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Properties
| Property Name | Value |
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| TranscriptId | 196833 |
| Track | FilteredModels2 |
| ProteinId | 196747 |
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| scaffold_24 | supercontig | scaffold_24:301728..304365 + |
Analyses
This mRNA is derived from or has results from the following analyses
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 >mRNA_8446 ID=mRNA_8446|Name=jgi.p|Nanoce1779_2|196747|organism=Nannochloropsis oceanica|type=mRNA|length=2156bp
CACCCAGGACAGCAAGCAAGCAAGGCGCATCTTCAGCCAAGGAACAAAAT
ATCCGGCCAGCGTATGGCCACCATGGCCGCCAGCTCCGCACCCCCACCAC
CCGTAAAAAAAGCCGGCCAGTTTGACGACGCGAGCGATGAAGACGAGGAC
GTCGCGAACCAGCAGCAGGAGCAACAAGAGCGCCAGTTTTTCTCTGGCCC
CGCACGCACCACCACTACTCGCGCTTGCCTCCCCACCCCTCCCGCCACCC
CTACGCCCGCCGCCGCCGCGCCCTACACCGAGGAAGAGGAGCAACGAGAA
GAATATGACTACAATTCAGATAACGATGAAGAAGACGACGATGATGAATA
CGCGGACCTCGAAGGCCTCCTTTTAGGAAAAGGGTCCGAAGCCATGCTAG
GTGGGGGTGGTGGTAATGCCTCTGCAGCCGCCGCTGCCGCGCGCCTGGAG
AGCCACCGTAGTGTCAATTTATCGCAAAGTGTGCGAAATGATATCACGAG
GAGCGAACGGACGGCAGAAAAGCGGGTGACACATACCGGAAGGGACGAAA
GGGCGACGACTGAACAGGTGCTTGATCCTCGCACACGGTTAATTTTGTGG
AAGCTGCTCAACAAGGGTTTCTTGTCAAGCATTGACGGCTGCCTGAGCAC
TGGGAAGGAGGCCAATGTCTACTATGCAGCGGCGCCAACCGGAGAGGAGT
ATGCGATCAAGGTATTCAAGACGTCCATTTTAGTTTTCAAAGACCGAGAT
CGTTATGTCTCCGGCGAGTTTAGGTTCCGCCACGGTTACTGCCGAAGCAA
CCCGCGGAAGATGGTGAAGCTCTGGGCAGAGAAAGAGATGCGGAACCTTC
GCCGGCTTGCCGCTGCAAGTATTCCTGCTCCTCGTCCTGTGGTGCTCAAG
AGCCATGTGCTGGTGATGAAATTTCTGGGGACGGACGGCTGGCCCGCCCC
AAGGCTCAAGGATGTGCAGGGGATGGGGGAGAAGAGGATGGGTAAGGTGT
ACTGGGAGTGCCTTAAGCTGATGCGGCGAATGTTCGTCGACTGCCGCCTC
GTCCACGGGGACCTGAGCGAGTATAACCTCCTCTACTTTCAAAATGAGCT
GTACATCATTGATGTTTCTCAGTCCGTCGAGCACGATCACCCCCAAGCCC
TGGACTTCCTCCGGAAAGACTCCATGAATGTCAACGACTTTTTCGAGCGG
AGAGGGGTCCGGGTGGGGGGGACGAGGCGCACGTTCGATTTCATCGTGAA
