mRNA_P-fluviatile_contig9.15405.1 (mRNA) Porterinema fluviatile SAG_2381

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

Overview
NamemRNA_P-fluviatile_contig9.15405.1
Unique NamemRNA_P-fluviatile_contig9.15405.1
TypemRNA
OrganismPorterinema fluviatile SAG_2381 (Porterinema fluviatile SAG_2381)
Homology
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BLAST of mRNA_P-fluviatile_contig9.15405.1 vs. uniprot
Match: D8LM01_ECTSI (Similar to insulin-degrading enzyme n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LM01_ECTSI)

HSP 1 Score: 1118 bits (2892), Expect = 0.000e+0
Identity = 600/828 (72.46%), Postives = 666/828 (80.43%), Query Frame = 2 
Query: 1412 GYEGKGGLHELLHGRGWVSSLSAGSVVTATDFQLFRLSLSLTEEGERHIDEIIELCHRFIALLRSQPPQKRVQDDLAAMGEIGFRFLENGSPSGAVQGIANALGDGEVEPAEVLCGRFTVLEWDPAAITDVVDRLTPRNCQILVVSKRDEEEANKDGSWEAGWQKERWYGTSYKVETLSEDQLARLESVTPEVDGYPGAFSLPGANPFIPTEFGLRADEEGD-AVAGXXXXXXXXXXXXXXEAIQSLLPPDIPAIALDTVPRQDWSRLLPPALVVEG-----GGGGAVNIWHKMDRSYRVPKSSIAAKLWTPEPYASPMAAMQARMFVRLLKEDLKSWAYDARLAGLRYSLEMTTQGLQLSVGGYSSTVPLLLSKILGHIRELLAEYRELGTLLAVS---------------SEAGGEQALTARQELLRKRFENSRESFLRFYRNTAQDQPYETADYYVRQASENCSEVWHVDEYKRALEDGQNCTPGGMAERFDRVLRRMRVDVMAHGNVARAEAEGLANAVAVALGRPEPLPAAELPTRHAHRLSTAGEKGGGSSGVVVLELEAKTEEEKNSAVEVYLQAAPGESNLDLASALEFINTLGYTSAFQQLRTREQLGYIVFTQLSRGPAGRVTP--LWDTDGGADG---LHPGGPLAWSVVVQSPDKTPAELEERIEAWIGGFRDELADMSAEVFKSSVASMSSGVLRRERSMREEASVFFGAIGTRTGDFYRRYRKAESYGRLTKEAVLAAYDRYYAPGAPARRKLTVRVASQRHAREAKEETAAAVPAEGGGGKQXXXAETAGVEGAVVLRNLEEIRAFKARTPIY 3817
            GYEG+GGLH+LLHGRGWVSSLSAGS+VT TDFQLFRLSLSLTEEGERH DEIIELCHRFIALLRS+PPQKR++DDLAAM EIGFRFLENG PS AVQ IA  LG  +V PAEVL G FTVLEWDPAA+TDVV+RLTP+NCQILVVSK+DEEEA+KDGS   GW+KERWYGTSYKVE LSE+ L RLE V P V+G+P AF LPGANPFIPTEF LRAD+ G+ A A               EA++ LLP  IPA+AL+TVP++DWSRL+PP+LV EG     G GGAVN+WHKMDRSYRVPKSSIAAKLWTPEPYASPMAAMQARMFVRLLKEDLKSWAYDA LAGLRYSLEMTT+GLQLSVGGYSSTV LLLSKILGHI +LLAEYRELG L+                  +E  G   LTARQELLR+R+E SRESFLR+YRN+AQDQPYETADYYVRQ  E  +EVWH+DEY++ALED   CTP  MA  FD++L RMRVDVMAHGNV R EAE LA+A+A AL R EPLP AELPTR+A RL  AGE                 E EKNSAV+VYLQA PGESNLDLASALE INTLGYTSAFQQLRTREQLGY+V+T L RGP+G+VTP   WD  G A G   +HPGGPLAWSVVVQSPDKTPAELEER+EAWI GFRDELA +S EVF+S+VASMSS VLRRERSMREEAS+FFGAI +RTGDFYRRYRKAESY RLTK+AVL AYD++YAPGAPARRKL+VRVASQRHAR+A+E+        G G +     E  G  G VVLR+LE+IRAFKARTPIY
Sbjct:  362 GYEGEGGLHKLLHGRGWVSSLSAGSMVTGTDFQLFRLSLSLTEEGERHTDEIIELCHRFIALLRSEPPQKRIRDDLAAMTEIGFRFLENGGPSRAVQSIATTLGQEDVVPAEVLSGAFTVLEWDPAALTDVVNRLTPKNCQILVVSKKDEEEADKDGSAAIGWRKERWYGTSYKVEALSEELLRRLEGVPPHVEGFPEAFRLPGANPFIPTEFSLRADDAGEPAAAAQEGTATAGDADADAEAVRRLLPASIPALALETVPKEDWSRLVPPSLVAEGVGGEGGRGGAVNLWHKMDRSYRVPKSSIAAKLWTPEPYASPMAAMQARMFVRLLKEDLKSWAYDADLAGLRYSLEMTTRGLQLSVGGYSSTVALLLSKILGHIGDLLAEYRELGELMESGRGGXXXXXXXXXXGHAEGQGLAGLTARQELLRQRYETSRESFLRYYRNSAQDQPYETADYYVRQVME--AEVWHIDEYRQALEDRDACTPADMARHFDKILGRMRVDVMAHGNVGRKEAEDLASAIADALSRTEPLPEAELPTRNALRLQAAGEXXXXXXXXXXXXXXXADEAEKNSAVQVYLQAGPGESNLDLASALELINTLGYTSAFQQLRTREQLGYMVYTHLERGPSGKVTPPASWDGAGAAGGGEEMHPGGPLAWSVVVQSPDKTPAELEERVEAWIAGFRDELAALSDEVFQSTVASMSSSVLRRERSMREEASIFFGAIASRTGDFYRRYRKAESYRRLTKQAVLDAYDQFYAPGAPARRKLSVRVASQRHARDAEEKAXXXXXXXGWGHRGGR--EAGGSGGPVVLRSLEDIRAFKARTPIY 1185
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BLAST of mRNA_P-fluviatile_contig9.15405.1 vs. uniprot
Match: A0A835YK48_9STRA (Metalloenzyme, LuxS/M16 peptidase-like protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YK48_9STRA)

HSP 1 Score: 413 bits (1062), Expect = 6.570e-121
Identity = 299/879 (34.02%), Postives = 411/879 (46.76%), Query Frame = 2 
Query: 1379 SKPTIYVSHLLGYEGKGGLHELLHGRGWVSSLSAGSVVTATDFQLFRLSLSLTEEGERHIDEIIELCHRFIALLRSQPPQKRVQDDLAAMGEIGFRFLENGSPSGAVQGIANALGDGEVEPAEVLCGRFTVLEWDPAAITDVVDRLTPRNCQILVVSKR------------------DEEEANKD-------------------GSWEAG------WQKERWYGTSYKVETLSEDQLARLESVTPEVDGYPGAFSLPGANPFIPTEFGLRADEE-------------------------GDAVAGXXXXXXXXXXXXXX--------------EAIQSLLPPDIPAIALDTVPRQDWSRLLPPALVVEGGGGGAVNIWHKMDRSYRVPKSSIAAKLWTPEPYASPMAAMQARMFVRLLKEDLKSWAYDARLAGLRYSLEMTTQGLQLSVGGYSSTVPLLLSKILGHIRELLAEYRELGTLL-------------------------AVSSEAGGEQALTARQELLRKRFENSRESFLRFYRNTAQDQPYETADYYVRQASENC-----------SEVWHVDEYKRALEDGQNCTPGGMAERFDRVLRRMRVDVMAHGNVARAEAEGLANAVAVALGRPEPLPAAELPTRHAHRLSTAGEKGGGSSGVVVLELEAKTEEEKNSAVEVYLQAAPGESNLDLASALEFINTLGYTSAFQQLRTREQLGYIVFTQLSRGPAGRVTPLWDTDGGADGLHPGGPLAWSVVVQSPDKTPAELEERIEAWIGGFRDELADMSAEVFKSSVASMSSGVLRRERSMREEASVFFGAIGTRTGDFYRRYRKAESYGRLTKEAVLAAYDRYYAPGAPARRKLTVRVASQRH 3661
            ++P +Y+SH+LG+E +G LH+ L  RGW  S+SAG  V  +DF L RLS+ LTEEG  HID+++E+ +  I LLR  PP + ++D+LA MGE+ FRF E   P+GAV  I+ ++     EPA VL   + +  WDPAAI D+   LTPRN Q+L++++                     EE   D                   G  E G      W++E+WYGT +K     E  L R  +      G      LP  + F+PT+F LRAD E                         GDA  G                            + I++ LP DIPA AL   P+  W RLLPP LV +  G   + +WHK+DR++RVPK+   A++ T  PY+SP AA   R+F  LL++DL  +AYDA LA L +SLEM+T GLQL+V G+S  +PLLL ++LG +R L+ EY  +  L                          AV+  +        R+ LLR RF+  RE  LR YRN  QDQP+    Y+                   S+ WHVDEY  ALE  ++CTP  MA   +  L R+ VDV+AHGN+  AEA+ L + +  AL    PLP  + P R   +L   G+      G V+L                 + A  GE                             LGYIV      GP                  P   + WSV +QSP   P  L+ERIEAW+  F         +  K+S+ S     L  +  + EE+   +G I T   DF RR+R+A+++  L++E VLA +DRY+  GAP RRKL+VRV S +H
Sbjct:  280 TRPIVYISHVLGHEAEGSLHQALTTRGWARSISAGMQVDVSDFGLLRLSIGLTEEGLEHIDDVVEMVYASINLLRETPPLRYLKDELAEMGELRFRFSERMEPTGAVALISRSMW--LHEPAAVLRAVYELPGWDPAAIQDLTSHLTPRNHQLLIIAREVSPPEGTPIAGQQAGVDVGAEEGGADPAVHGSLRGFSMPAGGEDQGGEEGGGMVMGQWRREKWYGTVHKAVREEEGVLERWAAARAGA-GLGKGLRLPAPSTFVPTDFALRADAEPAPTPDEVHXXXXXXXXXXXXXXEGGDAGTGGGHKRKPGWHRATCATATLRADHVVLTPDEIEAQLPADIPASALAITPKDQWIRLLPPDLVSDEEG---IRVWHKLDRTFRVPKAVFVARICTTTPYSSPAAATLCRLFTALLRQDLNVYAYDATLADLVWSLEMSTTGLQLTVRGFSHKLPLLLERLLGRLRCLIREYAGMHRLXXXXXXXXXXXXXXXXDLDCDPALSAAVAGNSENADPADLRRRLLRSRFDVQRERSLRVYRNVRQDQPHSLCAYWAXXXXXXXXXXXXXXQVLESDTWHVDEYAAALES-EDCTPSVMARAMEETLSRVGVDVLAHGNLCAAEAKQLGHRLHEALSPFAPLPVEQRPHRETMQLPAGGD------GTVLL-----------------VPATEGE-----------------------------LGYIVAANPRLGPP-----------------PSRVMGWSVTIQSPQHPPEYLDERIEAWLEDF---------DKVKNSIVSAG---LEPDMRLGEESERLWGPIATEVLDFGRRWRRADAFKTLSRETVLAFFDRYFRHGAPDRRKLSVRVRSPKH 1070
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BLAST of mRNA_P-fluviatile_contig9.15405.1 vs. uniprot
Match: A0A7S2UTJ0_9STRA (Hypothetical protein (Fragment) n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2UTJ0_9STRA)

HSP 1 Score: 412 bits (1058), Expect = 4.880e-120
Identity = 302/826 (36.56%), Postives = 442/826 (53.51%), Query Frame = 2 
Query: 1379 SKPTIYVSHLLGYEGKGGLHELLHGRGWVSSLSAGSVVTATDFQLFRLSLSLTEEGERHIDEIIELCHRFIALLRSQPPQKRVQDDLAAMGEIGFRFLENGSPSGAVQGIANALGDGEVEPAEVLCGRFTVLEWDPAAITDVVDRLTPRNCQILVVSKRDEEEANKDGSWEAGWQKERWYGTSYKVETLSEDQLARLESVTPEVDGYPGAFSLPGANPFIPTEFGLRA----DEEGDAVAGXXXXXXXXXXXXXXEAIQSLL-------PPDIPAIA-LDTVPRQDWSRLLPPALVVEGGGGGAVNIWHKMDRSYRVPKSSIAAKLWTPEP--YASPMAAMQARMFVRLLKEDLKSWAYDARLAGLRYSLEMTTQGLQLSVGGYSSTVPLLLSKILGHIRELLAEYRELGTLLAVSSEAGGEQALTARQELLRK--RFENSRESFLRFYRNTAQDQPYETADYYVRQASENCSEVWHVDEYKRALEDGQNCTPGGMAERFDRVLRRMRVDVMAHGNVARAEAEGLANAVAVALGRPEPLPAAELPTRHAHRLSTAGEKGGGSSGVVVLELEAKTEEEKNSAVEVYLQAAPGESNLDLASA---LEFINTLGYTSAFQQLRTREQLGYIVFTQLSRGPAGRVTPLWDTDGGADGLHPGGPLAWSVVVQSPDKTPAELEERIEAWIGGFRDELADMSAEVFKSSVASMSSGVLRRERSMREEASVFFGAIGTRTGDFYRRYRKAESYGRLTKEAVLAAYDRYYAPGAPARRKLTVRVASQRHAREAKEETAAAVPAEGGGGKQXXXAETAGVEGAVVLRNLEEIRAFK 3799
            SKP  Y+SHL+G+EG G LH LL+ RGW++SLSAG  +  +D + F++S+SLTEEG +HIDEI  L   +I LLR + PQ+ + +++A M  + FR+ E G      Q  A  +   +  P  ++ G + + EWDP  +  +   LTP NC + VV+K    E + D      W++E WYGT ++   LSE Q+A            P A +LP  N F+PT+F +RA     ++G     XXXXXXXXXXXXXX    + +       P  + A+A LDT P         P LV E  G     IWHKMD ++ VPKS+I  KL+T E   YASP+     R++ R+++E+L  ++YDAR+AGLRY +      L +SV GYS  +P LL ++    R +L++ R +G            + L    + L++   FE  R+  LR Y N  +  PYE A YY R A E  S+++H++EY   L   Q CTP G+A   + VL R++V+V+AHGN+   EA  L++ +   L +  PLP +ELP     RL    +KG      V++++    E+E+NSAVEV+ Q  P +   D       L+ ++ + YTSAF QLRT EQLGYIV +   +    +V                  L +SV+VQ P   P+ L++RIE W+  FR +L DMS E F S+V ++    L ++  + EE    +  I TR  +F R  ++A     LT+  ++A  DR++  G+P RRKL V +AS +       +  AA+PA G G                VL  L++IRA+K
Sbjct:  444 SKPCSYLSHLIGHEGPGSLHLLLNSRGWINSLSAGVPMKFSDAEYFKVSISLTEEGAKHIDEINLLVFAYINLLRKEGPQEWIHNEIAQMSAVSFRYKEWGEAVDFAQDTAQLMK--KYPPEYIMSGPYRMSEWDPDLVEKITGLLTPENCVVEVVNKDFGLEPDIDE-----WEQEEWYGTRFRQARLSEAQVAAWREAQA-----PAALALPPPNRFLPTDFTIRAIAAATKQGXXXXXXXXXXXXXXXXXXXXXXDAAVLDMAGMSPSAVAALAALDTTP---------PTLVHEEEG---YKIWHKMDSTFLVPKSNILVKLFTGEDGNYASPVHMTMVRLYARMVREELNEFSYDARMAGLRYGISADPDSLDISVSGYSDKLPELLQRVATTTRSILSDLRSMGH---------SPEGLDGEVKKLKRWAAFEKHRQGLLREYNNFVRQSPYEVASYYTRHALE--SKMYHLNEYAAVLRSTQLCTPAGIARVLEGVLSRLQVEVLAHGNLDSEEATHLSSLLKAEL-QSIPLPTSELPD---DRLVVVPQKG------VLVQMPTPNEDEENSAVEVHFQVGPEDGEDDSGRRGCLLDLVSHMAYTSAFNQLRTEEQLGYIVSSFQRKSGEPQV------------------LGFSVMVQGPHHPPSHLDDRIENWLQMFRQQLVDMSPEEFSSNVNAVVLQKLEKDTRLNEETGRHWAEISTRKYNFERWPKEARVTSALTQAQLVAFVDRHFTLGSPDRRKLAVHIASAK----LPADQLAALPAHGAGH---------------VLHTLDDIRAYK 1187
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BLAST of mRNA_P-fluviatile_contig9.15405.1 vs. uniprot
Match: W7TV91_9STRA (Insulin-degrading enzyme n=1 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TV91_9STRA)

