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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 start_codon feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| Gcaud2243.t1.start1 | Gcaud2243.t1.start1 | Gracilaria caudata M_176_S67 male | start_codon | NODE_1427_length_10755_cov_3.958177 104..106 + |
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
The following stop_codon feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| Gcaud2243.t1.stop1 | Gcaud2243.t1.stop1 | Gracilaria caudata M_176_S67 male | stop_codon | NODE_1427_length_10755_cov_3.958177 5219..5221 + |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
mRNA sequence >Gcaud2243.t1 ID=Gcaud2243.t1|Name=Gcaud2243.t1|organism=Gracilaria caudata M_176_S67 male|type=mRNA|length=1706bp
MATPATQPRLTETASMILSWLRTAVPRILQNAGHPVARRKKEQPVHALVT
VLQDAVVLADIVSYLDPMRIPPAAVMRSTGRGVMSSPLPVSSTEPISNID
ARQLHVQYKNNTRRVVDAVKKLLPDVRRHALVQQHPPAGAVDTYVGNVAE
IPPSKDVWPAVHLAELVIACAVYGPRHNEFRHSLWRFPTEIVRTTFHASM
ASVARAVCLPPPEVLYKAGPPPSPAVMSPHALPPPMSHYSPQLSPLMRNP
VSPGLSASPSHMHSPVYIGTPQPINTAHAPHASTTPHSMSPAPYHGYSPR
TPVHGPPFSPQQYATPQYAPAPMTIPPTSHGAAPVPKTEKKKSSKKSAEK
QKSGSSSASRARSPAKTSEGLVGIAERSVPDAPTSALDATALQISTEEGI
GGRKFSLVTEDSGSRSREISPLPDFTGTFQKVQSRTDTSELDDFRNMSAV
TEQGVLIGVTDSSKSASRGNQPGAVDDTRDSEMQSGKSSDDFFTPNESMS
ESESHKQSTASHEFFVTSVASGGPPEPSAFFSESKVDEVVRKSVSTSFAE
QISRPDVYAQNTSSGSMERDGVSEDDARLNREAAQGSSLDFTNPAFSLSP
SFSDAPSPSNQWQVPRSKVMGQDILSPQTLFSPPQMPKRLVRGTTGGHVA
PRPAPKLFRSGTSSPQLSISSAGTRSNGDHERGSSNFSQRVAVESSKNEA
RPSRRSDNSSISQPFAAVEGHPRAGAGVRISSGKSSSSFSLPPSASESSD
RRPQGSVGSSPVPALVEDSQPLEPVGVDDSFLGRDPMATPQSVLLEPLGE
DDDISAIEEALSDRAIFQRVEEVLVKTSDYRASQDPLSTNSVSNAADAFS
GIESPGKRAGSAGLTEPTERTNDMREIRQGSRASSAKQSPVPSPKTRSEM
AGPSASRPPAGQTKAAKVRPSTGGSVASSTLATPEIKPSAALPPLGPDAS
SPAIRPSSRKPPMYSTPIMSTERRRAVPPTPPSPPSIETLIKKFSDQTPP
PEPVDYGHRPISTMEPSAGLFQKLISVWQSSDEESRDQGSVRSNILDGGL
TPRSAVLQPSGSGSHESTLPSGDTELALGRGSASIDSSRSRRPRAVRLPD
KSLQVASESMLSPDEEIHSKLQELHEGASMSSYGDMFPEEKDRDLMAGTR
VGEQRDEQVGTSRGDISGRPSSDDAARMNTISTTRDDSESATQDMRMATN
QNSSAQSSQLQSGKTAIDTDGHHVRVDKRRLDWLTRELLAARDAISRKEL
QMTFAETQRLEQQEILLLEKQDAESVVEAMKRILAEREQELKDARNRLST
TIQNVSTQDRSSLASKTSMGGADESLGQLIREGHAKLHTRIEEAESKQLQ
TTNLFSNEMQNLWSEVQKAMLEKMVEMTEKRDMELELLRKELESREKQVQ
DLQTTSSQLVQRNRECEAEASEMRLETLKATHRYELEMSHVTAQVELVNE
FSKKLHDNFRETENLRQQVLHYQEKLSHITNTTGVSQRQIKELREAVTRA
NDECARLRREADLAKKKGWEAIRRAEELEDLRIKDEAAQVAGRYPERRDG
SESGSYRSHEPARSPRNRAGGVGGRYHGMTRTRGVAGSPTPAQKAWLVIK
DKIGGIVANKDMGASRRRGHPYPPRRDPSRTGTVSQTSQTRSRNSNRDDD
IISRSTRSRSSNGSGGTPRSNIRRMSPSPSAGSNPYMHSSPHSRGEGQSV
RAAGF* back to topspliced messenger RNA >Gcaud2243.t1 ID=Gcaud2243.t1|Name=Gcaud2243.t1|organism=Gracilaria caudata M_176_S67 male|type=mRNA|length=5118bp|location=Sequence derived from alignment at NODE_1427_length_10755_cov_3.958177:104..5221+ (Gracilaria caudata M_176_S67 male)|Notes=Excludes all bases but those of type(s): exon.
