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Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
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| chr26 | genome | chr26:337986..342270 + |
Analyses
This mRNA is derived from or has results from the following analyses
Homology
BLAST of NO26G01030.1 vs.
Match: EWM23163.1 (Nicotinamide N-methyltransferase, putative [Nannochloropsis gaditana]) HSP 1 Score: 602.1 bits (1551), Expect = 1.500e-168 Identity = 305/460 (66.30%), Postives = 369/460 (80.22%), Query Frame = 0
Query: 9 TVPNDEEVGNALLEAARYGDLEDLQQLTNTYGKQRLAYRGANGNNTALHYACANGHTDCVAWLIEQGVEGAPCNESGNTPLHWAVQNQHDEVVRILLAKLDNVDVLIRNGFGKSVLTEGFAGKNQEILKMLLEHSSAAEDALMGVTGQGLKEEGLQEMNEGEEGEETEVAVTLAIGENDEATAAVVVHRLVLDKLEEPERVLQIREMEIKHADDPFGQAAAEDTTGLGVWPASLILARWLVIQHKELLDDATVVELGCGCAVPGLAAALHGRPKVVHLTDLNPETLANAQENVQLNKESFLVPDAAARVHVTAMDWGNKASYPAGAIGSVDVVLGSDLVYQKSLGPLLSQVLLRLLRPGGKFLYVAPATGRDGLPEFLDMLSHGAGLTLVSEKEAGPELLANPLEGSRGTAEIEEDDGGIEMEDHPQQEAAERADESFFLHFHEMATKGVMYKLYEFEKQ 469
+ P+DEEVG A+L+AARYGD+EDLQ+LT+TYG L +RG NG NTALH+ACANGH DCVAWLI+QGVEG NESGN+PLHWAVQNQH+ VVR+LL KL+NVDVL RN FGKSVLTEGFAGK+Q ILK+LLEH SA EDALMG GQG +EG + G ++ A G EAT V+HRLVLD+ +P+RVLQIRE+ I+HADDPFG+AAA+DTTGLGVWPA+L+LA+WLV + KELLD +T+VELGCGCAVPGLAAALHGRP+ VHLTDLN ETL NA+ N+ +N+E+FLVP+ AA VHV+AMDWG++ SYP A+G+VD+VLGSDLVYQKSL PLL+QVL RL+RPGG+FLYVAPATGRDGL +F+ LS AGL VSEKEAGP+LL NPLEG +E G + ++EAA+ AD+ FFLHF+E+AT+ V+YKLYE+ KQ
Sbjct: 10 SAPSDEEVGQAVLDAARYGDVEDLQELTSTYGGNHLGFRGGNGGNTALHFACANGHVDCVAWLIDQGVEGCAANESGNSPLHWAVQNQHEAVVRLLLEKLENVDVLARNAFGKSVLTEGFAGKSQGILKLLLEHPSADEDALMGGEGQGQCQEGSDGGEVLKAGLQSAKEANEASGGGGEAT---VIHRLVLDRENDPDRVLQIRELAIEHADDPFGKAAADDTTGLGVWPAALVLAQWLVQERKELLDASTIVELGCGCAVPGLAAALHGRPRAVHLTDLNSETLMNARANLAMNRENFLVPETAACVHVSAMDWGDEQSYPPSAVGAVDLVLGSDLVYQKSLAPLLAQVLCRLMRPGGRFLYVAPATGRDGLEDFVKGLSDRAGLFQVSEKEAGPKLLGNPLEGG---GMVEGSTGSPQ-----EEEAADSADQMFFLHFNELATQEVVYKLYEYVKQ 458