HSP 1 Score: 372 bits (955), Expect = 6.390e-108
Identity = 265/771 (34.37%), Postives = 397/771 (51.49%), Query Frame = 2 
Query: 1373 QRSKPTIYVSHLLGYEGKGGLHELLHGRGWVSSLSAGSVVTATDFQLFRLSLSLTEEGERHIDEIIELCHRFIALLRSQPPQKRVQDDLAAMGEIGFRFLENGSPSGAVQGIANALGDGEVEPAEVLCGRFTVLEWDPAAITDVVDRLTPRNCQILVVSKRDEEEANKDGSWEAGWQKERWYGTSYKVETLSEDQLARLESVTPEVDGYPGAFSLPGANPFIPTEFGLRADEEGDAVAGXXXXXXXXXXXXXXEAIQSLLPPDIPAIALDTVPRQDWSRLLPPALVVEGGGGGAVNIWHKMDRSYRVPKSSIAAKLWTPEPYASPMAAMQARMFVRLLKEDLKSWAYDARLAGLRYSLEMTTQGLQLSVGGYSSTVPLLLSKILGHIRELLAEYRELGTLLAVSSEAGGEQALTARQELLRKRFENSRESFLRFYRNTAQDQPYETADYYVRQASENCSEVWHVDEYKRALEDGQNCTPGGMAERFDRVLRRMRVDVMAHGNVARAEAEGLANAVAVALGRPEPLPAAELPTRHAHRLSTAGEKGGGSSGVVVLELEAKTEEEKNSAVEVYLQAAP-----GESNLDLASALEFINTLGYTSAFQQLRTREQLGYIVFTQLSRGPAGRVTPLWDTDGGADGLHPGGPLAWSVVVQSPDKTPAELEERIEAWIGGFRD-ELADMSAEVFKSSVASMSSGVLRRERSMREEASVFFGAIGTRTGDFYRRYRKAESYGRLTKEAVLAAYDRYY-APGAPARRKLTVRVASQRHA 3664
            Q SKP  Y++HLLG+EGKG LH  L+ +GW+ S+SAGS V   D  +F++SLSLT+ G  HI+EI+ L ++++ LLRS P  ++V ++L  M EI F F E  +      GI++ +   E  P  +L G +  L+WD  A+ D +  LTP    + VVSK  EEEA K+      W KE+WYGT +K+E L E ++A   +  PE+       SLP  N F+PT+F L  ++                      A +SL P D       ++     ++ LP +L       G V ++HK+D +++VPK    A L + + Y+SP + +  R++  LL+++L  +AY+A +AGL YS+   T GL + V GYS  +P+LL K+ G  + LL E ++ G                A    ++++F   R + LR Y N  ++ PYE A Y  RQ  +   + WH+ +Y + L D   C    M +  +  + R+  D  AHGNV   EA      +  + G   PL   E P   A  L         ++  ++ +      EE NSA EVY+Q  P     G++  D+   L+ ++ +  TSA+Q+LRT +QLGYIVF  L R   G+            GL        SVVVQSP  +P +L+  IE W+  FR+ EL  +S E F+S + ++ S  L +++ + EEA   +  I  R  DFYR  R+      LTKE +L+ +D +  A  APARRKL V V S +HA
Sbjct:  189 QSSKPARYLAHLLGHEGKGSLHSYLNSQGWIESISAGSSVKTADMDMFKVSLSLTQAGMEHIEEIVGLVYQYLKLLRSSPVDRKVFEELKTMSEIKFLFREKENAVDFASGISSMMH--EYPPENILWGPYA-LDWDEQAVRDYLSLLTPERMHLTVVSKAFEEEAQKEA-----WAKEKWYGTLHKLEKLPEAKVAAWSN-PPEIHPM---LSLPSPNEFLPTDFSLICEQP---------------------AYKSLAPDDPVHPFPPSLLFPSSAQALPASLPASSPERG-VKVFHKLDTTFKVPKVQFFAHLLSRQIYSSPPSVVLHRLYNMLLRDELNEFAYEAAMAGLSYSVTTRTTGLSVKVSGYSHKLPVLLKKVAGKAKGLLQEIKDKG----------------ANDPEIQQKFNKHRLTLLREYMNFDREAPYERALYNTRQVLDG--QAWHLAQYIQVLNDHSTCNVQAMTDVVEEGMARLDCDAYAHGNVNAEEALSYFQTLKDSWGF-SPLYDGEQPEERAVMLH--------ANSTLIYQTPGPNPEEDNSATEVYIQCGPTHLSGGDTKSDVI--LDVLSHMASTSAYQRLRTEQQLGYIVFAFLRRLNGGQ------------GL--------SVVVQSPSASPPQLDGFIEDWMADFREKELGTLSDEDFESHLLAVESMKLEKDKRLSEEAYRHWAQIVERRYDFYREKREVAVLRTLTKEDLLSFWDTHISAATAPARRKLAVYVHSSKHA 876
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BLAST of mRNA_P-fluviatile_contig9.15405.1 vs. uniprot
Match: K8YRP1_NANGC (Insulysin n=2 Tax=Monodopsidaceae TaxID=425072 RepID=K8YRP1_NANGC)

HSP 1 Score: 372 bits (955), Expect = 1.560e-105
Identity = 265/771 (34.37%), Postives = 397/771 (51.49%), Query Frame = 2 
Query: 1373 QRSKPTIYVSHLLGYEGKGGLHELLHGRGWVSSLSAGSVVTATDFQLFRLSLSLTEEGERHIDEIIELCHRFIALLRSQPPQKRVQDDLAAMGEIGFRFLENGSPSGAVQGIANALGDGEVEPAEVLCGRFTVLEWDPAAITDVVDRLTPRNCQILVVSKRDEEEANKDGSWEAGWQKERWYGTSYKVETLSEDQLARLESVTPEVDGYPGAFSLPGANPFIPTEFGLRADEEGDAVAGXXXXXXXXXXXXXXEAIQSLLPPDIPAIALDTVPRQDWSRLLPPALVVEGGGGGAVNIWHKMDRSYRVPKSSIAAKLWTPEPYASPMAAMQARMFVRLLKEDLKSWAYDARLAGLRYSLEMTTQGLQLSVGGYSSTVPLLLSKILGHIRELLAEYRELGTLLAVSSEAGGEQALTARQELLRKRFENSRESFLRFYRNTAQDQPYETADYYVRQASENCSEVWHVDEYKRALEDGQNCTPGGMAERFDRVLRRMRVDVMAHGNVARAEAEGLANAVAVALGRPEPLPAAELPTRHAHRLSTAGEKGGGSSGVVVLELEAKTEEEKNSAVEVYLQAAP-----GESNLDLASALEFINTLGYTSAFQQLRTREQLGYIVFTQLSRGPAGRVTPLWDTDGGADGLHPGGPLAWSVVVQSPDKTPAELEERIEAWIGGFRD-ELADMSAEVFKSSVASMSSGVLRRERSMREEASVFFGAIGTRTGDFYRRYRKAESYGRLTKEAVLAAYDRYYAPG-APARRKLTVRVASQRHA 3664
            Q SKP  Y++HLLG+EGKG LH  L+ +GW+ SLSAGS V   D  +F++SLSLT+ G  HI+EI+ L ++++ LLRS P  ++V ++L  M EI F F E  +      GI++ +   E  P  +L G +  L+WD  A+ D +  LTP    + VVSK  EEEA K+      W KE+WYGT +K+E L E ++A   +  PE+       SLP  N F+PT+F L  ++                      A +SL P D       ++     ++ LP +L       G V ++HK+D +++VPK    A L + + Y+SP + +  R++  LL+++L  +AY+A +AGL YS+   T GL + V GYS  +P+LL K+ G  + LL E ++ G                A    ++++F   R + LR Y N  ++ PYE A Y  RQ  +   + WH+ +Y + L D   C    M +  +  + R+  D  AHGNV   EA      +  + G   PL   E P   A  L         ++  ++ +      EE NSA EVY+Q  P     G++  D+   L+ ++ +  TSA+Q+LRT +QLGYIVF  L R   G+            GL        SVVVQSP  +P +L+  IE W+  FR+ EL  +S E F+S + ++ S  L +++ + EEA   +  I  R  DFYR  R+      LTKE +L+ +D + +   APARRKL V V S +HA
Sbjct:  488 QSSKPARYLAHLLGHEGKGSLHSYLNSQGWIESLSAGSSVKTADMDMFKVSLSLTQAGMEHIEEIVGLVYQYLKLLRSSPVDRKVFEELKTMSEIKFLFREKENAVDFASGISSMMH--EYPPENILWGPYA-LDWDEQAVRDYLSLLTPERMHLTVVSKAFEEEAQKEA-----WAKEKWYGTLHKLEKLPEAKVAAWSN-PPEIHPM---LSLPSPNEFLPTDFSLICEQP---------------------AYKSLAPDDPVHPFPPSLLFPSSAQALPASLPASSPERG-VKVFHKLDTTFKVPKVQFFAHLLSRQIYSSPPSVVLHRLYNMLLRDELNEFAYEAAMAGLSYSVTTRTTGLSVKVSGYSHKLPVLLEKVAGKAKGLLQEIKDKG----------------ANDPEIQQKFNKHRLTLLREYMNFDREAPYERALYNTRQVLDG--QAWHLAQYIQVLNDHSTCNVQAMTDVVEEGMARLDCDAYAHGNVNAEEALSYFQTLKDSWGF-SPLYDGEQPEERAVMLH--------ANSTLIYQTPGPNPEEDNSATEVYIQCGPTHLSGGDTKSDVI--LDVLSHMASTSAYQRLRTEQQLGYIVFAFLRRLNGGQ------------GL--------SVVVQSPSASPPQLDGFIEDWMADFREKELGTLSDEDFESHLLAVESMKLEKDKRLSEEAYRHWAQIVERRYDFYREKREVAVLRTLTKEDLLSFWDTHISVATAPARRKLAVYVHSSKHA 1175
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BLAST of mRNA_P-fluviatile_contig9.15405.1 vs. uniprot
Match: A0A7S4DCS1_HETAK (Hypothetical protein (Fragment) n=3 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S4DCS1_HETAK)

HSP 1 Score: 353 bits (907), Expect = 5.960e-99
Identity = 267/716 (37.29%), Postives = 373/716 (52.09%), Query Frame = 2 
Query: 1379 SKPTIYVSHLLGYEGKGGLHELLHGRGWVSSLSAGSVVTATDFQLFRLSLSLTEEGERHIDEIIELCHRFIALLRSQ---PPQKRVQDDLAAMGEIGFRFLENGSPSGAVQGIANALGDGEVEPAEVLCGRFTVLEWDPAAITDVVDRLTPRNCQILVVSKRDEEEANKDGSWEAGWQKERWYGTSYKVETLSEDQLARLESVTPEVDGYPGAFSLPGANPFIPTEFGLRADEEGDAVAGXXXXXXXXXXXXXXEAIQSLLPPDIPAIALDTVPRQDWSRLLPPALVVEGGGGGAVN------IWHKMDRSYRVPKSSIAAKLWTPEP--YASPMAAMQARMFVRLLKEDLKSWAYDARLAGLRYSLEMTTQGLQLSVGGYSSTVPLLLSKILGHIRELLAEYRELGTLLAVSSEAGGEQALTARQELLRKRFENSRESFLRFYRNTAQDQPYETADYYVRQASENCSEVWHVDEYKRALEDGQNCTPGGMAERFDRVLRRMRVDVMAHGNVARAEAEGLANAVAVALGRPEPLPAAELPTRHAHRLSTAGEKGGGSSGVVVLELEAKTEEEKNSAVEVYLQAAP-GES-NLDLASALEFINTLGYTSAFQQLRTREQLGYIVFTQLSRGPAGRVTPLWDTDGGADGLHPGGPLA---WSVVVQSPDKTPAELEERIEAWIGGFRDELADMSAEVFKSSVASMSSGVLRRERSMRE 3478
            +KPT Y+ HL+G+EG G LH LL+ RGW++ L+AGS     +  + ++ +SLTE G  H++E+++L    I ++R      PQ+ V +++AAM    FRF E G PSG   G++  L +G   P EV  G     +W P  +      LTP NCQ+ VVS    E+A  +G     W +E WYGT +K+   + ++ AR         G+P   +LPG N FIP +F LR D +    AGXXXXXXXXXXXXXX                            PP LVV G G  A +      +W K+DR++RVPK+++   L   +   YASP A   AR++ ++LKE+LK +AYDAR+AGLR+S+    +GLQL V GYS  +P+L  ++    R++L     L        E G E A  AR++  R +FE  R++ L+ Y N   +  Y+ A YY R A E   + WH+ EY  A+   + CTP  +A     VL R +     HGN   AEA  LA  VA AL   E  P  E   +   R++    +       VV+E       E+N+AVEV+ Q    GE  + +    L+ +N L YTSAF+QLRT EQLGYIV T   R                     G P A   +SV+VQ P   PA L+ER+EAW+  FR ELA +S E FK +V  + S  L+  R++R+
Sbjct:  409 AKPTNYLCHLIGHEGPGSLHALLNKRGWINGLTAGSAFRGDEGAVVKVGMSLTESGMEHLEEVLDLVWEKINMVREMVATAPQQWVFEEMAAMASFQFRFREQGDPSGFASGLSGQLDNG-YPPEEVFSGPSQFDDWRPDVLQKFAAALTPANCQLQVVSSSFREQAAAEG-----WAEEHWYGTQHKLVPFTAEEAARWGGGP---RGHP-ELALPGPNDFIPRDFSLRCDTD----AGXXXXXXXXXXXXXXXXX--------------------XXXXAPPTLVVAGAGRNATDAAAGMEVWAKLDRTFRVPKATLVLHLGCGQDGWYASPWAMSAARLYTKMLKEELKEYAYDARVAGLRWSVTAEPEGLQLLVSGYSDKLPVLARRVAQAFRQVLDRCAALEGPAPAEGEGGPEAA--ARRKA-RAQFEKHRQAMLKDYANFEVEASYQRAMYYARLALEQ--DAWHISEYAAAVRSPR-CTPAAVARTAAAVLGRTQARAFVHGNAGGAEAAALAAEVAAALRLEEAAPLPEGEAKEWRRVALPAGRP------VVVEQATGNPREENAAVEVHYQMGVFGEQGDYEKEVLLDLVNQLAYTSAFRQLRTEEQLGYIVSTTTRRS--------------------GSPAAVGGFSVIVQGPHHPPAHLDERVEAWLAKFRGELAALSEEEFKQNVEGLVS--LKLVRNLRK 1056
[Close]
BLAST of mRNA_P-fluviatile_contig9.15405.1 vs. uniprot
Match: A0A7S2YG22_9STRA (Hypothetical protein n=1 Tax=Amphiprora paludosa TaxID=265537 RepID=A0A7S2YG22_9STRA)

