mRNA_H-fluviatilis_contig10096.261.1 (mRNA) Heribaudiella fluviatilis SAG_13_90

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

Overview
NamemRNA_H-fluviatilis_contig10096.261.1
Unique NamemRNA_H-fluviatilis_contig10096.261.1
TypemRNA
OrganismHeribaudiella fluviatilis SAG_13_90 (Heribaudiella fluviatilis SAG_13_90)
Homology
The following BLAST results are available for this feature:
BLAST of mRNA_H-fluviatilis_contig10096.261.1 vs. uniprot
Analysis Date: 2022-09-19 (Diamond blastx: OGS1.0 vs UniRef90)
Total hits: 0
Match NameE-valueIdentityDescription
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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
H-fluviatilis_contig10096contigH-fluviatilis_contig10096:2..8050 -
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
Hectar predicted targeting categoryother localisation
Exons7
Model size4288
Cds size3855
Stop1
Start1
Relationships

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

Feature NameUnique NameSpeciesTypePosition
1622929027.4019372-UTR-H-fluviatilis_contig10096:1..3031622929027.4019372-UTR-H-fluviatilis_contig10096:1..303Heribaudiella fluviatilis SAG_13_90UTRH-fluviatilis_contig10096 2..303 -
1691135155.2064548-UTR-H-fluviatilis_contig10096:1..3031691135155.2064548-UTR-H-fluviatilis_contig10096:1..303Heribaudiella fluviatilis SAG_13_90UTRH-fluviatilis_contig10096 2..303 -
1622929027.5210495-UTR-H-fluviatilis_contig10096:7919..80501622929027.5210495-UTR-H-fluviatilis_contig10096:7919..8050Heribaudiella fluviatilis SAG_13_90UTRH-fluviatilis_contig10096 7920..8050 -
1691135155.2942438-UTR-H-fluviatilis_contig10096:7919..80501691135155.2942438-UTR-H-fluviatilis_contig10096:7919..8050Heribaudiella fluviatilis SAG_13_90UTRH-fluviatilis_contig10096 7920..8050 -


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

Feature NameUnique NameSpeciesTypePosition
1622929027.4133217-CDS-H-fluviatilis_contig10096:303..4081622929027.4133217-CDS-H-fluviatilis_contig10096:303..408Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 304..408 -
1691135155.2172532-CDS-H-fluviatilis_contig10096:303..4081691135155.2172532-CDS-H-fluviatilis_contig10096:303..408Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 304..408 -
1622929027.4261224-CDS-H-fluviatilis_contig10096:1060..35271622929027.4261224-CDS-H-fluviatilis_contig10096:1060..3527Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 1061..3527 -
1691135155.228687-CDS-H-fluviatilis_contig10096:1060..35271691135155.228687-CDS-H-fluviatilis_contig10096:1060..3527Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 1061..3527 -
1622929027.4373844-CDS-H-fluviatilis_contig10096:3916..40711622929027.4373844-CDS-H-fluviatilis_contig10096:3916..4071Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 3917..4071 -
1691135155.2453735-CDS-H-fluviatilis_contig10096:3916..40711691135155.2453735-CDS-H-fluviatilis_contig10096:3916..4071Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 3917..4071 -
