jgi.p|Nanoce1779_2|2601, mRNA_1300 (mRNA) Nannochloropsis oceanica

Overview
Namejgi.p|Nanoce1779_2|2601
Unique NamemRNA_1300
TypemRNA
OrganismNannochloropsis oceanica (N. oceanica CCMP1779)
Sequence length3349
Alignment locationscaffold_1:212094..215442 -

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Properties
Property NameValue
TranscriptId2687
TrackFilteredModels2
ProteinId2601
Mutants
Expression
No biomaterial libraries express this feature.
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold_1supercontigscaffold_1:212094..215442 -
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Gene prediction for N. oceanica CCMP17792008-02-01
Annotated Terms
Homology
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameSpeciesType
jgi.p|Nanoce1779_2|2601gene_1300Nannochloropsis oceanica (N. oceanica CCMP1779)gene


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesType
jgi.p|Nanoce1779_2|2601mRNA_1300-proteinNannochloropsis oceanica (N. oceanica CCMP1779)polypeptide


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
CDS_1300CDS_1300Nannochloropsis oceanica (N. oceanica CCMP1779)CDS


Sequences
The following sequences are available for this feature:

mRNA sequence

>mRNA_1300 ID=mRNA_1300|Name=jgi.p|Nanoce1779_2|2601|organism=Nannochloropsis oceanica|type=mRNA|length=3349bp
GGGGAACCTCCATTTACATCCCACTGATGCGTGCCCTGCTAACCTTAACC
CACATTCGCGACCTCATTCCCAGGACAGAGCGATGGAGTGGCACGGGGCT
CTGGGCACGACATCACCTGGGGCCAAAATGGCAGTAGTACGTGTTGTGGC
ACATGATGAGTTTGTGACGATGGGCTCCTGGCTGGTTGTACTCTCCTCCT
CCCGCTCCCAATAGCGCCCTGTTTAACTTACCGACGCCACCACATCCACA
GGTCACCAACGGCCCTGCCTCCAATATGGGCTCGTGATAAACCAGTTGAC
CCCCTTCCTTCACCACCACCGGTCATGACGATCATCAATGTGCTTGCACG
CGGCACTACGCCGGCCACCGCAGCAAGCGGCGACTCTATAGAGCGGCGCT
TTGGGTCCCAACTCAAGCGGACCCTCCGTCTCCTTCACCACGACGCCTAC
CTCCACCAACAGCAGCAGAAGCACCCATTTTCTGTTGATGTCCTAACAGA
GTTGCCCAAAGCATGGGCAATGCTGACCAAGGCTCGCCAAGCACTGGCAG
