mRNA_P-fluviatile_contig10.920.1 (mRNA) Porterinema fluviatile SAG_2381

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

Overview


Name	mRNA_P-fluviatile_contig10.920.1
Unique Name	mRNA_P-fluviatile_contig10.920.1
Type	mRNA
Organism	Porterinema fluviatile SAG_2381 (Porterinema fluviatile SAG_2381)

Homology

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BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot
Match: A0A6H5KGL5_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5KGL5_9PHAE)

HSP 1 Score: 446 bits (1147), Expect = 1.180e-125
Identity = 440/1404 (31.34%), Postives = 542/1404 (38.60%), Query Frame = 3

Query:  573 GGVQRPEECNAMHRRWGAKV--GGARKGSERQCTDRAGMGLLAVALAHNMVEVWDWTTSSHPSRIHRAQGGDPCLLYHARLWGRTIDELRVAAGTVFNQVLVWSPGRGQGQLAPNVMRREDGTAAGLEARGS-RVRRAEDEINSLPMWSCGVLRLKGHEGVIFRVAWREDGRRLASASDDRTVRVWDLACDSGGGGDXXXXXXXXXXXXESKEGIC--------------------GGRLLWTGWGHASRVWDVEFTRIGVVTCGEDGSAILWHEKLEFRGNADTGEIAGARPTPATQGVAASTPPTSSSRTEAEPTSVTAAIPQGGD-------------------------QRDAGQLVPAAVMRGHSGVNVWRLAVHEFTSPRIS----GGGAKRGAAASESTQGDRMDDRRGLTLMATGGNDGTCKLWNLESERACGRKQVGEKRSNWPFWGQTEAIP-------IGTTAAGSIGKSAAAATQIKPTVVRAVRLAREARGAAVL--------------------------------------------------------------------------------------------------------LADGSMWWVADLEVGTWERVTVT------LPADDAAVAARVAAEELLVSPGVSAIAVVGPPRQSDATEDSASGRDRSEEFLEGKTKSNSNGFAIIAGRDDGWLFVVTQGPPTLPAVVKGTNLT----------------------------------------GVESRSDSDGQSFDLPPQPWRVSAAWKGHRSRVTAVWAVGDA----AKRRLRRTPTGVSHA-----------FTAALDTSRLCASPSRGERGGSMFDGA--LVSAGSDGSVAWWEW------------AFVEDGAPGGACGHPCGRKSTMLEARARMACGIGPGTATSSVAIDDRR-QRCH-----PSVRK---TQPGGEET-------------KEFADAVGPPEGTDDLPSARAVVFCGDTKGNIHCFLEQLRASGKEQGVP----------------------AESSANGGLGEAMPPCLVLKRQHGKDQIS------------------------QLALRGNCLFSAGHDGQVNQYLVTYSASSSSAPVD------------------------------------------------------------------------------------------------LTIMTTYATAPITAVSEMWLGTDRYVDGTRGYGEAGLDPTARGSTVN------VRLAVAGRSGSSRISVWDLTEARQILE--------------LECGERHLAQDLLLSWPTSARDQKGAGSSSTVATLPEWSDATNRDTIDRKRPSHVGRVASTAPPL 3518
            GGV+R     A+ R+   K   GG R+G      +RAG+G++AVALAHN VEVWDW   + P RIH+AQGGDPCLLYHARLWGR + ELRVAAGT FNQVLVW P + +    P  + R+ G   G   +G  +    E     LP     +LRLKGHEGVIFRVAWREDG RL SASDDRTVRVWD+     GG  XXXXXX        KE                       GGRL+WTGWGH SRVWDV F  +G+V+CGEDG+AILW EK +F G+                   A+  P +++     P S T                                 +R  GQLVP A +RGHSG +VWRLAVH+F     +    GGG+  GA A     G   +  R LTL+ATGGND  CKLW+L  E +C   + G  R +   WG+T  +P       + T  AG  GK AAAAT       R +  A  A  A VL                                                                                                        L DGS+WWV+DL VG+W+ VT        LPA          AE +L S GVSAIAVVG                                                                                                          +   D  G+       PWRV AAW+GHRSRVTA+WAVGDA       R   TP G   A           FTAALDTSRL  SP               LVS GSDG+VAWWEW            + V++         P      +   + RM C   PG A +SVAIDDRR Q C       S+RK   ++ G +E+              +    +G     +   +ARAVVFCGDTKGNI CFLE+       Q +P                      AE SA   LG+ + PCLVLKRQHGKDQ++                        + A  G C  +A     V+  + T     +S  +                                                                                                 L+I+TTYATAP+T+VS++W+ +D    G+ G G A      RG+ +       VRLAVAGRSGSSR+SVWD+ E RQ+LE              LECG+R+LAQDL L WP SA    G+                  D   R+R  HV   A+TA PL
Sbjct:  155 GGVRR---IGAVPRQGARKEVDGGRRRG------ERAGVGMVAVALAHNSVEVWDWAGQARPLRIHQAQGGDPCLLYHARLWGRALGELRVAAGTAFNQVLVWCPSQAK-NFGPEGVHRKGGEGHGTVGQGDGKPGDPEGVPPCLPGGGVDLLRLKGHEGVIFRVAWREDGTRLVSASDDRTVRVWDVERRCEGGSGXXXXXXENSGEGNGKEXXXXXXXXXXGKTAAREEEGRDGGGRLVWTGWGHTSRVWDVGFASLGIVSCGEDGTAILWREKRDFGGDHS-----------------AAIAPYNATAPHVGPPSTTXXXXXXXXXXXXXXXXXXXXXXXXXXXXLATLRKRRQGQLVPVATLRGHSGASVWRLAVHDFPPHSAATSGCGGGSSAGAFAGG---GFGHESGRALTLLATGGNDAVCKLWDLGFEASC---EKGGTRHD-ALWGETPTVPADRHAAAVLTPQAGGEGKGAAAATVKAHEDGRLLSAAAVAASAPVLPADKTEFQHRSAAXXXXXXXXXXGERGSNKPTEQSTDAXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEIRLXXXXXXXXXXXXXXLGDGSVWWVSDLAVGSWQEVTTAAKGGMLLPA----------AEGVLPSDGVSAIAVVGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGEPNHAPDRATDHGEDKVGRGGSSSTGPWRVGAAWRGHRSRVTAIWAVGDADHDSGGSRSTSTPIGREGAGXXXXGRCQGFFTAALDTSRLHTSPXXXXXXXXXXXXXXXLVSVGSDGTVAWWEWGGEGGRADEAGRSEVDEREHAAGGSEPRSGGMGIRPPKLRMVCRAEPGAAVTSVAIDDRRRQLCRRRPRPSSLRKKNSSRRGRDESVGGKAKLEPNTSDNDARGKIGKTPPAEVAAAARAVVFCGDTKGNIRCFLEEXXXXXXXQPLPCVGLDGGXXXXXXXGEAALERGAEPSA---LGQGVAPCLVLKRQHGKDQVNHYFISYCYPLPSSPDPVSPSSERRRCAASGGCGVAASSTPPVSA-VGTDDGDDASLEIQRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXHFIDSCXXXXXXXXXXXXXXXXXXXVMLSIVTTYATAPVTSVSDLWVTSDG--GGSCGDGVARNGQGGRGARIGAGVGGGVRLAVAGRSGSSRMSVWDIAEGRQLLEVWRVVQVKIVGGFELECGDRNLAQDLFLVWPRSATGFPGS------------------DAPFRRRADHVS--ATTAVPL 1488

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BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot
Match: D8LMQ4_ECTSI (Nucleotide binding protein, putative n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LMQ4_ECTSI)

HSP 1 Score: 433 bits (1114), Expect = 3.850e-122
Identity = 394/1257 (31.34%), Postives = 491/1257 (39.06%), Query Frame = 3