HSP 1 Score: 322 bits (825), Expect = 2.930e-89
Identity = 250/813 (30.75%), Postives = 394/813 (48.46%), Query Frame = 2 
Query: 1379 SKPTIYVSHLLGYEGKGGLHELLHGRGWVSSLSAGSVVTATDFQLFRLSLSLTEEGERHIDEIIELCHRFIALLRSQPPQKRVQ-DDLAAMGEIGFRFLENGSPSGAVQGIANALGDGEVEPAEVLCGRFTVLEWDPAAITDVVDRLTPRNCQILVVSKRDEEEANKDGSWEAGWQKERWYGTSYKVETLSEDQLARLESVTPEVDGYPGAFSLPGANPFIPTEFGLRADEEGDAVAGXXXXXXXXXXXXXXEAIQSLLPPDIPAIALDTVPRQDWSRL-LPPALVVEGGGGGAVNIWHKMDRSYRVPKSSIAAKLWTPEPYASPMAAMQARMFVRLLKEDLKSWAYDARLAGLRYSLEMTTQGLQLSVGGYSSTVPLLLSKILGHIRELLAEYRELGTLLAVSSEAGGEQALTARQELLRKRFENSRESFLRFYRNTAQDQPYETADYYVRQASENCSEVWHVDEYKRALED-GQNCTPGGMAE----RFDRVLRRMRVDVMAHGNVARAEAEGLANAVAVA-LGRPEPLPAAELPTRHAHRLSTA-------GEKGGGSSGVVVLELEAKTEEEKNSAVEVYLQAAPG-ESNLDLASALEFINTLGYTSAFQQLRTREQLGYIVFTQLSRGPAGRVTPLWDTDGGADGLHPGGPLAWS--VVVQSPDKTPAELEERIEAWIGGFRDELADMSAEVFKSSVASMSSGVLRRERSMREEASVFFGAI--------GTRTGDFYRRY-----------RKAESYG---------RLTKEAVLAAYDRYYAPGAPARRKLTVRVASQRHAREAKE 3679
            +KP   +SHL G+E  G LH LL+  G+++ LS+G  + A+DF LF +++SLT +G    DE+++L  ++IAL+R    Q ++  D+L  + ++ F+F ENG P+  V   A+AL D   +P  +L G  T  E+DP  +   ++R  P N  I++ +   ++E  +      GW  E +YG  +K E ++E+Q+ R ES T     +     +P  N +IP +F LR +EEG                                  LD     D S + +PP  +V+      + +WHKMD+ +RVPK+ I   + +P+ Y+SP +    R+F R+L +DL S+ YDA LAG  Y +  T  G ++SV GYS  +P LL  +   +  L+ E                   L A +  L+ +F+ +R+   R  +N   D PYE A+Y  R   E  +  W++D Y  ++E      TP  MAE      D + +R++ + +  GN+A  EA  +A+ ++   L     L   E P+  + +L T        G + G  S  +V    A +E E+NSAVEV LQA    E      +  + I  + Y SA+ +LRT EQLGYIV     R  AGR                    +WS  ++VQ    TP +LEER+EAW+  F++ELA MS E   +   ++++ +L  E  + +E S+F+G I          RT  F R               AE  G          + K+ VLA +D+Y++  +P RR ++ RV SQ+ ++E +E
Sbjct:  250 TKPYRVLSHLFGHESPGSLHALLNEEGYLNGLSSGVGIDASDFCLFSVTISLTPKGMAQQDEVLDLLFQWIALVRENKDQLQLHHDELRQISDMNFKFRENGDPTDFVSNAASALFDEHEDPKFLLSG--TKAEYDPVVLDAFMERFRPENAMIVITNSDLKQETGE------GWIVEPYYGAPHKDEPITEEQMKRWESPT----SFDKRLHIPALNAYIPDDFSLRCNEEG----------------------------------LDKEEEPDSSEIDIPPVPIVDND---KLRLWHKMDKYWRVPKAFIRLSIMSPDVYSSPRSMTYNRIFQRILNDDLNSFVYDASLAGCNYRVSCTPTGYRISVSGYSQKLPFLLDTLTSRMFSLIEE-------------------LKAGEPALKDKFDEARDGLCRETKNYRLDSPYEVANYNSRLLMEETA--WYIDNYIESMEGPAAEKTPLTMAECAQVAEDCISKRIKCEGLCMGNMAEKEALTIADMISDRFLASSRTLSDVETPSFRSLKLPTREEAKTIFGSQSGERSIPLVYADMAYSESEENSAVEVILQAGSEMEMGYQGLAIFDLITHIAYNSAYNRLRTNEQLGYIVSVS-PRKTAGR--------------------SWSMAIIVQGSVATPEKLEERVEAWLASFKEELASMSPEDIAAEARAVAAQLLENETKLSQEVSLFWGEILNTEGMTENLRTPAFDRLEILSKELITETDEDAEDSGTVQSSTLTPHVLKDRVLAFFDKYFSEASPERRAMSARVYSQKFSKEFEE 971
[Close]
BLAST of mRNA_P-fluviatile_contig9.15405.1 vs. uniprot
Match: A0A0G4F4E5_VITBC (Uncharacterized protein n=2 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A0G4F4E5_VITBC)

HSP 1 Score: 318 bits (814), Expect = 8.520e-87
Identity = 260/839 (30.99%), Postives = 405/839 (48.27%), Query Frame = 2 
Query: 1373 QRSKPTIYVSHLLGYEGKGGLHELLHGRGWVSSLSAGSVVTATDFQLFRLSLSLTEEGERHIDEIIELCHRFIALLRSQPPQKRVQDDLAAMGEIGFRFLENGSPSGAVQGIANALGDGEVEPAEVLCGRFTVLEWDPAAITDVVDR-LTPRNCQILVVSKRDEEEANKDGSWEAGWQKERWYGTSYKVETLSEDQL---ARLESVTPEVDGYPGAFSLPGANPFIPTEFGLRADEEGDAVAGXXXXXXXXXXXXXXEAIQSLLPPD--IPAIALDTVPRQDWSRLLPPALVVEGGGGGAVNIWHKMDRSYRVPKSSIAAKLWTPEPYASPMAAMQARMFVRLLKEDLKSWAYDARLAGLRYSLEMTTQG-LQLSVGGYSSTVPLLLSKILGHIRELLAEYREL-----------GTLLAVSSEAGGEQALT---ARQELLRKRFENSRESFLRFYRNTAQDQPYETADYYVRQASENCSEVWHVDEYKRALEDGQNCTPGGMAERFDRVLRRMRVDVMAHGNVARAEAEGLANAVAVALGRPEPLPAAELPTRHAHRLSTAGEKGGGSSGVVVLELEAKTEEEKNSAVEVYLQAAPGESNLDLASALEFINTLGYTSAFQQLRTREQLGYIVFTQLSRGPAGRVTPLWDTDGGADGLHPGGPLAWSVVVQSPDKTPAELEERIEAWIGGFRDELADMSAEVFKSSVASMSSGVLRRERSMREEASVFFGAIGTRTGDFYRRYRKA---ESYGRLTKEAVLAAYDRYYAPGAPARRKLTVRVASQRHAREAKEETAAAVPAEGGGGKQXXXAETAGVEGAVVLRNLEEIRAFKARTPIY 3817
            + +KP +Y+S++LGYEG G L +LL  +GW   L+A     ATDF +FR+S+ LT EG +H++EI  L  +++AL+ + PP + + D +A +  + FRF E   P+     ++  L D   EP  VL G   + +W P  I +++D  L PRNC   ++SK  E+ A +      GW+KE+WYGT ++   +   +L   A   S+  ++       +LP  N  +P +F LR D+E                    +     L  D        D  P++   R+  P       G   V I HKMDR +RVPK  +  +L  P    +P + +   +F++LL E+L    YDA  AG+   ++  ++G + +SVGG+S  +PLL++++L  ++ LL EY+ +                       ++ LT   AR++ L +RFE  R+   R Y N+   + Y  A   V +        W  D++   L + + C P  MA      L R  +     GN  R EAE  A   A  L R +PL   E P      L  A    GG    VV+E  +    + NSAVEV+ Q    + + +    L+ ++ + Y SAF +LRT  QLGYIV T         V  L+ T G            +SV VQS    P  LE+ IE W+   R E+ DMS + F +SV  + +   +R++ + EE+S  +  I  R   F R+ R+A   +   +++K+ +LA +D + A  AP+RR L     S  H RE+ ++TA A  A+  G K+   A  AG +G VVLR  ++IR F+   P++
Sbjct:  381 KETKPDMYLSYILGYEGAGSLRKLLVEKGWAEELNAAPYFEATDFNIFRISIDLTHEGLQHLEEITSLTFQYLALISNAPPSQALFDQIAKLRSMKFRFSEKIDPASFATLVSRNLFD--FEPPRVLSGPALLTKWAPEDIHELLDHYLIPRNCIFTIISKEFEKHAQERPD---GWKKEKWYGTLHREVNIDPKKLRDWAHPSSIHSKL-------TLPPPNDLVPVDFSLRCDQESPPADAERAATDGGPGEAMVQVSARRLDEDRGXXXXXEDDFPQR--FRVSTPG----ESGERTVEILHKMDRKFRVPKGHLYLQLTVPSSQQNPASYLLNDIFMQLLGEELNPLLYDASQAGMGCQMDFYSRGDITISVGGFSEKLPLLMTRVLQAMQSLLTEYKNVHLPPXXXXXXXXXXXXXXXXXDIQEGLTKGQARKQKLLERFETVRQKEKRRYENSRFAESYHLASRSVNEVLNPRGYSW--DQHISFLSNPRQCNPEEMARNVQESLARGDITCFVSGNFHREEAEDTARQAADVL-RIDPLLEGEEPVNRCVELPLASGTPGGRG--VVVEKTSVDANQPNSAVEVHFQVGLEDLSFERDLLLDLLDQIAYRSAFNRLRTELQLGYIVDTM--------VRSLYGTRG------------FSVRVQSTVADPLALEQHIEGWLVKLRQEVVDMSDQEFLNSVNGLLAKKTQRDKRLAEESSRMWREISLRQFVFDRKEREAAVLQDNTKISKKRLLALFDEHIAKTAPSRRLLASHFWSIPH-RESHDKTAEA-HAQQAGDKKAGEAAAAG-DGGVVLRTHDDIRQFRRTRPLH 1173
[Close]
BLAST of mRNA_P-fluviatile_contig9.15405.1 vs. uniprot
Match: A0A813ILB4_POLGL (Hypothetical protein n=2 Tax=Polarella glacialis TaxID=89957 RepID=A0A813ILB4_POLGL)

HSP 1 Score: 309 bits (791), Expect = 1.410e-84
Identity = 261/822 (31.75%), Postives = 383/822 (46.59%), Query Frame = 2 
Query: 1358 ADHQPQRSKPTIYVSHLLGYEGKGGLHELLHGRGWVSSLSAGSVVTATDFQLFRLSLSLTEEGERHIDEIIELCHRFIALLRSQPPQKRVQDDLAAMGEIGFRFLENG-SPSGAVQGIANALGDGEVEPA-EVLCGRFTVLEWDPAAITDVVDRLTPRNCQILVVSKRDEEEA---NKDGSWEAGWQKERWYGTSYKVETLSEDQLARLESVTPEVDGYPGAFSLPGANPFIPTEFGLRA--DEEGDAVAGXXXXXXXXXXXXXXEAIQSLLPPDIPAIALDTVPRQDWSRLLPPALVVEGGGGGAVNIWHKMDRSYRVPKSSIAAKLWTPEPYASPMAAMQARMFVRLLKEDLKSWAYDARLAGLRYSLEMTTQGLQLSVGGYSSTVPLLLSKILGHIRELLAEYRELGTLLAVSSEAGGEQALTARQELLRKRFENSRESFLRFYRNTAQDQPYETADYYVRQASENCSEVWHVDEYKRALEDGQNCTPGGMAERFDRVLRRMRVDVMAHGNVARAEAEGLANAVAVALGRPEPLPAAELPTRHAHRLSTAGEKGGGSSGVVVLELEAKTEEEKNSAVEVYLQAAPGESNLDLASALEFINTLGYTSAFQQLRTREQLGYIVFTQLSRGPAGRVTPLWDTDGGADGLHPGGPLAWSVVVQSPDKTPAELEERIEAWIGGFRDELADMSAEVFKSSVASMSSGVLRRERSMREEASVFFGAIGTRTGDFYRRYRKAESYGRLTKEAVLAAYDRYYAPGAPARRKLTVRVASQRHAREAKEETAAAVPAEGGGGKQXXXAETAGVEGAVVLRNLEEIRAFKA 3802
            A  Q   +KP +Y+ HLLG+EG+G LH++L+  GWV  LSAG      D QLF LSL LT EG+ H +E++ L  +++AL R+  PQ  V  ++ A+ EI F   E+   P      IANAL      PA E + G   + EW P  ++  +D LTP    + + S    E++      G     WQ+E+WYG  ++ E + +++LA L    PE +       LP  N F+P +F LRA      DA+A                   S LP ++ A  L  +  + ++RL                 WHK D +++ P+ S+ A ++T    + P A M  RMF  LL+++L S+AYDA++AGL Y L+ T   L L+V G++  +P LL  ++  + EL+          A    A GE       +LL +R +N R+  L+ Y N  +D+PYE   YY  Q        WH  EY   L+   +   G  +      L  ++++V+ HGN    +AE     ++ AL          LP +   +L  +      S+ +  L+LE    E++NS      Q  P      L + L  +  +  +SAFQQLRT+EQLGYIV               W         H    LA  VVVQ     P +++ +IEAW+  F  EL DMS E F S V S+ S + RR  S+ +E    +  I  R  DF  R R AES   L KE V   ++ + A GAP RRKL+VRV       E   +  A + A                     LR++++IRAF+A
Sbjct:  207 AQTQQLFAKPELYIGHLLGHEGEGSLHDVLNQLGWVDELSAGLEHDFDDQQLFSLSLILTPEGDAHQEEVLALLFQYVALCRNAGPQDVVFREIQALQEIAFAHREDACDPDELAASIANAL---HRYPAQEAIRGPSALDEWSPTLLSSCLDLLTPEKSLVFISSPDFSEQSVAPGATGELAPNWQREKWYGVVFREEAIGQERLA-LWGEDPEEES---GLQLPEPNEFVPMDFSLRAVPGSGSDALA------------------TSRLPLEMTAPVL--LFSEPFARL-----------------WHKTDYAFKTPRESVMALIYTRTYESGPEAVMMMRMFCGLLEDELSSFAYDAQVAGLDYHLQFT-DNLALTVSGFNDKLPKLLEVVMDRMAELIQ---------AAEDAAAGEAEDEDTADLL-ERLDNQRQILLQEYTNFPRDEPYEICGYYASQLLH--PGYWHFSEYIEVLQRPADL--GAFSRALRSSLSSVQLEVLVHGNADARDAEDAMAFISDALEEIGSEVLKLLPRQEVLQLPES------STTIFQLDLEKDNPEQENSCTWNLYQLGPLAEKPKLEACLALVCHVAESSAFQQLRTQEQLGYIV-----------EASTWKE-------HDSFGLA--VVVQGTRLPPKDVDIQIEAWLASFGQELRDMSDEEFASQVESVLSKLTRRYTSLSQETRHHWSEIRRRRYDFLSRRRVAESLEALRKEDVDNFFNEHLAVGAPLRRKLSVRVLGSSATGEGNTDDPATLTA--------------------ALRSVQDIRAFQA 923
[Close]
BLAST of mRNA_P-fluviatile_contig9.15405.1 vs. uniprot
Match: A0A7S4HIU6_9STRA (Hypothetical protein n=1 Tax=Odontella aurita TaxID=265563 RepID=A0A7S4HIU6_9STRA)