CAGAGTACCTTACGCAGCTTACGCGCCATGCTTCCTCCCCCTCCGCTTCC
TTCCCCGCCACCACCAACTCATTCTCATCATCATCATCATCATCATCACC
ACCACCGTCATTATCCGCGCCTCCTAAAGGGCTGGGTAATCGTCTCTGGC
TCTTGTTCTACAAAGAAATTGAGCCTCTCCAAAGTAAACTCCGGGCGGGT
CCCGCGCGAGAGATGGACGCAACGCCCGCGGAGCAGCGCGCTCAAGAACG
CGCCTTGTGGAAGGGGCGACTGGAAGCTGTCATGTTGGAGGGAGCAAGGC
TATTGACAAGGGCATTGGGAGAAATCCAAGCAGCAGGATCAGAGGAGGAA
GGAAGAGAAGGGGTGATGAATAATAATAATGAGGAGTCAGTAGCAGTAAT
GGTTGCTCTGGGCGACCTTGCCCGATATGCAGGGCGGATGATGGACGCTG
TGAAAGACTATGAGAACACGCTTAAGTGTTTGGAGCAGGCGGAGGGATGG
TACATGCAGGCCGTGCAAACTCGGCCGGGGCACGGTCGAGCATACAACCA
ACTAGCAATCATGGCCACCTTGAAATCGCAAGACGTCGGGGAAAGGGAGG
TATTAACCGCAGCATTCAATTATACCCGTGCCTTACTTGCGGATGGGGAG
CCGTTTGCTGCAAAGGACAATCTGATTGCGTTGTTGGACCGATGGAGGCG
AGCGCACGAAGCGGCCGTCAGTGCAGCGACGAAGGCGAAATCCCTGGAGT
GGCTGCGGCAGGCACGAGCGGAAGGGAATGGTACAGAAATTGAAAAGAAA
TCCATCGGTAGGGTTGGAGGGAAAATGAAAACCATGGGTGGGAGTGGTGG
TGGTGGTGTTCCCACTGCTGCTGCTGCGACGGGCCAAAGGGAAGAGAAGC
GGACGGCTTTTTTGCAAGCCCTTCTGAAGGGTTTACACATGGTTTACACC
CGGGTGGATCTCGATGCTCTTCCCTCCCACGCTCACCTTGTTGGACTGCA
CCTTGCAACGCTGGCGCAGTCCTTCCACCCCCTCCCTGGAAAGAGCAAGC
AGGCGATGAACACACAGCAGAGGAACGACCTGAAGAAGAATCGAAGTGCA
CGACACCCGACGGGTAAAGACGAGGACGAGAAGGAGAATCAGGAGGAGGA
CGATGGGGGAGGGTGGGGAGAAGCGGCGGCGGATGCCGCCGTAGAGCTGT
GTGAGCTTCATTCTGTGTATATGCAAACTGTGGTGGTAGTGACAGGAGCG
CTCTGGGCACGAGCAGAGGCAGTAGGTCTGTTCTCCTCTACGTCCTACAC
CACCACCATCACCACCCCCCAATTTCAACAGCGACAGCACCAACAGCACC
AACAGCACAAGCCACCTGCTGACGTGAAAGGGGCTCTTGCGCTCGTCATG
GAGATCGGCCTCGCCCTCGCCAAAAAGAGGAAAGGCAGCAAGGGAAGGTG
GGATGAAGGGAGTGGTCCGGCGCTTTTGCTGCTGCTGCAATGGCTGGAGG
TGAACCAAGGTTGGTTGTCCATCTTGCCGGAGGGAAATAGAACACACGAG
GTGGTGAAGACGGCGTGGGCGAGTGTGGGGCGGGGAGTAGGGATGGGAGG
GAAGGAATGTGGGGTTGGACGGGAGAGAGGGGAGGTGGTGGAGGAGAAGG
AAGAACAGGGGGAGGGCAAGGTGGAGGAGAAGCGTCGTGTGTCGGAGGAG
GAACAGGCAGTCTTGGGTGTGAGGGGATTTTGGAGGTCAAAAAAGGAAGG
ACAAAAGACGATGCTACTAGCACAGCGGCAGCTTTTGATGGGACAAGACA
AGGGAGGAAGGCGTGGAGGGAGGGACACGCAGGTGCGATGTCGTCGTTTG
