCACTTTTCAGCTATGGGATTTTGCTGCACGTCGGGGGAG
GGTGTTCGAGAGATCGGTCATAGTCCTCGTAACGCATGGCAATAGTAGTT
GCCAAGCTCCAATACTACAGCATCTACTTCAGCTGTAGCGTTCGTCATCG
TCGTCGACTCCCGTGCGCCTATGCCTCGTTACGCAACACTCCTGTCCCTT
GTCCTGAGTTTGTTCCGTGTTTTGCTGTGTAAGGTGAACGATGACAATAA
TCCGGTGAAGGTGACCCTGCTGGACTCGCCCACGGCAGAATACCTGCTAG
GGAATAAATTCTGCGAGCTTGAAATGCTTGCGGACAAAATGTACCCCCAT
GTGAGCAAAAGCAGAACCGTCTCCACTACAGTAGCGGGAGTCCTTCCGGA
AGAACGGCAAAAGCTGATCATTGATTTGCGACAGCTTAGGTAGTCTTCTG
AAAGGGATGACCTCTATCGGCGACGCGGGCTGCCTAACACTGCTGCAGAC
CTTGGCTGCCGCAAGCGCAAAGAGGAGACGGCTTTGCCGAATAGCTTCCT
CACGCGCAAAGCAAACGGGATTTTGCGTGATACATGGGGTGGAATGCTGG
AGCGGTCAACACCAATTGTGTCCATCCGTTACGGTCGCCTTTCTCGCAAG
CGCCTGTGTGTTCATCGCATGCCGTAGAGCTTACGAATTCCGTTTCAGGA
TGTGGATACCGCCAAAAGAAAGAAAGTGCGAAGTTCAGACGATCGCATAC
ACATGCTTAGCAGTCATGGACAGCGCCTCACTATATCTTATCACATCACT
TTCCCCGCTCAACCGCCCCCTTCGGCTTGCCGCCCGTTGCTTTCATGTGC
GTCACCAGCACTATGGCTTAATGCTTGCGCACGACTCAACATGCACGAGG
ATGTTTACGGAGGTACGCGATGTCACAAGGCGGCAGTTTGATGCTTCGAT
CCGCACCATTAGCCCTCCTCATATATCCTCACGAGAGTAAAGAATAGCGT
CGGCCGCTGTGCCCACGACGACTTTCGCATGGCTGTCTATGGGGCCGCTA
CTAGGCGAAAAGTAAGACTACTTCCCTCGTTGCAGCGTTCACCAGCACGG
TGTGTTGAACTCCCACGCTTGAAGAGTAGTGTCCGTTCGCCCAACGGCAA
ACTTCGAACATCACGAACAGCTCTGCTCATGCCCGTGCATGTGCGAAGTG
CACCTGTCGTTTCAGCCGGAAAGTGCTTGATCGCATGTACGGGAGTGAAT
CTACCACAACATATCCGTCTGCGGCAGCACGTAACCGTAGTGCCTGCCTC
TCCTCCCCCGTCGCCGTGGTACACCTTATTCCTGTGGTGCTGCCATGGTG
GGCATGGGGAACTGCGCGTCCAGCCGACGCTGAGAATCCGTCAGGACAAC
ATAATTTGGCCGAAAGTGTTGGAGTACTCGTCCGACGGAGGCAGTTGCGA
CGTTAACACCAGCAGCGACAGGATGGGTATCGAACATGCCTCGGGGATAT
TGGCCGTGTGCGGGTCTCTCATGACTTTATCGCTAGTCATGTGGTGCATG
ACGAGGCCTCGACGTCTTCCATTGGCCAAGAGTTTTAGCACAAACCGGAT
CATGGAAAGCGTCGGACCTGTTCGTACTACCTCGAGGTACGTGTGCTGCT
TACATGATGTTGGGTTTTTCTGATTGATATGGCCAGACGTTGGCCGTTCA
AACCATAGATACTTGCGAAACACTATGCCATGGAAAGGTCGACGTACGCC
ACAGTCAAAGGCCTTTAACGTGTTTGTGTGTTGTTTGTAGTGCGTGTAAG
CATGATCGGTGCGGTTCCTCCTCTCGCTCGTTCACGCACGACGTGTTTGT
TTATTTCTTCGTGCTGACGGGATCACAACCTTTCAAGATAAGATGCTGAC
