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Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
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| chr27 | genome | chr27:414..3353 - |
Analyses
This mRNA is derived from or has results from the following analyses
Homology
BLAST of NO27G00010.1 vs.
Match: EWM20408.1 (vesicular acetylcholine transporter, partial [Nannochloropsis gaditana]) HSP 1 Score: 266.9 bits (681), Expect = 2.400e-67 Identity = 147/205 (71.71%), Postives = 165/205 (80.49%), Query Frame = 0
Query: 203 TDDAHTPLLTVLPSASSLPTPTSTLAIQSPPLRPLRGLVFATNVLNNISLGCTAPFLQHHLETHYEQSYQSSGLVFAVFPLVALLCSPLGAVLCRAGRDKFLVWQLGLVTSVLASLGFGLAESVALLLLMRGLQGLGFALSTIAGLGLLIECSPDLTADIARQEVLVGLSMVLAPAAGGLLYTYAGFAAIFNILASGFMLLVLGL 408
++D PLL S P P + PL LR LVFATNVLNNISLGCTAPFLQHHLE HYEQSYQS+GLVFA+FPLVALLCSPLGA LCRAGRDK+LVWQ GL+ S+LA++GFGLA SV + LLMRGLQGLGFALSTIAGLGLLIE +PDLTADIARQEVLVG+SMV+APA GG LY+ AGFAA+F +LA F +L GL
Sbjct: 8 SNDTRAPLLG---PPSPPPAPPDVPSPVQKPLDLLRTLVFATNVLNNISLGCTAPFLQHHLEVHYEQSYQSAGLVFAIFPLVALLCSPLGAFLCRAGRDKYLVWQSGLLVSLLAAIGFGLARSVPVFLLMRGLQGLGFALSTIAGLGLLIERTPDLTADIARQEVLVGVSMVVAPALGGFLYSLAGFAAVFVVLAVCFGVLAAGL 209
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 >NO27G00010.1 ID=NO27G00010.1|Name=NO27G00010.1|organism=Nannochloropsis oceanica|type=mRNA|length=2940bp
GTTGCGAAGGAGAAATTCAAACGTGGGTATGGTGGCAATGCATTGCAAAA
GACTGTGTCCCTGACCATGTATGCGCTGGTGCGGCAAATCAATACGCATG
TGGGCGAGCTTTGTGGATAAGCATGCTCTTGTCAACCCGCTTGCTCTACC
TGCCACCCACACCACACTTGTCTCTCCTTTTGCCTTGCTCCTTCTCGAAA
TATTTTACTTGCTCATCCTCACTCACACCACTAGGCACCACATCCACCTC
GCCCTGCTCAGAGGGAAACTGGCCTTCGAAGACCCTGTAGTCACTCCGCC
CCACGAAGAGGAGCAGATCAGTCCAAGGTGGAAGAGGGAGAAGAAGAAAA
GGAAAGGAGAGCTCCAAGACGAGACGGTCGAACTCCTCCAGCAACAGGAG
CAAGGACAGGAGCGGCAGAAGAAGCAGCAGGCAAAGGACCCACAGAAGCC
CCAGTTCGAGCAAGAGGAGGAGGAAGAAGAGGGTTCAGGCCTCGCTTCAC
TGTGTGACCCTTGCCACCACCTTAAGGGAAGTGGTGCGGGAAAGGACGAA
AACAGCTGCGCCGTCTCCGATTACGGCACCGCGTGGATTACCCCAACAGC
CACCACCACGACTGTCCGCCCACTGTATGCCCCTGTGCCCTCCCGCCCCA
