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Homology
BLAST of mRNA_P-fluviatile_contig10.609.1 vs. uniprot
Match: D8LTM4_ECTSI (Uncharacterized protein n=1 Tax=Ectocarpus siliculosus TaxID=2880 RepID=D8LTM4_ECTSI) HSP 1 Score: 323 bits (829), Expect = 3.360e-101 Identity = 163/217 (75.12%), Postives = 186/217 (85.71%), Query Frame = 3
Query: 525 MICVGFAISLCLNLGSLTARKEGFFAAEVNCLPQGAAQTILPDLGMWIGWRQAVANSEQAVIFELQELSMKGAAMGILTVVGHATDAVLNAVGLAILLYSRRKPLQEAQCRLVKRLCLASLSMAGWLLGMTVIGFLVAVKGPIGNAAVAYYSN-LDLDCRSSVSVSVDYAYAMTTLTVLCQFFIGVVALPTPSTSHGCRRR----CRWCXXCLVLGR 1160
MIC+GFA+SL LNLGS TARKEG+FAAEV CLPQGA+QT+LPDLG+W+GWRQAVANS++AV F L+E+SM GA MGILTVVG+ATD +LNAVGLA+LLY RRKPLQEAQCR+VKRLCLASL+MAGWLLG T+IGFL+AVKGPIG AAVA+YS DLDC +SVSVSVDYAYAM TLTVLCQFFIG+VALP PS S RR CRW ++L R
Sbjct: 1 MICIGFAVSLILNLGSFTARKEGYFAAEVKCLPQGASQTVLPDLGVWVGWRQAVANSDEAVTFNLEEMSMVGAVMGILTVVGNATDGLLNAVGLAVLLYGRRKPLQEAQCRMVKRLCLASLAMAGWLLGTTIIGFLIAVKGPIGAAAVAFYSEEFDLDCGNSVSVSVDYAYAMATLTVLCQFFIGIVALPKPSRSSPQNRRRRFCCRWNPAGVLLAR 217
BLAST of mRNA_P-fluviatile_contig10.609.1 vs. uniprot
Match: A0A6H5JU38_9PHAE (Uncharacterized protein n=1 Tax=Ectocarpus sp. CCAP 1310/34 TaxID=867726 RepID=A0A6H5JU38_9PHAE) HSP 1 Score: 329 bits (844), Expect = 1.500e-100 Identity = 172/257 (66.93%), Postives = 198/257 (77.04%), Query Frame = 3
Query: 381 AGSSTGDLYSFRRRLCAHLHIEPHDVSEARGREAGWSGNGGRVRGFHDMICVGFAISLCLNLGSLTARKEGFFAAEVNCLPQGAAQTILPDLGMWIGWRQAVANSEQAVIFELQELSMKGAAMGILTVVGHATDAVLNAVGLAILLYSRRKPLQEAQCRLVKRLCLASLSMAGWLLGMTVIGFLVAVKGPIGNAAVAYYSN-LDLDCRSSVSVSVDYAYAMTTLTVLCQFFIGVVALPTPSTSHGCRRR-----CRW 1133
AG++ D+ F R + + S G E G+ RVRGFHDMIC+GFA+SL LNLGS TARKEG+FAAEV CLPQGA+QT+LPDLG+W+GWRQAVANSE+AV F L+E+SM GA MGILTVVG+ATD +LNAVGLA+LLY RRKPLQEAQCR+VKRLCLASL+MAGWL+GMTVIGFL+AVKGPIG AAVA+YS DLDC +SVSV M TLTVLCQFFIG+VALP PS S RR CRW
Sbjct: 156 AGATEFDVGPFEGRHNFSIRHHIDNGSSTSGGERRGGGDSSRVRGFHDMICIGFAVSLILNLGSFTARKEGYFAAEVKCLPQGASQTVLPDLGVWVGWRQAVANSEEAVTFNLEEMSMVGAVMGILTVVGNATDGLLNAVGLAVLLYGRRKPLQEAQCRMVKRLCLASLAMAGWLMGMTVIGFLIAVKGPIGAAAVAFYSEEFDLDCGNSVSVXXXXXXXMATLTVLCQFFIGIVALPKPSRSSPQNRRRRRFCCRW 412
The following BLAST results are available for this feature:
Alignments
The following features are aligned
Analyses