1622929027.4515152-CDS-H-fluviatilis_contig10096:4738..55421622929027.4515152-CDS-H-fluviatilis_contig10096:4738..5542Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 4739..5542 -
1691135155.25714-CDS-H-fluviatilis_contig10096:4738..55421691135155.25714-CDS-H-fluviatilis_contig10096:4738..5542Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 4739..5542 -
1622929027.4642246-CDS-H-fluviatilis_contig10096:5915..60411622929027.4642246-CDS-H-fluviatilis_contig10096:5915..6041Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 5916..6041 -
1691135155.2705715-CDS-H-fluviatilis_contig10096:5915..60411691135155.2705715-CDS-H-fluviatilis_contig10096:5915..6041Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 5916..6041 -
1622929027.4798295-CDS-H-fluviatilis_contig10096:6728..69211622929027.4798295-CDS-H-fluviatilis_contig10096:6728..6921Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 6729..6921 -
1691135155.278616-CDS-H-fluviatilis_contig10096:6728..69211691135155.278616-CDS-H-fluviatilis_contig10096:6728..6921Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 6729..6921 -
1622929027.4992-CDS-H-fluviatilis_contig10096:7914..79191622929027.4992-CDS-H-fluviatilis_contig10096:7914..7919Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 7915..7919 -
1691135155.2865653-CDS-H-fluviatilis_contig10096:7914..79191691135155.2865653-CDS-H-fluviatilis_contig10096:7914..7919Heribaudiella fluviatilis SAG_13_90CDSH-fluviatilis_contig10096 7915..7919 -


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

Feature NameUnique NameSpeciesTypePosition
mRNA_H-fluviatilis_contig10096.261.1prot_H-fluviatilis_contig10096.261.1Heribaudiella fluviatilis SAG_13_90polypeptideH-fluviatilis_contig10096 304..7919 -


Sequences
The following sequences are available for this feature:

protein sequence of mRNA_H-fluviatilis_contig10096.261.1

>prot_H-fluviatilis_contig10096.261.1 ID=prot_H-fluviatilis_contig10096.261.1|Name=mRNA_H-fluviatilis_contig10096.261.1|organism=Heribaudiella fluviatilis SAG_13_90|type=polypeptide|length=1285bp
MRHAGECERVPAILSSLRRELQSQLHIAARRLFAETLAGSLPGTVGKPRF
GSAPGGPLGAYVDALRAYLETEEQCVRRLSKRAASEEAELSSITCEMAQY
DGLYMPSLTEDLQAKKDKLITNIREDRAAEYGLVEQARREAITLAEALSC
GSSSVFTSAAATAAINNTSTGFRNEGTAGSRTNNIGNGDGMTGEGSAGVR
GGGSGDHYSSVHAAAPASTFAATTSVPAAGTTENGSENGSAPGRKGGPPG
SVSGDSTVNGYGGSVLGAVDDKRLSRVWQLFSYIGIGESGERIPPAIPPL
VTTGSSAGDAATAAAPAAVSKGGGGGGTVSFSDFAVNAIGQGSPSAPASL
SAPTGQMARGKSGKESSAQANAVAEQRSFAQAVAPTRFSLFFGQSPPGSV
TSPVTRSAPDESSRPTSGGAKQPVHRSRARNPPPSRIRGGVRLPSPPRDG
GRSLGGHLNWLNNNDTANNSRTSAGPSAPTPTRPTPPPMTSPAISRTVPR
TIPRGLPRAVPSTARQTARLTALAPSTTVPKRSYSAPLVIMATSGSKTFL
PTVKKQVSNKGTTSALVGMPTTAMAAAKSLQAARDAGVVAHICTIDETPT
ASGSDASPLPQRVSRKNKNTSVAATSRKQVGGSGGGGGGEVPVAGRGCGN
TAVPREGGSRSVGANENVGGRKKAVAAPEKGIVERSSKKTASDSNSGQGS
EAATPSSPLPSAEASGESEATATSAAIEKGNAGVSGGSSKGGSSAKSASE
KVEKKLRKKQAAAAAAEARKDTVVAPTAASGKAKSSKGKPYPGFQGTETG
