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Alignments
The following features are aligned
Aligned Feature | Feature Type | Alignment Location |
chr13 | genome | chr13:529350..533708 + |
Analyses
This mRNA is derived from or has results from the following analyses
Homology
BLAST of NO13G01810.1 vs.
Match: EWM21831.1 (abc subfamily abcg [Nannochloropsis gaditana]) HSP 1 Score: 1175.6 bits (3040), Expect = 0.000e+0 Identity = 604/722 (83.66%), Postives = 663/722 (91.83%), Query Frame = 0
Query: 1 MLALALQAGSLATGAPTPGKSLDKQGSAHLPIDLSSTLPRRNSEDEASWEEGSNHSPN---SEMGSPSAGINNTHRNSSTGNAPYATHATKKGSSTQSSHVALDLRVPSAVKKLRQT-EDRHQQHLELAWDFSLAVKATKQEQKLSGTYTKDLLTNVAGSVKSGQMMAVMGSSGAGKSTFLDCVSLRNQQFTGNVFINNKPADEKYYFMTGFVYQEDLFIPTMTVREHLTFHAMVRMDQEIAVEQRLQRVEDVLVEVAMSHCPDTIIGGAGTGYRGLSGGEKKRLAFGTELLNDPSIIFADEPTSGLDSFMTRGVCTTMRELADDGKIIMCVIHQPSSQTFDLFTHLLLLAKGRVVYNGPMATLQSYFSSLGVICPRFHNPADFFINQISIVPTKQEASMARLKLLWDSYEGSNLAKGNMAWKADLSNEDRMAKHRAVSMKHFHASMGTQFYYTMKRNIQNEYRRATEVKAKFLNAIVMGFILGIIYHGQDDTQQSAKNIMGLFFLIIMFQTMVSMFGVLQAFPSECKVFMRENLSGANRVSSYFLARTLSELPSTIIYPAIFSAIVYGMANLQPTAGRFYFYLLTIILVANCATSVGYMISSLTSHEAVAYALAPLFLMPMALFAGLLLDLNTIPIWLRWLDFFSIIKYGYQLLIINQYNERELSCTGALFCRWKTGAAVMDYVGTSPDSVGETLVVLMALIVIFRLLALWFLTRKSNKAH 719
MLALALQAGSLATGAPTPG+SL KQGS +PIDLS+TLPRRNSEDEASW E ++ S + SE GSPS GI + S++ +ATHATKKGS Q+SHVALDLRVP AVKKLRQT H Q+LELAWDFSL+VKATK+E KLSG+Y+K++L+NVAGSVKSGQMMAVMGSSGAGKSTFLDCVSLRNQQF+GNV+IN KPADEKYYFMTGFVYQEDLFIPTMTVREHLTFHAMVRM+ +I VE+RL+RVEDVL+EVAMSHCP+TIIGG GTGYRG+SGGEKKRLAFGTELLN+PSI+FADEPTSGLDSFMTRGVC TMRELADDGKIIMCVIHQPSSQTFDLFTHLLLLAKGR+VYNGPMATLQSYFSSLGVICP FHNPADFFINQISIVPT+QEASMARL+ LWD+YE SNLA GNMAWKA++ E KH+AVSMKHFHAS TQFYYTMKRNIQNE+RRAT+VKAKF+N++VMG ILG IY GQ DTQ+SAKNIMGLFFLIIMFQTMVSMFGVLQAFPSECKVF+RENLSGANRVSSYFLARTLSELPSTIIYP+IF+AIVYGMA+LQPTAGRFYFY+ TIILVANCATSVGYMISS+TSHEAVAYALAPLFLMPMALFAGLLLDLNTIP+WLRWLDFFSIIKYGYQLLIINQY +RELSC G+LFCRWKTG AVM+YVGTSP VGET+ +L+ALI+IFRLLA +FLTRKSN+AH