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 >NO26G01030.1 ID=NO26G01030.1|Name=NO26G01030.1|organism=Nannochloropsis oceanica|type=mRNA|length=3958bp
CCCCTACCAATATCCCCTCGTCATCCCCCGCACCGCCCACCACCCCCCTC
TTCCGGTACCGACCTCTCGAGCCCACCCCTCCCAATGTGCCCGGCGAAGC
CACCACCGGCGTCTTACTAGTGCTACCACTATTATCACTACTACTACTAC
TACTACTGCTACTGCTACTGCTTCTACTCCTACTGGTGCTGCTGGTGCTC
CTTCGGACACTCACCACCATCTCCTCCTCCACCACCAGAGCCCCCCCACC
TTTCAATCCATTTCCATTCTCCACCGCCCCCACAAAGTCACCAAACACCG
AGATTGACAAGTGGCTTCCAGCATGCCCCTGGCTACTCCCCTTCCCCGCT
GTGGCCGCGCCTCCTCCGCGTCCATTATCCCTCAATTTATGATGCTGCGT
GCGGTACGGCTGCTTGATCTTATGCAAAGCCCTCGCCTCTATCTGCCTCA
CTCTTTCTCGCGTCACTCGAAATGCCACTCCTATCTCCTCCAGAGTCCGC
TGTTGCCCATCTACAAGGCCATACCTCATCTTAACCACGTCTGCCTCCCG
CGGATTCAAGGAGTCAAGCAGCCGTTCCACCTGCTCACGCATGTACGCCT
CATCCGCCTTGACGTCCTGCAAAGGCTCCGAGTCCGAAATACTGTCGCTT
ACCCGCACCTCGTCCCCTATCCCAGACCCACTCTTTCTCCCGCCTGAAGG
CCTGGTCGCGTCCATGGATAAGGTATGCTGGGTCCTTTCTCGCAGAAACT
GCAGCTTCCGTTGAGGAATGTCCACCCTCGCAGCAATCTCCGCCTCGGTC
GGCTGCCTGCCCAATTGCGCGCTTAGCTCACGTTCAGCCCTCCCGATTTG
ATTGAGTAAATCGTGGACGTGGACGGGGAGACGGACAACACGCGATTGAT
CAGCAACGGCGCGCATGACGCTCTGCTTGATCCACCACGTAGCGTACGTT
GAAAATTTAAACCCGCGGTCAGGATCGAATTTCTCTGCCGCACGTGTCAG
TCCATTCATCCCTTCTTGAAGCAAATCCTTCAATTGGACCCCTCTAGAGA
GATAACGACGTACAATCGACATGACTAAACGCATATTGGCGCGGATCATG
GTCGTCTTGGCATCAGCAGCCGCCGTCAAGGCTTCTGCAAGCGCTTTATC
CGAAATACCAAGCACGTCTGCCCACTCCCTGTGAGTCGGATCTCGTCCCA
ACGCCTCGCGCGCCAGGTACTTAACTCGGATATACGCCACCCTAACCTGC
ATCTTGCGAGCTAAGTCCACCTCTTCGTCGCCGCGAAGGGGGGCCTTGCC
TGAGCCTTTATTGGGAGGGTTGAGAGGCACGCCGTCCTTCCCTGGTCGGC
CTCGCGGAGGTATACCTTTTATAGGCATAGCTGAAACAGGGTTTGGTGCA
GCGGTGGCGGCGGCTGCCGCTACAGTCACGGGGCCGGTGTTCGTGGCTGC
GTTGTCATTCGCCGTGGAGGATAGGGAGAAGGAGGGCCCACTACTTATTC
TTTGCTGCTCGAGGAGAGTGCGTGTGGAGGGGGGATGTTGGCTACTGCCG
ATGTGAGGTGCGTGTCTTGATGCCCTGTTGGTGCTGTAGCCGCTGAGACC
TCCGCTGGGGAGGACAAAGGCTGTGGTGTAGCAAGAGGCCAGGCCCACCA
