mRNA_P-fluviatile_contig10.741.1 (mRNA) Porterinema fluviatile SAG_2381

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

Overview
NamemRNA_P-fluviatile_contig10.741.1
Unique NamemRNA_P-fluviatile_contig10.741.1
TypemRNA
OrganismPorterinema fluviatile SAG_2381 (Porterinema fluviatile SAG_2381)
Homology
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BLAST of mRNA_P-fluviatile_contig10.741.1 vs. uniprot
Match: D7FXQ6_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D7FXQ6_ECTSI)

HSP 1 Score: 398 bits (1022), Expect = 2.140e-122
Identity = 257/463 (55.51%), Postives = 289/463 (62.42%), Query Frame = 2 
Query:  227 ALPATPDNQAXXXXXXXXXXXXXXXXXXXXXFNTPAGAAGSSGVPVGLGPAGGGIEAVAGDALATMLSGVSIGGDDASASXXXXXXXXXXXXXXXXXXXXXXXEVMERGTDETEVVELPPEVMKRLYQLKALQSEKDVVYERYKVKRAELEMEFAREYGAIFERRAEVVAGRARDLDGKRRARGALSEEASAXXXXXXXXEVGVPHFWMQCMLHHEALHDVVCEPDLEALYYLSDVRCVDKENLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKAGRNLCERTTRRKVKRGG-QGGETRTITKVEKTESFFKFFQNPVMYDEDXXXXXXXXQYNFSFDMDYEVARIFRNHLIPNAVLWFTGEAVDDEEEESXXXXXXXXXXXXXXXXXXXXXGAAHEDSEDEAAGDGDGDENQGPVKQLNFKAPAGFGAPPSGS--TDGKECKQS 1606
            ALPATP+N                       FNTP+G  G+  VPV +  A GG E V G ALA MLSG+ I  D+AS                  XXXXXXX+ ++   +E   VELPPEVMKRLY+LKALQSEKDV+Y +YK KRAELEMEFA+EYGAI+ RRAEVVAGR+RD+D      GA  E  +         EVGVPHFWMQCMLHHEALHDV+CEPDLEALYYLSDVRCVDK+ LLGFTLEFHFDDNPYF+NAVLTKRYDTANIMDQGEPLLEGVEGTPIDWK+GRNLCE+T RRK+KRGG + GETRTITKVEKTESFFKFFQNPVMY+                D D E                   E +D+ E  S                        HE     A GDG+G E  G VK+L+F+AP GF     GS   DGKECKQS
Sbjct:   10 ALPATPNN--LDHGNGGREQTSASPMPPPPPFNTPSGTMGAGDVPVAMDSAQGGDE-VTGAALANMLSGIGIS-DNASGDAVSATPRSGGGQGVDQXXXXXXXDYVDGEDNE---VELPPEVMKRLYELKALQSEKDVIYGKYKAKRAELEMEFAKEYGAIYSRRAEVVAGRSRDIDDPEPELGAQGEGGAGGEAAGG--EVGVPHFWMQCMLHHEALHDVICEPDLEALYYLSDVRCVDKDTLLGFTLEFHFDDNPYFSNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKSGRNLCEKTIRRKIKRGGSRSGETRTITKVEKTESFFKFFQNPVMYE----------------DEDDEXXXX---------------EGLDETEGPSDDDVEGGTLV------------GGHE-----AVGDGEGAE--GAVKKLSFQAPTGFXXXXXGSGPADGKECKQS 413
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BLAST of mRNA_P-fluviatile_contig10.741.1 vs. uniprot
Match: A0A6H5JV21_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JV21_9PHAE)

HSP 1 Score: 345 bits (886), Expect = 1.260e-105
Identity = 195/255 (76.47%), Postives = 208/255 (81.57%), Query Frame = 2 
Query:  851 MQCMLHHEALHDVVCEPDLEALYYLSDVRCVDKENLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKAGRNLCERTTRRKVKRGG-QGGETRTITKVEKTESFFKFFQNPVMYDEDXXXXXXXXQYNFSFDMDYEVARIFRNHLIPNAVLWFTGEAVDDEEEESXXXXXXXXXXXXXXXXXXXXXGAAHEDSEDEAAGDGDGDENQGPVKQLNFKAPAGFGAPPSGS--TDGKECKQS 1606
            MQCMLHHEALHDV+CEPDLEALYYLSDVRCVDK+NLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWK+GRNLCE+T RRK+KRGG + GETRTITKVEKTESFFKFFQNPVMY ED XXXXXXX      +MDYEVARIFRNHLIPNAVLWFTGEAV DEE++ XXXXX                G       DEAAGDG+G E  G VK+L+F+A  GF AP SGS   DGKECKQS
Sbjct:    1 MQCMLHHEALHDVICEPDLEALYYLSDVRCVDKDNLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKSGRNLCEKTIRRKIKRGGSRSGETRTITKVEKTESFFKFFQNPVMY-EDEXXXXXXXXXXXXXEMDYEVARIFRNHLIPNAVLWFTGEAVSDEEDDEXXXXXEGLDDTEGPSDDDREGGTLV--GGDEAAGDGEGVE--GSVKKLSFQASTGFEAPTSGSGPADGKECKQS 250
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BLAST of mRNA_P-fluviatile_contig10.741.1 vs. uniprot
Match: A0A836CG27_9STRA (Nucleosome assembly protein-domain-containing protein n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836CG27_9STRA)

HSP 1 Score: 218 bits (555), Expect = 1.550e-56
Identity = 123/274 (44.89%), Postives = 176/274 (64.23%), Query Frame = 2 
Query:  572 VELPPEVMKRLYQLKALQSEKDVVYERYKVKRAELEMEFAREYGAIFERRAEVVAGRARDLDGKRRARGALSEEASAXXXXXXXXEVGVPHFWMQCMLHHEALHDVVCEPDLEALYYLSDVRCVDKENLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKAGRNLCERTTRRKVKRGGQGGETRT-ITKVEKTESFFKFFQNPVMYDEDXXXXXXXXQYNFSFDMDYE-VARIFRNHLIPNAVLWFTGEAVDDEEEE 1387
            V LP  V++R+  LK LQ ++D +YE YK  R  LE E+ + Y  +++ R ++V+G  ++++   +      ++  A          GVP FW   M+ HEAL D++ E D+ AL +L+DV+C+D+E+L+GF LEFHF  N +FTN+VLTK YD A I+DQGEPLL+ VEG PIDWK  +NLCE+T   K  R  +GG  +T +T+V KT+SFFKFF NP++   DXXXXXXXX            VA++ R  +IPNAV W+TG+A+  + E+
Sbjct:   57 VVLPHSVLRRIDALKDLQGKRDDIYEEYKAARRVLEAEYRKRYDVLYQERCDIVSGN-KEVE---KTESEAGDDEEAHGADQGEDVKGVPSFWANAMIRHEALQDLIEESDVTALAHLTDVKCIDREDLMGFRLEFHFSPNEFFTNSVLTKTYDVAQILDQGEPLLQKVEGCPIDWKKNKNLCEKTVVHKKGRARKGGAAQTPVTRVIKTDSFFKFFLNPIIDSMDXXXXXXXXXXXXXXXXXXXXVAQVLRTQIIPNAVDWYTGDAISHDGED 326
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BLAST of mRNA_P-fluviatile_contig10.741.1 vs. uniprot
Match: A0A7S2V1Q3_9STRA (Hypothetical protein n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2V1Q3_9STRA)

HSP 1 Score: 211 bits (537), Expect = 2.740e-56
Identity = 120/269 (44.61%), Postives = 167/269 (62.08%), Query Frame = 2 
Query:  572 VELPPEVMKRLYQLKALQSEKDVVYERYKVKRAELEMEFAREYGAIFERRAEVVAGRARDLDGKRRARGALSEEASAXXXXXXXXEVGVPHFWMQCMLHHEALHDVVCEPDLEALYYLSDVRCVDKENLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKAGRNLCERTTRRKVKRGGQGGETRTITKVEKTESFFKFFQNPVMYD-EDXXXXXXXXQYNFSFDMDYEVARIFRNHLIPNAVLWFTGEAVDD 1375
            +++PP V +R+  LK LQ  ++VV ERY+ +RAELE +F +EY  +F +RA++VAGR   LD ++      SE A A         +G+P FW+  +LH+E++ D++ + D+ AL YL D+ C DK +L GF L+FHF  NP+F N VL+K YD A+I+D  EP+LE V GT IDWK    L    T R+VKRGG+        +V K  SFF FF  P+M   E+        + + +++ DYE A IFRNHL+P AVLWFTGEA  D
Sbjct:  102 MQIPPSVYRRILALKELQDAREVVQERYRRERAELEAKFRQEYEPLFIKRADIVAGR---LDVQKPEPAPESEGADAEEEGDDV--MGIPQFWLMVLLHNESVVDLITQDDVPALEYLVDITCEDKVDLTGFRLDFHFAPNPFFKNEVLSKAYDMASIVDHAEPVLEKVTGTSIDWKPEHCL----TMREVKRGGK-------VRVVKRPSFFNFFDTPIMMTPEEQAQNQELLKMHLTYETDYEYALIFRNHLVPEAVLWFTGEAQQD 354
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BLAST of mRNA_P-fluviatile_contig10.741.1 vs. uniprot
Match: A0A6V2KVP3_9STRA (Hypothetical protein n=2 Tax=Ditylum brightwellii TaxID=49249 RepID=A0A6V2KVP3_9STRA)

HSP 1 Score: 199 bits (505), Expect = 2.370e-51
Identity = 119/268 (44.40%), Postives = 175/268 (65.30%), Query Frame = 2 
Query:  581 PPEVMKRLYQLKALQSEKDVVYERYKVKRAELEMEFAREYGAIFERRAEVVAGRARDLDGKRRARGALSEEASAXXXXXXXXEV-GVPHFWMQCMLHHEALHDVVCEPDLEALYYLSDVRCVDKENLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKAGRNLCER--TTRRKVKRGGQGGETRTITKVEKTESFFKFFQNPVMYDEDXXXXXXXXQYNFSFDMDYEVARIFRNHLIPNAVLWFTGEAVDD 1375
            PP+V++R+ +LK L S+++ +   Y V+RA LE +FA     +FE+R +V+ G+   LD +   + A ++    XXXXXXXXEV G+P FW+  M H EA+ +++ + D++ L +L +V C D ++  GFT+ FHF  NPYFTN VLTK+Y   N++ + EP+L+ VEG  IDWKAG +L  R  T +++ K G + G+ RTITK E+T+SFF FF  P M   +            +FD DY+VA+ FR+H+IP AVLWFTGEA+D+
Sbjct:  147 PPKVVRRVNKLKELHSQREEIMNEYLVERAALEKKFAVLCKPLFEQRLDVIEGK---LD-EEIEKNAETDXXXXXXXXXXXXEVKGIPQFWVCAMGHMEAVAELITQSDVDCLEHLRNVTCDDDDDGCGFTISFHFGPNPYFTNTVLTKKYQIPNLLLEDEPILKNVEGCTIDWKAGTSLTYREVTKKQRSKSGRKAGQIRTITKRERTDSFFHFFTPPKMPSMETMDEEEADAIEDAFDHDYDVAQAFRSHIIPKAVLWFTGEAMDE 410
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BLAST of mRNA_P-fluviatile_contig10.741.1 vs. uniprot
Match: A0A7S2K4H4_9STRA (Hypothetical protein n=1 Tax=Leptocylindrus danicus TaxID=163516 RepID=A0A7S2K4H4_9STRA)