VSNAVGKQDTLPPIIAPPPAPSPEKLTAVVTVAPPATVAGMGDTIASPSW
MPSAVGQEENSPESVAKDGNSNSQMSANAEQEPQSAVKEADSGSSLGSVR
ASLSNEGEHASVAETVVPSTDGGRGTDESAEEITTDVVADSSPATVFECR
QDDGNSGSGGIVATTSVATPASVGPLEEGSPLPRSTDSAAANNNTGARFA
RGEHEEREKSVAPVVRSTEKSQEDAGKAGLDDGEEVSAFNSIKDERLAVS
PKDGDDNGVGRHEQISVEAEPTAIATGAATTSTSRSPVVSVEMAADKFAT
RDADKDVAEIATTNLADADQKIRCVKPDGKLDLSERRPKQPRPSHGAGMA
CYVVESGDSDDETPAIGQGGCHEPECGAIDDDDGSGGRNGAGSGERGSRV
LGSGEEGFVAGCQGMSTKSEEEASPPERNTQGGGGACKEMEVDKGEPVVE
FGTYQTDMFQNKAGSVPIASCTGSDPTSPPLQHS*
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mRNA from alignment at H-fluviatilis_contig10096:2..8050-

Legend: UTRpolypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_H-fluviatilis_contig10096.261.1 ID=mRNA_H-fluviatilis_contig10096.261.1|Name=mRNA_H-fluviatilis_contig10096.261.1|organism=Heribaudiella fluviatilis SAG_13_90|type=mRNA|length=8049bp|location=Sequence derived from alignment at H-fluviatilis_contig10096:2..8050- (Heribaudiella fluviatilis SAG_13_90)
AGGTCGATTTGCAAATCGGAGCGGAGCAGCAGCGACGAGATCAATTGCTT
GAAAGCGCAGCGTCAACACGCGCTAACTACGAAGCGCAACGAGCAGCGGA
GGCCGAGGACCTCAAGCAATGGGAAAGCGCGATGAGGTGTGTAGGCGTGG
ATAAGAAGGTGTTGTCATAGGTAGCGGGGTAAGGGAAGGCGCCGGGGAGA
CCCTGTAAGCTTAACCCATACGTTGAGTGAGCGTGTCTCGCGCAGTAACG
TGTTGACCTTGCCTGCTAGAAACCCTTGGCAGGCGGGGAGTGGGGTTCGT
TTCCTCTATGACTGTTTTGGTAATCCTCAGCGTTTCGCGAGGGGGGCAAT
TGTCATGGCGAAGAGGGTTTGGTAGGTTATCTCTTATATATAATTGCGCG
TCAGCCTGTCGGCGAGCGCATCGAGAACCCCCCTGACCCTTTTGACGCCG
GTGGAGTGTTCAGTGGCACATGTAGTGGAAGGCGGTCTACCACTAGACCA
AGCAGTCAGCACTGACTGTTTGGTCTAGTGGTAGACCGTGTCCACTACAC
ATAACTTATGTTGCAGTTTCATAACTACTGTTGAGGTGGCGTAACTGCCG
ACATACCTTGCTGCAGCACGAAATATTGCTACAGAAGTCCCGAGCGGTTC
GCCTTCTTGATCCTCAGAGAGAGTGGTGGACAAGGGTCGAAGTTCCGCGG
TCAGGCGGGGGTCTGACCGGCCGAAAAAGTTGCTGTCTGGCGGGTAAATG
GAACGTCGTGTCAGAGCCGTAGAAGCGCGACAACCGTGCACACCGCTACG
CGCTTAACACTCTCCCAGATTCTTTTTCGATGTGTTTTACACCTTGCTGT
GCCTTTGGCGCAGACGCAATCATCGTCAGTGAACCTTTTCGAATCGTTTT
TTCTGCGCATTCGTGTGTGTGTGTGTGTGCGTGTGTGTGTTTGTGTTTAG
CTGGTCCAAGATTTGATATGGACGTGGCTGCTGACCGGAGACTACCGCGT
ACCAAAAAGTCGGATGATATGCCGTTTCCAAATTGCAAGAGTGATTCGTT
ACAGTTATGTGATGATTAACCCTAACTTCTACCCCTAAACTTACCCCTTC
CCCCTGCGCTTTGATAACCCCTCATGGAGGCACGCGGGAGAGTGCGAGCG
GGTACCAGCTATCCTGTCCAGCCTTCGGCGAGAGCTACAGTCACAGCTTC
ACATCGCCGCGAGGCGTTTGTTCGCGGAAACGCTCGCGGGAAGTCTACCA
GGAACGGTCGGGAAACCGAGATTCGGTTCTGCTCCGGGCGGCCCGCTTGG
CGCTTACGTTGACGCTTTGAGGGTGAGAGGAGACCGATTCATAACTTGTC
GGAACGGGGGGTACGGGGGGACGGGGTTCGGAGTATTTTTGGTGAGAAAA
CAAGCAGTTACACCGTTCAGTTAGCTATCTGATACGATCAGATTCGCTGG
TGAACATGACAGTGTTTTTGAGCTCATGGTTTTCAAGTTGAAGCTCTCGT
GGTGGATTGACACTGAGCAGACATGCCATGCTACAGATTCGGAGACCGGC
ATGTATCGATTAGAGATGAATGAAGCTAAAGCGCCACGTGCTGGCATGGA
CGCAGCCAAGCGTCAAGCAGCAAGCTTTTTTGGTCGCACGAAAATATTCA
TATTCGAACGATCGAAATATGAAATAATACATCTATGTTATTTTTTTTAT
TATTGTTATTATTATTGGCCCTGGACAGAACAGTTGTCAAATTTGGTCTC
TAGAAGTTCTAACGTTCCCCCAACAACAACACGTTATCAAAATCAGACAA
CGCCGTTTATTATAGTGACTACTTGTAGGACTTGCACTCGATGGAGTGGT
GCATGTAGTAATGGGATCCTACCGCGGGCTCCTTGTAGTCTCGGTGATTG