GGCAGCAGGCCCCCAGGGCGGAAATTCTATGCATGCTGTGTTGCCTCTTT
CTGCTGCCGTGGGCACCGGGATTGGGACCGGAAGGAGTTGTGATACTGCA
GGAAGGATGTGGTAGCTGTTGGTGTTGCTGTGCCGTGGTGCTGCCCTGCA
GCGTGGGTGGCTGCGCGTCGTCTTTCTGAGCCATATTTCGAGTATATGCG
GTTGCTACTGTCGCTACACTGCTACAGTGAAGTTGCCTTATGCCCCAAGC
TTCGTGCGTGTGCCTTGGTAGGCCCTTTGGAGGAGGGGAAGGGGGGGCGA
GGTCAGGGTTGATGTTAGTAGGTGGTAGGGAAAGAAGCTCTGAGAGAGAG
GCTTGGCTTGGCACCAACCAAAGTGACAAATCAATCGGCACCAGCAACCA
CGATCGGGCAACTGGAAGTCCAGTGTGACAAGAAAAGCCTCCGCGGTGTG
CATAAGGGCGACAGGATGAGGAGTTTTTGAATGCACGTAGAGCATGGCGT
GCGGGAAGGAGCGGCAACAACCGTGTGGGCGTGCTCCTCGCCGCCGCAGT
GAGTGGCCGGCAGCCCATTGTTTATAGGCAAATTGGCCACGCCCTAGTGG
TGGCCAGACTAACAAATCACAGTCTCAGTGACGGATTAAAGACAGACATG
CGTTGCCTCAAAGCCACCACGCAAGCTTTGAACAAAATGAAAACTCCTTG
GGGGCGATACGTGCGTGAGTGGCTGGTGGGTTTTCTCGCACTCTTTCAAG
TCATCGAAAACCGAAGATACTTCAGCGCCTTTCTTTAGGAGTGATCCAGA
CAACCTCAGTTTTTGCCCTGTAGCAGTACGACAATCATCCAACGATGACC
TCCCCCGATGCTGCTTCTACGGTCCCAAACGATGAGGAAGTGGGCAATGC
CCTGTTGGAGGCGGCACGGTATGGCGATTTAGAGGACCTCCAACAACTGA
CTAACACATATGGCAAGCAGCGTCTGGCTTATCGGGGTGCTAATGGGAAC
AACACGGCATTGCACTATGCCTGCGCTAACGGCCACACCGATTGTGTAGC
TTGGCTGATCGAGCAAGGTGTGGAAGGCGCCCCATGCAACGAAAGCGGCA
ATACTCCCTTGCATTGGGCGGTGCAAAACCAACATGATGAGGTGGTGCGC
ATCTTGCTAGCCAAGCTTGATAATGTGGACGTGCTCATACGGAATGGCTT
TGGAAAGAGTGTTTTGACTGAGGGGTTTGCGGGTAAAAACCAAGAGATAT
TGAAAATGTTGTTGGAGCATTCATCAGCGGCTGAGGATGCGTTGATGGGT
GTAACAGGACAGGGATTGAAAGAGGAGGGACTGCAGGAGATGAACGAGGG
GGAGGAGGGGGAGGAGACGGAGGTGGCTGTGACTTTAGCAATTGGGGAGA
ACGACGAGGCCACCGCCGCAGTGGTTGTGCATCGCCTGGTGTTGGATAAA
TTAGAAGAGCCTGAGCGCGTCCTGCAAATTCGTGAAATGGAAATCAAACA
TGCAGATGACCCCTTTGGACAAGCGGCCGCAGAGGACACCACCGGCCTCG
GGGTCTGGCCCGCATCCCTCATCCTCGCCCGCTGGCTCGTCATACAGCAT
AAAGAGCTGCTCGACGATGCTACAGTTGTCGAATTAGGGTGTGGGTGTGC
GGTGCCGGGATTGGCGGCGGCCTTGCATGGGAGGCCCAAAGTGGTTCATC
TCACAGACCTGAACCCTGAGACACTTGCCAACGCCCAGGAAAATGTTCAA
TTAAACAAAGAATCTTTCCTCGTTCCTGATGCGGCGGCCCGCGTGCATGT
CACTGCCATGGATTGGGGGAATAAGGCCTCATACCCTGCGGGAGCGATAG