HSP 1 Score: 194 bits (492), Expect = 5.430e-51
Identity = 112/269 (41.64%), Postives = 164/269 (60.97%), Query Frame = 2 
Query:  578 LPPEVMKRLYQLKALQSEKDVVYERYKVKRAELEMEFAREYGAIFERRAEVVAGRARDLDGKRRARGALSEEASAXXXXXXXXEVGVPHFWMQCMLHHEALHDVVCEPDLEALYYLSDVRCVDKENLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKAGRNLCERTTRRK--VKRGGQGGETRTITKVEKTESFFKFFQNPVMYDEDXXXXXXXXQYNFSFDMDYEVARIFRNHLIPNAVLWFTGEAVDDE 1378
            LPP +  R+ +L+ LQ +K+ + E Y  +RA LE ++A     +++ R +++ G A+D D  + A+G   EE+ A         VG+P FW+  + H E + ++V E D++ L YL D++C D EN +GFTL+F F  N YFTN VL K+Y   N++   EP+L+ V G  IDWK GRNLC +  ++K   KRG   G+ RT+TK E+ +SFF FF  P +   +            +FD DY+VA+ FR+H+IPNAVLWFTGEA+D E
Sbjct:   40 LPPVMKMRVNKLQELQDQKNRLMEEYVKERAMLEHKYATLSEPLYDARKDIIVG-AKD-DELKLAQG--DEESDAI--------VGIPQFWVVAIGHLEVVGELVTESDVDCLEYLRDIKCEDFENGMGFTLKFFFAPNDYFTNEVLEKKYTIPNLLMDDEPVLQEVLGCDIDWKEGRNLCYKKVQKKQRAKRGPNAGQIRTVTKQERLDSFFHFFTPPKLPKMEEMDEEEADALEEAFDHDYDVAQSFRSHIIPNAVLWFTGEALDSE 296
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BLAST of mRNA_P-fluviatile_contig10.741.1 vs. uniprot
Match: A0A7S1D4D2_CYCTE (Hypothetical protein n=1 Tax=Cyclophora tenuis TaxID=216820 RepID=A0A7S1D4D2_CYCTE)

HSP 1 Score: 192 bits (487), Expect = 6.670e-50
Identity = 106/272 (38.97%), Postives = 159/272 (58.46%), Query Frame = 2 
Query:  578 LPPEVMKRLYQLKALQSEKDVVYERYKVKRAELEMEFAREYGAIFERRAEVVAGRARD-LDGKRRARGALSEEASAXXXXXXXXEVGVPHFWMQCMLHHEALHDVVCEPDLEALYYLSDVRCVDKENLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKAGRNLCERTTRRKVK-RGGQGGETRTITKVEKTESFFKFFQNPVMYDEDXXXXXXXXQYNFSFDMDYEVARIFRNHLIPNAVLWFTGEAVDDEEEE 1387
            LP  ++KR+ +LK L +E+D + E+Y V+RA LE ++       +E RA +V G   D +D K   +    ++A            G+P FW+  M H E + +++ E D++ L +L D++C+D     GFTLEFHF  N YF N +LTKRY+  N++   EP+L+ V G  I WKAGR L  R   +K + +G   G+ RT+ K E+ +SFF FF  P M   D        +   +FD DY+VA+ FR+H+IP AVLWFTG+A+++E +E
Sbjct:   95 LPTYILKRVEKLKDLNAERDTMMEQYLVERAALEQKYLGLCKPFYEERARIVGGEMDDEIDDKGHEKEGDDDDAERAS--------GIPQFWVCAMGHMEPVAELLTEEDVDCLEHLRDIKCLDDLEGTGFTLEFHFSPNDYFENTILTKRYEVPNLLLADEPILKNVVGCKIQWKAGRALTFREVTKKQRGKGKNAGQIRTVKKKERRDSFFHFFDPPKMPSMDSMDEDEADRLEEAFDHDYDVAQAFRSHIIPKAVLWFTGQALEEEMDE 358
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BLAST of mRNA_P-fluviatile_contig10.741.1 vs. uniprot
Match: A0A6T8H1D7_9STRA (Hypothetical protein n=1 Tax=Proboscia inermis TaxID=420281 RepID=A0A6T8H1D7_9STRA)

HSP 1 Score: 186 bits (473), Expect = 2.920e-48
Identity = 114/276 (41.30%), Postives = 166/276 (60.14%), Query Frame = 2 
Query:  578 LPPEVMKRLYQLKALQSEKDVVYERYKVKRAELEMEFAREYGAIFERRAEVVAGRARDLDGKRRARGALSEEASAXXXXXXXXEV-----GVPHFWMQCMLHHEALHDVVCEPDLEALYYLSDVRCVDKENLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKAGRNLCERTTRRKV--KRGGQGGETRTITKVEKTESFFKFFQNP----VMYDEDXXXXXXXXQYNFSFDMDYEVARIFRNHLIPNAVLWFTGEAVD 1372
            +P  ++KR+ +LK L   +D++ + Y  +RAELE ++      ++  RAE+VAG+  D + K  A+ A+      XXXX    E      G+P FW+  M H EA+ +++ E D++ L Y +D+RC D E+ +GFTL FHF  N YF+N +LTKRYD  N++   EP+L+ V G  IDWK  + L  RT  RK   K G + G+ R +T+ E+T+SFF FF  P    VM + D        +   +FD DY+VA+ FR+H+IP AVLWFTGEA+D
Sbjct:   68 MPDYMVKRVEKLKDLNDRRDIIMKDYLRERAELENKYFGVCKPMYVTRAEIVAGKMDD-EIKAGAKAAVXXXXXXXXXXKASEEAVDNVTGIPQFWVCAMGHMEAVAELITEQDVDCLEYCTDIRCNDDEDGMGFTLCFHFSPNEYFSNEMLTKRYDIPNLLLDDEPILQNVNGCDIDWKENKCLTTRTVTRKQRGKSGKRAGQIRVVTRKERTDSFFHFFSPPQMPGVMEEMDEEQADAIEE---AFDHDYDVAQAFRSHIIPKAVLWFTGEALD 339
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BLAST of mRNA_P-fluviatile_contig10.741.1 vs. uniprot
Match: K3WY75_GLOUD (Uncharacterized protein n=1 Tax=Globisporangium ultimum (strain ATCC 200006 / CBS 805.95 / DAOM BR144) TaxID=431595 RepID=K3WY75_GLOUD)

HSP 1 Score: 184 bits (468), Expect = 1.850e-47
Identity = 106/276 (38.41%), Postives = 158/276 (57.25%), Query Frame = 2 
Query:  560 ETEVVELPPEVMKRLYQLKALQSEKDVVYERYKVKRAELEMEFAREYGAIFERRAEVVAGRARDLDGKRRARGALSEEASAXXXXXXXXEVGVPHFWMQCMLHHEALHDVVCEPDLEALYYLSDVRCVDKENLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKAGRNLCERTTRRKVKRGGQGGETRTITKVEKTESFFKFFQNPVMYDEDXXXXXXXXQYNFSFDMDYEVARIFRNHLIPNAVLWFTGEAVDDEEEE 1387
            E ++  LP  V  RL  L+ LQ E+ V+ E+++ +R  LE+++ + Y   +++RAE+V+G  +++D      GA  E AS+          GVP FW++  ++H AL D++ E DL A  YL DVR    E   GF LEF F +NP+FTN  LTK YD  +  + GE +L  V GT I+WK G+NLCE T + K +  G  GETR +++ E  ESFF+FF    M  E+            + D  +E+  +    +IP A+LWFTGEAV+D++ +
Sbjct:   47 EDDLANLPANVQLRLAALRKLQEEQAVLEEQFEKERKLLELKYEKLYQPFYKQRAEIVSGE-KEVDAVLNGEGAQQEGASSEEEDVK----GVPGFWLRAFMNHSALADLIHERDLPAFEYLVDVRSASHEEDNGFKLEFDFAENPFFTNKTLTKEYDIGDASEAGEAVLSNVVGTVIEWKEGKNLCEVTKKVKQRAKGGKGETRVVSRTEPCESFFQFFTPVEMPSEEDDEDNDLIMRQLTGD--FEIGFLIHETIIPQALLWFTGEAVEDDDSD 315
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BLAST of mRNA_P-fluviatile_contig10.741.1 vs. uniprot
Match: B5YM38_THAPS (Predicted protein (Fragment) n=1 Tax=Thalassiosira pseudonana TaxID=35128 RepID=B5YM38_THAPS)