TTCAACCCATAATGCCCACGCAACACACCGACGATGCTCACACGCCCCTT
TTGACCGTCCTTCCTTCTGCCTCCAGCCTACCTACTCCTACCTCTACCCT
TGCGATACAATCGCCGCCGCTCCGTCCCCTCCGCGGCCTAGTCTTTGCCA
CCAACGTCCTGAACAATATCTCCCTGGGCTGTACGGCGCCCTTTCTGCAG
CACCACTTGGAGACCCACTACGAGCAAAGCTACCAGTCCTCAGGCCTCGT
CTTCGCCGTCTTCCCCCTCGTGGCCCTCCTCTGCTCCCCCCTGGGTGCTG
TCCTGTGCCGAGCCGGTCGGGACAAATTCCTGGTCTGGCAGCTAGGGCTT
GTGACGAGCGTGCTGGCCTCGCTTGGCTTCGGGCTTGCGGAGTCCGTGGC
TCTTCTGCTCCTTATGCGGGGCTTGCAAGGCCTGGGCTTCGCCCTCTCCA
CCATCGCAGGGCTCGGCCTCCTGATCGAGTGCTCGCCGGATCTGACTGCG
GACATCGCCCGACAAGAAGTGCTGGTGGGCCTGTCTATGGTCCTCGCCCC
CGCGGCGGGAGGGCTGCTGTACACCTATGCGGGCTTTGCAGCCATCTTCA
ACATCCTCGCCAGCGGCTTCATGCTCCTTGTGCTGGGGTTGACGGCAGGG
CGGAAACTGGGGTATCTCGGGGGCAGGGAAGGAGAGAGGGAAGGAGAGGA
GGAGGGTGGACCGTGGTGGATCATGTCCTCTTGGCCAGGCTCGGTGTCGA
ACTGGTGCTGGTGTTCGCGGGGAGGAGCAGCAGAGGCACAGGAGGGAAGC
AGGGGTGAGCAGGAAGGAAGAGAAGATGAAGCAGCCACGGCTCTTCTGAT
TCCGCCAGAAAACATGGCAATAACCAAGAGGGAAAGCCAGCAGTTTCCTC
CTTCTCCCTCCCCTCCCGTCTCTCTTCTCCGCATGCTCCTCCTACCTGGC
GTGCTGTCCGCGGCGCTGTTGGTGATGGTCTCGTTCAACAGCATCAGCTT
CCTCGAACTCGCCTTTGCCGGCCACGCCGAGGCAGCCCTAGGCCTCGCGC
CCTTGGGGACGGGGCTTCTATTTTCCTGTGTCGATATTGCGTATGCCGCG
TGTGCTTACCTTATGGCTCGGGCCAGGAAGAGGGGGAAGGAAGAAAGCGA
GGGAGGAAGAGAAGAGGAGGAAGAGGACAGCTTAAATTGCAGTCGAAGAG
GAGAAGACGAACAGATTGGGGAAGAACAACAACGCAAACCTTCTCGCTCG
TCGTCTACCTCCTCCACCACCTCCAATTCCTCGTGCTCTTCCTCCTCCTC
CTCTATCTCCTCCTCCTCCCGCTTCGGCTTTTCTTTCCTCAACCTCCGCG
CACTCGCCTTAGCCGGCCTCGCCTGCCAGGCCTTGGCCATGTGCCTCCTC
GGCCCCCTACCCCTCTTCTCCCTTCCCCTACCCCCTTTCCTCCCGCCCTC
GCTCCTGGCCTGGCTGAGCGTGGCGTGCGGGTGTTTGGTGGCCGGGGTGG
GGGAAGCCTTGGCCCTCGTACCTGCGGTAGACTTAATGCGGGCGGCCCTG
CCTCCTTCTCTTTTCCTCGCCACGAGCGACGGCAACAATAGCGAACAGGG
TGCTACAGGGCATCTGGCGGCCGTCATGAGCGCGGCCACGAGCCTGGGGG
AGTGCGTGGGGCCACTCCTCGGAGGCCTGCTCATGGAGGTGCTTCCTCAG
CGGAGGGAGGTGGGTTGCTCCGGAAGCGGGGTCGCGGGAGAGGAAGGGTG
TGTGACGGGCTTTCGATGGACAACGGCCTCGATTTCGGTGGCCTTGGCAA
TCGCGGGCTGTATTTGTTATGTAGGGCTCGCCAACGAAGGGGTGGGGGAC
GAGGCGGCAGGATCAACACCAGTTGCCGAATCAGTTGCAGCAGCAGCAGC
AGCCGTGGCGGAGGAGGGCAGTGCGGGGATGGGAGAGGGAGGGGAGCGTG
TCTACAAGCCACCCACCGTCGCTGTTCCTTCGCCACCACATCTACAACGG