GGAGGGCGGGACGGAGGAAGGGTGGCTTGAAGACGAGTGCGAGAAAATGA
GAGAGGAGGTTCGTAAGGCGGATGAAAGCGAGGAAGCAGAGGGAGAGGAG
GGGGGGAAAGGGAGGGAGGGAGGGCTTGAGGAGGCTGTGTTTATGGGAAG
TTACATTCCGCGGTCATTACATGAGTTGCCAAACAGCTTTGAGGAGGCGA
GGAGATTGGAGGCAGGGGAGAGAGAAGGAGTGTACACAGCGGCAGTGAGG
CAGATGCTGGTGCCTGTAAAGGAAGGGAAGGAGGAAGGAAAGGCCAATGC
GAAAGAGAAGAAAGAGCTAAAGCCTATTGATGGCGAGAAGAAAGAGGAGG
TAGAGGAGAGTAAGAATGGAGTAGAGGAGAGTAAGAATGGAGTAGAGGAG
GAAGTGGAGGGAGAGGAGGAAGAGGATGCGGACGAGGACGAGGAGGGGGA
GGAAGATGTGGACTGTGATGATGATGATGACGATGATCAAGACGACGAAG
AATGGCGGGAGAAGAAGAAGGGGGGCATGGGCGGGCGGGGCCTGACGGAG
GAGGAACGAGCGGCACGTAAGGCAGACCGTAAAGCGGACAAGAAAGCGGT
CAAGGCCGAGAGGTCAGAAAAACGCAAATCTAAGATCCCAAAGCACATTA
AGAAAGCTAAAATTAAGGCAACATCGGGTGCGCGAAAGAAAAGGTAGTGA
TGATAATTAAGTGGCTGAATACTTAGGCAATAGGTAGGTCATTTTGCAAA
AAAAAGTAGTAAGGTAGGTCATTTTGCAAAAAGAAAAAGAAAAAGCAGAC
ACCACGAAAGGAAAGCATTCAGATGCGTATCGACCATTTCTATTACTCCT
GGTTGTCATTCTTGCAAGGCTTCGATTTTCTGCGTCTGGCATTTATGACC
CGCGTG back to topprotein sequence of jgi.p|Nanoce1779_2|196747 >mRNA_8446-protein ID=mRNA_8446-protein|Name=jgi.p|Nanoce1779_2|196747|organism=Nannochloropsis oceanica|type=polypeptide|length=628bp
MATMAASSAPPPPVKKAGQFDDASDEDEDVANQQQEQQERQFFSGPARTT
TTRACLPTPPATPTPAAAAPYTEEEEQREEYDYNSDNDEEDDDDEYADLE
GLLLGKGSEAMLGGGGGNASAAAAAARLESHRSVNLSQSVRNDITRSERT
AEKRVTHTGRDERATTEQVLDPRTRLILWKLLNKGFLSSIDGCLSTGKEA
NVYYAAAPTGEEYAIKVFKTSILVFKDRDRYVSGEFRFRHGYCRSNPRKM
VKLWAEKEMRNLRRLAAASIPAPRPVVLKSHVLVMKFLGTDGWPAPRLKD
VQGMGEKRMGKVYWECLKLMRRMFVDCRLVHGDLSEYNLLYFQNELYIID
VSQSVEHDHPQALDFLRKDSMNVNDFFERRGVRVGGTRRTFDFIVKEGGT
EEGWLEDECEKMREEVRKADESEEAEGEEGGKGREGGLEEAVFMGSYIPR
SLHELPNSFEEARRLEAGEREGVYTAAVRQMLVPVKEGKEEGKANAKEKK
ELKPIDGEKKEEVEESKNGVEESKNGVEEEVEGEEEEDADEDEEGEEDVD
CDDDDDDDQDDEEWREKKKGGMGGRGLTEEERAARKADRKADKKAVKAER