HSP 1 Score: 181 bits (460), Expect = 2.820e-47
Identity = 101/272 (37.13%), Postives = 153/272 (56.25%), Query Frame = 2 
Query:  578 LPPEVMKRLYQLKALQSEKDVVYERYKVKRAELEMEFAREYGAIFERRAEVVAGRARDLDGKRRARGALSEEASAXXXXXXXXEV--GVPHFWMQCMLHHEALHDVVCEPDLEALYYLSDVRCVDKENLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWKAGRNLCERTTRRKVKR--GGQGGETRTITKVEKTESFFKFFQNPVMYD-EDXXXXXXXXQYNFSFDMDYEVARIFRNHLIPNAVLWFTGEAVDDE 1378
            LPP ++ R+ +LK+L   +D + E YKV+RA LE  +  +   +F  R  VV            A G + +  S         EV  G+P FW   M H + + +++ E D++ L +L+D+   D  +  GF+L FHF  NPYFTN  LTK Y+  N++ + EP+L+ V GT I+WK G++L  + T +K ++  G Q G+ RT+ K+E+T+SFF FF  P M    D             FD DY++A+ FR  +IP AVLWFTGEA++++
Sbjct:   21 LPPCILPRISKLKSLNEARDAILEEYKVERAALERRYKEKMEPLFVERRGVVF-----------AEGEVEDVVSDNEGDEVGDEVVKGIPQFWACAMGHVDVIGELITEEDVDCLDFLTDITSTDSTDGQGFSLTFHFSPNPYFTNTTLTKTYEVPNLLTEDEPILQNVTGTTINWKPGQSLTHKETSKKQRKKSGPQAGQIRTVKKLERTDSFFHFFTPPKMPSLGDIIDEEEADAMEEMFDHDYDIAQAFRGSIIPKAVLWFTGEAMEED 281
The following BLAST results are available for this feature:
BLAST of mRNA_P-fluviatile_contig10.741.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FXQ6_ECTSI2.140e-12255.51Uncharacterized protein n=1 Tax=Ectocarpus silicul... [more]
A0A6H5JV21_9PHAE1.260e-10576.47Uncharacterized protein n=1 Tax=Ectocarpus sp. CCA... [more]
A0A836CG27_9STRA1.550e-5644.89Nucleosome assembly protein-domain-containing prot... [more]
A0A7S2V1Q3_9STRA2.740e-5644.61Hypothetical protein n=1 Tax=Fibrocapsa japonica T... [more]
A0A6V2KVP3_9STRA2.370e-5144.40Hypothetical protein n=2 Tax=Ditylum brightwellii ... [more]
A0A7S2K4H4_9STRA5.430e-5141.64Hypothetical protein n=1 Tax=Leptocylindrus danicu... [more]
A0A7S1D4D2_CYCTE6.670e-5038.97Hypothetical protein n=1 Tax=Cyclophora tenuis Tax... [more]
A0A6T8H1D7_9STRA2.920e-4841.30Hypothetical protein n=1 Tax=Proboscia inermis Tax... [more]
K3WY75_GLOUD1.850e-4738.41Uncharacterized protein n=1 Tax=Globisporangium ul... [more]
B5YM38_THAPS2.820e-4737.13Predicted protein (Fragment) n=1 Tax=Thalassiosira... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
P-fluviatile_contig10contigP-fluviatile_contig10:1736373..1753903 +
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 score400.6
Seed ortholog evalue1e-108
Seed eggNOG ortholog2880.D7FXQ6
Preferred nameNAP1L1
KEGG rclassRC00055,RC00523
KEGG koko:K01890,ko:K10357,ko:K11279,ko:K11280,ko:K11281,ko:K11282,ko:K11283,ko:K11290,ko:K11405
KEGG ReactionR03660
KEGG Pathwayko00970,ko05034,ko05165,ko05203,map00970,map05034,map05165,map05203
KEGG ModuleM00359,M00360
GOsGO:0000003,GO:0000228,GO:0000723,GO:0000785,GO:0000790,GO:0002376,GO:0002520,GO:0003006,GO:0003008,GO:0003674,GO:0003682,GO:0005488,GO:0005496,GO:0005515,GO:0005575,GO:0005622,GO:0005623,GO:0005634,GO:0005694,GO:0005737,GO:0005739,GO:0005829,GO:0005856,GO:0005933,GO:0005935,GO:0005938,GO:0005940,GO:0006139,GO:0006259,GO:0006260,GO:0006323,GO:0006325,GO:0006333,GO:0006334,GO:0006336,GO:0006337,GO:0006338,GO:0006355,GO:0006357,GO:0006606,GO:0006725,GO:0006807,GO:0006810,GO:0006886,GO:0006913,GO:0006996,GO:0006997,GO:0007114,GO:0007117,GO:0007275,GO:0007276,GO:0007281,GO:0007283,GO:0007286,GO:0007289,GO:0007338,GO:0007399,GO:0007610,GO:0007611,GO:0007613,GO:0007617,GO:0007618,GO:0007619,GO:0008047,GO:0008049,GO:0008104,GO:0008134,GO:0008150,GO:0008152,GO:0008283,GO:0008284,GO:0008289,GO:0009058,GO:0009059,GO:0009566,GO:0009719,GO:0009725,GO:0009790,GO:0009889,GO:0009891,GO:0009893,GO:0009987,GO:0010033,GO:0010243,GO:0010468,GO:0010556,GO:0010557,GO:0010604,GO:0010628,GO:0010638,GO:0010720,GO:0014009,GO:0014010,GO:0015031,GO:0015485,GO:0015833,GO:0016006,GO:0016043,GO:0017038,GO:0019098,GO:0019219,GO:0019222,GO:0019899,GO:0019900,GO:0019953,GO:0019954,GO:0022008,GO:0022411,GO:0022412,GO:0022414,GO:0022607,GO:0030097,GO:0030154,GO:0030234,GO:0030332,GO:0030425,GO:0030427,GO:0030447,GO:0030448,GO:0031056,GO:0031058,GO:0031110,GO:0031112,GO:0031113,GO:0031116,GO:0031323,GO:0031325,GO:0031326,GO:0031328,GO:0031334,GO:0031399,GO:0031401,GO:0031491,GO:0031497,GO:0031498,GO:0031974,GO:0031981,GO:0032156,GO:0032168,GO:0032200,GO:0032268,GO:0032270,GO:0032271,GO:0032273,GO:0032501,GO:0032502,GO:0032504,GO:0032505,GO:0032784,GO:0032786,GO:0032870,GO:0032886,GO:0032934,GO:0032968,GO:0032984,GO:0032986,GO:0033036,GO:0033043,GO:0033044,GO:0033365,GO:0034243,GO:0034504,GO:0034613,GO:0034622,GO:0034641,GO:0034645,GO:0034724,GO:0034728,GO:0035039,GO:0035041,GO:0035065,GO:0035066,GO:0035092,GO:0035162,GO:0036094,GO:0036477,GO:0040007,GO:0042063,GO:0042127,GO:0042221,GO:0042393,GO:0042592,GO:0042802,GO:0042886,GO:0042995,GO:0043005,GO:0043025,GO:0043085,GO:0043170,GO:0043178,GO:0043226,GO:0043227,GO:0043228,GO:0043229,GO:0043231,GO:0043232,GO:0043233,GO:0043254,GO:0043434,GO:0043933,GO:0044085,GO:0044087,GO:0044089,GO:0044093,GO:0044237,GO:0044238,GO:0044249,GO:0044260,GO:0044297,GO:0044422,GO:0044424,GO:0044427,GO:0044428,GO:0044430,GO:0044444,GO:0044446,GO:0044448,GO:0044454,GO:0044463,GO:0044464,GO:0044703,GO:0044877,GO:0045184,GO:0045595,GO:0045597,GO:0045664,GO:0045666,GO:0045893,GO:0045935,GO:0045944,GO:0046483,GO:0046907,GO:0048232,GO:0048468,GO:0048513,GO:0048515,GO:0048518,GO:0048522,GO:0048534,GO:0048568,GO:0048609,GO:0048699,GO:0048731,GO:0048856,GO:0048869,GO:0050767,GO:0050769,GO:0050789,GO:0050790,GO:0050793,GO:0050794,GO:0050877,GO:0050890,GO:0050896,GO:0051082,GO:0051094,GO:0051128,GO:0051130,GO:0051169,GO:0051170,GO:0051171,GO:0051173,GO:0051179,GO:0051234,GO:0051239,GO:0051240,GO:0051246,GO:0051247,GO:0051252,GO:0051254,GO:0051259,GO:0051260,GO:0051276,GO:0051301,GO:0051302,GO:0051493,GO:0051495,GO:0051641,GO:0051649,GO:0051704,GO:0051716,GO:0051960,GO:0051962,GO:0060179,GO:0060215,GO:0060249,GO:0060255,GO:0060284,GO:0065003,GO:0065004,GO:0065007,GO:0065008,GO:0065009,GO:0070013,GO:0070507,GO:0070727,GO:0070887,GO:0070925,GO:0071103,GO:0071310,GO:0071375,GO:0071417,GO:0071440,GO:0071442,GO:0071495,GO:0071702,GO:0071704,GO:0071705,GO:0071824,GO:0071840,GO:0071944,GO:0072594,GO:0080090,GO:0090304,GO:0097159,GO:0097447,GO:0097458,GO:0098772,GO:0099568,GO:0120025,GO:0120038,GO:1901360,GO:1901576,GO:1901652,GO:1901653,GO:1901698,GO:1901699,GO:1901700,GO:1901701,GO:1901983,GO:1901985,GO:1902275,GO:1902680,GO:1902903,GO:1902905,GO:1903506,GO:1903508,GO:1905269,GO:2000026,GO:2000035,GO:2000112,GO:2000615,GO:2000617,GO:2000756,GO:2000758,GO:2001141,GO:2001252
EggNOG free text desc.Belongs to the nucleosome assembly protein (NAP) family
EggNOG OGsKOG1507@1,KOG1507@2759
EC3.5.1.98,6.1.1.20
COG Functional cat.Z
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
BRITEko00000,ko00001,ko00002,ko01000,ko01007,ko03016,ko03019,ko03029,ko03036,ko04131,ko04812
Hectar predicted targeting categoryother localisation
Ec32 ortholog descriptionNucleosome assembly protein (NAP)
Ec32 orthologEc-28_001750.1
Exons15
Model size4437
Cds size1407
Stop1
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1622815384.3818285-UTR-P-fluviatile_contig10:1736372..17364001622815384.3818285-UTR-P-fluviatile_contig10:1736372..1736400Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 1736373..1736400 +
1693561677.7127295-UTR-P-fluviatile_contig10:1736372..17364001693561677.7127295-UTR-P-fluviatile_contig10:1736372..1736400Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 1736373..1736400 +
1622815384.3952928-UTR-P-fluviatile_contig10:1736654..17368281622815384.3952928-UTR-P-fluviatile_contig10:1736654..1736828Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 1736655..1736828 +
1693561677.7271206-UTR-P-fluviatile_contig10:1736654..17368281693561677.7271206-UTR-P-fluviatile_contig10:1736654..1736828Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 1736655..1736828 +
1622815384.6985493-UTR-P-fluviatile_contig10:1751075..17539031622815384.6985493-UTR-P-fluviatile_contig10:1751075..1753903Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 1751076..1753903 +
1693561677.8726237-UTR-P-fluviatile_contig10:1751075..17539031693561677.8726237-UTR-P-fluviatile_contig10:1751075..1753903Porterinema fluviatile SAG_2381UTRP-fluviatile_contig10 1751076..1753903 +