CATGGTCACGCCGTACATGCCGTCGAATTATCCTCCCTCGTTCATGATCA
TTCACGCGCGTGCCTGCTAGGTCGAAGGTCGCGACCTAAGTTCCTCACGT
TGTCGACGTGTTCAAGAGCCGGCGCTCTTCTGCATAGTTTGCGGATTCCG
ACAGACATGTCCAGCTTTTGCCCGTCGCCAAGCGCACATTTGTCTTCGCT
CAGCGAGGGTAATTTCTCCGTCGCCACATTGGCGGCAAAGAGCGTACGTG
GCGCTTTTGATAATATGAATCCGTCGCTCGCGGACGGCAAATTGTCCCGA
TTTCACGCCTTGCTGACCAGTTAGAGGAACGTGAACGCCTCGTAGGTGTC
TGAAGCCTCCGCTTTGTTTGGTGTTCGGCGAGCCACAGCGGGACACCCGG
GTTTCGATTGACACGGCACACCATTTGTTCGTGTTGCGCGTGGAGTAAAC
ACGCTTGAACGTTTAGGTTGAATGTAGTTGAACATTTCACGGAATGGAAA
CGTAGTAGTGCCTGATGATGTGTGAAGGTAGAATTTCTTTAACGTAGTGA
GAATCCAACAGGGCGGAAATCGCGGATGGTAACAAGCATCCGCGCCGACA
GAGTACGAAGCTGTCGAACCCAAGGTGTTGAAGGTTTGCTTTTGCTGCCA
ACCGCCCCAGGTCAGGACAGCCTTTGGAATGGTGTTGATCCGAAACACTT
CTTCGTTAGTTTGAGCATGCGGGGTCAGGGATCAGTATACATGCTAGCGG
GAGCTCCAGAGGCTTCGGAAACCGAAGCCAACGTATTGCGTAGCGTGTCC
ATTTTGGCGTCAACCGTTTGTTATTGCTGCCATCTATGGACAATTGAAAA
AATGTTTTGTGTGACTTTCGGTGACTCGCACGATACCCTACCCATGCCAG
TCGCAACAACGACACAGAAAATTAAAGCACAAGAAAATGGCACGTTTTGG
GTTTACTGATGTAGATATTTTATTTACTGTATGAAATATATATTTTTTGT
ACGCGGCAGGACGCCAATACTGAACCGCAACTGTATTTTTTTTTGTGTGA
G
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Coding sequence (CDS) from alignment at H-fluviatilis_contig1023:8191..23741-

>mRNA_H-fluviatilis_contig1023.519.1 ID=mRNA_H-fluviatilis_contig1023.519.1|Name=mRNA_H-fluviatilis_contig1023.519.1|organism=Heribaudiella fluviatilis SAG_13_90|type=CDS|length=6096bp|location=Sequence derived from alignment at H-fluviatilis_contig1023:8191..23741- (Heribaudiella fluviatilis SAG_13_90)
ATGTATTGTCGTCACCAATGCGAGCACGTGACGCCAAGAACTTGCCTCGA
CGTATCGGGAAGCCCAGTTCGAGGATGTGTACCATTAAGCACGTTCAAAG
ACGATCCCTGCCCGGTGGGACTACAAGTGCGAGACGCAGCATCGCCACGT
CCATCACTCCTGAGCACTGTCAACAAACAGCGCAACACACTGGACACGAT
GCATCGTTTGCTCATCATGCGGAGTCTATATGCGATCTTTGTAGTCGCCG
TCGCTGCTGTCTTCGTTTCACTCCCCCGAGCTTTGGCCGATGTCAACCTC
GTGGTGTTGTTGCCAGCCGACGGCGGTGGGCTGGAAACGGAGTCGAAACG
GTATTTCCCTCTTTCACCAGCGCTTGAATCAGTGGCACATCTGGCCGTGG
AGCACATCAACCGTGACGGTTCGCTTTTGGCACCTGGCAGTGATGTGGCG
