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Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Relationships
This mRNA is a part of the following gene feature(s):
The following stop_codon feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| Gcaud2588.t1.stop1 | Gcaud2588.t1.stop1 | Gracilaria caudata M_176_S67 male | stop_codon | NODE_53_length_63756_cov_4.464180 10127..10129 - |
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
The following start_codon feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| Gcaud2588.t1.start1 | Gcaud2588.t1.start1 | Gracilaria caudata M_176_S67 male | start_codon | NODE_53_length_63756_cov_4.464180 14912..14914 - |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
mRNA sequence >Gcaud2588.t1 ID=Gcaud2588.t1|Name=Gcaud2588.t1|organism=Gracilaria caudata M_176_S67 male|type=mRNA|length=1596bp
MSTGASGLLRSFRRHRHERASSTRKVTPKKRTSNEQLSTSSTLSYATDEH
DDSPDKRGRSLSASAIAHDTYTPVSQPSPWQDGGTMSTDVSDSFKRAFQQ
MATEREALKAQVQSLSTAAEEPDRLRELSDKLKDQLEDANAALKKEKQRA
DVSANAVRSLQNSLADIKSELSAKTSQITKLNKELENGDQKSIKELMQRE
KAAESAMLRKSREITELKSQLHTIESKLKNALNDSVGFQKSADKAAKQVQ
KLQDALRQEHLKLSNKTSQLERAETLASDRLAELGNANEQLNKLQQDNAR
VQREVLALEKGLQSAKGEGSDAAAKVSELERQLCLRTEEVKAAEKSAQAA
QQCVDEAEQRATSLERQLEESKKAALEAEENGKQIAHKLSQSSDDKVLDM
KRELDRLTKQLEREQISYEAEKERMESAKVDEVTQLQDKVEQARSEYADA
KCSWSKERRELTIQLEQAQNSLAAKTREVKSLTTKVEASQQDVEDAQWHL
ERSQSKIADLKQATKQAEEQLTKEIMEMRGMQIEQQASTREAERRARLAE
SSTEDFKAEVETLAQKLAASGREVMESKGVVNKMRFDIDDKLKSIESLVT
EKEKLCMEISSLRKDFQDAESELREVEEERHGLVYKLRSLEKDLEASRKD
AAKADELCKELTEQSSRLSRDLEQQNATLAEQEDELKNLRIEAQNSQKLK
MLVEEHEATIGQMETEISQSAQESSDIHSRSIEADQKIATLTFELRESKE
ALKSVEEGVAKSQNENESLKESAEDLERELQNLNTEISNTRRQITTLEEE
KSQLGTAIERHRKDADEAISRRDELESKCAELSDTISSLEFERENSESNT
KGLENELFSANEKATELQKALEESAGQVAKLQTELRSTESAAQDGEQTRI
SMQGVIIERGKLIEQLKDTVREHENSVASLQEDMDKISAELEKEKDGAAC
LASQLEGLSAAKEELHRTEDDLRRTLERSQNEVEQAKEQVEELEQGKLAL
CETIEDLRERLATEAREKDVAMSSVKEALAKLEEKGAVEKDLGDKLQARE
LMLSELSTRCDEAGSEVRKLSNVIEEKSRDLETVSNERQGVLQRMSELEA
EREAEVARSIEEVQTLQSEKGQLLEELDAIKQKLEELEAEASNTEVRHVE
EVAQVTESLSRKQDEITSVAEELSNLSKTLAEREEELTALREDKEKLSTQ
IEELIEEAESKVDEITADRDDLAAERDELVATRSELERQTMQADEDNENL
AADLEKARDKAEEAEAKAKDMEEELGRVVNEVTELEWALNEQTLRADEAE
REAEGLRTQGRTIYAQIEEFGEEAEKKIVEAENEVQAKVEEILVLESRIV
DMGEEVKCAKDQASELNSQIASLQSEQGRLAVDKETAERRLEMARSDAQF
QGERLSSLESQNRELNSALDSAKSKARQVEESLIRYESRAGEDRQKVNDL
QDQVDRLRSIEGQYAGTQMEVARLKSQLDEATTVKTRLLIEKEGLVEKLR
AAEERFNSEKRSLLAEHRLEMEEIRRGSEISFEPRMSEDLKRTGGGSTVI
STSRGPARMQDDNQKLKNNVVVAVVGGVSLFALKLLAKITEGKKR* back to topspliced messenger RNA >Gcaud2588.t1 ID=Gcaud2588.t1|Name=Gcaud2588.t1|organism=Gracilaria caudata M_176_S67 male|type=mRNA|length=4788bp|location=Sequence derived from alignment at NODE_53_length_63756_cov_4.464180:10127..14914- (Gracilaria caudata M_176_S67 male)|Notes=Excludes all bases but those of type(s): exon.