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

Feature NameUnique NameSpeciesTypePosition
1622815384.411375-CDS-P-fluviatile_contig10:1736828..17369621622815384.411375-CDS-P-fluviatile_contig10:1736828..1736962Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1736829..1736962 +
1693561677.7369947-CDS-P-fluviatile_contig10:1736828..17369621693561677.7369947-CDS-P-fluviatile_contig10:1736828..1736962Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1736829..1736962 +
1622815384.422631-CDS-P-fluviatile_contig10:1738726..17387851622815384.422631-CDS-P-fluviatile_contig10:1738726..1738785Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1738727..1738785 +
1693561677.7468207-CDS-P-fluviatile_contig10:1738726..17387851693561677.7468207-CDS-P-fluviatile_contig10:1738726..1738785Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1738727..1738785 +
1622815384.4343865-CDS-P-fluviatile_contig10:1740495..17405611622815384.4343865-CDS-P-fluviatile_contig10:1740495..1740561Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1740496..1740561 +
1693561677.7542646-CDS-P-fluviatile_contig10:1740495..17405611693561677.7542646-CDS-P-fluviatile_contig10:1740495..1740561Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1740496..1740561 +
1622815384.449122-CDS-P-fluviatile_contig10:1741746..17418411622815384.449122-CDS-P-fluviatile_contig10:1741746..1741841Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1741747..1741841 +
1693561677.7617626-CDS-P-fluviatile_contig10:1741746..17418411693561677.7617626-CDS-P-fluviatile_contig10:1741746..1741841Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1741747..1741841 +
1622815384.5480404-CDS-P-fluviatile_contig10:1742704..17427881622815384.5480404-CDS-P-fluviatile_contig10:1742704..1742788Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1742705..1742788 +
1693561677.7692254-CDS-P-fluviatile_contig10:1742704..17427881693561677.7692254-CDS-P-fluviatile_contig10:1742704..1742788Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1742705..1742788 +
1622815384.5693364-CDS-P-fluviatile_contig10:1743228..17433721622815384.5693364-CDS-P-fluviatile_contig10:1743228..1743372Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1743229..1743372 +
1693561677.7765841-CDS-P-fluviatile_contig10:1743228..17433721693561677.7765841-CDS-P-fluviatile_contig10:1743228..1743372Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1743229..1743372 +
1622815384.585457-CDS-P-fluviatile_contig10:1744286..17443961622815384.585457-CDS-P-fluviatile_contig10:1744286..1744396Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1744287..1744396 +
1693561677.7855792-CDS-P-fluviatile_contig10:1744286..17443961693561677.7855792-CDS-P-fluviatile_contig10:1744286..1744396Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1744287..1744396 +
1622815384.599439-CDS-P-fluviatile_contig10:1744974..17451341622815384.599439-CDS-P-fluviatile_contig10:1744974..1745134Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1744975..1745134 +
1693561677.8039975-CDS-P-fluviatile_contig10:1744974..17451341693561677.8039975-CDS-P-fluviatile_contig10:1744974..1745134Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1744975..1745134 +
1622815384.6107054-CDS-P-fluviatile_contig10:1745877..17460091622815384.6107054-CDS-P-fluviatile_contig10:1745877..1746009Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1745878..1746009 +
1693561677.8179405-CDS-P-fluviatile_contig10:1745877..17460091693561677.8179405-CDS-P-fluviatile_contig10:1745877..1746009Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1745878..1746009 +
1622815384.6216543-CDS-P-fluviatile_contig10:1746804..17468911622815384.6216543-CDS-P-fluviatile_contig10:1746804..1746891Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1746805..1746891 +
1693561677.8277586-CDS-P-fluviatile_contig10:1746804..17468911693561677.8277586-CDS-P-fluviatile_contig10:1746804..1746891Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1746805..1746891 +
1622815384.6361268-CDS-P-fluviatile_contig10:1748166..17483071622815384.6361268-CDS-P-fluviatile_contig10:1748166..1748307Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1748167..1748307 +
1693561677.837047-CDS-P-fluviatile_contig10:1748166..17483071693561677.837047-CDS-P-fluviatile_contig10:1748166..1748307Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1748167..1748307 +
1622815384.6530752-CDS-P-fluviatile_contig10:1749081..17491501622815384.6530752-CDS-P-fluviatile_contig10:1749081..1749150Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1749082..1749150 +
1693561677.8467188-CDS-P-fluviatile_contig10:1749081..17491501693561677.8467188-CDS-P-fluviatile_contig10:1749081..1749150Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1749082..1749150 +
1622815384.672094-CDS-P-fluviatile_contig10:1750264..17503241622815384.672094-CDS-P-fluviatile_contig10:1750264..1750324Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1750265..1750324 +
1693561677.8575544-CDS-P-fluviatile_contig10:1750264..17503241693561677.8575544-CDS-P-fluviatile_contig10:1750264..1750324Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1750265..1750324 +
1622815384.6870205-CDS-P-fluviatile_contig10:1751009..17510751622815384.6870205-CDS-P-fluviatile_contig10:1751009..1751075Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1751010..1751075 +
1693561677.865162-CDS-P-fluviatile_contig10:1751009..17510751693561677.865162-CDS-P-fluviatile_contig10:1751009..1751075Porterinema fluviatile SAG_2381CDSP-fluviatile_contig10 1751010..1751075 +


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

Feature NameUnique NameSpeciesTypePosition
mRNA_P-fluviatile_contig10.741.1prot_P-fluviatile_contig10.741.1Porterinema fluviatile SAG_2381polypeptideP-fluviatile_contig10 1736829..1751075 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_P-fluviatile_contig10.741.1

>prot_P-fluviatile_contig10.741.1 ID=prot_P-fluviatile_contig10.741.1|Name=mRNA_P-fluviatile_contig10.741.1|organism=Porterinema fluviatile SAG_2381|type=polypeptide|length=469bp
MSTSPPASALPATPDNQAAAQGGAGGDETMASPMPPPPPFNTPAGAAGSS
GVPVGLGPAGGGIEAVAGDALATMLSGVSIGGDDASASAARPEDEGGDGD
GMEEEDDEDEEEVMERGTDETEVVELPPEVMKRLYQLKALQSEKDVVYER
YKVKRAELEMEFAREYGAIFERRAEVVAGRARDLDGKRRARGALSEEASA
SGQGEGEGEVGVPHFWMQCMLHHEALHDVVCEPDLEALYYLSDVRCVDKE
NLLGFTLEFHFDDNPYFTNAVLTKRYDTANIMDQGEPLLEGVEGTPIDWK
AGRNLCERTTRRKVKRGGQGGETRTITKVEKTESFFKFFQNPVMYDEDDE
DDEDDEQYNFSFDMDYEVARIFRNHLIPNAVLWFTGEAVDDEEEESDEET
DEEEDLEEAEEISAEEEGAAHEDSEDEAAGDGDGDENQGPVKQLNFKAPA
GFGAPPSGSTDGKECKQS*
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mRNA from alignment at P-fluviatile_contig10:1736373..1753903+