CTCTCTGTTCTTCGGCCGAGGGGCGGGGCGTTGGAGGCGGTGGCGGACGT
GTGCGCTGAGCTGAAAAGCAACAATAATTCCGCTGTCGCGATGTATTGTC
GTCACCAATGCGAGCACGTGACGCCAAGAACTTGCCTCGACGTATCGGGA
AGCCCAGTTCGAGGATGTGTACCATTAAGCACGTTCAAAGACGATCCCTG
CCCGGTGGGACTACAAGTGCGAGACGCAGCATCGCCACGTCCATCACTCC
TGAGCACTGTCAACAAACAGCGCAACACACTGGACACGATGCATCGTTTG
CTCATCATGCGGAGTCTATATGCGATCTTTGTAGTCGCCGTCGCTGCTGT
CTTCGTTTCACTCCCCCGAGCTTTGGCCGATGTCAACCTCGTGGTGTTGT
TGCCAGCCGACGGCGGTGGGCTGGAAACGGAGTCGAAACGGTATTTCCCT
CTTTCACCAGCGCTTGAATCAGTGGCACATCTGGCCGTGGAGCACATCAA
CCGTGACGGTTCGCTTTTGGCACCTGGCAGTGATGTGGCGCTCTCTGTTC
TTCGGCCGAGGGGCGGGGCGTTGGAGGCGGTGGCGGACGTGTGCGCTGAG
CTGAAAAGCAACAATAATTCCGCTGTCGCGGTTATCAGCGTTCTCGGTTC
CTCCAGCGCCTCCGTTCTGGGATCGTTCTCGAACACGTATTGGCATGTGC
CGTTGCTGACGGTCGGGGCGGCAGCTGCTCGGTCGGACGGACGAGAAGTA
ACTACCTTTGAGGAAGAGAGATTAGGAGGAGGATACCTGTTGGGGGTGCA
TCCTGACATTTATCCGCAGATGAAGGCCCTGGTGAGGCTGATACTGGACA
TGAAACCAAACAAACGGAGCGGAAGGTTATCAGCGTTCTCGGTTCCTCCA
GCGCCTCCGTTCTGGGATCGTTCTCGAACACGTATTGGCATGTGCCGTTG
CTGACGGTCGGGGCGGCAGCTGCTCGGTCGGACGGACGAGAAGTAACTAC
CTTTGAGGAAGAGAGATTAGGAGGAGGATACCTGTTGGGGGTGCATCCTG
ACATTTATCCGCAGATGAAGGCCCTGGTGAGGCTGATACTGGACATGAAA
CCAAACAAACGGAGCGGAAGGAATGATTTGTCCGAGAGGGTTAGCGTATT
GCACACCGACGACGACTACGGAAACACGGCCTCAACGGCGTTCGCGCATG
CCGCCAGGACTGTCTCGATGGGGGCAACAGTAGACATTGGAGCCACGAAT
GATTTGTCCGAGAGGGTTAGCGTATTGCACACCGACGACGACTACGGAAA
CACGGCCTCAACGGCGTTCGCGCATGCCGCCAGGACTGTCTCGATGGGGG
CAACAGTAGACATTGGAGCCACAACCGCGATACCGGTGACGGCTGGGGCA
GACTACTCTTCGATTCTTGCGGAGCTCGTCAACGATAATGCCACGATTGT
CGTGCTTCTCGCGGAGGGCTACGACGGTCGGGTTGTTCGATCGATTTTCG
AAAAGAACCGCGATACCGGTGACGGCTGGGGCAGACTACTCTTCGATTCT
TGCGGAGCTCGTCAACGATAATGCCACGATTGTCGTGCTTCTCGCGGAGG
GCTACGACGGTCGGGTTGTTCGATCGATTTTCGAAAAGGCTCGTCATGTG
GGCTTGGTCGAAGGAGTTCAGTGGTATCTCCCTGACGCAGCAGCCATGGA
CAGCGTCTTCCAAGAGAGCCCGACATATCACAACTCTGCGTTGGCGAATG
AAATGCGCGGCACTCTTGGCGTAAGAGTCTGCACAGATTTGACAGGCTCG
TCATGTGGGCTTGGTCGAAGGAGTTCAGTGGTATCTCCCTGACGCAGCAG
CCATGGACAGCGTCTTCCAAGAGAGCCCGACATATCACAACTCTGCGTTG