Sbjct: 1 MLALALQAGSLATGAPTPGRSLSKQGS--MPIDLSTTLPRRNSEDEASWVENTSPSSDGSESETGSPSMGIVDNRPGSTSDT--FATHATKKGSG-QASHVALDLRVPPAVKKLRQTGRAEHSQNLELAWDFSLSVKATKREAKLSGSYSKEILSNVAGSVKSGQMMAVMGSSGAGKSTFLDCVSLRNQQFSGNVYINGKPADEKYYFMTGFVYQEDLFIPTMTVREHLTFHAMVRMNSDIPVEKRLERVEDVLMEVAMSHCPETIIGGPGTGYRGISGGEKKRLAFGTELLNNPSIVFADEPTSGLDSFMTRGVCMTMRELADDGKIIMCVIHQPSSQTFDLFTHLLLLAKGRIVYNGPMATLQSYFSSLGVICPHFHNPADFFINQISIVPTEQEASMARLQSLWDAYENSNLAAGNMAWKAEMPAEILNLKHKAVSMKHFHASTWTQFYYTMKRNIQNEFRRATDVKAKFMNSLVMGMILGTIYFGQTDTQESAKNIMGLFFLIIMFQTMVSMFGVLQAFPSECKVFIRENLSGANRVSSYFLARTLSELPSTIIYPSIFAAIVYGMADLQPTAGRFYFYIFTIILVANCATSVGYMISSMTSHEAVAYALAPLFLMPMALFAGLLLDLNTIPVWLRWLDFFSIIKYGYQLLIINQYTDRELSCVGSLFCRWKTGTAVMNYVGTSPQKVGETMGILVALIIIFRLLAFFFLTRKSNRAH 717
The following BLAST results are available for this feature:
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
Sequences
The following sequences are available for this feature:
mRNA sequence >NO13G01810.1 ID=NO13G01810.1|Name=NO13G01810.1|organism=Nannochloropsis oceanica|type=mRNA|length=3770bp GCGGTTCCTCTCCAAGTCAATCATGCAATCTCCAACAAACCTGTGTGTCG TATAAGGTCACCTTACCTCGTGTATGTACCTGGCTGAATTCGTGGGCATA CCTTGGTTTGTGAATCCCTTTGCCTCGCAAGTCCAAGCAAGTGCACGTCG GCTTTCAACAGCTTTTCGCGAAGACGCGCCCGTCGTCAAAGAAAACATTC CGTTGGGGCCGCTGGCCGCCCAAGCGGGTGCAAGGGATATATATGGAGGG ATAAACGCATACTAGCTGTACGGCTTTGCGAGCTTCGTGCTTGGCACTTG GTTTCCCACCCAATAACACGGCAAGCATGCTCGCACAAACACACTCCATT CACTCACTTCTGGCTCTCCCTCTTTATTTCTCTGTCTCCTTCTTTCAGAC GCCACGGGTTGTGGGTGCGCTCTCACCTCTATCGTCGTCGTCGTCGTCGT TCCGACTGTCCTCGGCACTGCTGTGTGAGCGTACTAATATCCCAACGGCC TCGTCGTCCTTCAGGACCTTGACCACCACCCCAGCCAGGTACCAACCTCA TCGTCGATACCCTTTCTCTGTCCGTCCTCGGGATAGTCTGTCGATCAACC ACCACCTCTCTGCTGGATCCGATTGATCTCCTTCTAGATACCTGTATTCG CGTGCGTCCCGACAACAACAATCTAGCATTCTATCATGCTCGCGCTCGCC TTACAAGCGGGCTCGTTGGCTACAGGCGCCCCCACACCAGGCAAATCACT