mRNA_P-fluviatile_contig10.612.1 (mRNA) Porterinema fluviatile SAG_2381

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

Overview
NamemRNA_P-fluviatile_contig10.612.1
Unique NamemRNA_P-fluviatile_contig10.612.1
TypemRNA
OrganismPorterinema fluviatile SAG_2381 (Porterinema fluviatile SAG_2381)
Homology
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BLAST of mRNA_P-fluviatile_contig10.612.1 vs. uniprot
Match: D8LTM6_ECTSI (Phosphodiesterase n=2 Tax=Ectocarpus TaxID=2879 RepID=D8LTM6_ECTSI)

HSP 1 Score: 904 bits (2335), Expect = 0.000e+0
Identity = 464/618 (75.08%), Postives = 513/618 (83.01%), Query Frame = 1 
Query:  379 MEQGAAL--GRRSVRA-LDTRRDARSSRRVAAGLDDGAG-PTEADEDSFHRHVALETPLQQAARALEFVLDKYSPDARTQEKLEMVLNIISQPEDLHTVTIQSIMNADLDSSTTEWIEAQLSAGALKNSVNVSTGERKWNRLREGLHGVVHRMASEHRQVKPDINGVDTGMTSEQLKRQLEIGRAYNIEKTVAARSRRRSNTINVSELMCLTRTR----AKTTGGPILYEVDEHSNIDVEATEDDDQTAHRAIAELMPVWPGIAPEAQKGLVDHIAKKHFLDWGFDVFKLQELSGGHALWYTGMLAIYHYNLVGVFNVNPANLSRFLIHVEQNYCCDPAKPNPYHTSLHAADVTLTVAHFCENSIIASGIKALQGFALLVAAIVHDYRHRGVNNGFLIKVKDPLATTYNDSSVLENFHISEAFKVLYEDRTNIVDGLGVEEMRHFRQFIIKIILATDLAHGFEYVARFKASTTSKGGRRASIVPDMGREGPMSPGGTXXXXXXXXXXXXXXXXQAKDPLQAQILLMQMVLKVADVAHPMKPWELHERWTTLITEEFHRQGDLETEMGVPVSPLCGREGNNHAKSQCDFVDFVVRPCATVFSEFCKEQLWLTTLEGNYR 2208
            MEQG+     RRSVR   ++RRDARSSRR+A G  DG G  T+ADE+SF+RH ALETPLQQAAR LEF+LDKYSPD RTQEKLEMVLNIISQPEDL+ VTIQSIMNADLDSSTTEWIEAQLSAG+     N  TG  KWNRLREGL GVV+R+ASE  + K +ING DTGMTS+QLKRQ E+GRAYN+EK  + RSRR+S  INVS+LM L   R    AK   G ILYEVDE S +D E TED++   H A+ +LMP+WPGIAPEAQK LVDHI  +HFLDWGFDVFKL+ELSGGHALWYTG L +YHYN VGVF+VNPANLSRFL HVEQNYC DPA PNPYHTS+HAADVTLTVAHFCENSIIASGIKALQGFALLV+AIVHDYRHRGVNNG+LIKVKD LAT YND SVLENFHISEAFKVLY++ TNI+DGL  ++ RHFRQ +IKIILATDLAHGFEYVARFKASTTSKGGRRASIVPDMGREG  +PG                    KDPLQAQILLMQMV+KVADV+HPMKPW+LHERWT LITEEFHRQGDLE E GVPVSPLC REG+N AKSQCDFV+FVVRPCATVFSEFCK+++W+TTLE NYR
Sbjct:    1 MEQGSVSVGARRSVRVPTESRRDARSSRRIAVGAGDGTGGATDADEESFNRHFALETPLQQAARTLEFILDKYSPDQRTQEKLEMVLNIISQPEDLNMVTIQSIMNADLDSSTTEWIEAQLSAGSSLGVAN-PTGIVKWNRLREGLQGVVNRLASEFSEAKMNINGTDTGMTSQQLKRQHEVGRAYNMEKAASGRSRRQSANINVSQLMTLPGARSTGGAKPGAGSILYEVDESSQMD-EETEDEEHAEHEALLDLMPMWPGIAPEAQKALVDHITSRHFLDWGFDVFKLEELSGGHALWYTGTLTLYHYNFVGVFSVNPANLSRFLTHVEQNYCYDPAAPNPYHTSVHAADVTLTVAHFCENSIIASGIKALQGFALLVSAIVHDYRHRGVNNGYLIKVKDALATRYNDGSVLENFHISEAFKVLYDEETNILDGLSADDARHFRQLVIKIILATDLAHGFEYVARFKASTTSKGGRRASIVPDMGREGTSTPGLIGAPGSPGGMVGPPKGGATKDPLQAQILLMQMVIKVADVSHPMKPWDLHERWTRLITEEFHRQGDLEAEKGVPVSPLCSREGHNQAKSQCDFVNFVVRPCATVFSEFCKDRIWVTTLESNYR 616
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BLAST of mRNA_P-fluviatile_contig10.612.1 vs. uniprot
Match: A0A7S3XSI7_HETAK (Hypothetical protein (Fragment) n=1 Tax=Heterosigma akashiwo TaxID=2829 RepID=A0A7S3XSI7_HETAK)

HSP 1 Score: 333 bits (854), Expect = 1.340e-104
Identity = 169/366 (46.17%), Postives = 222/366 (60.66%), Query Frame = 1 
Query: 1120 LMPVWPGIAPEAQKGLVD-HIAKKHFLDWGFDVFKLQELSGGHALWYTGMLAIYHYNLVGVFNVNPANLSRFLIHVEQNYCCDPAKPNPYHTSLHAADVTLTVAHFCENSIIASGIKALQGFALLVAAIVHDYRHRGVNNGFLIKVKDPLATTYNDSSVLENFHISEAFKVLYEDRTNIVDGLGVEEMRHFRQFIIKIILATDLAHGFEYVARFKASTTSKGGRRASIVPDMGREGPMSPGGTXXXXXXXXXXXXXXXXQAKDPLQAQILLMQMVLKVADVAHPMKPWELHERWTTLITEEFHRQGDLETEMGVPVSPLCGRE-GNNHAKSQCDFVDFVVRPCATVFSEFCKEQLWLTTLEGNYRR 2211
            ++P +P  +P  Q G V+ ++A+  F DWGFDVF+   ++ GH+LW+  M+ +++YNLVG F ++   LSR L+  E+ YC DP +PN YH   H ADV LTV H+C N ++A  +    G ALL+AA  HDYRH G+NN  L+  + PLA TYND SVLENFH ++AF +L     + ++ LG   +  FR+  I++ILATDLA GFEYV++FKA   +  G                PGG                   ++P + ++LL QM LK ADV HP KPW LH RW+ LI EEF RQGD E   GVP+SPLC R  G N AKSQCDFVDFVVRPC   FS+ CKE  W   ++ NY R
Sbjct:    8 IVPPFPSFSP-GQMGKVEAYLAEHSFTDWGFDVFEFDAVAEGHSLWFVSMILLHYYNLVGAFALDARKLSRLLVRAERGYCYDPRRPNVYHNHRHGADVALTVFHYCNNPVMAQALDGTHGLALLLAAAFHDYRHPGLNNACLVAARAPLALTYNDQSVLENFHAAQAFALLLRPEHHCLENLGAAALGTFRKVFIELILATDLARGFEYVSKFKALLAAADG---------------GPGG---------------GPDFEEPGR-RLLLTQMALKCADVGHPAKPWALHARWSRLIAEEFWRQGDAERRRGVPISPLCDRHAGGNFAKSQCDFVDFVVRPCLVPFSKCCKEDRWTALVDANYAR 341
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BLAST of mRNA_P-fluviatile_contig10.612.1 vs. uniprot
Match: D7G4U4_ECTSI (Phosphodiesterase n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7G4U4_ECTSI)

HSP 1 Score: 337 bits (864), Expect = 4.800e-101
Identity = 169/364 (46.43%), Postives = 228/364 (62.64%), Query Frame = 1 
Query: 1120 LMPVWPGIAPEAQKGLVDHIAKKHFLDWGFDVFKLQELSGGHALWYTGMLAIYHYNLVGVFNVNPANLSRFLIHVEQNYCCDPAKPNPYHTSLHAADVTLTVAHFCENSIIASGIKALQGFALLVAAIVHDYRHRGVNNGFLIKVKDPLATTYNDSSVLENFHISEAFKVLYEDRTNIVDGLGVEEMRHFRQFIIKIILATDLAHGFEYVARFKASTTSKGGRRASIVPDMGR-EGPMSPGGTXXXXXXXXXXXXXXXXQAKDPLQAQILLMQMVLKVADVAHPMKPWELHERWTTLITEEFHRQGDLETEMGVPVSPLCGREGNNHAKSQCDFVDFVVRPCATVFSEFCKEQLWLTTLEGNYR 2208
            L+P  P +       +   +A   FL W F+VF L+E S GH+LW+  M A  HYNL+G F ++   LS+  + VE  YC  P KPN YHT +HAADVTLTV+HF     IA+ +++  G ALL+AAI+HDYRH GVNNG+L++  DPLA  YND+SVLENFH +E FK++ +   +I+ G   E+++ FR   +K ILATDLA   EYV++F++ T++       I  ++G   G   P G                    + +Q QIL++QMVLKVADVAHP KPWE+H +W+ L+TEEF +QGD E   G+ VSPLC R   N  KSQCDF+DF+VRPC T+FS +CK   W   L+ N+R
Sbjct:  397 LIPRLPILDESVVGNVASLLADGQFLKWEFNVFALEERSQGHSLWFAAMSAFSHYNLIGAFGLSVDRLSQLFLCVEATYCFSPEKPNSYHTHVHAADVTLTVSHFLSVDSIANTVRSTHGLALLMAAIMHDYRHPGVNNGYLVRDLDPLAVVYNDASVLENFHAAEGFKMVLDPTFDILKGWKPEDIQFFRHAFVKCILATDLALSLEYVSKFQSLTST-------INVELGSGSGTAKPSGKPSGGE-------------NNSIQVQILVLQMVLKVADVAHPCKPWEVHHKWSELVTEEFFKQGDKEAARGLAVSPLCDRRDQNLPKSQCDFIDFIVRPCVTIFSMYCKVTTWNDQLDSNFR 740
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BLAST of mRNA_P-fluviatile_contig10.612.1 vs. uniprot
Match: A0A835Z5P1_9STRA (Phosphodiesterase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A835Z5P1_9STRA)