Query:  633 GGARKGSERQCTDRAGMGLLAVALAHNMVEVWDWTTSSHPSRIHRAQGGDPCLLYHARLWGRTIDELRVAAGTVFNQVLVWSPGRGQGQLAPNVMRREDGTAAGLEARGSRVRRAEDEINS-LPMWSCGVLRLKGHEGVIFRVAWREDGRRLASASDDRTVRVWDLACDSGG------------------------------------------------------------GGDXXXXXXXXXXXXES-------KEGIC---------------------------------GGRLLWTGWGHASRVWDVEFTRIGVVTCGEDGSAILWHEKLEFRGNADTGEIAGARPTPATQGVAASTPPTSSSRTEAEPTSVTAAIPQGGDQRDAGQLVPAAVMRGHSGVNVWRLAVHEFTSPRISGGGAKRGAAASEST-QGDRMDDRRGLTLMATGGNDGTCKLWNLESERACGRKQVGEKRSNWPFWGQTEAIPIGTTAAGSIGKSAAAATQIKPTVVRAVRLAREARGAAVLLADGSMWWVADLEVGTWERVTVTLPADDAAVAARV-----------------------------------------------------------------------------------------AAEELLVSPGVSAIAVVGPPR-------QSDATEDSASGRDRSEEFLEGKTKSNSNGFAIIAGRDDGWLFVVTQGPPTLPAVVKG----------------------------TNLTGVESRSDSD---GQSFDLPPQPWRVSAAWKGHRSRVTAVWAVGDA----AKRRLRRTPTGVSHA-------------FTAALDTSRLCASPSRGERGGSMFDGALVSAGSDGSVAWWEW------------AFVEDGAPGGACGHPCGRKSTMLEARARMACGIGPGTATSSVAIDDR---------------------------RQRCHPSVRKTQPGGEETKEFADAVGPPEGTDDLPSARAVVFCGDTKGNIHCFLEQLRASGKEQGVPAESSANGG-------------LGEAMPPCLVLKRQHGKDQISQLALRGNCLFSAGHDGQVNQYLVTYSASSSSAPVDLTIMTTYATAPITAVSEMWLGT------------------------DRYVD------GTRGYGEAGLDPTARGSTV------NVRLAVAGRSGSSRISVWDLTEARQILELECGERHLAQDLLLSWPTSARDQKGA 3401
            GG R+G      +RAG+G++AVALAH  VEVW+W   + P RIHRAQGGDPCLLYHARLWGR + ELRVAAGT FNQVLVWSPG+      P  +RR+ G   G   +G       +E+   LP     VLRLKGHEGVIF     EDG RL SAS+DRTVRVWD+     G                                                            G +            +        KE +                                  GGRL+WTGWGHASRVWDV F  +GVV+CGEDG+AILW EK +F G+                   A+  P +++     P S           +  GQLVP A +RGHSG +VWRLAVH+F     +  G   G++A  +  +G   + RR LTL+ATGGND +CKLW+L  E +C R  +     +   WG+T  +P    AA                                                        LPAD+  +  R                                                                                          AAE  L   GVSAIAVVG  R        S+AT                                                                                +N     +    +   G+    P  PWRV AAW+GHRSRVTA+WAVGDA       R   TP G                 FTAALDTSRL  S   G     +F GALVSAG+DG+VAWWEW            + V++         P      +   + RM C   PG A +SVAIDDR                           R+       + +P   +  +    VG     +   +ARAVVFCGDTKGNI CFLE+ +   +++  P      GG             LG+ + PCLVLKRQHGKDQIS++AL G CLFSAGHDGQVN Y+++YS    S+P            P++  SE   GT                        D +++      G+ G G A      RG+         VRLAVAGRSGSSR+SVWD+TE RQ+LELECG+RHLAQDL LSWP SA    G+
Sbjct:  171 GGRRRG------ERAGVGMVAVALAHTSVEVWNWAGQARPLRIHRAQGGDPCLLYHARLWGRALGELRVAAGTAFNQVLVWSPGQPT-NFVPEGVRRKGGEGHGTVGQGDGNPGDPEEVPPCLPGRGVDVLRLKGHEGVIFS----EDGMRLGSASEDRTVRVWDVESPCEGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDQAVTVGKRTHAETVIGSNAVSVSYAAVEVAKKIFGNVSGKEIVVVGXXXXXXXXXXXXXXXXXXXXXXXXXXXGRDGGGRLVWTGWGHASRVWDVGFASLGVVSCGEDGTAILWREKRDFGGDHS-----------------AAIAPCNATAPHVGPPSXXXXXXXXXXXKQ-GQLVPVATLRGHSGASVWRLAVHDFPPHSAAMSGCGGGSSADANAGRGSGHESRRALTLLATGGNDASCKLWDLGFEASCERGGI----RHGALWGETPTVPADRHAAXXXXXX----------------XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXAPVLPADETELQHRSXXXXXXXXXXXXXXXXXXXRGSNKXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEGGKLLPAAEGFLSCDGVSAIAVVGGRRLPGQRGSPSEATXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSNHAPYRATDHGEYDAGRGGPFPTGPWRVGAAWRGHRSRVTAIWAVGDADHDGGGSRSPSTPLGXXXXXXXXXXXXRCQFFFTAALDTSRLRTSSGAG----GIFSGALVSAGADGTVAWWEWGGEGGRADEAGRSGVDEREHAAGGSEPRSGGMGIRPPKLRMVCQAEPGAAVTSVAIDDRXXXXXXXXXXXXXXXXXXXXXXXXXXDREERVVGKAELEPNTPDD-DARGKVGRTPPAEVAAAARAVVFCGDTKGNIRCFLEEDKE--EDEPSPCVGLDGGGGEAAYERGVEPRALGQGVAPCLVLKRQHGKDQISRMALWGGCLFSAGHDGQVNHYVISYSYPLPSSP-----------DPVSPSSERRRGTASGGCGVAXXXXXXXXXXXXXXXXDAFLEIQGDGGGSCGDGVAHNGKGDRGARSVAGVGGGVRLAVAGRSGSSRMSVWDITEGRQLLELECGDRHLAQDLFLSWPRSATGFPGS 1360

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BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot
Match: D7FVQ9_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FVQ9_ECTSI)

HSP 1 Score: 117 bits (292), Expect = 9.380e-26
Identity = 77/153 (50.33%), Postives = 93/153 (60.78%), Query Frame = 3

Query: 4953 APGGRPMLCLEYAQVRSSGSHDTD---VCLIVTGDTGGMVTVWEFIPEGGGGGIFPSKDEESLRCAASEVREGFVHRGPAGKRRGGNGTGGGTGRTARGPPRSFPGLVPILEYRAHQMGVLCIAVHADP-ERRRMVIITGGDDQAISVAEVEL 5399
            A G RP+LCL +A+V  S +H      + LI TGDTGG VTVW+F     G          +L     E    FV+RGPAG+RRGG    G  G  A  PP     LVP+LEYRAHQMGVLC+AVH    ER R+V++TGGDDQAI VAE+E+
Sbjct:    2 AAGKRPVLCLAHARVWPSATHQQQHEVLDLIATGDTGGTVTVWQFY----GXXXXXXXXXSTLPSDHGE----FVYRGPAGRRRGGAARTGPEGAAA--PP--CHALVPVLEYRAHQMGVLCMAVHVPAGERGRVVVVTGGDDQAICVAELEV 142

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BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot
Match: A0A067BPX5_SAPPC (Uncharacterized protein n=2 Tax=Saprolegnia TaxID=4769 RepID=A0A067BPX5_SAPPC)

HSP 1 Score: 122 bits (307), Expect = 2.550e-24
Identity = 72/212 (33.96%), Postives = 104/212 (49.06%), Query Frame = 3

Query:  687 LLAVALAHNMVEVWDWTTSSHPSRIHRAQGGDPCLLYHARLWGRTIDELRVAAGTVFNQVLVWSPGRGQGQLAPNVMRREDGTAAGLEARGSRVRRAEDEINSLPMWSCGVLRLKGHEGVIFRVAWREDGRRLASASDDRTVRVWDLACDSGGGGDXXXXXXXXXXXXESKEGICGGRLLWTGWGHASRVWDVEFTRIGVVTCGEDGSAILW 1322
            L+AV +AHN V VW+ TT +    +H  +  +  +LY   L+GR++D L VAAGTVF  +L+W+P    GQ                                       V RL  H+GV+F++ W +DG+RLAS SDDR+V++W     + GG              ES         ++ GWGH +R+WDV+FT +G+VT  ED +  LW
Sbjct:  120 LVAVGMAHNFVHVWNPTTDTI---VHSVRCSERSILYAMGLYGRSLDSLVVAAGTVFQHILLWNPMGDDGQP--------------------------------------VQRLHQHDGVLFKLQWSDDGQRLASVSDDRSVQLW-----ANGGTGVTSPATTLSRPFES---------IFRGWGHTARIWDVKFTSLGLVTASEDATCKLW 276

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BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot
Match: A0A3R7YE74_9STRA (Uncharacterized protein n=3 Tax=Peronospora effusa TaxID=542832 RepID=A0A3R7YE74_9STRA)

HSP 1 Score: 121 bits (303), Expect = 1.070e-23
Identity = 73/212 (34.43%), Postives = 100/212 (47.17%), Query Frame = 3

Query:  687 LLAVALAHNMVEVWDWTTSSHPSRIHRAQGGDPCLLYHARLWGRTIDELRVAAGTVFNQVLVWSPGRGQGQLAPNVMRREDGTAAGLEARGSRVRRAEDEINSLPMWSCGVLRLKGHEGVIFRVAWREDGRRLASASDDRTVRVWDLACDSGGGGDXXXXXXXXXXXXESKEGICGGRLLWTGWGHASRVWDVEFTRIGVVTCGEDGSAILW 1322
            L+AV LAHN V++WD  T      +   Q  + C+LY     GR++DEL VA+GTVF Q+L+W+P                                E+ +  +      V RL  H+GVIF++AW  D R LAS SDDRTV++W     S  G                +   C    ++  WGH++R+WDV F   GVVT  EDG + LW
Sbjct:  131 LVAVGLAHNFVQIWDPVTRDI---LRSVQCAERCILYALAFHGRSLDELVVASGTVFQQILLWNP-------------------------------MENALKDVNTAIEPVQRLHAHDGVIFKLAWSSDARSLASVSDDRTVQLW-----SNNGNIKVDLLHLSRTLNRDELLQCEYSPVFRAWGHSARIWDVSFWERGVVTVSEDGLSKLW 303

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BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot
Match: H3GJ35_PHYRM (Uncharacterized protein n=1 Tax=Phytophthora ramorum TaxID=164328 RepID=H3GJ35_PHYRM)

HSP 1 Score: 113 bits (283), Expect = 8.770e-23
Identity = 77/221 (34.84%), Postives = 103/221 (46.61%), Query Frame = 3

Query:  687 LLAVALAHNMVEVWDWTTSSHPSRIHRAQGGDPCLLYHARLWGRTIDELRVAAGTVFNQVLVWSPGRGQGQLAPNVMRREDGTAAGLEARGSRVRRAEDEINSLPMWSCGVLRLKGHEGVIFRVAWREDGRRLASASDDRTVRVWDLACDSGGGGDXXXXXXXXXXXXESKEGICGGRLLWTGWGHASRVWDVEFTRIGVVTCGEDGSAILWHEKLEFRGN 1349
            L+AV LAHN+V++WD                + C+LY     GR++DEL VA+GTVF Q+L+W+P    G   PN                S V  A+              RL  H+GV+F++AW  D R LAS SDDRTV++W    ++G                E  EG      ++  WGH +R+WDV F   GV T  EDG   LW    +F GN
Sbjct:  134 LVAVGLAHNLVQIWD-------------PCAERCILYALAFHGRSLDELVVASGTVFQQILLWNP-MDNGSEEPN----------------SAVEPAQ--------------RLHAHDGVLFKLAWSSDARSLASVSDDRTVQLWS---NNGKTTAEQLNLSRTLNRAELLEGEYS--PVFRSWGHTARIWDVSFWECGVATASEDGLCKLW----DFDGN 301

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BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot
Match: A0A225X495_9STRA (Uncharacterized protein n=1 Tax=Phytophthora megakarya TaxID=4795 RepID=A0A225X495_9STRA)

HSP 1 Score: 117 bits (293), Expect = 1.850e-22
Identity = 72/212 (33.96%), Postives = 98/212 (46.23%), Query Frame = 3

Query:  687 LLAVALAHNMVEVWDWTTSSHPSRIHRAQGGDPCLLYHARLWGRTIDELRVAAGTVFNQVLVWSPGRGQGQLAPNVMRREDGTAAGLEARGSRVRRAEDEINSLPMWSCGVLRLKGHEGVIFRVAWREDGRRLASASDDRTVRVWDLACDSGGGGDXXXXXXXXXXXXESKEGICGGRLLWTGWGHASRVWDVEFTRIGVVTCGEDGSAILW 1322
            L AV LAHN V++WD         +H  Q  + C+LY     GR++DEL VA+GTVF Q+L+W+P                     +E  G  +  A +             RL  H+GV+F++AW  D R LAS SDDRTV++W     S  G               ++        ++  WGH +R+WDV F   GVVT  EDG   LW
Sbjct:   59 LAAVGLAHNFVQIWDPVAKDV---LHSVQCAERCILYALAFHGRSLDELVVASGTVFQQILLWNP---------------------MENGGDAMNAAVEPTQ----------RLHAHDGVLFKLAWSSDSRSLASVSDDRTVQLW-----SNNGKTTKQQLHLTRTATRAELLATEYSPVFRAWGHTARIWDVSFWDGGVVTASEDGLCKLW 231