CTTTTATCACTGGAGCGCTGGACGGAACGCGCACAGGGCGCCTGCTGTGA
TGCTGAAGAAGGGAAACATGCACGCCTGGATCCCCAGGGAGAAGGGACGG
TGGCGGCCGTAGGGAACGGTCACGCGCCGTTAGAAGCAACGTCAGCCAAA
GCTACATCGTTGTCCTGGCAGTCCATCACCCCTTCCTCCTCCTCCTCCTC
CTCCTCCTTATCCCCCCCCTCCTCTTCCTCGAACCTGTCTTCCGCAGACT
TAGCCACATCTATGGCCTCTCTCGTCCTCTCTTCTTCTGACCCCCGACCA
CCTAGCGGCATCCACCCCGCCCGCTCCTCCTCACTCTCCTTATCCGCCGC
CGCCTCCTCGAATTCCTCCTCCTCTCTCTTTTCTTCCTTCTCCCTCTTCT
CTTCTCCGCTCATCACCTCCCTCCCTCCCTCCACCCCTCCTTCTCCTCCT
CCTCCTCCTCCTCTTCCCATGTGTCCTTCTTGCTCCAATTTCATTGAGGC
TGAGGTCATCCATCACACCGACGCTTGCTGCGAGTGGTGTGGCCATGTCT
TTAACAAACAACACCAGCAACAGCACCACTACCACCACCACCACCAGCAG
CAGCAGCACCAGCATCGGGATACGTCAGCAGCGGCGGCGGCGGCGGCGTC
TGCTGCTACTGCTGCTGGATTCACTCCGACCAGCAGCAGCAGCAGCAGCA
GCAGCAGCGGCAGCAGCAGCAGCAGCAGCGGTGTGTCTCAAGTTATGGAT
TACCCGGGGTCGATTTTCTTGTCCTGCTTGGCATCGTCTTCCTCGCACCT
TCCTGCCGGAGGAGGGCTTGCACGGCCTCCCGGGCTGTAAACTATATTGA
CAAGTGAAGACCAGGGGTGCTTAACTGAGAACAACAGCAGCAGCAACAGC
AGCAGCATTTCGTGGGATGGCGGGTAGGAGAACCAGCTATGATATCCTT
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protein sequence of jgi.p|Nanoce1779_2|2601

>mRNA_1300-protein ID=mRNA_1300-protein|Name=jgi.p|Nanoce1779_2|2601|organism=Nannochloropsis oceanica|type=polypeptide|length=972bp
MTIINVLARGTTPATAASGDSIERRFGSQLKRTLRLLHHDAYLHQQQQKH
PFSVDVLTELPKAWAMLTKARQALAAEYLTQLTRHASSPSASFPATTNSF
SSSSSSSSPPPSLSAPPKGLGNRLWLLFYKEIEPLQSKLRAGPAREMDAT
PAEQRAQERALWKGRLEAVMLEGARLLTRALGEIQAAGSEEEGREGVMNN
NNEESVAVMVALGDLARYAGRMMDAVKDYENTLKCLEQAEGWYMQAVQTR
PGHGRAYNQLAIMATLKSQDVGEREVLTAAFNYTRALLADGEPFAAKDNL
IALLDRWRRAHEAAVSAATKAKSLEWLRQARAEGNGTEIEKKSIGRVGGK
MKTMGGSGGGGVPTAAAATGQREEKRTAFLQALLKGLHMVYTRVDLDALP
SHAHLVGLHLATLAQSFHPLPGKSKQAMNTQQRNDLKKNRSARHPTGKDE
DEKENQEEDDGGGWGEAAADAAVELCELHSVYMQTVVVVTGALWARAEAV
GLFSSTSYTTTITTPQFQQRQHQQHQQHKPPADVKGALALVMEIGLALAK
KRKGSKGRWDEGSGPALLLLLQWLEVNQGWLSILPEGNRTHEVVKTAWAS
VGRGVGMGGKECGVGRERGEVVEEKEEQGEGKVEEKRRVSEEEQAVLGVR