This mRNA is derived from or has results from the following analyses
Properties
| Property Name | Value |
|---|
| Hectar predicted targeting category | other localisation |
| Ec32 ortholog description | hypothetical protein |
| Ec32 ortholog | Ec-28_003540.1 |
| Exons | 7 |
| Model size | 2457 |
| Cds size | 1344 |
| Stop | 1 |
| Start | 1 |
Relationships
The following UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1622815362.150472-UTR-P-fluviatile_contig10:27651..28690 | 1622815362.150472-UTR-P-fluviatile_contig10:27651..28690 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig10 27652..28690 - |
| 1693561610.2743583-UTR-P-fluviatile_contig10:27651..28690 | 1693561610.2743583-UTR-P-fluviatile_contig10:27651..28690 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig10 27652..28690 - |
| 1622815362.234155-UTR-P-fluviatile_contig10:33335..33368 | 1622815362.234155-UTR-P-fluviatile_contig10:33335..33368 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig10 33336..33368 - |
| 1693561610.5381322-UTR-P-fluviatile_contig10:33335..33368 | 1693561610.5381322-UTR-P-fluviatile_contig10:33335..33368 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig10 33336..33368 - |
| 1622815362.2500615-UTR-P-fluviatile_contig10:34668..34709 | 1622815362.2500615-UTR-P-fluviatile_contig10:34668..34709 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig10 34669..34709 - |
| 1693561610.8809123-UTR-P-fluviatile_contig10:34668..34709 | 1693561610.8809123-UTR-P-fluviatile_contig10:34668..34709 | Porterinema fluviatile SAG_2381 | UTR | P-fluviatile_contig10 34669..34709 - |
The following CDS feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type | Position |
|---|
| 1622815362.1630535-CDS-P-fluviatile_contig10:28690..29101 | 1622815362.1630535-CDS-P-fluviatile_contig10:28690..29101 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 28691..29101 - |
| 1693561610.2820756-CDS-P-fluviatile_contig10:28690..29101 | 1693561610.2820756-CDS-P-fluviatile_contig10:28690..29101 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 28691..29101 - |
| 1622815362.1779132-CDS-P-fluviatile_contig10:29732..29906 | 1622815362.1779132-CDS-P-fluviatile_contig10:29732..29906 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 29733..29906 - |