HSP 1 Score: 306 bits (785), Expect = 7.070e-83
Identity = 250/816 (30.64%), Postives = 384/816 (47.06%), Query Frame = 2 
Query: 1373 QRSKPTIYVSHLLGYEGKGGLHELLHGRGWVSSLSAGSVVTATDFQLFRLSLSLTEEGERHIDEIIELCHRFIALLRSQPPQK------RVQDDLAAMGEIGFRFLENGSPSGAVQGIANALGDGEVEPAEVLCGRFTVLEWDPAAITDVVDRLTPRNCQILVVSKRDEEEANKD------GSWEAG---WQKERWYGTSYKVETLSEDQLARLESVTPEVDGYPGAFSLPGANPFIPTEFGLRADEEGDAVAGXXXXXXXXXXXXXXEAIQSLLPPDIPAIALDTVPRQDWS----RLLPPALVVEGGGGGAVNIWHKMDRSYRVPKSSIAAKLWTPEPYASPMAAMQARMFVRLLKEDLKSWAYDARLAGLRYSLEMTTQGLQLSVGGYSSTVPLLLSKILGHIRELLAEYRELGTLLAVSSEAGGEQALTARQELLRKRFENSRESFLRFYRNTAQDQPYETADYYVRQASENCSEVWHVDEYKRALE----DGQNCTPGGMAERFDRVLR-RMRVDVMAHGNVARAEAEGLANAVAVALGRPEPLPAAELPTRHAHRLSTAGEKGG-------GSSGVVVLELEAKTEEEKNSAVEVYLQ-AAPGESNLDLASALEFINTLGYTSAFQQLRTREQLGYIV--FTQLSRGPAGRVTPLWDTDGGADGLHPGGPLAWSVVVQSPDKTPAELEERIEAWIGGFRDELADMSAEVFKSSVASMSSGVLRRERSMREEASVFFGAI-GTRTGDFYRRYRKAESYGRL----------TKEAVLAA---------YDRYYAPGAPARRKLTVRVASQR 3658
            Q ++P   +SHL+G+E  G LH LL+  G ++SLS+G  +  +DF L  L++SLT++G    + ++EL  ++IAL+RS   +       R  D++  M ++ F + ENG P+     +A+ L     EP+ VL        +D       ++RL P+NC + V     E+E   D      G+  A    WQ+E+WYG  Y+   L E+ +   ++             LP  N FIPT+F LR D++  A A                              LD     D +    ++ PP++++E  G   + +WHKMDR++RVPK+S+   L TP  Y SP A    R++ ++L++DL  + YDA +AG  Y +     G ++SV GYS  +P LL  +   +  L+AE +E         EA    AL         +FE +R++ LR  +N   D PYET+ Y  R   E+   VWHVD Y   +E    D    T  G A+  +  LR R +V+ +  GN+   EA+ +A+ +     +  PL   E P   +H+L T  E           SS    +E  A +E E N+A++V LQ A+  E   +    LE ++ + Y SA+ +LRT+EQLGYIV  FT+ + G A                      A++VV+QS    P  LEERIEAW+  FR+EL +M  E      A++ + +L R+  + +E S  +G I  T T    +     +   RL          T E V A          +D+Y    +P RR L+ RV  Q+
Sbjct:  426 QETRPYRVLSHLIGHESPGSLHSLLNDEGLINSLSSGVGIDTSDFSLCSLTVSLTKKGMEQRERVLELIWQWIALIRSAVEEDEDGLMARYHDEMRQMSKVNFSYRENGDPTDFSSSVADLLF--YHEPSRVLAASSMTGPFDAEVTKAFLERLRPQNCIVTVWDPDLEKEEGSDVVTSASGTSSASASPWQEEKWYGAKYREVRLPEEVVDHWDNPK----NLDSRLKLPKLNEFIPTDFSLRCDDDDAAHA-----------------------------ELDEPKGADANEAPGKVTPPSILIERPG---LRMWHKMDRTFRVPKTSLTMHLTTPNIYRSPRAMTLNRLYQKVLRDDLNEFVYDAGVAGCSYRVACLPTGYRISVSGYSEKLPHLLDVVTSRMLSLIAEMKE-------GPEAHPGLAL---------KFEKARQNLLRQTKNFRLDTPYETSSYISRMLVED--NVWHVDNYISEMEGEYADSHPLTLEGCAQVAEECLRGRGKVEALCMGNINEKEAKEVASVIEQHFLQSRPLAEEEYPQFRSHKLPTQAEAVRLFGPDVESSSIPTKIEDVAHSESEANNAIQVILQTASEHELGYEGTGTLELLSYIAYNSAYNRLRTQEQLGYIVSAFTKKTAGSAN---------------------AFAVVIQSSSTLPGVLEERIEAWLESFREELVNMPEERVAMEAAAVVAQLLERDMKLSDEVSSAWGEIVSTETLSAKKNLPAFDRLERLADTLTIGKECTSETVTAKGLKQNMIDFFDKYLLSTSPERRALSARVYCQK 1164
The following BLAST results are available for this feature:
BLAST of mRNA_P-fluviatile_contig9.15405.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LM01_ECTSI0.000e+072.46Similar to insulin-degrading enzyme n=2 Tax=Ectoca... [more]
A0A835YK48_9STRA6.570e-12134.02Metalloenzyme, LuxS/M16 peptidase-like protein n=1... [more]
A0A7S2UTJ0_9STRA4.880e-12036.56Hypothetical protein (Fragment) n=1 Tax=Fibrocapsa... [more]
W7TV91_9STRA6.390e-10834.37Insulin-degrading enzyme n=1 Tax=Nannochloropsis g... [more]
K8YRP1_NANGC1.560e-10534.37Insulysin n=2 Tax=Monodopsidaceae TaxID=425072 Rep... [more]
A0A7S4DCS1_HETAK5.960e-9937.29Hypothetical protein (Fragment) n=3 Tax=Heterosigm... [more]
A0A7S2YG22_9STRA2.930e-8930.75Hypothetical protein n=1 Tax=Amphiprora paludosa T... [more]
A0A0G4F4E5_VITBC8.520e-8730.99Uncharacterized protein n=2 Tax=Vitrella brassicaf... [more]
A0A813ILB4_POLGL1.410e-8431.75Hypothetical protein n=2 Tax=Polarella glacialis T... [more]
A0A7S4HIU6_9STRA7.070e-8330.64Hypothetical protein n=1 Tax=Odontella aurita TaxI... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-fluviatile_contig9contigP-fluviatile_contig9:3666018..3685399 -
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 score1129.0
Seed ortholog evalue0.0
Seed eggNOG ortholog2880.D8LM01
EggNOG free text desc.Belongs to the peptidase M16 family
EggNOG OGsCOG1025@1,KOG0959@2759
COG Functional cat.O
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
Hectar predicted targeting categoryother localisation
Ec32 ortholog descriptionM16 family peptidase
Ec32 orthologEc-14_002310.1
Exons15
Model size3823
Cds size2625
Stop1
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-fluviatile_contig9.15405.1prot_P-fluviatile_contig9.15405.1Porterinema fluviatile SAG_2381polypeptideP-fluviatile_contig9 3666018..3681772 -


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

Feature NameUnique NameSpeciesTypePosition
1622817353.8266735-CDS-P-fluviatile_contig9:3666017..36664011622817353.8266735-CDS-P-fluviatile_contig9:3666017..3666401Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3666018..3666401 -
1693572196.473067-CDS-P-fluviatile_contig9:3666017..36664011693572196.473067-CDS-P-fluviatile_contig9:3666017..3666401Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3666018..3666401 -
1622817353.8426464-CDS-P-fluviatile_contig9:3666960..36673201622817353.8426464-CDS-P-fluviatile_contig9:3666960..3667320Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3666961..3667320 -
1693572196.4827678-CDS-P-fluviatile_contig9:3666960..36673201693572196.4827678-CDS-P-fluviatile_contig9:3666960..3667320Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3666961..3667320 -
1622817353.856107-CDS-P-fluviatile_contig9:3667953..36682851622817353.856107-CDS-P-fluviatile_contig9:3667953..3668285Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3667954..3668285 -
1693572196.4916496-CDS-P-fluviatile_contig9:3667953..36682851693572196.4916496-CDS-P-fluviatile_contig9:3667953..3668285Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3667954..3668285 -
1622817353.8687375-CDS-P-fluviatile_contig9:3668852..36691021622817353.8687375-CDS-P-fluviatile_contig9:3668852..3669102Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3668853..3669102 -
1693572196.5012572-CDS-P-fluviatile_contig9:3668852..36691021693572196.5012572-CDS-P-fluviatile_contig9:3668852..3669102Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3668853..3669102 -
1622817353.8809118-CDS-P-fluviatile_contig9:3669607..36697421622817353.8809118-CDS-P-fluviatile_contig9:3669607..3669742Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3669608..3669742 -
1693572196.5088708-CDS-P-fluviatile_contig9:3669607..36697421693572196.5088708-CDS-P-fluviatile_contig9:3669607..3669742Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3669608..3669742 -
1622817353.892792-CDS-P-fluviatile_contig9:3670215..36706441622817353.892792-CDS-P-fluviatile_contig9:3670215..3670644Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3670216..3670644 -
1693572196.5170856-CDS-P-fluviatile_contig9:3670215..36706441693572196.5170856-CDS-P-fluviatile_contig9:3670215..3670644Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3670216..3670644 -
1622817353.9047425-CDS-P-fluviatile_contig9:3679149..36792481622817353.9047425-CDS-P-fluviatile_contig9:3679149..3679248Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3679150..3679248 -
1693572196.5248473-CDS-P-fluviatile_contig9:3679149..36792481693572196.5248473-CDS-P-fluviatile_contig9:3679149..3679248Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3679150..3679248 -
1622817353.916589-CDS-P-fluviatile_contig9:3679903..36799901622817353.916589-CDS-P-fluviatile_contig9:3679903..3679990Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3679904..3679990 -
1693572196.5328188-CDS-P-fluviatile_contig9:3679903..36799901693572196.5328188-CDS-P-fluviatile_contig9:3679903..3679990Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3679904..3679990 -
1622817353.93265-CDS-P-fluviatile_contig9:3680193..36803101622817353.93265-CDS-P-fluviatile_contig9:3680193..3680310Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3680194..3680310 -
1693572196.5405118-CDS-P-fluviatile_contig9:3680193..36803101693572196.5405118-CDS-P-fluviatile_contig9:3680193..3680310Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3680194..3680310 -
1622817353.9429195-CDS-P-fluviatile_contig9:3680598..36808171622817353.9429195-CDS-P-fluviatile_contig9:3680598..3680817Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3680599..3680817 -
1693572196.5481396-CDS-P-fluviatile_contig9:3680598..36808171693572196.5481396-CDS-P-fluviatile_contig9:3680598..3680817Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3680599..3680817 -
1622817353.9578826-CDS-P-fluviatile_contig9:3681559..36817721622817353.9578826-CDS-P-fluviatile_contig9:3681559..3681772Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3681560..3681772 -
1693572196.5560212-CDS-P-fluviatile_contig9:3681559..36817721693572196.5560212-CDS-P-fluviatile_contig9:3681559..3681772Porterinema fluviatile SAG_2381CDSP-fluviatile_contig9 3681560..3681772 -


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

Feature NameUnique NameSpeciesTypePosition
1622817353.9727948-UTR-P-fluviatile_contig9:3681772..36818551622817353.9727948-UTR-P-fluviatile_contig9:3681772..3681855Porterinema fluviatile SAG_2381UTRP-fluviatile_contig9 3681773..3681855 -
1693572196.5637968-UTR-P-fluviatile_contig9:3681772..36818551693572196.5637968-UTR-P-fluviatile_contig9:3681772..3681855Porterinema fluviatile SAG_2381UTRP-fluviatile_contig9 3681773..3681855 -
1622817353.988234-UTR-P-fluviatile_contig9:3682843..36829541622817353.988234-UTR-P-fluviatile_contig9:3682843..3682954Porterinema fluviatile SAG_2381UTRP-fluviatile_contig9 3682844..3682954 -
1693572196.5714972-UTR-P-fluviatile_contig9:3682843..36829541693572196.5714972-UTR-P-fluviatile_contig9:3682843..3682954Porterinema fluviatile SAG_2381UTRP-fluviatile_contig9 3682844..3682954 -
1622817353.9999626-UTR-P-fluviatile_contig9:3683590..36837791622817353.9999626-UTR-P-fluviatile_contig9:3683590..3683779Porterinema fluviatile SAG_2381UTRP-fluviatile_contig9 3683591..3683779 -
1693572196.5791829-UTR-P-fluviatile_contig9:3683590..36837791693572196.5791829-UTR-P-fluviatile_contig9:3683590..3683779Porterinema fluviatile SAG_2381UTRP-fluviatile_contig9 3683591..3683779 -
1622817354.013901-UTR-P-fluviatile_contig9:3684215..36842981622817354.013901-UTR-P-fluviatile_contig9:3684215..3684298Porterinema fluviatile SAG_2381UTRP-fluviatile_contig9 3684216..3684298 -
1693572196.587147-UTR-P-fluviatile_contig9:3684215..36842981693572196.587147-UTR-P-fluviatile_contig9:3684215..3684298Porterinema fluviatile SAG_2381UTRP-fluviatile_contig9 3684216..3684298 -
1622817354.030144-UTR-P-fluviatile_contig9:3684667..36853991622817354.030144-UTR-P-fluviatile_contig9:3684667..3685399Porterinema fluviatile SAG_2381UTRP-fluviatile_contig9 3684668..3685399 -
1693572196.5970833-UTR-P-fluviatile_contig9:3684667..36853991693572196.5970833-UTR-P-fluviatile_contig9:3684667..3685399Porterinema fluviatile SAG_2381UTRP-fluviatile_contig9 3684668..3685399 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-fluviatile_contig9.15405.1