ATGTCGACGGGCGCATCGGGCTTGCTGAGGTCGTTTCGACGACATCGCCA
CGAGCGTGCTTCTTCGACGCGCAAAGTGACGCCGAAGAAGCGAACGTCTA
ACGAACAGCTTTCCACATCTTCCACGCTTTCATACGCTACTGATGAGCAT
GACGACTCGCCGGACAAACGCGGACGCTCTCTCTCTGCTTCTGCGATAGC
GCACGACACCTACACCCCAGTCTCGCAGCCGTCTCCGTGGCAAGACGGCG
GGACTATGTCCACCGACGTGTCCGACTCTTTCAAACGCGCCTTTCAGCAG
ATGGCCACGGAGCGCGAGGCGCTAAAAGCGCAGGTTCAATCGCTTAGCAC
CGCTGCTGAGGAGCCTGACCGGCTACGGGAGCTCTCTGACAAGCTCAAAG
ACCAACTCGAAGACGCTAATGCCGCGTTGAAGAAAGAGAAACAACGTGCC
GATGTCTCTGCCAATGCAGTGCGCTCGCTTCAAAATTCGCTCGCCGATAT
CAAGTCCGAATTGTCCGCAAAGACTTCCCAGATTACAAAGCTTAATAAGG
AGCTCGAAAATGGAGATCAGAAGAGTATTAAGGAGCTCATGCAGCGAGAG
AAGGCCGCTGAGAGTGCAATGTTACGAAAAAGTCGCGAGATTACCGAGCT
CAAGTCTCAACTGCACACCATTGAAAGCAAACTGAAAAACGCTTTGAATG
ACTCTGTTGGCTTTCAAAAGTCTGCTGATAAGGCCGCAAAGCAGGTGCAG
AAGTTGCAGGATGCACTTCGGCAGGAACATCTTAAGCTGTCCAATAAGAC
CTCTCAGCTCGAACGCGCGGAAACTCTTGCTTCGGACAGGCTTGCGGAGT
TGGGCAACGCGAACGAGCAATTGAACAAGCTTCAACAAGATAATGCCCGC
GTTCAGCGCGAGGTGCTCGCGCTGGAGAAAGGGTTGCAGAGCGCCAAGGG
AGAAGGAAGTGATGCTGCTGCCAAAGTTTCTGAACTTGAGCGTCAACTCT
GTCTACGTACGGAGGAAGTCAAGGCTGCTGAGAAGTCTGCACAAGCTGCA
CAGCAGTGCGTTGATGAGGCTGAACAGCGTGCCACGTCTTTAGAACGTCA
ATTGGAGGAGTCGAAAAAGGCTGCACTTGAGGCTGAGGAAAACGGAAAGC
AGATTGCTCACAAGTTATCCCAGTCTTCTGATGATAAGGTTTTAGACATG
AAGCGTGAGCTCGATAGACTCACCAAACAGCTTGAACGCGAGCAAATTTC
GTATGAAGCCGAGAAGGAACGTATGGAATCTGCTAAAGTGGACGAGGTCA
CTCAACTGCAGGACAAAGTGGAACAAGCCAGATCTGAATATGCGGATGCA
AAATGTTCATGGAGTAAGGAACGACGCGAACTCACCATTCAACTTGAGCA
AGCGCAGAACTCATTAGCAGCAAAGACGAGGGAGGTCAAGAGCTTGACTA
CCAAGGTTGAGGCTAGTCAACAGGACGTTGAGGATGCCCAGTGGCACCTT
GAACGTTCACAGTCGAAGATTGCGGACTTGAAACAGGCTACGAAGCAGGC
GGAAGAGCAGCTCACCAAGGAAATCATGGAGATGAGGGGTATGCAGATTG
AACAGCAAGCGTCAACAAGGGAAGCCGAACGTCGAGCTCGCTTAGCTGAG
TCTTCCACCGAAGACTTCAAGGCTGAGGTCGAAACTTTGGCTCAAAAGCT
CGCTGCGTCAGGCCGGGAGGTAATGGAGTCAAAGGGGGTCGTAAACAAGA
TGCGGTTCGATATCGATGACAAGCTGAAAAGCATAGAATCACTCGTAACG
GAAAAAGAGAAGCTTTGTATGGAAATTTCGTCTTTGCGAAAAGACTTTCA
AGACGCTGAAAGTGAGCTACGTGAAGTTGAGGAAGAGCGCCATGGGCTGG
TATACAAACTCCGCAGTCTAGAAAAGGACCTGGAAGCATCGAGGAAGGAC
GCTGCTAAGGCTGATGAGCTATGCAAGGAGTTGACGGAGCAGTCATCCAG
GTTATCTCGTGATCTTGAACAACAAAATGCTACTCTTGCTGAGCAAGAAG
ACGAACTGAAGAACCTCAGAATTGAAGCGCAGAACTCACAAAAGCTCAAG
ATGCTTGTGGAGGAGCATGAGGCAACTATAGGGCAAATGGAGACCGAGAT
TTCGCAGAGCGCTCAAGAATCGTCCGATATCCATTCAAGGAGCATTGAGG
CAGATCAGAAGATCGCAACATTGACCTTTGAGCTTAGGGAGAGTAAAGAG
GCTCTGAAATCTGTTGAGGAAGGGGTTGCCAAGTCTCAGAACGAGAATGA
ATCTTTGAAAGAGAGCGCTGAGGATCTTGAGAGAGAACTTCAAAATTTGA
ATACCGAGATCTCGAACACGCGCCGCCAAATCACCACCTTGGAGGAGGAA