CGACAAGCAGGGTTCTGCTCACTTGCCCATCGACTTGTCCTCTACCCTCC CCCGCCGCAATTCTGAGGACGAAGCCTCTTGGGAGGAGGGCAGTAACCAT AGCCCCAACTCAGAGATGGGGAGCCCGTCGGCGGGGATAAACAACACCCA CCGTAATAGCAGCACCGGAAATGCCCCATATGCCACCCACGCCACCAAGA AGGGCAGCTCTACCCAGTCCTCTCATGTGGCCCTTGATTTGCGAGTGCCC TCTGCGGTGAAGAAGTTGCGCCAGACAGAAGACCGCCATCAGCAGCATTT GGAGCTGGCCTGGGACTTTTCCTTGGCCGTCAAGGCGACGAAGCAGGAGC AGAAGCTATCGGGGACGTACACCAAGGACCTTCTGACGAATGTGGCAGGC TCAGTAAAGAGTGGCCAGATGATGGCGGTGATGGGCTCATCTGGGGCGGG GAAATCGACGTTTTTGGACTGTGTCTCTCTGCGGAACCAGCAATTTACGG GAAATGTGTTCATCAACAATAAGCCGGCGGATGAGAAGTATTATTTTATG ACGGGCTTTGTGTACCAGGAAGATTTGTTCATCCCCACCATGACGGTACG CGAACACTTGACGTTCCATGCCATGGTGCGGATGGACCAGGAAATCGCGG TTGAGCAGCGGCTACAGCGGGTGGAGGACGTGTTGGTGGAAGTGGCCATG TCGCATTGCCCCGATACGATCATTGGGGGCGCAGGCACGGGCTACCGCGG GCTCTCGGGGGGAGAAAAGAAGCGGCTGGCATTTGGCACGGAATTGTTGA ACGACCCGAGTATTATCTTCGCGGATGAGCCGACGTCAGGCCTCGACTCC TTCATGACCCGAGGTGTTTGTACGACCATGCGCGAGCTAGCCGATGATGG AAAAATCATCATGTGCGTCATCCACCAACCGTCCTCGCAGACATTCGATC TTTTCACCCACCTCCTCCTCCTCGCCAAGGGACGTGTCGTGTACAATGGC CCCATGGCCACGTTGCAGTCTTACTTCTCCTCTCTTGGGGTTATCTGTCC CCGTTTCCACAACCCGGCTGATTTCTTTATCAACCAGATTTCGATAGTCC CTACCAAGCAAGAAGCCTCAATGGCGCGTCTGAAGCTGCTGTGGGACTCG TATGAGGGCTCCAATCTCGCCAAGGGGAACATGGCCTGGAAGGCCGACTT GTCGAATGAGGACCGTATGGCGAAGCACAGGGCGGTGAGCATGAAGCATT TTCATGCCTCCATGGGGACGCAGTTTTACTACACCATGAAGAGGAATATC CAAAATGAGTATAGACGAGCAACGGAGGTGAAGGCCAAATTCTTGAACGC GATCGTTATGGGCTTCATCCTCGGCATTATCTATCACGGGCAAGACGACA CCCAGCAGTCCGCAAAGAATATCATGGGGCTCTTCTTCCTCATCATCATG TTCCAGACAATGGTTTCCATGTTTGGCGTGCTGCAGGCTTTCCCCTCCGA GTGCAAGGTCTTCATGCGCGAGAATCTGTCAGGCGCGAACCGCGTCAGCT CCTACTTCCTCGCCCGGACCCTCAGCGAGCTGCCTTCAACCATCATCTAC CCGGCAATATTCTCAGCAATTGTCTACGGCATGGCGAACCTGCAGCCGAC TGCCGGGAGGTTTTACTTCTACCTGTTGACGATCATCCTGGTGGCGAACT GCGCGACGTCGGTGGGGTACATGATTAGCAGCTTGACGAGCCACGAGGCG GTAGCTTATGCCTTGGCGCCTCTTTTCCTGATGCCCATGGCATTATTTGC TGGCTTGTTGCTCGATCTCAACACGATCCCTATCTGGCTTCGGTGGCTGG