SEKRKSKIPKHIKKAKIKATSGARKKR* back to topmRNA from alignment at scaffold_24:301728..304365+ Legend: polypeptideCDS Hold the cursor over a type above to highlight its positions in the sequence below. >mRNA_8446 ID=mRNA_8446|Name=jgi.p|Nanoce1779_2|196747|organism=Nannochloropsis oceanica|type=mRNA|length=2638bp|location=Sequence derived from alignment at scaffold_24:301728..304365+ (Nannochloropsis oceanica)
CACCCAGGACAGCAAGCAAGCAAGGCGCATCTTCAGCCAAGGAACAAAAT
ATCCGGCCAGCGTATGGCCACCATGGCCGCCAGCTCCGCACCCCCACCAC
CCGTAAAAAAAGCCGGCCAGTTTGACGACGCGAGCGATGAAGACGAGGAC
GTCGCGAACCAGCAGCAGGAGCAACAAGAGCGCCAGTTTTTCTCTGGCCC
CGCACGCACCACCACTACTCGCGCTTGCCTCCCCACCCCTCCCGCCACCC
CTACGCCCGCCGCCGCCGCGCCCTACACCGAGGAAGAGGAGCAACGAGAA
GAATATGACTACAATTCAGATAACGATGAAGAAGACGACGATGATGAATA
CGCGGACCTCGAAGGCCTCCTTTTAGGAAAAGGGTCCGAAGCCATGCTAG
GTGGGGGTGGTGGTAATGCCTCTGCAGCCGCCGCTGCCGCGCGCCTGGAG
AGCCACCGTAGTGTCAATTTATCGCAAAGTGTGCGAAATGATATCACGAG
GAGCGAACGGACGGCAGAAAAGCGGGTGACACATACCGGAAGGGACGAAA
GGGCGACGACTGAACAGGTGCTTGATCCTCGCACACGGTTAATTTTGTGG
AAGCTGCTCAACAAGGGTTTCTTGTCAAGCATTGACGGCTGCCTGAGCAC
TGGGAAGGAGGCCAATGTCTACTATGCAGCGGCGCCAACCGGAGAGGAGT
ATGCGATCAAGGTATTCAAGACGTCCATTTTAGTTTTCAAAGACCGAGAT
CGTTATGTCTCCGGCGAGTTTAGGGTACGTTCTCTCCCTCCCTGCCTCCC
TCCTTCCCTCCCTCTCTCTCCCTCCCTATCTCCCTCCCTCCCTCTCTCCT
TTTGCGCTCCATTTAGTTTACAGAAAAGACACGACGTACAAAAATATAGA
AGCCTCTGCTGACACAAGTATACTCCTCCCTCCCTCCCTCCCTCCCTCCC
TCCCTCCCTCTCTCTCCCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
TCTTTGCCCTAGTTCCGCCACGGTTACTGCCGAAGCAACCCGCGGAAGAT
GGTGAAGCTCTGGGCAGAGAAAGAGATGCGGAACCTTCGCCGGCTTGCCG
CTGCAAGTATTCCTGCTCCTCGTCCTGTGGTGCTCAAGAGCCATGTGCTG
GTGATGAAATTTCTGGGGACGGACGGCTGGCCCGCCCCAAGGCTCAAGGA
TGTGCAGGGGATGGGGGAGAAGAGGTGAGGGAGAAAGGGAGGGAGAAAGG
ATTGGGAGTGGGGAGGGAGGTTGGTGAGAAAGAACCACTTAAGTTCCCGA
GCAATCGCCTAATCGATGTCCCAAGGCTCTCCCTCCTTTCCTCCCCCAGA
TCCTAGACTGCGTGCTGGCCACCAACGCCCTGAGCTTGTGTGGCGGATGC
TCATCAACACTTTTGTCCTTCCATCTCTCCCTTCCTCCCTTCGTCCTTCC