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BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot
Match: A0A484DQN5_BRELC (Uncharacterized protein n=1 Tax=Bremia lactucae TaxID=4779 RepID=A0A484DQN5_BRELC)

HSP 1 Score: 116 bits (290), Expect = 4.460e-22
Identity = 69/212 (32.55%), Postives = 100/212 (47.17%), Query Frame = 3

Query:  687 LLAVALAHNMVEVWDWTTSSHPSRIHRAQGGDPCLLYHARLWGRTIDELRVAAGTVFNQVLVWSPGRGQGQLAPNVMRREDGTAAGLEARGSRVRRAEDEINSLPMWSCGVLRLKGHEGVIFRVAWREDGRRLASASDDRTVRVWDLACDSGGGGDXXXXXXXXXXXXESKEGICGGRLLWTGWGHASRVWDVEFTRIGVVTCGEDGSAILW 1322
            L+AV LAHN+V++WD   +S    +  AQ  + C+LY     GR++DEL VA+GTVF Q+L+W+P      +A   +                          +P     + RL  H GV+F++ W  D R LAS SDDR+V++W                        +    C    ++  WGHA+R+WDV F + GVVT  EDG   +W
Sbjct:  144 LVAVGLAHNLVQIWDPVRNSI---LRTAQCAERCILYSLAFHGRSLDELIVASGTVFQQILLWNPMEITNDVAKAAI--------------------------MP-----IQRLHAHNGVLFKLVWSSDARSLASVSDDRSVQLWSHHSTI-----TPDQLDAPRSLDRTALLFCSYSPVFRSWGHAARIWDVSFWKCGVVTASEDGLCKVW 316

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BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot
Match: A0A662WW86_9STRA (Uncharacterized protein n=2 Tax=Nothophytophthora sp. Chile5 TaxID=2483409 RepID=A0A662WW86_9STRA)

HSP 1 Score: 114 bits (286), Expect = 1.340e-21
Identity = 73/214 (34.11%), Postives = 98/214 (45.79%), Query Frame = 3

Query:  687 LLAVALAHNMVEVWDWTTSSHPSRIHRAQGGDPCLLYHARLWGRTIDELRVAAGTVFNQVLVWSPGRGQGQLAPNVMRREDGTAAGLEARGSRVRRAEDEINS--LPMWSCGVLRLKGHEGVIFRVAWREDGRRLASASDDRTVRVWDLACDSGGGGDXXXXXXXXXXXXESKEGICGGRLLWTGWGHASRVWDVEFTRIGVVTCGEDGSAILW 1322
            L AV LAHN+V++WD     H       Q  + C+LY     GR++D+L VA+GTVF Q+L+W+P                            +   +D + S  LP     V RL  H+GV+F++AW  D R LAS SDDRTV++W     S  G               S+         +  WGH +R+WDV F   GV T  EDG   LW
Sbjct:  141 LAAVGLAHNLVQIWD---PVHNEITRSVQCAERCILYALAFHGRSLDDLVVASGTVFQQILLWNP----------------------------MENGDDSVTSDVLP-----VQRLHAHDGVLFKLAWSSDARLLASVSDDRTVQLW-----SNDGKPTTEQLASPQASSRSELLASEYSPAFRAWGHTARLWDVAFWADGVATTSEDGLCKLW 313

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BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot
Match: A0A329SLL0_9STRA (Uncharacterized protein n=2 Tax=Phytophthora TaxID=4783 RepID=A0A329SLL0_9STRA)

HSP 1 Score: 114 bits (285), Expect = 1.740e-21
Identity = 71/214 (33.18%), Postives = 97/214 (45.33%), Query Frame = 3

Query:  687 LLAVALAHNMVEVWDWTTSSHPSRIHRAQGGDPCLLYHARLWGRTIDELRVAAGTVFNQVLVWSPGRGQGQLAPNVMRREDGTAAGLEARGSRVRRAEDEINSLPMWSCGVLRLKGHEGVIFRVAWREDGRRLASASDDRTVRVWDLACDSGGGGDXXXXXXXXXXXXESKEGICGGRL--LWTGWGHASRVWDVEFTRIGVVTCGEDGSAILW 1322
            L AV LAHN V++WD   +     +   Q  + C+LY     GR +DEL VA+GTVF Q+L+W+P    G          D T A +E                        RL  H+GV+F++AW  D R LAS SDDRTV++W         G              ++  +       ++  WGH +R+WDV F + GV T  EDG   LW
Sbjct:  133 LAAVGLAHNFVQIWDPVRNDI---LRSVQCAERCILYALAFHGRGLDELVVASGTVFQQILLWNPMENGG----------DETNAAVEP---------------------AQRLHAHDGVLFKLAWSSDARSLASVSDDRTVQLWSH------NGKTTVEKQLHLPRTSTRAELLASEYSPVFRAWGHTARIWDVSFWKRGVATASEDGLCKLW 306

The following BLAST results are available for this feature:

BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot

BLAST of mRNA_P-fluviatile_contig10.920.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25


Match Name	E-value	Identity	Description
A0A6H5KGL5_9PHAE	1.180e-125	31.34	Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA...	[more]
D8LMQ4_ECTSI	3.850e-122	31.34	Nucleotide binding protein, putative n=1 Tax=Ectoc...	[more]
D7FVQ9_ECTSI	9.380e-26	50.33	Uncharacterized protein n=1 Tax=Ectocarpus silicul...	[more]
A0A067BPX5_SAPPC	2.550e-24	33.96	Uncharacterized protein n=2 Tax=Saprolegnia TaxID=...	[more]
A0A3R7YE74_9STRA	1.070e-23	34.43	Uncharacterized protein n=3 Tax=Peronospora effusa...	[more]
H3GJ35_PHYRM	8.770e-23	34.84	Uncharacterized protein n=1 Tax=Phytophthora ramor...	[more]
A0A225X495_9STRA	1.850e-22	33.96	Uncharacterized protein n=1 Tax=Phytophthora megak...	[more]
A0A484DQN5_BRELC	4.460e-22	32.55	Uncharacterized protein n=1 Tax=Bremia lactucae Ta...	[more]
A0A662WW86_9STRA	1.340e-21	34.11	Uncharacterized protein n=2 Tax=Nothophytophthora ...	[more]
A0A329SLL0_9STRA	1.740e-21	33.18	Uncharacterized protein n=2 Tax=Phytophthora TaxID...	[more]

Pages

Alignments

The following features are aligned


Aligned Feature	Feature Type	Alignment Location
P-fluviatile_contig10	contig	P-fluviatile_contig10:3605860..3618408 -

Analyses

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


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

Properties


Property Name	Value
Taxonomic scope	Eukaryota
Seed ortholog score	443.4
Seed ortholog evalue	4.1e-121
Seed eggNOG ortholog	2880.D8LMQ4
EggNOG free text desc.	cell cycle
EggNOG OGs	KOG0974@1,KOG0974@2759
COG Functional cat.	C
Best tax level	Eukaryota
Best eggNOG OG	NA\|NA\|NA
Hectar predicted targeting category	mitochondrion
Exons	15
Model size	6483
Cds size	4191
Stop	1
Start	1

Relationships

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


Feature Name	Unique Name	Species	Type	Position
1622815418.6360903-UTR-P-fluviatile_contig10:3605859..3606860	1622815418.6360903-UTR-P-fluviatile_contig10:3605859..3606860	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3605860..3606860 -
1693561788.5289745-UTR-P-fluviatile_contig10:3605859..3606860	1693561788.5289745-UTR-P-fluviatile_contig10:3605859..3606860	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3605860..3606860 -
1622815418.6479194-UTR-P-fluviatile_contig10:3607112..3607300	1622815418.6479194-UTR-P-fluviatile_contig10:3607112..3607300	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3607113..3607300 -
1693561788.541356-UTR-P-fluviatile_contig10:3607112..3607300	1693561788.541356-UTR-P-fluviatile_contig10:3607112..3607300	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3607113..3607300 -
1622815418.660796-UTR-P-fluviatile_contig10:3607776..3608361	1622815418.660796-UTR-P-fluviatile_contig10:3607776..3608361	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3607777..3608361 -
1693561788.5541604-UTR-P-fluviatile_contig10:3607776..3608361	1693561788.5541604-UTR-P-fluviatile_contig10:3607776..3608361	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3607777..3608361 -
1622815418.6833963-UTR-P-fluviatile_contig10:3608683..3608794	1622815418.6833963-UTR-P-fluviatile_contig10:3608683..3608794	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3608684..3608794 -
1693561788.572362-UTR-P-fluviatile_contig10:3608683..3608794	1693561788.572362-UTR-P-fluviatile_contig10:3608683..3608794	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3608684..3608794 -
1622815418.8042834-UTR-P-fluviatile_contig10:3616556..3616614	1622815418.8042834-UTR-P-fluviatile_contig10:3616556..3616614	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3616557..3616614 -
1693561788.674368-UTR-P-fluviatile_contig10:3616556..3616614	1693561788.674368-UTR-P-fluviatile_contig10:3616556..3616614	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3616557..3616614 -
1622815418.8161762-UTR-P-fluviatile_contig10:3617244..3617509	1622815418.8161762-UTR-P-fluviatile_contig10:3617244..3617509	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3617245..3617509 -
1693561788.6823473-UTR-P-fluviatile_contig10:3617244..3617509	1693561788.6823473-UTR-P-fluviatile_contig10:3617244..3617509	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3617245..3617509 -
1622815418.8253815-UTR-P-fluviatile_contig10:3618324..3618408	1622815418.8253815-UTR-P-fluviatile_contig10:3618324..3618408	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3618325..3618408 -
1693561788.6902337-UTR-P-fluviatile_contig10:3618324..3618408	1693561788.6902337-UTR-P-fluviatile_contig10:3618324..3618408	Porterinema fluviatile SAG_2381	UTR	P-fluviatile_contig10 3618325..3618408 -

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

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


Feature Name	Unique Name	Species	Type	Position
mRNA_P-fluviatile_contig10.920.1	prot_P-fluviatile_contig10.920.1	Porterinema fluviatile SAG_2381	polypeptide	P-fluviatile_contig10 3608795..3616556 -