AAGTCACAGCTGGGGACTGCTATTGAGAGGCATCGAAAAGACGCTGACGA
GGCGATCAGTCGCAGGGATGAGTTAGAGAGCAAGTGTGCGGAACTCTCTG
ATACCATCTCATCTCTCGAGTTTGAACGGGAGAACTCTGAGTCAAACACC
AAGGGCTTGGAAAACGAGCTGTTTAGTGCCAATGAGAAGGCTACTGAGCT
CCAAAAGGCGCTTGAGGAATCTGCGGGTCAGGTGGCGAAGTTGCAGACAG
AACTGCGATCAACGGAATCAGCTGCGCAAGATGGGGAACAAACGCGGATT
TCAATGCAAGGGGTTATCATTGAGAGGGGCAAGCTTATTGAACAACTGAA
GGACACTGTACGCGAGCATGAGAATTCCGTTGCGAGCCTACAGGAAGACA
TGGATAAGATTTCTGCTGAGCTGGAGAAGGAGAAAGATGGTGCAGCATGT
TTGGCTTCTCAGCTCGAAGGCCTCTCAGCGGCAAAAGAAGAGCTGCACAG
AACTGAAGACGATCTGAGACGGACTCTTGAGCGCTCTCAGAATGAAGTTG
AGCAGGCCAAGGAGCAAGTGGAGGAACTAGAACAGGGGAAATTGGCTCTC
TGTGAGACTATTGAAGACCTTCGGGAAAGGTTGGCAACGGAAGCCCGAGA
GAAAGATGTGGCTATGTCTTCTGTGAAAGAGGCTCTTGCCAAACTGGAAG
AAAAAGGTGCTGTCGAGAAAGATCTTGGCGACAAATTGCAAGCAAGGGAA
CTGATGTTATCGGAGCTTTCCACCAGGTGCGACGAAGCTGGCTCTGAAGT
GCGGAAACTCTCCAACGTTATAGAGGAAAAGTCTCGGGATTTGGAAACTG
TCTCAAATGAGCGACAAGGTGTTCTTCAGCGAATGTCAGAACTTGAAGCA
GAGAGAGAGGCTGAGGTGGCTCGAAGTATAGAAGAAGTGCAAACTCTCCA
AAGTGAGAAGGGCCAACTCTTGGAAGAGCTAGACGCCATCAAGCAGAAAC
TGGAAGAGTTAGAAGCTGAAGCTTCTAACACAGAGGTTCGTCACGTGGAA
GAGGTCGCCCAAGTAACTGAATCGCTTTCGCGCAAGCAAGACGAGATAAC
GTCCGTGGCTGAAGAACTTTCAAATTTGTCAAAGACTTTGGCTGAACGTG
AGGAGGAGTTGACTGCGCTGCGGGAGGACAAGGAAAAGTTGTCGACACAG
ATTGAAGAGCTTATCGAAGAGGCTGAATCGAAGGTGGATGAAATCACTGC
AGATCGTGATGATCTAGCGGCTGAACGTGACGAATTAGTGGCGACCAGAT
CGGAGCTGGAAAGACAGACAATGCAAGCTGATGAAGACAACGAAAATCTT
GCAGCTGATCTTGAGAAAGCCCGAGACAAAGCAGAAGAGGCAGAGGCGAA
GGCGAAGGATATGGAAGAAGAACTGGGACGGGTTGTGAACGAAGTCACGG
AGCTAGAATGGGCTTTGAATGAACAGACTCTCAGAGCGGACGAGGCCGAA
AGGGAGGCTGAGGGTCTTCGCACACAGGGCCGCACGATCTATGCTCAAAT
TGAAGAGTTTGGTGAAGAGGCGGAGAAGAAGATTGTCGAAGCTGAGAATG
AAGTGCAAGCGAAAGTTGAAGAAATCTTAGTTCTTGAATCTCGAATCGTC
GATATGGGAGAGGAAGTAAAATGTGCCAAGGATCAAGCTTCAGAATTGAA
CTCTCAGATTGCCAGCCTGCAGAGTGAGCAGGGGCGTCTTGCCGTCGACA
AAGAGACGGCTGAGCGAAGACTCGAAATGGCCCGGTCTGATGCGCAATTC
CAGGGAGAGCGATTATCTAGCCTTGAGTCTCAGAACCGTGAGCTGAACTC
CGCACTTGACTCGGCGAAGAGCAAAGCAAGACAAGTTGAGGAAAGTTTGA
TAAGATACGAGAGCCGGGCTGGCGAAGATCGACAGAAAGTGAATGATCTT
CAGGACCAGGTGGACAGGCTGCGAAGTATTGAAGGCCAATATGCGGGCAC
ACAGATGGAAGTCGCACGGCTGAAATCTCAACTAGATGAAGCGACAACAG
TGAAGACGAGATTGCTTATTGAGAAGGAAGGCTTGGTTGAGAAGTTGCGA
GCTGCGGAAGAGCGATTCAATTCCGAAAAGCGCTCGCTGCTGGCGGAACA
TAGGCTAGAGATGGAAGAGATTCGCAGAGGATCCGAGATTTCTTTTGAGC
CAAGAATGAGTGAGGACTTGAAACGGACCGGAGGAGGAAGCACTGTCATC
TCTACGAGTCGCGGTCCGGCACGGATGCAGGACGATAACCAGAAGTTGAA
AAACAATGTGGTGGTTGCGGTGGTGGGCGGAGTGAGCTTGTTTGCACTGA