TCCCAACCCTTCCCTCAGGATGGGTAAGGTGTACTGGGAGTGCCTTAAGC
TGATGCGGCGAATGTTCGTCGACTGCCGCCTCGTCCACGGGGACCTGAGC
GAGTATAACCTCCTCTACTTTCAAAATGAGCTGTACATCATTGATGTTTC
TCAGTCCGTCGAGCACGATCACCCCCAAGCCCTGGACTTCCTCCGGAAAG
ACTCCATGAATGTCAACGACTTTTTCGAGCGGAGAGGGGTCCGGGTGGGG
GGGACGAGGCGCACGTTCGATTTCATCGTGAAGGAGGGCGGGACGGAGGA
AGGGTGGCTTGAAGACGAGTGCGAGAAAATGAGAGAGGAGGTTCGTAAGG
CGGATGAAAGCGAGGAAGCAGAGGGAGAGGAGGGGGGGAAAGGGAGGGAG
GGAGGGCTTGAGGAGGCTGTGTTTATGGGAAGTTACATTCCGCGGTCATT
ACATGAGTTGCCAAACAGCTTTGAGGAGGCGAGGAGATTGGAGGCAGGGG
AGAGAGAAGGAGTGTACACAGCGGCAGTGAGGCAGATGCTGGTGCCTGTA
AAGGAAGGGAAGGAGGAAGGAAAGGCCAATGCGAAAGAGAAGAAAGAGCT
AAAGCCTATTGATGGCGAGAAGAAAGAGGAGGTAGAGGAGAGTAAGAATG
GAGTAGAGGAGAGTAAGAATGGAGTAGAGGAGGAAGTGGAGGGAGAGGAG
GAAGAGGATGCGGACGAGGACGAGGAGGGGGAGGAAGATGTGGACTGTGA
TGATGATGATGACGATGATCAAGACGACGAAGAATGGCGGGAGAAGAAGA
AGGGGGGCATGGGCGGGCGGGGCCTGACGGAGGAGGAACGAGCGGCACGT
AAGGCAGACCGTAAAGCGGACAAGAAAGCGGTCAAGGCCGAGAGGTCAGA
AAAACGCAAATCTAAGATCCCAAAGCACATTAAGAAAGCTAAAATTAAGG
CAACATCGGGTGCGCGAAAGAAAAGGTAGTGATGATAATTAAGTGGCTGA
ATACTTAGGCAATAGGTAGGTCATTTTGCAAAAAAAAGTAGTAAGGTAGG
TCATTTTGCAAAAAGAAAAAGAAAAAGCAGACACCACGAAAGGAAAGCAT
TCAGATGCGTATCGACCATTTCTATTACTCCTGGTTGTCATTCTTGCAAG
GCTTCGATTTTCTGCGTCTGGCATTTATGACCCGCGTG back to topCoding sequence (CDS) from alignment at scaffold_24:301728..304365+ >mRNA_8446 ID=mRNA_8446|Name=jgi.p|Nanoce1779_2|196747|organism=Nannochloropsis oceanica|type=CDS|length=5652bp|location=Sequence derived from alignment at scaffold_24:301728..304365+ (Nannochloropsis oceanica)
ATGGCCACCATGGCCGCCAGCTCCGCACCCCCACCACCCGTAAAAAAAGC
CGGCCAGTTTGACGACGCGAGCGATGAAGACGAGGACGTCGCGAACCAGC
AGCAGGAGCAACAAGAGCGCCAGTTTTTCTCTGGCCCCGCACGCACCACC
ACTACTCGCGCTTGCCTCCCCACCCCTCCCGCCACCCCTACGCCCGCCGC
CGCCGCGCCCTACACCGAGGAAGAGGAGCAACGAGAAGAATATGACTACA
ATTCAGATAACGATGAAGAAGACGACGATGATGAATACGCGGACCTCGAA
GGCCTCCTTTTAGGAAAAGGGTCCGAAGCCATGCTAGGTGGGGGTGGTGG