GFWRSKKEGQKTMLLAQRQLLMGQDKGGRRGGRDTQVRCRRLLLSLERWT
ERAQGACCDAEEGKHARLDPQGEGTVAAVGNGHAPLEATSAKATSLSWQS
ITPSSSSSSSSLSPPSSSSNLSSADLATSMASLVLSSSDPRPPSGIHPAR
SSSLSLSAAASSNSSSSLFSSFSLFSSPLITSLPPSTPPSPPPPPPLPMC
PSCSNFIEAEVIHHTDACCEWCGHVFNKQHQQQHHYHHHHQQQQHQHRDT
SAAAAAAASAATAAGFTPTSSSSSSSSSGSSSSSSGVSQVMDYPGSIFLS
CLASSSSHLPAGGGLARPPGL*
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mRNA from alignment at scaffold_1:212094..215442-

Legend: polypeptideCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>mRNA_1300 ID=mRNA_1300|Name=jgi.p|Nanoce1779_2|2601|organism=Nannochloropsis oceanica|type=mRNA|length=3349bp|location=Sequence derived from alignment at scaffold_1:212094..215442- (Nannochloropsis oceanica)
GGGGAACCTCCATTTACATCCCACTGATGCGTGCCCTGCTAACCTTAACC
CACATTCGCGACCTCATTCCCAGGACAGAGCGATGGAGTGGCACGGGGCT
CTGGGCACGACATCACCTGGGGCCAAAATGGCAGTAGTACGTGTTGTGGC
ACATGATGAGTTTGTGACGATGGGCTCCTGGCTGGTTGTACTCTCCTCCT
CCCGCTCCCAATAGCGCCCTGTTTAACTTACCGACGCCACCACATCCACA
GGTCACCAACGGCCCTGCCTCCAATATGGGCTCGTGATAAACCAGTTGAC
CCCCTTCCTTCACCACCACCGGTCATGACGATCATCAATGTGCTTGCACG
CGGCACTACGCCGGCCACCGCAGCAAGCGGCGACTCTATAGAGCGGCGCT
TTGGGTCCCAACTCAAGCGGACCCTCCGTCTCCTTCACCACGACGCCTAC
CTCCACCAACAGCAGCAGAAGCACCCATTTTCTGTTGATGTCCTAACAGA
GTTGCCCAAAGCATGGGCAATGCTGACCAAGGCTCGCCAAGCACTGGCAG
CAGAGTACCTTACGCAGCTTACGCGCCATGCTTCCTCCCCCTCCGCTTCC
TTCCCCGCCACCACCAACTCATTCTCATCATCATCATCATCATCATCACC
ACCACCGTCATTATCCGCGCCTCCTAAAGGGCTGGGTAATCGTCTCTGGC
TCTTGTTCTACAAAGAAATTGAGCCTCTCCAAAGTAAACTCCGGGCGGGT
CCCGCGCGAGAGATGGACGCAACGCCCGCGGAGCAGCGCGCTCAAGAACG
CGCCTTGTGGAAGGGGCGACTGGAAGCTGTCATGTTGGAGGGAGCAAGGC
TATTGACAAGGGCATTGGGAGAAATCCAAGCAGCAGGATCAGAGGAGGAA
GGAAGAGAAGGGGTGATGAATAATAATAATGAGGAGTCAGTAGCAGTAAT
GGTTGCTCTGGGCGACCTTGCCCGATATGCAGGGCGGATGATGGACGCTG
TGAAAGACTATGAGAACACGCTTAAGTGTTTGGAGCAGGCGGAGGGATGG
TACATGCAGGCCGTGCAAACTCGGCCGGGGCACGGTCGAGCATACAACCA
ACTAGCAATCATGGCCACCTTGAAATCGCAAGACGTCGGGGAAAGGGAGG
