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Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| chr15 | genome | chr15:303996..307361 - |
Analyses
This mRNA is derived from or has results from the following analyses
Homology
BLAST of NO15G01030.1 vs.
Match: EWM22446.1 (mannosyl-oligosaccharide -alpha-mannosidase [Nannochloropsis gaditana]) HSP 1 Score: 785.0 bits (2026), Expect = 2.100e-223 Identity = 455/784 (58.04%), Postives = 552/784 (70.41%), Query Frame = 0
Query: 8 YKAYERSVPGNRTMKKRLGLVMYLALALLFAALPWLLWHKLPVHDHPADAIEGRKNMLLFALPDNAVDDLAAPTNLRGTVTATAASVADHESMGPAHQAAGEKLQN-LAPANQVPLPSTKEKRTAMEERKIAVEEDEEEEALERELDQEEDALLEMEEKQQEEQEEQEEEQEEEEEEEEEEEEEPLEYLEQDDPDLAAAMESEFEEEMQAAFGDIDDDMVDDPEEDKGAAYAKPAVAFGASGGKAAS---VKVSKKMKAAKVLVSPARTTRKKGLDDTFVRFAPQDPRTDKALATIRRERVKMGMKRAWDAYRANAWGKDTILPLSKAAADRWGGMAMTMLDSLSTLWVMGLKDDFMEARDWIAENLSFKDVGHISVFETNIRALAGLLSAYDLSRDKVFLDRAVELGDLLLPAFDSKTGFPINGLTLYSGQHSGSRSACLAEFGTMQIEFRYLSHATGNPIYAEKAMYVFEKMHDESAKVAKHGVFKLDYNADSGVWGGDHYSVAARGDSFYEYLLKTWLQGNKKETWLREMFDESVDGIEELLLVRGPGGRLYIANNDNGHQSDNMEHLACFYPGTLALAAATLETKGDVTLEKRAAHYMDLARELGETCYQFTSSHATGLAPDSVTFDRKGMPQASDPRYILRPEIAESMYYLHLLDGNPKWREYGANIFEAIDTYCRTDEAYAQVRLMATPPGYKKHKTALRNGDTSSTMEAAVKGEEETTKTG--PDVKLVSHEDDMESFFLAETLKYLYLIQETEPGEVDLSRQVFNTEAHPLRIFSD 786
Y+ +E+S +RT KRLG+V+YL+ ALL ALPWLLW H G NMLLFA+ +N+ D A T + A+H+S + QA E L++ L A ++ E + M E + +++E+ E + + + +++ E+ Q+ E+ E + ++ EE L E + + + E+ + I + + E+ + +P + VK++ K + KVL + R K D FVR APQDP DK LA RR RVK MKRAW+AY A+AWGKDTILP+S +A+RWGGMAMTMLDSLSTLWVMGLK++F +ARDWIAENLSFK VGHISVFETNIRAL GLLSA+DLSRDKVFL++A EL D+LLPAFDS TGFPINGL L +G SGS ACLAEFGT+Q+EFRYLSHATGNPIYA+KAM+V+E+MH+ESA VA+ G+F+LD+N+D+G WGG HYSV ARGDSFYEYLLKTWLQGNKKETWLREMFDESVDG EELL+ RGPGGRLYIANNDNG Q+ MEHLACFYPGTLAL AATLETKGD LEKRA HYMDLARELGETCYQF S TGLAPDSV FD+ G+PQASDPRYILRPE+AESMYYLHLLDG+PKWREYGA +FEAID YCRT+EAYAQVRL + P G + ALR + + + +G + ++G D+ LV+ EDDMESFFLAETLKYLYLIQETEPGEVDLSRQVFNTEAHPL IF +