TAATGCCTCTGCAGCCGCCGCTGCCGCGCGCCTGGAGAGCCACCGTAGTG
TCAATTTATCGCAAAGTGTGCGAAATGATATCACGAGGAGCGAACGGACG
GCAGAAAAGCGGGTGACACATACCGGAAGGGACGAAAGGGCGACGACTGA
ACAGGTGCTTGATCCTCGCACACGGTTAATTTTGTGGAAGCTGCTCAACA
AGGGTTTCTTGTCAAGCATTGACGGCTGCCTGAGCACTGGGAAGGAGGCC
AATGTCTACTATGCAGCGGCGCCAACCGGAGAGGAGTATGCGATCAAGGT
ATTCAAGACGTCCATTTTAGTTTTCAAAGACCGAGATCGTTATGTCTCCG
GCGAGTTTAGGTTCCGCCACGGTTACTGCCGAAGCAACCCGCGGAAGATG
GTGAAGCTCTGGGCAGAGAAAGAGATGCGGAACCTTCGCCGGCTTGCCGC
TGCAAGTATTCCTGCTCCTCGTCCTGTGGTGCTCAAGAGCCATGTGCTGG
TGATGAAATTTCTGGGGACGGACGGCTGGCCCGCCCCAAGGCTCAAGGAT
GTGCAGGGGATGGGGGAGAAGAGGATGGGTAAGGTGTACTGGGAGTGCCT
TAAGCTGATGCGGCGAATGTTCGTCGACTGCCGCCTCGTCCACGGGGACC
TGAGCGAGTATAACCTCCTCTACTTTCAAAATGAGCTGTACATCATTGAT
GTTTCTCAGTCCGTCGAGCACGATCACCCCCAAGCCCTGGACTTCCTCCG
GAAAGACTCCATGAATGTCAACGACTTTTTCGAGCGGAGAGGGGTCCGGG
TGGGGGGGACGAGGCGCACGTTCGATTTCATCGTGAAGGAGGGCGGGACG
GAGGAAGGGTGGCTTGAAGACGAGTGCGAGAAAATGAGAGAGGAGGTTCG
TAAGGCGGATGAAAGCGAGGAAGCAGAGGGAGAGGAGGGGGGGAAAGGGA
GGGAGGGAGGGCTTGAGGAGGCTGTGTTTATGGGAAGTTACATTCCGCGG
TCATTACATGAGTTGCCAAACAGCTTTGAGGAGGCGAGGAGATTGGAGGC
AGGGGAGAGAGAAGGAGTGTACACAGCGGCAGTGAGGCAGATGCTGGTGC
CTGTAAAGGAAGGGAAGGAGGAAGGAAAGGCCAATGCGAAAGAGAAGAAA
GAGCTAAAGCCTATTGATGGCGAGAAGAAAGAGGAGGTAGAGGAGAGTAA
GAATGGAGTAGAGGAGAGTAAGAATGGAGTAGAGGAGGAAGTGGAGGGAG
AGGAGGAAGAGGATGCGGACGAGGACGAGGAGGGGGAGGAAGATGTGGAC
TGTGATGATGATGATGACGATGATCAAGACGACGAAGAATGGCGGGAGAA
GAAGAAGGGGGGCATGGGCGGGCGGGGCCTGACGGAGGAGGAACGAGCGG
CACGTAAGGCAGACCGTAAAGCGGACAAGAAAGCGGTCAAGGCCGAGAGG
TCAGAAAAACGCAAATCTAAGATCCCAAAGCACATTAAGAAAGCTAAAAT
TAAGGCAACATCGGGTGCGCGAAAGAAAAGGTAGATGGCCACCATGGCCG
CCAGCTCCGCACCCCCACCACCCGTAAAAAAAGCCGGCCAGTTTGACGAC
GCGAGCGATGAAGACGAGGACGTCGCGAACCAGCAGCAGGAGCAACAAGA
GCGCCAGTTTTTCTCTGGCCCCGCACGCACCACCACTACTCGCGCTTGCC
TCCCCACCCCTCCCGCCACCCCTACGCCCGCCGCCGCCGCGCCCTACACC