CGCCTCTCCCGACCCCCCACACCCATCTCGCTGGCTTCCTTGCGTGTACC
TTCCACTACTTCCATTGCCAAGCCGAGGACCTCTTCGCTGTCCTCATCGA
TCGAAGGAAGTCGACGGAGAAGTAGCACGGGGGGGGGGGGTTGCTTGGAA
GTAAGACGGCAGATACCGGACACAGTTCGAGATTACAATCCCAGGTTGGA
AAATATTAGAAAGATAGGGCAGGATTCAAATTGCAGGGACGGTCAAAATA
CATGCACTCCAAATTATGAAAGAAAAATAACTGAGCCGGA back to topprotein sequence of NO27G00010.1 >NO27G00010.1-protein ID=NO27G00010.1-protein|Name=NO27G00010.1|organism=Nannochloropsis oceanica|type=polypeptide|length=956bp
MRWCGKSIRMWASFVDKHALVNPLALPATHTTLVSPFALLLLEIFYLLIL
THTTRHHIHLALLRGKLAFEDPVVTPPHEEEQISPRWKREKKKRKGELQD
ETVELLQQQEQGQERQKKQQAKDPQKPQFEQEEEEEEGSGLASLCDPCHH
LKGSGAGKDENSCAVSDYGTAWITPTATTTTVRPLYAPVPSRPIQPIMPT
QHTDDAHTPLLTVLPSASSLPTPTSTLAIQSPPLRPLRGLVFATNVLNNI
SLGCTAPFLQHHLETHYEQSYQSSGLVFAVFPLVALLCSPLGAVLCRAGR
DKFLVWQLGLVTSVLASLGFGLAESVALLLLMRGLQGLGFALSTIAGLGL
LIECSPDLTADIARQEVLVGLSMVLAPAAGGLLYTYAGFAAIFNILASGF
MLLVLGLTAGRKLGYLGGREGEREGEEEGGPWWIMSSWPGSVSNWCWCSR
GGAAEAQEGSRGEQEGREDEAATALLIPPENMAITKRESQQFPPSPSPPV
SLLRMLLLPGVLSAALLVMVSFNSISFLELAFAGHAEAALGLAPLGTGLL
FSCVDIAYAACAYLMARARKRGKEESEGGREEEEEDSLNCSRRGEDEQIG
EEQQRKPSRSSSTSSTTSNSSCSSSSSSISSSSRFGFSFLNLRALALAGL
ACQALAMCLLGPLPLFSLPLPPFLPPSLLAWLSVACGCLVAGVGEALALV
PAVDLMRAALPPSLFLATSDGNNSEQGATGHLAAVMSAATSLGECVGPLL
GGLLMEVLPQRREVGCSGSGVAGEEGCVTGFRWTTASISVALAIAGCICY
VGLANEGVGDEAAGSTPVAESVAAAAAAVAEEGSAGMGEGGERVYKPPTV
AVPSPPHLQRRLSRPPTPISLASLRVPSTTSIAKPRTSSLSSSIEGSRRR
SSTGGGGCLEVRRQIPDTVRDYNPRLENIRKIGQDSNCRDGQNTCTPNYE
RKITEP back to topmRNA from alignment at chr27:414..3353- Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >NO27G00010.1 ID=NO27G00010.1|Name=NO27G00010.1|organism=Nannochloropsis oceanica|type=mRNA|length=2940bp|location=Sequence derived from alignment at chr27:414..3353- (Nannochloropsis oceanica)
GTTGCGAAGGAGAAATTCAAACGTGGGTATGGTGGCAATGCATTGCAAAA
GACTGTGTCCCTGACCATGTATGCGCTGGTGCGGCAAATCAATACGCATG
TGGGCGAGCTTTGTGGATAAGCATGCTCTTGTCAACCCGCTTGCTCTACC
TGCCACCCACACCACACTTGTCTCTCCTTTTGCCTTGCTCCTTCTCGAAA
TATTTTACTTGCTCATCCTCACTCACACCACTAGGCACCACATCCACCTC
