mRNA_H-fluviatilis_contig10313.654.1 (mRNA) Heribaudiella fluviatilis SAG_13_90

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

Overview
NamemRNA_H-fluviatilis_contig10313.654.1
Unique NamemRNA_H-fluviatilis_contig10313.654.1
TypemRNA
OrganismHeribaudiella fluviatilis SAG_13_90 (Heribaudiella fluviatilis SAG_13_90)
Homology
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BLAST of mRNA_H-fluviatilis_contig10313.654.1 vs. uniprot
Match: D7FU83_ECTSI (Protoporphyrinogen oxidase n=2 Tax=Ectocarpus TaxID=2879 RepID=D7FU83_ECTSI)

HSP 1 Score: 533 bits (1374), Expect = 1.840e-186
Identity = 261/304 (85.86%), Postives = 284/304 (93.42%), Query Frame = 1 
Query:    1 GPIEKVDCAVVGSGISGSTLGFYLDRKGVDCMVLEARDQVGGNVISKYEDGFRWEEGPNSFQPTPYIMRTAVDLGIKDELVLADPTLPRFVYWEGELFPLPSSLKSIITDFWLLDWPGKIRAGLGAIGLVRPPPPDYEESVEEFVTRHLGRQAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLGGPGLIDGAILRIKERAKQEKELPEELQSDDLPKYQGGSLGSFREGLQMLPKAAERALGKEKARAMTSWAMQGIKRSPEGGYILAFKTPEGPRRLHAKVAVCTAPAHRLSGIEGLR 912
            GP+EKVDCAVVGSGISGSTLGFYLD+KGVDC+VLEARDQVGGNVISK EDGF WEEGPNSFQPTPYIMRT VDLG+K++LVLADPTLPRFV+WEG LFPLPSSL+SIITDFWLL WPGKIRAGLGAIGLV PPP DYEESV+EFVTRHLG +AFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLGGPGLIDGAILR+KERA+QEKELPE LQS+DLP YQGGSLGSFREGLQMLP AA +A+GK+K R  TSW M+GIKRS +GGY+LAF TP+GP+RL AKVAVCTAPAHRL+ +EGLR
Sbjct:   56 GPVEKVDCAVVGSGISGSTLGFYLDKKGVDCVVLEARDQVGGNVISKKEDGFLWEEGPNSFQPTPYIMRTTVDLGLKEDLVLADPTLPRFVFWEGGLFPLPSSLQSIITDFWLLSWPGKIRAGLGAIGLVLPPPSDYEESVKEFVTRHLGPEAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLGGPGLIDGAILRLKERARQEKELPEPLQSEDLPTYQGGSLGSFREGLQMLPNAALKAMGKDKMR--TSWVMKGIKRSEDGGYLLAFDTPKGPKRLQAKVAVCTAPAHRLASVEGLR 357
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BLAST of mRNA_H-fluviatilis_contig10313.654.1 vs. uniprot
Match: A0A836C8C9_9STRA (Protoporphyrinogen oxidase n=1 Tax=Tribonema minus TaxID=303371 RepID=A0A836C8C9_9STRA)

HSP 1 Score: 431 bits (1107), Expect = 1.220e-146
Identity = 208/305 (68.20%), Postives = 255/305 (83.61%), Query Frame = 1 
Query:    1 GPIEKVDCAVVGSGISGSTLGFYLDRKGVDCMVLEARDQVGGNVISKYEDGFRWEEGPNSFQPTPYIMRTAVDLGIKDELVLADPTLPRFVYWEGELFPLPSSLKSIITDFWLLDWPGKIRAGLGAIGLVRPPPPDYEESVEEFVTRHLGRQAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLGGPGLIDGAILRIKERAKQEKELPEELQSDDLPKYQGGSLGSFREGLQMLPKAAERALGKEKARAMTSWAMQGIKRSPEGGYILAFKTPEGP-RRLHAKVAVCTAPAHRLSGIEGLR 912
            G  E V+C V+GSGI+GSTLGFYLDR GVDC+V EA + VGGNVISK  DGF WEEGPN+FQPTPYIMRTAVDLG+KD+LVLAD +L RFVYW+G+L+PLP+SL+ I+ +FWLL WPGKIRAG+GAIGLV PPP   EESV +FVTRHLGR+AFE+LIDPFVSGVYAGDPSKLA+KAALKKV RLE LGGPGLIDGAILR++ERA+QEKELP  LQ++DLPKY+GG+LGSF++GL  LPKAA +ALG ++ R  T W +  ++++   GY+ +F+  +G  RR+ AKV   TAPAHRL  ++G++
Sbjct:    5 GKPESVECLVIGSGITGSTLGFYLDRLGVDCVVTEANEMVGGNVISKQRDGFLWEEGPNTFQPTPYIMRTAVDLGLKDDLVLADASLSRFVYWDGQLYPLPASLQDIVNNFWLLSWPGKIRAGIGAIGLVLPPPRGEEESVRDFVTRHLGREAFEKLIDPFVSGVYAGDPSKLAMKAALKKVGRLEDLGGPGLIDGAILRLQERARQEKELPAPLQAEDLPKYKGGALGSFKDGLVSLPKAAAKALGPKRMR--TGWVLSKVEKAEGEGYMCSFRLADGSVRRVKAKVVCSTAPAHRLVAVDGVK 307
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BLAST of mRNA_H-fluviatilis_contig10313.654.1 vs. uniprot
Match: A0A7S2Y0E6_9STRA (Protoporphyrinogen oxidase n=1 Tax=Fibrocapsa japonica TaxID=94617 RepID=A0A7S2Y0E6_9STRA)

HSP 1 Score: 346 bits (888), Expect = 3.890e-113
Identity = 176/300 (58.67%), Postives = 225/300 (75.00%), Query Frame = 1 
Query:   10 EKVDCAVVGSGISGSTLGFYLDRKGVDCMVLEARDQVGGNVISKYEDGFRWEEGPNSFQPTPYIMRTAVDLGIKDELVLADPTLPRFVYWEGELFPLPSSLKSIITD---FWLLDWPGKIRAGLGAIGLVRPPPPDYEESVEEFVTRHLGRQAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLGGPGLIDGAILRIKERAKQEKELPEELQSDDLPKYQGGSLGSFREGLQMLPKAAERALGKEKARAMTSWAMQGIKRSPEGGYILAFKTPEGPRRLHAKVAVCTAPAHRLSGI 900
            E+VD  VVGSGISGS+LGFYL+++GVD +V EARD+VGGNVISK +  F WEEGPNSFQP  +IM+   DLG++++LVLADPTL R+V W+G+L+PLP +L    TD   F LL WP KIRAGLGA+G + PP  + EE++E+FVTRHLGRQ FER+IDPFVSGVYAGDP+KL+IKAALKK+ RLE  GGPG++DGAILRI E  ++    P++     LP Y+GG LGSF+ GLQ LP+A E+ LG +K R  TSW M  ++++PE  Y+  + TPEG + + AK    T PAH+L  I
Sbjct:   51 EQVDALVVGSGISGSSLGFYLNKRGVDVVVTEARDEVGGNVISKTDGEFLWEEGPNSFQPALHIMQLTKDLGLENDLVLADPTLNRYVVWDGDLYPLPLAL----TDAPFFKLLTWPAKIRAGLGALGFILPPASE-EETIEQFVTRHLGRQTFERVIDPFVSGVYAGDPAKLSIKAALKKIKRLEDYGGPGILDGAILRISEMQREAAARPKD---PTLPTYKGGQLGSFKNGLQTLPRAVEKVLGSKKMR--TSWKMVDLEKTPEETYVATYDTPEGKKMIEAKSVTSTVPAHKLVDI 340
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BLAST of mRNA_H-fluviatilis_contig10313.654.1 vs. uniprot
Match: L1IES7_GUITC (Protoporphyrinogen oxidase n=2 Tax=Geminigeraceae TaxID=589343 RepID=L1IES7_GUITC)