Sbjct: 8 YRHFEKSSSIDRT-SKRLGVVIYLSFALLLGALPWLLWPGTAPHGDRT----GPGNMLLFAVAENSPDSNTA------TFHGAEPAAAEHKSATLSTQA--EDLRDPLIDAERIR--ENDEGKDKMGETEETQNQNDEKAGKEGGVKVAAEKVAAPATEEELEKIVQDVEENEMNSSKNKKGEEKLPAAELNGDVIGVPDAKKLEKGTKGYKKSIAATLKTEAEKKRKPQENRPDQTEADAEKDTRDQVIVKIANK-ETGKVLATSVRKADK----DPFVRLAPQDPHIDKTLAKERRMRVKTAMKRAWNAYHAHAWGKDTILPISLTSANRWGGMAMTMLDSLSTLWVMGLKEEFEQARDWIAENLSFKSVGHISVFETNIRALGGLLSAFDLSRDKVFLEKAAELADMLLPAFDSPTGFPINGLILSAGLPSGSHQACLAEFGTVQLEFRYLSHATGNPIYAKKAMHVYERMHEESADVAEKGLFRLDFNSDTGAWGGKHYSVGARGDSFYEYLLKTWLQGNKKETWLREMFDESVDGAEELLIARGPGGRLYIANNDNGMQAKRMEHLACFYPGTLALGAATLETKGDAVLEKRATHYMDLARELGETCYQFAGSQMTGLAPDSVVFDQDGVPQASDPRYILRPEVAESMYYLHLLDGDPKWREYGAKLFEAIDFYCRTNEAYAQVRLSSGPSG--RRSVALRGAERKPS-DVGGEGASQAEQSGKAKDMGLVTQEDDMESFFLAETLKYLYLIQETEPGEVDLSRQVFNTEAHPLHIFDE 768
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 >NO15G01030.1 ID=NO15G01030.1|Name=NO15G01030.1|organism=Nannochloropsis oceanica|type=mRNA|length=3118bp
CGAAGAGCCGTTTCGTTCCATGATCTCTATCCATTTCCTTCATTGGCTTG
ACTCGACAGTGCACCCGCCGGGAGGGCTTTACATGGCGCACGGCGAAGAA
GGCTTGCACTATACCTTAAATATAACATTACAACCCCTTTGGCAGGGCGC
CCAGGTCTAATGTATTTGAACCATCTTGGGGCTTGTGCGGCTTTGACACA
TGTATGCCCGCCCTCGTGGTGTGCCTTGTTTGCTTGGCTTTTTTGCAAGC
ATGCGTGCTCTATCACTCACAATGCAACAATACGATGTTCAACTTCTCAA
ATTAGGTTTCAAGGTTCTTTTTGTCCTTGTCGGTGCTCCCTCTCCTCCTC
TTCCGCCGCTTTGCTTTGTCGCCGCCGTGCCAAACCTTCGCCTCTTGCGA
GAGCTAAGACCGAACGCAGCAGCTAATACGCCGCATCCAGGCTGCCATGC
ACCAACCAATAAGTAGTTATAAGGCTTATGAAAGATCGGTTCCCGGCAAC
CGCACTATGAAGAAACGATTGGGCCTCGTAATGTACCTTGCTTTAGCCTT
ACTTTTTGCGGCATTGCCTTGGTTGCTCTGGCATAAGTTGCCTGTACATG
ACCATCCTGCCGATGCAATCGAAGGGCGCAAAAACATGCTCTTGTTTGCT
CTGCCCGACAACGCCGTTGACGATCTGGCGGCTCCGACAAATCTCCGCGG
CACCGTGACAGCAACGGCAGCATCAGTAGCAGATCATGAGTCCATGGGAC
CTGCACATCAGGCAGCCGGCGAGAAACTACAGAATCTGGCTCCCGCCAAT
CAAGTCCCGTTGCCCTCTACCAAGGAGAAACGTACCGCAATGGAAGAGAG
GAAAATTGCGGTAGAAGAAGACGAGGAGGAAGAAGCTTTGGAGAGAGAAT
TAGATCAAGAAGAGGATGCATTGCTCGAAATGGAAGAAAAGCAGCAGGAA