GAGGAAGAGGAGCAACGAGAAGAATATGACTACAATTCAGATAACGATGA
AGAAGACGACGATGATGAATACGCGGACCTCGAAGGCCTCCTTTTAGGAA
AAGGGTCCGAAGCCATGCTAGGTGGGGGTGGTGGTAATGCCTCTGCAGCC
GCCGCTGCCGCGCGCCTGGAGAGCCACCGTAGTGTCAATTTATCGCAAAG
TGTGCGAAATGATATCACGAGGAGCGAACGGACGGCAGAAAAGCGGGTGA
CACATACCGGAAGGGACGAAAGGGCGACGACTGAACAGGTGCTTGATCCT
CGCACACGGTTAATTTTGTGGAAGCTGCTCAACAAGGGTTTCTTGTCAAG
CATTGACGGCTGCCTGAGCACTGGGAAGGAGGCCAATGTCTACTATGCAG
CGGCGCCAACCGGAGAGGAGTATGCGATCAAGGTATTCAAGACGTCCATT
TTAGTTTTCAAAGACCGAGATCGTTATGTCTCCGGCGAGTTTAGGTTCCG
CCACGGTTACTGCCGAAGCAACCCGCGGAAGATGGTGAAGCTCTGGGCAG
AGAAAGAGATGCGGAACCTTCGCCGGCTTGCCGCTGCAAGTATTCCTGCT
CCTCGTCCTGTGGTGCTCAAGAGCCATGTGCTGGTGATGAAATTTCTGGG
GACGGACGGCTGGCCCGCCCCAAGGCTCAAGGATGTGCAGGGGATGGGGG
AGAAGAGGATGGGTAAGGTGTACTGGGAGTGCCTTAAGCTGATGCGGCGA
ATGTTCGTCGACTGCCGCCTCGTCCACGGGGACCTGAGCGAGTATAACCT
CCTCTACTTTCAAAATGAGCTGTACATCATTGATGTTTCTCAGTCCGTCG
AGCACGATCACCCCCAAGCCCTGGACTTCCTCCGGAAAGACTCCATGAAT
GTCAACGACTTTTTCGAGCGGAGAGGGGTCCGGGTGGGGGGGACGAGGCG
CACGTTCGATTTCATCGTGAAGGAGGGCGGGACGGAGGAAGGGTGGCTTG
AAGACGAGTGCGAGAAAATGAGAGAGGAGGTTCGTAAGGCGGATGAAAGC
GAGGAAGCAGAGGGAGAGGAGGGGGGGAAAGGGAGGGAGGGAGGGCTTGA
GGAGGCTGTGTTTATGGGAAGTTACATTCCGCGGTCATTACATGAGTTGC
CAAACAGCTTTGAGGAGGCGAGGAGATTGGAGGCAGGGGAGAGAGAAGGA
GTGTACACAGCGGCAGTGAGGCAGATGCTGGTGCCTGTAAAGGAAGGGAA
GGAGGAAGGAAAGGCCAATGCGAAAGAGAAGAAAGAGCTAAAGCCTATTG
ATGGCGAGAAGAAAGAGGAGGTAGAGGAGAGTAAGAATGGAGTAGAGGAG
AGTAAGAATGGAGTAGAGGAGGAAGTGGAGGGAGAGGAGGAAGAGGATGC
GGACGAGGACGAGGAGGGGGAGGAAGATGTGGACTGTGATGATGATGATG
ACGATGATCAAGACGACGAAGAATGGCGGGAGAAGAAGAAGGGGGGCATG
GGCGGGCGGGGCCTGACGGAGGAGGAACGAGCGGCACGTAAGGCAGACCG
TAAAGCGGACAAGAAAGCGGTCAAGGCCGAGAGGTCAGAAAAACGCAAAT
CTAAGATCCCAAAGCACATTAAGAAAGCTAAAATTAAGGCAACATCGGGT
GCGCGAAAGAAAAGGTAGATGGCCACCATGGCCGCCAGCTCCGCACCCCC
ACCACCCGTAAAAAAAGCCGGCCAGTTTGACGACGCGAGCGATGAAGACG
AGGACGTCGCGAACCAGCAGCAGGAGCAACAAGAGCGCCAGTTTTTCTCT