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_P-fluviatile_contig10.741.1 ID=mRNA_P-fluviatile_contig10.741.1|Name=mRNA_P-fluviatile_contig10.741.1|organism=Porterinema fluviatile SAG_2381|type=mRNA|length=17531bp|location=Sequence derived from alignment at P-fluviatile_contig10:1736373..1753903+ (Porterinema fluviatile SAG_2381)
CAGCAGATCAGCGAAAGGCCAGGGACAGGTGAGAAAATTTTCAAGTCTCG
CATGGGGCGGGCAAAGTTTTAGAATATTTCCACTCTACATCTTGCATATA
AGGGATTGATTTTTGTCACCTGGGGTCTTTGACAAGCAAAGAGAGAGAGA
CACCGGGAGTGAAACCGGAGCAGTGTGTCGGTGCACCGCCATCCAAAGGA
TGGGGGGTTGGAGAGGCTTGTGCATACCCCAATGAAATCCGATTCACGTT
CACCCCCGCTGGACGTGTGCACCGCGCGACAGGATCCCTGCAACGGTCTC
ACGCTCCGCTACGTTACAAGGTCCTTTCCGCTCGGCGAGAGGGCAAGATT
AAGTATTGAGGAAGAGGGGCTGCAGACGGAAAAGGGCTTTTCGTGAGCGA
GAGCGAGAGACGGACGCCTTGCACACTTTTCAAAAATCAAGACCGGACAG
AGACAGATGTCTACTTCTCCGCCCGCGAGCGCATTGCCCGCCACGCCAGA
CAACCAGGCGGCTGCCCAAGGCGGTGCAGGAGGGGACGAAACCATGGCGT
CACCGATGCCGCCCCCGCCCCCATTTAACACACCTGCCGGGTGAGTTAGG
GTGTGGGGAAGGCGGTAGATTAAGCATTTAGAGTTAGCGGAGGACGAGAG
AGAAAATATTTGTGTGTGGGTGATCTGTGTGCAACGGTTTTTTTGGGCGC
ATGGGTTGCGTCCCTCTCCTCCATGTTCGAATATCACAGGAAGGATAATG
TGGCCAGCAGCAGAGATCTCGTTCTTCGGACTGCTTGTCTTTTCCTTCAA
TCCCGTCTCTGTCCTGGGAATCACACGCATCGATCGCGGTTCGTCCGATC
GGCACGCATACCAGAGAAACGCGACCAAGCTCGCACGCGGGGGAGGACAA
AAAAGAGTGCGAGTGCGGGTGTGTTTTCGTGTGACGCTGATTACCATTAT
TTTTCAAATATCTCAGCAGGCACAAGAGTTAAGCATGTGTACGGCAGCAA
ATATGAACCTCGTCCAGCCGCGTGCATTTCGCTTGCGCTCGTGCGCGGCT
GGCTGCTGGCCTTTGCAATGTTTTCGTGGGCTGCCCCTCGCCGTCACATT
TCACGTTGAATCACAGCAAACAAACGTCCTTTAGTGGTCTCGTCGCGGGA
TCGTCGCACGGTCCCGCTGCCTTCAACAAATGCTGGGTGGGGGGAGTTTG
GGCGCAAACGAGATCATGCAGGTTTGCGTATGACTTTCACAATGTAAGAA
ACCGGAAATACGAAGCAGGGGTTTTGCGTGTGACCACGTGTTTGTGAACA
GAACGGCAGGTCGACAAGGTCCGAGTAGGAGACCTTGAAAACAAATCCAG
GGGAGCTGTAACACGTACTCCGAGTACAGTACGACTTTTTCAAGGTGTGT
CCACCCCGCTGCTATCGCCGAGACCTTGCAACATTTGGGGGGAGAAACTC
GAAGATGTCCGCAAACGCCTGGACTACAGCAGCAGTTTCAGCCAGCATCT
TCTCGTCAAAGCTGACTGAAGCTTTCCCAATCCCAAGTGTGAAGGCGGGG
GGGGTTCAACGAGATCGAGAGAATTTTGCGCAGAAATACACCCGAAAATG
TATGGTGCGGATCTCTCGAGTGCACACGTAGATATGCTTTTTGCATGCTA
CCGCCCAAAGGTGAAATCCCTTCATGTTAAGGCTACTCCAGTGGTGACCG
AAGGCCCTGCGTTTTCAGGCTCGCTCACGAGCTCTCTTCTTTCGTTGAGA
AGAACTCCCACAGCCTAGGCTCGAGACCGAAATCCGTTCAATGACTCGAC
TGGCTGGTCCTAAAAAGCAAAAGAGCACACACCAAGGACAAAATCACACA
CAATATCTCGCCGTTACACCGCTGTCCTCCGACCTTCGGATCGGGGTGGA
ATCTTGGGATTGGTGCGAAACGTTTGCCAGGGCTGTCCTCACTTTTTGCG
AGACAATGTTCGGAGCGATTTTGCCAACGCTTGGGGCGATTAGACCAGCA
TTCCGCACCGATCTGGTGAACCCTCCGCGTCGACTCGCACGTTCATGAAT
GCTGGCAATCTGTTTTTTCTTCCAAGCGGCGGCTTGTATCTCTTGTCGAA
AGGTCTCGGAGAGGTGAAAATCGCGCGTGCGACCGCATGTCCAGGCCGGT
TTTGCAGGGGATGACCGTGACGCTGCTGCTCCTGCTGTAAGGTCGCGGGC
TACATGAAGATGATGGTAATTTCGCAATTCCGACTCCCCCCCTTCATTCC
CGCACTCCTTTATCAACGATCACGAGTGGCGACGCTGACAATTTGTACCC
CCCTCTCCCCTATCCTTGCCACACGCCACCCTCTACGTGCCCTCCCGCCC
TTAGCGCCGCGGGCTCAAGTGGCGTCCCTGTGGGTTTGGGGCCTGCCGGC
GGCGGTATCGAAGGTGAGTATGCAAAGCGCTGAGGGGAGAAAACGACGGC
GCAGCATGGGAAATACTTCTGGAAAGTGACGCCTAGATATTGTTCCGACG
TCGGTAACTTGGTGGGCGGGCAGCCTCTTGAGCAGAATACCTTGGAAAGG
CGAGGGGAGAGAAAGGAACGTTACCCTGAAAGACAGGGCTTGAGAGGGGT
GACGCAGTCGAACAGCTGCATTTTTGGGACATGCGGGGCGATGCTTTCTT
CTCCTCGAACGTGGGGAATGTTGCCCTTGAAACCCAGCGGACCATGTTTA
ACTATCCTCGGACGCAACCAAGGCGTTCTTGATGATTGCAGACGCACCTT
TGAGCAAGACAGGCAGCCTGACCGGGCAATGGCCGTGGCATGTGTTTGAA
CGCGGTTCACTGCCTTACCACGCTTTTGTCGTTCCAACCCTTGCCACGAC
TTGAAGGCGCGCAGCCAGACGCTCTTGTGGAATCCCTGTGTCGTACCAAC
CATTCTTGACTGGCCCGTTGTCTTGGTCGAGGAATTCCAACTCTCGAAGT
AGCGGATTCCCTGGAATCATTCCGTCTGGGGAGCTTTTGCTTGGGCTGGT
CGGAGACAGCGCTAGTCGGGCGCTGGCAGCTGTCCTTCAGGAGACGAGCC
TGCGACGAAATTTGAACTTGTGAGGCTGTCTCTTCCGCCGCCGTGAGAGT
TTCCGAGCAAAGCCTGGCGGTCAACAGCAGTGGGGCGTGCCTCTGACCCG
CGTGAACAAGCGTGGCCTGCCATTACCCACCCCCTTCTGTCTGTTTTCGG
GCGCGCCGAGCTTTGGGGTTGGTCAATCAGCATTTGGCCGTAGGCAAACT
TTGCGGGCACCGGCCGGACAGAGCCAAACGCTCGAAGCTCGAGGTGGGGA
TGTTGGCCGTGCCCGGATGGACGCAACGCGAGGACGCAAGCGCAGGAGAT
TTTTGCAACGTATCTGACGGTCAAAGCCAGCCGCGGGTCTTTCCCGCCAG
AGATGTAGCGAGCGCCCTCGCTTTTATCCTTGGGGAGGGCCAGCTTGCCT
GCTCCGAGGCCGGGCATCTGCCAAGAACAACAGTTGTGCAACCCGCCTCC
GTCTAGGCACGGATTGCCAACCACGCGAAGCTCGGCTTGTCTGAATGAAA
ACGCTGGAGGCGGGTAGGAATTCTTTGCACCATTCTCGCGGGTCGGCTGC
GCATGGCGGTCGAGCTCCTCAGGCATTTACTTCGAGAAGCTCACGGCAGT
GTTGAACACAGCCTCGAAAGCTTGAGTTTGTGCGGAGGCGGGTCTCGAGG
ATTCGAGCGCCAAGTCGACTTGAGAGTTGTCTGCTCCCGATTACGGTCTG
TCTCCTCAAGCAGTAGGGGTACTCCGGGTGGAAAGCATCGTAACTGTGCG
TGCTCGCTCTTTACTTCAGAATACCGTGTTCGTCAAATAGAAGCCGGTAT
TCTGGCCCCGGGATGTGAGCATTTTCGTTGGGTACTTTGGAAGGCCACTC
AACTACAGCAGCAAGACACGGATTTGCTCGATGCTTCCCTTGTTTTGGGA
GCTCCCTGGACTGCATGTTTCGGGTGTACTTCCTCCTCCTCTACCTCCCC
CCTTCAATTCATACATTTTGAAGTGTCTGGCCTGATTCCTGTCCTTTACA
CCATCTCCGTTTGTCCTTGTTCCTTTCCTCTGCTGTGTTTTCGACTTTGA
CTGGGACTTCTTGTGCACAACAGCAGTGGCGGGTGACGCTCTAGCAACCA
TGCTATCCGGGGTCAGTATTGGCGGAGATGATGCGTCAGGTAAGCCTTTT
TTTAAGGTGTGCTCACCGCAAAAGGTCAGGCCGGGGCCTCATGGAGACGA
ACCCTTCTGTGTAACCCCGGATCGGAGCTCACGCGGCAGAATTGTTGCGA
GCGCTGGTTCAGTGGGATGGGGAATGCAGGAGCCTCATTGAAAATGATGA
GGAACTACGAAATAAAAAAAGCAGAGAGGACGCGTCAGGTAGCGCTGACT
TGAAGGCATCACAACGATCTCACGCTTTTCTTGGGACTCGTTTGTCGAAT
GTACCGGCATGCAAACATCTGGTCTTATTGTAGGTAGAGACCAACCAGGC
ACGGATACCGAATGTAGACGTTAGCAAGGGATGCCACACGCCCCCTGGAC
CTGTTTGCCAACAGGCCGCGACCCGCCATGACGAGAGTGAGGGTGAGCGT
GCCGGCGCCCGAAGGGCAGGATTATGTTGGCAATACGCCACCGAAACCTT
CCCACAGACGTGCCGGTCGCCGTCGACTCTCTTACCCTCATTGGTGGTTG
ATTTCGGCATAGTGGAGACTGCTGCACATAGGTTTGGTCTCTATCCGCGC
TGACTCCCGTCACCATCATTATTGCACGGCGTTGACATTCTCGTTGAGAC
CTTTCGAGAGACGTTGCGGTGAACATGAGCAATGCCACGGTCAATTTCCG
ACTTTGTTGACAGTCTCGTCCACATCTATCCGTAGACGCTTCGATCGGCA
TCCACAACACTGCCGCTGTCTACGTCGTTGTCGGTGTTGGTAGCCTCATC
GAGACTTGCACAGACGTTTGTGGCTACGACTCAAGCGAGACTTCGACCAG
CCTTGCTGGACTCTCTCAAATCGGGCTCTGTCTTAAATCGACCCGAAATG
ACTCACTACGTATTGACTTGAACGGTTCGTGCCAAGATGATTTGACTCTC
TTACACAGGCACTTTCCTGCAACAACAATCTCTTAAATTGTAGCCACCAC
TGTTCAAGTGTGTGCTTCGGTCTGTCGTCGCTTGGCGCCCTCACTGATGC
GGAGAAATCTCGCTTTTGGAAATCACTCACAAGAGGGCTGCGGTTGTGCG
GTATTTATAGTCACGCGCGGTGCAACGACAATAAGGGGAATGCTGCTTAC
ATCATGCGTAGCCCCGCTGTCGATGACACCAGAAACTGCAAAACCGTGAA
TGGCAGGGGGACAGCCACGACCAGCCAGTGCCGCACGGCCAGAGGACGAG
GGCGGCGACGGCGACGGCATGGAGGAAGAAGATGACGAAGACGAGGAAGA
GGTGATGGAGCGAGGAACGGTCAGTGACATTGGGGCGCAACACCGACAAA
AAACAACGGGCAAGGTGGACGCTTGTTTGATCTCGTTGTTTAGTCGTGGG
CCCTGGAGAGGGCGGGGGGGGGGGACGATGGAGGCACTGGCTCGGGTTAG
CAATTAACGGCGAAGGGGCCGACAAAACAACAACATCAACAACAGCCACA