HSP 1 Score: 342 bits (878), Expect = 7.980e-98
Identity = 212/613 (34.58%), Postives = 308/613 (50.24%), Query Frame = 1 
Query:  526 ALETPLQQAARALEFVLDKYS------------PDARTQEKLEMVLNIISQPEDLHTVTIQSIMNADLDSSTTEWIEAQLSAGALKNSVNVST--GERKWNRLREGLHGVVHRMASEHRQVKPDINGVDTGMTSEQLKRQLEI------------GRAYNIEKTVAARSRRRSNTINVSELMCLTRTRAKTTGGPIL---YEVDEH-------------SNIDVEATEDDDQTAHR--------AIAELMPV--WPGIAPEAQKGLVDHIAKKHFLDWGFDVFKLQELSGGHALWYTGMLAIYHYNLVGVFNVNPANLSRFLIHVEQNYCCDPAKPNPYHTSLHAADVTLTVAHFCENSIIASGIKALQGFALLVAAIVHDYRHRGVNNGFLIKVKDPLATTYNDSSVLENFHISEAFKVLYEDRTNIVDGLGVEEMRHFRQFIIKIILATDLAHGFEYVARFKASTTSKGGRRASIVPDMGREGPMSPGGTXXXXXXXXXXXXXXXXQAKDPLQAQILLMQMVLKVADVAHPMKPWELHERWTTLITEEFHRQGDLETEMGVPVSPLCGREGNNHAKSQCDFVDFVVRPCATVFSEFCKEQLWLTTLEGNYR 2208
            ALETP Q++ R L   +   S             +     +L  V ++++ P+ LH +   SI    LD+ T ++I+       L++ VN  T    + W +L+  +  + + + S HR   PD +    G     L   +E             G A                 ++ SEL      R       ++   Y  D H               +   A  + +   HR          + L+ V   PG++  + + + + ++ + FL W FDVF L+  S GH+LW+ GM+   HYN  G F +    +S  L+HVE+ YC DP KPN YHT LHAADVTLTVAHFCE  ++   ++     +LL+AAI+HDYRH GVNN +L+K  D L+ TYND SVLENFH SEAF+VL + + NI+    VE++R FR   IK ILATDLA  +EY ++F+++                                          ++ +   +QILL+Q++LKVADV+H  KPW++H RW+ +ITEEF +QGDLE   G+ +SPLC R   N AKSQCDF+DF+VRPC T+FS+FC+  LW  TL  N++
Sbjct: 1254 ALETPFQRSVRLLNDAIAMTSGGGSGGARGGGAANLELARQLRKVKDLLADPDSLHVLKPASIRRLSLDTGTRDYIQ-----NVLQSPVNTHTRSAAKNWRKLKVNV-AIFNAVKSAHR---PD-SAAREGSARAALGNDMESSDDSDTDQVRGEGWAGGAXXXXXXXXXXXGAAVSFSELNVTLERRQSQVHKTVVRSEYYKDPHCVSLDDLRDILAREGVRASALSNKNAKHHRPHDHHNAACPSSLLQVAMLPGMSAASMQQVQELMSNQKFLKWDFDVFDLEAKSEGHSLWFAGMMVFLHYNFAGAFKLPLEKMSALLLHVERTYCMDPTKPNHYHTHLHAADVTLTVAHFCEVQVVTHQLQGTNALSLLLAAIMHDYRHPGVNNMYLVKRFDDLSVTYNDQSVLENFHASEAFRVLMDPKYNILTKWVVEDVRAFRVTFIKCILATDLAFSYEYTSKFQSAVAIS--------------------------------------KSFESANSQILLLQVILKVADVSHATKPWDIHRRWSDMITEEFFKQGDLERGQGLQISPLCDRAQGNLAKSQCDFIDFIVRPCVTMFSDFCETTLWTDTLNTNFK 1818
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BLAST of mRNA_P-fluviatile_contig10.612.1 vs. uniprot
Match: A0A7S2WTV2_9STRA (Phosphodiesterase n=1 Tax=Rhizochromulina marina TaxID=1034831 RepID=A0A7S2WTV2_9STRA)

HSP 1 Score: 250 bits (639), Expect = 3.520e-68
Identity = 139/353 (39.38%), Postives = 190/353 (53.82%), Query Frame = 1 
Query: 1198 DWGFDVFKLQELSGGHALWYTGMLAIYHYNLVGVFNVNPANLSRFLIHVEQNYCCDPAKPNPYHTSLHAADVTLTVAHFCENSIIASGIKALQGFALLVAAIVHDYRHRGVNNGFLIKVKDPLATTYNDSSVLENFHISEAFKVLYEDR-------------TNIVDGLGVEEMRHFRQFIIKIILATDLAHGFEYVARFKASTTSKGGRRASIVPDMGREG-PMSPGGTXXXXXXXXXXXXXXXXQAKDPLQAQI--LLMQMVLKVADVAHPMKPWELHERWTTLITEEFHRQGDLETEMGVPVSPLCGREGNNHAKSQCDFVDFVVRPCATVFSEFCKEQLWLTTLEGNYR 2208
            DW  D+  L + +GGH+L     +    Y L+  F V       F++ VE+ YC DPA  NPYH + HAADV  TV+H      ++  + A   F+L VAAIVHDYRH GVN  FL+  +  ++  YND S+LENFHISEAF++ ++               T+I     VEE R FR ++I ++LATDLA G +Y++RFK         +   V D G     ++ GG                     P Q  +  LLMQM LK ADV+HP KPW  H +WT LI++EF  QGD E + G+PVS LC R+  +  KSQ  F++FVV+PC  V  +FC++     T E + R
Sbjct:  426 DWDIDILGLDQKTGGHSLLVVATVLFNQYQLLQNFKVPAETFEAFILKVEEGYCFDPAVRNPYHNASHAADVLATVSHMVLAGPLSERLNAFHAFSLFVAAIVHDYRHPGVNQNFLVNSRSEISLKYNDKSILENFHISEAFRLFWQGSKPGVEEGGQPLPSTDITQYFSVEEQRRFRAYVIDMVLATDLAKGMDYLSRFK--------NQLLRVADAGASSNSLTSGGA--------------------PSQEVVVSLLMQMTLKCADVSHPAKPWGTHIQWTELISQEFFLQGDQEKQQGLPVSMLCDRDKEDRPKSQIGFINFVVKPCFEVLVQFCRDHTPEDTPEVSSR 750
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BLAST of mRNA_P-fluviatile_contig10.612.1 vs. uniprot
Match: A0A7S1C4N6_9STRA (Hypothetical protein n=1 Tax=Bicosoecida sp. CB-2014 TaxID=1486930 RepID=A0A7S1C4N6_9STRA)

HSP 1 Score: 235 bits (600), Expect = 1.880e-62
Identity = 135/336 (40.18%), Postives = 180/336 (53.57%), Query Frame = 1 
Query: 1198 DWGFDVFKLQELSGGHALWYTGMLAIYH-YNLVGVFNVNPANLSRFLIHVEQNYCCDPAKPNPYHTSLHAADVTLTVAHFCENSIIASGIKALQGFALLVAAIVHDYRHRGVNNGFLIKVKDPLATTYNDSSVLENFHISEAFKVLYEDRTNIVDGLGVEEMRHFRQFIIKIILATDLAHGFEYVARFKASTTSKGGRRASIVPDMGREGPMSPGGTXXXXXXXXXXXXXXXXQAKDPLQAQILLMQMVLKVADVAHPMKPWELHERWTTLITEEFHRQGDLETEMGVPVSPLCGREGNNHAKSQCDFVDFVVRPCATVFSEFCKEQLWLTTLEGN 2202
            DW FDVF L  L+G   L    M+      +L+    V+   L+ +L  VE  YC DP   NPYHT++HAADVT    HF   S +   +   + FALL+AA+VHD+RH GV++ FLI     L+  YND SVLENFH +EAF ++     +++  +  E+ +H R  +I+ +LATDLA G  Y A FKA T+  G    S   DM                                    +LL+QM LK ADV HP +P  LHE+W+ LI+ EFH QGD E  +G+P+SPLC R+  + AKSQ  F++FVVRPC   FS FC    W   +  N
Sbjct:  596 DWDFDVFGLATLTGNKPLTPLAMVLFNERLSLLEPCKVDVDVLTTYLQTVEAEYCYDPDDRNPYHTNVHAADVTQAAGHFLTVSKVEDSVGTDEAFALLLAAVVHDFRHPGVSSNFLIATHHELSVRYNDQSVLENFHAAEAFALMRRPGLDVLGRMDDEQKKHMRFTVIQCVLATDLAQGQRYYASFKARTS--GDDFGSDDNDM------------------------------------LLLLQMALKCADVGHPARPLPLHEKWSNLISREFHMQGDKERVLGLPISPLCDRDNFDLAKSQQGFIEFVVRPCFEPFSAFCGVTTWNEHITHN 893
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BLAST of mRNA_P-fluviatile_contig10.612.1 vs. uniprot
Match: A0A482R7L7_9ARCH (3',5'-cyclic nucleotide phosphodiesterase (Fragment) n=1 Tax=archaeon TaxID=1906665 RepID=A0A482R7L7_9ARCH)

HSP 1 Score: 226 bits (576), Expect = 2.750e-59
Identity = 128/351 (36.47%), Postives = 189/351 (53.85%), Query Frame = 1 
Query: 1150 EAQKGLVDHIAKKHFLDWGFDVFKLQELSGGHALWYTGMLAIYHYNLVGVFNVNPANLSRFLIHVEQNYCCDPAKPNPYHTSLHAADVTLTVAHFCENSIIASGIKALQGFALLVAAIVHDYRHRGVNNGFLIKVKDPLATTYNDSSVLENFHISEAFKVLYEDRTNIVDGLGVEEMRHFRQFIIKIILATDLAHGFEYVARFKASTTSKGGRRASIVPDMGREGPMSPGGTXXXXXXXXXXXXXXXXQAKDPLQAQILLMQMVLKVADVAHPMKPWELHERWTTLITEEFHRQGDLETEMGVPVSPLCGREGNNHAKSQCDFVDFVVRPCATVFSEFCKEQLWLTTLEGN 2202
            E ++ LV+ +  +    W FD+F+ +  + G  L Y        ++L  +  +       F+  VE+NYC  P+  NPYHT++HAADV   + HF     +++ +     FA+L+A  +HD+RH G++N +L+K  DP+A  YND SVLENFH +E F V+ + + N++  L        RQ +IKIILATDL+ G  YV+ F   TT     RAS+  DMG++                                ++LLMQM++K +DV+H  + W +HE+W+ L+TEEF+ QGD E   G+ VSPLC R  +N   SQ  F+ FVVR   T  S+FC    WL  L+ N
Sbjct:  354 ERERELVERL--RTVTRWEFDIFEFERHTDGRPLAYLTHELFVRFDLFDMCALPTHVFIAFINCVERNYCYHPSVRNPYHTNVHAADVVQALGHFLVVPRLSNILDCWNAFAILLAGALHDFRHPGLSNAYLMKTGDPIAIRYNDESVLENFHAAEGFLVMCQPKYNVLAHLDAARRTSMRQQMIKIILATDLSQGGRYVSAF---TT-----RASVA-DMGQDD-----------------------------ADRLLLMQMMMKCSDVSHAAREWHVHEQWSWLVTEEFYLQGDAEAAAGLTVSPLCSRAAHNLPSSQLGFISFVVRGSFTALSDFCGVHTWLAQLDAN 664
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BLAST of mRNA_P-fluviatile_contig10.612.1 vs. uniprot
Match: A0A6U3TVK1_9STRA (Phosphodiesterase n=1 Tax=Dictyocha speculum TaxID=35687 RepID=A0A6U3TVK1_9STRA)