ATTTCTTCTCCATCATTAAGTATGGGTACCAACTATTGATTATCAACCAG TATAATGAGAGGGAGTTGAGCTGTACGGGCGCTTTATTCTGTCGATGGAA GACGGGAGCCGCGGTGATGGACTACGTGGGGACAAGCCCTGATAGCGTGG GGGAAACGCTCGTGGTGTTGATGGCTCTTATCGTAATTTTTAGGCTATTG GCGCTATGGTTTTTGACAAGGAAGAGTAACAAGGCGCATTAAAAGAAGGG AGGAAGGGAGATGGACAAGGGTTATGTACGTTTCAGTTTGGCCGTCCGCA TTTTTGTTCTAAGAGTGTGAGAGGAAAATTTGAGCGGAAGTGAGTTATGC ATATGAAAGAAAGGTTGGGAGAGGAGGGGAAGGGCAGAGTCTATTCTTTA ACATTAGTAGAACATCCTGGTATAGGAGCGAAGGCGACCGTGTGAATAAG AGAAAGAAGGGAGAAATAAAGGAAGTAGGAAGAACCGAAAGAAAAAGTGA GTGAGAGACCACATGTTTTCATTTATCCACAACTGTTGGTGTGTGACAAA GGGCGCAGGAAAGACAAGGAGGAGGAGGCGGAGGCGAAGTGTGTGAACAG AAGAGATGCAAAGGAATGAAGCGAGGGGCGGGGGGCAATGCTCTTCCGTC TTTTCTTCATTACGAGAAGAAAGAAGAAAATGAAAGAGAAATTAATCGGT CAGAGCCAAAACTTAAGGCATTGAGACAGGAGATGGAAGAGGAAAAAAAT GAAGGGGGGGGGAGGAGGAGGAAGAAGATAGACAGATTAAGAAGGAGATA AAGAAACGGAGAGTGAGAGATAAATTGTGTGTACTAGGGCGCTCTTAAAG CCTCTCATGGAATGGACGGATAGCGGGAGGGAAGGAGGACAACAACAGCA GCAGCAGCAGCAGCAGCAGCAGCAGCAGCAACAACAACAACAACAACAAC GGCAACCGCAAGAACGACGACGACTCTGATGACGCCAAGAAGGAGGGCAC AGGCAAGCAGGCTAGCTAGAGCATGCGGGAGAGAGCGAGATGCGGGAAGC TTGGAGGTGGAGAAAGAGAGGGAGCATGTTAGCTAGCTTAAGACGAGAAG GAAGAGGGGGAAGAGAAATATTTAAGTGGAAAATCAGTCAGTCCTTGTCG TTGTCTCAATTTAAAGAAAG back to topprotein sequence of NO13G01810.1 >NO13G01810.1-protein ID=NO13G01810.1-protein|Name=NO13G01810.1|organism=Nannochloropsis oceanica|type=polypeptide|length=719bp MLALALQAGSLATGAPTPGKSLDKQGSAHLPIDLSSTLPRRNSEDEASWE EGSNHSPNSEMGSPSAGINNTHRNSSTGNAPYATHATKKGSSTQSSHVAL DLRVPSAVKKLRQTEDRHQQHLELAWDFSLAVKATKQEQKLSGTYTKDLL TNVAGSVKSGQMMAVMGSSGAGKSTFLDCVSLRNQQFTGNVFINNKPADE KYYFMTGFVYQEDLFIPTMTVREHLTFHAMVRMDQEIAVEQRLQRVEDVL VEVAMSHCPDTIIGGAGTGYRGLSGGEKKRLAFGTELLNDPSIIFADEPT SGLDSFMTRGVCTTMRELADDGKIIMCVIHQPSSQTFDLFTHLLLLAKGR VVYNGPMATLQSYFSSLGVICPRFHNPADFFINQISIVPTKQEASMARLK LLWDSYEGSNLAKGNMAWKADLSNEDRMAKHRAVSMKHFHASMGTQFYYT MKRNIQNEYRRATEVKAKFLNAIVMGFILGIIYHGQDDTQQSAKNIMGLF