GTGCCTACACTGGCGTCGAAACACGCCTCCGAGAGAGATATACGGAAAGC
GTACATGCTCATTGTTGATGTACGTATTCTCTCTCGTGCTGCCCCGTGAT
GACGACCAGGCGTATCTCGAGACGGAAGAGCAATGCGTTCGCCGTCTCAG
CAAGCGAGCCGCGTCAGAGGAAGCCGAGCTGTCCAGCATCACCTGCGAGA
TGGCGCAGTACGACGGACTCTACATGCCCTCGTTGGTACGCAACGTGGCG
GCGAGGGAGTGACAGAGGAGGAACGAATGCGGGCTGGTTTTTGACGAAAG
GTCGTGTCCTTTCCTGCGTTGCCAGTACATCCTAACAGCTCATTTTGAGT
CGGGATGTAAGTACAATCGTCTTTTTTGTTGGCGTCGACAGGCGGCATTA
TGTATCACAGACACGACGGGACAAGGATTGAAGCGTTCACCAAGTCGTTA
AGACAGACACCCTTCCCTTCAACTTCAAAAATTGTTGTCGACAATAACGG
ACACTATTTCAAACAGGTGACCCTTCTTCTACAGGTCTCAATGCTCGATC
TTATTACCCTCTTCTGAAATTCTCTTGCTCCTCTCCGTCGACAAAACCAA
ACGCGCAGACGGAAGACCTTCAAGCCAAAAAGGACAAATTGATCACGAAC
ATCAGGGAGGACCGCGCCGCCGAGTACGGGCTCGTCGAGCAAGCCCGCCG
CGAGGCCATCACTCTGGCAGAAGCCCTCTCTTGCGGCTCATCTTCAGTCT
TTACTTCCGCCGCCGCTACTGCCGCCATCAACAACACCTCCACGGGATTC
CGCAACGAGGGCACTGCCGGTAGCAGAACCAACAACATCGGTAACGGTGA
CGGCATGACTGGCGAAGGCAGTGCGGGGGTGAGGGGCGGCGGCAGCGGCG
ACCACTACAGTTCTGTGCACGCCGCGGCACCGGCGTCGACTTTCGCGGCT
ACGACGAGTGTTCCCGCAGCCGGAACGACGGAAAATGGAAGCGAAAATGG
AAGCGCACCGGGTCGAAAAGGAGGTCCACCCGGAAGCGTGAGTGGAGATT
CAACCGTCAATGGGTATGGCGGTAGCGTACTCGGGGCGGTCGACGACAAG
AGGCTAAGCCGGGTCTGGCAGCTGTTCTCGTACATTGGCATAGGTGAAAG
TGGTGAAAGGATTCCGCCGGCGATACCGCCTCTCGTAACTACAGGTAGTA
GCGCCGGAGATGCAGCTACCGCCGCCGCACCGGCCGCCGTTAGCAAAGGT
GGTGGTGGAGGAGGAACGGTGAGCTTTTCAGATTTTGCCGTTAATGCGAT
TGGGCAAGGGTCGCCATCGGCGCCGGCTTCTCTTTCCGCGCCGACAGGGC
AAATGGCGAGGGGGAAATCGGGCAAGGAATCAAGTGCGCAGGCCAATGCT
GTCGCGGAGCAGGCAAGACACTTGTTGTCCGGCCAGTCTGTTTGCCAACC
CTATTTTCAGTCTCGAAACACTGGACGCGAAATCTATCATGACTGTTACA
ATTTTCTTCCTGACAGAGTCTCGCCGCCGTTTGTTGTGGTCATGATTGTT
GGCACCTATATACGCCAAGGGGTGTGGCATCCTCCGTAGGCCCCGGTGTT
GACGATTTTCATCCAGAACGTGCCATTTTCCTCTATAAACCGGTGTGTTT
TCCCCCATTGCGGTCAAGGGGCATGTTGTCCTTCGTGAGTGTCATTCCTC
ATCATTTACGGTACTCGCCACAATATTTTGCGGTGGCTGTCTTGTGTAGC
GCGGTTTTCGATTTTTTCTCGCCCCTTTTGGACTCCTTGTATGCAATCCG
GCCAGGTGTCACGATGTAACCGGTCGGCAGGCTTTCAGGACAAGCAACTA
ATTGCCACCCCCCCCCTTGTGTGTCCCCCTTTGCTCTTTCAAACCATTTT
GCTGTTGCGATCACGCATCTCGTATGCTGCAATTGGCATTAAGTACGGAT
AGCCTGGACTGCACGAGCGACCAGAAAAGCTCTGCGAGCTATATCTACAA
CCCCATTTATTCAGAAGGTAACGAACCGCTACTGCCTGTTTTTTTTTAAT
TTGTATGTCTCTACGATCGTTCTGCGCAGCGGTCGTTCGCTCAGGCGGTG
GCCCCGACCAGGTTTTCCCTTTTCTTCGGCCAGTCGCCGCCGGGCTCTGT
GACGTCCCCTGTCACGCGTTCCGCACCCGACGAGTCAAGCCGTCCAACCT
CGGGAGGGGCGAAACAGCCGGTGCACCGCAGCAGGTGCCTTTTGGCTGTC
TTGAGATGTACAATATACGTAGAGGGGTTCGTATCTTCTGGTACGAACTC
TTGCTGGTCAAGCGTGCATCTGGTTCTATAAGACTGATGCGGCGATTTTT
GCTTTTGTTGCATCGGGAAGATAGAGTATTTTTTTGCTTGTAGTGGACCG
GGCGTGGAAGAAGGTAGGCAGCCCCCTTCGACAAAGGCACCTTCCCTTGA
AATGTTACACGAAATTCCAGTGGCTGTTGTGGTGGAATGTCATTGCTTGG
CGAGACTGCGTACGACACACAAACCGCCATCCTCCTCCTCCACGGCATAG
ACCTCCCTCCGCCCAAATGGCTAACGCTCCCCGAGTCCTCCCCTATCTCC
CCTTCCACGACATTGGATTACAGAGCCCGTAACCCCCCCCCTTCGAGAAT
CCGTGGTGGTGTGCGCCTGCCGTCTCCACCCCGCGACGGAGGCCGCTCGC
TCGGCGGCCATCTCAACTGGCTGAACAACAACGATACGGCCAACAACTCT
CGCACTTCCGCTGGGCCTTCCGCTCCGACTCCGACTCGGCCCACTCCTCC
GCCAATGACTTCCCCCGCAATTTCGCGCACCGTTCCACGAACCATTCCTC
GCGGGCTTCCCCGAGCCGTTCCGAGCACGGCTCGGCAGACAGCCCGCCTT