GCCCTGCTCAGAGGGAAACTGGCCTTCGAAGACCCTGTAGTCACTCCGCC
CCACGAAGAGGAGCAGATCAGTCCAAGGTGGAAGAGGGAGAAGAAGAAAA
GGAAAGGAGAGCTCCAAGACGAGACGGTCGAACTCCTCCAGCAACAGGAG
CAAGGACAGGAGCGGCAGAAGAAGCAGCAGGCAAAGGACCCACAGAAGCC
CCAGTTCGAGCAAGAGGAGGAGGAAGAAGAGGGTTCAGGCCTCGCTTCAC
TGTGTGACCCTTGCCACCACCTTAAGGGAAGTGGTGCGGGAAAGGACGAA
AACAGCTGCGCCGTCTCCGATTACGGCACCGCGTGGATTACCCCAACAGC
CACCACCACGACTGTCCGCCCACTGTATGCCCCTGTGCCCTCCCGCCCCA
TTCAACCCATAATGCCCACGCAACACACCGACGATGCTCACACGCCCCTT
TTGACCGTCCTTCCTTCTGCCTCCAGCCTACCTACTCCTACCTCTACCCT
TGCGATACAATCGCCGCCGCTCCGTCCCCTCCGCGGCCTAGTCTTTGCCA
CCAACGTCCTGAACAATATCTCCCTGGGCTGTACGGCGCCCTTTCTGCAG
CACCACTTGGAGACCCACTACGAGCAAAGCTACCAGTCCTCAGGCCTCGT
CTTCGCCGTCTTCCCCCTCGTGGCCCTCCTCTGCTCCCCCCTGGGTGCTG
TCCTGTGCCGAGCCGGTCGGGACAAATTCCTGGTCTGGCAGCTAGGGCTT
GTGACGAGCGTGCTGGCCTCGCTTGGCTTCGGGCTTGCGGAGTCCGTGGC
TCTTCTGCTCCTTATGCGGGGCTTGCAAGGCCTGGGCTTCGCCCTCTCCA
CCATCGCAGGGCTCGGCCTCCTGATCGAGTGCTCGCCGGATCTGACTGCG
GACATCGCCCGACAAGAAGTGCTGGTGGGCCTGTCTATGGTCCTCGCCCC
CGCGGCGGGAGGGCTGCTGTACACCTATGCGGGCTTTGCAGCCATCTTCA
ACATCCTCGCCAGCGGCTTCATGCTCCTTGTGCTGGGGTTGACGGCAGGG
CGGAAACTGGGGTATCTCGGGGGCAGGGAAGGAGAGAGGGAAGGAGAGGA
GGAGGGTGGACCGTGGTGGATCATGTCCTCTTGGCCAGGCTCGGTGTCGA
ACTGGTGCTGGTGTTCGCGGGGAGGAGCAGCAGAGGCACAGGAGGGAAGC
AGGGGTGAGCAGGAAGGAAGAGAAGATGAAGCAGCCACGGCTCTTCTGAT
TCCGCCAGAAAACATGGCAATAACCAAGAGGGAAAGCCAGCAGTTTCCTC
CTTCTCCCTCCCCTCCCGTCTCTCTTCTCCGCATGCTCCTCCTACCTGGC
GTGCTGTCCGCGGCGCTGTTGGTGATGGTCTCGTTCAACAGCATCAGCTT
CCTCGAACTCGCCTTTGCCGGCCACGCCGAGGCAGCCCTAGGCCTCGCGC
CCTTGGGGACGGGGCTTCTATTTTCCTGTGTCGATATTGCGTATGCCGCG
TGTGCTTACCTTATGGCTCGGGCCAGGAAGAGGGGGAAGGAAGAAAGCGA
GGGAGGAAGAGAAGAGGAGGAAGAGGACAGCTTAAATTGCAGTCGAAGAG
GAGAAGACGAACAGATTGGGGAAGAACAACAACGCAAACCTTCTCGCTCG
TCGTCTACCTCCTCCACCACCTCCAATTCCTCGTGCTCTTCCTCCTCCTC
CTCTATCTCCTCCTCCTCCCGCTTCGGCTTTTCTTTCCTCAACCTCCGCG
CACTCGCCTTAGCCGGCCTCGCCTGCCAGGCCTTGGCCATGTGCCTCCTC
GGCCCCCTACCCCTCTTCTCCCTTCCCCTACCCCCTTTCCTCCCGCCCTC
GCTCCTGGCCTGGCTGAGCGTGGCGTGCGGGTGTTTGGTGGCCGGGGTGG
GGGAAGCCTTGGCCCTCGTACCTGCGGTAGACTTAATGCGGGCGGCCCTG