Sequences

The following sequences are available for this feature:

protein sequence
mRNA from alignment at P-fluviatile_contig10:3605860..3618408-
coding sequence from alignment at P-fluviatile_contig10:3605860..3618408-

protein sequence of mRNA_P-fluviatile_contig10.920.1

>prot_P-fluviatile_contig10.920.1 ID=prot_P-fluviatile_contig10.920.1|Name=mRNA_P-fluviatile_contig10.920.1|organism=Porterinema fluviatile SAG_2381|type=polypeptide|length=1397bp
MCHHGCGFCLVVPRCSPLARLGRSRLGCSPYLRRGKRRRKKRRGGGGLTT
CSATTGGVQRPEECNAMHRRWGAKVGGARKGSERQCTDRAGMGLLAVALA
HNMVEVWDWTTSSHPSRIHRAQGGDPCLLYHARLWGRTIDELRVAAGTVF
NQVLVWSPGRGQGQLAPNVMRREDGTAAGLEARGSRVRRAEDEINSLPMW
SCGVLRLKGHEGVIFRVAWREDGRRLASASDDRTVRVWDLACDSGGGGDV
GGGRRGGDGGGESKEGICGGRLLWTGWGHASRVWDVEFTRIGVVTCGEDG
SAILWHEKLEFRGNADTGEIAGARPTPATQGVAASTPPTSSSRTEAEPTS
VTAAIPQGGDQRDAGQLVPAAVMRGHSGVNVWRLAVHEFTSPRISGGGAK
RGAAASESTQGDRMDDRRGLTLMATGGNDGTCKLWNLESERACGRKQVGE
KRSNWPFWGQTEAIPIGTTAAGSIGKSAAAATQIKPTVVRAVRLAREARG
AAVLLADGSMWWVADLEVGTWERVTVTLPADDAAVAARVAAEELLVSPGV
SAIAVVGPPRQSDATEDSASGRDRSEEFLEGKTKSNSNGFAIIAGRDDGW
LFVVTQGPPTLPAVVKGTNLTGVESRSDSDGQSFDLPPQPWRVSAAWKGH
RSRVTAVWAVGDAAKRRLRRTPTGVSHAFTAALDTSRLCASPSRGERGGS
MFDGALVSAGSDGSVAWWEWAFVEDGAPGGACGHPCGRKSTMLEARARMA
CGIGPGTATSSVAIDDRRQRCHPSVRKTQPGGEETKEFADAVGPPEGTDD
LPSARAVVFCGDTKGNIHCFLEQLRASGKEQGVPAESSANGGLGEAMPPC
LVLKRQHGKDQISQLALRGNCLFSAGHDGQVNQYLVTYSASSSSAPVDLT
IMTTYATAPITAVSEMWLGTDRYVDGTRGYGEAGLDPTARGSTVNVRLAV
AGRSGSSRISVWDLTEARQILELECGERHLAQDLLLSWPTSARDQKGAGS
SSTVATLPEWSDATNRDTIDRKRPSHVGRVASTAPPLLALPLHTFVVARP
ISGPESNSIDVTIAEGVTSPATTGDQELKSQGHRHLDTGSTRPNDHTGSS
AAWDGARKHGRHGRKRHGVALAFHSSLFSLARGVDHRSISSWQEWPRGHC
VASIATRRMASEAAAVRDRKSASVAAGNAVNVAETIEADYHDKVAAAGGV
RKPSLVPTDLETIPSEPHTVSARALRPESDGGGGGDVEGGYASLQVPDEF
GYSLGKPFHSQRVASARFIAAAASKGRYGARDPADLRLVTGAEDGAVKLL
EVFCSRRRINTEQPSTESTGGPVPSYDRIPHGTEEPASGMFHRPYAKVVQ
TLSSHESSVGAMAVGLYEGGGETDGDKIAHPRSLQSALIVSGGGKM*