ACTGCCTTAGCCCCGTCGACCACAGTTCCGAAACGGTCTTACTCGGCGCC
GCTTGTAATAATGGCTACCAGCGGCAGTAAGACCTTCTTACCTACTGTCA
AAAAGCAAGTCAGCAACAAGGGCACGACGTCGGCGTTGGTGGGGATGCCG
ACGACGGCGATGGCTGCGGCCAAATCGCTACAAGCAGCTCGGGACGCCGG
CGTTGTCGCCCACATTTGTACCATCGACGAGACACCTACGGCTTCGGGAT
CCGACGCTTCGCCTTTGCCACAACGAGTCAGTCGAAAGAACAAAAACACG
TCCGTAGCGGCGACGTCTAGGAAGCAGGTTGGTGGTAGTGGTGGTGGTGG
TGGTGGTGAGGTGCCTGTCGCGGGTCGTGGTTGTGGAAATACTGCCGTGC
CCCGTGAGGGCGGAAGCAGAAGTGTGGGCGCAAATGAGAACGTAGGAGGA
AGGAAGAAGGCGGTCGCAGCACCAGAGAAAGGGATAGTTGAAAGATCTTC
AAAGAAAACCGCTAGTGATAGCAACTCCGGTCAGGGATCAGAAGCAGCAA
CACCGTCGTCGCCTCTGCCATCGGCGGAGGCCAGCGGTGAGTCAGAAGCC
ACCGCGACTTCCGCCGCGATCGAGAAAGGGAACGCCGGCGTCTCTGGCGG
CAGTAGCAAAGGAGGAAGCAGCGCCAAATCTGCCTCGGAAAAGGTTGAGA
AAAAGCTGAGGAAAAAGCAGGCCGCAGCAGCGGCGGCGGAAGCAAGAAAA
GATACAGTAGTTGCACCGACAGCGGCGTCGGGTAAGGCGAAATCTTCAAA
AGGTAAGCCTTACCCCGGATTCCAGGGCACAGAAACTGGGGTTTCAAACG
CTGTGGGAAAGCAGGACACCCTGCCGCCCATAATTGCTCCACCACCAGCA
CCATCTCCGGAGAAACTGACGGCTGTCGTGACGGTGGCGCCGCCGGCGAC
CGTAGCGGGGATGGGAGACACGATTGCTTCGCCGTCGTGGATGCCGTCGG
CGGTAGGGCAGGAAGAAAACAGTCCAGAATCCGTGGCCAAGGATGGGAAT
TCCAATTCACAGATGAGCGCAAATGCAGAGCAGGAACCGCAATCCGCTGT
GAAGGAAGCAGACTCCGGTTCATCGCTAGGTTCGGTAAGGGCGTCATTAA
GCAACGAGGGCGAACACGCGTCGGTAGCGGAAACAGTAGTGCCGTCGACC
GACGGCGGTCGAGGAACAGACGAGAGCGCGGAGGAGATCACAACAGACGT
CGTCGCCGACAGCTCCCCGGCGACGGTGTTTGAATGCAGGCAAGACGACG
GAAACAGTGGCTCCGGTGGTATTGTTGCGACGACAAGTGTTGCTACACCG
GCTTCAGTTGGACCATTGGAAGAAGGCTCGCCGTTGCCAAGGTCGACCGA
TTCTGCTGCAGCCAACAACAACACGGGGGCCAGGTTCGCGCGCGGTGAAC
ATGAAGAGCGGGAAAAGAGTGTAGCCCCGGTTGTCCGTTCGACTGAGAAA
TCTCAGGAAGATGCGGGTAAGGCCGGTTTGGATGACGGAGAAGAAGTGTC
GGCGTTCAATAGTATCAAAGACGAACGGTTAGCTGTATCACCGAAGGACG
GTGACGACAATGGAGTGGGCCGCCACGAGCAAATCAGTGTCGAGGCAGAA
CCCACCGCCATCGCAACCGGTGCTGCTACTACCTCAACTTCGCGCTCCCC
GGTCGTTTCCGTGGAAATGGCCGCCGATAAATTTGCGACGCGAGATGCCG
ATAAGGATGTTGCCGAAATCGCCACCACCAATCTCGCAGATGCTGACCAG
AAAATACGCTGCGTAAAGCCCGACGGAAAACTTGACCTATCAGAACGAAG
ACCGAAGCAACCCCGGCCGTCGCACGGAGCGGGGATGGCGTGCTACGTTG
TCGAAAGTGGCGACTCGGACGACGAGACCCCCGCTATTGGTCAAGGCGGT
TGTCACGAACCCGAATGCGGCGCAATTGACGATGACGATGGAAGTGGAGG
AAGGAACGGAGCCGGAAGTGGCGAACGTGGATCCAGAGTCTTAGGTTCAG
GTGAAGAAGGCTTTGTTGCCGGCTGCCAAGGTATGTCAACGAAATCGGAG
GAAGAGGCGTCGCCGCCGGAGAGGAATACACAGGGCGGCGGCGGCGCCTG
TAAAGAGATGGAAGTGGACAAAGGAGAGCCGGTGGTGGAGGTGAGACTCA
CCATCGTGTGTGTGTTTAGGATGGGATAATTTTGCAAGGTGGATAAGAGC
TCCTCGTCTAGTTTGCTTACGTTCCTGCCTTCGGTTCGCCGGGTGCCGTA
GGGCGAAATTCACTCCTGTTTTCCTAAGGCGAGACAAAGCCACCACGACA
TGATCGACCGTGAAGGCTTGCTCGTCGGACCAGCCTGCCAATTGCCCTTT
TTTCACATTTGCTACGCCACCGGCAAGATAAACCACTAGAGTTCGTCACG
AAAATGCTAAAACATTTCGTTAAAGCACATGCTCTACAAGGTTCATGTGA
GATCCACGAGTAAGAAACGTACCGCTGTTGATTTGACGGCTGACCCAATC
GGAGTGGGACAAAAAATCAACGTTGGATTTCGGACTGCAAAATTCACCAG
CCTTTCACAATCTGATCTTGAAGTTTCCCTCTCATGTAGGAACACGCCCC
GTCGCGACAATGCGAGTGGGGTCCATTTTGTAAGGGTAGCGTCTGTCATG
CGTCAACGGCAGCGTCCTTCTAGAGCAACCACGCTACCAAAGTATTCACG
ACGCCAATCAACGCCTGTCATTAAACGTACCGCGTGTTACACCCACCGCC
CGCCGATGTCCGGTGCCGCTGCTGATCTTTTCTGTATCGCAGTTTGGTAC