ATGGCGACGCCGGCCACGCAGCCGCGTCTCACCGAGACCGCGTCCATGAT
TTTGTCTTGGTTACGAACCGCTGTGCCCAGAATCTTGCAAAACGCTGGTC
ACCCCGTAGCTCGAAGGAAGAAGGAACAGCCGGTGCACGCCCTTGTCACC
GTTCTACAGGATGCCGTCGTGCTTGCTGACATCGTTTCCTACCTAGATCC
TATGCGCATCCCGCCCGCCGCTGTCATGCGTTCAACCGGCCGAGGCGTCA
TGTCTTCTCCGCTCCCCGTTTCTTCCACCGAACCGATTTCCAACATCGAC
GCTCGCCAGCTCCACGTTCAGTACAAGAACAACACTCGCCGCGTTGTCGA
CGCCGTCAAGAAGCTACTCCCCGACGTACGCCGACATGCTCTCGTTCAAC
AACACCCGCCTGCCGGCGCGGTAGATACTTACGTTGGGAACGTTGCCGAG
ATTCCGCCTTCCAAAGATGTGTGGCCGGCTGTGCATCTGGCCGAACTCGT
GATTGCCTGTGCCGTGTACGGTCCGCGCCACAACGAGTTCCGTCATTCTC
TTTGGAGATTCCCAACCGAAATCGTGCGCACTACCTTCCATGCTTCCATG
GCATCTGTTGCGCGCGCCGTTTGCCTTCCTCCCCCCGAAGTTTTGTACAA
GGCCGGTCCCCCGCCTTCCCCCGCCGTCATGTCTCCTCACGCTCTCCCAC
CCCCGATGTCGCACTACAGTCCTCAGCTCAGCCCACTCATGCGCAATCCG
GTGTCTCCTGGTCTGAGCGCTTCACCTAGTCACATGCATTCCCCTGTCTA
TATTGGAACACCGCAGCCGATCAACACGGCTCATGCTCCACACGCGTCAA
CCACTCCACACAGCATGAGCCCAGCTCCATATCATGGCTATTCACCACGG
ACCCCGGTCCACGGCCCACCGTTCAGTCCTCAGCAGTATGCTACCCCGCA
GTACGCGCCAGCACCTATGACTATCCCTCCTACTTCGCACGGGGCTGCAC
CAGTTCCCAAGACCGAGAAAAAGAAAAGTTCCAAGAAGTCAGCCGAAAAA
CAGAAGTCAGGGAGTAGCAGTGCATCCCGTGCTAGAAGCCCAGCTAAGAC
CTCGGAAGGACTTGTTGGGATTGCGGAAAGAAGTGTTCCAGACGCTCCTA
CTTCCGCATTGGATGCAACAGCGCTGCAGATTTCCACTGAAGAAGGCATT
GGAGGCAGAAAGTTTTCGCTCGTGACTGAGGACAGTGGCAGTCGTTCAAG
GGAGATATCACCATTACCGGACTTTACCGGCACGTTCCAAAAAGTTCAGA
GCCGGACAGACACATCCGAGTTGGACGACTTCCGGAACATGTCGGCTGTC
ACCGAACAAGGAGTGCTGATTGGTGTGACAGACTCATCCAAGAGTGCGTC
ACGTGGCAATCAGCCTGGCGCCGTAGACGATACTAGAGACAGCGAGATGC
AAAGTGGCAAGTCATCTGATGACTTTTTCACACCGAACGAAAGCATGTCT
GAAAGTGAGAGCCACAAGCAATCAACAGCATCACATGAGTTTTTCGTCAC
ATCTGTTGCTTCTGGGGGACCGCCTGAACCAAGCGCGTTCTTCTCCGAAT
CGAAAGTGGACGAAGTGGTGAGGAAATCCGTCTCCACGTCTTTCGCTGAG
CAAATATCGCGCCCCGATGTATACGCACAGAATACCTCTTCTGGTTCTAT
GGAGCGTGACGGGGTGAGCGAGGACGATGCGCGTTTGAATCGGGAAGCGG
CACAAGGATCTTCTCTCGACTTCACCAATCCAGCGTTTAGCCTTAGCCCC
TCGTTCTCAGACGCTCCGTCGCCATCGAACCAGTGGCAGGTCCCACGGTC
TAAGGTTATGGGCCAAGATATTCTCTCACCTCAAACTCTATTCTCTCCTC
CTCAAATGCCAAAGAGACTCGTTCGTGGAACAACTGGAGGTCATGTCGCG
CCAAGACCAGCACCGAAATTGTTCAGGTCTGGGACTTCTTCCCCTCAGCT
TTCGATATCTTCAGCTGGGACGAGGTCGAACGGGGATCATGAAAGGGGAA
GCTCGAACTTCAGCCAACGCGTTGCTGTTGAGTCATCGAAGAATGAAGCA
AGACCATCTCGTCGTTCTGATAACTCTTCCATTTCTCAACCATTCGCTGC
AGTCGAAGGCCATCCGAGGGCTGGAGCTGGCGTTCGCATATCATCAGGAA
AGTCATCCTCAAGTTTTTCGTTGCCACCCTCTGCATCAGAGTCTTCCGAT
CGTCGTCCTCAAGGTAGCGTGGGTAGTTCCCCCGTACCCGCTCTAGTTGA
AGACTCACAACCATTAGAACCTGTTGGTGTCGATGACAGTTTTCTGGGAC
GTGATCCAATGGCAACGCCTCAGAGTGTTTTACTCGAACCTCTTGGTGAA
GATGATGACATCTCTGCCATAGAAGAGGCTTTGTCGGACAGAGCCATATT
CCAACGAGTTGAAGAGGTGCTTGTGAAGACGTCAGACTATCGTGCATCAC
AGGATCCTCTCAGCACCAACTCCGTCAGTAATGCTGCTGATGCGTTTAGT
GGAATAGAGTCACCTGGGAAGAGGGCAGGGTCGGCAGGGCTGACAGAGCC