FLIIMFQTMVSMFGVLQAFPSECKVFMRENLSGANRVSSYFLARTLSELP STIIYPAIFSAIVYGMANLQPTAGRFYFYLLTIILVANCATSVGYMISSL TSHEAVAYALAPLFLMPMALFAGLLLDLNTIPIWLRWLDFFSIIKYGYQL LIINQYNERELSCTGALFCRWKTGAAVMDYVGTSPDSVGETLVVLMALIV IFRLLALWFLTRKSNKAH* back to topmRNA from alignment at chr13:529350..533708+ Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >NO13G01810.1 ID=NO13G01810.1|Name=NO13G01810.1|organism=Nannochloropsis oceanica|type=mRNA|length=4359bp|location=Sequence derived from alignment at chr13:529350..533708+ (Nannochloropsis oceanica) GCGGTTCCTCTCCAAGTCAATCATGCAATCTCCAACAAACCTGTGTGTCG
TATAAGGTCACCTTACCTCGTGTATGTACCTGGCTGAATTCGTGGGCATA
CCTTGGTTTGTGAATCCCTTTGCCTCGCAAGTCCAAGCAAGTGCACGTCG
GCTTTCAACAGCTTTTCGCGAAGACGCGCCCGTCGTCAAAGAAAACATTC
CGTTGGGGCCGCTGGCCGCCCAAGCGGGTGCAAGGGATATATATGGAGGG
ATAAACGCATACTAGCTGTACGGCTTTGCGAGCTTCGTGCTTGGCACTTG
GTTTCCCACCCAATAACACGGCAAGCATGCTCGCACAAACACACTCCATT
CACTCACTTCTGGCTCTCCCTCTTTATTTCTCTGTCTCCTTCTTTCAGAC
GCCACGGGTTGTGGGTGCGCTCTCACCTCTATCGTCGTCGTCGTCGTCGT
TCCGACTGTCCTCGGCACTGCTGTGTGAGCGTACTAATATCCCAACGGCC
TCGTCGTCCTTCAGGACCTTGACCACCACCCCAGCCAGGTACCAACCTCA
TCGTCGATACCCTTTCTCTGTCCGTCCTCGGGATAGTCTGTCGATCAACC
ACCACCTCTCTGCTGGATCCGATTGATCTCCTTCTAGATACCTGTATTCG
CGTGCGTCCCGACAACAACAATCTAGCATTCTATCATGCTCGCGCTCGCC
TTACAAGCGGGCTCGTTGGCTACAGGCGCCCCCACACCAGGCAAATCACT
CGACAAGCAGGGTTCTGCTCACTTGCCCATCGACTTGTCCTCTACCCTCC
CCCGCCGCAATTCTGAGGACGAAGCCTCTTGGGAGGAGGGCAGTAACCAT
AGCCCCAACTCAGAGATGGGGAGCCCGTCGGCGGGGATAAACAACACCCA
CCGTAATAGCAGCACCGGAAATGCCCCATATGCCACCCACGCCACCAAGA
AGGGCAGCTCTACCCAGTCCTCTCATGTGGCCCTTGATTTGCGAGTGCCC
TCTGCGGTGAAGAAGTTGCGCCAGACAGAAGACCGCCATCAGCAGCATTT
GGAGCTGGCCTGGGACTTTTCCTTGGCCGTCAAGGCGACGAAGCAGGAGC
AGAAGCTATCGGGGACGTACACCAAGGACCTTCTGACGAATGTGGCAGGC
TCAGTAAAGAGTGGCCAGATGATGGCGGTGATGGGCTCATCTGGGGCGGG
GAAATCGACGTTTTTGGACTGTGTCTCTCTGCGGAACCAGCAATTTACGG
GAAATGTGTTCATCAACAATAAGCCGGCGGATGAGAAGTATTATTTTATG
ACGGGCTTTGTGTACCAGGAAGATTTGTTCATCCCCACCATGACGGTACG