GCGAATGAAATGCGCGGCACTCTTGGCGTAAGAGTCTGCACAGATTTGAC
AGACAAAGAGGCAGCCGCAAAGTTGGACAACCTGACCAGGCTCTGGGAGG
GGCTTGACCGAGACCTATACCCAGGAGCGCGAAACGTCACAGCGGACGGT
CAGATTGACCCGCTCTTGGCATTCGCGTATGATGCCGTGTTCGTGGCGGC
TGGTGCTGCGGGATTTATCCATGATGAAACCACGACGGATACAGTGATCG
GGGTTTCGCTCGATAGACAAAGAGGCAGCCGCAAAGTTGGACAACCTGAC
CAGGCTCTGGGAGGGGCTTGACCGAGACCTATACCCAGGAGCGCGAAACG
TCACAGCGGACGGTCAGATTGACCCGCTCTTGGCATTCGCGTATGATGCC
GTGTTCGTGGCGGCTGGTGCTGCGGGATTTATCCATGATGAAACCACGAC
GGATACAGTGATCGGGGTTTCGCTCGATAGCTGCCCATTCCCTACCGTGG
GACCATGGGCGAACGGCGCGGTCATACGCGACGCCATGTACAGGTTCACC
CTTGCAGACACCGGCGGTGTTACGGGATCGCTGCGTATGACAGTTGGGGA
GCTGCCCATTCCCTACCGTGGGACCATGGGCGAACGGCGCGGTCATACGC
GACGCCATGTACAGGTTCACCCTTGCAGACACCGGCGGTGTTACGGGATC
GCTGCGTATGACAGTTGGGGAGTCCCAGCATTACGCTGCCGCCGATGGGC
GGAACGCTGATACGGTCGACTACTGCGCTGTACAACTGAGAACGCATTCA
ACGATGGGGGCTCGATTCGTATCAAGTAGCGCGCTGGACGGGGGCGAGCT
CGGCGAAAAATATAGGGGGGTGCTTCAGTCCCAGCATTACGCTGCCGCCG
ATGGGCGGAACGCTGATACGGTCGACTACTGCGCTGTACAACTGAGAACG
CATTCAACGATGGGGGCTCGATTCGTATCAAGTAGCGCGCTGGACGGGGG
CGAGCTCGGCGAAAAATATAGGGGGGTGCTTCAGGACACACACGAACATG
TATTGGAGCAGACGGTTGAGGCAAGCGCGACGGCAAGCCAGTGCTACAAC
TTTTCTGACACACACGAACATGTATTGGAGCAGACGGTTGAGGCAAGCGC
GACGGCAAGCCAGTGCTACAACTTTTCTGTGGTGAGGCCGGCGGACCTCA
AACCGTTCCTGTTCTACGACGAGGAGCACGGTGTCATAGGTGTAACTCCC
TTCTTCCTGGAGGTGGTGAGGCCGGCGGACCTCAAACCGTTCCTGTTCTA
CGACGAGGAGCACGGTGTCATAGGTGTAACTCCCTTCTTCCTGGAGAAAC
TCAAAAAAAATATGACAAACGTCAGCTTTCACTTCTTGGACGGACAACAT
AGTTACAGCACTATGAGGGATATGGTTGCGGACGGGACCGCGGACATGGC
AGCCGGCTATATATCAATATTGGATACGCGCCTTGAGGATGTATCGTTCA
CGTATCCGTACTACGACCTGCACATAGCCTTCGTCTACAAGCCGACGAAG
GTTAAATGGGCGAAACTCAAAAAAAATATGACAAACGTCAGCTTTCACTT
CTTGGACGGACAACATAGTTACAGCACTATGAGGGATATGGTTGCGGACG
GGACCGCGGACATGGCAGCCGGCTATATATCAATATTGGATACGCGCCTT
GAGGATGTATCGTTCACGTATCCGTACTACGACCTGCACATAGCCTTCGT
CTACAAGCCGACGAAGGTTAAATGGGCGAAATTTTGGAGAGCGATTGAGC
CATTCACAGTGGAGCTCTGGCTTTTGCTAGGTGGTTGCACGGTTGTGGCG
ACATGTCTACTGTGGTTGTTTGAGCGGGAGGAAAGTGGGCACTTCGCGAA