ATACCAAACCGACATGTTTCAGAACAAGGCCGGGAGCGTTCCCATCGCGT
CCTGTACAGGAAGCGATCCCACGTCTCCACCTTTACAGCATAGTTAGTTG
TTGTTTATGTACGAAGAGAAAAACGAAAAGGCACAAACCGCCTCAGGGAA
TACATCTCTGTTTGCTGCTGAAGAGCCGGGGGGGGTCAATCGAGCGGCGG
GGGAGAATTGTAGTTTTCTGTCGAAAACCGAGTGTAATGTCGAGCCGAAC
GAGCGGGTTGAGCTTGGGAGTGCGTGGGGCGTGATCTCGTTAAACTTTTG
GGGATGTCGAGAGAGAAGTGGGAGTAGGGCTTGGGGGGTGATGCTTTGCT
AATTTATTGCTGTTATGATCGCGTGCCTTTGGAACAGAGGCAGTCGATT
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Coding sequence (CDS) from alignment at H-fluviatilis_contig10096:2..8050-

>mRNA_H-fluviatilis_contig10096.261.1 ID=mRNA_H-fluviatilis_contig10096.261.1|Name=mRNA_H-fluviatilis_contig10096.261.1|organism=Heribaudiella fluviatilis SAG_13_90|type=CDS|length=7710bp|location=Sequence derived from alignment at H-fluviatilis_contig10096:2..8050- (Heribaudiella fluviatilis SAG_13_90)
ATGAGATGAGGCACGCGGGAGAGTGCGAGCGGGTACCAGCTATCCTGTCC
AGCCTTCGGCGAGAGCTACAGTCACAGCTTCACATCGCCGCGAGGCGTTT
GTTCGCGGAAACGCTCGCGGGAAGTCTACCAGGAACGGTCGGGAAACCGA
GATTCGGTTCTGCTCCGGGCGGCCCGCTTGGCGCTTACGTTGACGCTTTG
AGGGCACGCGGGAGAGTGCGAGCGGGTACCAGCTATCCTGTCCAGCCTTC
GGCGAGAGCTACAGTCACAGCTTCACATCGCCGCGAGGCGTTTGTTCGCG
GAAACGCTCGCGGGAAGTCTACCAGGAACGGTCGGGAAACCGAGATTCGG
TTCTGCTCCGGGCGGCCCGCTTGGCGCTTACGTTGACGCTTTGAGGGCGT
ATCTCGAGACGGAAGAGCAATGCGTTCGCCGTCTCAGCAAGCGAGCCGCG
TCAGAGGAAGCCGAGCTGTCCAGCATCACCTGCGAGATGGCGCAGTACGA
CGGACTCTACATGCCCTCGTTGGCGTATCTCGAGACGGAAGAGCAATGCG
TTCGCCGTCTCAGCAAGCGAGCCGCGTCAGAGGAAGCCGAGCTGTCCAGC
ATCACCTGCGAGATGGCGCAGTACGACGGACTCTACATGCCCTCGTTGAC
GGAAGACCTTCAAGCCAAAAAGGACAAATTGATCACGAACATCAGGGAGG
ACCGCGCCGCCGAGTACGGGCTCGTCGAGCAAGCCCGCCGCGAGGCCATC
ACTCTGGCAGAAGCCCTCTCTTGCGGCTCATCTTCAGTCTTTACTTCCGC
CGCCGCTACTGCCGCCATCAACAACACCTCCACGGGATTCCGCAACGAGG
GCACTGCCGGTAGCAGAACCAACAACATCGGTAACGGTGACGGCATGACT
GGCGAAGGCAGTGCGGGGGTGAGGGGCGGCGGCAGCGGCGACCACTACAG
TTCTGTGCACGCCGCGGCACCGGCGTCGACTTTCGCGGCTACGACGAGTG
TTCCCGCAGCCGGAACGACGGAAAATGGAAGCGAAAATGGAAGCGCACCG
GGTCGAAAAGGAGGTCCACCCGGAAGCGTGAGTGGAGATTCAACCGTCAA
TGGGTATGGCGGTAGCGTACTCGGGGCGGTCGACGACAAGAGGCTAAGCC
GGGTCTGGCAGCTGTTCTCGTACATTGGCATAGGTGAAAGTGGTGAAAGG
ATTCCGCCGGCGATACCGCCTCTCGTAACTACAGGTAGTAGCGCCGGAGA
TGCAGCTACCGCCGCCGCACCGGCCGCCGTTAGCAAAGGTGGTGGTGGAG
GAGGAACGGTGAGCTTTTCAGATTTTGCCGTTAATGCGATTGGGCAAGGG
TCGCCATCGGCGCCGGCTTCTCTTTCCGCGCCGACAGGGCAAATGGCGAG
GGGGAAATCGGGCAAGGAATCAAGTGCGCAGGCCAATGCTGTCGCGGAGC
AGACGGAAGACCTTCAAGCCAAAAAGGACAAATTGATCACGAACATCAGG
GAGGACCGCGCCGCCGAGTACGGGCTCGTCGAGCAAGCCCGCCGCGAGGC
CATCACTCTGGCAGAAGCCCTCTCTTGCGGCTCATCTTCAGTCTTTACTT
CCGCCGCCGCTACTGCCGCCATCAACAACACCTCCACGGGATTCCGCAAC
GAGGGCACTGCCGGTAGCAGAACCAACAACATCGGTAACGGTGACGGCAT
GACTGGCGAAGGCAGTGCGGGGGTGAGGGGCGGCGGCAGCGGCGACCACT
ACAGTTCTGTGCACGCCGCGGCACCGGCGTCGACTTTCGCGGCTACGACG
AGTGTTCCCGCAGCCGGAACGACGGAAAATGGAAGCGAAAATGGAAGCGC
ACCGGGTCGAAAAGGAGGTCCACCCGGAAGCGTGAGTGGAGATTCAACCG
TCAATGGGTATGGCGGTAGCGTACTCGGGGCGGTCGACGACAAGAGGCTA
AGCCGGGTCTGGCAGCTGTTCTCGTACATTGGCATAGGTGAAAGTGGTGA
AAGGATTCCGCCGGCGATACCGCCTCTCGTAACTACAGGTAGTAGCGCCG