mRNA from alignment at P-fluviatile_contig10:3605860..3618408-

Legend: UTRpolypeptideCDS

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

>mRNA_P-fluviatile_contig10.920.1 ID=mRNA_P-fluviatile_contig10.920.1|Name=mRNA_P-fluviatile_contig10.920.1|organism=Porterinema fluviatile SAG_2381|type=mRNA|length=12549bp|location=Sequence derived from alignment at P-fluviatile_contig10:3605860..3618408- (Porterinema fluviatile SAG_2381)
TTGCTAAGCGGCGGCAGCTCCCTCCAGCGGGGCATGACCATCGCACGAGA
AAATGAAGGAGACGAGCTTGCTGAGCCGACGCTGGTGAGATTTCCTTCAG
ACTTCACCGGAAACCCACAAAATCAGACTCAGCGGGTAGGTTGGTTCATG
ACGGCCTTAGTTCGTGTGGTGCGTTGAAGGACGAGTCATCGCGCTTCAAA
TCGAAAGCCTATACCACTCAGCGCTGACTGGTAGTCAAGGGTTCATCGTA
TTTTAACAACACATCATGTCCGGGGGTTCTGTTCTCACCCGGTGCGCCTT
TTTGACGCAAACTTTCCGCCTGGTATGTTGGAAACGGTCTCCGCGAGGGT
AAGCAAATATGCCGGTGACCTGCTGGTATCGAGTTGGTAAAAACAGCGTT
CATTCCAGAAATTGAAGCCCTGGAGGTGAAATGTATCGGATCCGTGGCTC
AACAGCCAGGCGGGCATGGGCATAGGCTTTTGTTGAGAAGCACGATGACC
GCAAGACGACTACTTGTAGTCAGCGCTGACTGGAAGTCAACACTATTGGT
CCGCGTTCTGCACGCATATCATGATCGCAGCAGATACGTAGAGAGCGTGC
GGCTAGACGCGGTCCTTCATACCCCGACGAAGGCAAACCAGAAGGAACGC
TTCTGCTGCACGTGGGATTGTTACTCTGGTGTGCGCTTCACGTTCGTACT
CCACGTCGCCGTGAGAGAGTTGCGCGTAGCTCAGGACCGTCTTGGCCAGT
GCCCAGAATTGGATGTGCGGATTACTGTATTGCAGGCGCCACAAGTGCCA
CGTCTGCTACTACTGCTGCTCGCGTTCAAAAAAAGTGCTTGTACCGAAGG
CTATACGCTCACCGAGGATTTTACCCTCTCAAAACTCCGTTGTTACAAGC
TGCAGTTCGGAAGGCTTGCTGATGTGCCAGTCGTTGGAAGCATGGGCAGT
GACGACGTACCTGGCGGGGTCGTTGGGAACGTGCAGCCAGGGCCGTTGCT
CGGGCCCGTCGTGGGGCTGACATTCTCGGCAGACGGCGTGCTTCTCTTTG
CCTGCAGCGGCTCGTCTCTCTGGGTCTACAACGTGCGCTCCGGGGCCCTG
CTTTCGACCGTGAGCGTCTTCACGCCCGGGGTGGCCGTTTATGGGATGGA
CCACCAAGAATCTTGTGAGTCATGAGGCGTGGCACGCGTACTGGCTTAAC
TTCTGTCGATGTTCCTACTATCATTGTTGTGACGGTCGCCGCTAGCAAGG
TTACTCGCTACCCTTCTGGCTCACAACGATAGGCCTGTCCGAGCATGCCC
TAATTCACGACGAGGCCGAAAATCTCGGAAACGGTGAACTGCACTTGCCT
TCCCCCCTTCCGTTCCCTTCACCTCAAGTTTTTTCAACACGACCTGCACC
TGGCTGTAAAGGATGTTTTCGTTTCTGGTACTGCGAAGCGGAGGCAGCAA
TTCAGTGAGTCCACTTCGGCCATGGAGGGCCCCGTCTTTCGGTCTCCATC
TTTGCGATTTACGACTCGAAGTGACGACACCGACACCCTTTGGTACAGCC
ACTCCCTGTCGCTCCGCACATAATCCATCCACAATATGGCAGCGAGGCAA
TCGGCTCAGAAATGCGGGCCCTTTCGATGACGGTGGACGACGATCTATCG
CGTGGGCCTACCGCGTCGCGCTATTCGCGTAACCGAAGTGGCAAGCACAC
AAAAATTACCATCAGCAACACATGTGTTTATTCTTGTCATCTCCCACCCC
TTTTTCTCCGTGCCTCGAAATGACGCCACGTTGTGGGGCGGCAGTCGGCG
CGATCTTCGGAGACAAGTGTGTCCACGTGGTGGATAGGGTGCCCTCCGGC
GCATGTGTCACCACGGCTGCGGCTTCTGCCTCGTGGTTCCGCGTTGTAGC
CCGCTTGCCCGACTTGGACGATCGCGTTTGGGATGCTCGCCTTATCTGCG
ACGAGGGAAACGGAGGAGGAAGAAGAGGAGGGGAGGGGGGGGGCTGACTA
CTTGTAGTGCAACTACTGGCGGGGTGCAAAGACCCGAGGAGTGCAATGCG
ATGCACCGTAGATGGGGGGCGAAGGTAGGGGGCGCGAGGAAGGGGAGCGA
GAGACAGTGCACCGATCGTGCCGGGATGGGGCTACTGGCAGTGGCACTGG
CTCACAATATGGTCGAGGTAGGTCGTGAGGTCCATGTTGGAGCTTGTCGG
AGCTTGTTCTCAAGGTCATCTTGACATATTTTGTTTTTCACCTCGTGGAG
CTTTTTTCTCATGAGTACGCCATCAATGCACTAGGTGCACTCCGCCAACA
GCGTAGGGAGGGTGCCCATTTGGTGCAGACCGGGAAGGGATTGATTTAGG
TGCTTTTCGTCGATCACTTCCCGACGGACAGACAGACAGGCAGGCAGGCA
TGCAAGCAGGCTGGCAGTTAGGCAGAAGAATCAAGACAACCAAGAGAGGA
GCGCGTGTTCGTTTCGTGGGGTTCTCGCCAACACCACGGTAGCGTGGGTG
CACCCCAACGCCAATGCCAGAGAAACAACGTCATCGCTGTCACATGCAAC
CACGGGCACTGACTGAAGTGTTGCAGCGTCTGGTTGTCGTCTCAGGTTTG
GGACTGGACCACTAGTTCTCACCCCTCCCGAATACATCGGGCGCAAGGGG
GCGACCCGTGCCTGCTTTACCATGCCCGCCTCTGGGGCAGGACGATAGAT
GAGCTGAGGGTGGCCGCTGGAACTGTGTTCAATCAGGTGCGAGCGTTCAA
ACATGTTGTACGTTGTTCTGCCTCCCATGACAAGGAACTGATCGGATTTC
ACGGCCGCTGCTTCAAGACTTTATCCTCCGGCAGACCCAATGCACCTTCC
AACTTAATAAAACTTTTGGCTGTAAGTGTAGTGCGCGGCTTACTTCGTCA
GTAAAGGACCGTCCGGTCAGCATGTGCGTACACCTCGAAAGTTCAACCAA
ATTGCACTCGGCATGCTCGTTCGTTTGGAAGCCAGCCGGTGATGGCTGGG
ACCATACGCGCTGCTCCAGAGCTTGCGTCAAGCGTCCGTAGGTTTAGACA
GTAGCTCTACGCCCTGAAACCCTGATTCGACGTCCGAATCGTGGTAATCC
CGCAAACCTGATTCAACTTTCATTGACGTGCACAAAGGTGCTAGTATGGA
GCCCGGGGCGGGGGCAGGGGCAACTCGCTCCGAACGTGATGCGTCGAGAG
GATGGAACTGCGGCAGGCCTAGAAGCCCGTGGAAGCCGGGTCAGGAGGGC
TGAGGACGAGATCAATAGTTTGCCGATGTGGAGCTGTGGCGTGCTCCGGC
TCAAGGGGCACGAGGGGGTGATATTCAGGTGCCTGCATGCTTGAGGGTTA
TGGGGGGATAGATTTTGTGTTTTGCCTGGGTTCGTCACAATTGTCCCCGG
GCTGTGCTCTGGTGGGTTCAATTCTTCGTGGTACCGGATGTTCCTGATGC
TACTGCTGCTCTTGACGCTTGCGATGATGACAAATGATGATTCCTCAATT
CCAAATACTCCCTTCCCGCAGTCGGCCTTCTTGAGCCTCTTAGGGCTATC
TAGTCGAGCCGGCCTTGAGCATCCTTTTCAATGCTGTGTCAACACCCGCT
TATGCCACCCCCCTTCCCGTTTGCACCCCCCTTGTCTCTACTCGTTTACC
GTCGGACGATGGTCACGGCTTTCATCACGACGATTTCCATTACGTCTTTT
GTGTTGCACCGCATGTGCCAGAGTTGCTTGGCGTGAGGACGGGAGACGGT
TGGCCTCGGCTTCTGATGATCGGACTGTGCGCGTGTGGGACTTGGCTTGC
GACAGTGGTGGTGGTGGTGATGTGGGCGGCGGACGAAGAGGCGGAGACGG
AGGCGGCGAAAGTAAGGAAGGAATCTGTGGGGGTCGGCTACTCTGGACGG
GATGGGGGCACGCATCGAGGGTCTGGGACGTGGAATTCACGAGGATCGGT
GTCGTCACGTGTGGGGAGGTGAGCTCTCACGAAGGCGGGTCGTAGACGAA
GATATCATGTTGCCTTTCACCTCGTAACGAGCAAGCATTCAAGTATGCAC
CAAAGCGTACACGGCTGTACCCTCGTTGGTGTTTTTCTGTTTTTTTGGGG
GTGGTGCCGGACGTCGATATGATCATTCGGTTTGATCGCTCCCCTCCCTT
AGGTTCCATCTTATAGAGGGCCGCCTTTTTTTCTTCGGGCTAGCCCAGAG
CGAGTTCGAGCACCCACCTGCTTAGCTTTTTCTTGCGTTGCCACTTCCTG
CAGGTGCCCTCCATCCAGATCGCCTTGCCGTGACGCATCGTTTGCATTCT
ACAACGCGCAGGACGGCTCGGCTATTCTTTGGCATGAGAAGCTCGAGTTC
CGTGGAAACGCCGACACTGGTGAAATTGCTGGCGCCCGACCAACGCCGGC
AACACAGGGGGTAGCAGCAAGTACACCACCAACATCATCAAGCAGAACGG
AAGCAGAACCAACCTCTGTCACTGCTGCAATACCACAAGGCGGCGATCAA
CGCGATGCCGGACAGCTTGTACCGGCGGCTGTGATGCGCGGTCATAGCGG
GGTGAACGTCTGGAGACTCGCAGTGCACGAGTTCACCTCCCCCAGAATCA
GCGGCGGCGGTGCTAAACGTGGCGCTGCCGCGAGTGAGAGCACCCAAGGA
GACCGAATGGACGACCGGCGGGGACTTACCCTTATGGCGACAGGAGGGAA
CGACGGCACGTGTAAGCTGTGGAACCTAGAATCCGAGAGAGCCTGTGGAA
GAAAACAGGTCGGGGAGAAAAGGTAGGGTATAAAGTAAGAGTGCGTGGCA
ATACGATGAAAAGTACTTCAGTGGCCAACTTTTGTCTGGGCGGTGCAAAC
CTTCGTGGTTGGTGATCATATTGCTGTATGCATCTGTTTTTGCGTGCATC
TGATGTTCCGTGATATAGATGAAGACTCTCTGGAATTAGATGCAGTTCAT
ACCCCCACGGAATTCGATCTTAAAGTTTCCGTTAGTGCGCTACTTCGACT
TTGACGGTGCTCGGGGAGTCGGTTCCTATCTCGTGTGCTTTGGAAGACAA
TGACATCTACATGATTACCTACAACACACCCGCCATGAACACAAACGCGA
GAAGTGATTCGCATGAGTCGAGATCTGCTTTGCTGTTCCATCATCCTGAC
CGCCTCCCACGAGCTCTGCCTTTTGATTCCTGCTTCCACATCGCATCACG
TCCAGAAGTAATTGGCCGTTTTGGGGGCAGACGGAGGCAATCCCGATTGG
TACCACTGCCGCCGGCTCGATCGGCAAGTCAGCAGCGGCGGCGACGCAGA
TAAAGCCAACCGTAGTCCGAGCGGTTAGACTGGCTCGGGAGGCCCGCGGG
GCGGCGGTGCTCCTCGCCGATGGAAGCATGTGGTGGGTGGCCGACCTGGA
GGTCGGAACCTGGGAGCGGGTGACTGTCACGCTTCCGGCGGATGACGCAG
CAGTCGCGGCCCGGGTGGCAGCGGAGGAACTTCTTGTCAGTCCAGGCGTG
TCGGCGATCGCCGTGGTAGGGCCACCTAGACAAAGCGACGCCACAGAAGA
CAGCGCCTCTGGAAGGGATCGTAGTGAAGAGTTCCTCGAGGGGAAGACGA
AGAGTAACAGCAATGGATTTGCCATCATCGCCGGCCGCGATGACGGCTGG
CTGTTCGTGGTCACCCAGGGCCCGCCAACCTTGCCCGCTGTGGTCAAAGG
AACCAACCTCACAGGCGTCGAATCCAGGAGCGATTCCGACGGGCAAAGTT
TCGATCTGCCTCCCCAACCCTGGCGCGTCAGCGCGGCTTGGAAGGGCCAC
AGGTCGAGGGTAACCGCAGTTTGGGCCGTGGGTGACGCTGCGAAAAGAAG
GCTTCGCCGCACACCAACAGGAGTGTCCCACGCTTTTACGGCGGCCTTGG
ACACGTCCAGATTGTGCGCTTCGCCGAGCAGAGGCGAGCGCGGTGGTAGC
ATGTTTGACGGGGCGCTTGTCTCGGCTGGGAGCGACGGGTCAGTTGCGTG
GTGGGAGTGGGCATTCGTTGAAGACGGGGCGCCCGGTGGCGCGTGCGGGC