GACAGAGCGGACAAATGACATGCGTGAGATCCGTCAAGGCAGTCGAGCAT
CAAGCGCTAAGCAATCACCGGTACCGAGCCCGAAGACACGGAGTGAAATG
GCTGGACCAAGTGCGAGCAGGCCACCAGCTGGACAGACAAAAGCGGCAAA
GGTACGACCATCAACTGGTGGCAGTGTCGCCTCGTCTACTCTGGCAACAC
CTGAGATCAAGCCCTCAGCAGCTTTACCGCCTCTAGGCCCAGACGCATCA
TCTCCAGCAATACGCCCCAGTTCTCGAAAGCCTCCCATGTATTCTACTCC
AATCATGTCGACTGAGAGGCGTAGAGCAGTACCCCCAACTCCCCCTTCAC
CACCTTCAATTGAGACCTTAATTAAGAAGTTCAGCGACCAAACTCCACCA
CCGGAACCTGTCGACTATGGACATCGTCCGATTAGTACTATGGAACCATC
TGCGGGTCTTTTCCAGAAGCTAATATCCGTATGGCAAAGCTCAGATGAAG
AGAGTCGTGATCAGGGTTCTGTTCGCTCCAACATACTGGATGGCGGATTG
ACTCCAAGATCGGCGGTGCTACAGCCGTCGGGATCAGGTTCGCATGAATC
AACTTTGCCGTCCGGTGATACGGAGCTGGCTCTTGGACGTGGCTCCGCAT
CCATAGACAGCTCAAGAAGTCGCAGACCAAGGGCGGTTAGGCTTCCGGAC
AAATCTCTTCAAGTTGCTTCAGAAAGTATGCTGTCTCCAGATGAAGAGAT
ACATTCGAAGCTTCAGGAGCTTCACGAAGGGGCATCGATGTCATCTTATG
GGGACATGTTTCCAGAGGAAAAGGACAGGGATTTGATGGCTGGAACTCGA
GTTGGCGAACAGCGCGACGAGCAAGTAGGAACTTCGAGAGGTGATATATC
AGGAAGGCCTTCATCAGATGACGCAGCTCGCATGAATACTATTTCAACTA
CTAGAGACGACTCAGAAAGTGCCACGCAGGATATGAGGATGGCAACAAAT
CAGAACTCAAGCGCGCAATCAAGTCAACTGCAATCTGGGAAAACCGCGAT
TGACACTGACGGACACCATGTGAGGGTGGACAAGCGTCGTCTGGACTGGC
TAACGCGGGAGCTGCTAGCAGCTCGTGATGCTATTTCCAGAAAAGAACTT
CAGATGACATTTGCGGAGACTCAACGTCTTGAGCAACAGGAGATTCTGCT
TCTCGAGAAACAAGATGCAGAGTCTGTTGTCGAAGCAATGAAGAGGATTC
TGGCCGAGCGAGAGCAGGAACTCAAAGACGCTCGGAACAGACTGAGCACT
ACAATTCAAAATGTTTCAACTCAAGATCGTTCATCTTTGGCTTCGAAGAC
ATCGATGGGAGGAGCTGACGAAAGCCTCGGCCAGCTCATCAGAGAAGGTC
ATGCAAAGCTACACACCCGAATAGAAGAAGCCGAGTCGAAGCAATTGCAG
ACCACTAATCTTTTCTCAAACGAGATGCAAAATCTGTGGTCTGAAGTACA
AAAGGCAATGTTAGAAAAAATGGTCGAAATGACAGAGAAGAGAGATATGG
AGCTTGAACTTCTGCGCAAGGAGCTGGAGAGCAGAGAGAAACAAGTTCAA
GATTTGCAGACGACGAGTTCTCAGCTTGTCCAGAGAAACCGAGAGTGTGA
AGCTGAGGCTTCGGAAATGAGACTTGAGACTTTGAAGGCCACTCATCGCT
ACGAACTGGAAATGTCCCATGTAACGGCGCAAGTCGAGCTTGTGAATGAG
TTCTCCAAGAAGCTTCACGACAACTTCAGAGAAACCGAAAACCTTCGCCA
GCAAGTTCTGCACTACCAGGAAAAGCTTTCCCACATCACAAATACTACGG
GGGTCAGCCAGAGGCAAATCAAAGAGCTGCGTGAGGCAGTGACTAGAGCC
AATGATGAATGTGCTAGGCTTCGGCGAGAGGCGGATTTAGCGAAAAAGAA
GGGCTGGGAAGCTATTCGGCGCGCGGAAGAACTTGAAGACCTAAGGATCA
AAGATGAAGCTGCTCAGGTTGCAGGTCGATATCCCGAACGACGTGACGGG
TCAGAGTCGGGCTCGTATAGAAGCCATGAGCCTGCTCGTTCCCCCAGAAA
CCGCGCAGGTGGTGTTGGTGGTCGTTATCATGGCATGACTAGGACAAGGG
GAGTGGCGGGCAGCCCGACGCCGGCACAGAAAGCATGGCTAGTCATTAAG
GACAAGATTGGAGGTATAGTAGCGAACAAGGATATGGGTGCCTCAAGGAG
ACGTGGACATCCCTACCCGCCACGCAGGGACCCGTCTAGAACAGGTACCG
TCAGCCAAACCTCTCAGACGCGTTCCAGAAACTCAAATCGCGATGATGAC
ATTATTTCTCGATCGACGAGGTCCAGATCCTCAAATGGTTCCGGCGGTAC
TCCAAGGTCAAATATTCGAAGAATGTCACCGTCGCCTTCAGCTGGTTCTA
ACCCATATATGCATAGCTCCCCACACAGTAGAGGGGAGGGTCAAAGTGTC