HSP 1 Score: 324 bits (831), Expect = 4.060e-104
Identity = 171/301 (56.81%), Postives = 215/301 (71.43%), Query Frame = 1 
Query:    1 GPIEKVDCAVVGSGISGSTLGFYLDRKGVDCMVLEARDQVGGNVISKYEDGFRWEEGPNSFQPTPYIMRTAVDLGIKDELVLADPTLPRFVYWEGELFPLPSSLKSIITDFWLLDWPGKIRAGLGAIGLVRPPPPDYEESVEEFVTRHLGRQAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLG-GPGLIDGAILRIKERAKQEKELPEELQSDDLPKYQGGSLGSFREGLQMLPKAAERALGKEKARAMTSWAMQGIKRSPEGGYILAFKTPEGPRRLHAKVAVCTAPAHRLSGI 900
            G +EK D  V+GSG+SGS+LGF L +KGV+ +V EARD VGGNVI++ +DGF WEEGPN+FQPT  IMR AVDLG+KDELV AD TLPR VYWE ELFPLPS  +     F LL  P KIRAG+GAIGL   P PDYEESV++F+ RHLG   F+++IDPFVSGVYAGDP+KL++ +A KK+  LE LG  P LI+G I+R  ERAK+ +E        +LP Y+GG+LGSFR+GL  LPKAA+  LG    R  TSW ++ I +  +GGY+  F TP+G + + +K    TAPAH   G+
Sbjct:   71 GSMEKYDTLVIGSGVSGSSLGFSLFQKGVNVLVTEARDVVGGNVITREQDGFLWEEGPNTFQPTRQIMRLAVDLGLKDELVFADHTLPRCVYWEKELFPLPSKPEDA-PFFRLLSIPEKIRAGIGAIGL-HAPKPDYEESVKDFIERHLGEAVFKKMIDPFVSGVYAGDPTKLSMASAFKKIYALEDLGMTPSLIEGGIIRQAERAKEARE----NYDPELPTYKGGALGSFRKGLVSLPKAAQEKLGD---RLRTSWKVESISKGEDGGYVTKFSTPQGSKEVWSKTVAVTAPAHATVGM 362
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BLAST of mRNA_H-fluviatilis_contig10313.654.1 vs. uniprot
Match: W7TSK2_9STRA (Protoporphyrinogen oxidase n=2 Tax=Nannochloropsis gaditana TaxID=72520 RepID=W7TSK2_9STRA)

HSP 1 Score: 327 bits (837), Expect = 7.310e-103
Identity = 169/293 (57.68%), Postives = 210/293 (71.67%), Query Frame = 1 
Query:    7 IEKVDCAVVGSGISGSTLGFYLDRKGVDCMVLEARDQVGGNVISKYEDGFRWEEGPNSFQPTPYIMRTAVDLGIKDELVLADPTLPRFVYWEGELFPLPSSLKSIITDFWLLDWPGKIRAGLGAIGLVRPPPPDYEESVEEFVTRHLGRQAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLGGPGLIDGAILRIKERAKQEKELPEELQSDDLPKYQGGSLGSFREGLQMLPKAAERALGKEKARAMTSWAMQGIKRSPEGGYILAFKTPEGPRRLHAKVAVCTAPAH 885
            +E+ D  VVGSGISGST  FYL++ GV C++ EA+  VGGNVISK E GF WEEGPNSFQPT  +M+  VD+G+ DELVLAD +LPRFVYW+ +L+ LP  L  I   F LL  PG+IRAGLGA+G +R PP D EESV+EFVTRHLG + FER+IDPFVSGVYAGDPSKL++KAALKKV RLE LGG G++DGA+LRI+E  + +  +  E      P Y+GG LGSF+ GLQ +P A  +ALGKEK R           + P+GGY   F+TP+G +R+  +    TAPAH
Sbjct:  181 VEETDVLVVGSGISGSTTAFYLNKAGVKCLLTEAKPVVGGNVISKSESGFLWEEGPNSFQPTYPLMQATVDMGLADELVLADASLPRFVYWKEKLYALPGGLGDI-PFFNLLSIPGRIRAGLGALGFIRGPPKDKEESVKEFVTRHLGAETFERIIDPFVSGVYAGDPSKLSMKAALKKVKRLEELGGRGILDGALLRIQEIQRTKPPVVPEH-----PVYKGGQLGSFKRGLQSMPLAVAKALGKEKVRLSHKLLSVVEGKGPKGGYEAVFQTPQGRKRIKCQALAITAPAH 467
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BLAST of mRNA_H-fluviatilis_contig10313.654.1 vs. uniprot
Match: A0A4D9DG57_9STRA (Protoporphyrinogen oxidase n=1 Tax=Nannochloropsis salina CCMP1776 TaxID=1027361 RepID=A0A4D9DG57_9STRA)