CCTCCTTCTCTTTTCCTCGCCACGAGCGACGGCAACAATAGCGAACAGGG
TGCTACAGGGCATCTGGCGGCCGTCATGAGCGCGGCCACGAGCCTGGGGG
AGTGCGTGGGGCCACTCCTCGGAGGCCTGCTCATGGAGGTGCTTCCTCAG
CGGAGGGAGGTGGGTTGCTCCGGAAGCGGGGTCGCGGGAGAGGAAGGGTG
TGTGACGGGCTTTCGATGGACAACGGCCTCGATTTCGGTGGCCTTGGCAA
TCGCGGGCTGTATTTGTTATGTAGGGCTCGCCAACGAAGGGGTGGGGGAC
GAGGCGGCAGGATCAACACCAGTTGCCGAATCAGTTGCAGCAGCAGCAGC
AGCCGTGGCGGAGGAGGGCAGTGCGGGGATGGGAGAGGGAGGGGAGCGTG
TCTACAAGCCACCCACCGTCGCTGTTCCTTCGCCACCACATCTACAACGG
CGCCTCTCCCGACCCCCCACACCCATCTCGCTGGCTTCCTTGCGTGTACC
TTCCACTACTTCCATTGCCAAGCCGAGGACCTCTTCGCTGTCCTCATCGA
TCGAAGGAAGTCGACGGAGAAGTAGCACGGGGGGGGGGGGTTGCTTGGAA
GTAAGACGGCAGATACCGGACACAGTTCGAGATTACAATCCCAGGTTGGA
AAATATTAGAAAGATAGGGCAGGATTCAAATTGCAGGGACGGTCAAAATA
CATGCACTCCAAATTATGAAAGAAAAATAACTGAGCCGGA back to topCoding sequence (CDS) from alignment at chr27:414..3353- >NO27G00010.1 ID=NO27G00010.1|Name=NO27G00010.1|organism=Nannochloropsis oceanica|type=CDS|length=2870bp|location=Sequence derived from alignment at chr27:414..3353- (Nannochloropsis oceanica)
ATGCGCTGGTGCGGCAAATCAATACGCATGTGGGCGAGCTTTGTGGATAA
GCATGCTCTTGTCAACCCGCTTGCTCTACCTGCCACCCACACCACACTTG
TCTCTCCTTTTGCCTTGCTCCTTCTCGAAATATTTTACTTGCTCATCCTC
ACTCACACCACTAGGCACCACATCCACCTCGCCCTGCTCAGAGGGAAACT
GGCCTTCGAAGACCCTGTAGTCACTCCGCCCCACGAAGAGGAGCAGATCA
GTCCAAGGTGGAAGAGGGAGAAGAAGAAAAGGAAAGGAGAGCTCCAAGAC
GAGACGGTCGAACTCCTCCAGCAACAGGAGCAAGGACAGGAGCGGCAGAA
GAAGCAGCAGGCAAAGGACCCACAGAAGCCCCAGTTCGAGCAAGAGGAGG
AGGAAGAAGAGGGTTCAGGCCTCGCTTCACTGTGTGACCCTTGCCACCAC
CTTAAGGGAAGTGGTGCGGGAAAGGACGAAAACAGCTGCGCCGTCTCCGA
TTACGGCACCGCGTGGATTACCCCAACAGCCACCACCACGACTGTCCGCC
CACTGTATGCCCCTGTGCCCTCCCGCCCCATTCAACCCATAATGCCCACG
CAACACACCGACGATGCTCACACGCCCCTTTTGACCGTCCTTCCTTCTGC
CTCCAGCCTACCTACTCCTACCTCTACCCTTGCGATACAATCGCCGCCGC
TCCGTCCCCTCCGCGGCCTAGTCTTTGCCACCAACGTCCTGAACAATATC
TCCCTGGGCTGTACGGCGCCCTTTCTGCAGCACCACTTGGAGACCCACTA
CGAGCAAAGCTACCAGTCCTCAGGCCTCGTCTTCGCCGTCTTCCCCCTCG
TGGCCCTCCTCTGCTCCCCCCTGGGTGCTGTCCTGTGCCGAGCCGGTCGG
GACAAATTCCTGGTCTGGCAGCTAGGGCTTGTGACGAGCGTGCTGGCCTC