TAGCGGCGAGAAGGGAAGATCCTATCGGCAGGCACGGGTCACAACGAAAT
TTTGGAGAGCGATTGAGCCATTCACAGTGGAGCTCTGGCTTTTGCTAGGT
GGTTGCACGGTTGTGGCGACATGTCTACTGTGGTTGTTTGAGCGGGAGGA
AAGTGGGCACTTCGCGAATAGCGGCGAGAAGGGAAGATCCTATCGGCAGG
CACGGGTCACAACGGGCATGCTTAGTTCAGCCTACGCGACGGTATGCCTT
TTGATGGGACAGCTTGTCCATCCGCCGAAGACCTTAGAAGGGCACATACT
GACCGTGGGATGGACATTCTTAGGCTTTGCGCTGGCTGCTTCATATACGG
CCCAGCTGGCGTTGGTTCTCCTCAAGGAGGACAGCACGACGGGCATGCTT
AGTTCAGCCTACGCGACGGTATGCCTTTTGATGGGACAGCTTGTCCATCC
GCCGAAGACCTTAGAAGGGCACATACTGACCGTGGGATGGACATTCTTAG
GCTTTGCGCTGGCTGCTTCATATACGGCCCAGCTGGCGTTGGTTCTCCTC
AAGGAGGACAGCACGACGGACGTTTCGATCGACAACATGAAAGGAAAAAC
AATCACCCCTAGTCAGGACGTTTCGATCGACAACATGAAAGGAAAAACAA
TCACCCCTAGTCAGGTTGCTCTACTGAACGACACCTATGCGGAAAAGTTG
TACGAGAGGGATTTCCTTCCGTTATTCCAAACGAACGGTTGCTCTACTGA
ACGACACCTATGCGGAAAAGTTGTACGAGAGGGATTTCCTTCCGTTATTC
CAAACGAACGGGAGTGCTAAGGATGACCTAGAAACTCCTGAGCCTTGCTT
CTCCGACGACCAGTGCTTGGAAATGGGAGTGCTAAGGATGACCTAGAAAC
TCCTGAGCCTTGCTTCTCCGACGACCAGTGCTTGGAAATGGTGAACGATG
ACAATAATCCGGTGAAGGTGACCCTGCTGGACTCGCCCACGGCAGAATAC
CTGCTAGGGAATAAATTCTGCGAGCTTGAAATGCTTGCGGACAAAATGTA
CCCCCATGTGAACGATGACAATAATCCGGTGAAGGTGACCCTGCTGGACT
CGCCCACGGCAGAATACCTGCTAGGGAATAAATTCTGCGAGCTTGAAATG
CTTGCGGACAAAATGTACCCCCATCACTATGGCTTAATGCTTGCGCACGA
CTCAACATGCACGAGGATGTTTACGGAGCACTATGGCTTAATGCTTGCGC
ACGACTCAACATGCACGAGGATGTTTACGGAGCCGACGCTGAGAATCCGT
CAGGACAACATAATTTGGCCGAAAGTGTTGGAGTACTCGTCCGACGGAGG
CAGTTGCGACGTTAACACCAGCAGCGACAGGATGGGTATCGAACATGCCT
CGGGGATATTGGCCGTGTGCGGGTCTCTCATGACTTTATCGCTAGTCATG
TGGTGCATGACGAGGCCTCGACGTCTTCCATTGGCCAAGAGTTTTAGCAC
AAACCGGATCATGGAAAGCGTCGGACCTGTTCGTACTACCTCGAGCCGAC
GCTGAGAATCCGTCAGGACAACATAATTTGGCCGAAAGTGTTGGAGTACT
CGTCCGACGGAGGCAGTTGCGACGTTAACACCAGCAGCGACAGGATGGGT
ATCGAACATGCCTCGGGGATATTGGCCGTGTGCGGGTCTCTCATGACTTT
ATCGCTAGTCATGTGGTGCATGACGAGGCCTCGACGTCTTCCATTGGCCA
AGAGTTTTAGCACAAACCGGATCATGGAAAGCGTCGGACCTGTTCGTACT
ACCTCGAGGTCGAAGGTCGCGACCTAAGTCGAAGGTCGCGACCTAA
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