ACAATAACAACAACAGCAAGAACGACAGCAACAGCAATAGCAACAGCAAC
AGCTAAAATCACAGCTCTGGCATATCTGCCGTCGGCTGATTCGCGCGAAG
GGGTCTGCGTCATTTCTGTCCTGCCCTGGGGCCCGGATCAGACGGGTAGT
TGCTTGAGGCGAGCGCGTGCAAAAGCGAATTCTTCCGACAAGCATATTTA
TTTTCGTCAGGGTGGACGCTGGATTCGATCATGACATGGATAGAACGCAG
GCAAATGTCAGACGCAGACTTTCAAGCATGAGTGATCGATGGTGAGGAAT
GAAGCAGGGAACGGGCAGAACGACACCAACGAAGGATGAGGACACACTGC
GAGTACACCAACTTGAGTCGGCGGCGGAATTCTGGTCTGTTGAATGGCAA
AAAGGCTTGTGCAGCAGTAACTGCTTCGGATGATTCTATCTCGGTGCCAG
ATTCGTACCAAAGCCAGGCTTTGGAAGAACAACACAAATGCTTCAGTTAA
AACGGAAACCTGGTTACCCTATGGGTCGCCTCCATTATGTCTCCCCTTTT
CAAAACATCGTCAGCCCCCCCCCCCCCTCAGCCTTCCGAATTGTCACACG
AAAGTACTTCCTTCGGTGTGGACGCGGTCTTCACTTTTCATCCTCCTGGC
CGCCTCCCTTTTGCGACGGGGTGCAGGAAGAGGACGAGACGGAGGTGGTG
GAGCTGCCGCCGGAGGTGATGAAGCGGCTGTACCAGCTCAAGGCTCTGCA
GTCGGAGAAGGATGTGGTGAGACGGAGAGGAAGGCTTGTATTGGACAGTT
TTGTAGGAGATGCCAAAATCTCTTGTCTCCATGCGGTCGCGTCGGTGGAT
TGCGGTGGCGACTCCTGCTCCCGTAACATGTCGACGACTCGGGGCGGTCG
ATTCAAAACCAATACGCAGCCATGGCAGGAGCGACCCTCCCAAACCTTGC
CCAATAGACGGTGCGCTGCTTCCTGCAAACTGTGGGGGTAAATATTTCTT
GAATGGGAGACATTCATGGTCCAACCGGTGATCGGCTCCCATCGCCACCC
CCGCCTCCGCGTTCATTTTGGTGTGAACCTTCGTTCACGAGAGGTACAAG
CAATGATCAAGTTCTCGAGATGAAATGCGGAGAGACCCATTTCCGCAGCC
ACCACCGCCTTCGCCTTCGATTTTGTCCTTGACTGATTGAATGAACCCTC
TCAAAGGTGTACGAGAGGTACAAGGTCAAGCGCGCAGAGCTGGAGATGGA
GTTCGCCCGCGAGTACGGGGCGATTTTCGAACGTCGGGCGGAGGTGGTAG
CGGGGCGGGCACGAGACCTGGACGGTAAGAGGCGAGCGCGGGGTGCCCTT
GTCACCTTGGATTTGTTCCGTTGTTGAAGTTTCTGGTGGTGGCAGGAACA
AGAGGGTGTCCCTTATCACCTCGGATTTAGACCATCGGTTTTTTAAGCGA
AGGCGTCTATATCTTGTCAGGAAGGCGGGGGGGGCAAGACGTGGGCAGCA
GTGAGAACATTAAGCAAGGCAGTGGTTTCGTGGTGGTGGTGGTGGTGGTG
GTGGTGGTGGTGTGCGCAAGGTAATGCCGCACGTGCATCCGTTTCACCGT
GGGGCGGGGGCGAGGTGTCGCTTCAACAGAGACGAACGCTCGAAGTGAGT
GGCACCAAAGGAACCTCGTCCCTTGCACCAATTTCATAAGCTCGACTCTC
AGCGAAGCGAGTCTGGACGCACGAAACGATGTCATCGGTTCGTCTTTTTC
CCACACGCGTTTTCCGGCAGGGGCATCGCACCCTGTGTTGCGGAGAAATC
GAGATTGAGAATTGGGGTAGGGGATGTGTGGTACCATGTGACACACAGGG
GATACCCTCCAGCCATGTGCCACGTAGGGTTTACCCTCCAGTGGTGTGTC
GACGAGTCCGCTACGCGAGCACAGCGATGTTGGCTCCTCCCGCGCAAAGC
CCCGTCGTCATGGGAAGTGATGGTCGGCACCTGACTCGAGAAGCACACTC
ACGCTGTTCTCTGCAGACCGATGCATAACCTCGCGTCATGGAAAGTGACC
ATCCGCACTTGAAGCGAAGATTACACGCGCTCGATGTACATGCCACTGCC
ACTACAACTCCTGCTGCTGCAAGCACGAGGGTTAGGCTTTTACTCCGTAG
GCGATTGATTGATTGTGGAAAGGGGGGATATTTACGTGCTGAGATTAGTA
AAGAATCGAAGTTCGTGCATCTAAGTCGCAAGAAAAATCTCTCGTGTTTC
GTTTCACTTCAGAGTCCGAAGAAGCATCCGCCAGCGGGCAAGGGGAAGGC
GAAGGCGAGGTCGGAGTTCCGCACTTTTGGATGCAGTGCATGCTCCACCA
TGAGGCACTGCATGACGTCGTCTGGTGAGCTCGTCTTATGTTTGGTCAGT
TTCGACTGGTTGCTTTTTCTAGCTTTCCCCTTTTATTTCTTTTCGTTTTT
CTTGTGCGTTCACTTGGTTTAGGCTGGCTGCCTTTTCTTTCGAGTGTTTT
TTTTTGTGGGTGCTTATGGTAGTGACTTGGGGGGCAAGGGACGTTTCACT
GCAGAAAGTGCCGACGTTATTGGGGAGTGCCTGTGGTGGTTGTCACTTCT
CACAGCGCCATTTCTTATGTTGTCGTTGTTGCTGCTGGCGCTTTCGCTTT
TCCCGTTGTTCTTGATTTTTTGTGTGTTATCTGTTCCTTCGTCGTCGTCG
CCATTGTTGTTGTTCTTGGTAAGTCTCGCCACAGCGGGTCTCAAGTCCGG
TGTTTTGTCCCCGTGCCTCGTTTCCGCGCACAGCAACGACAAAGAAACAC
CAGCACCAGCACCACCACAAAACCGCCACCACTGGCAATTCGAACAAGAA
CGGGATTCTTGCCCCTCATGCCGACCTTCGCCTTTCTCTCCTCCTTTCTC
CACCCCCCTCTCCCCCCCCTCTCCCCTGGGGGTGGGTTTGGATTTGCCAC
AGCGAGCCCGATCTGGAGGCGCTGTACTACCTGTCCGACGTGCGCTGCGT
GGACAAGGAGAACCTGCTGGGCTTCACGCTCGAGTTCCACTTCGACGACA
ACCCGTACTTCACCAACGCCGTGCTCACGAAGAGATACGACACCGCAAAC
ATCATGGACCAGGTGAGGGTTTTACCAGTTTCCACCCAACCATCCAAGCA
AGGGACACCCCCAAGAGGTTCGTGTTCCGCGCTGCCTGGGTTGTGTGCGC
GTGATCAGTGCTCCGTTTTGCCTGTGCAGTGATGACTTTGCCCATTTGTT
CCGAAGCTTGTTCGCGATTTTTTCATCGCTGTTTGCTTTCATTATGTCTC
CCTCGAATCGATCCTGAAAATGTACACTTGAGGTTGAAGATTCACGCGTC
CGTGGTGTGAGTTAACAAACGCCAGGGCTCGATCCTGCCGGGCTCTGCAA
ATTCGATAGTCTCTCGACGTGCTCGACGGAACTAGTGCGAAAGAGTTGGC
ATACACAGTGCAGGCACGGCTGGCATCGATCGCTTCTGCGTATTCCGCAG
TTTTAAGGTGCATGACGCTCACCTCGAAGGAACAACTTTCCTGCTTCATA
CGAAGTGCATCGCAGGATTGCCATTGGGTCTTTCTCTGGATTCTCGTCCA
CCCCCCCACCCCGCCCTCTCTCCCACTTCCTCGCTCGTCCCCCACCCGCT
GCCATCTTAACCTGTCTCATTCTCCTGCCTCCCTGCCCCCCCATTCCTCC
GGGTCGTCCTCTTGCGATTTCCTTCTCCCTTACGTGACGCGCGATGGTCT
GCTCTTGTGTGGCCCTGCTTGGCCTTCCTGGCTGCCTGGCTCCGCCCTTC
TGGCTGTCGCTGATTGACCGCCCGGCTCGGCCGCGTGGCGCGCTTGGGTG
TGCAGGGCGAGCCCCTCCTGGAGGGCGTCGAGGGGACGCCGATCGATTGG
AAGGCGGGCAGAAACCTTTGCGAGAGAACCACCAGGCGGAAGGTCAAGAG
AGGGGGGCAGGGTGGGGAGACTCGAACGATCACAAAGGCAAGCTCCCCCC
ATTTCAAGTCGATCACGTGGCCCGTTAGAGCGCATGGACGCCAGCGCATC
ACGTGTGTATCGCTGCTGTTTTTGTTTCGTTTTTTTTCCTGTTAATATTC
CGTGGCGCAGCAGCGGTGCACGGCAAAGCAAGACAAAATATCGAACCGGT
TTAAGTTGAACTATGTTTATTTGATCGCTTCCGTTCAGCACGACGCCGGG
TTTTTACTTGATGCCTTACGATGTGCTCAATTTTCGTTTGGGTAGGATTT
TCTCTTCTTTTTTATTTGTTGGCCGAGGTCGTCGTAGTCCATGCTCGTCG
AGCAGACGGGTGAAGTGAAAACGGGACGGGTGGAATGCGAAACGTGACTC
GCGATCCCTCACTCCCGAGGCCAAGTAAACGCCAATCGATTTGGCGCCGA
TCTTCGAAAGGATGCCTCCGGAAAGATCTTGAACAAAACAGGGTCTCTGC
AACAGGAATTTCGTCGACGTAGATGTAAACGCGGAGGCTTTGGGGGTAGG
AATCGCCATTCGTTAGTGCTCAAACTTGGGGCTCTCGGTGCTGCTCTATC
TTGTCAGGGGACGTGCTTAATGCCCCGTTCGTCTTTGTTCTTTTTGGTTT
TCTTTGTCCGCTTGTCTGTTTATACGTCCATCTGTGGCTTGTACCCCGCC
TCCCCCCCCATCCCCCGATTCCTGCCTCTCTCTCGCCTGGTTTTTGTCCA
ATATGTGGGCAAGCCACTCGAGTTTTATCGCACAAACAGAACATTGAAAA
TAGTGCGCTTTTTTTTTCTTCTATTTTTGAAGGTGGAGAAGACGGAGAGC
TTTTTCAAGTTTTTCCAAAACCCCGTAATGTACGATGAGGACGACGAGGA
CGACGAGGACGACGAGCAGGTGCGCGTATGCGAGAGAGCAAGATAGCCCC
TGAATCAAAGGGGTGCACCGCTGACGACGAAACAATGGTGTCGTGAGGAA
CCCAGGGGAGGTGCCTCTGGCGACTATTTCGCCGCTGCTTTTGGAGCTAT
TTTTTGCCTTTATTTATCTCCGGGCGAAGCATAAAATCGCTGCCCGCCAT
CATTTACGTGAAGGCATTTCCCGTGACGACAGAGAGGGATATCACAGCAC
CGGCTACCTCCACTTGAAAACCTAGTCCGAGAGGTACGACGCATGCGCAG
ACAACTTTGGTGCGTGCTGGGGGGCTGTGTCGGCACACACCTCCGTGATG
ACGTGGGGGTGGAAGCGTGTGGTACGTCTCAAGCCAAGCCTTATGTTGTG
GTGTCATCCTCGTCATCCTTGTCGCATTCCTTTCGCCGGTTGTCTGCTAC
CCGCGGTAAGAAAGACGGGGCTCCTCTCCTTCAACGCCCCCCCCGCGCAC
ACACACTCCAATCACACGGTTTTCGAAGCCGTGTCGAAGAACGTAGCGAT
GGAAGAGAGGAAATACGCAGGACGTTGAAGGAGCCCAGCGCGAGGGTGCC
TCCAGGGATTCAAGTCAGCGTGGTTCCTCCTCCGAGGACGGCAGTGCAGG
CTGTGTTGTATTGTCTCTTTCATTTCTCTTCGATGTTGAGTAAATACGAA
GCTTAAAGTCATAGGAGACGGAGTCGTCGCGAATGCGTCACTTGTTTGAC
CTTCGACACGAGCGAATTAGTTCACGAGGTGAAAGCTCATCCTTGATCGA
CCCCCTTGTGTACTTCTCTTTCCGTTGGCAGTTTTTCTGGCGAAAAAACC
TCCTTCTTGCGCGCTCTTGTACCGGAAAAGCCGTAAAACGGCCTAAACAT
CCAAAACAAGGACCTAAAGTATCTATATACAAAAAATATTCCTCACCTTA
CAGAAAAGATGCAACGTTCAACCGAAAATGTGCTTAGCTGAGATCAATTT
CTATGGCATATCCTGAATTGTGAAATGCTTGTGTTCTTGTTTTTTTGTCA
GAAAACCTGTTTTTGCGTATCCTCCCACACCCCTTCTCCTCATCCTTTCC
TCGTCAACCCCTAGGCTGTGGGCCACGGCACCAATGAGCGCGCCTTTTCT