| 1693561610.2894187-CDS-P-fluviatile_contig10:29732..29906 | 1693561610.2894187-CDS-P-fluviatile_contig10:29732..29906 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 29733..29906 - |
| 1622815362.189229-CDS-P-fluviatile_contig10:30546..30657 | 1622815362.189229-CDS-P-fluviatile_contig10:30546..30657 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 30547..30657 - |
| 1693561610.2968345-CDS-P-fluviatile_contig10:30546..30657 | 1693561610.2968345-CDS-P-fluviatile_contig10:30546..30657 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 30547..30657 - |
| 1622815362.2011518-CDS-P-fluviatile_contig10:31241..31316 | 1622815362.2011518-CDS-P-fluviatile_contig10:31241..31316 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 31242..31316 - |
| 1693561610.3115144-CDS-P-fluviatile_contig10:31241..31316 | 1693561610.3115144-CDS-P-fluviatile_contig10:31241..31316 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 31242..31316 - |
| 1622815362.2130663-CDS-P-fluviatile_contig10:31783..32176 | 1622815362.2130663-CDS-P-fluviatile_contig10:31783..32176 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 31784..32176 - |
| 1693561610.3252687-CDS-P-fluviatile_contig10:31783..32176 | 1693561610.3252687-CDS-P-fluviatile_contig10:31783..32176 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 31784..32176 - |
| 1622815362.222986-CDS-P-fluviatile_contig10:33155..33335 | 1622815362.222986-CDS-P-fluviatile_contig10:33155..33335 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 33156..33335 - |
| 1693561610.522372-CDS-P-fluviatile_contig10:33155..33335 | 1693561610.522372-CDS-P-fluviatile_contig10:33155..33335 | Porterinema fluviatile SAG_2381 | CDS | P-fluviatile_contig10 33156..33335 - |
The following polypeptide feature(s) derives from this mRNA:
Sequences
The following sequences are available for this feature:
protein sequence of mRNA_P-fluviatile_contig10.609.1 >prot_P-fluviatile_contig10.609.1 ID=prot_P-fluviatile_contig10.609.1|Name=mRNA_P-fluviatile_contig10.609.1|organism=Porterinema fluviatile SAG_2381|type=polypeptide|length=448bp
MGSTDGLSTWQHRQQRDEDEIAREEGKQEDEVEQEEEEEELQRDGVVVVV
SRGGEDALRQMKADPLKQRKDTRGDRHGDTDKNGDGRGHEDRHDAETSSD