ATCCGTGCGGGCGCAAATCGACGATGCTTGAGGCGAGGGCTCGAATGGTG
AGACAAACTTGCGGCTGCCGTTCGTCAGGAACAAAGTCATCTTTCGTGCG
TGATGTCAGACACTATGCTTTGATCGATGACAGCTCCTGCTGCGCCGCGT
GGTGTGTACATCGTTTAGGATTTGCTTGGATCCAGGCGTTGGGATACTTT
CAGTGGGGATGCACCCATTGATTGACTGCCCCCAGACCAGCGTCGAAGGT
ATCGTTTGTTAAACGTGCAGTGCCTAACTCATTCAATACGACCGACTCCC
AAGGCTTGCGGCATAGGTCCAGGGACCGCTACTTCAAGCGTTGCAATCGA
CGACCGTCGTCAGCGCTGCCACCCTTCCGTGCGGAAAACCCAACCCGGAG
GTGAGGAAACCAAGGAGTTCGCCGACGCCGTCGGTCCACCGGAGGGAACG
GATGACCTGCCATCAGCCAGGGCTGTTGTCTTTTGTGGAGACACCAAGGG
CAACATTCACTGCTTCTTGGAGCAACTGCGTGCAAGTGGCAAGGAACAGG
GCGTTCCGGCTGAGAGCAGCGCAAATGGGGGTTTGGGAGAAGCCATGCCG
CCGTGCTTAGTTCTTAAGCGGCAGCACGGCAAGGACCAGGTGGGTATTTG
TACCGCATTTCTACAAGGTTGACATCTTTGTCCAGGTCCTCCAGATCTCG
ATTACATCAGCGATTGCCGCCGACACAAAGTACTCGGTGCTGGAGTCGAC
CGTATTTGGTAGGTTCGACGGCTTCACGACAAGGTCTGGAGCACTCCAAG
GTGTTCACCAATTACATGTGTTCACAACGCAATTGCGAGGGGGCTTAAGA
TTCGAGATAAAGCCGCCGTAAACAACAATGTTCAAGAGTAGCACCCTCAC
AAAGGAGCGCGGTCGCACAGAGCCATTGCAACAATGAACTCAGGCTTGGG
GAAGTCCGATAGTTTTGATCTTTGATCCCGCGGTGCCCAACCATGCAGTT
CTTGCTGCCCTGTCGACGGTGAACCAACGTCAGATCAGTCAACTGGCTCT
GCGAGGCAACTGCCTCTTTTCCGCCGGGCACGACGGCCAGGTAAACCAGT
ACCTCGTGACCTACTCGGCCTCTTCCTCGTCCGCACCCGTAGACCTTACG
ATAATGACGACCTACGCGACTGCTCCGATTACGGCGGTCTCAGAAATGTG
GTTGGGCACCGACCGGTATGTCGATGGCACACGAGGCTACGGAGAGGCCG
GGCTAGACCCGACCGCGAGGGGAAGCACGGTGAATGTCCGGCTTGCAGTG
GCCGGCAGGTCTGGCTCATCCCGAATTTCGGTGTGGGACCTGACAGAAGC
TCGCCAAATTTTAGAGGTGAGATGTTTGTTCTCCAATGTGTTGCTTTTCT
TGGTTTAGGCCATCACGAATCCTCTTTCAAGCCCCAATCCAACCCTGTGT
GTGTGCCGGGTTGAGTGAGCCGGAGAACAAGGCGCCGAAAAAACAGTGGT
GACAATTTTTGCATTTTATTCGCCATCTGCGTAGGGTGCTCGAATCGCCG
GGCTCGAACGCTTCCGTTCTCTCACCGGTGCTAGTGTTCCGACGCGAAGA
ATGCGGAAATTGTGTTTATACCACGTGCGACTACGCCTAGGACATGCTGC
AAGCAGTAACGTAACCGCGGTGGAACTAAGTGTCCTGTATCAAGATCAGA
AGGCGGAAAAGCTCAACAGGTTCGCCACGTCTCCCCCCCTACACCACCCT
CAGCCCCGTTCGTCGTCCAACGTCTGCATTCCGTAATAAGCAGCTCGAAT
GTGGAGAAAGGCACCTCGCCCAGGACCTTCTCCTGTCCTGGCCCACATCT
GCGCGTGACCAAAAAGGGGCAGGCTCGTCGTCCACCGTCGCCACACTGCC
AGAATGGTCAGACGCCACGAATCGCGATACGATTGACAGAAAACGGCCGT
CGCACGTTGGGAGGGTGGCTTCGACTGCGCCGCCGCTGCTGGCGTTGCCC
CTGCACACGTTCGTCGTCGCCCGACCAATTTCCGGCCCAGAGAGCAACAG
CATCGATGTCACCATCGCCGAAGGGGTAACGAGCCCCGCCACCACCGGGG
ATCAAGAGCTGAAGAGTCAGGGCCACCGCCACCTCGATACTGGCAGCACG
CGACCCAACGATCACACCGGCTCATCCGCTGCTTGGGACGGGGCGAGGAA
ACACGGTCGACATGGCCGCAAGCGGCACGGAGTAGCGTTAGCGTTTCATT
CGTCATTATTCAGCCTTGCTCGGGGTGTAGATCACCGCTCAATCTCTTCT
TGGCAGGAGTGGCCTCGTGGGCACTGCGTCGCATCCATCGCTACACGGAG
GATGGCGAGTGAGGCCGCTGCGGTCCGTGACCGCAAGTCAGCTTCGGTAG
CGGCGGGAAATGCAGTCAACGTCGCGGAGACCATCGAAGCAGACTATCAT
GACAAGGTTGCAGCGGCGGGAGGCGTTCGCAAGCCTTCGCTCGTCCCCAC
AGATCTTGAGACGATCCCCTCCGAACCACACACCGTCTCGGCTCGTGCAT
TACGGCCAGAAAGCGATGGTGGAGGCGGCGGTGATGTTGAAGGCGGGTAT
GCAAGCCTACAGGTGCCGGACGAGTTCGGATACAGCCTCGGGAAGCCGTT
TCACAGTCAACGTGTGGCGTCTGCGAGGTTCATCGCCGCGGCAGCTTCAA
AAGGGAGATATGGGGCTAGGGATCCTGCGGATCTGCGCTTAGTCACAGGT
ATCTGTTATGTATGTCGACTCGAAACGTGCTTGCTGCGTACTTCGTAGAG
TTCTTCGCCACTGACCCACAGTACTGAATTCTCGTGAAGACGGGCTTTCT
GTTCCTGACGTGGTCACCTCAAGGCGTGTTATCAACCGCGTGGATTTTCC
TTGTGATGTGGGAGTGAAAAGCAGGGTCTCGACGCTTGCCTGGAAGTCTC
GTGACCGATGACATTTTCCACATATCTTATGACGCAAGAAGGCGCAAATA
GTTATCATCCCTTGTGGCAAAATGTGGGTGTGCGATGGTCTGTTTCGACG
TAGAAATCGCAAGCTGAAGCAAGCCGATTCCGTTTGGCCCACTCCATGCG
TGAACCGACATACGCTGGTATTCCGAAAGTTGCGATCGGCCTCCCCCGGC
CGCTTTATCGAACCTTGGGTTGCTGCGCGGCGATGTTCTCTGGACGATCT
GACTTACTGATCGCAGTCTCTTGCCCCCACCTGCATCGCGGCAGGGGCCG
AAGACGGTGCCGTCAAGCTCCTTGAGGTGTTCTGTAGCCGCCGCCGAATC
AACACCGAACAGCCTTCGACCGAGAGCACCGGTGGCCCCGTCCCGTCTTA
CGACCGAATCCCACACGGAACTGAAGAACCTGCGAGCGGGATGTTTCATC
GCCCCTACGCTAAGGTCGTCCAGACTCTATCTTCCCACGAGTCGTCGGTG
GGCGCCATGGCTGTGGGATTGTACGAAGGCGGTGGCGAAACCGATGGCGA
TAAAATCGCTCACCCGAGAAGCCTCCAGTCTGCCCTTATTGTGTCCGGGG
GAGGCAAGATGTAAGTTCGGGCCTGGTGCATGGGAGGCGGCGACATTGAC
GGCGACCAGGGCGGGAGCGCAACGGGTAGACATTCCTGTGCAGAGGGTTC
GACGAAAGAAACCTGTTCGCCGCCGGTGAGATGTCTGCCATCTCAAAATG
TTTTTTGCTTCAGCAGGTAGAATTGGTACCGCTCGGTACCTTGCCAGTGC
CGGGAATGTTCCTCGTTCGTATGGTCGCTGCAGGAAGCATTCTTCACGCT
GGCAGTGGCAGCTGGGCAGATTTGCTTCCCATCCGGCGGAAGAAGTGCTC
ATTTGGTTGGCAAGAGGATTAGCACGCCACTAAATGCGGACAGCTTTGCG
CGTCACGTCATCTCTTGCATGCATTTCGGCGGCTCTTGGAACGCACATCT
ATCTGGTCTGCCAACTCCTTCCACGACGCTGTATTGCTTCCGGTCAGATT
CGATGGCTAGCGACCACTACCCCGGCGCCAAGATCCCCGCTTCACGCGCA
CAGGATTATGTGTCTCTGCATCTTGCCCCCTAAACCTGCGCAACTTCGAC
CTCCACTAACCGGCGACGCCCCCGGCGGCACCTCATTCGTGGCCGGAGAC
TCCGGTGGCGGTGTAACGGTCTTTGATCTGGAGCCGGTTGCCGGGGGAGG
GCGGGGAGATCACCGGTCGCACCCAGCGGGGAGGTGGACCGCGCCAGGGG
GGAGGCCAATGCTCTGCCTAGAGTACGCTCAGGTGCGATCATCGGGTTCC
CACGACACAGACGTTTGTTTGATCGTCACCGGCGACACCGGAGGCATGGT
CACCGTGTGGGAGTTCATCCCTGAAGGTGGCGGCGGCGGCATTTTTCCAT
CCAAAGACGAGGAGAGCCTGAGGTGCGCAGCGTCTGAGGTGCGAGAGGGG
TTCGTGCATCGTGGACCAGCAGGGAAAAGGCGAGGTGGGAATGGGACGGG
TGGGGGAACGGGGCGGACGGCGAGAGGGCCCCCGCGCTCATTTCCTGGCC
TCGTTCCCATTCTGGAGTATCGTGCGCACCAGGTACGTTGGATGACGTTT
CATTTCGGCAATGCAGCACGTACATTGCATTCACAAGTTTTGACTGATTC
CCGAAGCTGTTGCGCTCTTGATACGTTTTGGGATCAAACGGGTTATTTTC
GGTTACTTTCGATATCTGCATGCCTCAAGAATGCAGCTTTCTGGCGACCT
TTCAACTGGTTGTTTACCCCATGTCATTCATATATTTTTTCTCGTAGACG
CTTGTTTAGCGGGAGGCAGATGGTACGTAGCTGCCGGCCTTGTCACAGGG
CATTTTTTTCTCCACTCTTTTCTCACCTCGTTGGTGGTTGCGCCAATTTA
AAGAGGGCTCTGGCTAAAGCGAGGTTCGTGGGTGGATTGAGCAACATTAT
GACCACCCCCCGTCTCCCCTCTACAAGGGTGTTGCGTCAAACTCCTCCGC
ACCGCTACGACCTGGACTATTCCGCCGTTTCGCCCGATTCCCCCTTCGGC
TTTCTCAGATGGGCGTCCTCTGTATTGCTGTTCACGCCGATCCCGAAAGA
AGACGCATGGTAATTATTACGGGAGGGGATGACCAGGCGATCAGTGTGGC
CGAAGTGGAGTTGCTCCACCACCCGAAGAAAGCTGCCGACAAGAGTCCAT
CACAAGGAGAGGAACAACGGGGCACATCCATCCACTCCAAAAAGAGGTGC
GATATGTGGAATGTTGTTGTCCTGGTGCATTCTTCCAGCGTCAAACGGCC
CTGCGGAGTTAATGCAATACCTTGCTAGCTAGATTGCTTCCATAGATCAG
CGGAGCCGGAATGTCCGCTGAGTCTTCTGCAGTGCATATCAGGGGATGGC
ACGAAATTATGTCACAAACTTGAGAACGAACGCGGCGATAAGCTTGCGGA
GGTCATGGAAGTTGTAAACGACAGTCCCTTGCTCTATCTGCCTGGCAGAC
ATTTCTCCGCGAGACTTCTGGGAGGCGCTCCGGAAGTGACGGACCGAGCC
GCCGGGTCAGCGATCAAGGGGATAAGCGTGTTCCCAGTGGAGCATCCAGC
CCCTCCCTCGGAATCTGAGGAACGCCAGACTTCCGGCGGGTCTCACGTGT
CTACGATTGTCGGGGAAAACTCTGCGGCGGGGAGTAGTACACCTCGGTCG
CCGATCGCCCTCTCCGTCTTCACCGTATCTCGCGACCAGAGGCTATCGCG
ATGGGATCTCGTCGAGGCAGAAACATCGCCGCCAGCGTTGACCTTCGACA
AGACTGGCTTCGGCACGAGGGCAGACGTCCACCAGGCGTCAGATTTTAGT
GTTCGTGGCCATACTGACGGCGCGGGCATTCCAAGGTCGCTGGGCCTGTA
TCGAGGCGGGCGTATTTTCGGCTCAGTAACAGCTGCTCCCTCTGGCGGCC
GACCGACGGCACCAGCGTCGCGTCGAGACACCGGTGACGCGTTGTTGCGG
CGGACAGCACGGCACGGCGATATGAAGCAACGGTGCGCTCGGTGGTGCTT
GCGTTGGCGGGCGGGTTGCGTCACCGACGTTGCGGATGTCAGCGGCCTAG
ACACGATCCTTCTTCCTGGCGACCCAAAACAATGGTGCCATGTCGGCGAC
AAGCCAAACGCTTGTGGACACGGGGCAAACGTGGAAGAGGGAGCCACTCA
GGAAAGGCTTTGCGATCGTAGCGCGCCTGAGGAGCCCCTGGCCTCTCCCG
CGGCCCTCGTGGCCGTCTCGGGGCAAGGGTTACAGCTTATTGTCTTCGGC
GCGTGACGGAAGTTGGAGTGTAGGCCAGCAGTAGGTGGGTCGCCCATGCG
TTGAGTTGCACCTGCGATTGACGTTCGAGGTCTACTGCTTGAGTTATCAT
GCCCGGTCGCAGCTGACGGACATGGTTTTAGCATGAGTCGTTTCCCAGCG
GCAAGAAAAAATATGGGCGCGCCCGTCCTTCTGAAAGTAGTAAATGGCC