GAACAGGAAGAACAAGAAGAAGAACAAGAAGAAGAAGAAGAAGAAGAAGA
AGAAGAAGAAGAAGAGCCGCTTGAATACCTGGAGCAAGACGATCCAGACT
TGGCAGCGGCTATGGAGAGTGAGTTTGAGGAAGAGATGCAAGCTGCTTTT
GGGGACATTGATGATGACATGGTCGACGACCCCGAGGAGGACAAAGGTGC
GGCTTATGCTAAACCTGCTGTTGCTTTTGGGGCCAGTGGTGGTAAAGCAG
CAAGTGTCAAGGTTTCGAAGAAGATGAAGGCAGCAAAAGTATTAGTTTCA
CCTGCCCGCACGACGAGGAAGAAGGGTCTCGACGATACATTTGTGCGCTT
TGCACCACAAGACCCGCGTACGGACAAGGCACTGGCTACTATACGACGAG
AACGTGTCAAGATGGGGATGAAGCGGGCTTGGGACGCCTACCGCGCAAAC
GCCTGGGGAAAAGACACGATCTTGCCACTGTCCAAGGCCGCTGCCGACAG
GTGGGGCGGAATGGCGATGACGATGCTCGACTCTCTGTCGACGCTGTGGG
TGATGGGGCTGAAGGACGACTTTATGGAGGCCCGGGACTGGATTGCAGAG
AACTTGAGCTTCAAGGATGTCGGTCACATTTCTGTTTTTGAAACCAACAT
TCGTGCGCTGGCCGGCCTCCTGTCCGCTTACGACCTTTCTAGAGACAAGG
TATTTCTCGACAGGGCCGTGGAGCTGGGCGATCTCCTGCTGCCGGCTTTT
GACTCCAAAACCGGCTTCCCTATCAATGGCCTAACTCTCTATTCGGGCCA
GCACAGCGGTTCCCGCTCAGCTTGCCTCGCTGAGTTTGGAACTATGCAAA
TTGAGTTCCGTTACCTGAGCCACGCGACCGGCAATCCTATTTACGCGGAA
AAGGCCATGTATGTGTTTGAGAAGATGCACGATGAAAGCGCCAAAGTGGC
CAAGCACGGAGTATTCAAATTGGATTATAATGCTGATTCGGGTGTGTGGG
GCGGAGACCACTATTCAGTCGCAGCACGAGGCGATTCCTTTTATGAGTAC
TTGCTCAAGACTTGGTTACAGGGCAATAAGAAGGAAACCTGGCTCCGCGA
AATGTTCGACGAGTCCGTCGACGGGATCGAGGAGCTGCTGCTCGTTCGTG
GGCCAGGCGGTCGTTTGTATATCGCCAACAACGACAACGGGCACCAATCG
GACAATATGGAGCATTTGGCTTGCTTCTATCCCGGCACGCTGGCCTTGGC
TGCCGCCACACTCGAGACCAAGGGCGATGTCACGTTGGAGAAGCGCGCAG
CGCATTACATGGACCTGGCACGGGAGTTGGGGGAGACCTGCTATCAGTTC
ACTAGCTCTCACGCAACGGGTTTGGCTCCCGATTCCGTGACCTTTGATCG
AAAGGGCATGCCTCAGGCGTCTGACCCCCGCTACATTCTGCGACCGGAGA
TTGCTGAGTCCATGTACTACCTGCACTTGCTTGATGGGAATCCTAAGTGG
CGGGAATACGGGGCGAACATATTCGAGGCCATCGATACGTACTGTCGGAC
CGACGAGGCTTACGCGCAGGTCCGTCTTATGGCCACTCCTCCTGGCTACA
AGAAGCACAAGACTGCGCTGCGTAATGGTGATACTTCCTCGACAATGGAG
GCGGCAGTTAAGGGCGAGGAGGAGACGACTAAAACAGGCCCAGACGTTAA
GCTGGTGAGTCATGAGGATGATATGGAATCTTTCTTCTTGGCTGAAACTC
TCAAATACCTCTATCTCATCCAAGAGACGGAGCCTGGGGAGGTGGATCTC
TCGCGTCAGGTATTTAATACTGAGGCACATCCTCTCCGTATTTTTAGTGA
TCGAAGCTTTTCAGATGTGTAAGAGCACGGTGGCCTTGTCTTTGGCCCCA