AGTTGCTGGCAAAAATCACGGAAGGGAAGAAACGCTGA back to topprotein sequence of Gcaud2588.t1 >Gcaud2588.t1 ID=Gcaud2588.t1|Name=Gcaud2588.t1|organism=Gracilaria caudata M_176_S67 male|type=polypeptide|length=1596bp
MSTGASGLLRSFRRHRHERASSTRKVTPKKRTSNEQLSTSSTLSYATDEH
DDSPDKRGRSLSASAIAHDTYTPVSQPSPWQDGGTMSTDVSDSFKRAFQQ
MATEREALKAQVQSLSTAAEEPDRLRELSDKLKDQLEDANAALKKEKQRA
DVSANAVRSLQNSLADIKSELSAKTSQITKLNKELENGDQKSIKELMQRE
KAAESAMLRKSREITELKSQLHTIESKLKNALNDSVGFQKSADKAAKQVQ
KLQDALRQEHLKLSNKTSQLERAETLASDRLAELGNANEQLNKLQQDNAR
VQREVLALEKGLQSAKGEGSDAAAKVSELERQLCLRTEEVKAAEKSAQAA
QQCVDEAEQRATSLERQLEESKKAALEAEENGKQIAHKLSQSSDDKVLDM
KRELDRLTKQLEREQISYEAEKERMESAKVDEVTQLQDKVEQARSEYADA
KCSWSKERRELTIQLEQAQNSLAAKTREVKSLTTKVEASQQDVEDAQWHL
ERSQSKIADLKQATKQAEEQLTKEIMEMRGMQIEQQASTREAERRARLAE
SSTEDFKAEVETLAQKLAASGREVMESKGVVNKMRFDIDDKLKSIESLVT
EKEKLCMEISSLRKDFQDAESELREVEEERHGLVYKLRSLEKDLEASRKD
AAKADELCKELTEQSSRLSRDLEQQNATLAEQEDELKNLRIEAQNSQKLK
MLVEEHEATIGQMETEISQSAQESSDIHSRSIEADQKIATLTFELRESKE
ALKSVEEGVAKSQNENESLKESAEDLERELQNLNTEISNTRRQITTLEEE
KSQLGTAIERHRKDADEAISRRDELESKCAELSDTISSLEFERENSESNT
KGLENELFSANEKATELQKALEESAGQVAKLQTELRSTESAAQDGEQTRI
SMQGVIIERGKLIEQLKDTVREHENSVASLQEDMDKISAELEKEKDGAAC
LASQLEGLSAAKEELHRTEDDLRRTLERSQNEVEQAKEQVEELEQGKLAL
CETIEDLRERLATEAREKDVAMSSVKEALAKLEEKGAVEKDLGDKLQARE
LMLSELSTRCDEAGSEVRKLSNVIEEKSRDLETVSNERQGVLQRMSELEA
EREAEVARSIEEVQTLQSEKGQLLEELDAIKQKLEELEAEASNTEVRHVE
EVAQVTESLSRKQDEITSVAEELSNLSKTLAEREEELTALREDKEKLSTQ
IEELIEEAESKVDEITADRDDLAAERDELVATRSELERQTMQADEDNENL
AADLEKARDKAEEAEAKAKDMEEELGRVVNEVTELEWALNEQTLRADEAE
REAEGLRTQGRTIYAQIEEFGEEAEKKIVEAENEVQAKVEEILVLESRIV
DMGEEVKCAKDQASELNSQIASLQSEQGRLAVDKETAERRLEMARSDAQF
QGERLSSLESQNRELNSALDSAKSKARQVEESLIRYESRAGEDRQKVNDL
QDQVDRLRSIEGQYAGTQMEVARLKSQLDEATTVKTRLLIEKEGLVEKLR
AAEERFNSEKRSLLAEHRLEMEEIRRGSEISFEPRMSEDLKRTGGGSTVI
STSRGPARMQDDNQKLKNNVVVAVVGGVSLFALKLLAKITEGKKR* back to topmRNA from alignment at NODE_53_length_63756_cov_4.464180:10127..14914- Legend: polypeptideCDSexonstart_codonstop_codon Hold the cursor over a type above to highlight its positions in the sequence below. >Gcaud2588.t1 ID=Gcaud2588.t1|Name=Gcaud2588.t1|organism=Gracilaria caudata M_176_S67 male|type=mRNA|length=4788bp|location=Sequence derived from alignment at NODE_53_length_63756_cov_4.464180:10127..14914- (Gracilaria caudata M_176_S67 male)
ATGTCGACGGGCGCATCGGGCTTGCTGAGGTCGTTTCGACGACATCGCCA
CGAGCGTGCTTCTTCGACGCGCAAAGTGACGCCGAAGAAGCGAACGTCTA
ACGAACAGCTTTCCACATCTTCCACGCTTTCATACGCTACTGATGAGCAT
GACGACTCGCCGGACAAACGCGGACGCTCTCTCTCTGCTTCTGCGATAGC
GCACGACACCTACACCCCAGTCTCGCAGCCGTCTCCGTGGCAAGACGGCG
GGACTATGTCCACCGACGTGTCCGACTCTTTCAAACGCGCCTTTCAGCAG