HSP 1 Score: 325 bits (833), Expect = 8.460e-102
Identity = 168/293 (57.34%), Postives = 210/293 (71.67%), Query Frame = 1 
Query:    7 IEKVDCAVVGSGISGSTLGFYLDRKGVDCMVLEARDQVGGNVISKYEDGFRWEEGPNSFQPTPYIMRTAVDLGIKDELVLADPTLPRFVYWEGELFPLPSSLKSIITDFWLLDWPGKIRAGLGAIGLVRPPPPDYEESVEEFVTRHLGRQAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLGGPGLIDGAILRIKERAKQEKELPEELQSDDLPKYQGGSLGSFREGLQMLPKAAERALGKEKARAMTSWAMQGIKRSPEGGYILAFKTPEGPRRLHAKVAVCTAPAH 885
            +E+ D  VVGSGISGST  FYL++ GV C++ EA+  VGGNVISK + GF WEEGPNSFQPT  +M+  VD+G+ DELVLAD +LPRFVYW+ +L+ LP  L  I   F LL  PG+IRAGLGA+G +R PP D EESV+EFVTRHLG + FER+IDPFVSGVYAGDPSKL++KAALKKV RLE LGG G++DGA+LRI+E  + +  +  E      P Y+GG LGSF+ GLQ +P A  +ALGKEK R           + P+GGY   F+TP+G +R+  +    TAPAH
Sbjct:   86 VEETDVLVVGSGISGSTTAFYLNKAGVKCLLTEAKPVVGGNVISKSDSGFLWEEGPNSFQPTYPLMQATVDMGLADELVLADASLPRFVYWKEKLYALPGGLGDI-PFFNLLSIPGRIRAGLGALGFIRGPPKDKEESVKEFVTRHLGAETFERIIDPFVSGVYAGDPSKLSMKAALKKVKRLEELGGRGILDGALLRIQEIQRTKPPVVPEH-----PVYKGGQLGSFKRGLQSMPLAVAKALGKEKVRLSHKLLSVVEGKGPKGGYEAVFQTPQGRKRVKCQALAITAPAH 372
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BLAST of mRNA_H-fluviatilis_contig10313.654.1 vs. uniprot
Match: A0A7S0XB76_9STRA (Protoporphyrinogen oxidase n=1 Tax=Chromulina nebulosa TaxID=96789 RepID=A0A7S0XB76_9STRA)

HSP 1 Score: 315 bits (808), Expect = 1.640e-101
Identity = 167/297 (56.23%), Postives = 213/297 (71.72%), Query Frame = 1 
Query:   19 DCAVVGSGISGSTLGFYLDRKGVDCMVLEARDQVGGNVISKYEDGFRWEEGPNSFQPTPYIMRTAVDLGIKDELVLADPTLPRFVYWEGELFPLPSSLKSIITDFWLLDWPGKIRAGLGAIGLVRPPPPDYEESVEEFVTRHLGRQAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLG-GPGLIDGAILRIKERAKQEKELPEELQSDDLPKYQGGSLGSFREGLQMLPKAAERALGKEKARAMTSWAMQGIKRSPEGGYILAFKTPEGPRRLHAKVAVCTAPAHRLSGIEG 906
            D  VVGSGISGST  FYLD+ G   ++ EARD VGGN+ISK EDGF WEEGPNSFQP P I+R A DLG+ DELVLADPTLPRFVYWEGEL+ LPS     +T F LL WPGKIRAGLG +G + P P DYEE++++F+TRHLG +AFER++DPFVSGVYAGDP KL++KAALKK+  LE LG   G++DGA +RI + A ++KE   E +  DLPK  GGSLG+F+ GLQ LP   +  LG   ++   S  +  + +S +  +I  F+TP G + + +KV + T+P++  S I G
Sbjct:    2 DAVVVGSGISGSTAAFYLDKAGYKVVLAEARDVVGGNLISKKEDGFLWEEGPNSFQPNPAILRFAKDLGVIDELVLADPTLPRFVYWEGELYALPSKPTDAVT-FGLLTWPGKIRAGLGVLGFIDPKP-DYEETIQQFITRHLGEEAFERIVDPFVSGVYAGDPKKLSMKAALKKIKALEDLGITRGILDGAFVRINQIAAEKKE--NEERDADLPKILGGSLGTFKNGLQTLPLKVQEKLG---SKVRLSHKLVKVSQSNDE-WISEFETPNGNKIIKSKVLLITSPSYATSSILG 290
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BLAST of mRNA_H-fluviatilis_contig10313.654.1 vs. uniprot
Match: A0A7S1JXT5_9ALVE (Protoporphyrinogen oxidase n=2 Tax=Vitrella brassicaformis TaxID=1169539 RepID=A0A7S1JXT5_9ALVE)

HSP 1 Score: 316 bits (810), Expect = 4.360e-101
Identity = 159/291 (54.64%), Postives = 215/291 (73.88%), Query Frame = 1 
Query:   10 EKVDCAVVGSGISGSTLGFYLDRKGVDCMVLEARDQVGGNVISKYEDGFRWEEGPNSFQPTPYIMRTAVDLGIKDELVLADPTLPRFVYWEGELFPLPSSLKSIITDFWLLDWPGKIRAGLGAIGLVRPPPPDYEESVEEFVTRHLGRQAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLGGPGLIDGAILRIKERAKQEKELPEELQSDDLPKYQGGSLGSFREGLQMLPKAAERALGKEKARAMTSWAMQGIKRSPEGGYILAFKTPEGPRRLHAKVAVCTAPA 882
            E+ D  VVG G++G +LG+ L +KG D +V EARD+VGGN+IS+ +  F WEEGPN+FQP   I+R A D+G+KD+LVLAD + PR+V+WE EL+ LP  L  + T F LL WPGKIRAGLGA+G V PP P  EES+ EFV+RHLG +AF +LIDPFVSGVYAGDP+ L+++AALK++  L+ +GGPGL+DGAILR+++RA++ KE P +    DLP+ + G LGSFR+GL+ML +A E+ +G ++ R  TSW +  I+R P+GG+   F TP G R ++AK    T PA
Sbjct:   60 EQTDVLVVGGGLTGCSLGWSLFKKGADVLVTEARDKVGGNIISRTDGKFIWEEGPNTFQPNDAILRLATDVGLKDQLVLADGSQPRWVFWEEELYKLPGGLGDLPT-FNLLSWPGKIRAGLGALGFV-PPKPTEEESIREFVSRHLGEEAFMKLIDPFVSGVYAGDPTNLSMRAALKRIYNLQEMGGPGLLDGAILRLRQRAQERKENPPDA---DLPEVKPGQLGSFRDGLKMLCEAVEKRMGPQRVR--TSWTVDKIERLPDGGFRAIFNTPFGTRIVNAKALAVTTPA 343
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BLAST of mRNA_H-fluviatilis_contig10313.654.1 vs. uniprot
Match: A0A7S0U8V8_HEMAN (Protoporphyrinogen oxidase (Fragment) n=2 Tax=Hemiselmis andersenii TaxID=464988 RepID=A0A7S0U8V8_HEMAN)

