mRNA_P-fluviatile_contig10.824.1 (mRNA) Porterinema fluviatile SAG_2381

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

Overview
NamemRNA_P-fluviatile_contig10.824.1
Unique NamemRNA_P-fluviatile_contig10.824.1
TypemRNA
OrganismPorterinema fluviatile SAG_2381 (Porterinema fluviatile SAG_2381)
Homology
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BLAST of mRNA_P-fluviatile_contig10.824.1 vs. uniprot
Match: D8LEF0_ECTSI (Myosin light chain kinase (MLCK) n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LEF0_ECTSI)

HSP 1 Score: 627 bits (1618), Expect = 4.270e-201
Identity = 358/777 (46.07%), Postives = 466/777 (59.97%), Query Frame = 2 
Query:  140 VRRGKEAATCLLYKNDDD-DGSPDGI-----DDKDFYLSFSLGDKVTQGSATNLFSATAKVRRKQPSGTAEEREDGNTHSAPKSYVVKRVRKWRLEEQKKQDLFREVDILRRFVDHPNVVRVHRFYRNDPVHYYLVLEPLAGGELFDRIVKKDNYTEKEARDVCKVLVQVICDLHDRDIVHRDLKPASILMVSATEENVRTTATTXXXXXXXXXXXXXXXXXXXXXXXXXXXTYNASSSCSSLKLTDFDLARSVVDGPVEGDAGLGEFTGPDEFKAPEMLLGKSHGRPVDMWSLGCLIYFLLCGKHPFAHPDPIRMYLRAAARECEFQAGQWRDISEVAKARCKNFVRQLLTVDPKLRMTASQAKSHAWLHADGQSLEAHDLRSSLEQLKISNTKRKFRAAVKTVLATRLMRQLLAPPAPSVNFFDTFSLGEKIGAGSFGTVFKATRFAGSGTTISAXXXXXXXXXXXXXXXXXXXXXXXXXXQQEGGCCSAHRSVALGWDSAGTAANSCFAVKRIKKEGLCEKKRLAVINEVSVMRDLNHPNVMSICDFYPDDPHHFFMVLELMEGGELFGRIVKKEYYNEKEARDLCCILLRAVAYIHDQGIVHRDLKPKNLLLACPRDDTSIRIADFGLASSVRDGSLRSFCGTPFYLAPEILKNIPYTTSVDMWSVGVIIYVLLAGYLPFRDRDQRRLFRSIRAGQFRFHDKYWSEVSEEAKDLIKRLLTVDPKARITAREACEHPWLSTDGSQLSSHDLSASLGELKVFNATRKFRAAGQSV 2452
            +RR +E A   +Y  DD  D    GI     + K+FY  FSLGD++ QG++  +F  T K + K                      +KRVRK+ L+E+KKQ LFREV ILR  +DHPN+V++++FY  D  +YY+V+E L GGELFD +VKKD Y E+EARDVCK LV  +  +H R IVHRDL+P ++L+ +                                           + +  SLK+ DF  A SV +GPV  + G  EF       APE+LLGK H    DMWS+G + + LL G HPF  PD  +M++R AA + +F+  +WR+IS  A+    +F+  LL V    R+TA QAKSH WL A  +SLEA DL  +L+  K+ N KRK RA +KTVLA R M   L    P+  F   + LG  +G G++G VFKAT    +  +                             ++E G            D    AA   +AVKRIK+EGL +++   VI E ++MR+L+HPN++SI DFY DDP  F+MVLELMEGGELF RIV+K+YYNE EARD+C   L A+ Y H QG+VHRDLKP+NLLLA   DD+SIR+ADFG A SV DG +   CGTP Y+APEIL++ PY TSVDMWS+GVIIY++LAGY PF D DQ RL+R I+AG +RF  +YW++VS EAKDLI++LLTVDP  R+TA EACEHPWLST    L+ HDL A L +LK+FNATRK RAA +SV
Sbjct:    5 MRRLEEKAISSMYSKDDGKDRDMVGIKVGDFEAKNFYRYFSLGDQLGQGASGKVFKGTIKKKGKG--------------GGKMLCAIKRVRKFHLKERKKQALFREVQILRG-LDHPNIVKIYQFYPKDTGYYYVVMEFLLGGELFDHVVKKDTYNEREARDVCKQLVDAMGYIHSRGIVHRDLRPGNLLLAA-----------------------------------------QGAGASGSLKIADFGKAMSVREGPVTTNGGAPEFV------APEVLLGKPHDTSPDMWSIGLIAFMLLSGAHPFFEPDTTKMFIRVAAADYQFKPTEWRNISGEAQ----DFISNLLVVATTKRLTAEQAKSHPWLLASAESLEARDLCDNLQTFKVFNAKRKLRATMKTVLAARRMFSWL----PTDEFSKAYQLGNMLGEGAYGMVFKATPALPASLS-----------------------------EEEDGA-----------DDGSAAAPREYAVKRIKREGLSDQEEQEVIAEANIMRELDHPNLVSIYDFYQDDPKFFYMVLELMEGGELFDRIVQKQYYNEAEARDVCLTFLEAMKYTHGQGVVHRDLKPENLLLASKSDDSSIRLADFGFAVSVLDGYVTDQCGTPGYVAPEILRSRPYGTSVDMWSIGVIIYIILAGYPPFHDEDQNRLYRKIKAGHYRFDPEYWNDVSSEAKDLIRKLLTVDPTRRLTAAEACEHPWLSTARGNLTQHDLGAGLEKLKIFNATRKLRAAIRSV 671
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BLAST of mRNA_P-fluviatile_contig10.824.1 vs. uniprot
Match: D8LGW1_ECTSI (Ca2+/calmodulin-dependent protein kinase II n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LGW1_ECTSI)

HSP 1 Score: 617 bits (1591), Expect = 1.820e-196
Identity = 361/766 (47.13%), Postives = 475/766 (62.01%), Query Frame = 2 
Query:  221 KDFYLSFSLGDK-VTQGSATNLFSATAKVRRKQPSGTAEEREDGNTHSAPKSYVVKRVRKWRLEEQKKQDLFREVDILRRFVDHPNVVRVHRFYRNDPVHYYLVLEPLAGGELFDRIVKKDNYTEKEARDVCKVLVQVICDLHDRDIVHRDLKPASILMVSATEEN----VRTTATTXXXXXXXXXXXXXXXXXXXXXXXXXXXTYN-----------------ASSSCSSLKLTDFDLARSVVDGPVEGDAGLGEFTGPDEFKAPEMLLGKSHGRPVDMWSLGCLIYFLLCGKHPFAHPDPIRMYLRAAARECEFQAGQWRDISEVAKARCKNFVRQLLTVDPKLRMTASQAKSHAWLHADGQSLEAHDLRSSLEQLKISNTKRKFRAAVKTVLATRLMRQLLAPPAPSVNFFDTFSLGEKIGAGSFGTVFKATRFAGSGTTISAXXXXXXXXXXXXXXXXXXXXXXXXXXQQEGGCCSAHRSVALGWDSAGTAANSCFAVKRIKKEGLCEKKRLAVINEVSVMRDLNHPNVMSICDFYPDDPHHFFMVLELMEGGELFGRIVKKEYYNEKEARDLCCILLRAVAYIHDQGIVHRDLKPKNLLLACPRDDTSIRIADFGLASSVRDGSLRSFCGTPFYLAPEILKNIPYTTSVDMWSVGVIIYVLLAGYLPFRDRDQRRLFRSIRAGQFRFHDKYWSEVSEEAKDLIKRLLTVDPKARITAREACEHPWLSTDGSQLSSHDLSASLGELKVFNATRKFRAAGQSV 2452
            KDF+ +F +G K + QG+  NL+    K +R+                  + Y + +V  ++L + +K+ + RE+ IL+  ++HPN+V+V   YR  P  YY+VLE L+GGEL D IV+KD+Y E+EARDVCKVLV  +  LHD+ IVHRDLKP SIL+ +  ++       +T+TT       XXXXXXXXX           T                   A  S  SLK+TDF  ARSV +GP++      EF+      APEML+ ++HG PVDMWSLG + + LL G +PF H D  +M+LR A   CEF+   WR IS  AK    +FV +LL VDP+ RMTA +AKSHAWLHA G+SL A DLR +LE  K+S+ KRK RA +KT++  + +   L P  P ++    ++  +K+G G++G VF+ATR A SG   +A                                                AA    AVKRI+KEGL +K+   +INE ++MR+LNHPNV+SI  FY DDP +F++ LELMEGGEL  RIV+K YYNE EARD+C  LLRAV Y+H QGIVHRDLKP+NLLLA   D TSIR+ADFG A+S+RDG L + CGTPFY+APE+LKN+PY  SVDMWSVGVII+VLLAG  PF DRDQ+ +FR I++G+++F   +W  +S +AKDLI +LLTVDP  R+TA EAC+HPWL+TD   LS H+LSA L +LKVFN  RK RAA ++V
Sbjct:   30 KDFHRNFIVGSKKIAQGTTANLYEGKMKCKRETDC---------------RRYAINKVGGFQLRKLQKEAMSREMGILK-ILEHPNIVKVFHLYRT-PWTYYMVLEYLSGGELLDGIVRKDSYIEREARDVCKVLVDAVSHLHDKSIVHRDLKPGSILLANPEDQEGDQGTASTSTTTPPAKVSXXXXXXXXXSREEIRGNMKVTXXXXXXXXXXXXXXPVVAPARVSSDSLKITDFGKARSVREGPIKSAWVKSEFS------APEMLMQEAHGPPVDMWSLGLITHILLSGNNPFFHEDEQQMFLRVAKGACEFKPEIWRSISPEAK----DFVAKLLKVDPEKRMTAQEAKSHAWLHAAGESLGAGDLRGNLEGYKVSDAKRKLRALMKTLVVAKRLVDSLQPTKPDLS---KYACVKKLGEGAYGQVFQATRIA-SGDASAAGVG---------------------------------------------AAPRYIAVKRIQKEGLTKKETGDIINEANIMRELNHPNVVSIYGFYEDDPKYFYLALELMEGGELLDRIVQKTYYNEAEARDVCVPLLRAVEYLHSQGIVHRDLKPENLLLASASDATSIRLADFGFAASIRDGDLINGCGTPFYVAPEMLKNVPYGASVDMWSVGVIIFVLLAGRPPFHDRDQKLMFRKIKSGEYQFKGDFWQGISGDAKDLITKLLTVDPAKRLTASEACKHPWLTTDAPNLSCHNLSARLEQLKVFNTVRKLRAAVKTV 719
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BLAST of mRNA_P-fluviatile_contig10.824.1 vs. uniprot
Match: A0A6H5K8I6_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5K8I6_9PHAE)

HSP 1 Score: 575 bits (1483), Expect = 1.590e-181
Identity = 328/745 (44.03%), Postives = 427/745 (57.32%), Query Frame = 2 
Query:  377 VVKRVRKWRLEEQKKQDLFREVDILRRFVDHPNVVRVHRFYRNDPVHYYLVLEPLAGGELFDRIVKKDNYTEKEARDVCKVLVQVICDLHDRDIVHRDLKPASILMVSATEENVRTTATTXXXXXXXXXXXXXXXXXXXXXXXXXXXTYNASSSCSSLKLTDFDLARSVVDGPVEGDAGLGEFTGPDEFKAPEMLLGKSHGRPVDMWSLGCLIYFLLCGKHPFAHPDPIRMYLRAAARECEFQAGQWRDISEVAKARCKNFVRQLLTVDPKLRMTASQAKSHAWLHADGQSLEAHDLRSSLEQLKISNTKRKFRAAVKTVLATRLMRQLLAPPAPSVNFFDTFSLGEKIGAGSFGTVFKATRFAGSGTTISAXXXXXXXXXXXXXXXXXXXXXXXXXXQQEGGCCSAHRSVALGWDSAGTAANSCFAVKRIKKEGLCEKKRLAVINE----------------------------------------------------VSVMRDLNHPNVMSICDFYPDDPHHFFMVLELMEGGELFGRIVKKEYYNEKEARDLCCILLRAVAYIHDQGIVHRDLKPKNLLLACPRDDTSIRIADFGLASSVRDGSLRSFCGTPFYLAPEILKNIPYTTSVDMWSVGVIIYVLLAGYLPFRDRDQRRLFRSIRAGQFRFHDKYWSEVSEEAKDLIKRLLTVDPKARITAREACEHPWLSTDGSQLSSHDLSASLGELKVFNATRKFRAAGQSVR 2455
             +KRVRK+ L+E+KKQ LFREV ILR  +DHPN+V++++FY ND  +YY+V+E L GGELFD +VK D Y+E+EARD+CK LV  +  +H R IVHRDL+P +IL+ +                                           + +  SLK+ DF  A SV +GPV  + G  EF       APE+LLGK HG   DMW +G + + +L G HPF   D  +M++R AA + +F+  +W  IS  A+    +F+  LL VD   R+TA QAKSH WL A  +SLE  DL  +L+ LK+ N KRK RA +KTVLA R M   L    P+  F   + LG+ +G G++G VF+AT    +                                  EGG          G D    AA   +AVKRIK+EGL +++                                                            ++M +LNHPN+++I DFY D+P  F+MVLELMEGGELF RIV+K+YYNE EARD+C  +L A+ YIH QG+VHRDLKP+NLLLA   DD+SIR+ADFG A SV DG +   CGTP Y+APEIL+  PY TSVDMWS+GVIIY++LAGY PF D DQ RL+R I+AG +RF  +YW++VS EAKDLI++LL VDP  R+TA EACEHPWLST    L+ HDL A L +LK+FNATRK RAA ++VR
Sbjct:   19 AIKRVRKFHLKERKKQALFREVQILRG-LDHPNIVKIYQFYPNDTGYYYVVMEFLLGGELFDHVVKNDAYSEREARDICKQLVDAMEYIHSRGIVHRDLRPGNILLAA-----------------------------------------QGAGASGSLKIADFGKAMSVCEGPVTTNGGAPEFV------APEVLLGKPHGTSPDMWCIGLIAFMVLSGAHPFFEADTTKMFIRVAAADYQFKPNEWSKISGEAQ----DFISNLLVVDTTKRLTAEQAKSHPWLLASAESLETRDLCDNLQSLKLFNAKRKLRAMMKTVLAARRMFSWL----PTDEFSKDYQLGDMLGEGTYGMVFRATPILPANFL-------------------------------EGGD---------GADDGSAAAPREYAVKRIKREGLTDQEEQXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSLPETVATIMHELNHPNLVTIYDFYRDNPKFFYMVLELMEGGELFDRIVQKQYYNEAEARDVCLTILEAIKYIHGQGVVHRDLKPENLLLASKSDDSSIRLADFGFAVSVLDGYVTDQCGTPGYVAPEILRGHPYGTSVDMWSIGVIIYIILAGYPPFCDEDQHRLYRKIKAGHYRFEPEYWNDVSSEAKDLIRKLLIVDPTRRLTAAEACEHPWLSTARGNLTKHDLGAGLEKLKIFNATRKLRAAIRTVR 667
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BLAST of mRNA_P-fluviatile_contig10.824.1 vs. uniprot
Match: D8LE50_ECTSI (Phosphorylase kinase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LE50_ECTSI)