HSP 1 Score: 216 bits (549), Expect = 3.600e-58
Identity = 129/351 (36.75%), Postives = 175/351 (49.86%), Query Frame = 1 
Query: 1192 FLDWGFDVFKLQELSGGHALWYTGMLAIYHYNLVGVFNVNPANLSRFLIHVEQNYCCDPAKPNPYHTSLHAADVTLTVA----HFCENSIIASGIKALQGFALLVAAIVHDYRHRGVNNGFLIKVKDPLATTYNDSSVLENFHISEAFKVLYEDRT-NIVDGLGVEEMRHFRQFIIKIILATDLAHGFEYVARFKASTTSKGGRRASI-VPDMGREGPMSPGGTXXXXXXXXXXXXXXXXQAKDPLQAQILLMQMVLKVADVAHPMKPWELHERWTTLITEEFHRQGDLETEMGVPVSPLCGREGNNHAKSQCDFVDFVVRPC-ATVFSEFCKE----QLWLTTLEGNYRR 2211
            F DW  DVF++     G+ L       +  Y      +++   L  FL  VEQ YC  P  PNPYHT+LHAADV  +V     H C  S+    I     F L +AA++HD+RH GVN GFL K    LA  YNDSSVLENFH+SE+F+++      N +      +  HFR+ +I++ LATDLA   + ++ F      K     +  +P+                               +  +  IL++QM LK AD++HP K W +H RW+ LI EEF  QGD E   G+PVS LC R+ +     Q  F+DFVVRPC + V + F KE      WL  L  N R+
Sbjct:  190 FSDWSLDVFEIAPSLSGNMLPALMAAVMERYAFAERLSISARRLYYFLHAVEQRYCYTPHAPNPYHTALHAADVFGSVVYIINHVCNESLATRDI-----FTLYIAALIHDFRHPGVNQGFLTKTSHELALLYNDSSVLENFHVSESFRLMRSSSDMNFLVTASEADRTHFRKVVIQLTLATDLAKHAQVLSAFTQKFLQKSAHETTEEIPNR--------------------------VPCAEDEEGNILVLQMALKCADISHPTKKWSVHHRWSLLIVEEFFNQGDAEKLAGLPVSALCDRQNDQIHNMQIGFIDFVVRPCFSAVIAYFSKEPNFEHAWLQQLNANRRQ 509
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BLAST of mRNA_P-fluviatile_contig10.612.1 vs. uniprot
Match: V4B8T7_LOTGI (Phosphodiesterase n=1 Tax=Lottia gigantea TaxID=225164 RepID=V4B8T7_LOTGI)

HSP 1 Score: 212 bits (540), Expect = 1.580e-57
Identity = 118/334 (35.33%), Postives = 170/334 (50.90%), Query Frame = 1 
Query: 1177 IAKKHFLDWGFDVFKLQELSGGHALWYTGMLAIYHYNLVGVFNVNPANLSRFLIHVEQNYCCDPAKPNPYHTSLHAADVTLTVAHFCENSIIASGIKALQGFALLVAAIVHDYRHRGVNNGFLIKVKDPLATTYNDSSVLENFHISEAFKVLYEDRTNIVDGLGVEEMRHFRQFIIKIILATDLAHGFEYVARFKASTTSKGGRRASIVPDMGREGPMSPGGTXXXXXXXXXXXXXXXXQAKDPLQAQILLMQMVLKVADVAHPMKPWELHERWTTLITEEFHRQGDLETEMGVPVSPLCGREGNNHAKSQCDFVDFVVRPCATVFSEFCKEQL 2178
            I  K   DW F+VF + + S GHAL + G   +  Y+L+  F ++   L  FL+ +EQ Y       NPYH +LH ADV  TV H    S +A  +  L+ FA +VAA++HDY H G  N F +     +A  YND +VLEN HIS AF+++ ++  N+   L  EE R FR  +I ++LATD++  F+ +   K           S+  ++ +   +S                                  +VL  AD++HP K W LHERWT L+ EEF  QGD E E+G+P SPLC R+    A+SQ  F+DF+V P   V  +  ++ L
Sbjct:   88 ILLKSLDDWSFNVFNVNDASDGHALKFVGYELLQKYDLITKFKISSNVLDSFLVTLEQGYS---KYTNPYHNALHGADVAQTVHHLLSQSKLAQWLTDLEVFATIVAALIHDYEHTGTTNNFHVNTGSDVALLYNDRAVLENHHISAAFRLMKDEDLNVAHNLSKEEYREFRALVIDMVLATDMSFHFQQIKNMK--------NLLSMPENIEKSKALS----------------------------------LVLHCADISHPAKDWHLHERWTGLLLEEFFLQGDREQELGLPFSPLCDRKNTLVAQSQIGFIDFIVDPSFQVLGDMLEKVL 376
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BLAST of mRNA_P-fluviatile_contig10.612.1 vs. uniprot
Match: A0A8J5E549_9DIPT (Phosphodiesterase n=1 Tax=Bradysia odoriphaga TaxID=1564500 RepID=A0A8J5E549_9DIPT)

HSP 1 Score: 212 bits (540), Expect = 2.300e-57
Identity = 117/321 (36.45%), Postives = 163/321 (50.78%), Query Frame = 1 
Query: 1198 DWGFDVFKLQELSGGHALWYTGMLAIYHYNLVGVFNVNPANLSRFLIHVEQNYCCDPAKPNPYHTSLHAADVTLTVAHFCENSIIASGIKALQGFALLVAAIVHDYRHRGVNNGFLIKVKDPLATTYNDSSVLENFHISEAFKVLYEDRTNIVDGLGVEEMRHFRQFIIKIILATDLAHGFEYVARFKASTTSKGGRRASIVPDMGREGPMSPGGTXXXXXXXXXXXXXXXXQAKDPLQAQILLMQMVLKVADVAHPMKPWELHERWTTLITEEFHRQGDLETEMGVPVSPLCGREGNNHAKSQCDFVDFVVRPCATVFSE 2160
            DW FDVF L E + G  + Y G   +  Y ++  F V PA L  FL+ +E+ YC      NPYH +LHAADV  TV H    + +   +  L+ FA L+AA+VHD+ H G  N F +     +A  YND +VLEN HIS AF+VL ED  N++  L  EE R  R  +I ++LATD+++ F+ +   K   T                                           +P   +   + +VL   D++HP K W +H RWT L+ EEF RQGDLE E+G+P SPLC R     A+SQ  F++F+V P   V ++
Sbjct:   93 DWSFDVFALAEAANGQPVKYLGYDLLNRYGIIHKFKVPPATLEIFLVKIEEGYC---KFKNPYHNNLHAADVAQTVHHVLCQTGLMHWMSDLEIFATLLAALVHDFEHTGTTNNFHVMSGSDIAMLYNDRAVLENHHISAAFRVLNEDDCNVLGNLSKEEYRELRTLVIDMVLATDMSYHFQQLKNMKNLLT-----------------------------------------LAEPTVDKSKALALVLHCCDISHPAKKWGVHHRWTMLLLEEFFRQGDLELELGLPYSPLCDRNNTLVAESQIGFIEFIVEPSMGVCAD 369
The following BLAST results are available for this feature:
BLAST of mRNA_P-fluviatile_contig10.612.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D8LTM6_ECTSI0.000e+075.08Phosphodiesterase n=2 Tax=Ectocarpus TaxID=2879 Re... [more]
A0A7S3XSI7_HETAK1.340e-10446.17Hypothetical protein (Fragment) n=1 Tax=Heterosigm... [more]
D7G4U4_ECTSI4.800e-10146.43Phosphodiesterase n=1 Tax=Ectocarpus siliculosus T... [more]
A0A835Z5P1_9STRA7.980e-9834.58Phosphodiesterase n=1 Tax=Tribonema minus TaxID=30... [more]
A0A7S2WTV2_9STRA3.520e-6839.38Phosphodiesterase n=1 Tax=Rhizochromulina marina T... [more]
A0A7S1C4N6_9STRA1.880e-6240.18Hypothetical protein n=1 Tax=Bicosoecida sp. CB-20... [more]
A0A482R7L7_9ARCH2.750e-5936.473',5'-cyclic nucleotide phosphodiesterase (Fragmen... [more]
A0A6U3TVK1_9STRA3.600e-5836.75Phosphodiesterase n=1 Tax=Dictyocha speculum TaxID... [more]
V4B8T7_LOTGI1.580e-5735.33Phosphodiesterase n=1 Tax=Lottia gigantea TaxID=22... [more]
A0A8J5E549_9DIPT2.300e-5736.45Phosphodiesterase n=1 Tax=Bradysia odoriphaga TaxI... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-fluviatile_contig10contigP-fluviatile_contig10:45021..59368 +
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 score913.3
Seed ortholog evalue7.3e-263
Seed eggNOG ortholog2880.D8LTM6
Preferred namepde-3
KEGG rclassRC00296
KEGG koko:K13293,ko:K13755,ko:K18437,ko:K19021
KEGG ReactionR00191,R01234
KEGG Pathwayko00230,ko04020,ko04022,ko04024,ko04740,ko04742,ko04924,ko04927,ko04934,ko05032,map00230,map04020,map04022,map04024,map04740,map04742,map04924,map04927,map04934,map05032
GOsGO:0000302,GO:0006935,GO:0006950,GO:0006979,GO:0007154,GO:0007165,GO:0007275,GO:0007568,GO:0007602,GO:0007610,GO:0007635,GO:0008150,GO:0008340,GO:0009268,GO:0009314,GO:0009416,GO:0009581,GO:0009582,GO:0009583,GO:0009605,GO:0009628,GO:0009636,GO:0009893,GO:0009966,GO:0009968,GO:0009987,GO:0010035,GO:0010259,GO:0010446,GO:0010468,GO:0010604,GO:0010628,GO:0010646,GO:0010648,GO:0010752,GO:0010754,GO:0019222,GO:0023051,GO:0023052,GO:0023057,GO:0032501,GO:0032502,GO:0040011,GO:0042221,GO:0042330,GO:0042493,GO:0042542,GO:0046677,GO:0048518,GO:0048519,GO:0048523,GO:0048583,GO:0048585,GO:0048856,GO:0050789,GO:0050794,GO:0050896,GO:0051606,GO:0051716,GO:0060255,GO:0065007,GO:1901700,GO:1902531,GO:1902532
EggNOG free text desc.calmodulin-dependent cyclic-nucleotide phosphodiesterase activity
EggNOG OGsKOG3688@1,KOG3688@2759
EC3.1.4.17,3.1.4.53
COG Functional cat.L
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
BRITEko00000,ko00001,ko01000
Hectar predicted targeting categorysignal anchor
Ec32 ortholog description3'5'-cyclic nucleotide phosphodiesterase
Ec32 orthologEc-28_003520.1
Exons16
Model size2214
Cds size2214
Stop1
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-fluviatile_contig10.612.1prot_P-fluviatile_contig10.612.1Porterinema fluviatile SAG_2381polypeptideP-fluviatile_contig10 45021..59368 +