>prot_P-fluviatile_contig9.15405.1 ID=prot_P-fluviatile_contig9.15405.1|Name=mRNA_P-fluviatile_contig9.15405.1|organism=Porterinema fluviatile SAG_2381|type=polypeptide|length=875bp
MGEGGLLRGEEHRSAGQARLWTDPGVRRGRAGTQGDGNPTQGDSAAGAFM
ASSADHQPQRSKPTIYVSHLLGYEGKGGLHELLHGRGWVSSLSAGSVVTA
TDFQLFRLSLSLTEEGERHIDEIIELCHRFIALLRSQPPQKRVQDDLAAM
GEIGFRFLENGSPSGAVQGIANALGDGEVEPAEVLCGRFTVLEWDPAAIT
DVVDRLTPRNCQILVVSKRDEEEANKDGSWEAGWQKERWYGTSYKVETLS
EDQLARLESVTPEVDGYPGAFSLPGANPFIPTEFGLRADEEGDAVAGGGG
GDTEAAAAAAAEAIQSLLPPDIPAIALDTVPRQDWSRLLPPALVVEGGGG
GAVNIWHKMDRSYRVPKSSIAAKLWTPEPYASPMAAMQARMFVRLLKEDL
KSWAYDARLAGLRYSLEMTTQGLQLSVGGYSSTVPLLLSKILGHIRELLA
EYRELGTLLAVSSEAGGEQALTARQELLRKRFENSRESFLRFYRNTAQDQ
PYETADYYVRQASENCSEVWHVDEYKRALEDGQNCTPGGMAERFDRVLRR
MRVDVMAHGNVARAEAEGLANAVAVALGRPEPLPAAELPTRHAHRLSTAG
EKGGGSSGVVVLELEAKTEEEKNSAVEVYLQAAPGESNLDLASALEFINT
LGYTSAFQQLRTREQLGYIVFTQLSRGPAGRVTPLWDTDGGADGLHPGGP
LAWSVVVQSPDKTPAELEERIEAWIGGFRDELADMSAEVFKSSVASMSSG
VLRRERSMREEASVFFGAIGTRTGDFYRRYRKAESYGRLTKEAVLAAYDR
YYAPGAPARRKLTVRVASQRHAREAKEETAAAVPAEGGGGKQGGGAETAG
VEGAVVLRNLEEIRAFKARTPIYV*
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mRNA from alignment at P-fluviatile_contig9:3666018..3685399-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-fluviatile_contig9.15405.1 ID=mRNA_P-fluviatile_contig9.15405.1|Name=mRNA_P-fluviatile_contig9.15405.1|organism=Porterinema fluviatile SAG_2381|type=mRNA|length=19382bp|location=Sequence derived from alignment at P-fluviatile_contig9:3666018..3685399- (Porterinema fluviatile SAG_2381)
GCTGCACGCGGCTGAAGTGAGGGGAAATGAATAGCGCGTTCCCATGGATG
AAAGCAGCTACGATTTCTCTGTTCGCAGCCACCCTTGAATCCGCGGGCAG
TAGGTGCACACCCTGCCCGGGATTCCTCGTCAAAGCGCGCGTAAGCCAAA
CCCGGCAACAACAGCAGCGGCAGCGGCTCCTGTTGCCATTGCAGCAACCG
CTGCAGGGCCGAAGTGCTGCCGCCGCTCGCTCTTCGCACCTCCGTTTCCT
TTCGTCATGGTCTTCCCGAGGTGCGGTACGATGCCGGGAGCAGTGCGGCG
AGAGACGGAGCGGTATCGTCGTTGAACCTGATTCGACAGAAACACTGCCG
GTACGCCCCCGATCGGCGACTGTGATGCACGGTGGGGGTGCTGCTCAAGG
CGCGACGACCGCCTTTGTGGCGTCGTGTTTCGTGTCCGAGGTGATGCCGA
CAGCTACGCTACGTGGTGGTGGTGGAGATGCGCGAACCAGCACCCGTTTG
TGGTCAACCGCGACTGCCGCTGCTGTAGTCCCGGAGACGACCGACAGGAC
TGAGATCATAAAGCCCGACCGCGACCCCCGCTCTTACCGGTACCTGACGC
TGCCCAACGGGCTGGAGGTGGTCCTTGTCAACGATCCATTCACCGAGTCG
GCAGCCGCATCCATGTTTATCCGCACTGGGCACATGCAAGATCCGAAGGA
GTTGGCGGGGATGGCGCACTTCCACGAACACAGTGAGACGATTTCCAGAG
TGCCGAAGCCAGTGTGCAGATAGCCGTCCAGACGACCATGAGACCGCCGT
GTCGGAGAGTCTCGTGTAGATGTCGTATCGTAGGTGCACGATGGTTCTCT
GTTGCGATGCGCCTTGAATGAGCTAGTCTGTGTCGTGTACAGCAAGGAGG
CCGATCGAAGGGGTCCGTGGCGCGTTGGCCACCAATCCTTCAACCTCCGT
TCGATTTGAGCCATTTCCGTCGACACTCATGCAAGGAGAAACCGGCTAGG
ATATCAGCCGCGAGGGTTAGAGGCGAAGGGCTCACTTAGCCACCTCTCTG
TCATTCATCCCCCCCCCTGCTCACACGTGCCTCTCCGTCTGTCTCTCGCA
GTGCTTTTCTTGGGGACCGACAAGTACCCGGAGGAGGGAGAATTCGAGAA
TTTCTTGGCGCAGCACGGAGGGTCGTCCAACGCGGTAAGATTCTACCTGT
GTCCACTGCGGAGTTTTTTCCTCATCTGCGGAAGCAGTAACACTGGTATG
TTGTAAAGCTGGAAAGCACTGCAATCCGCAAATCTCTAAGTTTGCTCTTA
GCGGCGGTCGCCGTGGTCGTCAAGCCACAGTCATCATCGTATCTTTTTGT
TTTTTCTGCCTAAACTCCCCAAATACCACCGCACTCCAAAATTTCACACC
AAACTTCGCTATTCTCTCCGGCACATCGCCAACGGTCGGCGAAGGGATCC
TCCTGTGCCTCTTTTTCGAGTGGCATCCCTTTCCCGCTCTCAGGCCCCTC
GTTCCCTCCCCATCTGGCCCGATCCATGTGTTTGAACATATCGCCGCCCC
CGATCCGCCCGCACATATCGTATCACTTCATGCGGGCGCCAACACTTGGA
TCTGTGGCGACGCCCAACAGTACACAGCCATGGAATCGACGAACTACTAC
TTCGACGTGAAATCCTCGCAGCTGAGGGGCGCAATGGATCGCTTCGCGCA
GTTTTTCCAGACCCCGCTCTTCGCGGAGTCGGCCCTGGAGCGAGAGCTGC
AGGCCGTCGACTCGGAGCACTCCAACAACAAGAACGATGATATGTGGAGG
ATTTTCCAGGTAAAAGGGGGGTAGGGCGTGGTATGACTGTTTTCGCGAGA
ACGGGGACAAGTAGGCGGGCTCAGTGGTGGTTGTGGTTGTGGCGGGCCGT
TCGTCCTTGACCACCCATTCCTCAGCTGCAACGGACCATCTTTTCGGGTG
AAGGATGGAATCCTTTCCAACCTCCTGCGCGTGCGGTAGAAAACGCTACC
TACCGGCAGAAAATGAGGCGCTGGTACAAGTGCTCTCCAGGGTTAGCATA
AGTGCCGCAAATACTTGTTCCAAGAAATCAAGAAACGAAGGCGACGGGGG
CGAAAGCGAGCGTTTGCCATGACGTCAACGGTTGGTCGTGGGCAGCAGCT
GGCGCGCCTCTCAGCGAGCTCCATGATCTGTTTGTTTCGCGCAGCGCGGC
CAAAACGTCCCCTATCCAAAAGCAAGCGAGAGACAAGAATGTCCCGAGCG
TCGATCGGATAGCGATGTGCCTCTGTTGCGGCCGAAAGAGACATGCCACG
GGGTGACTCTGTACCTGTGTTTGATAGTGAGTTGATTACACGACGTTGTT
ATAAGCCCCCCCCCCCCCCCCCCCGTCCCGCCTCCGCCCCCGTGTCCCCC
CCGCTCGGGACGCGAACGTTTGTCCCGGCCTTTTGCGGAGACCAGGTGTT
GAAGGCGACGGCCAACCCTTCGCACGCCTTCTCAAAGTTCGGGTCGGGGA
ACTACGAGACCCTCAGGCCAAGGCCGGAGGAAGGCGTGAACACGAGGGCG
TCCTTGGTGCGTCACTCTTGTGGTTATGTGTAATTGGAGGTCCAGGCAGA
GGCAAGAAACAAAGAATCATTGACTTAGAGATAAACGGGACAGCCAACTT
CATCTGGGCTAAGACGGAAAACAGAATCAGAGCGAAATGATGGAACGTGT
TTCGTGATTCACGCGGTCCTTTCGCAGGTGTTTTTCAACCACTGCATTCA
CGTGTTGTCTCCTTACGTCGCCCCGCGATCACGCTGCATCCGAAGGTGGT
CCTCTCCATTTGTTGGGTCGTCGTAGCTCGTTTCAAATCTCCGCTCCGTT
CCTCCAACATCACCGGTTGGCGTGCTTCCTGCCCCACGACCACACTGCCT
CAGGGAGGTGTCAAACTATCTACTTGTCGGGTTGTTGGGTGTTAGGGTTG
TTGGGTTCTCCCACCTCGTTTCGCATTTCTGCTGGCTCCTTCTGCTTCCT
CTGCTCCTTCCCATTAACGGGCGCCAAACCAACCCGCCTTCTTCCATGGG
GTGCCTATCCCTCTCGATCGTGTAATTCGGGCGCGCTTTCGGACCGCGTG
TGCGCGCGCGCCACTGTGGTGGGCGCGTTCCGACAATACCGTGACATTCT
TTTCTCCTCACCCCCCCTTTTTTTTTTTTTTTCATCGCGTTTATTTCAAG
ATTTCGAACGGCGCCTTGCCACCCGCGGCATCTTGCCTGAACATCTGAAC
CGTGGTCGCACAGAGCGTTATTTCCTCTCCCTGAGGCCCTCAGCTCCATT
CCTCCTGCGTTGCTGACTGATGGTTTTTGTTGCGAGAAGAGTTCAGCCAC
CTCTGTCCCACTGTGTTCACACGCACTAGGCGCTATCCACCGGCAAGAAC
GCAAGTGAGAATGAACTCGTTTTTGTGAGAAAAAGTCGCTCACGCCGGGA
TTCGAACCCATGAACTTAACTACTAGAAGGTTCCGGGATACCAACTAGAC
CACCGGGGCGATCGGCTCTGTCACACTGCAAAACGAAAAAATAGATCGAG
TTCCACGAGAAGTACTACTCCGCCGACGCCATGAAGCTTGCCGTCCTCGG
CAACGAGGGCCTCGACACCCTCGAAGAATGGGTGAGGGAGGCCTTCTCCG
GGGTGAGGAACACCGCTCCGCCGGCCAGGCCAGACTATGGACCGATCCCG
GCGTTCGGCGAGGGAGAGCTGGGACGCAGGGTGACGGTAATCCCACTCAA
GGAGATTCGGCAGCTGGCGCTTTCATGGCCTCTTCCGCCGACCACCAACC
ACAAAGGAGCAAGCCCACCATCTACGTGTCGCATCTGCTGGTGAGTGTTT
TTTTTTCCAACAATCTCTTTGATGAGAGAGTTTTGTAGGGGGCGGGGGGC
GGGGAGCGGGAGCGGGAGCGGACGTACAGTGGCGGGAAGGGATGCCTCGA
AGCGTTCGTTTGTCCATCCGACCTTTGTAAAAAAAACAAACCACGTTGGT
CGTGCGTGAGCCAGATAACTTGGCAGCGAAAGAAGCAACTTCGGACAACG
GGTGGATAGACAGTGAATGAAGTCAGAGCGAGGGTCGTTTCCTTCATGTC
GGTGGCTGCGTCAGCCGTCTGACGAGTGTCTGTCTTCGCGATGTAACAAA
CATCTTCTGGTTTTCGGGACACCGGAACTCAACATGCGTGATGCATATCC
AACACCACATGGATGTATTTTTCTCACCGCAAACGCAACCCGGCCCTCCA
GGGTCGAACGTGCTCCTTGTTCTTTGGCGTCGCGCGATGCTGCCCCGATA
AGCTTGCGCACAATGTAAATGAAACGGCATGTGCTTTGTTCTTTCGTCGC
GCGACGGTCGCCGTCGGGTGATGTACCCTATCTTGGCTCGCGTCGTTTTC
ACGTCAGTGTGGCTGGGGACCCCCTCCCCCCTCTCCTCCACTCACGCCAC
CCATGTACGAACCTCTGGTTCATCGAACCCGTTCCTTGTGGCCCTGCTTG
ACTCTTATTCTTCGGCGGCTGGTGCTCGCGCGCTCGCTTCCGGTTGACAA
AAAAAACGCGGGGAAAAAATTAAATACAAAAGGGCTACGAGGGCAAGGGG
GGACTACATGAGCTGTTGCACGGGCGGGGCTGGGTGTCGAGCCTCTCGGC
GGGCAGCGTGGTCACGGCGACGGATTTCCAGTTGTTCCGGCTGAGCCTGT
CGCTGACGGAAGAAGGGGAGCGGCATATAGACGAGATCATCGAACTCTGC
CACCGCTTCATTGCGTTGTTGAGGTCCCAGCCGCCTCAAAAACGGGTACA
GGTGTGTGTGTGAGAGAGAGAGCGCGTGTTCGCGCGCGCGGCTGCGCAGT
TCACGTGGGTGTGCGCTGCTGATTGCGCGTGTTCGCCCCCTCAAATGGAG
CCGCCCGCTTTTACGTAATGTTGAAAATTGCGTTCCTCCGCCTTTCAGGC
CCACCACCAGTGCCACCCATAGTGTGAACATGCTTGCCCCGCGGTTGGGG
CCGCGAGTGCTCACTGCGGGCACCTGTGGTGCGAGCATCCTTTCATTCCC
AAAGTTCATTGCATGCCATGCGCGCCCCGCATCTGGCAGGACGATCTGGC
GGCGATGGGAGAGATCGGTTTCAGATTCCTGGAGAACGGTAGTCCGTCGG
GAGCTGTCCAGGGCATCGCTAACGCGCTTGGGGATGGCGAGGTCGAACCA
GCGGAGGTGCGCAGAGCTTTTTTTGTATCCGACGAAGTCATCCGTTTGGG
GGTTTGCCGGATGGTTACGTCGTGCTGAGCAGAGCTGCGAAGGGAAGTGA
CTTATCCCCTTCGTTGACCTTTTGGCCTTGGGAGCCCGACCTCTCCGCGC
CCCCGCCCCCACCCCATCATAATCCTCGTCGGACGCGCACGCTGTCTGCT
GCGTGGCAGGTGCTGTGTGGGCGATTCACCGTCCTCGAGTGGGACCCTGC
CGCGATCACGGACGTGGTGGACAGGTTGACACCGCGAAATTGCCAGGTAA