TATTAACCGCAGCATTCAATTATACCCGTGCCTTACTTGCGGATGGGGAG
CCGTTTGCTGCAAAGGACAATCTGATTGCGTTGTTGGACCGATGGAGGCG
AGCGCACGAAGCGGCCGTCAGTGCAGCGACGAAGGCGAAATCCCTGGAGT
GGCTGCGGCAGGCACGAGCGGAAGGGAATGGTACAGAAATTGAAAAGAAA
TCCATCGGTAGGGTTGGAGGGAAAATGAAAACCATGGGTGGGAGTGGTGG
TGGTGGTGTTCCCACTGCTGCTGCTGCGACGGGCCAAAGGGAAGAGAAGC
GGACGGCTTTTTTGCAAGCCCTTCTGAAGGGTTTACACATGGTTTACACC
CGGGTGGATCTCGATGCTCTTCCCTCCCACGCTCACCTTGTTGGACTGCA
CCTTGCAACGCTGGCGCAGTCCTTCCACCCCCTCCCTGGAAAGAGCAAGC
AGGCGATGAACACACAGCAGAGGAACGACCTGAAGAAGAATCGAAGTGCA
CGACACCCGACGGGTAAAGACGAGGACGAGAAGGAGAATCAGGAGGAGGA
CGATGGGGGAGGGTGGGGAGAAGCGGCGGCGGATGCCGCCGTAGAGCTGT
GTGAGCTTCATTCTGTGTATATGCAAACTGTGGTGGTAGTGACAGGAGCG
CTCTGGGCACGAGCAGAGGCAGTAGGTCTGTTCTCCTCTACGTCCTACAC
CACCACCATCACCACCCCCCAATTTCAACAGCGACAGCACCAACAGCACC
AACAGCACAAGCCACCTGCTGACGTGAAAGGGGCTCTTGCGCTCGTCATG
GAGATCGGCCTCGCCCTCGCCAAAAAGAGGAAAGGCAGCAAGGGAAGGTG
GGATGAAGGGAGTGGTCCGGCGCTTTTGCTGCTGCTGCAATGGCTGGAGG
TGAACCAAGGTTGGTTGTCCATCTTGCCGGAGGGAAATAGAACACACGAG
GTGGTGAAGACGGCGTGGGCGAGTGTGGGGCGGGGAGTAGGGATGGGAGG
GAAGGAATGTGGGGTTGGACGGGAGAGAGGGGAGGTGGTGGAGGAGAAGG
AAGAACAGGGGGAGGGCAAGGTGGAGGAGAAGCGTCGTGTGTCGGAGGAG
GAACAGGCAGTCTTGGGTGTGAGGGGATTTTGGAGGTCAAAAAAGGAAGG
ACAAAAGACGATGCTACTAGCACAGCGGCAGCTTTTGATGGGACAAGACA
AGGGAGGAAGGCGTGGAGGGAGGGACACGCAGGTGCGATGTCGTCGTTTG
CTTTTATCACTGGAGCGCTGGACGGAACGCGCACAGGGCGCCTGCTGTGA
TGCTGAAGAAGGGAAACATGCACGCCTGGATCCCCAGGGAGAAGGGACGG
TGGCGGCCGTAGGGAACGGTCACGCGCCGTTAGAAGCAACGTCAGCCAAA
GCTACATCGTTGTCCTGGCAGTCCATCACCCCTTCCTCCTCCTCCTCCTC
CTCCTCCTTATCCCCCCCCTCCTCTTCCTCGAACCTGTCTTCCGCAGACT
TAGCCACATCTATGGCCTCTCTCGTCCTCTCTTCTTCTGACCCCCGACCA
CCTAGCGGCATCCACCCCGCCCGCTCCTCCTCACTCTCCTTATCCGCCGC
CGCCTCCTCGAATTCCTCCTCCTCTCTCTTTTCTTCCTTCTCCCTCTTCT
CTTCTCCGCTCATCACCTCCCTCCCTCCCTCCACCCCTCCTTCTCCTCCT
CCTCCTCCTCCTCTTCCCATGTGTCCTTCTTGCTCCAATTTCATTGAGGC
TGAGGTCATCCATCACACCGACGCTTGCTGCGAGTGGTGTGGCCATGTCT
TTAACAAACAACACCAGCAACAGCACCACTACCACCACCACCACCAGCAG