HSP 1 Score: 434 bits (1115), Expect = 1.910e-130
Identity = 248/668 (37.13%), Postives = 367/668 (54.94%), Query Frame = 2 
Query:  461 VDHPNVVRVHRFYRNDPVHYYLVLEPLAGGELFDRIVKKDNYTEKEARDVCKVLVQVICDLHDRDIVHRDLKPASILMVSATEENVRTTATTXXXXXXXXXXXXXXXXXXXXXXXXXXXTYNASSSCSSLKLTDFDLARSVVDGPVEGDAG---LGEFTGPDEFKAPEMLLGKSHGRPVDMWSLGCLIYFLLCGKHPFAHPDPIRMYLRAAARECEFQAGQWRDISEVAKARCKNFVRQLLTVDPKLRMTASQAKSHAWLHADGQSLEAHDLRSSLEQLKISNTKRKFRAAVKTVLATRLMRQLLAPPAPSVNFFDTFSLGEKIGAGSFGTVFKATRFAGSGTTISAXXXXXXXXXXXXXXXXXXXXXXXXXXQQEGGCCSAHRSVALGWDSAGTAANSCFAVKRIKKEGLCEKKRLAVINEVSVMRDLNHPNVMSICDFYPDDPHHFFMVLELMEGGELFGRIVKKEYYNEKEARDLCCILLRAVAYIHDQGIVHRDLKPKNLLLACPRDDTSIRIADFGLASS-VRDGSLRSFCGTPFYLAPEILKNIPYTTSVDMWSVGVIIYVLLAGYLPFRDRDQRRLFRSIRAGQFRFHDKYWSEVSEEAKDLIKRLLTVDPKARITAREACEHPWLSTDGSQLSSHDLSASLGELKVFNATRKFRAAGQSV 2452
            +DHPN+V++H +Y  +    Y+ LE   GGELFDRIV K  Y EKEARD+ + L++ +  LHD++I+HRDLKP ++L+V   +                                            ++LK+ DF  A+       + DA    L    G   + APE+L    +G PVDMWS+G + Y LL G  PF   +  R++ +    +  F    W  IS+ AK    + + ++LTVDP  R+TA+QA +H W+ ++   LE  +L  SL+++++ N +RKF++A+ T++ T  +++ LA    S +  D + +G  +G G++  V  A                                                              N   AVK +K+ GL +    A+ +E+++M +L+HPN++ + DF+ +   HF+MV+E + GGELF RIV+K  YNEKEARDL   LL+AV Y HD+GIVHRDLKP+NLLL   +DD  +++ADFG A   + +  L + CGTP Y+APEIL    Y  +VDMWSVGVI Y+LL GY PF D +Q RLF  I+ G + FHD+YWS++S EAKDLI ++LTVDP  R+TA +A EHP+L  D + L  +++  +LG +K+FNA RKF++A Q+V
Sbjct:   72 LDHPNIVKLHGWYEEEKT-LYMALELCEGGELFDRIVSKTFYNEKEARDLVRTLLRTVKHLHDQNIIHRDLKPENLLLVDKQDN-------------------------------------------ANLKIADFGFAK-------KHDARSEVLKTQCGTPGYVAPEILKSTPYGSPVDMWSIGVITYILLGGYPPFHDDNQARLFQKIRRGKFSFHEQYWDPISDGAK----DLIARMLTVDPAKRITAAQALAHPWVMSEDDELETSELGDSLQRMRVFNARRKFKSAIATIIMTMQLQKFLA----SRDIDDAYEIGGVLGKGAYSVVKSAKA---------------------------------------------------------KKTNDEVAVKIVKRAGLPQDDEKALKDEMAIMLELDHPNIIKLLDFF-EKKDHFYMVVEKVRGGELFDRIVEKVVYNEKEARDLVSTLLQAVKYCHDRGIVHRDLKPENLLLVSEKDDALVKVADFGFAQKFMPESGLTTQCGTPGYVAPEILMRKKYDAAVDMWSVGVITYILLGGYPPFHDDNQARLFAKIKKGVYSFHDEYWSDISPEAKDLIAKMLTVDPNKRLTADQALEHPYLKIDTTVLEGNNMDQNLGRMKLFNARRKFKSAIQTV 622
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BLAST of mRNA_P-fluviatile_contig10.824.1 vs. uniprot
Match: A0A835YM32_9STRA (Uncharacterized protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YM32_9STRA)

HSP 1 Score: 414 bits (1065), Expect = 2.040e-123
Identity = 246/665 (36.99%), Postives = 362/665 (54.44%), Query Frame = 2 
Query:  461 VDHPNVVRVHRFYRNDPVHYYLVLEPLAGGELFDRIVKKDNYTEKEARDVCKVLVQVICDLHDRDIVHRDLKPASILMVSATEENVRTTATTXXXXXXXXXXXXXXXXXXXXXXXXXXXTYNASSSCSSLKLTDFDLARSVVDGPVEGDAGLGEFTGPDEFKAPEMLLGKSHGRPVDMWSLGCLIYFLLCGKHPFAHPDPIRMYLRAAARECEFQAGQWRDISEVAKARCKNFVRQLLTVDPKLRMTASQAKSHAWLHADGQSLEAHDLRSSLEQLKISNTKRKFRAAVKTVLATRLMRQLLAPPAPSVNFFDTFSLGEKIGAGSFGTVFKATRFAGSGTTISAXXXXXXXXXXXXXXXXXXXXXXXXXXQQEGGCCSAHRSVALGWDSAGTAANSCFAVKRIKKEGLCEKKRLAVINEVSVMRDLNHPNVMSICDFYPDDPHHFFMVLELMEGGELFGRIVKKEYYNEKEARDLCCILLRAVAYIHDQGIVHRDLKPKNLLLACPRDDTSIRIADFGLASSVR-DGSLRSFCGTPFYLAPEILKNIPYTTSVDMWSVGVIIYVLLAGYLPFRDRDQRRLFRSIRAGQFRFHDKYWSEVSEEAKDLIKRLLTVDPKARITAREACEHPWLSTDGSQLSSHDLSASLGELKVFNATRKFRAAGQSV 2452
            +DHPN+VR+  +Y    V +Y++LE   GGELFDRIV+K  YTEKEARD+  +L+  I   H+RDI+HRDLKP ++L+VS +++                                           +++K+ DF  A+ V D       GL    G   + APE+L  + +G+ VD+WS+G + Y LL G  PF   + +R++++       F    W  IS  AK    + + ++L VDP+ R+TA+QA  H W+      LE  DL S+L+QL+  N +RKF++A+ +V+    +  L+       +  D + L EK+G G++  V                                                  H+ ++    + G       AVK + K  L E++RLA+  E+ +M  L+HP+++   DF+ D     +MV+EL  GGELF RIV+K  YNE EAR++   LLRAVAY H +G+VHRDLKP+NLLL  P DD SI++ADFG A  V  D  L++ CGTP Y+APEILK   Y   VD+WSVGVI Y+LL GY PF D +Q +LF  I+ G ++FH +YW  +SEEAKDLI R+L VDP  RI+A +A +H +L      L++ +++A+L  ++++NA RK R+A  S+
Sbjct:   90 LDHPNIVRLVAWYEEKEV-FYVLLELCEGGELFDRIVRKSCYTEKEARDLVTLLLDAIAYCHERDIMHRDLKPENLLLVSKSDD-------------------------------------------ANIKVADFGFAK-VAD----NSKGLHTQCGTPGYVAPEILKRQPYGKEVDVWSVGVICYILLGGYPPFQDENQVRLFMKIKKGTFTFHPKYWDAISTDAK----DLISRMLVVDPQQRITAAQALKHPWIRTPAAVLEKRDLDSTLDQLRYFNARRKFKSAINSVVLANRLSNLVRER----DIKDHYDLAEKLGTGAYSVV--------------------------------------------------HKGISKRPQTKGQEV----AVKVVTKRDLPERERLALTTEMEIMLKLSHPHILKAIDFFQDSAK-LYMVVELARGGELFERIVQKVTYNESEARNVVRCLLRAVAYCHSRGVVHRDLKPENLLLVSPDDDYSIKVADFGFADHVAPDKLLKAQCGTPGYVAPEILKREAYGKEVDIWSVGVICYILLGGYPPFYDDNQTKLFLKIKKGAYKFHPQYWDPISEEAKDLIARMLVVDPAQRISADQALQHRYLQMAPEALATTNMNANLERMRLYNARRKLRSAIHSI 642
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BLAST of mRNA_P-fluviatile_contig10.824.1 vs. uniprot
Match: A0A835YSJ7_9STRA (Phosphorylase kinase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835YSJ7_9STRA)

HSP 1 Score: 414 bits (1063), Expect = 3.020e-123
Identity = 245/665 (36.84%), Postives = 361/665 (54.29%), Query Frame = 2 
Query:  461 VDHPNVVRVHRFYRNDPVHYYLVLEPLAGGELFDRIVKKDNYTEKEARDVCKVLVQVICDLHDRDIVHRDLKPASILMVSATEENVRTTATTXXXXXXXXXXXXXXXXXXXXXXXXXXXTYNASSSCSSLKLTDFDLARSVVDGPVEGDAGLGEFTGPDEFKAPEMLLGKSHGRPVDMWSLGCLIYFLLCGKHPFAHPDPIRMYLRAAARECEFQAGQWRDISEVAKARCKNFVRQLLTVDPKLRMTASQAKSHAWLHADGQSLEAHDLRSSLEQLKISNTKRKFRAAVKTVLATRLMRQLLAPPAPSVNFFDTFSLGEKIGAGSFGTVFKATRFAGSGTTISAXXXXXXXXXXXXXXXXXXXXXXXXXXQQEGGCCSAHRSVALGWDSAGTAANSCFAVKRIKKEGLCEKKRLAVINEVSVMRDLNHPNVMSICDFYPDDPHHFFMVLELMEGGELFGRIVKKEYYNEKEARDLCCILLRAVAYIHDQGIVHRDLKPKNLLLACPRDDTSIRIADFGLASSVR-DGSLRSFCGTPFYLAPEILKNIPYTTSVDMWSVGVIIYVLLAGYLPFRDRDQRRLFRSIRAGQFRFHDKYWSEVSEEAKDLIKRLLTVDPKARITAREACEHPWLSTDGSQLSSHDLSASLGELKVFNATRKFRAAGQSV 2452
            +DHPN+VR+  +Y    V +Y+ LE   GGELFDRIV+K  YTE+EARD+ ++L++ I   H+R I+HRDLKP ++L+VS  ++                                           +++K+ DF  A+ V + P     GL    G   + APE+L  + +G+ VDMWS+G + Y LL G  PF   + +R++++       F    W  ISE AK    + + +LL VDP  R+TA+QA  H W+ A    L    L ++LE+L   N +RK ++A+ TV+    +  L+     + +  D + LG+++G G+   V K                                               + R    G +          A+K +++  L E++R A+  E+ +M  L HPN++ + D +  D    +MV+EL  GGELF RIV+K  Y+E EAR+L   LLRAVAY H +G+VHRDLKP+NLLL    DD +++IADFG A  V  D  L++ CGTP Y+APEIL  +PY   VDMWSVGVI Y+LL GY PF D +Q +LF  I+ G+F FH++YW  +S++AKDLI+R+LTVDP  RITA +A +HP+L  D   L + ++S +L  +++FNA RK R+A  S+
Sbjct:   82 LDHPNIVRLVGWYEEKDV-FYVPLELCEGGELFDRIVQKSCYTEREARDLVRMLLEAIAYCHERGIMHRDLKPENLLLVSKEDD-------------------------------------------ATIKVADFGFAK-VANIP----KGLHTQCGTPGYVAPEILKRQPYGKEVDMWSVGVICYILLGGYPPFHDENQVRLFMKIKKGTFTFHPQYWATISEDAK----DLITKLLVVDPAQRITAAQALKHPWIRASASVLMERGLFNTLERLTAFNARRKLKSAIATVVLANKLANLVK----ARDIKDHYELGKQLGTGACSVVCKGV---------------------------------------------SKRPETKGEE---------VAIKIVRRLELPERERAALTAEMDIMLKLRHPNILRLIDSF-QDTEKLYMVVELARGGELFDRIVQKVTYDESEARELVRCLLRAVAYCHSRGVVHRDLKPENLLLVSTEDDAAVKIADFGFADHVAPDKLLKTQCGTPGYVAPEILMRVPYGKEVDMWSVGVICYILLGGYPPFYDDNQTKLFLKIKRGEFEFHEQYWGSISDQAKDLIRRMLTVDPAQRITAEQALQHPYLQIDSEALQTTNMSVNLERMRLFNARRKLRSAIHSI 634
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BLAST of mRNA_P-fluviatile_contig10.824.1 vs. uniprot
Match: A0A8K1C336_PYTOL (Uncharacterized protein n=1 Tax=Pythium oligandrum TaxID=41045 RepID=A0A8K1C336_PYTOL)