ACGACTTCGTGGATCGTCTGGTGCCGTGCACAGCTGTTCACGCGACTTCA
GTCTCGTGTGCTTGGCGAGGCTCTCTGATCCAGCATGCTTGTGTTGGGCG
GGACGTGCGCGTGCTGTGTGTGGCCGCCGACCCTCTTTGATTGCTTGATT
TGATCCCACCTCGCGCCTTCACAGAGCTTCCCGACATGAGTACGACAAGG
TAGAAAAGCGTCTAAAGAGATCGAAACACGTATTCCACAACCAAAAAAGG
ATTTTGGAAATACTCCGAGATTGAAGTCGAAGTTGGTCGTTGAGAATTCT
GCACGCTCTGCTTCCTTATCTGAGAATCCCGCCTGTTTCGCTGTGACACG
AAATATCAAGGGTACGTTGTTCCCCCCTCCAGATCCTCTCCTTCCCACGA
ATGCGCCATCCCAACTCTCCTGTGCGTAGCAAGGCACACAATGACCCGAG
AAATTGAGGCCACGCAGTTTGTTGTAGGTCAACAGAGCAGCCGATTGCTC
TGATTGGCCCTTGAGGGGTGCGCGACTGCTCCAGTCGACAGGGTCGAGAC
GTCTTCGCTTTTTTCGAGTAATGTTTAATCTTTCTCCGCTTCGGGCGATA
TGTCATCTCATGATTGTCGTTTTTCTCTTGCCTTGCCTTTTCGGCCGTTA
GATACTGGTGGTGTCCAAGCGGGACGAAGAGGAGGCCAACAAAGACGGGA
GCTGGGAGGCCGGGTGGCAAAAAGAGAGGTGGTACGGGACGTCTTACAAG
GTGAGGAGCAACGAGCCTATGACCTTTATTTTAGGGAAAACGACACAACT
GGGTACACCCAGGCCGAACCACGACACAGCTGGGTACCCCTTCCACACAC
ATATCACGCGCTCACAGCTGATTGGCCAGCGCCACAATTTACCAGGTTCT
GGCGTGTTTTCCGCTGGGTATACCCCGCTGCGTCGTTCTTTGTCCCAAAT
TGTACCCTGCTGCTCCCGACCTGTACCCTGATAAGACGCAAAATTGACCC
GCAGGAAAACTCTTCTGCCCGCTGTACGGCACATCAATCCACGCCCAACA
ACACCCTGCGTTTGATGTCACACACCCACCAACATCGGATATCCACATCG
GATAACCACGGCGTAACAAATCACACAGAGCCAGAAAAAACACCCCGCGT
GCGTCGCACAGCAAACAGCCCGGCCATCATGGCCTCACGAACCTGTCTCT
CCACACACACACACACACCCCGGAAACCATCATGGAAGGGGGCTGGGCAT
CCGCCGGGGCTGGGGCCAGCCCGGGTTTGTCCTTGAACGTAAAGCCAGTA
GAGGTTGGTCAGCTGTATCCATCCAAACAGAGTGCGAGACTGGCCGTGGA
AACGGAGCTCGCGGCGGATGGGCGCGCCATCAAGAACGGCACAAGCACCG
GTGGCCGTCAATTCCACGTAACGTGCCAGACCTGCTCGACATGGTTTGTC
AAGGGCTGCATCCAGAAGACGAAGGAATTCAAGATCACGGTTGTCGCGAA
GAACCACGTCAACTGCGCCGGGGGCGGGCGCATGGCCGCGAGCGTTGTCC
AGCCGCTTGTGGACCAGCTCGTTCGCGCGAACCCCAAGATCGGTGGCACG
GACATCAAGCGAACGCTCAAGACGGCGGGCCTCGACCTCCACACTCGGCA
GGCCCAGAGGGCGAAGAAGAGCATCGTCACCGCCAGCAAGCTGGACGAGG
CGGAAGCAATCTCGCGCCTTCCATCCTTGTTCGAGGCCATCGAGCGGGAC
TGCCCGGGATCTGTGGCGACGCTCGAGGTGAGTTTCGGGTCTTTAGTGGC
TGTCAACCTCGTAGAACTCTTGGGGCCTCGTAATCTGTGGCTGTGTGTAG
AATGAGTAGTCTCTCTGCCCTACTTCTGTGGCTGCAAACATGCCCTGTGA
AGAATCAACAATCTCTCTGCCTCCGACGGATGTCTTTCGTTCGGCGCCAG
TATCGACCGCGGTGTGCTAAGAGTGTAGACTGGTGTGGCAGCGCATTTCT
TTGGCCTTGAAGAGGCCCGAGTATCCAAGTACGGTCTGTTCTTTACTCTC
TGTTTACGTGAATAAACATCGCGGGATATGGCCCGCGGGATATTGCGGTA
CCTGGCCTCTGGCCACGTACGGCCGCCTACATGTCAATATGAGCATGCAG
TAATCGTGGATATGTTTCAAGCGTAGAACGCGCTTTTGTACATGCGGCGT
AGCACCCCATTGAATATTCTGGGCCCCATCTCTCTTGCTGTTGCTTGCTG
CACTCGTCTTTGGTGCACCTTACACTCACTGCAGGGGCCCCGTTGCACCG
CAACACGTATGACATACCCCATGCACAAGAAGACAACAAATCCTGTAGGC
CCACTCCTGTACGATGTAACCCTACTCCGCCACGTATCCTCACGAACGTC
CTTGCCGTCTGCCTCTGTTGCGCCTTGTCTGTCATGCTGCTGGTTCGCCT
TTTGTTTTGCTGCTGGTGCGTTGTTCCTTGGTGGTTCTCAACACTCCACA
AGACTGCGGGCAACCGGTATGTCAGAAGCGCCGTCGTAAACGGAAGGTTG
CCAATGTCGCCGCGAAGAGCACGCCGAAGGTGAGAGGATATGGGATGCCG
TTGTTTCTGGGAGGTGGCGCTGGTAGGCTGGTGGCATTGCGGTTTGTGGT
GGGAAGAGGTGCCTTCACTGCCGTCATCTTGTTGTCCCTGGGTGGTTTTT
GTAAGGCCATGTCCGATGTACTCAAACAGTCAGTCGGCGGCGGTGGGTAC
TTGTAGACTTGCGTGCAACACCCGCTGTCCACCCCCCCAGGACCCGGGGT
CTAGTTATGATGTGCTTCGCGTTTCAAAACCAGACCAGCCGATTCCAAAA
AGACGGTGGATTTTTGCACACAGAAGCACGGGCGCTCGCTCGGTACACAC
AGAGTGGGAAACGTTGTCGCGGGTTCCTTCTGCGTGCTTCTGCGTGCTTT
GATGGAGTCGCCTCGTGATGTGCTTGCATGTGATCGTTTGGTTCGAAGAG
GAGGCGATGACTTTAGGCTAGAGGTCCTGGTAGCTTCGACCCAGTACGGC
TTGTGGCGAAAGTACAAGCATTTCTGCCATTCCTTCGGATCCTCCCTTCT
CTCGCGTCGAGGGTACAACGCCAGTCGCAGCTCCGCCGCTCTCCGCTCAG
TTCAAGCAGAGACGCTAACATCTCAAAGCTCAAAGAAAGTTCCCAACATT
CATGGCTTGGTAGATGGAGTGTCAATGATGGAGTGTCCATGAGTTTGGGC
TACCGACACAGCAGTCGAGCGATAGGTACTGCAGTTGCGTCCCGAACACA
CACCCGTGAGGGGCGATTGAACCCCTGATGTTTGTCCTCCTTCTCGCCCT
TTTCGTTTCGGGTGCAGGTCGTGTGTCTGGACGCTGGCCACATGAAGGGA
GGGTGGAAGGGAGTCGTTTACGTCCTCTCCACTAAGGACAACAACAACAG
GATCGTCCACGTCGCATCTGTAGTCTCTGACAAGGAGAACTACACCAACT
ACAAGTTCCTCCTGGACGAGACGTGCAAGAACGAGCAGATGGCAGAACTT
CTCAAGTCCGACAAGACCACCTTCTTCATCGACGGGCACAGAGGATCACC
CCCAGCGCTCGAGGCGTCCTGTCCTGACGCACGGTGGAACATGTGCGTCA
GGCACCTTCTCACCAACAAGGGCATGAAGAAGATGGGAGCGGTGAGTCTT
GAACTATTTAGCTGTGTGCGCAGTACCGAAAAGGAATTCTAGTTGTAAAG
GAGGCGACTTTGTTGGTGGTCGTGGTGTCTGAAGTTTCGAAAGCCTCGCG
TGGGTTTAGATTGCTCCCGAGAAGGGGAAGAGTACGACCACGCTCGAAAG
CCTACTCTACCTTCGAGGCCTCTGCTTGCAGTGGGCCCCTGCTTGCAGTG
GGACAGGTCGCCACCTCGTAATTTGTAGTTTCGGACAAAGCTAGAATGCG
CCTGCAACGTATGAGGTGGCGCTTGCGTAGCGGAATTTTGGCCTCGTACA
GATCCTCTTGCCATGGTCACCCGCCCTTTCGTTTATCGTTTCCCTTTTTT
CCCCCTGTCAAATGGTTTTGTCTGTCGTGTTCCTCTTTGTTTTGACCATC
CGCGCAGAATCATTCGGCCATGGTCTACAAGGCGGCCAAGATGCCCACCA
GAGCGTTGTTCGACGAGTGCATGGAAGAGATCAAGGCGAGCTATCCGTCG
AACTACGAGACCCTCATGTCGAAGCCGCTTCACAAGTGGGCTCACCACGC
TGCTCCCAAGGACCTGGCCCTCTTCGGCACGGTTACTTCGAACAACGCCG
AGTCGACCATCGCCATGATTGGCTCGGAGGTGGGCACTGAGTTTTTTTGT
CCTTGGTGTAAGTATCTGGGTTTGCTTGCGCGGGCGGGGACACGTGCTGC
GCTCTACGAGGTGCCTACCTTGTGCCTTCTGATGTTGATGTTGCTTAGGG
TGGGGTCGCTTTTTTGCAAAAGCGACCTGTCATTAGTATTTAGCCCCGTG
CCTTGTCGTATTGGTGCGCTCGAGTCATGCTCTTCAAGCGGCGGCTTCTT
CGCGGTTGCCGTTTTTGTGTGGCAAGATGCGGTACGTTGTTGCACAAGGA
TACTTCCAAACAAGCATCACCATTGTTTCCTGCCTCACAGTTGATTTCCC
TGCTTCACTGTTTCGTTTACATACGGCGCGACTTGTAGGTACGGGCGAAG
GACATCTTTCATCTGCACGTGGACATCATGGAGCACGGCACGGAGAGGCT
CGCGGAGCATGCCCGTACGGGCTTGGGCAGCGACCACCTCCTAACCCCCT
TCGCGAGGGACTTCATGGAGAACGAGAGGCACCTCAGCAAGAAGTGAGTC
GGGCGCCGGTCTCGTAATGGCTTGTCAGTGAGGGGTCGTGTCACCGCACG
ACGCTTTGTCCATTTGGGTATGTTGCTGTTGGGTGTTGGATGTTTCTTCT
CTGGATCGAGGTTTGGAAAGAGCTGGGTACGGTGGACGGCTACCTGTCAT
GCTGCTCAAAAAAACATTCGAACCATTGAAACCTATCAACGCGCACGCGC
GGTATATCGTGCCCATGCGCCTTGTTACATCTGATGACGTTATGTAGATA
TGTGCGCATTCGACGGATATGCACCTGGCGAACTAGGTAGTGCCCACAGG
TGTTTGAACCACTTCACGCCCGAAGATATGAACGCCAACTCCGCTCTACG
CCAATTTTGACAGCTCGTTCTCTGTTGCCTCAATATGTCCGTACGGTTAG
ACCCCCGCGCCTGTGGTACATAGGTCCTAACGGTGTTTTTGTTTGTCGGT
GTTCTCTCGTTGTGTTGACGCCGCGGCGTCATCTGCTCTCTAATTTGCAG
CAAGCACGTCAAAGACATGGGACTGGGTATCTTCCTCGTCCAACAGCACG
GCCTGAGCAAGTACGGCAACAGGATCAAGATCCAGATGCCGGACGCCGAA
GGGCAAGGTGGCGCCATGGAATGCACCTGCGACGTCCCTTCAAGATTCAG
GCTGCCGTGTCAAGATGTCATGGCTGCCTTGACATGTGAGCCATCGGCGG
GACCGTACCCTGGGGTAGTTCCGCAGTGCTAGTTATGCGACGTATCAGAC
TATTTTTTTTCGCCTCCACCTCAGTGTTTTTGTCTGGGCGTGTGTCTTGT
GCGCGCCCGCCCTTGGCGGTCTGCCTTTCAGCTTTGTGCCGCCATTTCTT
CGCAGTAGCGTTGGATCCATCCATTCACATTTCCGCACAAACATCGCTAT
TCGTTCACAGAACAAACCGCAAGCCTTGCAAGCCTTCCCACATGTTCGCC
CCCGCAAAAAACAACGGCTGTTGAGACCGTGCCACTCGCGGTTCTCGATG
ACATGCAGCACCTCATACTGTACCACGGTAGCATACCGCCACATGGCACG
TGGGGTTCTGGCAGGATGGGGAAATATAGAAGTGGTGTAGGCATACGCAC
AGTCCGTGCAGCCCCTGGCCCAACCTCGAACGTTTCGCGACCGTCCTTGC
CTGCAATGCTGCGACAGATCTGAAGCAACCCCAGCTCGCGATGACGTTCG
TCGACAAGGCGTACACCCTGGAAGCCTACAGGGCCGTTCACAGCGACCCC
AACTTCCCGGCGACACTGCCCGTCTGGTCCGAGCTGTCTAAGAGCGACCT
CCTGCCTCCACTCCAAGTGCAAGGTCAAGCTGGTGCTCCGAGGAAGGGAC
GTCCCCAGCGCAGCAGATTCCCCGGGCGCAACGACAACTGCCAGCGTGGA
CGCGGCGATGGTGGGGGCAGTGCCGGCAGCGGCGCTGGTGTCGGCAGTGG
AGACGGTAGCCACGACGCTCCCGCTCCCGCTCCTGCGCGCCACGGGATGG
GCAGCGTCCGGAGCCAAGTGGGGCATCTCGGTGTCGGAGCTCCTACAGGC
GACGGGGCACCCGCGCCGAGGGTGTGGGGGCTTGCGGCTCAGCGCTACTC
GTGTCAAGAGACCCCCGGTAGCGGCTCTGCATCTGCGCCAAGCGGCGGGC
AGAACTTGTCCCAAGGCTCTGTCGACCTGACGGCCGACTAAGTAAAGTTT
TTTTTTGTGTGTGCCACATTCTTTGCCCCCCTTCCTGCCGTTGTAGGACG
CCCGTACAATAGTTTAAAAATGTGAGTGGCGGGGACGGCGGGGTGCGATT
CTGTGTTGCTTTTAGTCGAGTTGCGTGGCGTTGTGCCCCGCTTTTTTTTT
TTTTTGCTTTTGGAGAGCAGATAGACACAAGTTTGCGGCGCCATCCTACG
TGGGTAAGGTGGGGGCGGGGCAGCGCCGTGCAGCGTACGGTATCTTATTT
CCTGTTTCTGATACACCGGAATATATGCGTATGACACGCAACCCCGTTGT
ATTGGTCGTTGCAGTTCGGGTCGGGTACAGCAGCGTCTTTTTTGACGCGG
GAAGGATACGGAGGCTAAGAAGTAGGCGAGAACCACCAACGCCGTGTCCC
GTTCTGTCGCGCGCCAGACAGACCAAGTCTTGAGGCGCTACGCTAGGTCC