Coding sequence (CDS) from alignment at P-fluviatile_contig10:3605860..3618408-

>mRNA_P-fluviatile_contig10.920.1 ID=mRNA_P-fluviatile_contig10.920.1|Name=mRNA_P-fluviatile_contig10.920.1|organism=Porterinema fluviatile SAG_2381|type=CDS|length=8382bp|location=Sequence derived from alignment at P-fluviatile_contig10:3605860..3618408- (Porterinema fluviatile SAG_2381)
ATGTGTCACCACGGCTGCGGCTTCTGCCTCGTGGTTCCGCGTTGTAGCCC
GCTTGCCCGACTTGGACGATCGCGTTTGGGATGCTCGCCTTATCTGCGAC
GAGGGAAACGGAGGAGGAAGAAGAGGAGGGGAGGGGGGGGGCTGACTACT
TGTAGTGCAACTACTGGCGGGGTGCAAAGACCCGAGGAGTGCAATGCGAT
GCACCGTAGATGGGGGGCGAAGGTAGGGGGCGCGAGGAAGGGGAGCGAGA
GACAGTGCACCGATCGTGCCGGGATGGGGCTACTGGCAGTGGCACTGGCT
CACAATATGGTCGAGATGTGTCACCACGGCTGCGGCTTCTGCCTCGTGGT
TCCGCGTTGTAGCCCGCTTGCCCGACTTGGACGATCGCGTTTGGGATGCT
CGCCTTATCTGCGACGAGGGAAACGGAGGAGGAAGAAGAGGAGGGGAGGG
GGGGGGCTGACTACTTGTAGTGCAACTACTGGCGGGGTGCAAAGACCCGA
GGAGTGCAATGCGATGCACCGTAGATGGGGGGCGAAGGTAGGGGGCGCGA
GGAAGGGGAGCGAGAGACAGTGCACCGATCGTGCCGGGATGGGGCTACTG
GCAGTGGCACTGGCTCACAATATGGTCGAGGTTTGGGACTGGACCACTAG
TTCTCACCCCTCCCGAATACATCGGGCGCAAGGGGGCGACCCGTGCCTGC
TTTACCATGCCCGCCTCTGGGGCAGGACGATAGATGAGCTGAGGGTGGCC
GCTGGAACTGTGTTCAATCAGGTTTGGGACTGGACCACTAGTTCTCACCC
CTCCCGAATACATCGGGCGCAAGGGGGCGACCCGTGCCTGCTTTACCATG
CCCGCCTCTGGGGCAGGACGATAGATGAGCTGAGGGTGGCCGCTGGAACT
GTGTTCAATCAGGTGCTAGTATGGAGCCCGGGGCGGGGGCAGGGGCAACT
CGCTCCGAACGTGATGCGTCGAGAGGATGGAACTGCGGCAGGCCTAGAAG
CCCGTGGAAGCCGGGTCAGGAGGGCTGAGGACGAGATCAATAGTTTGCCG
ATGTGGAGCTGTGGCGTGCTCCGGCTCAAGGGGCACGAGGGGGTGATATT
CAGGTGCTAGTATGGAGCCCGGGGCGGGGGCAGGGGCAACTCGCTCCGAA
CGTGATGCGTCGAGAGGATGGAACTGCGGCAGGCCTAGAAGCCCGTGGAA
GCCGGGTCAGGAGGGCTGAGGACGAGATCAATAGTTTGCCGATGTGGAGC
TGTGGCGTGCTCCGGCTCAAGGGGCACGAGGGGGTGATATTCAGAGTTGC
TTGGCGTGAGGACGGGAGACGGTTGGCCTCGGCTTCTGATGATCGGACTG
TGCGCGTGTGGGACTTGGCTTGCGACAGTGGTGGTGGTGGTGATGTGGGC
GGCGGACGAAGAGGCGGAGACGGAGGCGGCGAAAGTAAGGAAGGAATCTG
TGGGGGTCGGCTACTCTGGACGGGATGGGGGCACGCATCGAGGGTCTGGG
ACGTGGAATTCACGAGGATCGGTGTCGTCACGTGTGGGGAGAGTTGCTTG
GCGTGAGGACGGGAGACGGTTGGCCTCGGCTTCTGATGATCGGACTGTGC
GCGTGTGGGACTTGGCTTGCGACAGTGGTGGTGGTGGTGATGTGGGCGGC
GGACGAAGAGGCGGAGACGGAGGCGGCGAAAGTAAGGAAGGAATCTGTGG
GGGTCGGCTACTCTGGACGGGATGGGGGCACGCATCGAGGGTCTGGGACG
TGGAATTCACGAGGATCGGTGTCGTCACGTGTGGGGAGGACGGCTCGGCT
ATTCTTTGGCATGAGAAGCTCGAGTTCCGTGGAAACGCCGACACTGGTGA
AATTGCTGGCGCCCGACCAACGCCGGCAACACAGGGGGTAGCAGCAAGTA
CACCACCAACATCATCAAGCAGAACGGAAGCAGAACCAACCTCTGTCACT
GCTGCAATACCACAAGGCGGCGATCAACGCGATGCCGGACAGCTTGTACC
GGCGGCTGTGATGCGCGGTCATAGCGGGGTGAACGTCTGGAGACTCGCAG
TGCACGAGTTCACCTCCCCCAGAATCAGCGGCGGCGGTGCTAAACGTGGC
GCTGCCGCGAGTGAGAGCACCCAAGGAGACCGAATGGACGACCGGCGGGG
ACTTACCCTTATGGCGACAGGAGGGAACGACGGCACGTGTAAGCTGTGGA
ACCTAGAATCCGAGAGAGCCTGTGGAAGAAAACAGGTCGGGGAGAAAAGG
ACGGCTCGGCTATTCTTTGGCATGAGAAGCTCGAGTTCCGTGGAAACGCC
GACACTGGTGAAATTGCTGGCGCCCGACCAACGCCGGCAACACAGGGGGT
AGCAGCAAGTACACCACCAACATCATCAAGCAGAACGGAAGCAGAACCAA
CCTCTGTCACTGCTGCAATACCACAAGGCGGCGATCAACGCGATGCCGGA
CAGCTTGTACCGGCGGCTGTGATGCGCGGTCATAGCGGGGTGAACGTCTG
GAGACTCGCAGTGCACGAGTTCACCTCCCCCAGAATCAGCGGCGGCGGTG
CTAAACGTGGCGCTGCCGCGAGTGAGAGCACCCAAGGAGACCGAATGGAC
GACCGGCGGGGACTTACCCTTATGGCGACAGGAGGGAACGACGGCACGTG
TAAGCTGTGGAACCTAGAATCCGAGAGAGCCTGTGGAAGAAAACAGGTCG
GGGAGAAAAGAAGTAATTGGCCGTTTTGGGGGCAGACGGAGGCAATCCCG
ATTGGTACCACTGCCGCCGGCTCGATCGGCAAGTCAGCAGCGGCGGCGAC
GCAGATAAAGCCAACCGTAGTCCGAGCGGTTAGACTGGCTCGGGAGGCCC
GCGGGGCGGCGGTGCTCCTCGCCGATGGAAGCATGTGGTGGGTGGCCGAC
CTGGAGGTCGGAACCTGGGAGCGGGTGACTGTCACGCTTCCGGCGGATGA
CGCAGCAGTCGCGGCCCGGGTGGCAGCGGAGGAACTTCTTGTCAGTCCAG
GCGTGTCGGCGATCGCCGTGGTAGGGCCACCTAGACAAAGCGACGCCACA
GAAGACAGCGCCTCTGGAAGGGATCGTAGTGAAGAGTTCCTCGAGGGGAA
GACGAAGAGTAACAGCAATGGATTTGCCATCATCGCCGGCCGCGATGACG
GCTGGCTGTTCGTGGTCACCCAGGGCCCGCCAACCTTGCCCGCTGTGGTC
AAAGGAACCAACCTCACAGGCGTCGAATCCAGGAGCGATTCCGACGGGCA
AAGTTTCGATCTGCCTCCCCAACCCTGGCGCGTCAGCGCGGCTTGGAAGG
GCCACAGGTCGAGGGTAACCGCAGTTTGGGCCGTGGGTGACGCTGCGAAA
AGAAGGCTTCGCCGCACACCAACAGGAGTGTCCCACGCTTTTACGGCGGC
CTTGGACACGTCCAGATTGTGCGCTTCGCCGAGCAGAGGCGAGCGCGGTG
GTAGCATGTTTGACGGGGCGCTTGTCTCGGCTGGGAGCGACGGGTCAGTT
GCGTGGTGGGAGTGGGCATTCGTTGAAGACGGGGCGCCCGGTGGCGCGTG
CGGGCATCCGTGCGGGCGCAAATCGACGATGCTTGAGGCGAGGGCTCGAA
TGAAGTAATTGGCCGTTTTGGGGGCAGACGGAGGCAATCCCGATTGGTAC
CACTGCCGCCGGCTCGATCGGCAAGTCAGCAGCGGCGGCGACGCAGATAA
AGCCAACCGTAGTCCGAGCGGTTAGACTGGCTCGGGAGGCCCGCGGGGCG
GCGGTGCTCCTCGCCGATGGAAGCATGTGGTGGGTGGCCGACCTGGAGGT
CGGAACCTGGGAGCGGGTGACTGTCACGCTTCCGGCGGATGACGCAGCAG
TCGCGGCCCGGGTGGCAGCGGAGGAACTTCTTGTCAGTCCAGGCGTGTCG
GCGATCGCCGTGGTAGGGCCACCTAGACAAAGCGACGCCACAGAAGACAG
CGCCTCTGGAAGGGATCGTAGTGAAGAGTTCCTCGAGGGGAAGACGAAGA