CAGCAGCACCAGCATCGGGATACGTCAGCAGCGGCGGCGGCGGCGGCGTC
TGCTGCTACTGCTGCTGGATTCACTCCGACCAGCAGCAGCAGCAGCAGCA
GCAGCAGCGGCAGCAGCAGCAGCAGCAGCGGTGTGTCTCAAGTTATGGAT
TACCCGGGGTCGATTTTCTTGTCCTGCTTGGCATCGTCTTCCTCGCACCT
TCCTGCCGGAGGAGGGCTTGCACGGCCTCCCGGGCTGTAAACTATATTGA
CAAGTGAAGACCAGGGGTGCTTAACTGAGAACAACAGCAGCAGCAACAGC
AGCAGCATTTCGTGGGATGGCGGGTAGGAGAACCAGCTATGATATCCTT
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Coding sequence (CDS) from alignment at scaffold_1:212094..215442-

>mRNA_1300 ID=mRNA_1300|Name=jgi.p|Nanoce1779_2|2601|organism=Nannochloropsis oceanica|type=CDS|length=2916bp|location=Sequence derived from alignment at scaffold_1:212094..215442- (Nannochloropsis oceanica)
ATGACGATCATCAATGTGCTTGCACGCGGCACTACGCCGGCCACCGCAGC
AAGCGGCGACTCTATAGAGCGGCGCTTTGGGTCCCAACTCAAGCGGACCC
TCCGTCTCCTTCACCACGACGCCTACCTCCACCAACAGCAGCAGAAGCAC
CCATTTTCTGTTGATGTCCTAACAGAGTTGCCCAAAGCATGGGCAATGCT
GACCAAGGCTCGCCAAGCACTGGCAGCAGAGTACCTTACGCAGCTTACGC
GCCATGCTTCCTCCCCCTCCGCTTCCTTCCCCGCCACCACCAACTCATTC
TCATCATCATCATCATCATCATCACCACCACCGTCATTATCCGCGCCTCC
TAAAGGGCTGGGTAATCGTCTCTGGCTCTTGTTCTACAAAGAAATTGAGC
CTCTCCAAAGTAAACTCCGGGCGGGTCCCGCGCGAGAGATGGACGCAACG
CCCGCGGAGCAGCGCGCTCAAGAACGCGCCTTGTGGAAGGGGCGACTGGA
AGCTGTCATGTTGGAGGGAGCAAGGCTATTGACAAGGGCATTGGGAGAAA
TCCAAGCAGCAGGATCAGAGGAGGAAGGAAGAGAAGGGGTGATGAATAAT
AATAATGAGGAGTCAGTAGCAGTAATGGTTGCTCTGGGCGACCTTGCCCG
ATATGCAGGGCGGATGATGGACGCTGTGAAAGACTATGAGAACACGCTTA
AGTGTTTGGAGCAGGCGGAGGGATGGTACATGCAGGCCGTGCAAACTCGG
CCGGGGCACGGTCGAGCATACAACCAACTAGCAATCATGGCCACCTTGAA
ATCGCAAGACGTCGGGGAAAGGGAGGTATTAACCGCAGCATTCAATTATA
CCCGTGCCTTACTTGCGGATGGGGAGCCGTTTGCTGCAAAGGACAATCTG
ATTGCGTTGTTGGACCGATGGAGGCGAGCGCACGAAGCGGCCGTCAGTGC
AGCGACGAAGGCGAAATCCCTGGAGTGGCTGCGGCAGGCACGAGCGGAAG
GGAATGGTACAGAAATTGAAAAGAAATCCATCGGTAGGGTTGGAGGGAAA
ATGAAAACCATGGGTGGGAGTGGTGGTGGTGGTGTTCCCACTGCTGCTGC
TGCGACGGGCCAAAGGGAAGAGAAGCGGACGGCTTTTTTGCAAGCCCTTC