ATGGCCACGGAGCGCGAGGCGCTAAAAGCGCAGGTTCAATCGCTTAGCAC
CGCTGCTGAGGAGCCTGACCGGCTACGGGAGCTCTCTGACAAGCTCAAAG
ACCAACTCGAAGACGCTAATGCCGCGTTGAAGAAAGAGAAACAACGTGCC
GATGTCTCTGCCAATGCAGTGCGCTCGCTTCAAAATTCGCTCGCCGATAT
CAAGTCCGAATTGTCCGCAAAGACTTCCCAGATTACAAAGCTTAATAAGG
AGCTCGAAAATGGAGATCAGAAGAGTATTAAGGAGCTCATGCAGCGAGAG
AAGGCCGCTGAGAGTGCAATGTTACGAAAAAGTCGCGAGATTACCGAGCT
CAAGTCTCAACTGCACACCATTGAAAGCAAACTGAAAAACGCTTTGAATG
ACTCTGTTGGCTTTCAAAAGTCTGCTGATAAGGCCGCAAAGCAGGTGCAG
AAGTTGCAGGATGCACTTCGGCAGGAACATCTTAAGCTGTCCAATAAGAC
CTCTCAGCTCGAACGCGCGGAAACTCTTGCTTCGGACAGGCTTGCGGAGT
TGGGCAACGCGAACGAGCAATTGAACAAGCTTCAACAAGATAATGCCCGC
GTTCAGCGCGAGGTGCTCGCGCTGGAGAAAGGGTTGCAGAGCGCCAAGGG
AGAAGGAAGTGATGCTGCTGCCAAAGTTTCTGAACTTGAGCGTCAACTCT
GTCTACGTACGGAGGAAGTCAAGGCTGCTGAGAAGTCTGCACAAGCTGCA
CAGCAGTGCGTTGATGAGGCTGAACAGCGTGCCACGTCTTTAGAACGTCA
ATTGGAGGAGTCGAAAAAGGCTGCACTTGAGGCTGAGGAAAACGGAAAGC
AGATTGCTCACAAGTTATCCCAGTCTTCTGATGATAAGGTTTTAGACATG
AAGCGTGAGCTCGATAGACTCACCAAACAGCTTGAACGCGAGCAAATTTC
GTATGAAGCCGAGAAGGAACGTATGGAATCTGCTAAAGTGGACGAGGTCA
CTCAACTGCAGGACAAAGTGGAACAAGCCAGATCTGAATATGCGGATGCA
AAATGTTCATGGAGTAAGGAACGACGCGAACTCACCATTCAACTTGAGCA
AGCGCAGAACTCATTAGCAGCAAAGACGAGGGAGGTCAAGAGCTTGACTA
CCAAGGTTGAGGCTAGTCAACAGGACGTTGAGGATGCCCAGTGGCACCTT
GAACGTTCACAGTCGAAGATTGCGGACTTGAAACAGGCTACGAAGCAGGC
GGAAGAGCAGCTCACCAAGGAAATCATGGAGATGAGGGGTATGCAGATTG
AACAGCAAGCGTCAACAAGGGAAGCCGAACGTCGAGCTCGCTTAGCTGAG
TCTTCCACCGAAGACTTCAAGGCTGAGGTCGAAACTTTGGCTCAAAAGCT
CGCTGCGTCAGGCCGGGAGGTAATGGAGTCAAAGGGGGTCGTAAACAAGA
TGCGGTTCGATATCGATGACAAGCTGAAAAGCATAGAATCACTCGTAACG
GAAAAAGAGAAGCTTTGTATGGAAATTTCGTCTTTGCGAAAAGACTTTCA
AGACGCTGAAAGTGAGCTACGTGAAGTTGAGGAAGAGCGCCATGGGCTGG
TATACAAACTCCGCAGTCTAGAAAAGGACCTGGAAGCATCGAGGAAGGAC
GCTGCTAAGGCTGATGAGCTATGCAAGGAGTTGACGGAGCAGTCATCCAG
GTTATCTCGTGATCTTGAACAACAAAATGCTACTCTTGCTGAGCAAGAAG
ACGAACTGAAGAACCTCAGAATTGAAGCGCAGAACTCACAAAAGCTCAAG
ATGCTTGTGGAGGAGCATGAGGCAACTATAGGGCAAATGGAGACCGAGAT
TTCGCAGAGCGCTCAAGAATCGTCCGATATCCATTCAAGGAGCATTGAGG
CAGATCAGAAGATCGCAACATTGACCTTTGAGCTTAGGGAGAGTAAAGAG
GCTCTGAAATCTGTTGAGGAAGGGGTTGCCAAGTCTCAGAACGAGAATGA
ATCTTTGAAAGAGAGCGCTGAGGATCTTGAGAGAGAACTTCAAAATTTGA
ATACCGAGATCTCGAACACGCGCCGCCAAATCACCACCTTGGAGGAGGAA
AAGTCACAGCTGGGGACTGCTATTGAGAGGCATCGAAAAGACGCTGACGA
GGCGATCAGTCGCAGGGATGAGTTAGAGAGCAAGTGTGCGGAACTCTCTG
ATACCATCTCATCTCTCGAGTTTGAACGGGAGAACTCTGAGTCAAACACC
AAGGGCTTGGAAAACGAGCTGTTTAGTGCCAATGAGAAGGCTACTGAGCT
CCAAAAGGCGCTTGAGGAATCTGCGGGTCAGGTGGCGAAGTTGCAGACAG
AACTGCGATCAACGGAATCAGCTGCGCAAGATGGGGAACAAACGCGGATT