HSP 1 Score: 315 bits (808), Expect = 9.710e-101
Identity = 165/303 (54.46%), Postives = 221/303 (72.94%), Query Frame = 1 
Query:   10 EKVDCAVVGSGISGSTLGFYLDRKGVDCMVLEARDQVGGNVISKYEDGFRWEEGPNSFQPTPYIMRTAVDLGIKDELVLADPTLPRFVYWEGELFPLPSSLKSIITDFWLLDWPGKIRAGLGAIGLVRPPPPDYEESVEEFVTRHLGRQAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLGG-PGLIDGAILRIKERAKQEKELPEELQSD-DLPKYQGGSLGSFREGLQMLPKAAERALGKEKARAMTSWAMQGIKRSPEGGYILAFKTPEGPRRLHAKVAVCTAPAHRLSGI-EGL 909
            E+VD  V+GSG+SGS+LGF L +KGVD +V EARD VGGNVI+K +DGF WEEGPN+FQPT  IMR AVDLG+K+++V AD TLPRFV+WE ELFPLP  L+     F LL  P KIRAG+GAIGLV P P + EESV+EF+ RHLG   ++++IDPFVSGVYAGDP KL++++A +K+A LE +G  PGL++G ILR+ E+A+  +     +  D ++P Y+GG+LGSFR+GLQ LPK     LG+E+ R  T WA++ I+++ +G Y   F TP+G + + A+    T+PAH    I EG+
Sbjct:   74 EEVDTLVIGSGVSGSSLGFSLHQKGVDVLVTEARDVVGGNVITKEQDGFLWEEGPNTFQPTRQIMRLAVDLGLKEDVVFADHTLPRFVFWEDELFPLPGKLEDA-PFFRLLSIPEKIRAGIGAIGLVAPRPKE-EESVKEFIYRHLGEAVYKKIIDPFVSGVYAGDPEKLSMQSAFRKIATLEEMGSTPGLVEGGILRMAEKAEDAR-----VNYDPEIPVYKGGALGSFRKGLQTLPKTVRERLGEERVR--TGWAVESIQKNGDGRYKAEFSTPDGKKTVVARSVAVTSPAHATRTILEGM 367
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BLAST of mRNA_H-fluviatilis_contig10313.654.1 vs. uniprot
Match: A0A7S0L3R6_9EUKA (Protoporphyrinogen oxidase (Fragment) n=1 Tax=Coccolithus braarudii TaxID=221442 RepID=A0A7S0L3R6_9EUKA)

HSP 1 Score: 314 bits (805), Expect = 1.000e-100
Identity = 157/295 (53.22%), Postives = 208/295 (70.51%), Query Frame = 1 
Query:   19 DCAVVGSGISGSTLGFYLDRKGVDCMVLEARDQVGGNVISKYEDGFRWEEGPNSFQPTPYIMRTAVDLGIKDELVLADPTLPRFVYWEGELFPLPSSLKSIITDFWLLDWPGKIRAGLGAIGLVRPPPPDYEESVEEFVTRHLGRQAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLGGPG-LIDGAILRIKERAKQEKELPEELQSDDLPKYQGGSLGSFREGLQMLPKAAERALGKEKARAMTSWAMQGIKRSPEGGYILAFKTPEGPRRLHAKVAVCTAPAHRLSGI 900
            DC VVGSG+SGS L  YL   G D ++ EARD VGGN+IS+ +  F WEEGPNSFQPTP +MRTA +LGI D+LV ADP+LP +VY+ GEL+ LP +L   + +F LL WPGKIRAGLGA+GL+  PPP+ EE++ EFVTRHLG + F R+IDPFVSGVYAGDP+KL+++AALKK+ RL+ LG  G L+ GA++R +E A+++K+ P    + + P Y+ G LGSFR+GLQ +P A    LG E  R      ++ + R  +G Y   F+T  G R + AK  V TAPAH ++ +
Sbjct:   40 DCLVVGSGVSGSVLAHYLHSSGADVLLTEARDVVGGNIISRTDGEFTWEEGPNSFQPTPTVMRTAYELGIADDLVFADPSLPPWVYFRGELYALPKNLPGDLINFNLLSWPGKIRAGLGAVGLLLQPPPEKEENIREFVTRHLGEETFLRIIDPFVSGVYAGDPNKLSMRAALKKIFRLQTLGFNGALVPGALVRFEEIAQEKKDNPP---APEWPTYKAGELGSFRKGLQTMPNAVAAELGDE--RVALGHKLRAVSRESDGTYTATFQTANGERVVRAKTVVSTAPAHAIADV 329
The following BLAST results are available for this feature:
BLAST of mRNA_H-fluviatilis_contig10313.654.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 25
Match NameE-valueIdentityDescription
D7FU83_ECTSI1.840e-18685.86Protoporphyrinogen oxidase n=2 Tax=Ectocarpus TaxI... [more]
A0A836C8C9_9STRA1.220e-14668.20Protoporphyrinogen oxidase n=1 Tax=Tribonema minus... [more]
A0A7S2Y0E6_9STRA3.890e-11358.67Protoporphyrinogen oxidase n=1 Tax=Fibrocapsa japo... [more]
L1IES7_GUITC4.060e-10456.81Protoporphyrinogen oxidase n=2 Tax=Geminigeraceae ... [more]
W7TSK2_9STRA7.310e-10357.68Protoporphyrinogen oxidase n=2 Tax=Nannochloropsis... [more]
A0A4D9DG57_9STRA8.460e-10257.34Protoporphyrinogen oxidase n=1 Tax=Nannochloropsis... [more]
A0A7S0XB76_9STRA1.640e-10156.23Protoporphyrinogen oxidase n=1 Tax=Chromulina nebu... [more]
A0A7S1JXT5_9ALVE4.360e-10154.64Protoporphyrinogen oxidase n=2 Tax=Vitrella brassi... [more]
A0A7S0U8V8_HEMAN9.710e-10154.46Protoporphyrinogen oxidase (Fragment) n=2 Tax=Hemi... [more]
A0A7S0L3R6_9EUKA1.000e-10053.22Protoporphyrinogen oxidase (Fragment) n=1 Tax=Cocc... [more]

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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
H-fluviatilis_contig10313contigH-fluviatilis_contig10313:216..7665 +
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 Heribaudiella fluviatilis SAG_13_902021-02-24
Properties
Property NameValue
Taxonomic scopeEukaryota
Seed ortholog score539.3
Seed ortholog evalue1.2e-150
Seed eggNOG ortholog2880.D7FU83
KEGG rclassRC00885
KEGG koko:K00231
KEGG ReactionR03222,R04178
KEGG Pathwayko00860,ko01100,ko01110,map00860,map01100,map01110
KEGG ModuleM00121
GOsGO:0003674,GO:0003824,GO:0004729,GO:0006725,GO:0006778,GO:0006779,GO:0006783,GO:0006807,GO:0006928,GO:0008150,GO:0008152,GO:0009058,GO:0009987,GO:0016491,GO:0016627,GO:0016634,GO:0018130,GO:0019438,GO:0033013,GO:0033014,GO:0034641,GO:0040011,GO:0042168,GO:0042440,GO:0044237,GO:0044249,GO:0044271,GO:0046148,GO:0046483,GO:0048870,GO:0051179,GO:0051186,GO:0051188,GO:0051674,GO:0055114,GO:0070818,GO:0071704,GO:1901360,GO:1901362,GO:1901564,GO:1901566,GO:1901576
EggNOG free text desc.Catalyzes the 6-electron oxidation of protoporphyrinogen-IX to form protoporphyrin-IX
EggNOG OGsCOG1232@1,KOG1276@2759
EC1.3.3.15,1.3.3.4
COG Functional cat.H
Best tax levelEukaryota
Best eggNOG OGNA|NA|NA
BRITEko00000,ko00001,ko00002,ko01000
Hectar predicted targeting categoryother localisation
Ec32 ortholog descriptionprotoporphyrinogen oxidase, putative chloroplast precursor
Ec32 orthologEc-25_003100.1
Exons8
Model size930
Cds size930
Stop1
Start0
Relationships