HSP 1 Score: 405 bits (1042), Expect = 4.000e-119
Identity = 249/702 (35.47%), Postives = 374/702 (53.28%), Query Frame = 2 
Query:  374 YVVKRVRKWRLEEQKKQDLFREVDILRRFVDHPNVVRVHRFYRNDPVHYYLVLEPLAGGELFDRIVKKDNYTEKEARDVCKVLVQVICDLHDRDIVHRDLKPASILMVSATEENVRTTATTXXXXXXXXXXXXXXXXXXXXXXXXXXXTYNASSSCSSLKLTDFDLARSVVDGPVEGDAGLGEFTGPDEFKAPEMLLGKSHGRPVDMWSLGCLIYFLLCGKHPFAHPDPIRMYLRAAARECEFQAGQWRDISEVAKARCKNFVRQLLTVDPKLRMTASQAKSHAWLHADGQSLEAHDLRSSLEQLKISNTKRKFRAAVKTVLATRLMRQLLAPPAPSVNFF-------DTFSLGEKIGAGSFGTVFKATRFAGSGTTISAXXXXXXXXXXXXXXXXXXXXXXXXXXQQEGGCCSAHRSVALGWDSAGTAANSCFAVKRIKKEGLCEKKRLAVINEVSVMRDLNHPNVMSICDFYPDDPHHFFMVLELMEGGELFGRIVKKEYYNEKEARDLCCILLRAVAYIHDQGIVHRDLKPKNLLLACPRDDTSIRIADFGLASS-VRDGSLRSFCGTPFYLAPEILKNIPYTTSVDMWSVGVIIYVLLAGYLPFRDRDQRRLFRSIRAGQFRFHDKYWSEVSEEAKDLIKRLLTVDPKARITAREACEHPWLSTDGSQLSSHDLSASLGELKVFNATRKFRAAGQSVR 2455
            Y VK + +  L E+  + L  EV+IL++ + HP+++ ++  +  +  HYYLV E + GGELF+RIV+K+ Y+EKEARD+ K L++ I   HD ++VHRDLKP ++LM S +++                                           + +KL DF  A+ V      GD GL    G   + APE+L  K +G+ VD+WS+G + Y LLCG  PF       ++ +  A + EF +  W +IS  AK    + + ++L VD K R TA Q  +H W+   G  +    L  +LE+L+  N +R+FRAAV TV AT  + + L+                D ++LG ++G+G++  V++                                                                + +AVK ++  GL E    A   EV +++++ HPN+M +   Y ++   +++V EL+ GGELF RIV+K YY+EKEARDL  +LL  + + HD+ +VHRDLKP+NLLL    DD +I++ADFG A   V +  L + CGTP Y+APEIL   PY TSVD+WS+G+I Y+LL GY PF D +Q  LFR I+AG+F F   YW  VSE+AKDLIK++L VDP  R TA +  EH W++  G ++S+  L  +L EL+ +NA R+F++A  +V+
Sbjct:  136 YAVKCIERDGLSEEDIEALTTEVEILQQ-MKHPHIMALYDVF-TEANHYYLVTELVTGGELFERIVEKNFYSEKEARDLVKTLLETIKYCHDNNVVHRDLKPENLLMTSKSDD-------------------------------------------ADIKLADFGFAKRVT-----GD-GLATACGTPGYVAPEILAQKPYGKTVDIWSIGIITYILLCGYPPFHDDSQSMLFRKIKAGKFEFDSPYWDNISVDAK----DLISKMLIVDTKQRWTADQLLTHKWI--TGTDVATVPLTKTLEELRRFNARRRFRAAVSTVQATISLTKALSMSTKRQTMIYTNRHIRDEYTLGRELGSGAYSVVYEGIN---------------------------------------------------------KKTGNKYAVKAMQIAGLSEDDIEAFHQEVEILKEMQHPNIMRLYAVYLEEAT-YYLVTELVAGGELFDRIVEKSYYSEKEARDLVKVLLDTIKFCHDRKVVHRDLKPENLLLTSKEDDANIKLADFGFAKKIVEETGLVTTCGTPGYVAPEILSRTPYGTSVDIWSIGIITYILLCGYPPFHDDNQALLFRKIKAGRFVFDSPYWDNVSEDAKDLIKKMLIVDPAERWTATQLLEHKWIT--GEEVSTTPLLTALEELRKYNARRRFKSAVTTVK 720
[Close]
BLAST of mRNA_P-fluviatile_contig10.824.1 vs. uniprot
Match: A0A7S1YW57_TRICV (Hypothetical protein (Fragment) n=1 Tax=Trieres chinensis TaxID=1514140 RepID=A0A7S1YW57_TRICV)

HSP 1 Score: 388 bits (996), Expect = 5.030e-114
Identity = 246/682 (36.07%), Postives = 358/682 (52.49%), Query Frame = 2 
Query:  374 YVVKRVRKWRLEEQKKQDLFREVDILRRFVD-HPNVVRVHRFYRNDPVHYYLVLEPLAGGELFDRIVKKDNYTEKEARDVCKVLVQVICDLHDRDIVHRDLKPASILMVSATEENVRTTATTXXXXXXXXXXXXXXXXXXXXXXXXXXXTYNASSSCSSLKLTDFDLARSVVDGPVEGDAGLGEFTGPDEFKAPEMLLGKSHGRPVDMWSLGCLIYFLLCGKHPFAHPDPIRMYLRAAARECEFQAGQWRDISEVAKARCKNFVRQLLTVDPKLRMTASQAKSHAWLHADGQSLEAHDLRSSLEQLKISNTKRKFRAAVKTVLATRLMRQLLAPPAPSVNFFDTFSLGEKIGAGSFGTVFKATRFAGSGTTISAXXXXXXXXXXXXXXXXXXXXXXXXXXQQEGGCCSAHRSVALGWDSAGTAANSCFAVKRIKKEGLCEKKRLAVINEVSVMRDLNHPNVMSICDFYPDDPHHFFMVLELMEGGELFGRIVKKEYYNEKEARDLCCILLRAVAYIHDQGIVHRDLKPKNLLLACPRDDTSIRIADFGLASSVR-DGSLRSFCGTPFYLAPEILKNIPYTTSVDMWSVGVIIYVLLAGYLPFRDRDQRRLFRSIRAGQFRFHDKYWSEVSEEAKDLIKRLLTVDPKARITAREACEHPWLSTDGSQ-LSSHDLSASLGELKV 2410
            + VK V + +L+ +    +FREV+I+R     +  +V +  F+   P  +++VLE   GG++FDR+ KK  YTEK ARD+ + L++ I  +H   IVHRDLKP ++L+V    ++V  T T                                       KL DF  A+ + DGP  G   L    G   F APE+L+G  +   VDMWS+G ++Y LL G  PF H +   ++ +  A +  F    W  +S  AK      +  LL VDPK+RMTA  A   AW+ AD   L   D+  SLE+++  N +RK R A   V             A +  F++     E +  G  GT          G   S                           +   G      S A  W+      +   AVK +K+  L  K     +NEV++++ L HP+++ + DF+ ++  HFFMV+EL+ GG++F RIV+K  Y EK+ARDL   LL +VAY+H++G+ HRDLKP+NLLL    D+  I++ADFG +  V    SL + CGTP Y+APEILKN P+   VDMWSVG+I YVLL GY PF + +Q++LFR IR G++ F+++ W+ +S +A+D IK+LL VDP  R+TAREA EH W++ D  + LSS DLS ++  L+ 
Sbjct:   41 FAVKVVDRRKLKAKDDVSIFREVNIMRDISGTYDGIVNLVDFFEV-PDTFFIVLELARGGDVFDRLSKKTTYTEKNARDLARNLLEAIRYVHGCGIVHRDLKPENMLLV----DDVSDTDT---------------------------------------KLADFGFAKRLSDGPPNG---LVTRCGTPAFVAPEILVGSPYAYTVDMWSVGVILYLLLGGYPPFQHENSRGLFRKIRAADYVFHDKFWEHVSVEAK----QLIASLLQVDPKVRMTAQGALESAWITADDGELSGRDISGSLEEIRKFNARRKLRGAFHAVTW-----------AVNARFWNV----EAVSFGGKGTGTSDVISGWIGDKSSPLDKETSMKKMKERLGKTFKDVYELKKKIRTG------SFATIWEGRHRQTDQTVAVKVVKRRDLKPKDDAQFLNEVAILQSLKHPHIVGLIDFF-EEREHFFMVMELLNGGDVFDRIVEKTTYTEKDARDLIATLLDSVAYMHERGVAHRDLKPQNLLLVSREDNADIKVADFGFSKRVHVPQSLMTRCGTPTYVAPEILKNHPHDHMVDMWSVGIIAYVLLVGYPPFMEENQKKLFRMIRMGEYEFYEEDWATISPDAEDFIKKLLVVDPTHRMTAREALEHEWIAGDNDEDLSSRDLSGTVRGLQT 649
[Close]
BLAST of mRNA_P-fluviatile_contig10.824.1 vs. uniprot
Match: A0A1W0A531_9STRA (Uncharacterized protein n=1 Tax=Thraustotheca clavata TaxID=74557 RepID=A0A1W0A531_9STRA)

HSP 1 Score: 387 bits (995), Expect = 3.830e-105
Identity = 263/733 (35.88%), Postives = 378/733 (51.57%), Query Frame = 2 
Query:  368 KSYVVKRVRKWRLEEQKKQDLFREVDILRRFVDHPNVVRVHRFYRNDPVHYYLVLEPLAGGELFDRIVKKDNYTEKEARDVCKVLVQVICDLHDRDIVHRDLKPASILMVSATEENVRTTATTXXXXXXXXXXXXXXXXXXXXXXXXXXXTYNASSSCSSLKLTDFDLARSVVDGPVEGDAGLGEFTGPDEFKAPEMLLGKSHGRPVDMWSLGCLIYFLLCGKHPFAHPDPIRMYLRAAARECEFQAGQWRDISEVAKARCKNFVRQLLTVDPKLRMTASQAKSHAWLHADGQSLEAHDLRSSLEQLKISNTKRKFRAAVKTVLAT---------RLMRQLLAPPAPSVNFFDTF--SLGEKIGAGSFGTVFKATRFAGSGTTISAXXXXXXXXXXXXXXXXXXXXXXXXXXQQEGGCCSAHRSVALGWDSAGTAANSCFAVKRIKKEGLCEKKRLAVINEVSVMRDLNHPNVMSICDFYPDDPHHFFMVLELMEGGELFGRIVKKEYYNEKEARDLCCILLRAVAYIHDQGIVHRDLKPKNLLLACPRDDTSIRIADFGLASSVRDGSLRSFCGTPFYLAPEILKNIPYTTSVDMWSVGVIIYVLLAGYLPFRDRDQRRLFRSIRAGQFRFHDKYWSEVSEEAKDLIKRLLTVDPKARITAREACEHPWLSTDGSQLSSHDLSASLGELKVFNATR-KFRAAGQSVRERYPNALDIRSRG*E*RRALRGVRR 2530
            K Y VK   K ++   +  DL+ EV IL+R + HPNV++++ F+  +P H+Y+V + L GGELFDRIV K+ Y+EKEARD+ K+++  I  LHD +IVHRDLKP ++L+ S +++                                           +S+K+ DF  A+   DG       L E  G  ++ APE+L    +G+ VD+WS G + Y LLCG  PF   +   ++        EF +  W D+S  AK     FV ++L VDPK R T  +  S  W+  D   + +  L   + +L+  N +RKFRAAVKTV AT         R       PPA S + +D    ++ E        TV ++    G GT+                                 G      S A+   +   +  +  AVK  KKE L  +    +  EV +++ LNHPNV+ + DFY  +P ++++V EL+EGGELF RI   EYY+EKEARDL   LL A+ Y H   + HRDLKP+N+L+    D+ +I+IADFG A    +G L + CG+P Y+APEI+    Y  SVD+WS+GVI YVLLAGY PF D +Q  LF +I   +F F++  W+EVS+EAKD + R L +D   R TA +  + PW+   G  +S+  L   + +L  FN +R KFRAA Q+      N L+  S G E  R  + +RR
Sbjct:  112 KHYAVKCFDKSKMNATQVNDLYEEVKILKR-IKHPNVLQLYDFFE-EPTHFYIVTDLLEGGELFDRIVDKEYYSEKEARDLIKIMLFAIRYLHDLNIVHRDLKPENVLLTSRSDD-------------------------------------------TSIKIADFGYAKEDFDGQ------LTEKCGSPDYIAPEILSRAYYGKQVDIWSAGIISYILLCGYPPFQGRNNAELFNSIKKGAFEFDSPYWDDVSVEAK----QFVSRMLVVDPKKRATVDELLSDPWITGD---VSSAPLNGVMTELRRFNARRKFRAAVKTVQATVSLLGVARSRGASSPTTPPARSSDVYDPSLKAIIENERESEVATVLES----GDGTSSGLFRDNYTL-----------------------GGMLGEGSYAIVKKARSRSTGNLCAVKIFKKENLSVQDDEDIHKEVQILQRLNHPNVIRLLDFY-SEPKYYYLVTELVEGGELFERIALMEYYSEKEARDLVKTLLEAIEYCHGLDVAHRDLKPENILMTSKDDNANIKIADFGFAKQDTNG-LSTTCGSPEYVAPEIINQATYGKSVDIWSIGVITYVLLAGYTPFHDPNQSVLFDNICNARFYFYEPDWNEVSQEAKDFVTRALDLDSSKRPTASQLLKDPWIV--GQNVSARALVGVMEKLPDFNKSRRKFRAAVQATM--LVNILNRDSSGKETARLAKMLRR 753
[Close]
BLAST of mRNA_P-fluviatile_contig10.824.1 vs. uniprot
Match: K0T758_THAOC (Uncharacterized protein n=1 Tax=Thalassiosira oceanica TaxID=159749 RepID=K0T758_THAOC)