TCAATGCAAGGGGTTATCATTGAGAGGGGCAAGCTTATTGAACAACTGAA
GGACACTGTACGCGAGCATGAGAATTCCGTTGCGAGCCTACAGGAAGACA
TGGATAAGATTTCTGCTGAGCTGGAGAAGGAGAAAGATGGTGCAGCATGT
TTGGCTTCTCAGCTCGAAGGCCTCTCAGCGGCAAAAGAAGAGCTGCACAG
AACTGAAGACGATCTGAGACGGACTCTTGAGCGCTCTCAGAATGAAGTTG
AGCAGGCCAAGGAGCAAGTGGAGGAACTAGAACAGGGGAAATTGGCTCTC
TGTGAGACTATTGAAGACCTTCGGGAAAGGTTGGCAACGGAAGCCCGAGA
GAAAGATGTGGCTATGTCTTCTGTGAAAGAGGCTCTTGCCAAACTGGAAG
AAAAAGGTGCTGTCGAGAAAGATCTTGGCGACAAATTGCAAGCAAGGGAA
CTGATGTTATCGGAGCTTTCCACCAGGTGCGACGAAGCTGGCTCTGAAGT
GCGGAAACTCTCCAACGTTATAGAGGAAAAGTCTCGGGATTTGGAAACTG
TCTCAAATGAGCGACAAGGTGTTCTTCAGCGAATGTCAGAACTTGAAGCA
GAGAGAGAGGCTGAGGTGGCTCGAAGTATAGAAGAAGTGCAAACTCTCCA
AAGTGAGAAGGGCCAACTCTTGGAAGAGCTAGACGCCATCAAGCAGAAAC
TGGAAGAGTTAGAAGCTGAAGCTTCTAACACAGAGGTTCGTCACGTGGAA
GAGGTCGCCCAAGTAACTGAATCGCTTTCGCGCAAGCAAGACGAGATAAC
GTCCGTGGCTGAAGAACTTTCAAATTTGTCAAAGACTTTGGCTGAACGTG
AGGAGGAGTTGACTGCGCTGCGGGAGGACAAGGAAAAGTTGTCGACACAG
ATTGAAGAGCTTATCGAAGAGGCTGAATCGAAGGTGGATGAAATCACTGC
AGATCGTGATGATCTAGCGGCTGAACGTGACGAATTAGTGGCGACCAGAT
CGGAGCTGGAAAGACAGACAATGCAAGCTGATGAAGACAACGAAAATCTT
GCAGCTGATCTTGAGAAAGCCCGAGACAAAGCAGAAGAGGCAGAGGCGAA
GGCGAAGGATATGGAAGAAGAACTGGGACGGGTTGTGAACGAAGTCACGG
AGCTAGAATGGGCTTTGAATGAACAGACTCTCAGAGCGGACGAGGCCGAA
AGGGAGGCTGAGGGTCTTCGCACACAGGGCCGCACGATCTATGCTCAAAT
TGAAGAGTTTGGTGAAGAGGCGGAGAAGAAGATTGTCGAAGCTGAGAATG
AAGTGCAAGCGAAAGTTGAAGAAATCTTAGTTCTTGAATCTCGAATCGTC
GATATGGGAGAGGAAGTAAAATGTGCCAAGGATCAAGCTTCAGAATTGAA
CTCTCAGATTGCCAGCCTGCAGAGTGAGCAGGGGCGTCTTGCCGTCGACA
AAGAGACGGCTGAGCGAAGACTCGAAATGGCCCGGTCTGATGCGCAATTC
CAGGGAGAGCGATTATCTAGCCTTGAGTCTCAGAACCGTGAGCTGAACTC
CGCACTTGACTCGGCGAAGAGCAAAGCAAGACAAGTTGAGGAAAGTTTGA
TAAGATACGAGAGCCGGGCTGGCGAAGATCGACAGAAAGTGAATGATCTT
CAGGACCAGGTGGACAGGCTGCGAAGTATTGAAGGCCAATATGCGGGCAC
ACAGATGGAAGTCGCACGGCTGAAATCTCAACTAGATGAAGCGACAACAG
TGAAGACGAGATTGCTTATTGAGAAGGAAGGCTTGGTTGAGAAGTTGCGA
GCTGCGGAAGAGCGATTCAATTCCGAAAAGCGCTCGCTGCTGGCGGAACA
TAGGCTAGAGATGGAAGAGATTCGCAGAGGATCCGAGATTTCTTTTGAGC
CAAGAATGAGTGAGGACTTGAAACGGACCGGAGGAGGAAGCACTGTCATC
TCTACGAGTCGCGGTCCGGCACGGATGCAGGACGATAACCAGAAGTTGAA
AAACAATGTGGTGGTTGCGGTGGTGGGCGGAGTGAGCTTGTTTGCACTGA
AGTTGCTGGCAAAAATCACGGAAGGGAAGAAACGCTGA back to topCoding sequence (CDS) from alignment at NODE_53_length_63756_cov_4.464180:10127..14914- >Gcaud2588.t1 ID=Gcaud2588.t1|Name=Gcaud2588.t1|organism=Gracilaria caudata M_176_S67 male|type=CDS|length=4788bp|location=Sequence derived from alignment at NODE_53_length_63756_cov_4.464180:10127..14914- (Gracilaria caudata M_176_S67 male)