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

Feature NameUnique NameSpeciesTypePosition
mRNA_H-fluviatilis_contig10313.654.1prot_H-fluviatilis_contig10313.654.1Heribaudiella fluviatilis SAG_13_90polypeptideH-fluviatilis_contig10313 216..7665 +


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

Feature NameUnique NameSpeciesTypePosition
1622929076.5909038-CDS-H-fluviatilis_contig10313:215..2621622929076.5909038-CDS-H-fluviatilis_contig10313:215..262Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 216..262 +
1691135173.5406823-CDS-H-fluviatilis_contig10313:215..2621691135173.5406823-CDS-H-fluviatilis_contig10313:215..262Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 216..262 +
1622929076.6058478-CDS-H-fluviatilis_contig10313:876..9811622929076.6058478-CDS-H-fluviatilis_contig10313:876..981Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 877..981 +
1691135173.5531547-CDS-H-fluviatilis_contig10313:876..9811691135173.5531547-CDS-H-fluviatilis_contig10313:876..981Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 877..981 +
1622929076.6201644-CDS-H-fluviatilis_contig10313:2310..23891622929076.6201644-CDS-H-fluviatilis_contig10313:2310..2389Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 2311..2389 +
1691135173.562809-CDS-H-fluviatilis_contig10313:2310..23891691135173.562809-CDS-H-fluviatilis_contig10313:2310..2389Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 2311..2389 +
1622929076.6532762-CDS-H-fluviatilis_contig10313:3123..32541622929076.6532762-CDS-H-fluviatilis_contig10313:3123..3254Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 3124..3254 +
1691135173.5712981-CDS-H-fluviatilis_contig10313:3123..32541691135173.5712981-CDS-H-fluviatilis_contig10313:3123..3254Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 3124..3254 +
1622929076.6730115-CDS-H-fluviatilis_contig10313:3873..40541622929076.6730115-CDS-H-fluviatilis_contig10313:3873..4054Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 3874..4054 +
1691135173.579701-CDS-H-fluviatilis_contig10313:3873..40541691135173.579701-CDS-H-fluviatilis_contig10313:3873..4054Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 3874..4054 +
1622929076.685574-CDS-H-fluviatilis_contig10313:4261..43241622929076.685574-CDS-H-fluviatilis_contig10313:4261..4324Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 4262..4324 +
1691135173.5883865-CDS-H-fluviatilis_contig10313:4261..43241691135173.5883865-CDS-H-fluviatilis_contig10313:4261..4324Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 4262..4324 +
1622929076.7005615-CDS-H-fluviatilis_contig10313:5518..56731622929076.7005615-CDS-H-fluviatilis_contig10313:5518..5673Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 5519..5673 +
1691135173.5999382-CDS-H-fluviatilis_contig10313:5518..56731691135173.5999382-CDS-H-fluviatilis_contig10313:5518..5673Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 5519..5673 +
1622929076.713627-CDS-H-fluviatilis_contig10313:7496..76651622929076.713627-CDS-H-fluviatilis_contig10313:7496..7665Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 7497..7665 +
1691135173.61071-CDS-H-fluviatilis_contig10313:7496..76651691135173.61071-CDS-H-fluviatilis_contig10313:7496..7665Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10313 7497..7665 +


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_H-fluviatilis_contig10313.654.1

>prot_H-fluviatilis_contig10313.654.1 ID=prot_H-fluviatilis_contig10313.654.1|Name=mRNA_H-fluviatilis_contig10313.654.1|organism=Heribaudiella fluviatilis SAG_13_90|type=polypeptide|length=310bp
GPIEKVDCAVVGSGISGSTLGFYLDRKGVDCMVLEARDQVGGNVISKYED
GFRWEEGPNSFQPTPYIMRTAVDLGIKDELVLADPTLPRFVYWEGELFPL
PSSLKSIITDFWLLDWPGKIRAGLGAIGLVRPPPPDYEESVEEFVTRHLG
RQAFERLIDPFVSGVYAGDPSKLAIKAALKKVARLEVLGGPGLIDGAILR
IKERAKQEKELPEELQSDDLPKYQGGSLGSFREGLQMLPKAAERALGKEK
ARAMTSWAMQGIKRSPEGGYILAFKTPEGPRRLHAKVAVCTAPAHRLSGI
EGLRVRGGS*
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mRNA from alignment at H-fluviatilis_contig10313:216..7665+