GTAACAGCAATGGATTTGCCATCATCGCCGGCCGCGATGACGGCTGGCTG
TTCGTGGTCACCCAGGGCCCGCCAACCTTGCCCGCTGTGGTCAAAGGAAC
CAACCTCACAGGCGTCGAATCCAGGAGCGATTCCGACGGGCAAAGTTTCG
ATCTGCCTCCCCAACCCTGGCGCGTCAGCGCGGCTTGGAAGGGCCACAGG
TCGAGGGTAACCGCAGTTTGGGCCGTGGGTGACGCTGCGAAAAGAAGGCT
TCGCCGCACACCAACAGGAGTGTCCCACGCTTTTACGGCGGCCTTGGACA
CGTCCAGATTGTGCGCTTCGCCGAGCAGAGGCGAGCGCGGTGGTAGCATG
TTTGACGGGGCGCTTGTCTCGGCTGGGAGCGACGGGTCAGTTGCGTGGTG
GGAGTGGGCATTCGTTGAAGACGGGGCGCCCGGTGGCGCGTGCGGGCATC
CGTGCGGGCGCAAATCGACGATGCTTGAGGCGAGGGCTCGAATGGCTTGC
GGCATAGGTCCAGGGACCGCTACTTCAAGCGTTGCAATCGACGACCGTCG
TCAGCGCTGCCACCCTTCCGTGCGGAAAACCCAACCCGGAGGTGAGGAAA
CCAAGGAGTTCGCCGACGCCGTCGGTCCACCGGAGGGAACGGATGACCTG
CCATCAGCCAGGGCTGTTGTCTTTTGTGGAGACACCAAGGGCAACATTCA
CTGCTTCTTGGAGCAACTGCGTGCAAGTGGCAAGGAACAGGGCGTTCCGG
CTGAGAGCAGCGCAAATGGGGGTTTGGGAGAAGCCATGCCGCCGTGCTTA
GTTCTTAAGCGGCAGCACGGCAAGGACCAGGCTTGCGGCATAGGTCCAGG
GACCGCTACTTCAAGCGTTGCAATCGACGACCGTCGTCAGCGCTGCCACC
CTTCCGTGCGGAAAACCCAACCCGGAGGTGAGGAAACCAAGGAGTTCGCC
GACGCCGTCGGTCCACCGGAGGGAACGGATGACCTGCCATCAGCCAGGGC
TGTTGTCTTTTGTGGAGACACCAAGGGCAACATTCACTGCTTCTTGGAGC
AACTGCGTGCAAGTGGCAAGGAACAGGGCGTTCCGGCTGAGAGCAGCGCA
AATGGGGGTTTGGGAGAAGCCATGCCGCCGTGCTTAGTTCTTAAGCGGCA
GCACGGCAAGGACCAGATCAGTCAACTGGCTCTGCGAGGCAACTGCCTCT
TTTCCGCCGGGCACGACGGCCAGGTAAACCAGTACCTCGTGACCTACTCG
GCCTCTTCCTCGTCCGCACCCGTAGACCTTACGATAATGACGACCTACGC
GACTGCTCCGATTACGGCGGTCTCAGAAATGTGGTTGGGCACCGACCGGT
ATGTCGATGGCACACGAGGCTACGGAGAGGCCGGGCTAGACCCGACCGCG
AGGGGAAGCACGGTGAATGTCCGGCTTGCAGTGGCCGGCAGGTCTGGCTC
ATCCCGAATTTCGGTGTGGGACCTGACAGAAGCTCGCCAAATTTTAGAGA
TCAGTCAACTGGCTCTGCGAGGCAACTGCCTCTTTTCCGCCGGGCACGAC
GGCCAGGTAAACCAGTACCTCGTGACCTACTCGGCCTCTTCCTCGTCCGC
ACCCGTAGACCTTACGATAATGACGACCTACGCGACTGCTCCGATTACGG
CGGTCTCAGAAATGTGGTTGGGCACCGACCGGTATGTCGATGGCACACGA
GGCTACGGAGAGGCCGGGCTAGACCCGACCGCGAGGGGAAGCACGGTGAA
TGTCCGGCTTGCAGTGGCCGGCAGGTCTGGCTCATCCCGAATTTCGGTGT
GGGACCTGACAGAAGCTCGCCAAATTTTAGAGCTCGAATGTGGAGAAAGG
CACCTCGCCCAGGACCTTCTCCTGTCCTGGCCCACATCTGCGCGTGACCA
AAAAGGGGCAGGCTCGTCGTCCACCGTCGCCACACTGCCAGAATGGTCAG
ACGCCACGAATCGCGATACGATTGACAGAAAACGGCCGTCGCACGTTGGG
AGGGTGGCTTCGACTGCGCCGCCGCTGCTGGCGTTGCCCCTGCACACGTT
CGTCGTCGCCCGACCAATTTCCGGCCCAGAGAGCAACAGCATCGATGTCA
CCATCGCCGAAGGGGTAACGAGCCCCGCCACCACCGGGGATCAAGAGCTG
AAGAGTCAGGGCCACCGCCACCTCGATACTGGCAGCACGCGACCCAACGA
TCACACCGGCTCATCCGCTGCTTGGGACGGGGCGAGGAAACACGGTCGAC
ATGGCCGCAAGCGGCACGGAGTAGCGTTAGCGTTTCATTCGTCATTATTC
AGCCTTGCTCGGGGTGTAGATCACCGCTCAATCTCTTCTTGGCAGGAGTG
GCCTCGTGGGCACTGCGTCGCATCCATCGCTACACGGAGGATGGCGAGTG
AGGCCGCTGCGGTCCGTGACCGCAAGTCAGCTTCGGTAGCGGCGGGAAAT
GCAGTCAACGTCGCGGAGACCATCGAAGCAGACTATCATGACAAGGTTGC
AGCGGCGGGAGGCGTTCGCAAGCCTTCGCTCGTCCCCACAGATCTTGAGA
CGATCCCCTCCGAACCACACACCGTCTCGGCTCGTGCATTACGGCCAGAA
AGCGATGGTGGAGGCGGCGGTGATGTTGAAGGCGGGTATGCAAGCCTACA
GGTGCCGGACGAGTTCGGATACAGCCTCGGGAAGCCGTTTCACAGTCAAC
GTGTGGCGTCTGCGAGGTTCATCGCCGCGGCAGCTTCAAAAGGGAGATAT
GGGGCTAGGGATCCTGCGGATCTGCGCTTAGTCACAGCTCGAATGTGGAG
AAAGGCACCTCGCCCAGGACCTTCTCCTGTCCTGGCCCACATCTGCGCGT
GACCAAAAAGGGGCAGGCTCGTCGTCCACCGTCGCCACACTGCCAGAATG
GTCAGACGCCACGAATCGCGATACGATTGACAGAAAACGGCCGTCGCACG
TTGGGAGGGTGGCTTCGACTGCGCCGCCGCTGCTGGCGTTGCCCCTGCAC
ACGTTCGTCGTCGCCCGACCAATTTCCGGCCCAGAGAGCAACAGCATCGA
TGTCACCATCGCCGAAGGGGTAACGAGCCCCGCCACCACCGGGGATCAAG
AGCTGAAGAGTCAGGGCCACCGCCACCTCGATACTGGCAGCACGCGACCC
AACGATCACACCGGCTCATCCGCTGCTTGGGACGGGGCGAGGAAACACGG
TCGACATGGCCGCAAGCGGCACGGAGTAGCGTTAGCGTTTCATTCGTCAT
TATTCAGCCTTGCTCGGGGTGTAGATCACCGCTCAATCTCTTCTTGGCAG
GAGTGGCCTCGTGGGCACTGCGTCGCATCCATCGCTACACGGAGGATGGC
GAGTGAGGCCGCTGCGGTCCGTGACCGCAAGTCAGCTTCGGTAGCGGCGG
GAAATGCAGTCAACGTCGCGGAGACCATCGAAGCAGACTATCATGACAAG
GTTGCAGCGGCGGGAGGCGTTCGCAAGCCTTCGCTCGTCCCCACAGATCT
TGAGACGATCCCCTCCGAACCACACACCGTCTCGGCTCGTGCATTACGGC
CAGAAAGCGATGGTGGAGGCGGCGGTGATGTTGAAGGCGGGTATGCAAGC
CTACAGGTGCCGGACGAGTTCGGATACAGCCTCGGGAAGCCGTTTCACAG
TCAACGTGTGGCGTCTGCGAGGTTCATCGCCGCGGCAGCTTCAAAAGGGA
GATATGGGGCTAGGGATCCTGCGGATCTGCGCTTAGTCACAGGGGCCGAA
GACGGTGCCGTCAAGCTCCTTGAGGTGTTCTGTAGCCGCCGCCGAATCAA
CACCGAACAGCCTTCGACCGAGAGCACCGGTGGCCCCGTCCCGTCTTACG
ACCGAATCCCACACGGAACTGAAGAACCTGCGAGCGGGATGTTTCATCGC
CCCTACGCTAAGGTCGTCCAGACTCTATCTTCCCACGAGTCGTCGGTGGG
CGCCATGGCTGTGGGATTGTACGAAGGCGGTGGCGAAACCGATGGCGATA
AAATCGCTCACCCGAGAAGCCTCCAGTCTGCCCTTATTGTGTCCGGGGGA
GGCAAGATGTAAGGGCCGAAGACGGTGCCGTCAAGCTCCTTGAGGTGTTC
TGTAGCCGCCGCCGAATCAACACCGAACAGCCTTCGACCGAGAGCACCGG
TGGCCCCGTCCCGTCTTACGACCGAATCCCACACGGAACTGAAGAACCTG
CGAGCGGGATGTTTCATCGCCCCTACGCTAAGGTCGTCCAGACTCTATCT
TCCCACGAGTCGTCGGTGGGCGCCATGGCTGTGGGATTGTACGAAGGCGG
TGGCGAAACCGATGGCGATAAAATCGCTCACCCGAGAAGCCTCCAGTCTG
CCCTTATTGTGTCCGGGGGAGGCAAGATGTAA