GAAAGAGAAATAAAATCAGATGGAGTAGGAGTGATTACCATTTTTGCCAG
ACACCAAGCACTCGCTGGAAAAGCAGGGTGAAGCGAAAATACGAGCGAGG
GGAGGGCGCTTTATGTGCATTACAATATTTTTGTTGGTTCATCTTAGTCC
TGCTTACTGCGACTGCGGTTCGAAATCGAGCGTCAAATATAAACAAGTTT
AAATTAGAAAAGTGGTGGTTAAGGTGAAACGATACAGGGTGCGATGACAA
ATGATAGACTTCTTCTTC back to topprotein sequence of NO15G01030.1 >NO15G01030.1-protein ID=NO15G01030.1-protein|Name=NO15G01030.1|organism=Nannochloropsis oceanica|type=polypeptide|length=792bp
MHQPISSYKAYERSVPGNRTMKKRLGLVMYLALALLFAALPWLLWHKLPV
HDHPADAIEGRKNMLLFALPDNAVDDLAAPTNLRGTVTATAASVADHESM
GPAHQAAGEKLQNLAPANQVPLPSTKEKRTAMEERKIAVEEDEEEEALER
ELDQEEDALLEMEEKQQEEQEEQEEEQEEEEEEEEEEEEEPLEYLEQDDP
DLAAAMESEFEEEMQAAFGDIDDDMVDDPEEDKGAAYAKPAVAFGASGGK
AASVKVSKKMKAAKVLVSPARTTRKKGLDDTFVRFAPQDPRTDKALATIR
RERVKMGMKRAWDAYRANAWGKDTILPLSKAAADRWGGMAMTMLDSLSTL
WVMGLKDDFMEARDWIAENLSFKDVGHISVFETNIRALAGLLSAYDLSRD
KVFLDRAVELGDLLLPAFDSKTGFPINGLTLYSGQHSGSRSACLAEFGTM
QIEFRYLSHATGNPIYAEKAMYVFEKMHDESAKVAKHGVFKLDYNADSGV
WGGDHYSVAARGDSFYEYLLKTWLQGNKKETWLREMFDESVDGIEELLLV
RGPGGRLYIANNDNGHQSDNMEHLACFYPGTLALAAATLETKGDVTLEKR
AAHYMDLARELGETCYQFTSSHATGLAPDSVTFDRKGMPQASDPRYILRP
EIAESMYYLHLLDGNPKWREYGANIFEAIDTYCRTDEAYAQVRLMATPPG
YKKHKTALRNGDTSSTMEAAVKGEEETTKTGPDVKLVSHEDDMESFFLAE
TLKYLYLIQETEPGEVDLSRQVFNTEAHPLRIFSDRSFSDV* back to topmRNA from alignment at chr15:303996..307361- Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >NO15G01030.1 ID=NO15G01030.1|Name=NO15G01030.1|organism=Nannochloropsis oceanica|type=mRNA|length=3366bp|location=Sequence derived from alignment at chr15:303996..307361- (Nannochloropsis oceanica)
CGAAGAGCCGTTTCGTTCCATGATCTCTATCCATTTCCTTCATTGGCTTG
ACTCGACAGTGCACCCGCCGGGAGGGCTTTACATGGCGCACGGCGAAGAA
GGCTTGCACTATACCTTAAATATAACATTACAACCCCTTTGGCAGGGCGC
CCAGGTCTAATGTATTTGAACCATCTTGGGGCTTGTGCGGCTTTGACACA
TGTATGCCCGCCCTCGTGGTGTGCCTTGTTTGCTTGGCTTTTTTGCAAGC
ATGCGTGCTCTATCACTCACAATGCAACAATACGATGTTCAACTTCTCAA
ATTAGGTTTCAAGGTTCTTTTTGTCCTTGTCGGTGCTCCCTCTCCTCCTC