Legend: polypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_H-fluviatilis_contig10313.654.1 ID=mRNA_H-fluviatilis_contig10313.654.1|Name=mRNA_H-fluviatilis_contig10313.654.1|organism=Heribaudiella fluviatilis SAG_13_90|type=mRNA|length=7450bp|location=Sequence derived from alignment at H-fluviatilis_contig10313:216..7665+ (Heribaudiella fluviatilis SAG_13_90)
GGCCCAATCGAAAAGGTGGACTGCGCGGTCGTTGGTTCCGGGATCAGGTA
GGTCTTGTCAGTCCAAAAGTGTTACGTATTTTCTTCTCTCACAAGCTTGA
CGTATGTTTTTTTTGCTTGACAACCCAACACTATGCTGTCGAAATCCCGC
TTTCACAAAACAAAACAAAAGGATCAGTAGGCTCGCAAATCGTTGTGAAA
CAAAATAGTCCGCATCAATATTTTATCGCAGCGGACCAAGCATGAGACAA
AGCCAACCCCGCCCCGGTCCGCTCCGCTCCGCTTAGACCCGACCCTACTC
GACCCGCAATGATCCACTAGGCTCGGCTCCGCTCCGCTCCAACCGTCTCC
TGGTAAGTTAAGTGTAATGCAAGTAGCAGGTTGAAGTCAGACATGGTCTT
TGTCCATACCGCCTTGCTACGGGCAGGTTATAATTCGGCATCGTGTGTGT
GTGTATTGCATGCAAAGGCAATGTAAAATACTACTGTCGATATGGTTTGT
GATACCGACCACTGTACTGTAGGTGCATTTAAACAGATCCATCTAACTGT
GCAGTAGAGCAAGGAAGGTTTTCTTTTAGCCTCGCTGCAACTCTCCCCAT
CCCTCGCGCTGTCACGTGCTGCATCCACGTGCAAATTCTACGTGAATGAT
TTTCGGCGCAGCGGAAGCACTCTGGGCTTCTATTTGGACCGAAAGGGCGT
GGATTGCATGGTGTTGGAGGCAAGGGACCAAGTCGGGGGGAACGTTATAT
CGAAGTATGAGGACGGGTGAGTGAGTGATGCCTTACAGTCGTTTTGCCCA
ATCGATGAGTATGAGTATATAGGTGAGTGATGCTTTTCCTTGCCACACTT
TTTGCCTCATCGAAGTATGAACACATATGAGCGATGCTTTGCGGTACGCT
TTGCCTAGATTTTTTCGGTGTATCTGTGTATGGGGGTTGTGGACAACATC
AGGACACACGGATGGGTTGTCCATTTGTTTCTCAGCGTTGGAGTCTTGCC
GCAGTCGAATTTTTCGCGATCTCCGCCGCCCACAAGACTAACTTTCAAGC
GCGCAAGAGTTTCACCACTGTACGATAGAGGTGACATTCTATGTGTACTG
TAGCGGGCACGAGCGGCAATGAGCGGCTTGAAATCGGTGAGATTCGCTTT
AAATGCCCTGTACAATTCCAAGAAGATAAAGGCAACCGATGAAAGGCGGG
CGAGTTCGGCTTGCCACTTATGCCGCCTTTGATAAAGCGGGTCCACCACC
GCTAACTGTCTGATATCTTTTGGTCGACACTGTCCAAATGGTCGACCGTT
GTCCATTCACACGCTACCCCTATGCTACGGTCTTTTTGTGGAACAGCCCA
GTACCAGGCGATGCGACTCGGCGTGAGCGCGCTGACGCGTGTCGGGCAGA
CGTGGACGACCTCACACAAATATTTCTCGAAAATGATAGTCAGAAATGAC
GGAAAATCCGTACTTTCCCCTGAGATGTTCGAAGGGTCAATTTCAGGGAT
TATCCAAAATCAAAGTCTGTAAATTGGCACGGTAAGCTGGTGGAATGCTG
TTATTCGGCGAGTAGGTTCGAGTCAGCCACAGCTCTGCTGGCGGGGTTGA
GAGGGGCCTCGCTGCGCTCGACACGGAAGAAGCTAAACTAAAAATCCCCA
CCTGTCGCTACCATCCCGTCATCGCCGCATCTTATGTACGCATGTTACCG
TCGTGTTGACGGTGGAGTTTACGCGAGTTTCGTCGCCAAAAATCCATGGC
TGACACTCCACACAAAAATCAGCACGAAACCGATTATTTGTGGTCCGCAC
GTTGTTGTCCGCACTGCGAGCGAAAACGCGTTGCGGGCGCAGCCCAATAC
ATACACGTTTTTGCCCCCTATCGCTCCGCAGGCGCTAAGTTTTGGGCCAA
AACACCGCGTCCACCCCTAGGGAACGGTGTAGTGGGGTTTGGGTTAGGGT
GAGGATTAGGGTTGGCGCTAGAGGTCGGTTGGGTCAGGTTCGGCCAAGGG
CACCAAAACGTCAATATTTAGTTTCAACCAGCGATGTTTGACTGCTTAAA
ATCGCATATACCCCCGCTGTCGTCTTGTGGTGATGTGCGTAACAGGTTTC
GGTGGGAGGAAGGGCCGAACTCTTTCCAGCCTACACCTTACATCATGAGG
ACAGCGGTTGACTTAGGGATTAAGGTAAAGTGGATGAAATAAAACTTGTG
CTAGTTTCTACCCTCACGGCGGCCTTTTCGACGCTTGGAACGGGGAGGTT
TGACAGTAGCCGCCACGCAAATCGATGGTCAGCTCGATTGACGCTCCCGC
AGTTTTGATGATTTTTGGAGGAAACGATCTGTATCTCAAGGGATGAATGT
AGCAGAACGACTGGCGGTGTTTTTGTGGTGTGTTCGTTTGCCCGATGAGT
GAGGGTCCGAGGCCTGGGACCCCAACCGAAGATTATTTTGCGTGTCTCCA
GCTGTTTTGCCGCCCTGGGCGTCCTCTACACGTCGAGTTGCTTTCCGTTT
TGTCATTTTGTTTCAACTGAAGGGGATTGTCAGTGACGGTGTGTTGTGGT
GTCTGGATCAGTCATTCTCCGCTGCCCTTTGTCTATCGTGTTTTGATCAT
TCTTCCCCACACAACATTAATTTTGCATCGTGTTCTCATCTCGGCGGTCT
CAATTTGATAGACAATCGCCTCTGCACGTATTGGGTTAATCTCAAGGCTG
TTCCGGCTTACTGAAGGATTGTCCCAAAGAGCGTTTGCTTCGAGTGTATC
GAAAGTGTCAAGCGTTACGTTGTGCGTGTTTTTTGCCCTTCCTTTTGTAT
GCATACGTCTCTTGTTTGTTGTCTGTGTAACCTGCTTTGTGTTGTTGTTG
TTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTGTTCTGGAA
TCGTTCAGGACGAGCTGGTGCTAGCAGACCCCACCCTCCCCCGCTTCGTG
TACTGGGAGGGAGAGCTGTTCCCCCTGCCATCTTCTTTGAAATCGATCAT
CACCGACTTTTGGCTGCTCGACTGGCCCGGAAAAATCAGGTGACAGGATA
GTGCACGACATGGCAATAACGACGATTTTTCCAGCGTTCTCTTCATTCGA
TTTGTAGGTTTCTACTGTAGTGTAGGCAGCCCGGTCTGTGCTTGCACCCG
TTGCTTCAAAATTTGGCTTGGAAAAGCAGACCACAGGACTGCTTGCACTG
CACGGTACCTGTATAGTAGAGACCGTGAATGATATTCGGCGCCGTCGCTT
GATGGTTGTTTGTGCGCATTCTGGTGTACGAGACGGGCCTTCCGCTTGCT
CGCCAGCTTGGACGAGGCCACTCGTGGATGCTGTTGGAGTATGATTGTCA
ATCATGCGATTGTGAAGCTACTCTGGTGCTTGTCAGTCGTGGCGATACCA
TGGTAGATACTGGCGACAGTATATGGACCATCCGCAACTACTGAAAATGG
AACTCCCTCTTTTTTTCATGGTGACCGGTAACTGTCCACCAATTTCAGCA
CGTCGGATGCGCTATAACCGTCTGAGAGGCCAGCTGACGGTAACTTTACC
TCCCACCACCTCCCAACCCCCTCCACGCACACACACCATGGTATCGATCT