HSP 1 Score: 345 bits (885), Expect = 1.990e-98
Identity = 238/755 (31.52%), Postives = 358/755 (47.42%), Query Frame = 2 
Query:  269 SATNLFSATAKVRRKQPSGTAEEREDGNTHSAPKSYVVKRVRKWRLEEQKKQDLFREVDILRRF--------------------VDHPN--VVRVHRFYRNDPVHYYLVLEPLAGGELFDRIVKKDNYTEKEARDVCKVLVQVICDLHDRDIVHRDLKPASILMVSATEENVRTTATTXXXXXXXXXXXXXXXXXXXXXXXXXXXTYNASSSCSSLKLTDFDLARSVVDGPVEGDAGLGEFTGPDEFKAPEMLLGKSHGRPVDMWSLGCLIYFLLCGKHPFAHPDPIR--MYLRAAARECEFQAGQWRDISEVAKARCKNFVRQLLTVDPKLRMTASQAKSHAWLHADGQSLEAHDLRSSLEQLKISNTKRKFRAAVKTVL-------------ATRLMRQLLAPPAPSVNFFDTFSLGEKIGAGSFGTVFKATRFAGSGTTISAXXXXXXXXXXXXXXXXXXXXXXXXXXQQEGGCCSAHRSVALGWDSAGTAANSCFAVKRIKKEGLCEKKRLAVINEVSVMRDLNHPNVMSICDFYPDDPHHFFMVLELMEGGELFGRIVKKEYYNEKEARDLCCILLRAVAYIHDQGIVHRDLKPKNLLLACPRDDTSIRIADFGLASSV-RDGSLRSFCGTPFYLAPEILKNIPYTTSVDMWSVGVIIYVLLAGYLPFRDRDQRRLFRSIRAGQFRFHDKYWSEVSEEAKDLIKRLLTVDPKARITAREACEHPWLST-DGSQLSSHDLSASLGELKVFN 2416
            S+   F AT K+ RK   G+     +G      + + +K + + +L +       REV+ILR                      V  PN  ++ +  FY + P  Y++V+E   GG++FDR+ K+  YTE  ARD+C+ +++ +  LH+R I HRD+KP ++L++                                              S + LKL DF  AR         D  +    G   F  PE++LG+ +G   D+WS GC ++ LL G+ PF      +  M+    A +  F    W++I+  AK      V  +L VDP  RM+A +A    W++ D  +L    L  SL ++   + +RK R A+  V+             AT   R  +     S    +   L E I    FG   K+    G  +T+                             QEG         A  W          +A+K IK++GL +     V+NEVS+++ L H +++ + DF+ ++P  F++V+    GG++  R+   E Y+EK+AR     LL  VA++ ++GI HRDLKP+NLLL    D+T ++I DFG A  V    SL + CG+  Y+APE+LKN PY  S DMWSVGVIIY LL GYLPF  ++Q  LF+ IR G+F F  KYWS +S+EAKDLI +LL VDP  R+TA +A    W+S  +   L S+DLS+S   ++ F+
Sbjct:   29 SSVKSFEATYKIGRKLMGGSYGTVYEGVNIKTKREFAIKVIERRKLSKHDDASQIREVEILRSLNPLSFTKSTQTESSDRQAAAVQDPNNGIINLVDFY-SSPNQYHIVMELARGGDVFDRLAKRKVYTEANARDLCRSMLESVQFLHERGIAHRDIKPENLLLMD-------------------------------------------EDSDTQLKLADFGFARRFSQ--THPDHSMKTKCGTPAFVPPELVLGQPYGPKCDIWSAGCTLFMLLSGRAPFNAKKSGKNAMFRAIRAGDFVFYDDYWKNINIEAK----KLVLNMLQVDPSSRMSAKEALESEWINMDDDALRRSSLDKSLAEIVSFSARRKLRGAIGAVMYAVGGGAKFWDISATAFSRDDMH----STGAVNGDQLDEAIAKKEFGKPEKSADVGGLDSTL-----------------------------QEG-------VEATVWHGTRIDTRKTYAIKVIKRKGLTQSDDATVLNEVSILKSLRHKHIVPLRDFF-EEPDTFYLVMHKCRGGDVLDRVASIEQYSEKDARQFSRGLLDGVAFMSERGIAHRDLKPQNLLLEREDDNTQVKICDFGYAKRVYMPQSLTTLCGSLHYVAPELLKNHPYDQSADMWSVGVIIYFLLVGYLPFHSKNQDELFKIIRLGKFSFEPKYWSGISKEAKDLISKLLDVDPSTRLTATQALNSDWMSVVEEKSLVSNDLSSSSVGIRRFS 692
The following BLAST results are available for this feature:
BLAST of mRNA_P-fluviatile_contig10.824.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LEF0_ECTSI4.270e-20146.07Myosin light chain kinase (MLCK) n=1 Tax=Ectocarpu... [more]
D8LGW1_ECTSI1.820e-19647.13Ca2+/calmodulin-dependent protein kinase II n=1 Ta... [more]
A0A6H5K8I6_9PHAE1.590e-18144.03Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
D8LE50_ECTSI1.910e-13037.13Phosphorylase kinase n=1 Tax=Ectocarpus siliculosu... [more]
A0A835YM32_9STRA2.040e-12336.99Uncharacterized protein n=1 Tax=Tribonema minus Ta... [more]
A0A835YSJ7_9STRA3.020e-12336.84Phosphorylase kinase n=1 Tax=Tribonema minus TaxID... [more]
A0A8K1C336_PYTOL4.000e-11935.47Uncharacterized protein n=1 Tax=Pythium oligandrum... [more]
A0A7S1YW57_TRICV5.030e-11436.07Hypothetical protein (Fragment) n=1 Tax=Trieres ch... [more]
A0A1W0A531_9STRA3.830e-10535.88Uncharacterized protein n=1 Tax=Thraustotheca clav... [more]
K0T758_THAOC1.990e-9831.52Uncharacterized protein n=1 Tax=Thalassiosira ocea... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-fluviatile_contig10contigP-fluviatile_contig10:2676293..2693701 +
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 score623.6
Seed ortholog evalue1.2e-175
Seed eggNOG ortholog2880.D8LGW1
KEGG koko:K08794
KEGG Pathwayko04921,ko04925,map04921,map04925
EggNOG free text desc.calmodulin-dependent protein kinase activity
EggNOG OGsKOG0032@1,KOG0032@2759,KOG0033@1,KOG0033@2759
EC2.7.11.17
COG Functional cat.S
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
BRITEko00000,ko00001,ko01000,ko01001
Hectar predicted targeting categoryother localisation
Ec32 ortholog descriptionCa2 /calmodulin-dependent protein kinase II
Ec32 orthologEc-28_001440.1
Exons15
Model size5831
Cds size2382
Stop1
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1622815395.186786-UTR-P-fluviatile_contig10:2676292..26764071622815395.186786-UTR-P-fluviatile_contig10:2676292..2676407Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 2676293..2676407 +
1693561747.1744545-UTR-P-fluviatile_contig10:2676292..26764071693561747.1744545-UTR-P-fluviatile_contig10:2676292..2676407Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 2676293..2676407 +
1622815395.3526604-UTR-P-fluviatile_contig10:2690355..26935211622815395.3526604-UTR-P-fluviatile_contig10:2690355..2693521Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 2690356..2693521 +
1693561747.3098495-UTR-P-fluviatile_contig10:2690355..26935211693561747.3098495-UTR-P-fluviatile_contig10:2690355..2693521Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 2690356..2693521 +
1622815395.362228-UTR-P-fluviatile_contig10:2693533..26937011622815395.362228-UTR-P-fluviatile_contig10:2693533..2693701Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 2693534..2693701 +
1693561747.319873-UTR-P-fluviatile_contig10:2693533..26937011693561747.319873-UTR-P-fluviatile_contig10:2693533..2693701Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 2693534..2693701 +


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

Feature NameUnique NameSpeciesTypePosition
1622815395.1984565-CDS-P-fluviatile_contig10:2676407..26764311622815395.1984565-CDS-P-fluviatile_contig10:2676407..2676431Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2676408..2676431 +
1693561747.18372-CDS-P-fluviatile_contig10:2676407..26764311693561747.18372-CDS-P-fluviatile_contig10:2676407..2676431Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2676408..2676431 +
1622815395.2125793-CDS-P-fluviatile_contig10:2676845..26769301622815395.2125793-CDS-P-fluviatile_contig10:2676845..2676930Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2676846..2676930 +
1693561747.1915805-CDS-P-fluviatile_contig10:2676845..26769301693561747.1915805-CDS-P-fluviatile_contig10:2676845..2676930Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2676846..2676930 +
1622815395.224401-CDS-P-fluviatile_contig10:2677649..26778641622815395.224401-CDS-P-fluviatile_contig10:2677649..2677864Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2677650..2677864 +
1693561747.1993718-CDS-P-fluviatile_contig10:2677649..26778641693561747.1993718-CDS-P-fluviatile_contig10:2677649..2677864Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2677650..2677864 +
1622815395.240018-CDS-P-fluviatile_contig10:2678326..26784641622815395.240018-CDS-P-fluviatile_contig10:2678326..2678464Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2678327..2678464 +
1693561747.2084014-CDS-P-fluviatile_contig10:2678326..26784641693561747.2084014-CDS-P-fluviatile_contig10:2678326..2678464Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2678327..2678464 +
1622815395.252282-CDS-P-fluviatile_contig10:2679233..26793141622815395.252282-CDS-P-fluviatile_contig10:2679233..2679314Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2679234..2679314 +
1693561747.218255-CDS-P-fluviatile_contig10:2679233..26793141693561747.218255-CDS-P-fluviatile_contig10:2679233..2679314Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2679234..2679314 +
1622815395.2618976-CDS-P-fluviatile_contig10:2679570..26798941622815395.2618976-CDS-P-fluviatile_contig10:2679570..2679894Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2679571..2679894 +
1693561747.2277544-CDS-P-fluviatile_contig10:2679570..26798941693561747.2277544-CDS-P-fluviatile_contig10:2679570..2679894Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2679571..2679894 +
1622815395.2712867-CDS-P-fluviatile_contig10:2680968..26811391622815395.2712867-CDS-P-fluviatile_contig10:2680968..2681139Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2680969..2681139 +
1693561747.2357044-CDS-P-fluviatile_contig10:2680968..26811391693561747.2357044-CDS-P-fluviatile_contig10:2680968..2681139Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2680969..2681139 +
1622815395.2799184-CDS-P-fluviatile_contig10:2681872..26820521622815395.2799184-CDS-P-fluviatile_contig10:2681872..2682052Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2681873..2682052 +
1693561747.244419-CDS-P-fluviatile_contig10:2681872..26820521693561747.244419-CDS-P-fluviatile_contig10:2681872..2682052Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2681873..2682052 +
1622815395.2921813-CDS-P-fluviatile_contig10:2685407..26857911622815395.2921813-CDS-P-fluviatile_contig10:2685407..2685791Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2685408..2685791 +
1693561747.2540498-CDS-P-fluviatile_contig10:2685407..26857911693561747.2540498-CDS-P-fluviatile_contig10:2685407..2685791Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2685408..2685791 +
1622815395.3019018-CDS-P-fluviatile_contig10:2686306..26864411622815395.3019018-CDS-P-fluviatile_contig10:2686306..2686441Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2686307..2686441 +
1693561747.272163-CDS-P-fluviatile_contig10:2686306..26864411693561747.272163-CDS-P-fluviatile_contig10:2686306..2686441Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2686307..2686441 +
1622815395.3120449-CDS-P-fluviatile_contig10:2687489..26875721622815395.3120449-CDS-P-fluviatile_contig10:2687489..2687572Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2687490..2687572 +
1693561747.279837-CDS-P-fluviatile_contig10:2687489..26875721693561747.279837-CDS-P-fluviatile_contig10:2687489..2687572Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2687490..2687572 +
1622815395.3236833-CDS-P-fluviatile_contig10:2688565..26887401622815395.3236833-CDS-P-fluviatile_contig10:2688565..2688740Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2688566..2688740 +
1693561747.2873254-CDS-P-fluviatile_contig10:2688565..26887401693561747.2873254-CDS-P-fluviatile_contig10:2688565..2688740Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2688566..2688740 +
1622815395.333241-CDS-P-fluviatile_contig10:2689549..26897081622815395.333241-CDS-P-fluviatile_contig10:2689549..2689708Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2689550..2689708 +
1693561747.2949378-CDS-P-fluviatile_contig10:2689549..26897081693561747.2949378-CDS-P-fluviatile_contig10:2689549..2689708Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2689550..2689708 +
1622815395.3432698-CDS-P-fluviatile_contig10:2690127..26903551622815395.3432698-CDS-P-fluviatile_contig10:2690127..2690355Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2690128..2690355 +
1693561747.3023224-CDS-P-fluviatile_contig10:2690127..26903551693561747.3023224-CDS-P-fluviatile_contig10:2690127..2690355Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 2690128..2690355 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-fluviatile_contig10.824.1prot_P-fluviatile_contig10.824.1Porterinema fluviatile SAG_2381polypeptideP-fluviatile_contig10 2676408..2690355 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-fluviatile_contig10.824.1