CGAGCTGCAGGCTTTTGA back to topprotein sequence of Gcaud2243.t1 >Gcaud2243.t1 ID=Gcaud2243.t1|Name=Gcaud2243.t1|organism=Gracilaria caudata M_176_S67 male|type=polypeptide|length=1706bp
MATPATQPRLTETASMILSWLRTAVPRILQNAGHPVARRKKEQPVHALVT
VLQDAVVLADIVSYLDPMRIPPAAVMRSTGRGVMSSPLPVSSTEPISNID
ARQLHVQYKNNTRRVVDAVKKLLPDVRRHALVQQHPPAGAVDTYVGNVAE
IPPSKDVWPAVHLAELVIACAVYGPRHNEFRHSLWRFPTEIVRTTFHASM
ASVARAVCLPPPEVLYKAGPPPSPAVMSPHALPPPMSHYSPQLSPLMRNP
VSPGLSASPSHMHSPVYIGTPQPINTAHAPHASTTPHSMSPAPYHGYSPR
TPVHGPPFSPQQYATPQYAPAPMTIPPTSHGAAPVPKTEKKKSSKKSAEK
QKSGSSSASRARSPAKTSEGLVGIAERSVPDAPTSALDATALQISTEEGI
GGRKFSLVTEDSGSRSREISPLPDFTGTFQKVQSRTDTSELDDFRNMSAV
TEQGVLIGVTDSSKSASRGNQPGAVDDTRDSEMQSGKSSDDFFTPNESMS
ESESHKQSTASHEFFVTSVASGGPPEPSAFFSESKVDEVVRKSVSTSFAE
QISRPDVYAQNTSSGSMERDGVSEDDARLNREAAQGSSLDFTNPAFSLSP
SFSDAPSPSNQWQVPRSKVMGQDILSPQTLFSPPQMPKRLVRGTTGGHVA
PRPAPKLFRSGTSSPQLSISSAGTRSNGDHERGSSNFSQRVAVESSKNEA
RPSRRSDNSSISQPFAAVEGHPRAGAGVRISSGKSSSSFSLPPSASESSD
RRPQGSVGSSPVPALVEDSQPLEPVGVDDSFLGRDPMATPQSVLLEPLGE
DDDISAIEEALSDRAIFQRVEEVLVKTSDYRASQDPLSTNSVSNAADAFS
GIESPGKRAGSAGLTEPTERTNDMREIRQGSRASSAKQSPVPSPKTRSEM
AGPSASRPPAGQTKAAKVRPSTGGSVASSTLATPEIKPSAALPPLGPDAS
SPAIRPSSRKPPMYSTPIMSTERRRAVPPTPPSPPSIETLIKKFSDQTPP
PEPVDYGHRPISTMEPSAGLFQKLISVWQSSDEESRDQGSVRSNILDGGL
TPRSAVLQPSGSGSHESTLPSGDTELALGRGSASIDSSRSRRPRAVRLPD
KSLQVASESMLSPDEEIHSKLQELHEGASMSSYGDMFPEEKDRDLMAGTR
VGEQRDEQVGTSRGDISGRPSSDDAARMNTISTTRDDSESATQDMRMATN
QNSSAQSSQLQSGKTAIDTDGHHVRVDKRRLDWLTRELLAARDAISRKEL
QMTFAETQRLEQQEILLLEKQDAESVVEAMKRILAEREQELKDARNRLST
TIQNVSTQDRSSLASKTSMGGADESLGQLIREGHAKLHTRIEEAESKQLQ
TTNLFSNEMQNLWSEVQKAMLEKMVEMTEKRDMELELLRKELESREKQVQ
DLQTTSSQLVQRNRECEAEASEMRLETLKATHRYELEMSHVTAQVELVNE
FSKKLHDNFRETENLRQQVLHYQEKLSHITNTTGVSQRQIKELREAVTRA
NDECARLRREADLAKKKGWEAIRRAEELEDLRIKDEAAQVAGRYPERRDG
SESGSYRSHEPARSPRNRAGGVGGRYHGMTRTRGVAGSPTPAQKAWLVIK
DKIGGIVANKDMGASRRRGHPYPPRRDPSRTGTVSQTSQTRSRNSNRDDD
IISRSTRSRSSNGSGGTPRSNIRRMSPSPSAGSNPYMHSSPHSRGEGQSV
RAAGF* back to topmRNA from alignment at NODE_1427_length_10755_cov_3.958177:104..5221+ Legend: start_codonpolypeptideCDSexonstop_codon Hold the cursor over a type above to highlight its positions in the sequence below. >Gcaud2243.t1 ID=Gcaud2243.t1|Name=Gcaud2243.t1|organism=Gracilaria caudata M_176_S67 male|type=mRNA|length=5118bp|location=Sequence derived from alignment at NODE_1427_length_10755_cov_3.958177:104..5221+ (Gracilaria caudata M_176_S67 male)
ATGGCGACGCCGGCCACGCAGCCGCGTCTCACCGAGACCGCGTCCATGAT
TTTGTCTTGGTTACGAACCGCTGTGCCCAGAATCTTGCAAAACGCTGGTC
ACCCCGTAGCTCGAAGGAAGAAGGAACAGCCGGTGCACGCCCTTGTCACC
GTTCTACAGGATGCCGTCGTGCTTGCTGACATCGTTTCCTACCTAGATCC
TATGCGCATCCCGCCCGCCGCTGTCATGCGTTCAACCGGCCGAGGCGTCA
TGTCTTCTCCGCTCCCCGTTTCTTCCACCGAACCGATTTCCAACATCGAC