TACACTCACAGGAATTTCGACTTTGACGCGATGTTTTGCAACTGTCGTCT
TGTGTCTTCTTATGTATTTTGTGTCCCTCCTTTTCTGCGGCTATCTGTTT
CTTCTCGGGGCGCTCTCTCGATCCCCACCTGCCCGAAAATACAGTACAAT
TTCAGCTTCGACATGGACTACGAGGTAGCCCGAATCTTCCGTAACCACCT
GATACCCAACGCCGTGCTCTGGTTCACCGGCGAGGCGGTCGACGACGAGG
AAGAGGAGAGCGACGAGGAGACTGACGAGGAAGAGGTGTGTTGAAATATG
GGGACGGGGGGCGGGGGTATTTCGTGTTCGAGGGGCGGGGCGGATGGTGC
ACGGGCGAGCCGGTCGACGACGAGGAAAGCGACGAGGAGACGTGCGAGGA
AGAGATTTGTTGAACAAGGGGGAGCGGAGGGGCGGGAGGGGGGGAGTAAT
GTAATCGAGGGGCGGGGGTGGATCAGGAACAGTATCTTTGAGGAAGGTGG
GATGTCTGTTGAACAGGAggGGGGTGAGGGGGCCGGTAACCGGCAAGGAA
GAAGAAAGAGGCGTGTGTTGAACAGGGGGTGGGGGGAGGAAGGATTTTTG
TCGGGAGGGTCCGTGCGGACGACGGAGGTATCGACGCCGTATGGGCGTGG
TGGGGAGAGATGGGGGCAAGAAGGATCGGTAAATACCCCCCATCTTGATG
TCAGGAGCGGGCGTGGTAAACCGGTCATAGGCGACGAATCTACCCAACGA
AACGACTGGGGGATGTGGGGGAGGGTCCAGTAATGGGAACCTCCTCGCTC
TCTCGCTCTCTCTGCCTTTCGAGTGATGTTTTTGCTCCGGGCTGTTGGCA
TGCGGTGCAAATGCCGTGCGACGCCGTACACGCTACGTGTTCGGGTCTGA
TGTCCGGAAATTGTCGACTCAGCGTTTGCGCTCTGTTTCGAGCAGCCTTC
TCCCGTTCCCGTTTCTTCGCAGCATCTAGAAGCGAGGTAGTAGACTTTTG
TGCTCAATTTTTTCGTAATTGACCTCTTTGTTTTGCTTCCCCCATACCCC
TCGTTGCAGGATTTGGAAGAGGCTGAAGAGATCTCTGCGGAGGAAGAGGG
TGCAGCACACGAGGACTCGGAAGACGAGGTGAACCTTTTTAGCAACTCAA
CCGTCCGCATTTGCCTGCACGTCCACCCGAGCTGCGGAATCCCTTTAACA
TCCACCCGAGCTGCTGGAGCCGTTTCGTCTCGACGCGAAACCAGGCAAAT
CAAGATTTTCTAGCTGTTCCGTTCTCTTCCAGATGACGTCTTGTTATTTC
GTGCCGGCTTCATATCCCCCCGTCTTTTTTAGATCCGGATTCCCAAGCGA
CCACAACGAAACACGTGTACAGCGAGGGGCCCTCAATGGTGTGTGGAGCG
AGGGGTGCATGTTCTCCCGTACTCAAGCGGGCCCCCGCACTGGTCCGAAG
TGTGTGGTATTTAGAGTTAGGGTATGAGATCGCGTTCATGCCAACAGATT
TCACCCACACTATGCCGGGAACCCGCACTGCATCGCGTTATGGGTGCGCG
TTCTGCATTCGTGATTCCGCCCCGCAGTGAAGCCGAAGCACGCAACGGGT
CTGAGGGTATCGGCTTCTCGTCCCGCGTGTGCTTTCGCCATGGTTGGCCT
TGGTTGTTTGCGCGGTCGTATTGTTTGCGTGGTCTTCGAGGCACACCAGA
CCTTGATAAATGGTTGGCATTGATCGCACGGGCGGGTGGTACAACATCCT
GTCCGCAAGGTCGAAGTCTGCGAGCACTTTGGAAAACGTGAGACGAGAGA
TGGTTGAGAAATTGCTGTATCCGTGAAATATTGAAAGCGTCCGATTGCTA
TCGACAGTCTTAGGCACCAACCCAAGTGTGCATCCATAGTCCGTGCAACG
CCGTGTCCACCACAAAGACACGCGCGTCCGTCGTCTAGCACCTCCCCTCT
TCTGGGTGCGATCGCGGGAGGCAAATGACTTTCGCCCCTGCTTCACGGCG
TGGACAACGTACCTTGATAATACGACTTCGTGCAGGCCAACAATAAGACC
TGCATAAACGTCTCAAAGACCATTTTTTTCCTTGACCGGAAGGGACCTTT
TTCTGACCGACCAGAGAGCTGCGTGCCGCGGCGGCTTTCCTGTCATCGCT
TCTGGCTACTGCTCAGAAAAAAAGCGTGCCGCAATTCGCTTCTGCTTTGT
CACAAAAATCCGAAACGCCTCCTCCCAACTGTTGAAAAGCAGGCGGCAGG
GGATGGTGACGGAGACGAAAACCAGGGGCCGGTGAAGCAGTTGAATTTCA
AGGTAAGGGCCGACGTCGTTTGGTGCTTCCTTGGCTGCGCTTCAAGTCAA
TATCTGTGTCTTCTCTGTCGACGGGATCAAAAGAGTGGCCTTCTGTGGTT
GCTAGCGCGCAACGCTGGCGGTGGAATTTTGGGGGGCTGGTTTTGGTACC
GGAGGTTTTTCTACAGTCACCCCAGGCACAAGACATTTCTTTTTTTCTTC
ATTTGAAACATCGAAAAGCATGAAGAGCTGGAAGCTTTTCTCTCCAGATT
CCAACAAAAGAGAATCGCGAAGCATGCAGAGGACCTCCGAGTTCAATAAC
GAATGACGAAAGACATGCGCAAAGACCCTTTTCGTTTCATGAAAACAGAA
ACGAGGGAAAGCTGCCTCTTTCGCCTGCGGTGACTCTCCTCCCGCACACC
ATGCGCTTGCCATCCGAACTGCGATCTCAAAAGGTGCACCTCCTTCGGTT
CGATCCGAGCTTCCGCTGCGTCCCCGGTAAAGTCTCCAACATGTTTTCCA
AGCGGTCTTTCCCCCACGTGCGTCCACGTGGCCCGCAGAAGTCGCACGAG
GGCACCCAACATCCTCGCCAAGCCCACGAAACCGACCTCTCCGGCTTGCC
TGCCCTCTCGCCCTCTTGCCTGCCTGCCCACTGGCCTGACTGTCAAAACC
ATCGCACGTGCACAACCGCGGGGTACGGTTGGAACAGGCACCGGCAGGGT
TTGGGGCTCCTCCCAGCGGCTCCACAGACGGGAAGGAGTGCAAGCAGAGC
TAGGAAACCTGCTCGCTGGGGCGGCGGGACCGATGCGACCGCTTGGTGCC
CCCGTCTCCCCATCGCCACGACGACTGCGCCTTCTGGTCGTCGGGTTCGG
CGTTGCCTTGCCGGCGAGATGATCGTCCAGCCTGCGTTTTGGCTCTTCTT
CATGTCGTTCATTCGCGTCTCATCTTTTGGCTTCACGTTTCTGTTGCTTG
TCGTCGGGGGGGGGGAGGGTCTCGGCGACCGCGACTTGCTTATGCACTCT
TGTAATTCTTTCTCGACACCATCCCTCCGCCCCCCCGCGCCTTCCGTCTT
TTTCCGAACTTATCTGTGCTCTGAGCGCGTGGCGTTTCCGGTGCGGTGGA
GAATTGTGAAGGGAAGGAAGAACCGACCGAATTTTAACCGGCCTTCGTGC
GTTCGTTTGCGGGAAAAGCAGAAAAAAAAAGGATCTAGGTTTTGCATTTT
TGCGGCAGCGAGAGCAGGGTTCGCTTCGCACGGGCGCCCTGATCTTCGAT
TGAATCCGCCGCAGAGTTCTAAAAAGCCGATAAAATACGGATTCAAGTAG
AACGATTCAACAGCAACATCAAGCTCGTGATCTGTCTTGCGCTGTGTGGA
CGGAATACCGGGGGGTGGCGATAATGTGGTGGAATCTGGTGGTTTATAGT
GGTTGTGGTTGTCGGAGTGGTTGCTGTGGTGGTGCGGACGGAAGTTTTGG
CGCATAGTTTTTTTTTTTCGGTTTTTGCAAGCTTGCGACTTCTGCTGCGT
GGTCGTGCTTTCGGGGTGGAGGAGTGTTTTCTGTTTCGCAAGTTCTCGTC
TTTTGTTTTCTTCGTTTTTTTCCGTGTCATACACGGGTGTTGCTGCTGCG
CCACACAGTACAAGAAAGATAGCACACACGGCAAAAGCAACAGAAGTTTT
CTGCCTTTCCGGACCATACTTTGGATTGCGGAGGGAATCAAGGCTCTCGC
GACCGTGTCGAACTCGTCGAGTAGCGCAACCACCATTTTTGAGGAGCAGA
CGCCAGAGTTAGGGGGCGAGAGAAGGAATGACCGGGAGGGGCGGAGGGGA
GGGAGAGAGCGTGGGCGCGAGGCTTCTCTCCATTATTTTTCCCGGCTGAT
TCGTCCTGTTTGCCCGTTTCAGGTCAGCCGCCTCTTGATGTGATGTCACT
GGCATCGGCATGATGAGGACACCGATATTCACACGCCGGAGGACGCGCGA
GAAGTGTGGCCCGCGTATGTTGGTAGCGCTAATGGTGGCGTAGGCTTTTG
AACGAAGAGGCCGCCGCCGTTTGAAGGCAGCACCATGTAAGCGCCGGGCG
CGCAAGCCGTTGGCAAGGGTGAAGCACCAAGCCATCCGATGTGAGGGCCT
CTCCACGCTGGCGATAGAAGAGGGAGAGTGGCACGGGGTTTAAGATTGGT
CAACAACATGCGTCCCCGGTCAAAGAGCCGTCCGACGACGACGGTGCTTG
TTCGTGAATCTTCCGATTTGCTTTTTCCGCACGGTCAGGACTTGTTGCAA
CAAGATTGTTGTTCTTACTTGCCTCCCCGATTCGTTCAGAGTCAATATCA
AGATGTGTGTTGTTGCCCCCCTCCCCTCCCCCCCCCACGGGCGGGCTGTT
TGCATCCAGACCACCCCTTTTTCCATCCATGTCCCACACTTGGGGCCACG
TTTGTTCCGAGAGAGAGAGAGAGACTGCTGTCCCGTGATGGCGGGGGCGG
GTCAGGACTCGAACTTATTCTCGCGATTTGTGAGAATTCGGATGCTGAAA
GGCTTAGACTATGATCATTGGAAGGACTTGCTTCCTTTTCAGGGCGCGTC
GGTGGGAGACCCGAAGGCGATGAGAGGAGCGGACGTGCCGGGGGCACAGG
AAGGCGGGCTTCAAGCCTGTGCGGAGAAGAAAAGAAACATTACGGCGTGC
CGGGGCTTTAAACGTGCTGTTGCGTTTTCACACGTTGCGGATCATATGTC
ACGGAGTTAATGATTCATGCCTCGGGCTTCATTCCCACGCGTCCCCTCTC
CCGTCTCCCCTCTCTTGTAGGCCTTCTCAATGTGAGGTATTGATTCGTGG
TCAACACACACTCCGAGAGTAGGGCGTTTTCTACGCCTCCACAGGAAATT
CATACAGCGAAGGTTTTCGCGTGGGTTTTTGTTTGGTTGCATGTTCTTGG
TTTGGCTTGGGGTTAGGTTTCTGGTGCCAGTTTCTAGTTCTTTGGAAGAG
AGGTGTTGCGAGAAAGCCAAGTAACAGTTGGAATGGATGCAGTCTATCAC
GGGTGGGGGATGCATAACAGGCTTATTAGTGCAAATTAAAGTCACAACAA
CAGAGGCGCATACGACCGCGAAGGTGTAGCGAGGAATGGCTTGGGAACAC
TGGCGCTTGCGTGCGCCTTAGCCGGCTCAGCACGCGCCATATTCCCAGTG
GAGGCTAGAAGTGATGCGCTCGCTCGTCTCACGGCGCAGCGTGTATCACC
TTCTAGAAATTCCTTGGAAGACGAATACATGCATATTCGGCTTCCTGGGC
GTCTCTCGCCTATTTTTAGTGCTTCTTGTGTTCGTATTATCCGCGCGCTC
GTTTATCATCAAAGTCTGCGGTTCAGTCTCGTGAGGGCGCGGGAGATGTT
GCACGAACGTGGCAACAGATGGGCACGTGTCGGTAGCAAACTGCAGAGAG
ATGCATACGATTGCGGCCTCACCGATGCTTTCATTTGTTGTGCGACACGG
AAGAAAGGGGCCCCGCAACAATCTTGACGATCGCAAGGGGGCCTCGTTGA
TCGAGAGAAACGCTGCAGTTTTTTCAAGCAATACGATGTCGTCCCCCTGT
CTCATTTCACGTTCGCAATGGCTTTGTTTAG
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Coding sequence (CDS) from alignment at P-fluviatile_contig10:1736373..1753903+