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

Feature NameUnique NameSpeciesTypePosition
1622815362.505575-CDS-P-fluviatile_contig10:45020..452061622815362.505575-CDS-P-fluviatile_contig10:45020..45206Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 45021..45206 +
1693561611.210147-CDS-P-fluviatile_contig10:45020..452061693561611.210147-CDS-P-fluviatile_contig10:45020..45206Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 45021..45206 +
1622815362.518686-CDS-P-fluviatile_contig10:46413..467761622815362.518686-CDS-P-fluviatile_contig10:46413..46776Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 46414..46776 +
1693561611.222832-CDS-P-fluviatile_contig10:46413..467761693561611.222832-CDS-P-fluviatile_contig10:46413..46776Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 46414..46776 +
1622815362.531838-CDS-P-fluviatile_contig10:48796..488851622815362.531838-CDS-P-fluviatile_contig10:48796..48885Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 48797..48885 +
1693561611.2322469-CDS-P-fluviatile_contig10:48796..488851693561611.2322469-CDS-P-fluviatile_contig10:48796..48885Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 48797..48885 +
1622815362.5451195-CDS-P-fluviatile_contig10:50133..503291622815362.5451195-CDS-P-fluviatile_contig10:50133..50329Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 50134..50329 +
1693561611.402431-CDS-P-fluviatile_contig10:50133..503291693561611.402431-CDS-P-fluviatile_contig10:50133..50329Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 50134..50329 +
1622815362.5599935-CDS-P-fluviatile_contig10:50925..510001622815362.5599935-CDS-P-fluviatile_contig10:50925..51000Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 50926..51000 +
1693561611.4193032-CDS-P-fluviatile_contig10:50925..510001693561611.4193032-CDS-P-fluviatile_contig10:50925..51000Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 50926..51000 +
1622815362.5732703-CDS-P-fluviatile_contig10:51728..518211622815362.5732703-CDS-P-fluviatile_contig10:51728..51821Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 51729..51821 +
1693561611.4295616-CDS-P-fluviatile_contig10:51728..518211693561611.4295616-CDS-P-fluviatile_contig10:51728..51821Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 51729..51821 +
1622815362.5877964-CDS-P-fluviatile_contig10:52218..523231622815362.5877964-CDS-P-fluviatile_contig10:52218..52323Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 52219..52323 +
1693561611.439321-CDS-P-fluviatile_contig10:52218..523231693561611.439321-CDS-P-fluviatile_contig10:52218..52323Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 52219..52323 +
1622815362.6015265-CDS-P-fluviatile_contig10:52834..529541622815362.6015265-CDS-P-fluviatile_contig10:52834..52954Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 52835..52954 +
1693561611.4493184-CDS-P-fluviatile_contig10:52834..529541693561611.4493184-CDS-P-fluviatile_contig10:52834..52954Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 52835..52954 +
1622815362.6158264-CDS-P-fluviatile_contig10:53755..538451622815362.6158264-CDS-P-fluviatile_contig10:53755..53845Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 53756..53845 +
1693561611.4634082-CDS-P-fluviatile_contig10:53755..538451693561611.4634082-CDS-P-fluviatile_contig10:53755..53845Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 53756..53845 +
1622815362.6323352-CDS-P-fluviatile_contig10:54966..550951622815362.6323352-CDS-P-fluviatile_contig10:54966..55095Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 54967..55095 +
1693561611.4729133-CDS-P-fluviatile_contig10:54966..550951693561611.4729133-CDS-P-fluviatile_contig10:54966..55095Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 54967..55095 +
1622815362.6461504-CDS-P-fluviatile_contig10:55494..555991622815362.6461504-CDS-P-fluviatile_contig10:55494..55599Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 55495..55599 +
1693561611.4820707-CDS-P-fluviatile_contig10:55494..555991693561611.4820707-CDS-P-fluviatile_contig10:55494..55599Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 55495..55599 +
1622815362.6574354-CDS-P-fluviatile_contig10:56446..566021622815362.6574354-CDS-P-fluviatile_contig10:56446..56602Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 56447..56602 +
1693561611.4926367-CDS-P-fluviatile_contig10:56446..566021693561611.4926367-CDS-P-fluviatile_contig10:56446..56602Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 56447..56602 +
1622815362.6729212-CDS-P-fluviatile_contig10:57526..577661622815362.6729212-CDS-P-fluviatile_contig10:57526..57766Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 57527..57766 +
1693561612.7026057-CDS-P-fluviatile_contig10:57526..577661693561612.7026057-CDS-P-fluviatile_contig10:57526..57766Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 57527..57766 +
1622815362.6862977-CDS-P-fluviatile_contig10:58155..582221622815362.6862977-CDS-P-fluviatile_contig10:58155..58222Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 58156..58222 +
1693561612.7239013-CDS-P-fluviatile_contig10:58155..582221693561612.7239013-CDS-P-fluviatile_contig10:58155..58222Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 58156..58222 +
1622815362.694594-CDS-P-fluviatile_contig10:58516..586471622815362.694594-CDS-P-fluviatile_contig10:58516..58647Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 58517..58647 +
1693561612.738527-CDS-P-fluviatile_contig10:58516..586471693561612.738527-CDS-P-fluviatile_contig10:58516..58647Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 58517..58647 +
1622815362.7038279-CDS-P-fluviatile_contig10:59299..593681622815362.7038279-CDS-P-fluviatile_contig10:59299..59368Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 59300..59368 +
1693561612.7486436-CDS-P-fluviatile_contig10:59299..593681693561612.7486436-CDS-P-fluviatile_contig10:59299..59368Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 59300..59368 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-fluviatile_contig10.612.1

>prot_P-fluviatile_contig10.612.1 ID=prot_P-fluviatile_contig10.612.1|Name=mRNA_P-fluviatile_contig10.612.1|organism=Porterinema fluviatile SAG_2381|type=polypeptide|length=738bp
MGGSYKRPLPKVTAQNSRRKRLACMGTGVASVLFVLVAFVLQVVEEGSWV
PALTTAAAFVLQVVCGIIFWRISGQRTSLGIGYDQKTLNRIPLVEGSSWG
TGLHVGEGAAGGRRLEVSGGRSKVAAMEQGAALGRRSVRALDTRRDARSS
RRVAAGLDDGAGPTEADEDSFHRHVALETPLQQAARALEFVLDKYSPDAR
TQEKLEMVLNIISQPEDLHTVTIQSIMNADLDSSTTEWIEAQLSAGALKN
SVNVSTGERKWNRLREGLHGVVHRMASEHRQVKPDINGVDTGMTSEQLKR
QLEIGRAYNIEKTVAARSRRRSNTINVSELMCLTRTRAKTTGGPILYEVD
EHSNIDVEATEDDDQTAHRAIAELMPVWPGIAPEAQKGLVDHIAKKHFLD
WGFDVFKLQELSGGHALWYTGMLAIYHYNLVGVFNVNPANLSRFLIHVEQ
NYCCDPAKPNPYHTSLHAADVTLTVAHFCENSIIASGIKALQGFALLVAA
IVHDYRHRGVNNGFLIKVKDPLATTYNDSSVLENFHISEAFKVLYEDRTN
IVDGLGVEEMRHFRQFIIKIILATDLAHGFEYVARFKASTTSKGGRRASI
VPDMGREGPMSPGGTMGPAGQGSVGGKGAAGQAKDPLQAQILLMQMVLKV
ADVAHPMKPWELHERWTTLITEEFHRQGDLETEMGVPVSPLCGREGNNHA
KSQCDFVDFVVRPCATVFSEFCKEQLWLTTLEGNYRR*
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mRNA from alignment at P-fluviatile_contig10:45021..59368+