GCTCGCCAGCTCCACGTTCAGTACAAGAACAACACTCGCCGCGTTGTCGA
CGCCGTCAAGAAGCTACTCCCCGACGTACGCCGACATGCTCTCGTTCAAC
AACACCCGCCTGCCGGCGCGGTAGATACTTACGTTGGGAACGTTGCCGAG
ATTCCGCCTTCCAAAGATGTGTGGCCGGCTGTGCATCTGGCCGAACTCGT
GATTGCCTGTGCCGTGTACGGTCCGCGCCACAACGAGTTCCGTCATTCTC
TTTGGAGATTCCCAACCGAAATCGTGCGCACTACCTTCCATGCTTCCATG
GCATCTGTTGCGCGCGCCGTTTGCCTTCCTCCCCCCGAAGTTTTGTACAA
GGCCGGTCCCCCGCCTTCCCCCGCCGTCATGTCTCCTCACGCTCTCCCAC
CCCCGATGTCGCACTACAGTCCTCAGCTCAGCCCACTCATGCGCAATCCG
GTGTCTCCTGGTCTGAGCGCTTCACCTAGTCACATGCATTCCCCTGTCTA
TATTGGAACACCGCAGCCGATCAACACGGCTCATGCTCCACACGCGTCAA
CCACTCCACACAGCATGAGCCCAGCTCCATATCATGGCTATTCACCACGG
ACCCCGGTCCACGGCCCACCGTTCAGTCCTCAGCAGTATGCTACCCCGCA
GTACGCGCCAGCACCTATGACTATCCCTCCTACTTCGCACGGGGCTGCAC
CAGTTCCCAAGACCGAGAAAAAGAAAAGTTCCAAGAAGTCAGCCGAAAAA
CAGAAGTCAGGGAGTAGCAGTGCATCCCGTGCTAGAAGCCCAGCTAAGAC
CTCGGAAGGACTTGTTGGGATTGCGGAAAGAAGTGTTCCAGACGCTCCTA
CTTCCGCATTGGATGCAACAGCGCTGCAGATTTCCACTGAAGAAGGCATT
GGAGGCAGAAAGTTTTCGCTCGTGACTGAGGACAGTGGCAGTCGTTCAAG
GGAGATATCACCATTACCGGACTTTACCGGCACGTTCCAAAAAGTTCAGA
GCCGGACAGACACATCCGAGTTGGACGACTTCCGGAACATGTCGGCTGTC
ACCGAACAAGGAGTGCTGATTGGTGTGACAGACTCATCCAAGAGTGCGTC
ACGTGGCAATCAGCCTGGCGCCGTAGACGATACTAGAGACAGCGAGATGC
AAAGTGGCAAGTCATCTGATGACTTTTTCACACCGAACGAAAGCATGTCT
GAAAGTGAGAGCCACAAGCAATCAACAGCATCACATGAGTTTTTCGTCAC
ATCTGTTGCTTCTGGGGGACCGCCTGAACCAAGCGCGTTCTTCTCCGAAT
CGAAAGTGGACGAAGTGGTGAGGAAATCCGTCTCCACGTCTTTCGCTGAG
CAAATATCGCGCCCCGATGTATACGCACAGAATACCTCTTCTGGTTCTAT
GGAGCGTGACGGGGTGAGCGAGGACGATGCGCGTTTGAATCGGGAAGCGG
CACAAGGATCTTCTCTCGACTTCACCAATCCAGCGTTTAGCCTTAGCCCC
TCGTTCTCAGACGCTCCGTCGCCATCGAACCAGTGGCAGGTCCCACGGTC
TAAGGTTATGGGCCAAGATATTCTCTCACCTCAAACTCTATTCTCTCCTC
CTCAAATGCCAAAGAGACTCGTTCGTGGAACAACTGGAGGTCATGTCGCG
CCAAGACCAGCACCGAAATTGTTCAGGTCTGGGACTTCTTCCCCTCAGCT
TTCGATATCTTCAGCTGGGACGAGGTCGAACGGGGATCATGAAAGGGGAA
GCTCGAACTTCAGCCAACGCGTTGCTGTTGAGTCATCGAAGAATGAAGCA
AGACCATCTCGTCGTTCTGATAACTCTTCCATTTCTCAACCATTCGCTGC
AGTCGAAGGCCATCCGAGGGCTGGAGCTGGCGTTCGCATATCATCAGGAA
AGTCATCCTCAAGTTTTTCGTTGCCACCCTCTGCATCAGAGTCTTCCGAT
CGTCGTCCTCAAGGTAGCGTGGGTAGTTCCCCCGTACCCGCTCTAGTTGA
AGACTCACAACCATTAGAACCTGTTGGTGTCGATGACAGTTTTCTGGGAC
GTGATCCAATGGCAACGCCTCAGAGTGTTTTACTCGAACCTCTTGGTGAA
GATGATGACATCTCTGCCATAGAAGAGGCTTTGTCGGACAGAGCCATATT
CCAACGAGTTGAAGAGGTGCTTGTGAAGACGTCAGACTATCGTGCATCAC
AGGATCCTCTCAGCACCAACTCCGTCAGTAATGCTGCTGATGCGTTTAGT
GGAATAGAGTCACCTGGGAAGAGGGCAGGGTCGGCAGGGCTGACAGAGCC
GACAGAGCGGACAAATGACATGCGTGAGATCCGTCAAGGCAGTCGAGCAT
CAAGCGCTAAGCAATCACCGGTACCGAGCCCGAAGACACGGAGTGAAATG
GCTGGACCAAGTGCGAGCAGGCCACCAGCTGGACAGACAAAAGCGGCAAA
GGTACGACCATCAACTGGTGGCAGTGTCGCCTCGTCTACTCTGGCAACAC
CTGAGATCAAGCCCTCAGCAGCTTTACCGCCTCTAGGCCCAGACGCATCA