TTCCGCCGCTTTGCTTTGTCGCCGCCGTGCCAAACCTTCGCCTCTTGCGA
GAGCTAAGACCGAACGCAGCAGCTAATACGCCGCATCCAGGCTGCCATGC
ACCAACCAATAAGTAGTTATAAGGCTTATGAAAGATGTAAGTCCTCATAT
GACGATCACTTAAAGTGAACTCCTCTTGAAGGCCCATTAAGATCGCGCTC
AGCTTTTTTGAGCTTGGGGGTCCCGCTTCTAGTTGCCCTTCCATCACGAG
CACACAAAATGCGCAGGCTACATGATGTCAAACAATTATGTCTGTATTAG
AGACCAGCTTACACACCCTAACGACCACAGTCACTTATCCCACTGAAATC
ATCTAACGACCATTCTTGTCCCCCTCAAACGTAGCGGTTCCCGGCAACCG
CACTATGAAGAAACGATTGGGCCTCGTAATGTACCTTGCTTTAGCCTTAC
TTTTTGCGGCATTGCCTTGGTTGCTCTGGCATAAGTTGCCTGTACATGAC
CATCCTGCCGATGCAATCGAAGGGCGCAAAAACATGCTCTTGTTTGCTCT
GCCCGACAACGCCGTTGACGATCTGGCGGCTCCGACAAATCTCCGCGGCA
CCGTGACAGCAACGGCAGCATCAGTAGCAGATCATGAGTCCATGGGACCT
GCACATCAGGCAGCCGGCGAGAAACTACAGAATCTGGCTCCCGCCAATCA
AGTCCCGTTGCCCTCTACCAAGGAGAAACGTACCGCAATGGAAGAGAGGA
AAATTGCGGTAGAAGAAGACGAGGAGGAAGAAGCTTTGGAGAGAGAATTA
GATCAAGAAGAGGATGCATTGCTCGAAATGGAAGAAAAGCAGCAGGAAGA
ACAGGAAGAACAAGAAGAAGAACAAGAAGAAGAAGAAGAAGAAGAAGAAG
AAGAAGAAGAAGAGCCGCTTGAATACCTGGAGCAAGACGATCCAGACTTG
GCAGCGGCTATGGAGAGTGAGTTTGAGGAAGAGATGCAAGCTGCTTTTGG
GGACATTGATGATGACATGGTCGACGACCCCGAGGAGGACAAAGGTGCGG
CTTATGCTAAACCTGCTGTTGCTTTTGGGGCCAGTGGTGGTAAAGCAGCA
AGTGTCAAGGTTTCGAAGAAGATGAAGGCAGCAAAAGTATTAGTTTCACC
TGCCCGCACGACGAGGAAGAAGGGTCTCGACGATACATTTGTGCGCTTTG
CACCACAAGACCCGCGTACGGACAAGGCACTGGCTACTATACGACGAGAA
CGTGTCAAGATGGGGATGAAGCGGGCTTGGGACGCCTACCGCGCAAACGC
CTGGGGAAAAGACACGATCTTGCCACTGTCCAAGGCCGCTGCCGACAGGT
GGGGCGGAATGGCGATGACGATGCTCGACTCTCTGTCGACGCTGTGGGTG
ATGGGGCTGAAGGACGACTTTATGGAGGCCCGGGACTGGATTGCAGAGAA
CTTGAGCTTCAAGGATGTCGGTCACATTTCTGTTTTTGAAACCAACATTC
GTGCGCTGGCCGGCCTCCTGTCCGCTTACGACCTTTCTAGAGACAAGGTA
TTTCTCGACAGGGCCGTGGAGCTGGGCGATCTCCTGCTGCCGGCTTTTGA
CTCCAAAACCGGCTTCCCTATCAATGGCCTAACTCTCTATTCGGGCCAGC
ACAGCGGTTCCCGCTCAGCTTGCCTCGCTGAGTTTGGAACTATGCAAATT
GAGTTCCGTTACCTGAGCCACGCGACCGGCAATCCTATTTACGCGGAAAA
GGCCATGTATGTGTTTGAGAAGATGCACGATGAAAGCGCCAAAGTGGCCA
AGCACGGAGTATTCAAATTGGATTATAATGCTGATTCGGGTGTGTGGGGC
GGAGACCACTATTCAGTCGCAGCACGAGGCGATTCCTTTTATGAGTACTT