Legend: polypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-fluviatile_contig10.612.1 ID=mRNA_P-fluviatile_contig10.612.1|Name=mRNA_P-fluviatile_contig10.612.1|organism=Porterinema fluviatile SAG_2381|type=mRNA|length=14348bp|location=Sequence derived from alignment at P-fluviatile_contig10:45021..59368+ (Porterinema fluviatile SAG_2381)
ATGGGGGGGTCGTACAAGCGACCTCTCCCGAAAGTCACAGCCCAAAATAG
TCGTAGGAAACGGTTGGCGTGCATGGGCACCGGCGTGGCCTCTGTTCTGT
TCGTGCTGGTGGCGTTTGTGCTGCAGGTGGTGGAGGAGGGGAGCTGGGTT
CCGGCGCTCACGACCGCCGCGGCGTTTGTATTGCAGGTATAGTCATGCCG
CAAGGCTTTAAGGAGAGATAGCGAACGGGGATTCAGTAAGTGATCTTCAA
TCTCTCCGATACCTCGTGGCAGCGTCGCACAAGGGTATCAGAGAATGTGC
TCTACTAGCTGGGGTGGACTCGTTGGGAGTAGGCATCATTAAAAACCTCG
ATGGTCTGCGTTGAAGGGTGCACACCGCATGAAGCGAACACTTCCGGCGA
TGTGCATCTACGTTGCAACTCGGTCGAATGCGTTGGAGATATCCACATCA
AACCGCCTGTGCTTTCTCACCCCCGAGTGTTGCGCCAAGATCAGGCTCGA
ATGTTCAACGCGAAGAGGCAGCCGTGCGTCCCGGCACCGTTGAATTTATT
GGCCGAGACATCCTTGCAATGCACCTGCATCGTTTCCATTCAAGTTTAAG
GAGGAAAAGATAACGTGACCACCGGTATCGTACCACCTCCCCAATTAACT
CCAAAATAAGTCTCAAGACTCCGTGAGCTATCGCGGGTTGTTGGCTCTCA
TTGCCGGCGTCTGAACATACAAACCGAATCGATTTGTCATGCCTGGTGCT
CCCTTCCCAGCCCCTCTTAGGAATTCAAAAGTGTGCTGACACACGTTTCT
GGCGAACTCAAAAAGCGATCTCTGCTTTTTTAAGGATAAATTTGAAAGTA
ACCGGACCATATCATGGTTTTGCTCCAAATGTGTAAGGTGAAGGCACACA
GTTGCCCTCTGACAGTTAGACGTGTACAGAGGCCATGAAACGCGTCATTG
TGCTCCCTCCTTACCTCCAATCGTAGTACAAGATACCGAAGAGATACGTC
AGTAGAAAAACCCACTTTTTCTAGACTTAGGTATGCTTCTAAACTTATGG
GCACATCACGCTCCCTGCCTTCAAGATAGCTGAAGAATTCTTGTTTGCGC
CAAATTATGAGATGTTTTCAATTTTGAAACTGAAACGAAAGAGGCCGTGC
TGGGGCTTTGTCGTCTGAACTAAGTCGCTCGGATGGGAGTTTAATTTGCG
GCATTGCATGCACGGGTGAGTTTCCTCCAGGATTGGAGGGGTTTCGCAAA
CTGCAAGAATGTACTCCAACACCCAGTACAGTGCTCACTCTTCCATTCTC
ATACGCTTGAATGCACTGGTCAGCGTATGACGCAGGTAGTTACCGACAGG
AAGAGGCCTAATTTTTTCTATCCTGTTCTCTGATCACTATCAGGTGGTTT
GCGGCATAATTTTTTGGAGAATATCGGGACAACGGACATCCCTTGGTATT
GGATATGACCAAAAGACATTGAACCGCATTCCTCTGGTGGAGGGATCCAG
CTGGGGGACCGGCTTGCATGTGGGCGAAGGCGCCGCGGGGGGACGGAGGT
TAGAGGTCAGCGGCGGGAGGTCGAAGGTGGCAGCGATGGAGCAGGGTGCT
GCCTTAGGACGGCGATCTGTGCGAGCTCTTGACACAAGAAGAGATGCTAG
ATCGTCGAGAAGGGTAGCGGCAGGGCTGGACGACGGGGCAGGTCCGACAG
AGGCGGATGAGGACTCTTTTCACCGACACGTGGCCTTGGAGACACCGTTG
CAGCAGGTGTGCACCAGCCGAAAAATGGATTAGGAAGCAATCAATGATCG
TCCCTAACGCAAGGATTGGACTGTATTTTTTACCCAGACCATGGTTCGGA
CGGTTTTTCACGAAGCGCTCGTAGTACCTTTTAGTCAGGGCAAGAAAACA
TCAAGTCACAGCAAACCTTATGGCGCTGGACCGACCGAAGACGATCAAGC
TGTCAACGCAAACGCCCGAATCATCACACCCAACAAAAGCAGCTTGGGCC
CCTCCCCCAAAACAGAAGGCACCACAGGCCAGTAGAACACGCTGCAAGGT
ACCAGCTTTTGCTGACTCAGTGTAACGTTGATTAAGGTGCTTTGGATGTG
CTGGGCTCTGAAGCCAGAGAGGAAACCTCATCTCAAAACAAACTCGGAAT
ACGTGAAGCCGCCGAGTTGTCGCCGTCGTGCTTTCCCGGAGTGGTGTTGC
TGTTTGACTGGTGCCTCCCTCAAGATATCTCAAAAGTGGTTCTATGGCTG
AACACCGTGCTAAAGATGGTACGATGGTGACACCGCGGTGACTTGGGCTT
GGGACCCCTACATCGTCGCCTGATCCACTGCAGAAGGGGAGCAAGGTCGA
GCAAAGAATGTTTCGAGACGGAACTTTTCAACGATGAGAATGAGAAATGC
CCCCGAACAACAACAGATGTTGCAACTCATCGACCTCGGTCGTGTTGCTG
TCGGTAGTGGGGGTGACAGCGATGTCTTAATGTTTCACGACTCAATATCA
CGAGTCACAGAATATTTTTCATCCGCATGAGTCTGTCTCCCTCTCTCTGC
ATGTTGAGATGCAGAAGCAAGGACGCCATCCCTCGGAGGTGTAGATGCAG
GTTGAGGTGAAGCTGATTATGTCGATCCAAGCAGAATATGTCTGAAAACG
AAGCAACTGGCAGATTCAAGTTTTTTTTTATCGAAACAAAGGATGGAATG
GAAAGCATCATCATAAACCGGCTATGCTTTACGTGCAAGCGCACCATCTC
ACCGGAGTCCCATCCTCGATGATGTTCTCATCCTGACTTTACCAGAATCG
CAAAAAATAGGGACCAACTGAGGATGGCAAAGGCCGTTGCCCAAACACCA
AAGCACTTACAAAAACCGACCAAACAAGGGGGGGCGAGAAGCGCGTGCGG
AAATGACAATTTAATTCGAGAATTTCACGCGATCTCACGAACCTAAGCAT
TGACCACCGTGTCGCTGAGTGGCCGGCGTCTTTTCGAGTGTGTCATGCTC
ACCAGATGAGTAGCACCTGACTTGCGCCAATGGTTGTGCCAGTGAAAGGG
CTACAATTGTAGATGTGGTTTCTCCTGATTGACGCGTGAGTTTCGTCGGA
TTCCTCCGTGGAGCTGCTGGATTTGCGCCTACGATCATCGACTATTTATG
GTGCTCAGAACGTAGGCAGGCGGCACAAATAGACCATACTGGTCTTCCGC
TTTGGATCATACGGTAGACTTAAAGGGTAACCGGCTTGTGTTACGTCTGG
GCTTCTCACATTGATTTTGAAACTTGTCTATTGTGGTTGACGCTACTCTA
ATGCACACATTTCATTCATTCGCTGCGGTCGAAATTCCGCGGTGATGGAC
TCAACCATCGCCCAATGTTTTTTGAGGTTCGTTAAAGAGAATCGAAGCCG
ACGTATCGTAGAGCTTCCACTGCTGCTAAAAAAATATTTCGTCCGGTTGC
TGTGATTTCCCTGAAGTCTGAGTTGCAGCACCAACTCAGCAGAACTTCGA
GCTCCGATTTCTGTCCTCAGTGAGACTTGTCCAACCAGCGTGGCACAGAA
TCTGAGTGTGGCAGGCGGGTCGTCGGGGCTTCTAAAGGCATGTCGTCGGC
ATCCGACCTTGGATATTCTTGCATGTGTCGCGCTTTCTTTCACGTCCTCG
CGCTCGATTCTCAATCGCTCCACAATTCCCAGACGAGATGCTTCCTGAAT
CCCTATGGAACTTAATGGCGCACAGAGTTTTAATACGAAACATGCATGAC
GGCCGACTTCAACTCCGCCCATGCAGGCTGCGCGGGCATTGGAATTTGTG
CTCGACAAATACTCACCAGATGCAAGAACCCAGGAAAAACTGGAGATGGT
CCTCAACATCATAAGGTGAGCAGGAAACAGTGAACGCAGCCTCATTTGCC
TGCCATAATTTGATGTCCAAATAAAGAGAACAATCGTAGGTCGGAGCGAA
GAACAAGGGCTGCAAAAGCAGTTGAAACATGCGACCATGCGTGTCGAATG
CACGGAATGCAAGCCTTTCTGCAATGTCGTCAGAAGGATACCCCCCGCTG
TCGGAAGCGGGCGGGGTGGGGAGTAATTTTGCCTGCACAAGAGATCAAAA
CTCAAACACAAGGACTTTTGAACAACCAGGGTACATGGCATGGACTGCAT
ACACCCCGAGATGCACAAGCGGAGGGCTTCCAAAACATGTCTGTTTGGCA
AAGACGTAGCACAGTTCGCCTGATTGTTGAGATTGCTTGTTCGTTGTTTC
CGTGCTACTTTGGGTGGGGAGCAGAACGCTCAGCCCCGATCAATTTTCAA
TTTAGGAAGAAGGCAAGCCTCGGGAGGTGGGTTCAAGATTTCGGTTCTGC
CACCAAAACGATTTCTAATAGGATGTTATTTTGCCGAACTGAGTCCCGCC
GTAGCCTTTTATTTGTCCATGCTCTTCGTGATCCACACGCAAGCAGCGAA
GCAATCGATGCCACGCGTCTGCAAAAACTCCTCTCAAATCCACGTCGTCT
TGAATATGCCAACGCACACGGCCACGAAGCAGACACCGTAATGGGATTGC
GTTTCCTCCCACGTCGTCGTACTGCTCAAGGACAACGTTGAACAGGTTTC