CGAACACTTGACGTTCCATGCCATGGTGCGGATGGACCAGGAAATCGCGG
TTGAGCAGCGGCTACAGCGGGTGGAGGACGTGTTGGTGGAAGTGGCCATG
TCGCATTGCCCCGATACGATCATTGGGGGCGCAGGCACGGGCTACCGCGG
GCTCTCGGGGGGAGAAAAGAAGCGGCTGGCATTTGGCACGGAATTGTTGA
ACGACCCGAGTATTATCTTCGCGGATGAGCCGACGTCAGGTACGAGGGAG
AGAGAGAAAGGAGAGGTGTGTCCGGTATGGGATGTGAGTGTATCTGCTTT
CTGACTCTTACTTCACTTTTATGTCCTTTTTCTACGCGTGTGAGGTGAAA
TAGAGAGCTTACTTCTACTTGCAGTGTACTTATATTTCTCTCCTTTCCTC
CCTCCCTTCAGGCCTCGACTCCTTCATGACCCGAGGTGTTTGTACGACCA
TGCGCGAGCTAGCCGATGATGGAAAAATCATCATGTGCGTCATCCACCAA
CCGTCCTCGCAGACATTCGATCTTTTCACCCACCTCCTCCTCCTCGCCAA
GGGACGTGTCGTGTACAATGGCCCCATGGCCACGTTGCAGTCTTACTTCT
CCTCTCTTGGGGTTATCTGTCCCCGTTTCCACAACCCGGCTGATTTCTTT
ATCAACCAGATTTCGATAGTCCCTACCAAGCAAGAAGCCTCAATGGCGCG
TCTGAAGCTGCTGTGGGACTCGTATGAGGGCTCCAATCTCGCCAAGGGGA
ACATGGCCTGGAAGGCCGACTTGTCGAATGAGGACCGTATGGCGAAGCAC
AGGGCGGTGAGCATGAAGCATTTTCATGCCTCCATGGGGACGCAGTTTTA
CTACACCATGAAGAGGAATATCCAAAATGAGTATAGGTATGTCTATGTCT
TGTCGTCCTTCCCCTCCTCCTTGTCTCTCGTATGCCTGCCCTCCCTTTAT
TTCTCCCTTTCTTCAGGCGCCGACCATAATAATGCGTTCTTTCATGGCAT
CCGGATAAGAAGGGACATCCCGCATGGGATTCAGCCTCCCCTTTGTCTTC
TTCCCCCCTCCCTATCTCCTCCTTTCCTCTCCTCCCTTTCTCCTACGGCA
TGAATCCACTCATGTACCCTTCTGCCTTCCTTCCTTCCTCGTTTCCTCTT
TTCTTCCTTCCTCACACCTAGACGAGCAACGGAGGTGAAGGCCAAATTCT
TGAACGCGATCGTTATGGGCTTCATCCTCGGCATTATCTATCACGGGCAA
GACGACACCCAGCAGTCCGCAAAGAATATCATGGGGCTCTTCTTCCTCAT
CATCATGTTCCAGACAATGGTTTCCATGTTTGGCGTGCTGCAGGTAAGCC
CTCCCTCCCTTTCTCCCTCCCTCCTCAGGAAATTCCATGCGGACAAGCAA
AGCAAGACGAAAGCAGCACCCAACCTAACCCCCTGCTCTCCTTTCCATCG
TCCTCTCTCTTTCCTCCTCTCCCAGGCTTTCCCCTCCGAGTGCAAGGTCT
TCATGCGCGAGAATCTGTCAGGCGCGAACCGCGTCAGCTCCTACTTCCTC
GCCCGGACCCTCAGCGAGCTGCCTTCAACCATCATCTACCCGGCAATATT
CTCAGCAATTGTCTACGGCATGGCGAACCTGCAGCCGACTGCCGGGAGGT
TTTACTTCTACCTGTTGACGATCATCCTGGTGGCGAACTGCGCGACGTCG
GTGGGGTACATGATTAGCAGCTTGACGAGCCACGAGGCGGTAGCTTATGC
CTTGGCGCCTCTTTTCCTGATGCCCATGGCATTATTTGCTGGCTTGTTGC