QHAGSSTGDLYSFRRRLCAHLHIEPHDVSEARGREAGWSGNGGRVRGFHD
MICVGFAISLCLNLGSLTARKEGFFAAEVNCLPQGAAQTILPDLGMWIGW
RQAVANSEQAVIFELQELSMKGAAMGILTVVGHATDAVLNAVGLAILLYS
RRKPLQEAQCRLVKRLCLASLSMAGWLLGMTVIGFLVAVKGPIGNAAVAY
YSNLDLDCRSSVSVSVDYAYAMTTLTVLCQFFIGVVALPTPSTSHGCRRR
CRWCRWCLVLGRANGRCSPSSSSSSPCSFAHSSFATSNDQLPSRRPDISP
AALVTTAAIAGRRKSRGGRVAFAEKGGAVMEPRFEDSGGAPRNCDTV* back to topmRNA from alignment at P-fluviatile_contig10:27652..34709- Legend: UTRpolypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_P-fluviatile_contig10.609.1 ID=mRNA_P-fluviatile_contig10.609.1|Name=mRNA_P-fluviatile_contig10.609.1|organism=Porterinema fluviatile SAG_2381|type=mRNA|length=7058bp|location=Sequence derived from alignment at P-fluviatile_contig10:27652..34709- (Porterinema fluviatile SAG_2381)
GGACGCAGAAGAGACGCAGAAGGCCCTTGACCGTCACCCAGGTAGGAATG
TGTTCTCGCACGTTTCCTTTTTAGGAACAAAATCACTGCAAAGACCTATC
TGTGTGCGTGTGGGTAGGGAGACGTCATCGATAGCGCGTCCACCGAATCT
ACTCTCCAAAAGCACATTGACTGAATTGTAGCGAAGGTGTTGCGATTATG
TATCCCAGTCGCAGCTTGACCCCCGGCATGGTCCTTGAGATCGAGGTGAG
CGAGCGAGAGGTGAGGTGGAATCTATGTGTTTTCAGCGACGGCGAGATGC
GGAGAGACACATTGGGGGGATGGCGAGAACAACAGTAGACGTGGGAGGAC
GGTATGCGCATGCTTGGAGGGCTTCGGCTCGGTTTCTCGCCAACTTAAGC
GAACGAGGGTACCAACAGTTATATATGTGTCCTCAAATGCCATTTCGTAC
GGAGTACTTCGAACTGAAGCATTTTTGGCGGGGTTCCCGTTTCACATACA
TGACGCGCGCACACTCAGCACTCTCTTCGCTGTCTCAAGGCCGCGCGTCA
ACTTGTTTTTGAAATAACAACAGCAGCTGCTTACTCGGCACAACGAGTGC
CTTTCAGAAGCGCTCGCTTCCACTACGCCGCAGCTAAATTAGGAACACGA
CATCACCTTAAATTGTAAAGTACGTTTATCCGGCAGATACATCGCACAGG
ATGACAAGGGCGAGGTCAGAGAAATGACAAACGTTGTGGAACAGAACGCA
TGTTCACTGCGGGAGAGCAAAGAACTTGCAACTGCAAACGAAACATGTAC
ACAGCAGGAAGGAGAGAGACGCAAACGTCTTCGGAAATTCAACGGGTTGC
TGATTCCGTTTGGCATTCGGCATCGGAGCGTAGACAAGATACCGATGAAA
GTTGAAGGGGCGCCTACGCCAACGTGGAGCAGCGCCAGTCGAGGAAGCAA
ATGTAGCAAGGAGACAACGCTTGCCGTGTCCCGATCCAACCATACCCCCT
GCAAGTGTCACGAGAAGAAATGACGAAAAGCGAGACACACTTCTGTACCC
TGAGTTGGCGCGCACACCGAGTCGCCATCTCCGCCAGCTCTATGATCTGA
ACGCGCTGCCAAAAGTTAATCTCTACGCCCCTACCCAAGGAGATTCATTC
AACACAGCAGTTGTGTTACAAAATTGAATCACGTCCCCGGAAAGGGGAAG
GGGCAAACCTTTTACACAGTAGTCAAGAAGTAAAGCAGAAAAGGAAGGCT
TGCGAGGAAACGGAAGCCTGGTGGGAAACACGACGACTTGACGCAATTTT
TCGCCGGCGCTTTCTGTTTCATCCCACTCCTTCGCGCGCAGGGATCAGGA
TCAATCTCAAGATCAATCCCAGGTATGGGATCTACAGACGGCCTATCGAC
TTGGCAGCATCGACAACAGCGAGATGAGGACGAGATTGCGCGGGAAGAGG