GTCCGCGGAGGGGGGCGGTGCTCTGCGGCGTACGGTCTCTATGTTTCTGA
TACACAAGAGAATATTCGTATGACATGCAACCCATGCAACCCCATCGAGT
ACGGCATTTTGTAGTTGGGCTCGGGTAAGGGAGCAGCGCTTTACAGCGTC
TTTTTGCACGCGGAAAGGATTCGGAGGTTGTACGTCTATTTCGTTGTCTC
TTTCGTTGCCGACAAGTAGCGGGCCGGTGCCCCGGTGTGTGGCGTTCGGT
TGGGTCGCGTTGTTTTCGCGCCAACAGCAGGCCGAGCGTACCTACACCTG
GGGGAAGTGGGAGGGCGGCTGCACATTTCATAAAGTGTGTTGCATCTTGG
TGGCACTTTTTCCTCTCTTCCGACGCCGGAAAGAAGCAGCCGATACTTTT
GAAGTGCGTGGCCAACATGTTCGCCTTAGGTTTCCACCCACTTTCCCCCT
TCTTCCTGCGTGCTGAGGTTTGAAGAGCATCCAACTGACCAATTCGTTCG
GAACTCGCGGAAGACGTGCTCTCATGTGCTGCACATAAATTACAAAAAGC
CTTTCTTTGCTACAGCAGTTATGCTGGTGGCCTTTACGAAGTGCAGCAGT
TTTGCTGGTGGCCTTTACGTAGTGCCCTCCTTGCCATGATGACTTCACCC
CGAAGGAAGGAAATCAAAGTACCAAAGACAGAAGGACCGAGACAGAAACT
CTCCCTACAACTTCGTCCCTTTTTTCTCACCCCACGAATGTAGCCTTTGA
ATACTAGCCGAAATACTACTACTTCAAAGTATATTTACACATGAGCCACT
GCATATCTACTATAGTATGACTAGTACTCGGCGCCAAACGCATATGTATT
GTACCGACAATTTTCTATCGAGAACGCGCAGAAAGTTAGCACGTGCTGCT
GCCGCTGTACTTGTACTTGTTGTACTACTGCTACGGTGGTCTCTCCCATC
ATGGTTCAACCGACGGAATGGACGGCACGTCCGCCGCGCTCGTTCATCAT
CATCCGAATGCTACAATGTACATACATACCTAATCTAACCAGCACGCGGG
CCTTTTCTGAGTTTTTGAAACAAAAGTGGGAAAAGCGGTTGTAGCCATAA
GCGCCGCCGCTTGTTTTTTGGTGCCGGAGTGTGCCGGAGTGTGTGGTGTG
TGTGTGTGTGTGGAGAGAGGAAGGTTCGGCGTGAGGCCATGAGACCGGCT
GGTCGCTGGCGCGTTGGCCTTGTTTGATGACCTGTATGCTGCGTTCTGTG
GCTGTGCGCGCACGCGGGGTGTTTTGCTGGCTGTTTGTTGGCTACCGGCT
GCAAGATTGCTGCTGCCGGGCTGTTTGCTGTGCGACGCACGCGGGGTGTT
TTTTCTGGCTCTGTGTGGTTTGTTACGCCGTGGTTATCCGATGTGGATAT
CCGATGTTGGTGGGTGTGTGACATCAAACGCAGGGTGTTGTTGGGCGTGG
ATTGATGTGCCGTACAGCGGGCAGAAGAGTTTTCCTGCGGGTCAATTTTG
CGTCTTATCAGGGTACAGGTCGGGAGCAGCAGGGTACAATTTGGGACAAA
GAACGACGCAGCGGGGTATACCCAGCGGAAAACACGCCAGAACCTGGTAA
ATTGTGGCGCTGGCCAATCAGCTGTGAGCGCGTGATATGTGTGTGGAAGG
GGTACCCAGCTGTGTCGTGGTTCGGCCTGGGTGTACCCAGTTGTGTCGTT
TTCCCTTTATTTTAAGTCGTTTGTCATGATATGCATGTAGCACTTCTTCT
TTCTAGAGGCCGGGGCGTCGTGATAATTCGTAGCGACGTCAAGACAACAC
TAGCCTTCTCCGCTTCCCCCGGTATTCCCCTCGGCTGCTGTCGAGCGTCT
CCATCCCATTCGCTTCCCCCCCCGTTTCCTAGAGGATTTTTGACTCGAAT
AACCATGTCTCTTTTAAACCGAACCGACCTCGTATCCACTTTGCCCTGTG
TACCTGGTTGCCCCCGCGGCCCATCATTCCTTTCATCACCCCGCGCCACA
AACAGGGAACGATGCGCCCGGAACTATCGACGCATCAGTGCGTTCTTTGC
TCGTCTGCTTCTGTTTGTTTTTGTGTGTGTACCTCCTTCGTTTTATGTGT
GTTTGGAGTGCTCCTAATGTGCCATTATTCTGCGTGCTTTTGTTTGTCTT
GTGATTGTTTGTGCGTGTTTCATGGTGAGCATCCACGGCGCTGGGCGATT
TTGCCATGCATGTCCCTCCCCCCTCCCTCCCTACATCATCTGCTTCACGC
CACAGGTAGAAACCTTGTCGGAGGACCAGCTCGCGAGACTGGAAAGCGTG
ACTCCCGAGGTGGACGGGTACCCGGGGGCATTCTCCCTCCCTGGGGCGAA
CCCGTTCATCCCCACCGAGTTCGGCCTCCGCGCCGACGAGGAGGGGGATG
CTGTCGCCGGAGGCGGGGGCGGCGACACTGAGGCCGCGGCCGCCGCGGCG
GCGGAGGCCATCCAGAGCCTGCTGCCTCCCGACATCCCCGCGATAGCGCT
CGACACGGTGCCGAGGCAGGACTGGTCGAGGCTCTTGCCACCGGCGCTGG
TGGTCGAAGGTGGCGGCGGCGGGGCGGTGAATATATGGCACAAGATGGAT
AGGAGCTACCGCGTCCCGAAGTCGTCGATCGCCGCCAAGCTGTGGACGCC
GGAGCCGTACGCGTCTCCCATGGCGGCGATGCAGGTTGGTCACTGACTGA
CGAGCCGTGGTACACCTGAGAGAGAAAGGGATGCTATGTTGCACGGCGTG
GGGACTGGACTTAAGCTAGCTTGCCTGAGACTGTCAAGAATGAGCCCATC
AATACAAAAGCGAGGCCTATGTAAAAGGCGACTGCGGCGGTGAGTTGGGC
GCGTGGTGTGACTTGACGCGGGATCGCGCGTGGTGTGACCCTGTCCACGA
GGACGATGGGGAGCGATCCTGAGGCAAATTGTGCGTGAATGATCGTTTTT
CAGTGATACGCGGTCAGTCAGCCTTTCACTCAGTTCGGACAATGCGCCGC
AGGTAAGCCGCGATCCACCTCCTGGCTGCTGTTTCGCGCTTCGCCTGCCG
TGCTTCTTTTTCGGTCGCCGGCCGGCTGCGCTGCGCTTCGCTCTCCCGAA
CTGCGCCGAAAAACGACGCCGACACCTCCACCGCACCCTTCGCCGCCGCG
GCCGCAGGCAAGGATGTTCGTCAGGCTCCTGAAGGAGGACCTGAAGAGCT
GGGCCTACGACGCTCGCCTCGCCGGGCTGAGGTACTCACTGGAGATGACC
ACGCAGGGCCTGCAGCTCTCCGTCGGCGGGTACAGCTCCACGGTGAGACT
AGACGTGCGGTTTGCGGACTTTAGCTGATGTGATCATGTTCATGACGACG
ACGACGGCAATGATGATGATGGCTTGCGAGATAGGGAAACGAATAGGAGT
GTTAGGTAAGAGAGCCGACGACGGGTGGATGCAATTCGCCTCGGACGCCC
GCCGCGTGAGCTGTCTGCGCGGTGCCGCTTGTGCCAAGGCCCTCTCAAAG
CGAGTTTTTGTTTTGAAGTTCGTCTGGCGGGACAAGGCCAAGCCGCCGCC
CACCCTTTCTCGTGACCTTGGTTGTGACCTTGGCTGTTCCTATATCGCGG
CCCCTCGCCTTCCCCTGGCTTCGCCCCGAAAATGAAATCAGCAACGCGTG
AACAGACATGACCCACGTGGCTCGAGTATTTTCCATGCCCCCTTCAAACA
ACACCGGCCTCACCCTTAAACCGCGCTTTTCTCGAACACACCCTCTGTTC
CGGGATCCCGAACGACACCATGGTTACACAAATCACAACACGCGCAGGTC
CCCCTGCTTTTGTCAAAGATCCTGGGCCACATCAGGGAGCTGCTCGCGGA
GTATCGGGAGCTGGGCACCCTGCTAGCCGTTAGCTCGGAGGCAGGAGGCG
AGCAAGCGTTGACCGCGAGACAAGAGCTGCTTCGCAAACGGTTCGAGAAT
TCGCGGGAGAGTTTCCTCCGGTTTTACCGGAATACGGCACAGGACCAGCC
CTACGAGACGGCGGATTACTACGTTCGGCAGGCAAGCGAGAACTGCTGTC
GCGCATACGTGGGGTGCTGAAACGATCAGAGCGTTCCGCCCCCCATCTGG
GCCAGTGGATGCTGTCCGACTGCTGTCGCTGGAGATGAAAATGAAACCAC
CGCCTTTGCGCATCGTGTCCGATAACCCCCCATCTCGGAAACACTCTTGG
ATCTTCAATTGACTGTGGCACACCACCATCAAGCGCGAGGAAAACGAAGG
AGATCGTCTTCAGTTTTGTCCCAACACCGCCCTCGGCCTCCTTCCTGTCT
CGATGACAACCCGCTCGACCATCCGCACCCCTTGCCGATCTCGCGTACCC
TGCTTGTCTACGTTCTCGTATATCTGGCTTCCTCTCCTCTCCCCTGCCTG
CTTCCTCTTTCTCCCCCCCCTCTCTTTCCCGCTACCTTTGCGCACACCCC
CTCTCCCTTTCCCCCTTACTTTCCCTCTCCCGGCTTCTCACCCCTTTTCA
CTCTCTCCGCCCCCCTATCTTTCTCTCATGTCCCCCCTTTTTTTGTGGGC
TTACGCACACACACACATGATTCAACATGTCCGCACACGCGCGGACGCCC
CCAGGTGATGGAAGCCGAGGTGTGGCACGTTGACGAGTACAAGCGGGCGC
TCGAGGACGGGCAGAACTGCACACCGGGAGGAATGGCCGAGCGGTTCGAC
AGGGTCCTCCGCCGGATGCGCGTGGACGTGATGGCCCACGGCAACGTGGC
GAGGGCGGAGGCTGAGGGCCTCGCGAACGCGGTGGCCGTGGCGCTGGGGC
GGCCAGAGCCGCTGCCGGCGGCCGAGCTACCGACGAGGCATGCGCACAGG
CTGTCGACGGCGGGGGAAAAGGGCGGGGGGAGCAGCGGGGTGGTTGTGCT
AGAGCTAGAGGCAAAAACGGAAGAGGAGAAGAACTCGGCTGTGGAGGTAA
GTCGGCTAGTGGTCGGTCGGTGTTGCTCGTGTCGTTGTTGCTCACGGTCT
ACTCGATGTATTTTGACGTTATTTTGTGTGTTCGGTGCGGGGAGTGGGGA
AGGTCTTGCGCGCGCGATTGGATGGGCAGTGTGTGCACAGAAGTACCTTG
GGGGCGCTCGCCATTTCGGCTTTGCTGCGGGCAAGGTGGATTTCGTTTTT
TGCTGTGAGATTCCCGATCTTTGTTTTTCAAGCAACTCTTTTTCTCGTGG
GCGGGCTGTCTATCTCATCATGGATGAACGAGGACAAGGTACCCTTTCAG
CCTCGCCTGCACCAGCAACACTCGAGCACGCGTTTTGACCACCACCCTGC
TGCTGAAACCGATTATATCCACGAAATTGGTGACGTGATGGGGCGCGACC
GAAGGTTGCACTCAGGGGCGCAAGGTACCGAGAGTGTGTAGTCCTTAGGG
GGCTTTACCACCTGCGTATTATCTTCCTCCCCTGGGCCGGCTAGCCCTAT
GGTGAGAACCAGCACGAAACGGCCACGTCGCTAGCCCCAGAACTGGAAAA
ATAACACACTCACACGCTTGCGCGCGCGCGTTTACATTTGTACGGGCGCT
CTTTCTTGCGCACTCCACCGCTCATTCAGGTGTACCTCCAGGCGGCCCCC
GGCGAGTCCAACCTGGACCTCGCGTCGGCCCTGGAGTTCATCAACACCCT
CGGGTACACGTCCGCCTTCCAGCAGCTGCGGACCCGGGAGCAGCTGGGGT
ACATCGTGTTCACGCAGCTCTCGCGGGGCCCTGCGGGCAGGGTGACGCCG
TTGTGGGACACCGACGGCGGTGCCGACGGTTTGCACCCGGGGGGTCCCCT
GGCGTGGTCGGTGGTGGTCCAGAGCCCCGACAAGACCCCGGCAGAGCTGG
AGGAGAGGATCGAAGCGTGGATAGGCGGGTTCCGGGACGAGCTGGCCGAC
ATGTCTGCCGAGGTTTTCAAGTCTTCGGTGGCGTCCATGGTGAGTTGATG
GATGGTGCTTTTGGTCCTTGCTTTCGTTCAAGTGCCGCCCCGCCGCCGTG
TTCTCTCGTGGTTTTGATGTCTCAGTTCCGGTCGCTTGCTCACCGCACGC
CAGGGTATTGTCCACCAACACATTCCCCCACCTCTCGCCTTGTTAGTCGG
CTCCCCCGGCTTTCTCCTGACCTACATACTTCACCATTTCTCCCTCCTCC
CCTTCCTTCCGATTTCCCTGTTTTTGTCCCTTCGTATCTTCGTCGCCCGC
TACAACGTTTCTACAACATTTCTACAACATTTCTACAACATTTCCTTGAA
TTCTCGCCGGGGCGGGAAATCGCACGTTCGACCGCTTCCATCAAACACGT
TCACTACACTCCCGATAATTGTGCCAACTTCACAACGCTCCAAACCATAA
ACAGTAAATCAAACGAAAAATGTTACAAACAACAATTGATCAATCAAACG
CGTTGAACAATACTTAACAAAACAATTCAATAATCGATATCGATATCGAA
AACGAAATCGATGCTGAAATCGATTGCGAAAACGAAACACCAAAAAAGTC
GTCAGGCGTTCTCCGGAGAGAGCGCAGCATGCGCGAGGAGGCCAGCGTCT
TCTTCGGGGCGATCGGGACCCGGACCGGTGACTTCTACCGCCGCTACCGG
AAGGCCGAGTCGTACGGCCGCCTCACCAAGGAGGCCGTGCTGGCGGCCTA
CGATCGCTACTACGCCCCCGGCGCCCCTGCCCGCCGCAAGCTGACCGTGA
GGGTTGCGAGCCAGAGGCACGCGCGGGAGGCGAAGGAGGAGACGGCGGCA
GCGGTGCCGGCGGAGGGCGGGGGGGGGAAACAGGGGGGCGGCGCGGAAAC
GGCAGGGGTGGAAGGGGCTGTAGTGTTGCGGAATTTAGAAGAAATCCGGG
CTTTCAAGGCCCGCACCCCGATATACGTGTAA
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Coding sequence (CDS) from alignment at P-fluviatile_contig9:3666018..3685399-