GAAAGACGAAATTCTGTAGCAATGGCCTGTTGAATTGCACTTGCTAAGGA
AGAGGACGGTACTGCTCTACACGAGGTTTCGCTACTTGGATGTCCATGGC
GGCCAGTTTTGTCATCCGCCGAGCGTGTAAACACTTGAAGTGGCTTTTCG
CCCCGGGCAGCATCTCATCAGCCCGTGTATTTCTTTCTCCGGAAACAGCC
TATCGTCCACACACAAACCCTCCGAGCCATAACTGGATAAGGGCTGAATG
AGTCTTCATAAGCTTGCCCCGCATCCCCCATGGCTTCCCTGAACTGATAG
ATGGTATCACTACGTGAGGAGTGACGTGATATATTTGACGAACACAATAC
CTCTATTGCTGCTACATTGCACGGGAGAGCGGATTTTGAAGCACAATCAG
ATCCAACCCTTTTCACGAGCGTTGTGTACCCTGGCCTATCCGCGCCAAAA
TACAAGCTCGCAATCCGCGGCCCTCAACCAAACCGGCCCCATGCGCTTGT
CCTGGTCTCACAGCCAACCAGAGGATCTGCACACGGTGACGATTCAGAGC
ATCATGAATGCCGACCTGGACTCGTCGACAACCGAGTGGATCGAGGCGCA
ACTCTCGGCGGGGGCGTTAAAAAACTCGGTCAACGTCTCCACGGGGGAGA
GGAAGTGGAACCGGCTCAGGGAGGGGCTGCACGGTGTTGTGCATCGCATG
GCGTCCGAGGTGAGTAGACGGATAGACGGGTAAGTGAAGTTAACCGAGAC
GCTCCCCTTCCCTCTCATTCTTGAACGGGCTCGCCGGTGAGGGCTTCCAG
CTGACGTAAAGAGTGCCAACAGCCGCTGTGATAGGCGGCAAAAGTTGGGA
TGTATCGTTTCTAAAAGTGAACTTTACTTCAGGGTGGAGCGGTTAGTATC
CCAAATCGTGTCCACTAGCGAAGGCACGGCAGGCGGCGCGAGGGACTTGT
AGAGCGCAGCAGCCGTCTGGCATAGCACTTTCCACCTCCCTCTGAATCGG
GGAGTGGGAAGTGGGTCGCGCGCATGCTTTGGAAAGCGAGGGTCCGCTGA
CGAGTCAGACATCGGGAAAGCTCTCGCTGATTTTATCACGCACTCGCAAG
GGAAAACACATGTTCCTTTAGACGACCGAGGGAAAACACCCTCAGGCAGA
GTATTAAAACCTCACCACTTGGATACATGCAGCCTGTAGGGTGTCCTGGC
AATAGCATCAGGAGACCAGGTGCAAAATGCTTTGAAGTAAGTGTATGGGG
TTTTTCTCACTGCTGGTAAATGAACCATTTCTTTGTGGCTGAATGACACC
GGCAGCATCGGCAGGTGAAGCCCGACATAAATGGAGTTGACACGGGCATG
ACATCGGAACAACTTAAACGGCAACTGGAGGTGACGAACCAGTCGACATG
TTGCTTTAATTGTTGCTATTGATGGTGCCGTCCTCGATAACTGCGGTTTC
CAATAGAATGTGCTAATTTTCCTGTTCGGGGGTTCAGGTAAAAGCCAGAA
CAGACGCGAGGGTATCAGGTGCTGCAGATCTGCCGTAGACGATCGTTGGG
AATATTGACGTTCCTGATGATTTGTTGTGTTTGTGTCCAGGAGAAAGATT
TGGTTTCGAAAGGTTTCGAAAGGTTTCGAACGGTTTCGAACGGTCATCGG
CTGACCAGGCGAGCGCACAAGAAGCGTGCATCGATTCTAACCTGCCTTTC
CACGCACATTCTTCCACTTCATTCATCCATGCATCTGTTGCCTATTTACG
GTTGATTCGCGCCACTTGTTTCTCTTCCCCCCTGTCTTGTCGTTCTTTTA
TTTTTGTTTTTGAAGTCCGCAAAGAGTGGTCAACATCAAAAAGTAAAGCC
GAAGCCATGGTCATGCCTTCACGAGGAAGTGCCTTTGTTAATGTTGTCCT
GGATTGTTGCATTTAGGGAAGGTGGAAATGCATCCGTCATGATTTCGAGA
ACGCGTGTGATGTTTATTGTTTTGCCACGAAGAGGAGAAGATGCGACTTC
TTCGCTCTGCTCCCAAGAAATTGCGCGACGCGCTTAGACTCCATCCCTAG
TTTTCGTTATTTTTCCTCGTAGGCCACTCCTCATTTTTCTGTCCTCTTGA
ATGTACAGATTGGGCGCGCATATAACATCGAGAAGACGGTCGCTGCGAGA
TCAAGACGGCGATCGAATACCATTAACGTCAGCGAACTTATGTGCCTTAC
GGTGAGTACCCTCTTCACGTTGTGCATACCCCATCATTATCTTTCATTAA
CATACTTTCGTGTACATTTCTTGATGTAGCTGCAGCTCTCGTCATCTTCT
TCCGTCGTCGGCTTGATGACTTATGTTGGCAATCGTTGCCTTCACGCCTA
TCGCTGTTGTTGCTCCCCTTCTACCCTTTCCGCTTCTCCTGCTGGCCGGA
ATCCTTTTTTCAAGGCGCCCTCTACTCGGCACCAATAAAGTCCTGGACTA
TCGTGTTATGACATTTTCGCGTTTTCGAAAAAAGTGGTCTCAGTTACCGG
CGTCTGAACGAGTTCGTGTTTCACAGGAGTCCTCGACCCGTCGCATTTTC
TCTTTGGGCGCTTTTCTCCCTGCTGAATCTGCGTATTTGCCGCCCCAGAG
GACACGTGCGAAAACGACGGGGGGCCCTATCTTGTACGAAGTGGACGAGC
ACAGCAATATAGACGTAGAAGCGACGGAAGACGACGATCAGACTGCACAT
CGGGTAGGAGCTCCACTTGAGGCTGCGTAAGGGTGATTCTTCGCTTTTGT
GCTGGGCAGACGACAGGTTGTGCACACAGTGTCAAAATCTGTTTCAATTA
TTAGTAAGGACTGCAGGATCGAGAACAAGAAGTTGTTCAGTGTTCGTGGA
ATGATGCACGGTAGAGTATTTCCAAAGCAAAGCGTAATCCTTTTTGACGA
TGCGAGTTCGCCCCGACAGAAGTTCACTGTTCTACATCTCGCGCCTCTCC
TGCGTGGAAGGTCCAAACATATTGTATTTTGACTGTTTTTTCGATGCAAA
TCGCACTCACTCGAGGTTCTAATATTCCACATGTCCGGGTGGTTTGACAA
TCGAAGTCAGTGTCAGTTGTTTTCTACACGCCGGCTTTGCTACAAAGGCG
AGGAGAGGGTTGCAGTCCGCCTTTTGATATGATCCCGCGACAACAGACAA
ACTTCTGCGGTCACATGTCACGGCCTTGAACATCCGCATGAACAAATGCC
GTGCTAAACAACAGGCGATTGCGGAGCTGATGCCCGTGTGGCCAGGGATA
GCACCGGAGGCACAGAAGGGATTGGTGGACCACATTGCAAAGAAGCATTT
CTTGGATTGGGGATTCGACGTCTTCAAGCTTCAGGTAATTTGACGCGGCG
TCGGATTGGATTAGTACCGGGAAGAAGGCACCACCCCCGCCTAAAGAGAG
AGCTTCACGGGTAATGGAAGTTTAGGCATGCGTCCAAAAGGGCAGTTGCC
AAGGTCATTGCTGTTTCACGGCTCACTTGATCGGGAATGAATCTGATTGG
ATGAAGCTGCCACGTCAAAAGGAAGGAAGTCAATCAGGCTTAAGCTTTAA
GCCAAAAAAGCAGCGCCTCGGGTGATGCCAGGGATGCACACATCTCGCTG
AAGGAAGCCTTTCGGGGGAACTTTTCGCACCTCACCTGAACCCCCACTCG
CACATGGTGTAGCTAACCCTAACCCTAGGAGTGTCAATCTTTATCCCTGG
TTAGTGATCAACCAGTAATACACTTTCTCGGGCAGAGATGATATTCTGCT
TGATGATATAGAGATGCGGACGTCGTAGCAAACTAGTAATTGAAACTTTG
GCCAAACTTTGACCATGCTTGATGTTAGGTCGACCCCCAACTCGTTTCCA
CTCGATATAAGGCAAATGCCTGAAGCTTTCCTCCTGTCCCCCCGGACAAA
TTTTTGGGTTGATGCATTACCTTCCTCATTGCTCTGTTTTACTGTTCCTC
TGAGAAATGCCCCAAGAAGCCACGTGGACCTTGCAAGAAGGTTCGTCATC
GCTTCAAGTCCATGACGGCGAAGTAACATCTCCAACGCGCGTCAACTACC
ACCTCGGATAAAAAATGGTAATAGCGTGAGAGAGATGGCACTTAACCCTT
TCAAAAAGTTGCCTCTGCCTCTACCTCTGCCGCAGGAATTGTCGGGAGGG
CACGCGCTGTGGTATACGGGGATGTTGGCGATATACCACTACAACCTCGT
CGGCGTTTTCAACGTGAATCCTGCGGTGAGAAGCCTAGCTTGTTTCTTAC
ACTAACCCAGACCTTATCCCTAACCCTACATGAAGATCTAGGCTTGGCCC
TAGCTCAACCGAATCCATGTCGAGCCCGGGTGCATCCAAGGGCCACGGCT
ATGACTGAATTGTACGAGCATCCGTGGAAACAACTTCTGGTGGCGACATC
AAACGGCAGCGAGTAGCTGCGCGGATCGCGAGTTTGAAGCATCGAATGCT
TCATACTCGCTTCTGAAAAACATTCCCACTCCACAACAGCTGTACTGCAG
CTTCCCTCGCGGTGTCCCTCGTACGTTCTACCATTCCCCGACACGCATCA
CACCCAAAATCATACTTACAGTTCTCCATCGCACGAAGTGAGTTGGCGAA
ACGATCATGGTAAAAAAAATCGAACTGGCGAACCGGCCTCTCGGATCAGG
AAGCATCCTTCCGTTTCTGACTTTTTCCATTGCCAGTAGATGCGAGACGG
CTTTTGCACGGGCAAAGCAGGCGAGTCAGTCTGCCCTGTTAAGTTAGTTG
CGGCCACGAGGTATGCGCACCAGCACAAAGGCAAGAGTATACCTTCCCAA
CCCACGTGACTCGCCGAGACAGTCGACGTTTTCCTTCACCCCCCCGGTGT
TGAGTGTCTGGAGACACCCGCAACGGTCGGTAAATTTTTTGGTTTGATGG
TGAACCCATTTTTTTCATCATTTTTTCATCGTATGTTCACGCGTGTCGCG