TCGATCTCAACACGATCCCTATCTGGCTTCGGTGGCTGGATTTCTTCTCC
ATCATTAAGTATGGGTACCAACTATTGATTATCAACCAGTATAATGAGAG
GGAGTTGAGCTGTACGGGCGCTTTATTCTGTCGATGGAAGACGGGAGCCG
CGGTGATGGACTACGTGGGGACAAGCCCTGATAGCGTGGGGGAAACGCTC
GTGGTGTTGATGGCTCTTATCGTAATTTTTAGGCTATTGGCGCTATGGTT
TTTGACAAGGAAGAGTAACAAGGCGCATTAAAAGAAGGGAGGAAGGGAGA
TGGACAAGGGTTATGTACGTTTCAGTTTGGCCGTCCGCATTTTTGTTCTA
AGAGTGTGAGAGGAAAATTTGAGCGGAAGTGAGTTATGCATATGAAAGAA
AGGTTGGGAGAGGAGGGGAAGGGCAGAGTCTATTCTTTAACATTAGTAGA
ACATCCTGGTATAGGAGCGAAGGCGACCGTGTGAATAAGAGAAAGAAGGG
AGAAATAAAGGAAGTAGGAAGAACCGAAAGAAAAAGTGAGTGAGAGACCA
CATGTTTTCATTTATCCACAACTGTTGGTGTGTGACAAAGGGCGCAGGAA
AGACAAGGAGGAGGAGGCGGAGGCGAAGTGTGTGAACAGAAGAGATGCAA
AGGAATGAAGCGAGGGGCGGGGGGCAATGCTCTTCCGTCTTTTCTTCATT
ACGAGAAGAAAGAAGAAAATGAAAGAGAAATTAATCGGTCAGAGCCAAAA
CTTAAGGCATTGAGACAGGAGATGGAAGAGGAAAAAAATGAAGGGGGGGG
GAGGAGGAGGAAGAAGATAGACAGATTAAGAAGGAGATAAAGAAACGGAG
AGTGAGAGATAAATTGTGTGTACTAGGGCGCTCTTAAAGCCTCTCATGGA
ATGGACGGATAGCGGGAGGGAAGGAGGACAACAACAGCAGCAGCAGCAGC
AGCAGCAGCAGCAGCAGCAACAACAACAACAACAACAACGGCAACCGCAA
GAACGACGACGACTCTGATGACGCCAAGAAGGAGGGCACAGGCAAGCAGG
CTAGCTAGAGCATGCGGGAGAGAGCGAGATGCGGGAAGCTTGGAGGTGGA
GAAAGAGAGGGAGCATGTTAGCTAGCTTAAGACGAGAAGGAAGAGGGGGA
AGAGAAATATTTAAGTGGAAAATCAGTCAGTCCTTGTCGTTGTCTCAATT
TAAAGAAAG back to topCoding sequence (CDS) from alignment at chr13:529350..533708+ >NO13G01810.1 ID=NO13G01810.1|Name=NO13G01810.1|organism=Nannochloropsis oceanica|type=CDS|length=2157bp|location=Sequence derived from alignment at chr13:529350..533708+ (Nannochloropsis oceanica) ATGCTCGCGCTCGCCTTACAAGCGGGCTCGTTGGCTACAGGCGCCCCCAC ACCAGGCAAATCACTCGACAAGCAGGGTTCTGCTCACTTGCCCATCGACT TGTCCTCTACCCTCCCCCGCCGCAATTCTGAGGACGAAGCCTCTTGGGAG GAGGGCAGTAACCATAGCCCCAACTCAGAGATGGGGAGCCCGTCGGCGGG GATAAACAACACCCACCGTAATAGCAGCACCGGAAATGCCCCATATGCCA CCCACGCCACCAAGAAGGGCAGCTCTACCCAGTCCTCTCATGTGGCCCTT GATTTGCGAGTGCCCTCTGCGGTGAAGAAGTTGCGCCAGACAGAAGACCG CCATCAGCAGCATTTGGAGCTGGCCTGGGACTTTTCCTTGGCCGTCAAGG