GCTTGGCTTCGGGCTTGCGGAGTCCGTGGCTCTTCTGCTCCTTATGCGGG
GCTTGCAAGGCCTGGGCTTCGCCCTCTCCACCATCGCAGGGCTCGGCCTC
CTGATCGAGTGCTCGCCGGATCTGACTGCGGACATCGCCCGACAAGAAGT
GCTGGTGGGCCTGTCTATGGTCCTCGCCCCCGCGGCGGGAGGGCTGCTGT
ACACCTATGCGGGCTTTGCAGCCATCTTCAACATCCTCGCCAGCGGCTTC
ATGCTCCTTGTGCTGGGGTTGACGGCAGGGCGGAAACTGGGGTATCTCGG
GGGCAGGGAAGGAGAGAGGGAAGGAGAGGAGGAGGGTGGACCGTGGTGGA
TCATGTCCTCTTGGCCAGGCTCGGTGTCGAACTGGTGCTGGTGTTCGCGG
GGAGGAGCAGCAGAGGCACAGGAGGGAAGCAGGGGTGAGCAGGAAGGAAG
AGAAGATGAAGCAGCCACGGCTCTTCTGATTCCGCCAGAAAACATGGCAA
TAACCAAGAGGGAAAGCCAGCAGTTTCCTCCTTCTCCCTCCCCTCCCGTC
TCTCTTCTCCGCATGCTCCTCCTACCTGGCGTGCTGTCCGCGGCGCTGTT
GGTGATGGTCTCGTTCAACAGCATCAGCTTCCTCGAACTCGCCTTTGCCG
GCCACGCCGAGGCAGCCCTAGGCCTCGCGCCCTTGGGGACGGGGCTTCTA
TTTTCCTGTGTCGATATTGCGTATGCCGCGTGTGCTTACCTTATGGCTCG
GGCCAGGAAGAGGGGGAAGGAAGAAAGCGAGGGAGGAAGAGAAGAGGAGG
AAGAGGACAGCTTAAATTGCAGTCGAAGAGGAGAAGACGAACAGATTGGG
GAAGAACAACAACGCAAACCTTCTCGCTCGTCGTCTACCTCCTCCACCAC
CTCCAATTCCTCGTGCTCTTCCTCCTCCTCCTCTATCTCCTCCTCCTCCC
GCTTCGGCTTTTCTTTCCTCAACCTCCGCGCACTCGCCTTAGCCGGCCTC
GCCTGCCAGGCCTTGGCCATGTGCCTCCTCGGCCCCCTACCCCTCTTCTC
CCTTCCCCTACCCCCTTTCCTCCCGCCCTCGCTCCTGGCCTGGCTGAGCG
TGGCGTGCGGGTGTTTGGTGGCCGGGGTGGGGGAAGCCTTGGCCCTCGTA
CCTGCGGTAGACTTAATGCGGGCGGCCCTGCCTCCTTCTCTTTTCCTCGC
CACGAGCGACGGCAACAATAGCGAACAGGGTGCTACAGGGCATCTGGCGG
CCGTCATGAGCGCGGCCACGAGCCTGGGGGAGTGCGTGGGGCCACTCCTC
GGAGGCCTGCTCATGGAGGTGCTTCCTCAGCGGAGGGAGGTGGGTTGCTC
CGGAAGCGGGGTCGCGGGAGAGGAAGGGTGTGTGACGGGCTTTCGATGGA
CAACGGCCTCGATTTCGGTGGCCTTGGCAATCGCGGGCTGTATTTGTTAT
GTAGGGCTCGCCAACGAAGGGGTGGGGGACGAGGCGGCAGGATCAACACC
AGTTGCCGAATCAGTTGCAGCAGCAGCAGCAGCCGTGGCGGAGGAGGGCA
GTGCGGGGATGGGAGAGGGAGGGGAGCGTGTCTACAAGCCACCCACCGTC
GCTGTTCCTTCGCCACCACATCTACAACGGCGCCTCTCCCGACCCCCCAC
ACCCATCTCGCTGGCTTCCTTGCGTGTACCTTCCACTACTTCCATTGCCA
AGCCGAGGACCTCTTCGCTGTCCTCATCGATCGAAGGAAGTCGACGGAGA
AGTAGCACGGGGGGGGGGGGTTGCTTGGAAGTAAGACGGCAGATACCGGA
CACAGTTCGAGATTACAATCCCAGGTTGGAAAATATTAGAAAGATAGGGC
AGGATTCAAATTGCAGGGACGGTCAAAATACATGCACTCCAAATTATGAA
AGAAAAATAACTGAGCCGGA back to top
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