GAAAGCAAGAGGATGAGGTAGAACAAGAGGAAGAGGAAGAGGAGCTGCAG
CGGGATGGTGTCGTGGTGGTTGTCTCGAGAGGCGGCGAAGATGCGTTGCG
GCAGGTGGGTGCAGACCATACGTATCGGAAAATCACCAGGAAACGCCTGC
AACTGGAACAGTTGGAGTCTGTCGATCTGGGGTCAGGGTCAGGGGTATTG
GATAGCCTTGGTACTGCACTGCTGTGCACAAGCAAGAATTTTTTACGGCC
AGGTGAAAGGGCAAGGATGAGGGGTATGGTTTGCATTTCGGCCGCTGACG
ATCTGCGGGCGTCAAAGCTGATCCCTCAAAGGTGGCTTTGGTCATCAAGG
TTTCTAGTCAGCAGGTGGTCTGCACCTACGAGCATGGGTATCCAAAAGCG
TTCTTTGCTATCTTTTCGCACTGGATGCCATATGCTCAGCACATCGCACC
ACACCATCCCAGCCAGGCATCGGGTTGGTTTTCGGGGATTTATTTCTGCA
CGTCCACCTCGCGTGCTACCGCTCCATCTCCCAAGGATTCGACGAAGGCT
GCCGAGTTTTCGTGATGCTCATGCACACACATGTGATTAGCACTGTGTGG
TGTCATGTTAGCTGGGCGGCTTTCTTTTCTTCAAAAACTATGCAAAAGGA
CAATCTCGGAAGACTTAAACGAAGATTGGGTGAGGAAAAGAAGCGGGGGC
ACACGTGAACGTGGCGGTTTGGGTCTTCCGCTCTTGTTGGGCTTTTGTTG
ACCTCTATCGCGTCGTCAAAAGTTGGCCTTGTATTTTGAGGGATGAGGGA
ATCCTTTCTGCCGTGATGCTGTGTTTGGGATATTTCGACACGCCAAGAAG
GCAAATGCGTTTGGAATTTGATCTTCGTACGTGTGCCGAACCCTAGAGTA
TACCGCAAGGGAAGTGCACCTCACACGCACTAACAGAGGGGTACCTGTAC
CTCAACGGATCGGCCGGCTACCGAATGAGCTTTTTCACACGATTTTCCGG
TAGTAAGAAGTCCAGCCCGACCTCCGCCTTACCGGCGCGAGCGCGAAAAT
TGATCACTTCACCTCCGCTCGCTCTACCAGCAGATGAAGGCGGACCCGCT
GAAGCAGCGGAAGGACACTCGCGGAGACAGACACGGAGATACAGATAAAA
ATGGAGATGGGCGTGGGCACGAAGATAGACACGACGCCGAAACCTCGAGT
GACCAACACGCTGGCTCCAGCACGGGAGATCTGTACAGCTTCCGACGACG
CTTGTGTGCGCACCTCCACATTGAACCTCACGACGTCTCCGAAGCGAGGG
GGAGGGAGGCGGGCTGGAGTGGCAACGGTGGCAGAGTTCGGGGCTTCCAC
GACATGATTTGCGTCGGATTCGCGATTTCGCTCTGCCTCAATCTGGGGAG
TCTGACGGCCCGGAAGGAGGGCTTTTTTGCCGCAGAGGTCAATTGCTTGC
CCCAGGGAGCCGCGCAGACCATCTTGGTGAGTGAATGACCCGCCTATGTG
AGTCGCGTTCAATAGGCTGGGCGACATTAGGTAGGCGACCCTTGGCCCAT
TTCGTTTACTCCATGCGGTGTAATTCACCAGTGGCTATTTTTCAGAGTCC
CGTCCCTTTACCTGATCGCTACATCGGATCGATCGCTACATCGGATCGAT
CGCTACGTCGGATCGATGGCTACATTGGATCAGATCAGAGAGCGCTTCCA
CTGCATGTTCTTCTGTGCGTACTGTTTTGCCACATTAGGCTCGACTGCGT
GATGGTGCGACAGCACTGCGGAAGAACGCGATCCAATGGCGGTGGAAATC
AAATTCACCGGGTTCGCGATCGATGACGAATAAAGTACCACCCGATTCTT
GGGTGCCTTTCACCTCACACTTCGCACCTCGGCTTCGCACCTCGCATCCC
GCACTCCGTTTTCCGCCTCAATGTGCTTTTTTTGCCATTACAGCCAGACC
TCGGTATGTGGATAGGCTGGAGGCAAGCCGTCGCCAACTCGGAACAAGCG
GTGATTTTTGAACTCCAGGTGAGGGGGTATCCACTTTTATGGAGGTATGG
GTCAGGCAATGGTCGGTGTTCCCTGTGATTCGGTTCGGCATCAGAGCTGA
TCATTCGGATCAAGTGATCGAAGGCAGGACCAGCGTAGTGTTTCACGTTC
AGACCTGACTTAGTGATCGAGGGGAGTAGCTTCTCGGTGTCACGAACGTA