>prot_P-fluviatile_contig10.824.1 ID=prot_P-fluviatile_contig10.824.1|Name=mRNA_P-fluviatile_contig10.824.1|organism=Porterinema fluviatile SAG_2381|type=polypeptide|length=794bp
MAKKIKHMVRRGKEAATCLLYKNDDDDGSPDGIDDKDFYLSFSLGDKVTQ
GSATNLFSATAKVRRKQPSGTAEEREDGNTHSAPKSYVVKRVRKWRLEEQ
KKQDLFREVDILRRFVDHPNVVRVHRFYRNDPVHYYLVLEPLAGGELFDR
IVKKDNYTEKEARDVCKVLVQVICDLHDRDIVHRDLKPASILMVSATEEN
VRTTATTTTTKTVVNTTATATVTTTTVSTSTIVTTYNASSSCSSLKLTDF
DLARSVVDGPVEGDAGLGEFTGPDEFKAPEMLLGKSHGRPVDMWSLGCLI
YFLLCGKHPFAHPDPIRMYLRAAARECEFQAGQWRDISEVAKARCKNFVR
QLLTVDPKLRMTASQAKSHAWLHADGQSLEAHDLRSSLEQLKISNTKRKF
RAAVKTVLATRLMRQLLAPPAPSVNFFDTFSLGEKIGAGSFGTVFKATRF
AGSGTTISASSETRTRTRAVLPAPAPPSPEQQQLQQQEGGCCSAHRSVAL
GWDSAGTAANSCFAVKRIKKEGLCEKKRLAVINEVSVMRDLNHPNVMSIC
DFYPDDPHHFFMVLELMEGGELFGRIVKKEYYNEKEARDLCCILLRAVAY
IHDQGIVHRDLKPKNLLLACPRDDTSIRIADFGLASSVRDGSLRSFCGTP
FYLAPEILKNIPYTTSVDMWSVGVIIYVLLAGYLPFRDRDQRRLFRSIRA
GQFRFHDKYWSEVSEEAKDLIKRLLTVDPKARITAREACEHPWLSTDGSQ
LSSHDLSASLGELKVFNATRKFRAAGQSVRERYPNALDIRSRG*
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mRNA from alignment at P-fluviatile_contig10:2676293..2693701+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-fluviatile_contig10.824.1 ID=mRNA_P-fluviatile_contig10.824.1|Name=mRNA_P-fluviatile_contig10.824.1|organism=Porterinema fluviatile SAG_2381|type=mRNA|length=17409bp|location=Sequence derived from alignment at P-fluviatile_contig10:2676293..2693701+ (Porterinema fluviatile SAG_2381)
GAGAAGTTGCAGGCGCAGAAGCAGCAGGGGGGGGAGAAAGGGGGGGTGAG
AGACGACGACATTTAACCGTCAAGAGGGACCTGCCCAACACTTTTCGTCC
ACGAGAAATCGAAACATGGCCAAGAAGATCAAACACATGGTGAGAAACTT
TGGAGCGGGGGCGATTCGTGGGCTGGCGTTGGCGTTGACGATGTGACGGG
GACGGAGCAGGGAACCTGATTGTCACAACGTAGCCTCCCTTATCCAAAAA
GTGAGTAGGGGACCATTTGAAAGGGGGGTTGGGGGATGGGATAACGCACT
AAAAACATTTGGCTCAACATGAAGCCAGATTCTGCTTTCTACAGTTCCGC
TTGCTGCTTCTTCCACTGGCCCATCAATATTTGTTTTTGGTGCTACTGAC
CTCACCTCCCCTCTCGCCGCATCTACAGCAAATATGCGCACACGAACTCG
TTATTCAATTTTTCGTGGTACGATTCGTCCGTTGCTGTTAGTGGAGTGCT
TGTCAAAAATGGATCGATCCCCTCTTCTCGCTCCCGGTCTGGGTTTTGAG
CAGGTTCGTCGAGGCAAGGAGGCGGCGACTTGTCTCCTGTACAAGAACGA
TGATGATGATGGCAGCCCAGATGGAATCGACGACAAAGGTCAGTGCGTGG
CCGGGCCCTCTGGTCTCTTGGCCTAATCAGGTAGCGTTTCCTTTTCCAGG
TAGGATCTCGCCATGTACTCGCTAGAGTGGCCACGATGGGTTTGTTGATG
AGCCGGGCCAAGGCTACCATGGAACCAGCCGGTGCCTGGCCTTGTGTTTC
AGGGGAAGCGGCCAACGGTGCCCCCTCGCCAAAACGAAGTCAACACCCGC
GGGGCCTTCCCTCGAAGGCAATGATGCAGGATAGACACGCAGAATTTGCC
GCCCGTCATTCAGCAGATAATGATGGCCATACTCCCGAGCTTGTTTCTTG
TTGCAAAATCCAACCAAACAACCCAAGGAGAGTGTTGTGGGACGACGGCG
GCAGTTTTTGAGTCGTACAAACTCTTCTTTTCAGCATCGTGCCCTCCTTC
GCCTTCCTACTTTAAACTCTTGATGTATCGGTGGCTTCCCAGCGTTGCGG
TATCTCTGCGTTTTCCCTTTGCGTCATGCGTTTGTCGCCACTTTCTGCCT
CGCGCATCGGCCCTCCTTTGCAAAGTCTAAGGGCCTGTGCGTGTCCATGG
CCTCGCCCCCTCGCGCCCACCATTTCATGGCTGGCTGCCTGGCTGCCTGG
CTGCCTACCCGCCTTCCTGCGTGCACGCGTGCCTGCCTGCTTGCTCGCGT
GCCTCAAATCCGTGTGTCTTACCTCTTCCACCTTTCGACGGCTTTTTGAC
TGGCCAGACTTCTATCTGTCGTTCAGCTTAGGCGACAAGGTCACGCAGGG
GTCGGCGACGAACCTCTTCAGCGCCACGGCCAAGGTCAGGAGGAAGCAAC
CCAGCGGGACAGCGGAGGAACGAGAAGACGGGAACACACACAGTGCCCCC
AAATCGTACGTCGTCAAGCGAGTTCGGAAGTGGCGGCTGGAGGAACAGAA
GAAGCAGGACCTGTTTCGTGAGGTTGGTTGAAGTTGCACGGCGAGGACAC
GAGTGGCGCTGTCGTAGGCATTGCTCTCGAATGGTTGCTTGGTTTCCAGC
AGCGGAGAATACCTCGGTTTTTCTTTATGTTCGATCCTGCAACTCTCTTC
CTGCTGGGTTTGCTGTCGCTGTTCGGTCTCCTTTAAGGCTGCGCCCAAAA
ACGCCTCCTTATCGAAACGATTGTGCCTCTAAGTGTGCAGGCAACGGTTA
AAAAAGGCATGCGACACCTATACCTGCTTCGAAACGTTGAGGTGAATCGT
GGCATCAGGAGGATGCGACGCCCAGGTCGGTGTGCCTACAACATGTACAC
CCCTTCCTGACAACGGGTCGTTGACACATGCGGTGGAATATGTGCGTTCT
CGCCTAACAACGCCACGCGCGTTTTTTGCGAACGGTCCATTGCTCCCCCG
TGAACCACTCTCCGACGGTGATTTTCTGCGGTAGGTCGACATCCTTCGTC
GATTCGTGGACCACCCGAACGTTGTGAGGGTCCACCGCTTCTACCGCAAT
GATCCCGTCCACTACTACTTGGTGCTGGAGCCTCTGGCCGGGGGCGAGCT
GTTCGACCGCATCGTCAAGAAGGTCCGTCGGCCTGAATGGTTCGATACTT
GCTTGATTCGTTCGTCGCTTGCGCTCTACAGCTACTGCAGGCCCAAGCAC
CGGTCTGTCGCTCTTGCAAAGATGTACAATTGAATCAAATATCATGGTTG
GGATCAGTGGTTGTAGTGAATTTTAGGGGTGGAAAGCTGGCTGACACGGA
AAGTTTGACAATGGAAAATTAAAGTTCAACCGCTTTTTTTTGCCTTTTGG
AAAGGAGGAACATGTTCTTGTACGTTTGTTGACTCTTCAGACCGCACGTG
CAATATGCGTGCGCTTGGGGGACTGTCTCGATTTCGTCGAGAGGAATAAC
GTTTATTCGCCTGTCTCTTGCGCCGGGGGGTCGTCGACCGCCGTTTAGCG
AAGGAAGGGGGGGGTGGGCCCTATCGACCACGGCGGTGTAGGGCCTGAGC
TGATTCGGAAGCTAGGGGCGGAAATCGCAATAGCATATAATAGTTGGCGA
TTTTTGCAGGAAAGGGTGGCGGATGTGAGCAAGCATGGATGGCGTGCTGC
ATTTCCTTTCGGGTTTCGGGGAAGGGGAGGGGGGCCGGGAGCGGTGGCGG
CGGTGGCGGCGGCGCTCGAAGCAAGTGCCGGCGGCATCAACTAACAAATT
TATCATTGCTTATTAACAATTTCTTCGCAACCCTAAATAATATTCGTGAA
CCTCTCTGACTTCACGAGGATACCGGTTGAGGTGCCAATCTTTCTTCTGG
AAGCTTACCCCGTTCCCCTCCGAACAAACCAATGGTCGCAGGATAATTAC
ACTGAGAAAGAAGCGAGAGACGTGTGCAAGGTTTTGGTCCAAGTCATCTG
CGACCTCCACGACAGAGACATTGTAAGTTCCGCGGTATGCAACGTCGCGT
TGATGGCGTGTGTTCTCTTTTCCTGCACTCTTTAAGCACACGTAGCCATC
AATGTTGCTGCTTCCGATCTCCGCCACAGTAGGGGCTCACTCCACGAAGA
GCTTTTTTCAGTTCGGTCGCGGCGGGGATTGGATCTTCAAAGGCGTGTTC
CCACCCCTCGAACTTTATTTATCTGTCCCCGCGACCTTGTGTACAAATAC
AATGCACACAAATCTCCGCTGCCGGCAGGTGCACCGGGACCTGAAGCCGG
CCAGCATCCTGATGGTCTCGGCAACGGAGGAAAACGTGCGCACAACCGCC
ACCACCACGACCACGAAGACAGTCGTCAACACCACCGCCACCGCCACCGT
CACCACTACCACGGTCTCCACCAGTACGATCGTCACCACATACAACGCCA
GCAGCAGCTGCAGTAGCCTGAAGCTCACCGACTTCGACCTGGCTCGCTCC
GTGGTTGACGGCCCGGTGGAGGGCGACGCCGGGCTGGGCGAGTTCACGGG
GCCGGACGAGTTCAAGGCGCCGGAGATGCTCCTGGGCAAGAGTCACGGCA
GGGTGAGTCAGAGAGACGAGGTCTAACAACAGGCGAGGTGAAGACACTGC
AAAACGTACCCGTCTTGAGCTGGTGTGTCGATGCCAAGGGTTACATTGTC
GCGACTTTGAATCGCGCGTGTGTGAGATTGCTCCATCTGTCCTGGCGTGC
AATCGTGTGCACATGTTTCGGTACAAAATGTTCGACGTGTGCACCAGCCG
GAGTCGCACAGGAGGAAGGTCGTATTCTTTTTGTGGCTTTCGCCGCGATA
GTGGTTGTGGGAATAGCGAGTCATCAAGTTGGCGGGAGTAGCGACTCAGC
AGATAGTGTTAGTGGGAGAAGCGACTCAGCAAGATTGTGGTTACGGGAGT
AGCGACTCAGCAAGAAGGTGGTAGTGGCAGTCGCGACTCAGCAATGCTAG
AAAGTGGTAGTGGGAGTAGCGACTCAGCAAGCGCGGATTGCCGGCGTCAT
GTTCGAGGGGATTTCCTCGTACTCTCATGCGGAGGTTCTCGACTTCCCCC
TCGCCCCCTTCCTCTCTGACTTTGGTAAGGCGACATATAGCTTATAGGAA
TAACAGAAGCGCCGGCGGAAACGGGGCCGATGGAAACGTCCGCTGGCACG
CATAGCGGCAACCCAAGTCGCGGGGTCAGATCCATTGCACCGCAGCCGCT
GACGCGGCCCGCCCCACCACATGTTGCGAGCCCCTCATCTCTACATTCCA
TCTACAAGCCGAGTATGGTTCTTGCATATGGACCCCCCCCCCCCCTCCCC
CCTGGCACACACAGGCGATACCGAAAAATGGCTTGCAGCTAAGTTGAGGC
TGTCGTGCTTTTGCAAGATCAACATGCCTTTGGCCGAAATATTCTTATTA
GAATGCTGCCCACCCTTCATGCGACTCGCCGAATGCATCGCGGCCCTTTG
TGCTTGGTGAGTGCAAGAGCCTGGGCCGGTGAAAACCCGGTAAATCGCTC
CGTCCCGGCCTGGTCGGGATGTGAGGTCTATGGCCGAACGGCTACGGTAT
GCATGAATTGACCCCGCCCGCCCCCCAACACACCGCTCGCCTCTGTCCTG
TCTTCTCCACGAAATCTCCTCGGCAGCCTGTGGACATGTGGAGCCTCGGG
TGCCTGATCTACTTCCTCCTCTGCGGGAAGCATCCGTTCGCCCACCCCGA
CCCGATTAGAATGTACCTCAGGGCGGCGGCGCGCGAATGCGAGTTCCAGG
CGGGTCAATGGAGGGACATTTCGGAGGTTGCGAAGGCAAGGTGTAAGGTT
TGGTCGCACGAACGTTGTTTAATCTGTGTCTGTTGCGGTTATTGCGCGCT