GTGCTTGGTCGGTCGATGCAAGCGGAAAATACGCTTCCTTGGGTGTTCGG
GCCTATTCCATCCTAGTACTCACATTTGGGTTTATCTTAGGGTTTACCTT
AGGGTTACCTTAGGGTTAAGGTTAGGGGTTACCTCAGGGTTAACCTCACG
CCATGATGCTGACACTCGAGACTGTGCAACATCCAACCTTTCCTCAAGAA
TGCTCGATGAGGTTTCTTCTGACCCTTCCCTTTCCGTAAGGATTACATGA
GACTTTTCGCTACGTCGTCCAGCAATATAATCCTCAAAATGATGAATGGC
GCAATTGACGCTACCACAACCACCTCGCCTGACAATACTAGCGCTGAGCT
CGCCCCCCCGACCCCCCTCTTCCCCCGATTCGTAAATTTGTCGCAGAATT
TGTCGCGGTTCTTGATACACGTGGAGCAAAACTACTGCTGCGACCCGGCG
AAGCCAAACCCGTACCACACGTCGCTGCACGCCGCAGATGTGACGCTCAC
AGTAGCGCACTTTTGCGAGAACTCGGTGAGACACGGCGGCTTCTGTTTTC
GGTTGTTGTTGCTTATTGTTGATGTGGGTGGTGGTGGTGATGGTGTGGAT
GTTCCTGCTGCTGTCGTTGTTGTTATTGTCTGATGATTATGATGATGATC
ATCATCATGCTGATGTTGATGATGGCAACATTGTTCGATTTAGTGCTAGC
GGTGATACTGCTGGTCTAAGTGGTACTTTTTACCATGCATCCTTTCATAA
TCCCCAATCGCGCTGCACATTCATAACACTTGGCTACCGGCGCTGCGACT
CGTTGATTTCCTTTCCCATGGCCGTAATTTACCTTCTCGGATATCTTAGA
CTTTTCCCAACGCCCTCACAACTCTTCGACATTCGCGCGGCATGATACCT
CGGTGCTGGTTGTTTGGGTGGTAGATCATCGCCTCAGGGATCAAGGCGTT
GCAAGGCTTTGCCTTGCTCGTGGCCGCGATAGTGCACGACTACAGACACC
GAGGAGTCAACAATGGCTTCTTGATAAAGGTAAATTTGCTGCTACGAAAA
TTGTGTTGAAGGTACGTCGAGAAACTTCGAACTCTTACGCCGAGTTGAAG
TATACGGGGAGCTAGCTGTATCAGCGCCGGCGAGTTTGAAACTGTGCATT
TGAAGTCAGTAAGGGGTCGGCTAAACTTCTTAATTGAGATCTGACGCGAT
GTCGAGTGAGACAGGTTGCCATGCTCTTTGCTACGAGGCATTAGTTGTGG
CTTTCACATCCCTCTTGACGTGATAAGGATTCGCTTGGCTTTCAATTCCG
AAAAAGCTAGTTGCCGACGCCATCAGTAGGCGATCAGCAGACGGTGAATG
GACAAGGAACACTTGTAAACACCCCGAAAAACACCCTTAATGTTTCTTTA
GACCAGGACTGACGACGAAGTGCAATAGAGAGCCACCAACAAGGCCTGAA
AGACAGTCGAAATATTTTTTTTATCGACCTGTAGCAACGCTTTCGCATTT
TGCGAGTTCTCATGTCCCCGGAAACTTGGGGGAAGGAATACCCAAACAAC
GCGTCACCCTCAGCAAATTAAACATGTCGGGCGCGATGAGCGTTAAAGCG
GTCATATTGTGGGACCGTACCTGGCGAGAATGATCAATGCTCCGACGCGG
CTTACGTTCCGGTAGTAGCGGGCCGACACCATCCCCCCGTAATCTTGCGA
AAGTTCGTCTTGGAAAGCAAAGTACCCAGGCACTTCTATGCCGCTGAAAA
TCGTGCCACACAAACCTACACGTAGTTGATGTGGATTTGGCCGTAGATAG
CATGCATCAATTCCCTATATTAAGAAATGGAACATCAGACCTGAACTTGT
ATCACATCTGAATCTTGAACCTGCAGGTGAAAGATCCTCTGGCTACCACG
TACAACGACTCCTCGGTCTTGGAGAATTTCCACATCTCTGAGGCCTTTAA
GGTGCTGTACGAAGATCGAACCAATATCGTCGACGGGCTTGGCGTCGAAG
AGATGCGACATTTTCGTCAATTTATCATCAAGGTGTGTCCGGTGTGTTTC
TGGACCTGTGCGTATTTGACACTTTTTTTTCTGCGCACCATCGCGATGTT
TTGCACCGAGGAATGCTTAGAAATCAAGTGATGTGTGCACGCGTATATCA
GAAGCAAGTCCAACGCAATTTGCTGTCATAAATGGAACCCTAAGCTGTCG
AACGTTTGATGAGGACTATGAAACAAGAAATTAAACCAGCAAAGCGGTTG
TCCTCGGCACAATTTATTTGCAAATGCGACCAATGCATCACGTTGGCCAT
CACGGTAGTCATTGGTGTCTATCCTCATGCACAGCTTTACCAGAAGTGAT
GTTAAGGCCAAAACGGGGCTGCCCCCACTCATGCGTCGGCTGCTTGTCGC
AACAGACGAGTCCACACTCTGTTTCCCACCACCTTGGGTGAGCGGACATC
TTGAGAGAAAATCTTGAGATGACATCTTGGGAGAACATCTTGAAAGCCCT
TCCGAACTTTTTTTTACGGATCTGACCCAGGAGGTAAAACGCTCAAGCCC
CGAGATGGCCAGCGTCACCGGCTTTGATACGCACTTAAATTGTGCTTTGG
TTGTGATTTGGTTTCGAATGCATGCATTTTTGACGGAGTTTGTCGACCGT
ATTCTTTTCCCCGATGCCGCCCGCCAAAGTCCCACCACTCGATCCGAATT
GGACAAGATACCCCGCATCTACAGGACTCTGTAGCAGGAAACCTTGTCCG
CTGCAAGAAATGACAACAACCGATTGTTCAGTGCTGAACGCTACCTCCAC
CATGCGCAACGCGATTTTGCGAAAGAACCAAAACGCAGCGAAACCCCTGA
ACCTCACCAAGAAAGCATGTACGCTTCCACGGGCTCGGGTATCTCTATTC
ACAGATGTGCATGTAGTGTTTGCAAAAAGCGCGCCAAAAATGCCGCTCGC
TCGCAGATAATCCTGGCGACCGACCTGGCCCACGGGTTTGAGTACGTGGC
GAGGTTCAAGGCGTCGACCACCTCCAAAGGGGGAAGGAGGGCAAGCATCG
TGCCGGACATGGGGAGAGAAGGTCCGATGTCGCCGGGGGGAACGATGGGT
CCCGCCGGGCAGGGATCGGTCGGGGGGAAGGGTGCGGCGGGTCAGGCGAA
GGATCCACTGCAGGCGCAGATTCTGCTCATGCAAATGGTCTTAAAGGTGA
GAGCAACAATAGGGGCCGTGGGGCCTCTGCTTGTCCGACGTGGCCGAAGT
GCTATAGCAGTGAGGAGTGGTTTGACGAAGCGTTTGGGTACGCTTGGCGC
ATTTTCTGTTTTTAGCGATTTGAGAAAAAATACCGTGTCACATGCTCTCG
AGCAACAGCTTTGGTTTGCCGCTGCCTTCTCTCTGTCTCTTGGTCGAGGT
CAAGAAAGGCGAAAGAAGCAAAAATGGGTGCCCAAGCGTGTACCTGGTAC
CTGCGCACTTGGAGCGTTAGGCTTCCCTGCGTTTTTGTAAGTCACATATC
GCGCTTCGCCTTTCATTCGTGCCGGCCAAATGTCTCATTCTTCGTCCTGT
TGTGCGTTATCGTCCGTCTCGATTTTAATCAATAGGTGGCCGACGTAGCC
CACCCGATGAAACCGTGGGAGCTGCACGAAAGATGGACAACGCTCATCAC
GGGTGAGCAACGATAGAGAGAGAAGTCCGTGAGCAAGATTTTGTCGCAAG
TTCGAAAGCGATACTATGCACTATGCGTGTTGTGCGTCCTACCACATCAC
GGCTCTGCCGCCGGCGATTCAACCCACAGTGTCCCCGACTTCCTAGGGAA
AACAAGAAAGAAGCAACGAAAGGCAATCACGACTGTGGAGACAGAAATGG
TGGCAGGGCACCGTACCTCCTTATGACCACCGATCGTGCGTTTGCATTGT
GCGCTGTGTTGCGTTGCTCGCTGTTACTTTCCATGACCGATTGCAGAGGA
GTTCCACCGGCAAGGCGATCTTGAGACAGAAATGGGCGTCCCGGTGTCCC
CGCTATGCGGCCGCGAGGGGAACAATCATGCCAAGAGCCAGTGCGACTTC
GTCGACTTCGTCGTGAGACCATGCGCCGTGAGTCGTGACGTTCATGTTGC
CACTGGTGGCTCCGCTAGGCCCGCGCGGGCAGGCCGTTCCGATACTGTTG
AGAGGCCACTGCTTGCCTTGAGAGGTACTGGCGGCGTACCCATCTGCGAC
CGGCGCCGGTTTTTCAAAGTTTTGGTACTTTCGTTTTTGCATCCGAGCTA
CGCCGATATCGTGACGGTGTGACGATATCGCAACACCCGTCGAGACTTCT
CGACAACGCTGTCTACAGAAAAAATAATGGCAATAATACAATGGGCACTA
CCTACCCCTACTTCAAGTCCAATCACGCCATGTTCCGCCACTTTGGAGTA
CCTGCGACCAGAACGTCAGGTGTCGAACTGAAGGATTCGGCCTGCTGAAA
TCACTAAACGACACTTTTTGCAGGGGTAACGAAATTGTGGCCTCCGACGG
TAGCCAAACGCGCATTATTCTTCACGAATCTACATCAATTAAAGATTTTG
CCCTTTATCAGCATCCCTTCAGCGTCACGGTCGACAACAGCAGAGCGAGT
TTCAACGGAAGGGCCTTACGTTGCAAATCGGGAGCAACAATCATGTCGTC
AGTATCGTGATCCCTCACCCCCCATCTCCGCGGATCTCCGTTCCCTATTC
CTCGCATGCGACCCGAACTGGGTCACCAGACCGTGTTTTCGGAGTTTTGC
AAGGAGCAGCTGTGGCTTACTACGCTCGAGGGCAACTATAGAAGGTAA
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Coding sequence (CDS) from alignment at P-fluviatile_contig10:45021..59368+