ATGTCGACGGGCGCATCGGGCTTGCTGAGGTCGTTTCGACGACATCGCCA
CGAGCGTGCTTCTTCGACGCGCAAAGTGACGCCGAAGAAGCGAACGTCTA
ACGAACAGCTTTCCACATCTTCCACGCTTTCATACGCTACTGATGAGCAT
GACGACTCGCCGGACAAACGCGGACGCTCTCTCTCTGCTTCTGCGATAGC
GCACGACACCTACACCCCAGTCTCGCAGCCGTCTCCGTGGCAAGACGGCG
GGACTATGTCCACCGACGTGTCCGACTCTTTCAAACGCGCCTTTCAGCAG
ATGGCCACGGAGCGCGAGGCGCTAAAAGCGCAGGTTCAATCGCTTAGCAC
CGCTGCTGAGGAGCCTGACCGGCTACGGGAGCTCTCTGACAAGCTCAAAG
ACCAACTCGAAGACGCTAATGCCGCGTTGAAGAAAGAGAAACAACGTGCC
GATGTCTCTGCCAATGCAGTGCGCTCGCTTCAAAATTCGCTCGCCGATAT
CAAGTCCGAATTGTCCGCAAAGACTTCCCAGATTACAAAGCTTAATAAGG
AGCTCGAAAATGGAGATCAGAAGAGTATTAAGGAGCTCATGCAGCGAGAG
AAGGCCGCTGAGAGTGCAATGTTACGAAAAAGTCGCGAGATTACCGAGCT
CAAGTCTCAACTGCACACCATTGAAAGCAAACTGAAAAACGCTTTGAATG
ACTCTGTTGGCTTTCAAAAGTCTGCTGATAAGGCCGCAAAGCAGGTGCAG
AAGTTGCAGGATGCACTTCGGCAGGAACATCTTAAGCTGTCCAATAAGAC
CTCTCAGCTCGAACGCGCGGAAACTCTTGCTTCGGACAGGCTTGCGGAGT
TGGGCAACGCGAACGAGCAATTGAACAAGCTTCAACAAGATAATGCCCGC
GTTCAGCGCGAGGTGCTCGCGCTGGAGAAAGGGTTGCAGAGCGCCAAGGG
AGAAGGAAGTGATGCTGCTGCCAAAGTTTCTGAACTTGAGCGTCAACTCT
GTCTACGTACGGAGGAAGTCAAGGCTGCTGAGAAGTCTGCACAAGCTGCA
CAGCAGTGCGTTGATGAGGCTGAACAGCGTGCCACGTCTTTAGAACGTCA
ATTGGAGGAGTCGAAAAAGGCTGCACTTGAGGCTGAGGAAAACGGAAAGC
AGATTGCTCACAAGTTATCCCAGTCTTCTGATGATAAGGTTTTAGACATG
AAGCGTGAGCTCGATAGACTCACCAAACAGCTTGAACGCGAGCAAATTTC
GTATGAAGCCGAGAAGGAACGTATGGAATCTGCTAAAGTGGACGAGGTCA
CTCAACTGCAGGACAAAGTGGAACAAGCCAGATCTGAATATGCGGATGCA
AAATGTTCATGGAGTAAGGAACGACGCGAACTCACCATTCAACTTGAGCA
AGCGCAGAACTCATTAGCAGCAAAGACGAGGGAGGTCAAGAGCTTGACTA
CCAAGGTTGAGGCTAGTCAACAGGACGTTGAGGATGCCCAGTGGCACCTT
GAACGTTCACAGTCGAAGATTGCGGACTTGAAACAGGCTACGAAGCAGGC
GGAAGAGCAGCTCACCAAGGAAATCATGGAGATGAGGGGTATGCAGATTG
AACAGCAAGCGTCAACAAGGGAAGCCGAACGTCGAGCTCGCTTAGCTGAG
TCTTCCACCGAAGACTTCAAGGCTGAGGTCGAAACTTTGGCTCAAAAGCT
CGCTGCGTCAGGCCGGGAGGTAATGGAGTCAAAGGGGGTCGTAAACAAGA
TGCGGTTCGATATCGATGACAAGCTGAAAAGCATAGAATCACTCGTAACG
GAAAAAGAGAAGCTTTGTATGGAAATTTCGTCTTTGCGAAAAGACTTTCA
AGACGCTGAAAGTGAGCTACGTGAAGTTGAGGAAGAGCGCCATGGGCTGG
TATACAAACTCCGCAGTCTAGAAAAGGACCTGGAAGCATCGAGGAAGGAC
GCTGCTAAGGCTGATGAGCTATGCAAGGAGTTGACGGAGCAGTCATCCAG
GTTATCTCGTGATCTTGAACAACAAAATGCTACTCTTGCTGAGCAAGAAG
ACGAACTGAAGAACCTCAGAATTGAAGCGCAGAACTCACAAAAGCTCAAG
ATGCTTGTGGAGGAGCATGAGGCAACTATAGGGCAAATGGAGACCGAGAT
TTCGCAGAGCGCTCAAGAATCGTCCGATATCCATTCAAGGAGCATTGAGG
CAGATCAGAAGATCGCAACATTGACCTTTGAGCTTAGGGAGAGTAAAGAG
GCTCTGAAATCTGTTGAGGAAGGGGTTGCCAAGTCTCAGAACGAGAATGA
ATCTTTGAAAGAGAGCGCTGAGGATCTTGAGAGAGAACTTCAAAATTTGA
ATACCGAGATCTCGAACACGCGCCGCCAAATCACCACCTTGGAGGAGGAA
AAGTCACAGCTGGGGACTGCTATTGAGAGGCATCGAAAAGACGCTGACGA