GTTCGGTTGACGTAGTCTTGGGCTCGGACTTGGTTTATCAAAAGAGTCTT
GGCCCCTTGCTCTCCCAGGTACTGCTACGACTCCTGCGCCCTGGAGGTAA
ATTTTTGTACGTGGCACCGGCAACAGGACGGGACGGTTTGCCTGAGTTCT
TGGACATGCTTTCGCATGGCGCGGGCTTGACGTTAGTGTCGGAAAAGGAG
GCGGGACCTGAACTATTGGCGAATCCCCTGGAGGGAAGTAGAGGGACTGC
AGAGATAGAAGAGGACGACGGTGGAATAGAGATGGAGGATCACCCACAAC
AGGAAGCGGCGGAGCGGGCGGACGAGTCCTTCTTTTTGCATTTCCACGAA
ATGGCCACTAAGGGAGTGATGTACAAACTTTACGAGTTCGAGAAGCAGTA
ATACGAAAAAATAAAATAATGACACGAACACATTTTTTTTAAGGTCCTTA
TCTGTTGC back to topprotein sequence of NO26G01030.1 >NO26G01030.1-protein ID=NO26G01030.1-protein|Name=NO26G01030.1|organism=Nannochloropsis oceanica|type=polypeptide|length=469bp
MTSPDAASTVPNDEEVGNALLEAARYGDLEDLQQLTNTYGKQRLAYRGAN
GNNTALHYACANGHTDCVAWLIEQGVEGAPCNESGNTPLHWAVQNQHDEV
VRILLAKLDNVDVLIRNGFGKSVLTEGFAGKNQEILKMLLEHSSAAEDAL
MGVTGQGLKEEGLQEMNEGEEGEETEVAVTLAIGENDEATAAVVVHRLVL
DKLEEPERVLQIREMEIKHADDPFGQAAAEDTTGLGVWPASLILARWLVI
QHKELLDDATVVELGCGCAVPGLAAALHGRPKVVHLTDLNPETLANAQEN
VQLNKESFLVPDAAARVHVTAMDWGNKASYPAGAIGSVDVVLGSDLVYQK
SLGPLLSQVLLRLLRPGGKFLYVAPATGRDGLPEFLDMLSHGAGLTLVSE
KEAGPELLANPLEGSRGTAEIEEDDGGIEMEDHPQQEAAERADESFFLHF
HEMATKGVMYKLYEFEKQ* back to topmRNA from alignment at chr26:337986..342270+ Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >NO26G01030.1 ID=NO26G01030.1|Name=NO26G01030.1|organism=Nannochloropsis oceanica|type=mRNA|length=4285bp|location=Sequence derived from alignment at chr26:337986..342270+ (Nannochloropsis oceanica)
CCCCTACCAATATCCCCTCGTCATCCCCCGCACCGCCCACCACCCCCCTC
TTCCGGTACCGACCTCTCGAGCCCACCCCTCCCAATGTGCCCGGCGAAGC
CACCACCGGCGTCTTACTAGTGCTACCACTATTATCACTACTACTACTAC
TACTACTGCTACTGCTACTGCTTCTACTCCTACTGGTGCTGCTGGTGCTC
CTTCGGACACTCACCACCATCTCCTCCTCCACCACCAGAGCCCCCCCACC
TTTCAATCCATTTCCATTCTCCACCGCCCCCACAAAGTCACCAAACACCG
AGATTGACAAGTGGCTTCCAGCATGCCCCTGGCTACTCCCCTTCCCCGCT
GTGGCCGCGCCTCCTCCGCGTCCATTATCCCTCAATTTATGATGCTGCGT
GCGGTACGGCTGCTTGATCTTATGCAAAGCCCTCGCCTCTATCTGCCTCA