CCACACCGCCTCGCACATCACGTCGAACGCGACCCGGTCGTCGCGTTCCT
GTGTGTAGGGCTGGTTTGGGCGCGATCGGCCTGGTAAGGCCGCCGCCGCC
CGACTACGAGGAGAGCGTGGAGGAATTTGTGACTCGGCACCTTGGCCGTC
AGGCTTTCGAGAGGCTGATCGACCCGTTCGTCAGCGGCGTTTACGCGGGG
GACCCGTCGAAGCTCGCCATCAAAGCCGCACTGAAGAAGGTATGTTTTTT
TCTTCCCATCTTGCCCTACAAAAATGCCTAAAGTAGCAGCGCTCTATCGG
CGTGTTCTCCGTCGAAAAAACTCGATTTTTTCCTTGGGCTCCCGCCTTTT
TTTCATATATAATTTTTTTCTGACGATGTAACACATGATCTTTTCAACGG
AGTCTGACGTTTTTTGGGCTTTGTGCGTATGGTTGTTTTGTCGCAGGTGG
CACGGTTGGAAGTGCTCGGAGGGCCGGGGTTGATCGATGGCGCCATTCTC
AGGATCAAGGTGAGTTTTAGGTGTTGCCCAAGCTAAGTTGTCAAAAATCC
GACGAAAACAATAAAAAAAAGACAAATCCGTTTTTTTTGCGCTGGTTTGT
TTTTAGTTTCGAAGAAAGCCGGAGTTGAAGAAAAGAGGATGTAGCTTCCG
TCTTTGAGTTGAGGTTGACGCCACCGATAGTTTTTCTTGCTTTTTGTGTT
TCTCTCGCTCTTCGTAATTTTATTATGCTTGTAGTAGTCGGCGTCGATTT
TGTCTGCATAGCTCGTGTATGACAAATACTCGCTCGTGTTCACCGTCCTA
CAGTATGTTTTCTGGTTTGCCCTACCCCGTCAGTTCGCGTTTCCCTCCAT
CCCAAGCAGAGTAGAGTGCCTCGACGTCGCTCCTGCTACTGTTTTGGTGT
CGAACACGTCTGCTTGCTGTGTCACGACTCTAGCCTTCTTTTGGTTGCGT
GCTGTACCTGATGCGCCACGCACCATCATCTAATACTGGTATATATATAT
GTACGTTGTGTGTGTATTTATGTCATAGGCGTGCTGTAACTTTTTCACAA
TTATATACACATATATTTCCAAGAATAAACAGCAAAATATATTTAGGTTA
CATTCATAGCTCTGTACTATATCCTGGTTGTTATACTCTACCCACGGCGA
TGGCGGTGGAGTTACTGGAGGCTCGCTACGCTCTCCAGTAGGCATTGGCG
CGCATGAGAAGTCATGATCATGTGAATAAAAAAGCAAAAAATGGCTTGAT
CATTCCACAATTCCCGCGTACTACATACGAAGGATATATATAAATATATA
CATATATACATACACACTTAGATTGTATCAGTATATCTGGGATTTGAATT
CCATACGATGTTTCCGTTTTGGTTGAATCTACTTGCTATGCGCCGCCATG
CCGGGTGAGCCACAGGGGGCTTGCTGCGCTCTCCAACATGTTGATTTCTT
TTTTGGGAGGGCTTGAAACGAATCACTGAAGACGCGAATGGATGAAGAGT
CGGAGGAATGCTCCCCCACCACAACCACCATTGCCATGTTGCATCGAGTA
ATAAATAACTCCGTCTTATTAATGGACAATAGTGAAAACTAATTTCATGG
TTATTGACGACAAAGTGCCTGTGATGGTAGGGAGGCCATGTTTACCTTTT
TGCACACGGCTATCGTTTTGTGTCTTTCCGCGCGTTCAACGCGTTGTGTA
CAGGAGCGCGCGAAGCAAGAGAAGGAGCTGCCCGAAGAGTTGCAATCAGA
TGATCTGCCCAAGTACCAGGGTGGCAGCCTCGGATCGTTCAGGGAGGGCC
TGCAGATGCTTCCCAAGGCAGCCGAGAGAGCGCTCGGGAAGGAGAAGGCA
AGAGCTATGTTCGTGCCGTTCAACGACCGACGCTGACATGAGTTAAATCT
CCAACACTGCCAGCGTAACGTACCACATGATATACTATACGGTCGTCAGT
TTGAGCACCTCCGACAGAGTCGTATTCATTGCTCTCCGAAACGGGATTCG
GAATTTGGTCTTTTTCCAACGATAATTACCGCCGTCATCGTGTTCGTCAT
CACCGAGCGGAACCACCGTGTTGTTAAACAGACAAGGATACTGGCGTGCG
CACCAAGCTTTCACGATCGACAGGACACAGCGGTCTCTCTGTCTCTCTCT
AATCGAACACATTACTGTGGGGCTGCAAGGAAGACCTACACCGAAGAACT
ACAAGGAAGAAAGTCACACACACGAGGAAGACAGCAATCAAGCGATTATT
GTCGTAAAATGTAACAACAACGCATTTTGAGGTAACAAATCCACACAATA
CAACGTCAGCCTTCCTTGTCAAGCGCTTTGTCATTCACGAGATTTTGTTT
TATAACGCATTTTGTAGAGTGCAAGAAAAGATCACGAACGCAAACTGCAT
CCTCGTTTGTCAAGCACTTGCTCACACAATGTGGGATGATAATTTGAGCA
AAAAAAACAAAGCAACGAGCCGATATTTCCGCATACAACGCATTGTTAAG
AAAGAAAAAGATCAAGCGACACGTCGATTTGTACATCAGCAGACGCTTTT
TTTTTTTTCTGCACGAGATTTTCCAAACAACCGGATTCAGGAGCGGTTTT
GATAACGCCTCATCTGCGTAGGTGGAAAAAATCCTTACTTGAATTTTCGA
ATGGTGGCGATGACAGGGAAGCCTCCTGTTTCTCTAGCTCACTTTTTTAG
TCTGGTTTCTATCTATTACAGTGGCATCTAGTTATTGGTCCCTGATTGGG
ACCCCTTTCTGTTTTTTTCTCAGCTTTTTTTCGCCGGAAAATTTCGTTTT
TTTTTCGCCACGAACGCAACAGACGAGTGTGTTTGGAGACACGGCGCGGC
ACACACACAAACGTCAGCTGAGACGTTTCCCTAGGATTCACGGGCTCTAC
GCAAAGCCGATGACTACAGCGTCACGATGGTGCTGCTGCTGTGGTCGTTG
AGCAGCCACAACACGTCGGAAGCATCGCTAAAACAGGGCACTTCAAAACG
TCCTTCTTCGCAATAGCTTTCGAACGCCGAAGACCCGCACGAAACTGCTC
GTATACTCAAAACCGCAAAAGCATAGGGTTTCATGACAATTTTACTTGGC
GTTTTGGTTCGGAAATGCGGGGGCGTAAAAATTAGGCCGTGTGAAAAATG
AAGATGTGATTTTGAGTTGCCTTGTGTGAGCGATGCTTCCCATGTGCTGT
GGTGCGTTACGGATCTCAGTAGTGGCACCATCGTGACGCTGTAGTCATCG
ATTTTGCGTAGAGCCCGTGAACCCTAGGGAATCCTATCAGCTGACGTTTG
TGTGTCCCACGCCGTGTCTTCAAACACACTCGTTTGTTGTGTTCGTTGCG
CAAAAAAAGAAGTATCTATCCACCCCCCCCCCAAAAGGGATCCCAATCAA
GGACCAATTACTAGGTTCCACTGTAATAGGGATTTGTTACGTTTTTTGTT
TCACATGTTTTTTCTCAAGGACGCACGAAATCCCCCCGTCGATCGCGCTG
TTTGACGGGCAAGCGCGAGCCTTCTGCGACTCCAGGACAAACGATCTGTT
TTCTAGCGTAACCTTTGCCCCCTCCTGTGATTGAGATGAACCGGGGCATG
CATGTAACGGGGCGCAAGTACTTGTTTTTGCTTGTTGGCCAATCGACCGT
TTCTGACGGGTGGTGCATGCGAGCAGATGAGGACGTCGTGGGCAATGCAA
GGCATCAAGCGATCTCCGGAGGGCGGGTACATCCTCGCCTTCAAGACTCC
CGAGGGACCCAGGCGACTCCACGCCAAGGTCGCCGTTTGCACCGCTCCGG
CACACCGGCTTTCGGGGATCGAAGGACTTAGGGTAAGGGGAGGAAGTTGA
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Coding sequence (CDS) from alignment at H-fluviatilis_contig10313:216..7665+