TGAAGGGTTTACACATGGTTTACACCCGGGTGGATCTCGATGCTCTTCCC
TCCCACGCTCACCTTGTTGGACTGCACCTTGCAACGCTGGCGCAGTCCTT
CCACCCCCTCCCTGGAAAGAGCAAGCAGGCGATGAACACACAGCAGAGGA
ACGACCTGAAGAAGAATCGAAGTGCACGACACCCGACGGGTAAAGACGAG
GACGAGAAGGAGAATCAGGAGGAGGACGATGGGGGAGGGTGGGGAGAAGC
GGCGGCGGATGCCGCCGTAGAGCTGTGTGAGCTTCATTCTGTGTATATGC
AAACTGTGGTGGTAGTGACAGGAGCGCTCTGGGCACGAGCAGAGGCAGTA
GGTCTGTTCTCCTCTACGTCCTACACCACCACCATCACCACCCCCCAATT
TCAACAGCGACAGCACCAACAGCACCAACAGCACAAGCCACCTGCTGACG
TGAAAGGGGCTCTTGCGCTCGTCATGGAGATCGGCCTCGCCCTCGCCAAA
AAGAGGAAAGGCAGCAAGGGAAGGTGGGATGAAGGGAGTGGTCCGGCGCT
TTTGCTGCTGCTGCAATGGCTGGAGGTGAACCAAGGTTGGTTGTCCATCT
TGCCGGAGGGAAATAGAACACACGAGGTGGTGAAGACGGCGTGGGCGAGT
GTGGGGCGGGGAGTAGGGATGGGAGGGAAGGAATGTGGGGTTGGACGGGA
GAGAGGGGAGGTGGTGGAGGAGAAGGAAGAACAGGGGGAGGGCAAGGTGG
AGGAGAAGCGTCGTGTGTCGGAGGAGGAACAGGCAGTCTTGGGTGTGAGG
GGATTTTGGAGGTCAAAAAAGGAAGGACAAAAGACGATGCTACTAGCACA
GCGGCAGCTTTTGATGGGACAAGACAAGGGAGGAAGGCGTGGAGGGAGGG
ACACGCAGGTGCGATGTCGTCGTTTGCTTTTATCACTGGAGCGCTGGACG
GAACGCGCACAGGGCGCCTGCTGTGATGCTGAAGAAGGGAAACATGCACG
CCTGGATCCCCAGGGAGAAGGGACGGTGGCGGCCGTAGGGAACGGTCACG
CGCCGTTAGAAGCAACGTCAGCCAAAGCTACATCGTTGTCCTGGCAGTCC
ATCACCCCTTCCTCCTCCTCCTCCTCCTCCTCCTTATCCCCCCCCTCCTC
TTCCTCGAACCTGTCTTCCGCAGACTTAGCCACATCTATGGCCTCTCTCG
TCCTCTCTTCTTCTGACCCCCGACCACCTAGCGGCATCCACCCCGCCCGC
TCCTCCTCACTCTCCTTATCCGCCGCCGCCTCCTCGAATTCCTCCTCCTC
TCTCTTTTCTTCCTTCTCCCTCTTCTCTTCTCCGCTCATCACCTCCCTCC
CTCCCTCCACCCCTCCTTCTCCTCCTCCTCCTCCTCCTCTTCCCATGTGT
CCTTCTTGCTCCAATTTCATTGAGGCTGAGGTCATCCATCACACCGACGC
TTGCTGCGAGTGGTGTGGCCATGTCTTTAACAAACAACACCAGCAACAGC
ACCACTACCACCACCACCACCAGCAGCAGCAGCACCAGCATCGGGATACG
TCAGCAGCGGCGGCGGCGGCGGCGTCTGCTGCTACTGCTGCTGGATTCAC
TCCGACCAGCAGCAGCAGCAGCAGCAGCAGCAGCGGCAGCAGCAGCAGCA
GCAGCGGTGTGTCTCAAGTTATGGATTACCCGGGGTCGATTTTCTTGTCC
TGCTTGGCATCGTCTTCCTCGCACCTTCCTGCCGGAGGAGGGCTTGCACG
GCCTCCCGGGCTGTAA
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Synonyms
Publications