TCTCCAGCAATACGCCCCAGTTCTCGAAAGCCTCCCATGTATTCTACTCC
AATCATGTCGACTGAGAGGCGTAGAGCAGTACCCCCAACTCCCCCTTCAC
CACCTTCAATTGAGACCTTAATTAAGAAGTTCAGCGACCAAACTCCACCA
CCGGAACCTGTCGACTATGGACATCGTCCGATTAGTACTATGGAACCATC
TGCGGGTCTTTTCCAGAAGCTAATATCCGTATGGCAAAGCTCAGATGAAG
AGAGTCGTGATCAGGGTTCTGTTCGCTCCAACATACTGGATGGCGGATTG
ACTCCAAGATCGGCGGTGCTACAGCCGTCGGGATCAGGTTCGCATGAATC
AACTTTGCCGTCCGGTGATACGGAGCTGGCTCTTGGACGTGGCTCCGCAT
CCATAGACAGCTCAAGAAGTCGCAGACCAAGGGCGGTTAGGCTTCCGGAC
AAATCTCTTCAAGTTGCTTCAGAAAGTATGCTGTCTCCAGATGAAGAGAT
ACATTCGAAGCTTCAGGAGCTTCACGAAGGGGCATCGATGTCATCTTATG
GGGACATGTTTCCAGAGGAAAAGGACAGGGATTTGATGGCTGGAACTCGA
GTTGGCGAACAGCGCGACGAGCAAGTAGGAACTTCGAGAGGTGATATATC
AGGAAGGCCTTCATCAGATGACGCAGCTCGCATGAATACTATTTCAACTA
CTAGAGACGACTCAGAAAGTGCCACGCAGGATATGAGGATGGCAACAAAT
CAGAACTCAAGCGCGCAATCAAGTCAACTGCAATCTGGGAAAACCGCGAT
TGACACTGACGGACACCATGTGAGGGTGGACAAGCGTCGTCTGGACTGGC
TAACGCGGGAGCTGCTAGCAGCTCGTGATGCTATTTCCAGAAAAGAACTT
CAGATGACATTTGCGGAGACTCAACGTCTTGAGCAACAGGAGATTCTGCT
TCTCGAGAAACAAGATGCAGAGTCTGTTGTCGAAGCAATGAAGAGGATTC
TGGCCGAGCGAGAGCAGGAACTCAAAGACGCTCGGAACAGACTGAGCACT
ACAATTCAAAATGTTTCAACTCAAGATCGTTCATCTTTGGCTTCGAAGAC
ATCGATGGGAGGAGCTGACGAAAGCCTCGGCCAGCTCATCAGAGAAGGTC
ATGCAAAGCTACACACCCGAATAGAAGAAGCCGAGTCGAAGCAATTGCAG
ACCACTAATCTTTTCTCAAACGAGATGCAAAATCTGTGGTCTGAAGTACA
AAAGGCAATGTTAGAAAAAATGGTCGAAATGACAGAGAAGAGAGATATGG
AGCTTGAACTTCTGCGCAAGGAGCTGGAGAGCAGAGAGAAACAAGTTCAA
GATTTGCAGACGACGAGTTCTCAGCTTGTCCAGAGAAACCGAGAGTGTGA
AGCTGAGGCTTCGGAAATGAGACTTGAGACTTTGAAGGCCACTCATCGCT
ACGAACTGGAAATGTCCCATGTAACGGCGCAAGTCGAGCTTGTGAATGAG
TTCTCCAAGAAGCTTCACGACAACTTCAGAGAAACCGAAAACCTTCGCCA
GCAAGTTCTGCACTACCAGGAAAAGCTTTCCCACATCACAAATACTACGG
GGGTCAGCCAGAGGCAAATCAAAGAGCTGCGTGAGGCAGTGACTAGAGCC
AATGATGAATGTGCTAGGCTTCGGCGAGAGGCGGATTTAGCGAAAAAGAA
GGGCTGGGAAGCTATTCGGCGCGCGGAAGAACTTGAAGACCTAAGGATCA
AAGATGAAGCTGCTCAGGTTGCAGGTCGATATCCCGAACGACGTGACGGG
TCAGAGTCGGGCTCGTATAGAAGCCATGAGCCTGCTCGTTCCCCCAGAAA
CCGCGCAGGTGGTGTTGGTGGTCGTTATCATGGCATGACTAGGACAAGGG
GAGTGGCGGGCAGCCCGACGCCGGCACAGAAAGCATGGCTAGTCATTAAG
GACAAGATTGGAGGTATAGTAGCGAACAAGGATATGGGTGCCTCAAGGAG
ACGTGGACATCCCTACCCGCCACGCAGGGACCCGTCTAGAACAGGTACCG
TCAGCCAAACCTCTCAGACGCGTTCCAGAAACTCAAATCGCGATGATGAC
ATTATTTCTCGATCGACGAGGTCCAGATCCTCAAATGGTTCCGGCGGTAC
TCCAAGGTCAAATATTCGAAGAATGTCACCGTCGCCTTCAGCTGGTTCTA
ACCCATATATGCATAGCTCCCCACACAGTAGAGGGGAGGGTCAAAGTGTC
CGAGCTGCAGGCTTTTGA back to topCoding sequence (CDS) from alignment at NODE_1427_length_10755_cov_3.958177:104..5221+ >Gcaud2243.t1 ID=Gcaud2243.t1|Name=Gcaud2243.t1|organism=Gracilaria caudata M_176_S67 male|type=CDS|length=5118bp|location=Sequence derived from alignment at NODE_1427_length_10755_cov_3.958177:104..5221+ (Gracilaria caudata M_176_S67 male)