AGCCAGGCTGATCAACAAAAAGGCGTCTAAGCCAGCGGGTACTACAAATG
CGCGATGTGTGCAGTTGTTGCTAACAAATCCTTCGACCGTTGAGTGGCTG
ACGGACGGACAAATGCGCGACAGTTTTGGAAACCGCGGGGCCTCCCGATG
AGGGATTCCATTGAAGGAGTCGCACCGGGCGTGACCCAGCAAATGGGCGC
GTGAGGGGCGACGGCGGTGCCATACGCTTTCATGGTGGAAGGTGTACACA
GCTGCTTTGCTGCTGCTGTAAGTTCGGGCCGCTGTGTTTTTCGTCGCCGT
GTCGTCCTCTCTCGCGGAGCCTCTCCTGCCTCACCAGCGTGTGACATTGG
CGACGGATATCTTGGGGGCACGCGTTTGTTTTCTCTGCAAATGCACCCCA
GTATTCCGTACTAAATGGAGACGAGGGCGAACAATCATTTCTCCCCCATG
TATAAACAAAACGCACTCCAACTTCGACTTCGCACACCAAGTTACGAGGG
TGACGATCATTCTTCCCACGATTTCCAACACAAAATGCTGCTTTCCTCGC
TTGCTTTCTCCAAGTAAGCACCCAGGGTGACGAAGACGAGTTTGGCGATC
GTTCATGTGACACACGTGAACATTCGATGCCCTGTTGCTTACTTCGAGAT
CTCCCGTGCCCCTCCGATTGATTATCTCAGAATTTTGTTCGGCAGCTCCT
GACGGTGGACCCCAAACTCCGGATGACGGCCAGTCAAGCTAAAAGCCATG
CCTGGCTACACGCGGACGGACAAAGCTTGGAGGCACACGACCTCCGCAGC
AGCTTGGAACAGCTCAAGATCTCAAACACGAAGCGGAAGTTTCGAGCAGC
AGTAAAGACGGTGAGCTCTCCCCCTCCCCTTCCGCGCGCGCGAGCGCCTC
CGGTAGTGCGGTCTCTTTCCCTGGTACTGCTACGTGGAGGCCCTCTCCCC
AAGCCAAGTCCTGAGGAAACAACCCCCGGCATGAAGACACACAGAAAGTC
AGGGGGAATAAATGTTTAACCCCCCCTCACCAAAGTGATTGGAAAAAAGA
TGGTCCGGTGTGGTCAGGCGGTTAAGTGGTGGGACGAAGAATTGAGGGAA
GAATAGGGGAACGAAGAGAACTGTTTAAGCGGCACATGGATGAGAAGACA
GAGGAGAGTTGGGAAACCTACAGAGCCAAGAGGAAACATGTGAATAGAGT
AGTGAAGAAGAAGAAGAAAGGCATCTGGGACGAAGTGGTGCAGGAAGCGA
ACGGGGGGTTGGAGGGTAGCGTAAAACAGATGTGGCAGGGAATTAATGGA
TTGGAAAAAAAGAATGAACATGGGGGGGAAACAGGAGAAGCAACATTGCG
AAGCGTAGACGGTAAACTAGTCAGCAGTGGCAAGGGTACGAGACAGGTAC
TAGCAGGACACTATAGGAGACTCGGGGTGCCGTCGGAAAAGGCAGACTTC
GACCAAGTACTCAAGGAAGAGGTAGACGCGTGGGCCCAAGCAGAAGAGAG
AGCTTCGATGGAGGAAGTTGGGAATGCAGAGCTCCAAAAGAAGTTCACCA
AGGAAGAGGTTGAGAGTTGTGTGAAAAAACTACAGTGTCACAAGGCCGCA
GGGGTAGACGGGATAGTGAACGAAATCATGAAGTTCGGGGGGGAGGGGAT
GATTCAGATGATGGTGCTGTTGTTCAACTGGATATGGGGAAACGAATACG
CACCGAGTAGATGGAGGGAAGGGGTGGTGGTGAACCTATTTAAGAAAGGA
GATAAGACTGACCCAGGAAACTATAGTCTAGGGGAATCACCCTGTTGAGC
ACAGTAGGGAAAGTGTTCTTCAAGATCCTCAACAACAGAATAGTACGAGT
ACTGGAGATGGAAAAGATAATTAGTGAGGGTCAAGCAGGTTTCAGGGAGG
CTAGGGGGTGTGGAGATCACCTATGCACGGTAGGGAGAATCATACAAGGT
CGGAAGAGGGTGGGAAAGCCGACATATTGTTTTTTCCTAGACGTTCAGAA
AGCGTATGATACAGTATGGAGAAATGGGCTCTGGAACAAGTTGGCGAAGT
ATGGGATAAACGGAAGATGTGGAGAATGATTAAGAAGATGACAGAGAGCA
CGAAAAGCGCCGTGATGTTAGATGGAGAACTCTCGAGGTTCTTCGACATT
GAGCAGGGGGTCCCACAGGGGTGCACAATGTCCCCAACGTTGTTCCAGGT
ATACTTACTGAAAGAGGTAGAGGCGGTAGGGAAGGGaGTAGAAATAGGAG
AGACCTCGGTATCGGGACTGCTATTTGCTGACGACTTTGTTGGGATGTCG
GACACGCCTGAGGGCTCCAACTACAGATTAACGCAGCGAAGAGCTACGCT
GATAAGTGGAGATTCTCGGCCAACGTCCCAAAGTGTGCCGTAATGGTATG
CAATGAAGATGGTGACGAGGAAGTAGCTACCAAGTGGACATGGGGGGACA
AGGAGCTGCCAAGAGTGGAAAAATACACATACCTTGGAGTAGAGATAGCA
AAAGACTGTAAATGGGATGCACACATGCACAAAATAGCGGACAAGGGCAA
AGCAAGGGCAGGGAAGTTGCACCCAATCCTAGCAGACCGGCACCTTGATA
CACGCGTCAAAATGACCATTCTGAAAAGTGTTATCATCCCGCCACTAGAG
TACGCGGGAGAAGTTTGGGAAGGAACAAGAAAATAGTAGCAGAGTTGGAG
GCAGCGCAGATGAAAGCAGCGAAGATCATTCTAGGATGCTCCCAGCGCAC
AAGTAACGCAGCAGTAAGAGCAGAGTTGGGGATCTACTCCTTAAGAACGG
GAAGAGACAGGAGGAAGTTGACATGGCAATACCGTATGGAAAAGATGGGA
AAGGAGAGGTTACCGAGAATAGCTTGGGAGGCGAGATGGGTAAACAAGGC
CAAGGGTAGACAACCCATTGAGTGGGCTAAGGTAGTACAGGGAGTGTGGA
GTGGGTTAGATATTGACGAACGGGAGACGACGGGAGCGGAAAGCTTAGAA
GGGTACAAGAAGAGCATCTCAGAAGCCTTTGAAAATAGAGAAGACCAGAG
CTTGCGGAAAGAGACCAAGGAAAAGGAGGTTCTAGAAGTGTACGGAAAGC
TGAACGAAGGAATAGAGTTCAAGGAGTACCTGAACGGACCATTGGATGAA
GGGACAAAGATGAAGGTCAAATTTAGAACGGGCGACATTGACCTACGGGA
ACGTAGAAGGAGGTTTAGGAAGGTAGACGACGACGAAGACCAGTTCAAAT
GTGACTGCGACGCCGAATGCGAAGACCGGGTACATGTAGTTGCGGAATGC
CCGTTGTACGATCAGGAGAGAGAAGGGTACATGGTTGAGCTGGAAAAAGT
AGACAGTCGGTATAGAGAGAAGTTTGAGGCATGGAACAAAAAGGAGAAGA
CGGTAGCGGTACTCGGGTGTAAGATGTGGCCCAGGAAGGACAGGTATAAA
GTAGACAGGTTAGGGAAAACATTTTTGAGCCACCTTTGGCAAAGTAGGAA
GAAACGATTGGCCATCGGTGGTCGATCCTGCGGGAACAATTCTCCGTCCT
CTCGAGGACGCGTGGCCAATGGTCTAATAACTAAGGCATGCAAAACATGA
GTACCCCTGGTGAGGGCAAAGGAAGTGACATCGGTAGGATAGTTAGACTA
GGAAAGACGTTCTTGAGCCACCTTCGGCAAAGTAGGAAGGAACCATTGGC
CATCGGTGATCGATCCTTTGGGGAACAACGCCCCGTCCTCTCGAGGACGC
GTGGTCAATGGTCTAACCGCTAAGGCATCCATAACATAAGAATACCCCCC
CCCCGTGGTGAAGATCTTCTACAGAGTACACGGAATTTATTAAGGGGAGA
GGGTTTGCCTGATCTACGAACCGCTTCCTTTGCGGCTTGATGGAGTTCTC
ATTCAGGGCTCGGCCTTTTCTCCGATTTATGCCCCCCCTTCGGCGAAAAC
TGACCCTTGTACACACGATACATAGCCCCATACGTGAGGTTTGCGTTCAC
TTCGAACTAGCCTCGGCCGATGCTCGTGCAACGTACGCGCCAAAGTACGA
AACTCGCAAGCACATAATGTAGTCGTGATCCCTCTGTCCGACACGGGTAG
TTTTTTCATTCTTCGTCCGCCTCTGTCTCTTTTGTTTCGTTACATTAGCA
AAATAGAGTGTGAACGTGCTGAAGCTTGTTTTCTTCTTTGTTTTGGTGAC
TGCAACATCGCTCAGGTGCTAGCCACGAGACTCATGCGGCAGCTCCTTGC
GCCCCCGGCGCCATCGGTGAACTTTTTCGACACGTTCTCCCTCGGCGAGA
AAATCGGCGCCGGGTCCTTCGGAACGGTGTTCAAGGCAACCCGCTTCGCC
GGCTCCGGCACCACCATCAGCGCCAGCAGCGAGACCCGCACCAGGACCAG
AGCCGTGTTGCCGGCGCCGGCGCCGCCGTCGCCAGAGCAGCAGCAGCTGC
AGCAGCAAGAAGGCGGCTGCTGCAGCGCGCACAGATCAGTCGCGCTTGGG
TGGGACTCGGCGGGAACAGCCGCTAACAGCTGCTTTGCCGTGAAGCGCAT
CAAGAAAGAGGGCTTGTGCGAGAAGAAGCGCTTGGCCGTCATAAACGAGG
TGCTGGGGTCGGGGGTTCGATGGAGGATCCGGAAGCGGGGGTAATGAATC
CAGAAACGAGGAACAGGACGGGAGGGGTAGAGAGGGCGGTGTGTGTGGGG
GGGGTGACGGCGAAGGCTCTCGTTTCCAAAAACAGTGCGCGGGCCCTTCC
GTCGCCTCTCCACGAAGCGGGGTGCCTTAGAGCGATCATCAACGAGGGAG
CGATGAAATACTGTTCTGTTTTTTTTTCGTGATCAAACCTGTGCCTGAAA
CCTAGGCTGGCCTTTCCTGGCTGAAAACAACGAAAACGCACATAGTTTGT
TGATCCATCGTCTCGTCTTCACGAAGCCGAGCGCCCTCGGTCATTCGTCC
ACGAGGGTTGCGAGGGAGCAACGGAATATTGTTCCGATAGTTGCTCATGA
CCAAAACCTGTGGCGGTCGACACCTGGGCTAGCTTTCCTGACTGTAAAAT
TCTCTTCGTGTGTTGATTTGTCGCTTGGGGGGTGGGGGGGTGGGGACGTT
GGGGTACAATACAGGTAAGCGTAATGCGGGACCTGAACCACCCGAACGTG
ATGAGCATCTGCGATTTCTACCCAGACGACCCTCATCACTTCTTCATGGT
GTTGGAGCTCATGGAGGGCGGGGAACTGTTCGGCAGGATCGTGAAAAAGG
TGAAGTCAGCATTTTTTTTTTTGCATGTGTTGGTCTCTTCCTCCTCACTG
GTGACGATATGGATGTTTTAGGCTTTAGATCCACTACAGGGTGAATATTG
AAAAGGACCTGGATAAGACCCCGCGCTCGCACTCAACTCCGCGCCGGCTA
GATCCCTGATGACTCTTTCCAATACGTGGTGCAAAATAAGATCCCGCCGG
CAAACCCGTTGGATTATTGCTTTGAGGGAGAATGTGAAGCGGAACGCGCA
AGGGGGCAAGTCCAGTCGTGACGAGGCCCCCTTCACTCTCCTGCCCCCCT
CTCCTGCCCCATTTCCCCGCTCCGAAGTGATGCGCTCGACCCTGATCTTG
TTGCTTTGGTGCGTACGTACTGGGGTGAGGAGAAAAACTCGCACGCAGGC
ATGGCGATGAAAAACCGGAAAATCCCGCTGCACGTCTGCATTGCTCGTAA
GGTGTAGGGCGGTCAGTCCGGGTGGTACAACCTGCACTGCCCTGGTGTTG
GAGCAGGCTTCGGTAACGAAAAAGATGCGCCCTTCAGTGCTTGTGCGGAC
ACACATTCTCTCTCGCCTGACCGTCGTCCCGGGGGAGGCGGTGCTCGTAT
GTTAGAGACTTGCGACCTGCCAGAACATGCACACGGGAATGGGCAAGGTC
TCTCTTCTCCCCGGTGCTTGAGGGAATGGCTCCGCGCCGGCCAACCAAAT
TTGTAACGCTTTCGCCGCCCGCGGTGCATCGAAAAGATCCGTGAAAATAT
CCGCGGTTCGTCGAAAGATCCGTAAAAGTATCCGTGGTGCGTCGAAACGA
TCCGTTAAAATATCCGCGGTGCGTCGTAAAGATATGTGCAAATACTCGCG
TTGCATCGAGAAGATCCGTGAAAATATCCATTCGTGCCCGTAAAGGCGAG
GAGGGGGAACCGCTATGTTTCCTTCGTTTTTTTCGTTTCGCGCTTCGCGA
TGCACTGTCGCTTTCAATCACTGCTAGACGGCAGAAACTGCGCACTTGTG
TGATCGGCACTTGCTAACACGCCGGCCGGCGGGAATACACCGTTCAGGAG
TACTACAACGAGAAGGAGGCGAGAGACCTCTGCTGTATTCTCCTGCGGGC