>mRNA_P-fluviatile_contig10.741.1 ID=mRNA_P-fluviatile_contig10.741.1|Name=mRNA_P-fluviatile_contig10.741.1|organism=Porterinema fluviatile SAG_2381|type=CDS|length=2814bp|location=Sequence derived from alignment at P-fluviatile_contig10:1736373..1753903+ (Porterinema fluviatile SAG_2381)
ATGTCTACTTCTCCGCCCGCGAGCGCATTGCCCGCCACGCCAGACAACCA
GGCGGCTGCCCAAGGCGGTGCAGGAGGGGACGAAACCATGGCGTCACCGA
TGCCGCCCCCGCCCCCATTTAACACACCTGCCGGATGTCTACTTCTCCGC
CCGCGAGCGCATTGCCCGCCACGCCAGACAACCAGGCGGCTGCCCAAGGC
GGTGCAGGAGGGGACGAAACCATGGCGTCACCGATGCCGCCCCCGCCCCC
ATTTAACACACCTGCCGGCGCCGCGGGCTCAAGTGGCGTCCCTGTGGGTT
TGGGGCCTGCCGGCGGCGGTATCGAAGCGCCGCGGGCTCAAGTGGCGTCC
CTGTGGGTTTGGGGCCTGCCGGCGGCGGTATCGAAGCAGTGGCGGGTGAC
GCTCTAGCAACCATGCTATCCGGGGTCAGTATTGGCGGAGATGATGCGTC
AGCAGTGGCGGGTGACGCTCTAGCAACCATGCTATCCGGGGTCAGTATTG
GCGGAGATGATGCGTCAGCCAGTGCCGCACGGCCAGAGGACGAGGGCGGC
GACGGCGACGGCATGGAGGAAGAAGATGACGAAGACGAGGAAGAGGTGAT
GGAGCGAGGAACGCCAGTGCCGCACGGCCAGAGGACGAGGGCGGCGACGG
CGACGGCATGGAGGAAGAAGATGACGAAGACGAGGAAGAGGTGATGGAGC
GAGGAACGGACGAGACGGAGGTGGTGGAGCTGCCGCCGGAGGTGATGAAG
CGGCTGTACCAGCTCAAGGCTCTGCAGTCGGAGAAGGATGTGGACGAGAC
GGAGGTGGTGGAGCTGCCGCCGGAGGTGATGAAGCGGCTGTACCAGCTCA
AGGCTCTGCAGTCGGAGAAGGATGTGGTGTACGAGAGGTACAAGGTCAAG
CGCGCAGAGCTGGAGATGGAGTTCGCCCGCGAGTACGGGGCGATTTTCGA
ACGTCGGGCGGAGGTGGTAGCGGGGCGGGCACGAGACCTGGACGGTAAGA
GGCGAGCGCGGGGTGCCCTTGTGTACGAGAGGTACAAGGTCAAGCGCGCA
GAGCTGGAGATGGAGTTCGCCCGCGAGTACGGGGCGATTTTCGAACGTCG
GGCGGAGGTGGTAGCGGGGCGGGCACGAGACCTGGACGGTAAGAGGCGAG
CGCGGGGTGCCCTTTCCGAAGAAGCATCCGCCAGCGGGCAAGGGGAAGGC
GAAGGCGAGGTCGGAGTTCCGCACTTTTGGATGCAGTGCATGCTCCACCA
TGAGGCACTGCATGACGTCGTCTGTCCGAAGAAGCATCCGCCAGCGGGCA
AGGGGAAGGCGAAGGCGAGGTCGGAGTTCCGCACTTTTGGATGCAGTGCA
TGCTCCACCATGAGGCACTGCATGACGTCGTCTGCGAGCCCGATCTGGAG
GCGCTGTACTACCTGTCCGACGTGCGCTGCGTGGACAAGGAGAACCTGCT
GGGCTTCACGCTCGAGTTCCACTTCGACGACAACCCGTACTTCACCAACG
CCGTGCTCACGAAGAGATACGACACCGCAAACATCATGGACCAGCGAGCC
CGATCTGGAGGCGCTGTACTACCTGTCCGACGTGCGCTGCGTGGACAAGG
AGAACCTGCTGGGCTTCACGCTCGAGTTCCACTTCGACGACAACCCGTAC
TTCACCAACGCCGTGCTCACGAAGAGATACGACACCGCAAACATCATGGA
CCAGGGCGAGCCCCTCCTGGAGGGCGTCGAGGGGACGCCGATCGATTGGA
AGGCGGGCAGAAACCTTTGCGAGAGAACCACCAGGCGGAAGGTCAAGAGA
GGGGGGCAGGGTGGGGAGACTCGAACGATCACAAAGGGCGAGCCCCTCCT
GGAGGGCGTCGAGGGGACGCCGATCGATTGGAAGGCGGGCAGAAACCTTT
GCGAGAGAACCACCAGGCGGAAGGTCAAGAGAGGGGGGCAGGGTGGGGAG
ACTCGAACGATCACAAAGGTGGAGAAGACGGAGAGCTTTTTCAAGTTTTT
CCAAAACCCCGTAATGTACGATGAGGACGACGAGGACGACGAGGACGACG
AGCAGGTGGAGAAGACGGAGAGCTTTTTCAAGTTTTTCCAAAACCCCGTA
ATGTACGATGAGGACGACGAGGACGACGAGGACGACGAGCAGTACAATTT
CAGCTTCGACATGGACTACGAGGTAGCCCGAATCTTCCGTAACCACCTGA
TACCCAACGCCGTGCTCTGGTTCACCGGCGAGGCGGTCGACGACGAGGAA
GAGGAGAGCGACGAGGAGACTGACGAGGAAGAGTACAATTTCAGCTTCGA
CATGGACTACGAGGTAGCCCGAATCTTCCGTAACCACCTGATACCCAACG
CCGTGCTCTGGTTCACCGGCGAGGCGGTCGACGACGAGGAAGAGGAGAGC
GACGAGGAGACTGACGAGGAAGAGGATTTGGAAGAGGCTGAAGAGATCTC
TGCGGAGGAAGAGGGTGCAGCACACGAGGACTCGGAAGACGAGGATTTGG
AAGAGGCTGAAGAGATCTCTGCGGAGGAAGAGGGTGCAGCACACGAGGAC
TCGGAAGACGAGGCGGCAGGGGATGGTGACGGAGACGAAAACCAGGGGCC
GGTGAAGCAGTTGAATTTCAAGGCGGCAGGGGATGGTGACGGAGACGAAA
ACCAGGGGCCGGTGAAGCAGTTGAATTTCAAGGCACCGGCAGGGTTTGGG
GCTCCTCCCAGCGGCTCCACAGACGGGAAGGAGTGCAAGCAGAGCTAGGC
ACCGGCAGGGTTTGGGGCTCCTCCCAGCGGCTCCACAGACGGGAAGGAGT
GCAAGCAGAGCTAG
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