ATGGCGACGCCGGCCACGCAGCCGCGTCTCACCGAGACCGCGTCCATGAT
TTTGTCTTGGTTACGAACCGCTGTGCCCAGAATCTTGCAAAACGCTGGTC
ACCCCGTAGCTCGAAGGAAGAAGGAACAGCCGGTGCACGCCCTTGTCACC
GTTCTACAGGATGCCGTCGTGCTTGCTGACATCGTTTCCTACCTAGATCC
TATGCGCATCCCGCCCGCCGCTGTCATGCGTTCAACCGGCCGAGGCGTCA
TGTCTTCTCCGCTCCCCGTTTCTTCCACCGAACCGATTTCCAACATCGAC
GCTCGCCAGCTCCACGTTCAGTACAAGAACAACACTCGCCGCGTTGTCGA
CGCCGTCAAGAAGCTACTCCCCGACGTACGCCGACATGCTCTCGTTCAAC
AACACCCGCCTGCCGGCGCGGTAGATACTTACGTTGGGAACGTTGCCGAG
ATTCCGCCTTCCAAAGATGTGTGGCCGGCTGTGCATCTGGCCGAACTCGT
GATTGCCTGTGCCGTGTACGGTCCGCGCCACAACGAGTTCCGTCATTCTC
TTTGGAGATTCCCAACCGAAATCGTGCGCACTACCTTCCATGCTTCCATG
GCATCTGTTGCGCGCGCCGTTTGCCTTCCTCCCCCCGAAGTTTTGTACAA
GGCCGGTCCCCCGCCTTCCCCCGCCGTCATGTCTCCTCACGCTCTCCCAC
CCCCGATGTCGCACTACAGTCCTCAGCTCAGCCCACTCATGCGCAATCCG
GTGTCTCCTGGTCTGAGCGCTTCACCTAGTCACATGCATTCCCCTGTCTA
TATTGGAACACCGCAGCCGATCAACACGGCTCATGCTCCACACGCGTCAA
CCACTCCACACAGCATGAGCCCAGCTCCATATCATGGCTATTCACCACGG
ACCCCGGTCCACGGCCCACCGTTCAGTCCTCAGCAGTATGCTACCCCGCA
GTACGCGCCAGCACCTATGACTATCCCTCCTACTTCGCACGGGGCTGCAC
CAGTTCCCAAGACCGAGAAAAAGAAAAGTTCCAAGAAGTCAGCCGAAAAA
CAGAAGTCAGGGAGTAGCAGTGCATCCCGTGCTAGAAGCCCAGCTAAGAC
CTCGGAAGGACTTGTTGGGATTGCGGAAAGAAGTGTTCCAGACGCTCCTA
CTTCCGCATTGGATGCAACAGCGCTGCAGATTTCCACTGAAGAAGGCATT
GGAGGCAGAAAGTTTTCGCTCGTGACTGAGGACAGTGGCAGTCGTTCAAG
GGAGATATCACCATTACCGGACTTTACCGGCACGTTCCAAAAAGTTCAGA
GCCGGACAGACACATCCGAGTTGGACGACTTCCGGAACATGTCGGCTGTC
ACCGAACAAGGAGTGCTGATTGGTGTGACAGACTCATCCAAGAGTGCGTC
ACGTGGCAATCAGCCTGGCGCCGTAGACGATACTAGAGACAGCGAGATGC
AAAGTGGCAAGTCATCTGATGACTTTTTCACACCGAACGAAAGCATGTCT
GAAAGTGAGAGCCACAAGCAATCAACAGCATCACATGAGTTTTTCGTCAC
ATCTGTTGCTTCTGGGGGACCGCCTGAACCAAGCGCGTTCTTCTCCGAAT
CGAAAGTGGACGAAGTGGTGAGGAAATCCGTCTCCACGTCTTTCGCTGAG
CAAATATCGCGCCCCGATGTATACGCACAGAATACCTCTTCTGGTTCTAT
GGAGCGTGACGGGGTGAGCGAGGACGATGCGCGTTTGAATCGGGAAGCGG
CACAAGGATCTTCTCTCGACTTCACCAATCCAGCGTTTAGCCTTAGCCCC
TCGTTCTCAGACGCTCCGTCGCCATCGAACCAGTGGCAGGTCCCACGGTC
TAAGGTTATGGGCCAAGATATTCTCTCACCTCAAACTCTATTCTCTCCTC
CTCAAATGCCAAAGAGACTCGTTCGTGGAACAACTGGAGGTCATGTCGCG
CCAAGACCAGCACCGAAATTGTTCAGGTCTGGGACTTCTTCCCCTCAGCT
TTCGATATCTTCAGCTGGGACGAGGTCGAACGGGGATCATGAAAGGGGAA
GCTCGAACTTCAGCCAACGCGTTGCTGTTGAGTCATCGAAGAATGAAGCA
AGACCATCTCGTCGTTCTGATAACTCTTCCATTTCTCAACCATTCGCTGC
AGTCGAAGGCCATCCGAGGGCTGGAGCTGGCGTTCGCATATCATCAGGAA
AGTCATCCTCAAGTTTTTCGTTGCCACCCTCTGCATCAGAGTCTTCCGAT
CGTCGTCCTCAAGGTAGCGTGGGTAGTTCCCCCGTACCCGCTCTAGTTGA
AGACTCACAACCATTAGAACCTGTTGGTGTCGATGACAGTTTTCTGGGAC
GTGATCCAATGGCAACGCCTCAGAGTGTTTTACTCGAACCTCTTGGTGAA
GATGATGACATCTCTGCCATAGAAGAGGCTTTGTCGGACAGAGCCATATT
CCAACGAGTTGAAGAGGTGCTTGTGAAGACGTCAGACTATCGTGCATCAC
AGGATCCTCTCAGCACCAACTCCGTCAGTAATGCTGCTGATGCGTTTAGT
GGAATAGAGTCACCTGGGAAGAGGGCAGGGTCGGCAGGGCTGACAGAGCC