GAGATGCAGCTACCGCCGCCGCACCGGCCGCCGTTAGCAAAGGTGGTGGT
GGAGGAGGAACGGTGAGCTTTTCAGATTTTGCCGTTAATGCGATTGGGCA
AGGGTCGCCATCGGCGCCGGCTTCTCTTTCCGCGCCGACAGGGCAAATGG
CGAGGGGGAAATCGGGCAAGGAATCAAGTGCGCAGGCCAATGCTGTCGCG
GAGCAGCGGTCGTTCGCTCAGGCGGTGGCCCCGACCAGGTTTTCCCTTTT
CTTCGGCCAGTCGCCGCCGGGCTCTGTGACGTCCCCTGTCACGCGTTCCG
CACCCGACGAGTCAAGCCGTCCAACCTCGGGAGGGGCGAAACAGCCGGTG
CACCGCAGCAGCGGTCGTTCGCTCAGGCGGTGGCCCCGACCAGGTTTTCC
CTTTTCTTCGGCCAGTCGCCGCCGGGCTCTGTGACGTCCCCTGTCACGCG
TTCCGCACCCGACGAGTCAAGCCGTCCAACCTCGGGAGGGGCGAAACAGC
CGGTGCACCGCAGCAGAGCCCGTAACCCCCCCCCTTCGAGAATCCGTGGT
GGTGTGCGCCTGCCGTCTCCACCCCGCGACGGAGGCCGCTCGCTCGGCGG
CCATCTCAACTGGCTGAACAACAACGATACGGCCAACAACTCTCGCACTT
CCGCTGGGCCTTCCGCTCCGACTCCGACTCGGCCCACTCCTCCGCCAATG
ACTTCCCCCGCAATTTCGCGCACCGTTCCACGAACCATTCCTCGCGGGCT
TCCCCGAGCCGTTCCGAGCACGGCTCGGCAGACAGCCCGCCTTACTGCCT
TAGCCCCGTCGACCACAGTTCCGAAACGGTCTTACTCGGCGCCGCTTGTA
ATAATGGCTACCAGCGGCAGTAAGACCTTCTTACCTACTGTCAAAAAGCA
AGTCAGCAACAAGGGCACGACGTCGGCGTTGGTGGGGATGCCGACGACGG
CGATGGCTGCGGCCAAATCGCTACAAGCAGCTCGGGACGCCGGCGTTGTC
GCCCACATTTGTACCATCGACGAGACACCTACGGCTTCGGGATCCGACGC
TTCGCCTTTGCCACAACGAGTCAGTCGAAAGAACAAAAACACGTCCGTAG
CGGCGACGTCTAGGAAGCAGGTTGGTGGTAGTGGTGGTGGTGGTGGTGGT
GAGGTGCCTGTCGCGGGTCGTGGTTGTGGAAATACTGCCGTGCCCCGTGA
GGGCGGAAGCAGAAGTGTGGGCGCAAATGAGAACGTAGGAGGAAGGAAGA
AGGCGGTCGCAGCACCAGAGAAAGGGATAGTTGAAAGATCTTCAAAGAAA
ACCGCTAGTGATAGCAACTCCGGTCAGGGATCAGAAGCAGCAACACCGTC
GTCGCCTCTGCCATCGGCGGAGGCCAGCGGTGAGTCAGAAGCCACCGCGA
CTTCCGCCGCGATCGAGAAAGGGAACGCCGGCGTCTCTGGCGGCAGTAGC
AAAGGAGGAAGCAGCGCCAAATCTGCCTCGGAAAAGGTTGAGAAAAAGCT
GAGGAAAAAGCAGGCCGCAGCAGCGGCGGCGGAAGCAAGAAAAGATACAG
TAGTTGCACCGACAGCGGCGTCGGGTAAGGCGAAATCTTCAAAAGGTAAG
CCTTACCCCGGATTCCAGGGCACAGAAACTGGGGTTTCAAACGCTGTGGG
AAAGCAGGACACCCTGCCGCCCATAATTGCTCCACCACCAGCACCATCTC
CGGAGAAACTGACGGCTGTCGTGACGGTGGCGCCGCCGGCGACCGTAGCG
GGGATGGGAGACACGATTGCTTCGCCGTCGTGGATGCCGTCGGCGGTAGG
GCAGGAAGAAAACAGTCCAGAATCCGTGGCCAAGGATGGGAATTCCAATT
CACAGATGAGCGCAAATGCAGAGCAGGAACCGCAATCCGCTGTGAAGGAA
GCAGACTCCGGTTCATCGCTAGGTTCGGTAAGGGCGTCATTAAGCAACGA
GGGCGAACACGCGTCGGTAGCGGAAACAGTAGTGCCGTCGACCGACGGCG
GTCGAGGAACAGACGAGAGCGCGGAGGAGATCACAACAGACGTCGTCGCC
GACAGCTCCCCGGCGACGGTGTTTGAATGCAGGCAAGACGACGGAAACAG
TGGCTCCGGTGGTATTGTTGCGACGACAAGTGTTGCTACACCGGCTTCAG
TTGGACCATTGGAAGAAGGCTCGCCGTTGCCAAGGTCGACCGATTCTGCT
GCAGCCAACAACAACACGGGGGCCAGGTTCGCGCGCGGTGAACATGAAGA
GCGGGAAAAGAGTGTAGCCCCGGTTGTCCGTTCGACTGAGAAATCTCAGG
AAGATGCGGGTAAGGCCGGTTTGGATGACGGAGAAGAAGTGTCGGCGTTC
AATAGTATCAAAGACGAACGGTTAGCTGTATCACCGAAGGACGGTGACGA
CAATGGAGTGGGCCGCCACGAGCAAATCAGTGTCGAGGCAGAACCCACCG
CCATCGCAACCGGTGCTGCTACTACCTCAACTTCGCGCTCCCCGGTCGTT
TCCGTGGAAATGGCCGCCGATAAATTTGCGACGCGAGATGCCGATAAGGA
TGTTGCCGAAATCGCCACCACCAATCTCGCAGATGCTGACCAGAAAATAC
GCTGCGTAAAGCCCGACGGAAAACTTGACCTATCAGAACGAAGACCGAAG
CAACCCCGGCCGTCGCACGGAGCGGGGATGGCGTGCTACGTTGTCGAAAG
TGGCGACTCGGACGACGAGACCCCCGCTATTGGTCAAGGCGGTTGTCACG
AACCCGAATGCGGCGCAATTGACGATGACGATGGAAGTGGAGGAAGGAAC
GGAGCCGGAAGTGGCGAACGTGGATCCAGAGTCTTAGGTTCAGGTGAAGA