>mRNA_P-fluviatile_contig9.15405.1 ID=mRNA_P-fluviatile_contig9.15405.1|Name=mRNA_P-fluviatile_contig9.15405.1|organism=Porterinema fluviatile SAG_2381|type=CDS|length=5250bp|location=Sequence derived from alignment at P-fluviatile_contig9:3666018..3685399- (Porterinema fluviatile SAG_2381)
ATGGGTGAGGGAGGCCTTCTCCGGGGTGAGGAACACCGCTCCGCCGGCCA
GGCCAGACTATGGACCGATCCCGGCGTTCGGCGAGGGAGAGCTGGGACGC
AGGGTGACGGTAATCCCACTCAAGGAGATTCGGCAGCTGGCGCTTTCATG
GCCTCTTCCGCCGACCACCAACCACAAAGGAGCAAGCCCACCATCTACGT
GTCGCATCTGCTGATGGGTGAGGGAGGCCTTCTCCGGGGTGAGGAACACC
GCTCCGCCGGCCAGGCCAGACTATGGACCGATCCCGGCGTTCGGCGAGGG
AGAGCTGGGACGCAGGGTGACGGTAATCCCACTCAAGGAGATTCGGCAGC
TGGCGCTTTCATGGCCTCTTCCGCCGACCACCAACCACAAAGGAGCAAGC
CCACCATCTACGTGTCGCATCTGCTGGGCTACGAGGGCAAGGGGGGACTA
CATGAGCTGTTGCACGGGCGGGGCTGGGTGTCGAGCCTCTCGGCGGGCAG
CGTGGTCACGGCGACGGATTTCCAGTTGTTCCGGCTGAGCCTGTCGCTGA
CGGAAGAAGGGGAGCGGCATATAGACGAGATCATCGAACTCTGCCACCGC
TTCATTGCGTTGTTGAGGTCCCAGCCGCCTCAAAAACGGGTACAGGGCTA
CGAGGGCAAGGGGGGACTACATGAGCTGTTGCACGGGCGGGGCTGGGTGT
CGAGCCTCTCGGCGGGCAGCGTGGTCACGGCGACGGATTTCCAGTTGTTC
CGGCTGAGCCTGTCGCTGACGGAAGAAGGGGAGCGGCATATAGACGAGAT
CATCGAACTCTGCCACCGCTTCATTGCGTTGTTGAGGTCCCAGCCGCCTC
AAAAACGGGTACAGGACGATCTGGCGGCGATGGGAGAGATCGGTTTCAGA
TTCCTGGAGAACGGTAGTCCGTCGGGAGCTGTCCAGGGCATCGCTAACGC
GCTTGGGGATGGCGAGGTCGAACCAGCGGAGGACGATCTGGCGGCGATGG
GAGAGATCGGTTTCAGATTCCTGGAGAACGGTAGTCCGTCGGGAGCTGTC
CAGGGCATCGCTAACGCGCTTGGGGATGGCGAGGTCGAACCAGCGGAGGT
GCTGTGTGGGCGATTCACCGTCCTCGAGTGGGACCCTGCCGCGATCACGG
ACGTGGTGGACAGGTTGACACCGCGAAATTGCCAGGTGCTGTGTGGGCGA
TTCACCGTCCTCGAGTGGGACCCTGCCGCGATCACGGACGTGGTGGACAG
GTTGACACCGCGAAATTGCCAGATACTGGTGGTGTCCAAGCGGGACGAAG
AGGAGGCCAACAAAGACGGGAGCTGGGAGGCCGGGTGGCAAAAAGAGAGG
TGGTACGGGACGTCTTACAAGATACTGGTGGTGTCCAAGCGGGACGAAGA
GGAGGCCAACAAAGACGGGAGCTGGGAGGCCGGGTGGCAAAAAGAGAGGT
GGTACGGGACGTCTTACAAGGTAGAAACCTTGTCGGAGGACCAGCTCGCG
AGACTGGAAAGCGTGACTCCCGAGGTGGACGGGTACCCGGGGGCATTCTC
CCTCCCTGGGGCGAACCCGTTCATCCCCACCGAGTTCGGCCTCCGCGCCG
ACGAGGAGGGGGATGCTGTCGCCGGAGGCGGGGGCGGCGACACTGAGGCC
GCGGCCGCCGCGGCGGCGGAGGCCATCCAGAGCCTGCTGCCTCCCGACAT
CCCCGCGATAGCGCTCGACACGGTGCCGAGGCAGGACTGGTCGAGGCTCT
TGCCACCGGCGCTGGTGGTCGAAGGTGGCGGCGGCGGGGCGGTGAATATA
TGGCACAAGATGGATAGGAGCTACCGCGTCCCGAAGTCGTCGATCGCCGC
CAAGCTGTGGACGCCGGAGCCGTACGCGTCTCCCATGGCGGCGATGCAGG
TAGAAACCTTGTCGGAGGACCAGCTCGCGAGACTGGAAAGCGTGACTCCC
GAGGTGGACGGGTACCCGGGGGCATTCTCCCTCCCTGGGGCGAACCCGTT
CATCCCCACCGAGTTCGGCCTCCGCGCCGACGAGGAGGGGGATGCTGTCG
CCGGAGGCGGGGGCGGCGACACTGAGGCCGCGGCCGCCGCGGCGGCGGAG
GCCATCCAGAGCCTGCTGCCTCCCGACATCCCCGCGATAGCGCTCGACAC
GGTGCCGAGGCAGGACTGGTCGAGGCTCTTGCCACCGGCGCTGGTGGTCG
AAGGTGGCGGCGGCGGGGCGGTGAATATATGGCACAAGATGGATAGGAGC
TACCGCGTCCCGAAGTCGTCGATCGCCGCCAAGCTGTGGACGCCGGAGCC
GTACGCGTCTCCCATGGCGGCGATGCAGGCAAGGATGTTCGTCAGGCTCC
TGAAGGAGGACCTGAAGAGCTGGGCCTACGACGCTCGCCTCGCCGGGCTG
AGGTACTCACTGGAGATGACCACGCAGGGCCTGCAGCTCTCCGTCGGCGG
GTACAGCTCCACGGCAAGGATGTTCGTCAGGCTCCTGAAGGAGGACCTGA
AGAGCTGGGCCTACGACGCTCGCCTCGCCGGGCTGAGGTACTCACTGGAG
ATGACCACGCAGGGCCTGCAGCTCTCCGTCGGCGGGTACAGCTCCACGGT
CCCCCTGCTTTTGTCAAAGATCCTGGGCCACATCAGGGAGCTGCTCGCGG
AGTATCGGGAGCTGGGCACCCTGCTAGCCGTTAGCTCGGAGGCAGGAGGC
GAGCAAGCGTTGACCGCGAGACAAGAGCTGCTTCGCAAACGGTTCGAGAA
TTCGCGGGAGAGTTTCCTCCGGTTTTACCGGAATACGGCACAGGACCAGC
CCTACGAGACGGCGGATTACTACGTTCGGCAGGCAAGCGAGAACTGCTGT
CCCCCTGCTTTTGTCAAAGATCCTGGGCCACATCAGGGAGCTGCTCGCGG
AGTATCGGGAGCTGGGCACCCTGCTAGCCGTTAGCTCGGAGGCAGGAGGC
GAGCAAGCGTTGACCGCGAGACAAGAGCTGCTTCGCAAACGGTTCGAGAA
TTCGCGGGAGAGTTTCCTCCGGTTTTACCGGAATACGGCACAGGACCAGC
CCTACGAGACGGCGGATTACTACGTTCGGCAGGCAAGCGAGAACTGCTCC
GAGGTGTGGCACGTTGACGAGTACAAGCGGGCGCTCGAGGACGGGCAGAA
CTGCACACCGGGAGGAATGGCCGAGCGGTTCGACAGGGTCCTCCGCCGGA
TGCGCGTGGACGTGATGGCCCACGGCAACGTGGCGAGGGCGGAGGCTGAG
GGCCTCGCGAACGCGGTGGCCGTGGCGCTGGGGCGGCCAGAGCCGCTGCC
GGCGGCCGAGCTACCGACGAGGCATGCGCACAGGCTGTCGACGGCGGGGG
AAAAGGGCGGGGGGAGCAGCGGGGTGGTTGTGCTAGAGCTAGAGGCAAAA
ACGGAAGAGGAGAAGAACTCGGCTGTGGAGCCGAGGTGTGGCACGTTGAC
GAGTACAAGCGGGCGCTCGAGGACGGGCAGAACTGCACACCGGGAGGAAT
GGCCGAGCGGTTCGACAGGGTCCTCCGCCGGATGCGCGTGGACGTGATGG
CCCACGGCAACGTGGCGAGGGCGGAGGCTGAGGGCCTCGCGAACGCGGTG
GCCGTGGCGCTGGGGCGGCCAGAGCCGCTGCCGGCGGCCGAGCTACCGAC
GAGGCATGCGCACAGGCTGTCGACGGCGGGGGAAAAGGGCGGGGGGAGCA
GCGGGGTGGTTGTGCTAGAGCTAGAGGCAAAAACGGAAGAGGAGAAGAAC
TCGGCTGTGGAGGTGTACCTCCAGGCGGCCCCCGGCGAGTCCAACCTGGA
CCTCGCGTCGGCCCTGGAGTTCATCAACACCCTCGGGTACACGTCCGCCT
TCCAGCAGCTGCGGACCCGGGAGCAGCTGGGGTACATCGTGTTCACGCAG
CTCTCGCGGGGCCCTGCGGGCAGGGTGACGCCGTTGTGGGACACCGACGG
CGGTGCCGACGGTTTGCACCCGGGGGGTCCCCTGGCGTGGTCGGTGGTGG
TCCAGAGCCCCGACAAGACCCCGGCAGAGCTGGAGGAGAGGATCGAAGCG
TGGATAGGCGGGTTCCGGGACGAGCTGGCCGACATGTCTGCCGAGGTTTT
CAAGTCTTCGGTGGCGTCCATGGTGTACCTCCAGGCGGCCCCCGGCGAGT
CCAACCTGGACCTCGCGTCGGCCCTGGAGTTCATCAACACCCTCGGGTAC
ACGTCCGCCTTCCAGCAGCTGCGGACCCGGGAGCAGCTGGGGTACATCGT
GTTCACGCAGCTCTCGCGGGGCCCTGCGGGCAGGGTGACGCCGTTGTGGG
ACACCGACGGCGGTGCCGACGGTTTGCACCCGGGGGGTCCCCTGGCGTGG
TCGGTGGTGGTCCAGAGCCCCGACAAGACCCCGGCAGAGCTGGAGGAGAG
GATCGAAGCGTGGATAGGCGGGTTCCGGGACGAGCTGGCCGACATGTCTG
CCGAGGTTTTCAAGTCTTCGGTGGCGTCCATGTCGTCAGGCGTTCTCCGG
AGAGAGCGCAGCATGCGCGAGGAGGCCAGCGTCTTCTTCGGGGCGATCGG
GACCCGGACCGGTGACTTCTACCGCCGCTACCGGAAGGCCGAGTCGTACG
GCCGCCTCACCAAGGAGGCCGTGCTGGCGGCCTACGATCGCTACTACGCC
CCCGGCGCCCCTGCCCGCCGCAAGCTGACCGTGAGGGTTGCGAGCCAGAG
GCACGCGCGGGAGGCGAAGGAGGAGACGGCGGCAGCGGTGCCGGCGGAGG
GCGGGGGGGGGAAACAGGGGGGCGGCGCGGAAACGGCAGGGGTGGAAGGG
GCTGTAGTGTTGCGGAATTTAGAAGAAATCCGGGCTTTCAAGGCCCGCAC
CCCGATATACGTGTAATCGTCAGGCGTTCTCCGGAGAGAGCGCAGCATGC
GCGAGGAGGCCAGCGTCTTCTTCGGGGCGATCGGGACCCGGACCGGTGAC
TTCTACCGCCGCTACCGGAAGGCCGAGTCGTACGGCCGCCTCACCAAGGA
GGCCGTGCTGGCGGCCTACGATCGCTACTACGCCCCCGGCGCCCCTGCCC
GCCGCAAGCTGACCGTGAGGGTTGCGAGCCAGAGGCACGCGCGGGAGGCG
AAGGAGGAGACGGCGGCAGCGGTGCCGGCGGAGGGCGGGGGGGGGAAACA
GGGGGGCGGCGCGGAAACGGCAGGGGTGGAAGGGGCTGTAGTGTTGCGGA
ATTTAGAAGAAATCCGGGCTTTCAAGGCCCGCACCCCGATATACGTGTAA
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