CTCTTTCTCGCGTCACTCGAAATGCCACTCCTATCTCCTCCAGAGTCCGC
TGTTGCCCATCTACAAGGCCATACCTCATCTTAACCACGTCTGCCTCCCG
CGGATTCAAGGAGTCAAGCAGCCGTTCCACCTGCTCACGCATGTACGCCT
CATCCGCCTTGACGTCCTGCAAAGGCTCCGAGTCCGAAATACTGTCGCTT
ACCCGCACCTCGTCCCCTATCCCAGACCCACTCTTTCTCCCGCCTGAAGG
CCTGGTCGCGTCCATGGATAAGGTATGCTGGGTCCTTTCTCGCAGAAACT
GCAGCTTCCGTTGAGGAATGTCCACCCTCGCAGCAATCTCCGCCTCGGTC
GGCTGCCTGCCCAATTGCGCGCTTAGCTCACGTTCAGCCCTCCCGATTTG
ATTGAGTAAATCGTGGACGTGGACGGGGAGACGGACAACACGCGATTGAT
CAGCAACGGCGCGCATGACGCTCTGCTTGATCCACCACGTAGCGTACGTT
GAAAATTTAAACCCGCGGTCAGGATCGAATTTCTCTGCCGCACGTGTCAG
TCCATTCATCCCTTCTTGAAGCAAATCCTTCAATTGGACCCCTCTAGAGA
GATAACGACGTACAATCGACATGACTAAACGCATATTGGCGCGGATCATG
GTCGTCTTGGCATCAGCAGCCGCCGTCAAGGCTTCTGCAAGCGCTTTATC
CGAAATACCAAGCACGTCTGCCCACTCCCTGTGAGTCGGATCTCGTCCCA
ACGCCTCGCGCGCCAGGTACTTAACTCGGATATACGCCACCCTAACCTGC
ATCTTGCGAGCTAAGTCCACCTCTTCGTCGCCGCGAAGGGGGGCCTTGCC
TGAGCCTTTATTGGGAGGGTTGAGAGGCACGCCGTCCTTCCCTGGTCGGC
CTCGCGGAGGTATACCTTTTATAGGCATAGCTGAAACAGGGTTTGGTGCA
GCGGTGGCGGCGGCTGCCGCTACAGTCACGGGGCCGGTGTTCGTGGCTGC
GTTGTCATTCGCCGTGGAGGATAGGGAGAAGGAGGGCCCACTACTTATTC
TTTGCTGCTCGAGGAGAGTGCGTGTGGAGGGGGGATGTTGGCTACTGCCG
ATGTGAGGTGCGTGTCTTGATGCCCTGTTGGTGCTGTAGCCGCTGAGACC
TCCGCTGGGGAGGACAAAGGCTGTGGTGTAGCAAGAGGCCAGGCCCACCA
GGCAGCAGGCCCCCAGGGCGGAAATTCTATGCATGCTGTGTTGCCTCTTT
CTGCTGCCGTGGGCACCGGGATTGGGACCGGAAGGAGTTGTGATACTGCA
GGAAGGATGTGGTAGCTGTTGGTGTTGCTGTGCCGTGGTGCTGCCCTGCA
GCGTGGGTGGCTGCGCGTCGTCTTTCTGAGCCATATTTCGAGTATATGCG
GTTGCTACTGTCGCTACACTGCTACAGTGAAGTTGCCTTATGCCCCAAGC
TTCGTGCGTGTGCCTTGGTAGGCCCTTTGGAGGAGGGGAAGGGGGGGCGA
GGTCAGGGTTGATGTTAGTAGGTGGTAGGGAAAGAAGCTCTGAGAGAGAG
GCTTGGCTTGGCACCAACCAAAGTGACAAATCAATCGGCACCAGCAACCA
CGATCGGGCAACTGGAAGTCCAGTGTGACAAGAAAAGCCTCCGCGGTGTG
CATAAGGGCGACAGGATGAGGAGTTTTTGAATGCACGTAGAGCATGGCGT
GCGGGAAGGAGCGGCAACAACCGTGTGGGCGTGCTCCTCGCCGCCGCAGT
GAGTGGCCGGCAGCCCATTGTTTATAGGCAAATTGGCCACGCCCTAGTGG
TGGCCAGACTAACAAATCACAGTCTCAGTGACGGATTAAAGACAGACATG