GGCCCCGCACGCACCACCACTACTCGCGCTTGCCTCCCCACCCCTCCCGC
CACCCCTACGCCCGCCGCCGCCGCGCCCTACACCGAGGAAGAGGAGCAAC
GAGAAGAATATGACTACAATTCAGATAACGATGAAGAAGACGACGATGAT
GAATACGCGGACCTCGAAGGCCTCCTTTTAGGAAAAGGGTCCGAAGCCAT
GCTAGGTGGGGGTGGTGGTAATGCCTCTGCAGCCGCCGCTGCCGCGCGCC
TGGAGAGCCACCGTAGTGTCAATTTATCGCAAAGTGTGCGAAATGATATC
ACGAGGAGCGAACGGACGGCAGAAAAGCGGGTGACACATACCGGAAGGGA
CGAAAGGGCGACGACTGAACAGGTGCTTGATCCTCGCACACGGTTAATTT
TGTGGAAGCTGCTCAACAAGGGTTTCTTGTCAAGCATTGACGGCTGCCTG
AGCACTGGGAAGGAGGCCAATGTCTACTATGCAGCGGCGCCAACCGGAGA
GGAGTATGCGATCAAGGTATTCAAGACGTCCATTTTAGTTTTCAAAGACC
GAGATCGTTATGTCTCCGGCGAGTTTAGGTTCCGCCACGGTTACTGCCGA
AGCAACCCGCGGAAGATGGTGAAGCTCTGGGCAGAGAAAGAGATGCGGAA
CCTTCGCCGGCTTGCCGCTGCAAGTATTCCTGCTCCTCGTCCTGTGGTGC
TCAAGAGCCATGTGCTGGTGATGAAATTTCTGGGGACGGACGGCTGGCCC
GCCCCAAGGCTCAAGGATGTGCAGGGGATGGGGGAGAAGAGGATGGGTAA
GGTGTACTGGGAGTGCCTTAAGCTGATGCGGCGAATGTTCGTCGACTGCC
GCCTCGTCCACGGGGACCTGAGCGAGTATAACCTCCTCTACTTTCAAAAT
GAGCTGTACATCATTGATGTTTCTCAGTCCGTCGAGCACGATCACCCCCA
AGCCCTGGACTTCCTCCGGAAAGACTCCATGAATGTCAACGACTTTTTCG
AGCGGAGAGGGGTCCGGGTGGGGGGGACGAGGCGCACGTTCGATTTCATC
GTGAAGGAGGGCGGGACGGAGGAAGGGTGGCTTGAAGACGAGTGCGAGAA
AATGAGAGAGGAGGTTCGTAAGGCGGATGAAAGCGAGGAAGCAGAGGGAG
AGGAGGGGGGGAAAGGGAGGGAGGGAGGGCTTGAGGAGGCTGTGTTTATG
GGAAGTTACATTCCGCGGTCATTACATGAGTTGCCAAACAGCTTTGAGGA
GGCGAGGAGATTGGAGGCAGGGGAGAGAGAAGGAGTGTACACAGCGGCAG
TGAGGCAGATGCTGGTGCCTGTAAAGGAAGGGAAGGAGGAAGGAAAGGCC
AATGCGAAAGAGAAGAAAGAGCTAAAGCCTATTGATGGCGAGAAGAAAGA
GGAGGTAGAGGAGAGTAAGAATGGAGTAGAGGAGAGTAAGAATGGAGTAG
AGGAGGAAGTGGAGGGAGAGGAGGAAGAGGATGCGGACGAGGACGAGGAG
GGGGAGGAAGATGTGGACTGTGATGATGATGATGACGATGATCAAGACGA
CGAAGAATGGCGGGAGAAGAAGAAGGGGGGCATGGGCGGGCGGGGCCTGA
CGGAGGAGGAACGAGCGGCACGTAAGGCAGACCGTAAAGCGGACAAGAAA
GCGGTCAAGGCCGAGAGGTCAGAAAAACGCAAATCTAAGATCCCAAAGCA
CATTAAGAAAGCTAAAATTAAGGCAACATCGGGTGCGCGAAAGAAAAGGT
AG back to top
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