TGTGCAGTTTGAGAGCAAACCCGAATCAGAGTCGCTGCCAACAACCACCG
TTTGCAGAGCCGCAGCGGCAACCAACGCGGAGTGAAAATCGAGGATCCCT
AACCCGCTTTATCTTGCCCCCCGCGTCGGATGTACCAAGTAGCGGTCCAA
AGCAGTTGTTCATTGCGTTTTCTCTCACTAGGGTTAGGGTTAGGGTTAGG
CAATCATTTCGCAAACGACGCGTAGACCTTGTCGATGTGCCGGTGTTGTT
GCGATCATTTTCGACACATCGAGCACGTGTCGCGTACACGTTGTCGATGT
GTCAGCCTCATGTCGATCACAAGGCGGCGCTTCGCTCCTCCCAACCCTAG
CCCTGATCTTAGCCCTAACGTTGTACTAGGATTTTTTTTTTTCTGTCATC
AGGAACTCAGCATGAAGGGCGCCGCCATGGGAATATTGACGGTGGTGGGG
CACGCCACCGATGCCGTGCTCAACGCCGTGGGACTCGCGATCCTTCTCTA
CAGCCGTCGGAAGGTTAGGAAAGAAGACTGGGCAGGCGGGTTGGTGGTTG
TTGATTGTGATGATGGTGATGGCGTGGTTCTTGTGCATTGCTCTCGCATG
AGCTCATGAGCTAAGGCTTTTTCTTTGTATTGGTCAACTGCTGAGAGTCA
TTGTTCCTGGGATATGTCTTCTCTTGCGGCAGGCCGCATAAGAATGCCGG
TAAAGCTGGGACAACCCAACTGGGAAGACAGCAAACGTCGCCGGTTTTTT
TATTTTTGACCATGATGTCAAGGGTGCGACGACCGCTCGGGAAGCTACAA
GCCTGCCTGGCCGCTGATAGTTTGATTTCTACATGCACTAACTTGGTGTT
CCCCCCGAATATCCCGCGTCACCCCCTGCAAAGTTCTCCTCTCCTTGCCC
GCCAAGTTGGGAAGAGATGAACGTCGACGATGGTGACGGTTGGAGTAGCA
CTCCCCAGACGGGCAAATATGTTCCCGGCGCTTGATTGCTGCCATTTCCT
CTCACACGCTGCAGTACAACAAACCATTCCTTGTGTCTCCGCCTTGGGCT
GTCGCAAGGTAGAACGCATGAGCAAATCCCCTGTGCTGAGTTGTACTCAT
CGTGTCTGCGCCTTGCGCTTTCGGTCTATGGTTCCACGCTGCAATTGGAG
CAGCCTTTGCAGGAGGCGCAGTGCCGCTTGGTGAAGCGCCTGTGCTTGGC
TTCCCTGTCGATGGCGGGGTGGTTGCTGGGCATGACTGTCATTGGCTTCC
TGGTCGCTGTCAAGGGCCCGATCGGCAACGCAGCGGTCGCGTACTACTCC
AACCTCGACCTGGACTGCCGAAGCTCGGTGAGGAAGGGAGGGAGGAAGGG
CGGGAGGCAGGATGGAAGGACGCGCTCATGAAACCTTCTGTGTTGCATCC
CAGAAAGTGCGGTGCGCGGTCGCGATGGGAGTTTGGCTCGATCCTTGGTT
TGTCGTACTGTTGTGAGGTTCACGTGAAAAAAGTATAGGTTTGAGCCGTT
GGAGGTCGTCATGCAGTATGTCCTTCCTTGATTCTCATCTAGTCTTCGAT
GAATGGATGTGCCGAAGATGAACACTGAGCAGATGGGGTTCACGTGCGGG
AATAACCACGCAGATTTTCCACACTTCGCATGTGCCTTCCTTTGATTGCA
ACCAACGCTTTACTTCCGGAAACCGGTTGCAAACAATGAGTGACGAAGAG
CGGAGGATTGCAGTCGAAGTATATGGCGATTCCATTGAGGCATCGCGTTC
CGTGCTCCTTCCTCAGTCACCTCACCGCACTCCAACCGATCAGATCACAT
CACGTTGCAGTGTTTTCGCGCGCCACTTCTTTGTGTATATTTGTGGTACG
GTGTAAACTTGAAACGCTATTCGCCATCCCCTACCTGGCTCCTTTCGGTT
CCTCACGATGAACCTCGTTCGCGCATGTGTACGCTCGGTGCCACCCGCTG
TCCCTCAGGTGTCTGTGAGCGTGGACTACGCGTATGCGATGACAACCCTC
ACCGTCCTGTGCCAGTTCTTCATCGGAGTCGTGGCGCTGCCGACGCCCTC
AACCAGCCACGGCTGCCGCCGCCGCTGTCGCTGGTGCCGCTGGTGCCTCG
TGCTTGGTCGTGCAAATGGTCGCTGCTCTCCCTCGTCTTCGTCATCGTCC