GACAGAGCGGACAAATGACATGCGTGAGATCCGTCAAGGCAGTCGAGCAT
CAAGCGCTAAGCAATCACCGGTACCGAGCCCGAAGACACGGAGTGAAATG
GCTGGACCAAGTGCGAGCAGGCCACCAGCTGGACAGACAAAAGCGGCAAA
GGTACGACCATCAACTGGTGGCAGTGTCGCCTCGTCTACTCTGGCAACAC
CTGAGATCAAGCCCTCAGCAGCTTTACCGCCTCTAGGCCCAGACGCATCA
TCTCCAGCAATACGCCCCAGTTCTCGAAAGCCTCCCATGTATTCTACTCC
AATCATGTCGACTGAGAGGCGTAGAGCAGTACCCCCAACTCCCCCTTCAC
CACCTTCAATTGAGACCTTAATTAAGAAGTTCAGCGACCAAACTCCACCA
CCGGAACCTGTCGACTATGGACATCGTCCGATTAGTACTATGGAACCATC
TGCGGGTCTTTTCCAGAAGCTAATATCCGTATGGCAAAGCTCAGATGAAG
AGAGTCGTGATCAGGGTTCTGTTCGCTCCAACATACTGGATGGCGGATTG
ACTCCAAGATCGGCGGTGCTACAGCCGTCGGGATCAGGTTCGCATGAATC
AACTTTGCCGTCCGGTGATACGGAGCTGGCTCTTGGACGTGGCTCCGCAT
CCATAGACAGCTCAAGAAGTCGCAGACCAAGGGCGGTTAGGCTTCCGGAC
AAATCTCTTCAAGTTGCTTCAGAAAGTATGCTGTCTCCAGATGAAGAGAT
ACATTCGAAGCTTCAGGAGCTTCACGAAGGGGCATCGATGTCATCTTATG
GGGACATGTTTCCAGAGGAAAAGGACAGGGATTTGATGGCTGGAACTCGA
GTTGGCGAACAGCGCGACGAGCAAGTAGGAACTTCGAGAGGTGATATATC
AGGAAGGCCTTCATCAGATGACGCAGCTCGCATGAATACTATTTCAACTA
CTAGAGACGACTCAGAAAGTGCCACGCAGGATATGAGGATGGCAACAAAT
CAGAACTCAAGCGCGCAATCAAGTCAACTGCAATCTGGGAAAACCGCGAT
TGACACTGACGGACACCATGTGAGGGTGGACAAGCGTCGTCTGGACTGGC
TAACGCGGGAGCTGCTAGCAGCTCGTGATGCTATTTCCAGAAAAGAACTT
CAGATGACATTTGCGGAGACTCAACGTCTTGAGCAACAGGAGATTCTGCT
TCTCGAGAAACAAGATGCAGAGTCTGTTGTCGAAGCAATGAAGAGGATTC
TGGCCGAGCGAGAGCAGGAACTCAAAGACGCTCGGAACAGACTGAGCACT
ACAATTCAAAATGTTTCAACTCAAGATCGTTCATCTTTGGCTTCGAAGAC
ATCGATGGGAGGAGCTGACGAAAGCCTCGGCCAGCTCATCAGAGAAGGTC
ATGCAAAGCTACACACCCGAATAGAAGAAGCCGAGTCGAAGCAATTGCAG
ACCACTAATCTTTTCTCAAACGAGATGCAAAATCTGTGGTCTGAAGTACA
AAAGGCAATGTTAGAAAAAATGGTCGAAATGACAGAGAAGAGAGATATGG
AGCTTGAACTTCTGCGCAAGGAGCTGGAGAGCAGAGAGAAACAAGTTCAA
GATTTGCAGACGACGAGTTCTCAGCTTGTCCAGAGAAACCGAGAGTGTGA
AGCTGAGGCTTCGGAAATGAGACTTGAGACTTTGAAGGCCACTCATCGCT
ACGAACTGGAAATGTCCCATGTAACGGCGCAAGTCGAGCTTGTGAATGAG
TTCTCCAAGAAGCTTCACGACAACTTCAGAGAAACCGAAAACCTTCGCCA
GCAAGTTCTGCACTACCAGGAAAAGCTTTCCCACATCACAAATACTACGG
GGGTCAGCCAGAGGCAAATCAAAGAGCTGCGTGAGGCAGTGACTAGAGCC
AATGATGAATGTGCTAGGCTTCGGCGAGAGGCGGATTTAGCGAAAAAGAA
GGGCTGGGAAGCTATTCGGCGCGCGGAAGAACTTGAAGACCTAAGGATCA
AAGATGAAGCTGCTCAGGTTGCAGGTCGATATCCCGAACGACGTGACGGG
TCAGAGTCGGGCTCGTATAGAAGCCATGAGCCTGCTCGTTCCCCCAGAAA
CCGCGCAGGTGGTGTTGGTGGTCGTTATCATGGCATGACTAGGACAAGGG
GAGTGGCGGGCAGCCCGACGCCGGCACAGAAAGCATGGCTAGTCATTAAG
GACAAGATTGGAGGTATAGTAGCGAACAAGGATATGGGTGCCTCAAGGAG
ACGTGGACATCCCTACCCGCCACGCAGGGACCCGTCTAGAACAGGTACCG
TCAGCCAAACCTCTCAGACGCGTTCCAGAAACTCAAATCGCGATGATGAC
ATTATTTCTCGATCGACGAGGTCCAGATCCTCAAATGGTTCCGGCGGTAC
TCCAAGGTCAAATATTCGAAGAATGTCACCGTCGCCTTCAGCTGGTTCTA
ACCCATATATGCATAGCTCCCCACACAGTAGAGGGGAGGGTCAAAGTGTC
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