AGGCTTTGTTGCCGGCTGCCAAGGTATGTCAACGAAATCGGAGGAAGAGG
CGTCGCCGCCGGAGAGGAATACACAGGGCGGCGGCGGCGCCTGTAAAGAG
ATGGAAGTGGACAAAGGAGAGCCGGTGGTGGAGAGCCCGTAACCCCCCCC
CTTCGAGAATCCGTGGTGGTGTGCGCCTGCCGTCTCCACCCCGCGACGGA
GGCCGCTCGCTCGGCGGCCATCTCAACTGGCTGAACAACAACGATACGGC
CAACAACTCTCGCACTTCCGCTGGGCCTTCCGCTCCGACTCCGACTCGGC
CCACTCCTCCGCCAATGACTTCCCCCGCAATTTCGCGCACCGTTCCACGA
ACCATTCCTCGCGGGCTTCCCCGAGCCGTTCCGAGCACGGCTCGGCAGAC
AGCCCGCCTTACTGCCTTAGCCCCGTCGACCACAGTTCCGAAACGGTCTT
ACTCGGCGCCGCTTGTAATAATGGCTACCAGCGGCAGTAAGACCTTCTTA
CCTACTGTCAAAAAGCAAGTCAGCAACAAGGGCACGACGTCGGCGTTGGT
GGGGATGCCGACGACGGCGATGGCTGCGGCCAAATCGCTACAAGCAGCTC
GGGACGCCGGCGTTGTCGCCCACATTTGTACCATCGACGAGACACCTACG
GCTTCGGGATCCGACGCTTCGCCTTTGCCACAACGAGTCAGTCGAAAGAA
CAAAAACACGTCCGTAGCGGCGACGTCTAGGAAGCAGGTTGGTGGTAGTG
GTGGTGGTGGTGGTGGTGAGGTGCCTGTCGCGGGTCGTGGTTGTGGAAAT
ACTGCCGTGCCCCGTGAGGGCGGAAGCAGAAGTGTGGGCGCAAATGAGAA
CGTAGGAGGAAGGAAGAAGGCGGTCGCAGCACCAGAGAAAGGGATAGTTG
AAAGATCTTCAAAGAAAACCGCTAGTGATAGCAACTCCGGTCAGGGATCA
GAAGCAGCAACACCGTCGTCGCCTCTGCCATCGGCGGAGGCCAGCGGTGA
GTCAGAAGCCACCGCGACTTCCGCCGCGATCGAGAAAGGGAACGCCGGCG
TCTCTGGCGGCAGTAGCAAAGGAGGAAGCAGCGCCAAATCTGCCTCGGAA
AAGGTTGAGAAAAAGCTGAGGAAAAAGCAGGCCGCAGCAGCGGCGGCGGA
AGCAAGAAAAGATACAGTAGTTGCACCGACAGCGGCGTCGGGTAAGGCGA
AATCTTCAAAAGGTAAGCCTTACCCCGGATTCCAGGGCACAGAAACTGGG
GTTTCAAACGCTGTGGGAAAGCAGGACACCCTGCCGCCCATAATTGCTCC
ACCACCAGCACCATCTCCGGAGAAACTGACGGCTGTCGTGACGGTGGCGC
CGCCGGCGACCGTAGCGGGGATGGGAGACACGATTGCTTCGCCGTCGTGG
ATGCCGTCGGCGGTAGGGCAGGAAGAAAACAGTCCAGAATCCGTGGCCAA
GGATGGGAATTCCAATTCACAGATGAGCGCAAATGCAGAGCAGGAACCGC
AATCCGCTGTGAAGGAAGCAGACTCCGGTTCATCGCTAGGTTCGGTAAGG
GCGTCATTAAGCAACGAGGGCGAACACGCGTCGGTAGCGGAAACAGTAGT
GCCGTCGACCGACGGCGGTCGAGGAACAGACGAGAGCGCGGAGGAGATCA
CAACAGACGTCGTCGCCGACAGCTCCCCGGCGACGGTGTTTGAATGCAGG
CAAGACGACGGAAACAGTGGCTCCGGTGGTATTGTTGCGACGACAAGTGT
TGCTACACCGGCTTCAGTTGGACCATTGGAAGAAGGCTCGCCGTTGCCAA
GGTCGACCGATTCTGCTGCAGCCAACAACAACACGGGGGCCAGGTTCGCG
CGCGGTGAACATGAAGAGCGGGAAAAGAGTGTAGCCCCGGTTGTCCGTTC
GACTGAGAAATCTCAGGAAGATGCGGGTAAGGCCGGTTTGGATGACGGAG
AAGAAGTGTCGGCGTTCAATAGTATCAAAGACGAACGGTTAGCTGTATCA
CCGAAGGACGGTGACGACAATGGAGTGGGCCGCCACGAGCAAATCAGTGT
CGAGGCAGAACCCACCGCCATCGCAACCGGTGCTGCTACTACCTCAACTT
CGCGCTCCCCGGTCGTTTCCGTGGAAATGGCCGCCGATAAATTTGCGACG
CGAGATGCCGATAAGGATGTTGCCGAAATCGCCACCACCAATCTCGCAGA
TGCTGACCAGAAAATACGCTGCGTAAAGCCCGACGGAAAACTTGACCTAT
CAGAACGAAGACCGAAGCAACCCCGGCCGTCGCACGGAGCGGGGATGGCG
TGCTACGTTGTCGAAAGTGGCGACTCGGACGACGAGACCCCCGCTATTGG
TCAAGGCGGTTGTCACGAACCCGAATGCGGCGCAATTGACGATGACGATG
GAAGTGGAGGAAGGAACGGAGCCGGAAGTGGCGAACGTGGATCCAGAGTC
TTAGGTTCAGGTGAAGAAGGCTTTGTTGCCGGCTGCCAAGGTATGTCAAC
GAAATCGGAGGAAGAGGCGTCGCCGCCGGAGAGGAATACACAGGGCGGCG
GCGGCGCCTGTAAAGAGATGGAAGTGGACAAAGGAGAGCCGGTGGTGGAG
TTTGGTACATACCAAACCGACATGTTTCAGAACAAGGCCGGGAGCGTTCC
CATCGCGTCCTGTACAGGAAGCGATCCCACGTCTCCACCTTTACAGCATA
GTTAGTTTGGTACATACCAAACCGACATGTTTCAGAACAAGGCCGGGAGC
GTTCCCATCGCGTCCTGTACAGGAAGCGATCCCACGTCTCCACCTTTACA
GCATAGTTAG
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