CCCTGTTCTTTTGCTCACTCTTCTTTTGCTACCTCGAACGATCAGCTTCC
CTCCCGACGGCCTGACATTTCGCCGGCCGCCCTGGTAACCACCGCCGCAA
TAGCGGGGAGGCGGAAATCCCGGGGGGGGCGTGTTGCTTTCGCGGAAAAG
GGAGGGGCGGTCATGGAGCCGAGGTTCGAGGACAGTGGTGGGGCACCGAG
AAACTGCGACACGGTGTGAAGTGTGAAAGAACAGACGAGGACATAATCTG
ATGGGTTTTCTTTTCGGAAGTGTGATGCGCTTCATCTTGAGTGAGGCAGC
ATGTGCATTTAGAGTCAGAGCGGTGTAGTCCACGTTAGCGGCGTAGGCTT
GGATTGGGACAGAAAATTTGACGACGTGTCCCGTGATGGGGCGTAATCTT
TGTTCGCCTTTGTTGTTTTACTGTTAAAGTCATATCTTTGTCCCTGCACG
GCTTCGTGAACGCGACCTTCGTCTCAAGTACTCTATCTCTTTCTGTCGTG
TATCGCCTTCTTTTCGACTTTTGGATTTGAAGTGTAGCAGTCTCATGTCG
TCGGCTTTGACCTTACCTTCCGTGTCGCTTGCTTGAGCTCTCTCTTGGAA
TTCTCGCGCCCGTCTCGCGCTTGCATGTGTGAACACCCGGCTAGCGCTCA
CGATGAGTTTTGAAAGCAACCCCCCCGTATCTCCCAAATCGAACTGTTGG
TTGATGCGTCGAGATGTTGCATGTCTGGCGTATGGTCGAGCGATCGCCAG
GTTTACTCTGGCGTCTTTGACCATGTTGCTGGGTAGACTGAATTTGGGGC
GTGTCCACACGGGTGGGGGGGATTTTTGTTGCGCGGAAGCGAAGGAGGTC
ACACGTTCTTGCTTGCATTGGTTCTTTTGGACAGTTGCTATTGTCGGCAA
CTCTTCAACAGCCAACACGGAGGCAGTGAAGACTTGCGCTGTCGCCGCGG
CCGTAGATAAATTCCTGTCCTGCCGTGGTTACTCTCGTAAGGTAAGCAGT
CGAACAATTGTTTTGGATGTGATATAATGTGGTGTGGAGTGGTGCGTGGG
TGTCGGTGTGCCTGTGTGGCGGGCCTTGCAAACCGTCTGGGTTGGCGAAT
GTTCCCCCCTCTTGGTGTGACTTTCTGTAATAGCGGATTCCTTGCAAGCT
GCCCGAAAGCGACGTCGACTGTTAAATTCAAGTAATGATCTCGGTTCGTC
ACCACAGGTGTTAAACGAACCATTTAAAGCTGATGCTTTAGAAGCATGTT
TCAAGCTG back to topCoding sequence (CDS) from alignment at P-fluviatile_contig10:27652..34709- >mRNA_P-fluviatile_contig10.609.1 ID=mRNA_P-fluviatile_contig10.609.1|Name=mRNA_P-fluviatile_contig10.609.1|organism=Porterinema fluviatile SAG_2381|type=CDS|length=2688bp|location=Sequence derived from alignment at P-fluviatile_contig10:27652..34709- (Porterinema fluviatile SAG_2381)
ATGGGATCTACAGACGGCCTATCGACTTGGCAGCATCGACAACAGCGAGA
TGAGGACGAGATTGCGCGGGAAGAGGGAAAGCAAGAGGATGAGGTAGAAC
AAGAGGAAGAGGAAGAGGAGCTGCAGCGGGATGGTGTCGTGGTGGTTGTC
TCGAGAGGCGGCGAAGATGCGTTGCGGCAGATGGGATCTACAGACGGCCT
ATCGACTTGGCAGCATCGACAACAGCGAGATGAGGACGAGATTGCGCGGG
AAGAGGGAAAGCAAGAGGATGAGGTAGAACAAGAGGAAGAGGAAGAGGAG
CTGCAGCGGGATGGTGTCGTGGTGGTTGTCTCGAGAGGCGGCGAAGATGC
GTTGCGGCAGATGAAGGCGGACCCGCTGAAGCAGCGGAAGGACACTCGCG
GAGACAGACACGGAGATACAGATAAAAATGGAGATGGGCGTGGGCACGAA
GATAGACACGACGCCGAAACCTCGAGTGACCAACACGCTGGCTCCAGCAC
GGGAGATCTGTACAGCTTCCGACGACGCTTGTGTGCGCACCTCCACATTG