CGACGAAGCAGGAGCAGAAGCTATCGGGGACGTACACCAAGGACCTTCTG ACGAATGTGGCAGGCTCAGTAAAGAGTGGCCAGATGATGGCGGTGATGGG CTCATCTGGGGCGGGGAAATCGACGTTTTTGGACTGTGTCTCTCTGCGGA ACCAGCAATTTACGGGAAATGTGTTCATCAACAATAAGCCGGCGGATGAG AAGTATTATTTTATGACGGGCTTTGTGTACCAGGAAGATTTGTTCATCCC CACCATGACGGTACGCGAACACTTGACGTTCCATGCCATGGTGCGGATGG ACCAGGAAATCGCGGTTGAGCAGCGGCTACAGCGGGTGGAGGACGTGTTG GTGGAAGTGGCCATGTCGCATTGCCCCGATACGATCATTGGGGGCGCAGG CACGGGCTACCGCGGGCTCTCGGGGGGAGAAAAGAAGCGGCTGGCATTTG GCACGGAATTGTTGAACGACCCGAGTATTATCTTCGCGGATGAGCCGACG TCAGGCCTCGACTCCTTCATGACCCGAGGTGTTTGTACGACCATGCGCGA GCTAGCCGATGATGGAAAAATCATCATGTGCGTCATCCACCAACCGTCCT CGCAGACATTCGATCTTTTCACCCACCTCCTCCTCCTCGCCAAGGGACGT GTCGTGTACAATGGCCCCATGGCCACGTTGCAGTCTTACTTCTCCTCTCT TGGGGTTATCTGTCCCCGTTTCCACAACCCGGCTGATTTCTTTATCAACC AGATTTCGATAGTCCCTACCAAGCAAGAAGCCTCAATGGCGCGTCTGAAG CTGCTGTGGGACTCGTATGAGGGCTCCAATCTCGCCAAGGGGAACATGGC CTGGAAGGCCGACTTGTCGAATGAGGACCGTATGGCGAAGCACAGGGCGG TGAGCATGAAGCATTTTCATGCCTCCATGGGGACGCAGTTTTACTACACC ATGAAGAGGAATATCCAAAATGAGTATAGACGAGCAACGGAGGTGAAGGC CAAATTCTTGAACGCGATCGTTATGGGCTTCATCCTCGGCATTATCTATC ACGGGCAAGACGACACCCAGCAGTCCGCAAAGAATATCATGGGGCTCTTC TTCCTCATCATCATGTTCCAGACAATGGTTTCCATGTTTGGCGTGCTGCA GGCTTTCCCCTCCGAGTGCAAGGTCTTCATGCGCGAGAATCTGTCAGGCG CGAACCGCGTCAGCTCCTACTTCCTCGCCCGGACCCTCAGCGAGCTGCCT TCAACCATCATCTACCCGGCAATATTCTCAGCAATTGTCTACGGCATGGC GAACCTGCAGCCGACTGCCGGGAGGTTTTACTTCTACCTGTTGACGATCA TCCTGGTGGCGAACTGCGCGACGTCGGTGGGGTACATGATTAGCAGCTTG ACGAGCCACGAGGCGGTAGCTTATGCCTTGGCGCCTCTTTTCCTGATGCC CATGGCATTATTTGCTGGCTTGTTGCTCGATCTCAACACGATCCCTATCT GGCTTCGGTGGCTGGATTTCTTCTCCATCATTAAGTATGGGTACCAACTA TTGATTATCAACCAGTATAATGAGAGGGAGTTGAGCTGTACGGGCGCTTT ATTCTGTCGATGGAAGACGGGAGCCGCGGTGATGGACTACGTGGGGACAA GCCCTGATAGCGTGGGGGAAACGCTCGTGGTGTTGATGGCTCTTATCGTA ATTTTTAGGCTATTGGCGCTATGGTTTTTGACAAGGAAGAGTAACAAGGC GCATTAA back to top
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