>mRNA_P-fluviatile_contig10.612.1 ID=mRNA_P-fluviatile_contig10.612.1|Name=mRNA_P-fluviatile_contig10.612.1|organism=Porterinema fluviatile SAG_2381|type=CDS|length=4428bp|location=Sequence derived from alignment at P-fluviatile_contig10:45021..59368+ (Porterinema fluviatile SAG_2381)
ATGGGGGGGTCGTACAAGCGACCTCTCCCGAAAGTCACAGCCCAAAATAG
TCGTAGGAAACGGTTGGCGTGCATGGGCACCGGCGTGGCCTCTGTTCTGT
TCGTGCTGGTGGCGTTTGTGCTGCAGGTGGTGGAGGAGGGGAGCTGGGTT
CCGGCGCTCACGACCGCCGCGGCGTTTGTATTGCAGATGGGGGGGTCGTA
CAAGCGACCTCTCCCGAAAGTCACAGCCCAAAATAGTCGTAGGAAACGGT
TGGCGTGCATGGGCACCGGCGTGGCCTCTGTTCTGTTCGTGCTGGTGGCG
TTTGTGCTGCAGGTGGTGGAGGAGGGGAGCTGGGTTCCGGCGCTCACGAC
CGCCGCGGCGTTTGTATTGCAGGTGGTTTGCGGCATAATTTTTTGGAGAA
TATCGGGACAACGGACATCCCTTGGTATTGGATATGACCAAAAGACATTG
AACCGCATTCCTCTGGTGGAGGGATCCAGCTGGGGGACCGGCTTGCATGT
GGGCGAAGGCGCCGCGGGGGGACGGAGGTTAGAGGTCAGCGGCGGGAGGT
CGAAGGTGGCAGCGATGGAGCAGGGTGCTGCCTTAGGACGGCGATCTGTG
CGAGCTCTTGACACAAGAAGAGATGCTAGATCGTCGAGAAGGGTAGCGGC
AGGGCTGGACGACGGGGCAGGTCCGACAGAGGCGGATGAGGACTCTTTTC
ACCGACACGTGGCCTTGGAGACACCGTTGCAGCAGGTGGTTTGCGGCATA
ATTTTTTGGAGAATATCGGGACAACGGACATCCCTTGGTATTGGATATGA
CCAAAAGACATTGAACCGCATTCCTCTGGTGGAGGGATCCAGCTGGGGGA
CCGGCTTGCATGTGGGCGAAGGCGCCGCGGGGGGACGGAGGTTAGAGGTC
AGCGGCGGGAGGTCGAAGGTGGCAGCGATGGAGCAGGGTGCTGCCTTAGG
ACGGCGATCTGTGCGAGCTCTTGACACAAGAAGAGATGCTAGATCGTCGA
GAAGGGTAGCGGCAGGGCTGGACGACGGGGCAGGTCCGACAGAGGCGGAT
GAGGACTCTTTTCACCGACACGTGGCCTTGGAGACACCGTTGCAGCAGGC
TGCGCGGGCATTGGAATTTGTGCTCGACAAATACTCACCAGATGCAAGAA
CCCAGGAAAAACTGGAGATGGTCCTCAACATCATAAGGCTGCGCGGGCAT
TGGAATTTGTGCTCGACAAATACTCACCAGATGCAAGAACCCAGGAAAAA
CTGGAGATGGTCCTCAACATCATAAGCCAACCAGAGGATCTGCACACGGT
GACGATTCAGAGCATCATGAATGCCGACCTGGACTCGTCGACAACCGAGT
GGATCGAGGCGCAACTCTCGGCGGGGGCGTTAAAAAACTCGGTCAACGTC
TCCACGGGGGAGAGGAAGTGGAACCGGCTCAGGGAGGGGCTGCACGGTGT
TGTGCATCGCATGGCGTCCGAGCCAACCAGAGGATCTGCACACGGTGACG
ATTCAGAGCATCATGAATGCCGACCTGGACTCGTCGACAACCGAGTGGAT
CGAGGCGCAACTCTCGGCGGGGGCGTTAAAAAACTCGGTCAACGTCTCCA
CGGGGGAGAGGAAGTGGAACCGGCTCAGGGAGGGGCTGCACGGTGTTGTG
CATCGCATGGCGTCCGAGCATCGGCAGGTGAAGCCCGACATAAATGGAGT
TGACACGGGCATGACATCGGAACAACTTAAACGGCAACTGGAGCATCGGC
AGGTGAAGCCCGACATAAATGGAGTTGACACGGGCATGACATCGGAACAA
CTTAAACGGCAACTGGAGATTGGGCGCGCATATAACATCGAGAAGACGGT
CGCTGCGAGATCAAGACGGCGATCGAATACCATTAACGTCAGCGAACTTA
TGTGCCTTACGATTGGGCGCGCATATAACATCGAGAAGACGGTCGCTGCG
AGATCAAGACGGCGATCGAATACCATTAACGTCAGCGAACTTATGTGCCT
TACGAGGACACGTGCGAAAACGACGGGGGGCCCTATCTTGTACGAAGTGG
ACGAGCACAGCAATATAGACGTAGAAGCGACGGAAGACGACGATCAGACT
GCACATCGGAGGACACGTGCGAAAACGACGGGGGGCCCTATCTTGTACGA
AGTGGACGAGCACAGCAATATAGACGTAGAAGCGACGGAAGACGACGATC
AGACTGCACATCGGGCGATTGCGGAGCTGATGCCCGTGTGGCCAGGGATA
GCACCGGAGGCACAGAAGGGATTGGTGGACCACATTGCAAAGAAGCATTT
CTTGGATTGGGGATTCGACGTCTTCAAGCTTCAGGCGATTGCGGAGCTGA
TGCCCGTGTGGCCAGGGATAGCACCGGAGGCACAGAAGGGATTGGTGGAC
CACATTGCAAAGAAGCATTTCTTGGATTGGGGATTCGACGTCTTCAAGCT
TCAGGAATTGTCGGGAGGGCACGCGCTGTGGTATACGGGGATGTTGGCGA
TATACCACTACAACCTCGTCGGCGTTTTCAACGTGAATCCTGCGGAATTG
TCGGGAGGGCACGCGCTGTGGTATACGGGGATGTTGGCGATATACCACTA
CAACCTCGTCGGCGTTTTCAACGTGAATCCTGCGAATTTGTCGCGGTTCT
TGATACACGTGGAGCAAAACTACTGCTGCGACCCGGCGAAGCCAAACCCG
TACCACACGTCGCTGCACGCCGCAGATGTGACGCTCACAGTAGCGCACTT
TTGCGAGAACTCGAATTTGTCGCGGTTCTTGATACACGTGGAGCAAAACT
ACTGCTGCGACCCGGCGAAGCCAAACCCGTACCACACGTCGCTGCACGCC
GCAGATGTGACGCTCACAGTAGCGCACTTTTGCGAGAACTCGATCATCGC
CTCAGGGATCAAGGCGTTGCAAGGCTTTGCCTTGCTCGTGGCCGCGATAG
TGCACGACTACAGACACCGAGGAGTCAACAATGGCTTCTTGATAAAGATC
ATCGCCTCAGGGATCAAGGCGTTGCAAGGCTTTGCCTTGCTCGTGGCCGC
GATAGTGCACGACTACAGACACCGAGGAGTCAACAATGGCTTCTTGATAA
AGGTGAAAGATCCTCTGGCTACCACGTACAACGACTCCTCGGTCTTGGAG
AATTTCCACATCTCTGAGGCCTTTAAGGTGCTGTACGAAGATCGAACCAA
TATCGTCGACGGGCTTGGCGTCGAAGAGATGCGACATTTTCGTCAATTTA
TCATCAAGGTGAAAGATCCTCTGGCTACCACGTACAACGACTCCTCGGTC
TTGGAGAATTTCCACATCTCTGAGGCCTTTAAGGTGCTGTACGAAGATCG
AACCAATATCGTCGACGGGCTTGGCGTCGAAGAGATGCGACATTTTCGTC
AATTTATCATCAAGATAATCCTGGCGACCGACCTGGCCCACGGGTTTGAG
TACGTGGCGAGGTTCAAGGCGTCGACCACCTCCAAAGGGGGAAGGAGGGC
AAGCATCGTGCCGGACATGGGGAGAGAAGGTCCGATGTCGCCGGGGGGAA
CGATGGGTCCCGCCGGGCAGGGATCGGTCGGGGGGAAGGGTGCGGCGGGT
CAGGCGAAGGATCCACTGCAGGCGCAGATTCTGCTCATGCAAATGGTCTT
AAAGATAATCCTGGCGACCGACCTGGCCCACGGGTTTGAGTACGTGGCGA
GGTTCAAGGCGTCGACCACCTCCAAAGGGGGAAGGAGGGCAAGCATCGTG
CCGGACATGGGGAGAGAAGGTCCGATGTCGCCGGGGGGAACGATGGGTCC
CGCCGGGCAGGGATCGGTCGGGGGGAAGGGTGCGGCGGGTCAGGCGAAGG
ATCCACTGCAGGCGCAGATTCTGCTCATGCAAATGGTCTTAAAGGTGGCC
GACGTAGCCCACCCGATGAAACCGTGGGAGCTGCACGAAAGATGGACAAC
GCTCATCACGGGTGGCCGACGTAGCCCACCCGATGAAACCGTGGGAGCTG
CACGAAAGATGGACAACGCTCATCACGGAGGAGTTCCACCGGCAAGGCGA
TCTTGAGACAGAAATGGGCGTCCCGGTGTCCCCGCTATGCGGCCGCGAGG
GGAACAATCATGCCAAGAGCCAGTGCGACTTCGTCGACTTCGTCGTGAGA
CCATGCGCCAGGAGTTCCACCGGCAAGGCGATCTTGAGACAGAAATGGGC
GTCCCGGTGTCCCCGCTATGCGGCCGCGAGGGGAACAATCATGCCAAGAG
CCAGTGCGACTTCGTCGACTTCGTCGTGAGACCATGCGCCACCGTGTTTT
CGGAGTTTTGCAAGGAGCAGCTGTGGCTTACTACGCTCGAGGGCAACTAT
AGAAGGTAAACCGTGTTTTCGGAGTTTTGCAAGGAGCAGCTGTGGCTTAC
TACGCTCGAGGGCAACTATAGAAGGTAA
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