CGTCGCGTACATCCACGACCAAGGCATCGTGTGAGACAAAGCAACCTTTG
GTGTCCTCGGTTTTCGCTAGGAATAGACACGCGCTGGTTCTCCGACATGT
CTGTGGTGGAAACGCCAATCTGTTCGGCAGCGAGTTTTTTTTTTGCGTAC
GAGTAGAGATGGAGACGTCGAGCTTAATTCGCTTCCTCCACTGTGAAGAA
AAATCGAAATACATTCGCAAAGAGAACGGACGAAACCTAGCTAACTTTTG
CAGCCAATCCCTGGGAGACGAGCGCCCCCTCGGCGTCTGGTCGCCGCTTC
ACCGGTGCGGCCGAAGAGAATTTATTTTCTCTGTCGTTGTTGTCGTTGTT
GTTGTTATTGTTATTGTTGTTGTTGTTCTCTCGCATAAGCACTTTTCCAG
AAATCTAGAACCCATGGTCACGAAGTCGGGACAATCATGAGAGAAAAAAA
GGTAACTAAACACTCATGCCTGTGTGTGTGCTTGTGTGTATTCGTTTTTG
CTTCCGATGCTACAATCTGCGTCCGTTCCTCAATCAAGACCGAGGCGACC
ATGACGATGCGATCGGCACGGTGTGTAGTGAGTGGGTGGGGTGCGTTATT
GGTGCTTGTTGTTGCACGTGTGTGAAGATGCGGACCTCCTTCGCTCGAGG
AGTGACCGTCCCTTGCTGAATATTTCGGCCCCGTTACAAGAAGGGGTGCG
ATGGGATGTTCGGAGTCCCTTCGGGTCTCCAGAATCGGAAAAAGTTTCCG
CCAAAGTCTTTGAGAAGCATGAAGAACATTGCCCGTGGCGCTAGCGGGGT
AAGTGGCAGCAACCAACGCCCGTCGGATTCGGTTCTACTTTTTTCCCATG
TCTGAATTTCGCGGGAGGAAAATGATGCTTCATGAGGAAAAGCGAAATAA
AAACCTTGGAGAACAACCCCGTCGCCAAGCACCGCTGACTGCTCGCTCGT
CACATACGTTGCAGCGCTTTTGTTTTTATCGGAAGTTCGTTCTTGTTTCC
CTCCTCGGCACGTGTCCTCTTAGGCATCGCGACTTGAAGCCCAAGAACCT
CCTGTTGGCCTGCCCCAGAGACGATACCAGCATACGGATTGCCGACTTTG
GCTTGGCTAGCAGTGTCCGCGACGGCAGCCTGCGAAGCTTTTGCGGGACC
CCCTTCTACCTCGCCCCGGAGATTCTCAAGAACATTCCCTACACGACGGT
AGGAGAACGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGA
GAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAAGGGGAGGGAGGGAGC
GAGGAAgGGAGAGAAAGAGAAAGAAAGAGAGAGCGTTTGCCGGAAATTTA
TCTTGGGGCTCGATCGCTGGATACTTGGCTCGAACAGAAACGTTTGCAGG
CCTTGGCGGCTTGCGAAGCGTCGGGGCGTGTGTTCCAAACGGGGCTGGGT
CTACAGGACAATTAGCGTCGTAATACTTTCGAGCAGTACTTGCGGTCGAT
CGACCTGTTGAATTTACATTCGATGGCGGTACACGACACACAGGGTGCGA
GACGGCATATCGTTTGTTGTCGGGGCCAGACATCATTCGCTGAAAAATTT
GTTCGCCTGTGCCGTGAACCGGAACCCGCACTTGGGATGGGCTACGCAAT
ACCGACTTGGGTGGGAAATCATGCGTATACAGTGTGGTTCGCCACTACGC
ACCCCGGAAACTACCGCGTTCATAGAAGATGTTGGCAAAGCTGCGCAAGG
GCACGCGGTTGTTCCCCTGCCATCTTGGCGGCCCGCCCACTTCCAAGCTT
CCGGTGTGCCGCATTCTTGCAGTCCTCATGCGACAGGGCATCTATCTCCC
GCCCTCGACCAGTCCCCCGGACTGTCCATCATTCGTCCTGCGTGGAACGC
GTCGCCCATTGTCATCATGCCAACGTACTTGTTGACGCTTTCATCCCGCC
CCCGCTTGCCCCCTGACTGTGGCTGTCCCGCCGCCCATCCTCCCCTCGCA
AACGAAGTCCGTGGATATGTGGAGCGTCGGCGTAATTATCTACGTGCTGC
TGGCGGGCTACCTCCCCTTCCGCGACAGAGACCAGAGGAGACTCTTCCGG
TCAATCAGGGCAGGACAGTTTAGGTTCCACGACAAGTACTGGTCGGAGGT
GTCGGAAGAGGCGAAGGTACTTGGAAGGGGGTGCTTGGGAGGGGAGGGCA
CTGCAGTGGAACTATCGGCGTTGTGTGTGCCGTGTATGGGTACTGGCGTA
GTCGCCTGTAGCGGGGAATGGGATCACGGACGAATGGCGAAGGCGTCGTT
CTTCCGTTTTGTTGGCACTGCTATCCGCCATCTTCGCCTCGTGCCTTCTT
CATCTGTTTTTTTTTTTTCCTCTACGCTCGCTGTCGGCAGCCGCGGATTC
GGACCCCTCATATTTTTCAACAGGAGAATGCGAGGGTACGCCCGTGGTAC
TTTTTTTTCGCGAAAAACGAGTTCGAGTCCGTGTGGCTGGGAGTCAGCTA
CTCCTCAACCACCAGGTCAACCGCCATCAAAACCCCCATCCTCTCATCTT
TTTGGTCGCTTGCTTTGCTGTTTCTATTTTCTAAGGACCTGATCAAGCGG
CTGCTGACCGTGGACCCCAAAGCTCGAATCACAGCACGTGAGGCGTGCGA
GCACCCGTGGCTGTCCACCGACGGATCCCAGCTGTCGTCCCACGATCTCA
GCGCCAGTCTCGGAGAGCTCAAGGTCTTCAACGCGACGAGAAAATTCCGC
GCGGCTGGACAGTCGGTGAGAGAACGTTACCCCAACGCTTTGGATATCAG
AAGTAGAGGCTGAGAATAACGCAGGGCACTACGTGGTGTGCGGCGGGAGA
CCAAAGGAACGGATTCACGGGGCTCGAGTCTTATGTCACTCTCGTTTTTC
ACCTCTCAGTACCTCAATCATGTGTTGGCTCATCCAGAGGATTGATGACG
TCGCTCCGTGCGCTGTCTCTTTTGTGCCCAAAGGCGTTGGTAGCTGTGAC
GGTTTTGCAGATTTTTAGTTGTGGTGACGACATTGCCTCTACTTTGATCT
AGTCCGTCCCACGCGAATAGTCGCAACCTTCTCTCGCAGCAGATTTGTGC
AAACAAATGCTGATAAGAACGAAGACACCTCCAAAGATACTTAGGGGATG
GATCGGACCCTTATTGCTCTGGTGAACGTGGAACCAACGTGAAAAGCTTG
CTTGCGACCATGTCAGTAGTGCAGGCGGAACACTTCTCACCGATAGTCTG
ATGGGATGGCGCAACCCCGAGTCGCATCTGCCGGCGGAGCCATCGAGACC
TCGCAGCGGTCCCCGCTACGGGAAAAAATAGGAGCTCTGTGTCATTGCTG
TCGAAGGAAAAAAAACAATACTGGTGGCAGGGATGCGTTTAGCGTTGAAC
ACACCTGCCTCTCAAGAGAGGGGCCATATCACTCCGGCATGATTTGTTGC
GGCCCTTAACCTGACTTTTTTGAAGCAAGTCCAAGTGCATCTTTTGTCAC
GAACCGAGCAAATTTACCTCTCCAGCACCAGAACAACTGCCCCCGTACAT
CATATGCAGAGCATCTCTACACAAACATCGACGATCCCCTCAGCGTGCCT
TGTTTGATTCCCGCTGGCACGCGCCTTGACTGCCGCGGAAATAGGAAGAA
ATGTGCTCGTGTTTTCGTTGCTGTTTCGACCCGTCGCTACTGCGCCACAC
CTGCCCGGCGTCTCGTTGTTCGGGGCATCTCGCAAACCAGGTTTTGGCCT
CACGGGCCCTGGCCAACGGCCTGGGTGAGTAGACGAAGTTAACGCCCTCA
CGCTCGCGGGAAGGTCGAGATCTCTTGCCGTCATCTTTTTTGCTTGCCTG
GCGCAGAGCCCTATGAAGCGGGAAGGATTGATGGAGGGAGGTAATGTGGG
AAGGAAGGAAGGAGGACGGAGAACGGAGAATGCTATGACAGCGCACTTCC
GCGACGAGGCTCACGTTCCATTCGAAAGCGCGGTATTTGTGGACGGATGC
GGCTGCCGTCCCTCTCAGGAATCAAATTTAGTCGCCGCTCGGTGATTGCC
CGGTTGACGGGTGACCAGGCTCACCAGGCAGATCGGTAACTCCTCCTCGA
GGTCCGGCCGCTGTGATGTCCTCCAAGGAACTGTTGCTTGTGACCGGGTG
CTTCTTGCGTGACCGCATTGGTGAATGAACAGCAGCAGTAGCGAGCCTTT
TGCCTGGGAGCCGAGGGGGAGCATAAGTAGGGCAACGGCCGAGGGGTTGG
GTGGTCGCCTCTGTCTCCTCGATTCCCTGCCTATGTCTTCAACCCTTAGC
CTTACAGAGGCCTTCCCCAAAGCCGCTGCGGCCGCCTACCTTCCGACTTA
CCCAATGGAGCCATTCTCAGCGTTTCTAATGCTCCCCCATTGGAGGACGA
CGTGATGCTGGCCGGGCGCAACCAAAACTGTGCCGGGTTTCGAATGAAAC
CTCACGTCCCGTGCGATCACGCCAAGATATATATTAGGGGTCGTTTTGGT
GTGTTCCTCTGAGGACACGGGGGTTGGTTAATATTTTTCCTTGAAGGGGA
AGGGGGTAAGGGGGTCGATATAATATTTTCACTTGAAGTTTACGGGGAGA
GAGCTGATTTGTTGCATTCCCTTGAGCTGAAGGCCAGGGGCAGAAGGTAG
GCGTCCATAGCATTTTCATTTGTATATTGTCTTCATGCGGTCTATATTCT
CTCTCTTTTTGGGCCATGCCGGGACGCATTGCCGGATAGTGAGGTTATCC
AATGTACGGGGAGGGATGGGCGGCGTTTATCGACCACCTGAGACACTTGA
AGATAAACTGGTTGGTCCACGATGTTGCCACCCCTTTCGCGGGTCAGAAA
AAGGCATCAAACGCGTGTAGATTGCCTTGCTTCGAGGCAGACCGGTGTAA
CCAGCACACACCCGCTTGTTTTGAAACACGCCAAACCAACGTTTTTTGTA
TCAGCCCGGCCTGAGGCGGGTGTCATGACGTAGATGCAAAGCAGATGCGG
AAAAATCTGCGTACCACTCCCACACGGAGGCATGGTCAGTGAGCTCTGTG
CTGTTCTTCGCCAGGAGTTGCTCGATTTAAAGATTCATTTGCAGAGGTGG
AAGAGGATAAGTTGTGTCGCTCACGACTACCGTGGATCGATAGTATCAGT
AGATTTTGGGATACCCAGAAGGTAGTACAGGCCGGGAAAATAGTGGTGCG
TTTGTTTGCCGTCGTTGTTACACCTTGGATATTCGATCGATAGTGCTTGG
TGTTGTTTTCGGTCTGCTCATCTCCCAGTTGGAAAGGCTCGCAGTTTCTC
TGTTCTACGCGTAACCGTATCGGCCGACGGGAAGGTCGGTCGGAATCAAA
CGATTTTGTTTCCTGCCGACCAGATTCGGTGTTGTCGTTGGCGCCGGAAG
TAGTGTGCTATACCCTTCTTTGTTTGTTTCGTTTTGTTTCTTCTTCATCT
TGCCTCCCGCTCGATCAGCCGTGCTTTCGTTCTTCATTTTACTATTTTTT
TGTTTTGAAGTCGTGTGCTGAGCTCATGTACGTACTTTCGGTTGCTTCAG
CCGCACTTCTGTGTCAGGCGAATGAAATATATTTATTTGACGATTTCAAG
TGAGGTGAGACGTCTTGAGGGAAAGGTAATTTTTTCGCAAGCTGGAAGCG
TGGCAAGGATAGAAGATCCACTTATCGTCTCAAGTACATTGGAATGAATG
ATGGCCGGTGATAGCTCGAGAGAAGGCAGTCCGGGGGCATGATAATGCTT
GACTACCTCCGCTTCTTTAGGCTGTTTACTTCCGCTCGCTGGGCTGGGCA
CAACCAAGCAGAGTGCGCAACCTTTAGCGTCCATGAATGCAGCACAGAGA
AGGAAACGGCAAGAGTCTAAGGATCGAGCGTCGTGTAATTTCACTCCCAC
CCGGTCGCAGAGTGAAATTGTCACAGCCTCCGAAGGCACCACAAAGCAGC
ACGGAGTCGAATGGCTCCTCTCACTCTTTGTGTCGAGTCAGATGGTGGGA
GGTGCTGCACCTAGTAATGTCCTCCTGCTTGTCGTCCGCAGCGATATGTG
TGTGTGGCTCCTCGCCGGTCGGATGGTTTGGGTTTCGAGCTTTGAGGGGG
TCGGCGGACATGAAAAGTTGAGCGAAGAGGGCACTTGAAAGTGCGATAAG
GTGTGTGGA
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Coding sequence (CDS) from alignment at P-fluviatile_contig10:2676293..2693701+