GCTCAAGACTTGGTTACAGGGCAATAAGAAGGAAACCTGGCTCCGCGAAA
TGTTCGACGAGTCCGTCGACGGGATCGAGGAGCTGCTGCTCGTTCGTGGG
CCAGGCGGTCGTTTGTATATCGCCAACAACGACAACGGGCACCAATCGGA
CAATATGGAGCATTTGGCTTGCTTCTATCCCGGCACGCTGGCCTTGGCTG
CCGCCACACTCGAGACCAAGGGCGATGTCACGTTGGAGAAGCGCGCAGCG
CATTACATGGACCTGGCACGGGAGTTGGGGGAGACCTGCTATCAGTTCAC
TAGCTCTCACGCAACGGGTTTGGCTCCCGATTCCGTGACCTTTGATCGAA
AGGGCATGCCTCAGGCGTCTGACCCCCGCTACATTCTGCGACCGGAGATT
GCTGAGTCCATGTACTACCTGCACTTGCTTGATGGGAATCCTAAGTGGCG
GGAATACGGGGCGAACATATTCGAGGCCATCGATACGTACTGTCGGACCG
ACGAGGCTTACGCGCAGGTCCGTCTTATGGCCACTCCTCCTGGCTACAAG
AAGCACAAGACTGCGCTGCGTAATGGTGATACTTCCTCGACAATGGAGGC
GGCAGTTAAGGGCGAGGAGGAGACGACTAAAACAGGCCCAGACGTTAAGC
TGGTGAGTCATGAGGATGATATGGAATCTTTCTTCTTGGCTGAAACTCTC
AAATACCTCTATCTCATCCAAGAGACGGAGCCTGGGGAGGTGGATCTCTC
GCGTCAGGTATTTAATACTGAGGCACATCCTCTCCGTATTTTTAGTGATC
GAAGCTTTTCAGATGTGTAAGAGCACGGTGGCCTTGTCTTTGGCCCCAGA
AAGAGAAATAAAATCAGATGGAGTAGGAGTGATTACCATTTTTGCCAGAC
ACCAAGCACTCGCTGGAAAAGCAGGGTGAAGCGAAAATACGAGCGAGGGG
AGGGCGCTTTATGTGCATTACAATATTTTTGTTGGTTCATCTTAGTCCTG
CTTACTGCGACTGCGGTTCGAAATCGAGCGTCAAATATAAACAAGTTTAA
ATTAGAAAAGTGGTGGTTAAGGTGAAACGATACAGGGTGCGATGACAAAT
GATAGACTTCTTCTTC back to topCoding sequence (CDS) from alignment at chr15:303996..307361- >NO15G01030.1 ID=NO15G01030.1|Name=NO15G01030.1|organism=Nannochloropsis oceanica|type=CDS|length=2376bp|location=Sequence derived from alignment at chr15:303996..307361- (Nannochloropsis oceanica)
ATGCACCAACCAATAAGTAGTTATAAGGCTTATGAAAGATCGGTTCCCGG
CAACCGCACTATGAAGAAACGATTGGGCCTCGTAATGTACCTTGCTTTAG
CCTTACTTTTTGCGGCATTGCCTTGGTTGCTCTGGCATAAGTTGCCTGTA
CATGACCATCCTGCCGATGCAATCGAAGGGCGCAAAAACATGCTCTTGTT
TGCTCTGCCCGACAACGCCGTTGACGATCTGGCGGCTCCGACAAATCTCC
GCGGCACCGTGACAGCAACGGCAGCATCAGTAGCAGATCATGAGTCCATG
GGACCTGCACATCAGGCAGCCGGCGAGAAACTACAGAATCTGGCTCCCGC
CAATCAAGTCCCGTTGCCCTCTACCAAGGAGAAACGTACCGCAATGGAAG
AGAGGAAAATTGCGGTAGAAGAAGACGAGGAGGAAGAAGCTTTGGAGAGA
GAATTAGATCAAGAAGAGGATGCATTGCTCGAAATGGAAGAAAAGCAGCA
GGAAGAACAGGAAGAACAAGAAGAAGAACAAGAAGAAGAAGAAGAAGAAG