>mRNA_H-fluviatilis_contig10313.654.1 ID=mRNA_H-fluviatilis_contig10313.654.1|Name=mRNA_H-fluviatilis_contig10313.654.1|organism=Heribaudiella fluviatilis SAG_13_90|type=CDS|length=1860bp|location=Sequence derived from alignment at H-fluviatilis_contig10313:216..7665+ (Heribaudiella fluviatilis SAG_13_90)
GGCCCAATCGAAAAGGTGGACTGCGCGGTCGTTGGTTCCGGGATCAGGGC
CCAATCGAAAAGGTGGACTGCGCGGTCGTTGGTTCCGGGATCAGCGGAAG
CACTCTGGGCTTCTATTTGGACCGAAAGGGCGTGGATTGCATGGTGTTGG
AGGCAAGGGACCAAGTCGGGGGGAACGTTATATCGAAGTATGAGGACGGC
GGAAGCACTCTGGGCTTCTATTTGGACCGAAAGGGCGTGGATTGCATGGT
GTTGGAGGCAAGGGACCAAGTCGGGGGGAACGTTATATCGAAGTATGAGG
ACGGGTTTCGGTGGGAGGAAGGGCCGAACTCTTTCCAGCCTACACCTTAC
ATCATGAGGACAGCGGTTGACTTAGGGATTAAGGTTTCGGTGGGAGGAAG
GGCCGAACTCTTTCCAGCCTACACCTTACATCATGAGGACAGCGGTTGAC
TTAGGGATTAAGGACGAGCTGGTGCTAGCAGACCCCACCCTCCCCCGCTT
CGTGTACTGGGAGGGAGAGCTGTTCCCCCTGCCATCTTCTTTGAAATCGA
TCATCACCGACTTTTGGCTGCTCGACTGGCCCGGAAAAATCAGGACGAGC
TGGTGCTAGCAGACCCCACCCTCCCCCGCTTCGTGTACTGGGAGGGAGAG
CTGTTCCCCCTGCCATCTTCTTTGAAATCGATCATCACCGACTTTTGGCT
GCTCGACTGGCCCGGAAAAATCAGGGCTGGTTTGGGCGCGATCGGCCTGG
TAAGGCCGCCGCCGCCCGACTACGAGGAGAGCGTGGAGGAATTTGTGACT
CGGCACCTTGGCCGTCAGGCTTTCGAGAGGCTGATCGACCCGTTCGTCAG
CGGCGTTTACGCGGGGGACCCGTCGAAGCTCGCCATCAAAGCCGCACTGA
AGAAGGGCTGGTTTGGGCGCGATCGGCCTGGTAAGGCCGCCGCCGCCCGA
CTACGAGGAGAGCGTGGAGGAATTTGTGACTCGGCACCTTGGCCGTCAGG
CTTTCGAGAGGCTGATCGACCCGTTCGTCAGCGGCGTTTACGCGGGGGAC
CCGTCGAAGCTCGCCATCAAAGCCGCACTGAAGAAGGTGGCACGGTTGGA
AGTGCTCGGAGGGCCGGGGTTGATCGATGGCGCCATTCTCAGGATCAAGG
TGGCACGGTTGGAAGTGCTCGGAGGGCCGGGGTTGATCGATGGCGCCATT
CTCAGGATCAAGGAGCGCGCGAAGCAAGAGAAGGAGCTGCCCGAAGAGTT
GCAATCAGATGATCTGCCCAAGTACCAGGGTGGCAGCCTCGGATCGTTCA
GGGAGGGCCTGCAGATGCTTCCCAAGGCAGCCGAGAGAGCGCTCGGGAAG
GAGAAGGCAAGAGCTATGAGCGCGCGAAGCAAGAGAAGGAGCTGCCCGAA
GAGTTGCAATCAGATGATCTGCCCAAGTACCAGGGTGGCAGCCTCGGATC
GTTCAGGGAGGGCCTGCAGATGCTTCCCAAGGCAGCCGAGAGAGCGCTCG
GGAAGGAGAAGGCAAGAGCTATGACGTCGTGGGCAATGCAAGGCATCAAG
CGATCTCCGGAGGGCGGGTACATCCTCGCCTTCAAGACTCCCGAGGGACC
CAGGCGACTCCACGCCAAGGTCGCCGTTTGCACCGCTCCGGCACACCGGC
TTTCGGGGATCGAAGGACTTAGGGTAAGGGGAGGAAGTTGAGACGTCGTG
GGCAATGCAAGGCATCAAGCGATCTCCGGAGGGCGGGTACATCCTCGCCT
TCAAGACTCCCGAGGGACCCAGGCGACTCCACGCCAAGGTCGCCGTTTGC
ACCGCTCCGGCACACCGGCTTTCGGGGATCGAAGGACTTAGGGTAAGGGG
AGGAAGTTGA
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