AACCTCACGACGTCTCCGAAGCGAGGGGGAGGGAGGCGGGCTGGAGTGGC
AACGGTGGCAGAGTTCGGGGCTTCCACGACATGATTTGCGTCGGATTCGC
GATTTCGCTCTGCCTCAATCTGGGGAGTCTGACGGCCCGGAAGGAGGGCT
TTTTTGCCGCAGAGGTCAATTGCTTGCCCCAGGGAGCCGCGCAGACCATC
TTGATGAAGGCGGACCCGCTGAAGCAGCGGAAGGACACTCGCGGAGACAG
ACACGGAGATACAGATAAAAATGGAGATGGGCGTGGGCACGAAGATAGAC
ACGACGCCGAAACCTCGAGTGACCAACACGCTGGCTCCAGCACGGGAGAT
CTGTACAGCTTCCGACGACGCTTGTGTGCGCACCTCCACATTGAACCTCA
CGACGTCTCCGAAGCGAGGGGGAGGGAGGCGGGCTGGAGTGGCAACGGTG
GCAGAGTTCGGGGCTTCCACGACATGATTTGCGTCGGATTCGCGATTTCG
CTCTGCCTCAATCTGGGGAGTCTGACGGCCCGGAAGGAGGGCTTTTTTGC
CGCAGAGGTCAATTGCTTGCCCCAGGGAGCCGCGCAGACCATCTTGCCAG
ACCTCGGTATGTGGATAGGCTGGAGGCAAGCCGTCGCCAACTCGGAACAA
GCGGTGATTTTTGAACTCCAGCCAGACCTCGGTATGTGGATAGGCTGGAG
GCAAGCCGTCGCCAACTCGGAACAAGCGGTGATTTTTGAACTCCAGGAAC
TCAGCATGAAGGGCGCCGCCATGGGAATATTGACGGTGGTGGGGCACGCC
ACCGATGCCGTGCTCAACGCCGTGGGACTCGCGATCCTTCTCTACAGCCG
TCGGAAGGAACTCAGCATGAAGGGCGCCGCCATGGGAATATTGACGGTGG
TGGGGCACGCCACCGATGCCGTGCTCAACGCCGTGGGACTCGCGATCCTT
CTCTACAGCCGTCGGAAGCCTTTGCAGGAGGCGCAGTGCCGCTTGGTGAA
GCGCCTGTGCTTGGCTTCCCTGTCGATGGCGGGGTGGTTGCTGGGCATGA
CTGTCATTGGCTTCCTGGTCGCTGTCAAGGGCCCGATCGGCAACGCAGCG
GTCGCGTACTACTCCAACCTCGACCTGGACTGCCGAAGCTCGCCTTTGCA
GGAGGCGCAGTGCCGCTTGGTGAAGCGCCTGTGCTTGGCTTCCCTGTCGA
TGGCGGGGTGGTTGCTGGGCATGACTGTCATTGGCTTCCTGGTCGCTGTC
AAGGGCCCGATCGGCAACGCAGCGGTCGCGTACTACTCCAACCTCGACCT
GGACTGCCGAAGCTCGGTGTCTGTGAGCGTGGACTACGCGTATGCGATGA
CAACCCTCACCGTCCTGTGCCAGTTCTTCATCGGAGTCGTGGCGCTGCCG
ACGCCCTCAACCAGCCACGGCTGCCGCCGCCGCTGTCGCTGGTGCCGCTG
GTGCCTCGTGCTTGGTCGTGCAAATGGTCGCTGCTCTCCCTCGTCTTCGT
CATCGTCCCCCTGTTCTTTTGCTCACTCTTCTTTTGCTACCTCGAACGAT
CAGCTTCCCTCCCGACGGCCTGACATTTCGCCGGCCGCCCTGGTAACCAC
CGCCGCAATAGCGGGGAGGCGGAAATCCCGGGGGGGGCGTGTTGCTTTCG
CGGAAAAGGGAGGGGCGGTCATGGAGCCGAGGTTCGAGGACAGTGGTGGG
GCACCGAGAAACTGCGACACGGTGTGAGTGTCTGTGAGCGTGGACTACGC
GTATGCGATGACAACCCTCACCGTCCTGTGCCAGTTCTTCATCGGAGTCG
TGGCGCTGCCGACGCCCTCAACCAGCCACGGCTGCCGCCGCCGCTGTCGC
TGGTGCCGCTGGTGCCTCGTGCTTGGTCGTGCAAATGGTCGCTGCTCTCC
CTCGTCTTCGTCATCGTCCCCCTGTTCTTTTGCTCACTCTTCTTTTGCTA
CCTCGAACGATCAGCTTCCCTCCCGACGGCCTGACATTTCGCCGGCCGCC
CTGGTAACCACCGCCGCAATAGCGGGGAGGCGGAAATCCCGGGGGGGGCG
TGTTGCTTTCGCGGAAAAGGGAGGGGCGGTCATGGAGCCGAGGTTCGAGG
ACAGTGGTGGGGCACCGAGAAACTGCGACACGGTGTGA back to top
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