>mRNA_P-fluviatile_contig10.824.1 ID=mRNA_P-fluviatile_contig10.824.1|Name=mRNA_P-fluviatile_contig10.824.1|organism=Porterinema fluviatile SAG_2381|type=CDS|length=4764bp|location=Sequence derived from alignment at P-fluviatile_contig10:2676293..2693701+ (Porterinema fluviatile SAG_2381)
ATGGCCAAGAAGATCAAACACATGATGGCCAAGAAGATCAAACACATGGT
TCGTCGAGGCAAGGAGGCGGCGACTTGTCTCCTGTACAAGAACGATGATG
ATGATGGCAGCCCAGATGGAATCGACGACAAAGGTTCGTCGAGGCAAGGA
GGCGGCGACTTGTCTCCTGTACAAGAACGATGATGATGATGGCAGCCCAG
ATGGAATCGACGACAAAGACTTCTATCTGTCGTTCAGCTTAGGCGACAAG
GTCACGCAGGGGTCGGCGACGAACCTCTTCAGCGCCACGGCCAAGGTCAG
GAGGAAGCAACCCAGCGGGACAGCGGAGGAACGAGAAGACGGGAACACAC
ACAGTGCCCCCAAATCGTACGTCGTCAAGCGAGTTCGGAAGTGGCGGCTG
GAGGAACAGAAGAAGCAGGACCTGTTTCGTGAGACTTCTATCTGTCGTTC
AGCTTAGGCGACAAGGTCACGCAGGGGTCGGCGACGAACCTCTTCAGCGC
CACGGCCAAGGTCAGGAGGAAGCAACCCAGCGGGACAGCGGAGGAACGAG
AAGACGGGAACACACACAGTGCCCCCAAATCGTACGTCGTCAAGCGAGTT
CGGAAGTGGCGGCTGGAGGAACAGAAGAAGCAGGACCTGTTTCGTGAGGT
CGACATCCTTCGTCGATTCGTGGACCACCCGAACGTTGTGAGGGTCCACC
GCTTCTACCGCAATGATCCCGTCCACTACTACTTGGTGCTGGAGCCTCTG
GCCGGGGGCGAGCTGTTCGACCGCATCGTCAAGAAGGTCGACATCCTTCG
TCGATTCGTGGACCACCCGAACGTTGTGAGGGTCCACCGCTTCTACCGCA
ATGATCCCGTCCACTACTACTTGGTGCTGGAGCCTCTGGCCGGGGGCGAG
CTGTTCGACCGCATCGTCAAGAAGGATAATTACACTGAGAAAGAAGCGAG
AGACGTGTGCAAGGTTTTGGTCCAAGTCATCTGCGACCTCCACGACAGAG
ACATTGATAATTACACTGAGAAAGAAGCGAGAGACGTGTGCAAGGTTTTG
GTCCAAGTCATCTGCGACCTCCACGACAGAGACATTGTGCACCGGGACCT
GAAGCCGGCCAGCATCCTGATGGTCTCGGCAACGGAGGAAAACGTGCGCA
CAACCGCCACCACCACGACCACGAAGACAGTCGTCAACACCACCGCCACC
GCCACCGTCACCACTACCACGGTCTCCACCAGTACGATCGTCACCACATA
CAACGCCAGCAGCAGCTGCAGTAGCCTGAAGCTCACCGACTTCGACCTGG
CTCGCTCCGTGGTTGACGGCCCGGTGGAGGGCGACGCCGGGCTGGGCGAG
TTCACGGGGCCGGACGAGTTCAAGGCGCCGGAGATGCTCCTGGGCAAGAG
TCACGGCAGGGTGCACCGGGACCTGAAGCCGGCCAGCATCCTGATGGTCT
CGGCAACGGAGGAAAACGTGCGCACAACCGCCACCACCACGACCACGAAG
ACAGTCGTCAACACCACCGCCACCGCCACCGTCACCACTACCACGGTCTC
CACCAGTACGATCGTCACCACATACAACGCCAGCAGCAGCTGCAGTAGCC
TGAAGCTCACCGACTTCGACCTGGCTCGCTCCGTGGTTGACGGCCCGGTG
GAGGGCGACGCCGGGCTGGGCGAGTTCACGGGGCCGGACGAGTTCAAGGC
GCCGGAGATGCTCCTGGGCAAGAGTCACGGCAGGCCTGTGGACATGTGGA
GCCTCGGGTGCCTGATCTACTTCCTCCTCTGCGGGAAGCATCCGTTCGCC
CACCCCGACCCGATTAGAATGTACCTCAGGGCGGCGGCGCGCGAATGCGA
GTTCCAGGCGGGTCAATGGAGGGACATTTCGGAGGTTGCGAAGGCAAGGT
GTAAGCCTGTGGACATGTGGAGCCTCGGGTGCCTGATCTACTTCCTCCTC
TGCGGGAAGCATCCGTTCGCCCACCCCGACCCGATTAGAATGTACCTCAG
GGCGGCGGCGCGCGAATGCGAGTTCCAGGCGGGTCAATGGAGGGACATTT
CGGAGGTTGCGAAGGCAAGGTGTAAGAATTTTGTTCGGCAGCTCCTGACG
GTGGACCCCAAACTCCGGATGACGGCCAGTCAAGCTAAAAGCCATGCCTG
GCTACACGCGGACGGACAAAGCTTGGAGGCACACGACCTCCGCAGCAGCT
TGGAACAGCTCAAGATCTCAAACACGAAGCGGAAGTTTCGAGCAGCAGTA
AAGACGAATTTTGTTCGGCAGCTCCTGACGGTGGACCCCAAACTCCGGAT
GACGGCCAGTCAAGCTAAAAGCCATGCCTGGCTACACGCGGACGGACAAA
GCTTGGAGGCACACGACCTCCGCAGCAGCTTGGAACAGCTCAAGATCTCA
AACACGAAGCGGAAGTTTCGAGCAGCAGTAAAGACGGTGCTAGCCACGAG
ACTCATGCGGCAGCTCCTTGCGCCCCCGGCGCCATCGGTGAACTTTTTCG
ACACGTTCTCCCTCGGCGAGAAAATCGGCGCCGGGTCCTTCGGAACGGTG
TTCAAGGCAACCCGCTTCGCCGGCTCCGGCACCACCATCAGCGCCAGCAG
CGAGACCCGCACCAGGACCAGAGCCGTGTTGCCGGCGCCGGCGCCGCCGT
CGCCAGAGCAGCAGCAGCTGCAGCAGCAAGAAGGCGGCTGCTGCAGCGCG
CACAGATCAGTCGCGCTTGGGTGGGACTCGGCGGGAACAGCCGCTAACAG
CTGCTTTGCCGTGAAGCGCATCAAGAAAGAGGGCTTGTGCGAGAAGAAGC
GCTTGGCCGTCATAAACGAGGTGCTAGCCACGAGACTCATGCGGCAGCTC
CTTGCGCCCCCGGCGCCATCGGTGAACTTTTTCGACACGTTCTCCCTCGG
CGAGAAAATCGGCGCCGGGTCCTTCGGAACGGTGTTCAAGGCAACCCGCT
TCGCCGGCTCCGGCACCACCATCAGCGCCAGCAGCGAGACCCGCACCAGG
ACCAGAGCCGTGTTGCCGGCGCCGGCGCCGCCGTCGCCAGAGCAGCAGCA
GCTGCAGCAGCAAGAAGGCGGCTGCTGCAGCGCGCACAGATCAGTCGCGC
TTGGGTGGGACTCGGCGGGAACAGCCGCTAACAGCTGCTTTGCCGTGAAG
CGCATCAAGAAAGAGGGCTTGTGCGAGAAGAAGCGCTTGGCCGTCATAAA
CGAGGTAAGCGTAATGCGGGACCTGAACCACCCGAACGTGATGAGCATCT
GCGATTTCTACCCAGACGACCCTCATCACTTCTTCATGGTGTTGGAGCTC
ATGGAGGGCGGGGAACTGTTCGGCAGGATCGTGAAAAAGGTAAGCGTAAT
GCGGGACCTGAACCACCCGAACGTGATGAGCATCTGCGATTTCTACCCAG
ACGACCCTCATCACTTCTTCATGGTGTTGGAGCTCATGGAGGGCGGGGAA
CTGTTCGGCAGGATCGTGAAAAAGGAGTACTACAACGAGAAGGAGGCGAG
AGACCTCTGCTGTATTCTCCTGCGGGCCGTCGCGTACATCCACGACCAAG
GCATCGTGAGTACTACAACGAGAAGGAGGCGAGAGACCTCTGCTGTATTC
TCCTGCGGGCCGTCGCGTACATCCACGACCAAGGCATCGTGCATCGCGAC
TTGAAGCCCAAGAACCTCCTGTTGGCCTGCCCCAGAGACGATACCAGCAT
ACGGATTGCCGACTTTGGCTTGGCTAGCAGTGTCCGCGACGGCAGCCTGC
GAAGCTTTTGCGGGACCCCCTTCTACCTCGCCCCGGAGATTCTCAAGAAC
ATTCCCTACACGACGGCATCGCGACTTGAAGCCCAAGAACCTCCTGTTGG
CCTGCCCCAGAGACGATACCAGCATACGGATTGCCGACTTTGGCTTGGCT
AGCAGTGTCCGCGACGGCAGCCTGCGAAGCTTTTGCGGGACCCCCTTCTA
CCTCGCCCCGGAGATTCTCAAGAACATTCCCTACACGACGTCCGTGGATA
TGTGGAGCGTCGGCGTAATTATCTACGTGCTGCTGGCGGGCTACCTCCCC
TTCCGCGACAGAGACCAGAGGAGACTCTTCCGGTCAATCAGGGCAGGACA
GTTTAGGTTCCACGACAAGTACTGGTCGGAGGTGTCGGAAGAGGCGAAGT
CCGTGGATATGTGGAGCGTCGGCGTAATTATCTACGTGCTGCTGGCGGGC
TACCTCCCCTTCCGCGACAGAGACCAGAGGAGACTCTTCCGGTCAATCAG
GGCAGGACAGTTTAGGTTCCACGACAAGTACTGGTCGGAGGTGTCGGAAG
AGGCGAAGGACCTGATCAAGCGGCTGCTGACCGTGGACCCCAAAGCTCGA
ATCACAGCACGTGAGGCGTGCGAGCACCCGTGGCTGTCCACCGACGGATC
CCAGCTGTCGTCCCACGATCTCAGCGCCAGTCTCGGAGAGCTCAAGGTCT
TCAACGCGACGAGAAAATTCCGCGCGGCTGGACAGTCGGTGAGAGAACGT
TACCCCAACGCTTTGGATATCAGAAGTAGAGGCTGAGACCTGATCAAGCG
GCTGCTGACCGTGGACCCCAAAGCTCGAATCACAGCACGTGAGGCGTGCG
AGCACCCGTGGCTGTCCACCGACGGATCCCAGCTGTCGTCCCACGATCTC
AGCGCCAGTCTCGGAGAGCTCAAGGTCTTCAACGCGACGAGAAAATTCCG
CGCGGCTGGACAGTCGGTGAGAGAACGTTACCCCAACGCTTTGGATATCA
GAAGTAGAGGCTGA
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