GGCGATCAGTCGCAGGGATGAGTTAGAGAGCAAGTGTGCGGAACTCTCTG
ATACCATCTCATCTCTCGAGTTTGAACGGGAGAACTCTGAGTCAAACACC
AAGGGCTTGGAAAACGAGCTGTTTAGTGCCAATGAGAAGGCTACTGAGCT
CCAAAAGGCGCTTGAGGAATCTGCGGGTCAGGTGGCGAAGTTGCAGACAG
AACTGCGATCAACGGAATCAGCTGCGCAAGATGGGGAACAAACGCGGATT
TCAATGCAAGGGGTTATCATTGAGAGGGGCAAGCTTATTGAACAACTGAA
GGACACTGTACGCGAGCATGAGAATTCCGTTGCGAGCCTACAGGAAGACA
TGGATAAGATTTCTGCTGAGCTGGAGAAGGAGAAAGATGGTGCAGCATGT
TTGGCTTCTCAGCTCGAAGGCCTCTCAGCGGCAAAAGAAGAGCTGCACAG
AACTGAAGACGATCTGAGACGGACTCTTGAGCGCTCTCAGAATGAAGTTG
AGCAGGCCAAGGAGCAAGTGGAGGAACTAGAACAGGGGAAATTGGCTCTC
TGTGAGACTATTGAAGACCTTCGGGAAAGGTTGGCAACGGAAGCCCGAGA
GAAAGATGTGGCTATGTCTTCTGTGAAAGAGGCTCTTGCCAAACTGGAAG
AAAAAGGTGCTGTCGAGAAAGATCTTGGCGACAAATTGCAAGCAAGGGAA
CTGATGTTATCGGAGCTTTCCACCAGGTGCGACGAAGCTGGCTCTGAAGT
GCGGAAACTCTCCAACGTTATAGAGGAAAAGTCTCGGGATTTGGAAACTG
TCTCAAATGAGCGACAAGGTGTTCTTCAGCGAATGTCAGAACTTGAAGCA
GAGAGAGAGGCTGAGGTGGCTCGAAGTATAGAAGAAGTGCAAACTCTCCA
AAGTGAGAAGGGCCAACTCTTGGAAGAGCTAGACGCCATCAAGCAGAAAC
TGGAAGAGTTAGAAGCTGAAGCTTCTAACACAGAGGTTCGTCACGTGGAA
GAGGTCGCCCAAGTAACTGAATCGCTTTCGCGCAAGCAAGACGAGATAAC
GTCCGTGGCTGAAGAACTTTCAAATTTGTCAAAGACTTTGGCTGAACGTG
AGGAGGAGTTGACTGCGCTGCGGGAGGACAAGGAAAAGTTGTCGACACAG
ATTGAAGAGCTTATCGAAGAGGCTGAATCGAAGGTGGATGAAATCACTGC
AGATCGTGATGATCTAGCGGCTGAACGTGACGAATTAGTGGCGACCAGAT
CGGAGCTGGAAAGACAGACAATGCAAGCTGATGAAGACAACGAAAATCTT
GCAGCTGATCTTGAGAAAGCCCGAGACAAAGCAGAAGAGGCAGAGGCGAA
GGCGAAGGATATGGAAGAAGAACTGGGACGGGTTGTGAACGAAGTCACGG
AGCTAGAATGGGCTTTGAATGAACAGACTCTCAGAGCGGACGAGGCCGAA
AGGGAGGCTGAGGGTCTTCGCACACAGGGCCGCACGATCTATGCTCAAAT
TGAAGAGTTTGGTGAAGAGGCGGAGAAGAAGATTGTCGAAGCTGAGAATG
AAGTGCAAGCGAAAGTTGAAGAAATCTTAGTTCTTGAATCTCGAATCGTC
GATATGGGAGAGGAAGTAAAATGTGCCAAGGATCAAGCTTCAGAATTGAA
CTCTCAGATTGCCAGCCTGCAGAGTGAGCAGGGGCGTCTTGCCGTCGACA
AAGAGACGGCTGAGCGAAGACTCGAAATGGCCCGGTCTGATGCGCAATTC
CAGGGAGAGCGATTATCTAGCCTTGAGTCTCAGAACCGTGAGCTGAACTC
CGCACTTGACTCGGCGAAGAGCAAAGCAAGACAAGTTGAGGAAAGTTTGA
TAAGATACGAGAGCCGGGCTGGCGAAGATCGACAGAAAGTGAATGATCTT
CAGGACCAGGTGGACAGGCTGCGAAGTATTGAAGGCCAATATGCGGGCAC
ACAGATGGAAGTCGCACGGCTGAAATCTCAACTAGATGAAGCGACAACAG
TGAAGACGAGATTGCTTATTGAGAAGGAAGGCTTGGTTGAGAAGTTGCGA
GCTGCGGAAGAGCGATTCAATTCCGAAAAGCGCTCGCTGCTGGCGGAACA
TAGGCTAGAGATGGAAGAGATTCGCAGAGGATCCGAGATTTCTTTTGAGC
CAAGAATGAGTGAGGACTTGAAACGGACCGGAGGAGGAAGCACTGTCATC
TCTACGAGTCGCGGTCCGGCACGGATGCAGGACGATAACCAGAAGTTGAA
AAACAATGTGGTGGTTGCGGTGGTGGGCGGAGTGAGCTTGTTTGCACTGA
AGTTGCTGGCAAAAATCACGGAAGGGAAGAAACGCTGA back to top
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