CGTTGCCTCAAAGCCACCACGCAAGCTTTGAACAAAATGAAAACTCCTTG
GGGGCGATACGTGCGTGAGTGGCTGGTGGGTTTTCTCGCACTCTTTCAAG
TCATCGAAAACCGAAGATACTTCAGCGCCTTTCTTTAGGAGTAAGTAAGC
CTCATGCTTCGCGGTTGTGAAGCAGTTTCTGGTGATTTCATGTGTATTAT
AATGGAGTTGGATTTCATTTGGTTGCTGACCAACTTCCCCACCTTTCTCC
CCTCCCTGCACACCCCACAGGTGATCCAGACAACCTCAGTTTTTGCCCTG
TAGCAGTACGACAATCATCCAACGATGACCTCCCCCGATGCTGCTTCTAC
GGTCCCAAACGATGAGGAAGTGGGCAATGCCCTGTTGGAGGCGGCACGGT
ATGGCGATTTAGAGGACCTCCAACAACTGACTAACACATATGGCAAGCAG
CGTCTGGCTTATCGGGGTGCTAATGGGAACAACACGGCATTGCACTATGG
TGAGTGAGAGAGTTAGTGCGGAGCGATGGAAGGTCTTGTCTCTCCTGTCC
CTATATTGACACACAACGCTTTTATGGGTACACATAGAACAGTTAGAATT
AAATATTCGTGCTATTTCAGTCCCTACACGCTTCTCCCTATCCTCATCGG
ACGCATCGGCCTCCCCCTCACCCCTCCCCCTCCCTCCCATATACAGCCTG
CGCTAACGGCCACACCGATTGTGTAGCTTGGCTGATCGAGCAAGGTGTGG
AAGGCGCCCCATGCAACGAAAGCGGCAATACTCCCTTGCATTGGGCGGTG
CAAAACCAACATGATGAGGTGGTGCGCATCTTGCTAGCCAAGCTTGATAA
TGTGGACGTGCTCATACGGAATGGCTTTGGAAAGAGTGTTTTGACTGAGG
GGTTTGCGGGTAAAAACCAAGAGATATTGAAAATGTTGTTGGAGCATTCA
TCAGCGGCTGAGGATGCGTTGATGGGTGTAACAGGACAGGGATTGAAAGA
GGAGGGACTGCAGGAGATGAACGAGGGGGAGGAGGGGGAGGAGACGGAGG
TGGCTGTGACTTTAGCAATTGGGGAGAACGACGAGGCCACCGCCGCAGTG
GTTGTGCATCGCCTGGTGTTGGATAAATTAGAAGAGCCTGAGCGCGTCCT
GCAAATTCGTGAAATGGAAATCAAACATGCAGATGACCCCTTTGGACAAG
CGGCCGCAGAGGACACCACCGGCCTCGGGGTCTGGCCCGCATCCCTCATC
CTCGCCCGCTGGCTCGTCATACAGCATAAAGAGCTGCTCGACGATGCTAC
AGTTGTCGAATTAGGGTGTGGGTGTGCGGTGCCGGGATTGGCGGCGGCCT
TGCATGGGAGGCCCAAAGTGGTTCATCTCACAGACCTGAACCCTGAGACA
CTTGCCAACGCCCAGGAAAATGTTCAATTAAACAAAGAATCTTTCCTCGT
TCCTGATGCGGCGGCCCGCGTGCATGTCACTGCCATGGATTGGGGGAATA
AGGCCTCATACCCTGCGGGAGCGATAGGTTCGGTTGACGTAGTCTTGGGC
TCGGACTTGGTTTATCAAAAGAGTCTTGGCCCCTTGCTCTCCCAGGTACT
GCTACGACTCCTGCGCCCTGGAGGTAAATTTTTGTACGTGGCACCGGCAA
CAGGACGGGACGGTTTGCCTGAGTTCTTGGACATGCTTTCGCATGGCGCG
GGCTTGACGTTAGTGTCGGAAAAGGAGGCGGGACCTGAACTATTGGCGAA
TCCCCTGGAGGGAAGTAGAGGGACTGCAGAGATAGAAGAGGACGACGGTG
GAATAGAGATGGAGGATCACCCACAACAGGAAGCGGCGGAGCGGGCGGAC