AAGAAGAAGAAGAAGAAGAGCCGCTTGAATACCTGGAGCAAGACGATCCA
GACTTGGCAGCGGCTATGGAGAGTGAGTTTGAGGAAGAGATGCAAGCTGC
TTTTGGGGACATTGATGATGACATGGTCGACGACCCCGAGGAGGACAAAG
GTGCGGCTTATGCTAAACCTGCTGTTGCTTTTGGGGCCAGTGGTGGTAAA
GCAGCAAGTGTCAAGGTTTCGAAGAAGATGAAGGCAGCAAAAGTATTAGT
TTCACCTGCCCGCACGACGAGGAAGAAGGGTCTCGACGATACATTTGTGC
GCTTTGCACCACAAGACCCGCGTACGGACAAGGCACTGGCTACTATACGA
CGAGAACGTGTCAAGATGGGGATGAAGCGGGCTTGGGACGCCTACCGCGC
AAACGCCTGGGGAAAAGACACGATCTTGCCACTGTCCAAGGCCGCTGCCG
ACAGGTGGGGCGGAATGGCGATGACGATGCTCGACTCTCTGTCGACGCTG
TGGGTGATGGGGCTGAAGGACGACTTTATGGAGGCCCGGGACTGGATTGC
AGAGAACTTGAGCTTCAAGGATGTCGGTCACATTTCTGTTTTTGAAACCA
ACATTCGTGCGCTGGCCGGCCTCCTGTCCGCTTACGACCTTTCTAGAGAC
AAGGTATTTCTCGACAGGGCCGTGGAGCTGGGCGATCTCCTGCTGCCGGC
TTTTGACTCCAAAACCGGCTTCCCTATCAATGGCCTAACTCTCTATTCGG
GCCAGCACAGCGGTTCCCGCTCAGCTTGCCTCGCTGAGTTTGGAACTATG
CAAATTGAGTTCCGTTACCTGAGCCACGCGACCGGCAATCCTATTTACGC
GGAAAAGGCCATGTATGTGTTTGAGAAGATGCACGATGAAAGCGCCAAAG
TGGCCAAGCACGGAGTATTCAAATTGGATTATAATGCTGATTCGGGTGTG
TGGGGCGGAGACCACTATTCAGTCGCAGCACGAGGCGATTCCTTTTATGA
GTACTTGCTCAAGACTTGGTTACAGGGCAATAAGAAGGAAACCTGGCTCC
GCGAAATGTTCGACGAGTCCGTCGACGGGATCGAGGAGCTGCTGCTCGTT
CGTGGGCCAGGCGGTCGTTTGTATATCGCCAACAACGACAACGGGCACCA
ATCGGACAATATGGAGCATTTGGCTTGCTTCTATCCCGGCACGCTGGCCT
TGGCTGCCGCCACACTCGAGACCAAGGGCGATGTCACGTTGGAGAAGCGC
GCAGCGCATTACATGGACCTGGCACGGGAGTTGGGGGAGACCTGCTATCA
GTTCACTAGCTCTCACGCAACGGGTTTGGCTCCCGATTCCGTGACCTTTG
ATCGAAAGGGCATGCCTCAGGCGTCTGACCCCCGCTACATTCTGCGACCG
GAGATTGCTGAGTCCATGTACTACCTGCACTTGCTTGATGGGAATCCTAA
GTGGCGGGAATACGGGGCGAACATATTCGAGGCCATCGATACGTACTGTC
GGACCGACGAGGCTTACGCGCAGGTCCGTCTTATGGCCACTCCTCCTGGC
TACAAGAAGCACAAGACTGCGCTGCGTAATGGTGATACTTCCTCGACAAT
GGAGGCGGCAGTTAAGGGCGAGGAGGAGACGACTAAAACAGGCCCAGACG
TTAAGCTGGTGAGTCATGAGGATGATATGGAATCTTTCTTCTTGGCTGAA
ACTCTCAAATACCTCTATCTCATCCAAGAGACGGAGCCTGGGGAGGTGGA
TCTCTCGCGTCAGGTATTTAATACTGAGGCACATCCTCTCCGTATTTTTA
GTGATCGAAGCTTTTCAGATGTGTAA back to top
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