GAGTCCTTCTTTTTGCATTTCCACGAAATGGCCACTAAGGGAGTGATGTA
CAAACTTTACGAGTTCGAGAAGCAGTAATACGAAAAAATAAAATAATGAC
ACGAACACATTTTTTTTAAGGTCCTTATCTGTTGC back to topCoding sequence (CDS) from alignment at chr26:337986..342270+ >NO26G01030.1 ID=NO26G01030.1|Name=NO26G01030.1|organism=Nannochloropsis oceanica|type=CDS|length=1407bp|location=Sequence derived from alignment at chr26:337986..342270+ (Nannochloropsis oceanica)
ATGACCTCCCCCGATGCTGCTTCTACGGTCCCAAACGATGAGGAAGTGGG
CAATGCCCTGTTGGAGGCGGCACGGTATGGCGATTTAGAGGACCTCCAAC
AACTGACTAACACATATGGCAAGCAGCGTCTGGCTTATCGGGGTGCTAAT
GGGAACAACACGGCATTGCACTATGCCTGCGCTAACGGCCACACCGATTG
TGTAGCTTGGCTGATCGAGCAAGGTGTGGAAGGCGCCCCATGCAACGAAA
GCGGCAATACTCCCTTGCATTGGGCGGTGCAAAACCAACATGATGAGGTG
GTGCGCATCTTGCTAGCCAAGCTTGATAATGTGGACGTGCTCATACGGAA
TGGCTTTGGAAAGAGTGTTTTGACTGAGGGGTTTGCGGGTAAAAACCAAG
AGATATTGAAAATGTTGTTGGAGCATTCATCAGCGGCTGAGGATGCGTTG
ATGGGTGTAACAGGACAGGGATTGAAAGAGGAGGGACTGCAGGAGATGAA
CGAGGGGGAGGAGGGGGAGGAGACGGAGGTGGCTGTGACTTTAGCAATTG
GGGAGAACGACGAGGCCACCGCCGCAGTGGTTGTGCATCGCCTGGTGTTG
GATAAATTAGAAGAGCCTGAGCGCGTCCTGCAAATTCGTGAAATGGAAAT
CAAACATGCAGATGACCCCTTTGGACAAGCGGCCGCAGAGGACACCACCG
GCCTCGGGGTCTGGCCCGCATCCCTCATCCTCGCCCGCTGGCTCGTCATA
CAGCATAAAGAGCTGCTCGACGATGCTACAGTTGTCGAATTAGGGTGTGG
GTGTGCGGTGCCGGGATTGGCGGCGGCCTTGCATGGGAGGCCCAAAGTGG
TTCATCTCACAGACCTGAACCCTGAGACACTTGCCAACGCCCAGGAAAAT
GTTCAATTAAACAAAGAATCTTTCCTCGTTCCTGATGCGGCGGCCCGCGT
GCATGTCACTGCCATGGATTGGGGGAATAAGGCCTCATACCCTGCGGGAG
CGATAGGTTCGGTTGACGTAGTCTTGGGCTCGGACTTGGTTTATCAAAAG
AGTCTTGGCCCCTTGCTCTCCCAGGTACTGCTACGACTCCTGCGCCCTGG
AGGTAAATTTTTGTACGTGGCACCGGCAACAGGACGGGACGGTTTGCCTG
AGTTCTTGGACATGCTTTCGCATGGCGCGGGCTTGACGTTAGTGTCGGAA
AAGGAGGCGGGACCTGAACTATTGGCGAATCCCCTGGAGGGAAGTAGAGG
GACTGCAGAGATAGAAGAGGACGACGGTGGAATAGAGATGGAGGATCACC
CACAACAGGAAGCGGCGGAGCGGGCGGACGAGTCCTTCTTTTTGCATTTC
CACGAAATGGCCACTAAGGGAGTGATGTACAAACTTTACGAGTTCGAGAA
GCAGTAA back to top
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